src/common/tmapcolrs.c

#ifndef lint
static const char       RCSid[] = "$Id: tmapcolrs.c,v 3.32 2018/08/02 18:33:42 greg Exp $";
#endif
/*
 * Routines for tone mapping on Radiance RGBE and XYZE pictures.
 *
 * Externals declared in tonemap.h
 */

#include "copyright.h"

#include        <stdio.h>
#include        <stdlib.h>
#include        <string.h>
#include        <math.h>
#include        <time.h>

#ifdef PCOND
#include        "paths.h"
#endif
#include        "tmprivat.h"
#include        "rtio.h"
#include        "resolu.h"

#define GAMTSZ  4096

typedef struct {
        uby8            gamb[GAMTSZ];   /* gamma lookup table */
        int             clfb[3];        /* encoded tm->clf */
        int32           cmatb[3][3];    /* encoded color transform */
        TMbright        inpsfb;         /* encoded tm->inpsf */
} COLRDATA;

static MEM_PTR  colrInit(TMstruct *);
static void     colrNewSpace(TMstruct *);
static gethfunc headline;

static struct tmPackage colrPkg = {     /* our package functions */
        colrInit, colrNewSpace, free
};
static int      colrReg = -1;           /* our package registration number */

static TMbright logi[256];


int
tmCvColrs(                              /* convert RGBE/XYZE colors */
TMstruct        *tms,
TMbright        *ls,
uby8    *cs,
COLR    *scan,
int     len
)
{
        static const char       funcName[] = "tmCvColrs";
        int     cmon[4];
        COLRDATA        *cd;
        int     i, j, bi;
        int32   li, vl;

        if (tms == NULL)
                returnErr(TM_E_TMINVAL);
        if ((ls == NULL) | (scan == NULL) | (len < 0))
                returnErr(TM_E_ILLEGAL);
        if (colrReg < 0) {                      /* build tables if necessary */
                colrReg = tmRegPkg(&colrPkg);
                if (colrReg < 0)
                        returnErr(TM_E_CODERR1);
                for (i = 256; i--; )
                        logi[i] = TM_BRTSCALE*log((i+.5)/256.) - .5;
                tmMkMesofact();
        }
        if ((cd = (COLRDATA *)tmPkgData(tms,colrReg)) == NULL)
                returnErr(TM_E_NOMEM);
        for (i = len; i--; ) {
                if (tmNeedMatrix(tms)) {                /* apply color xform */
                        for (j = 3; j--; ) {
                                vl =    cd->cmatb[j][RED]*(int32)scan[i][RED] +
                                        cd->cmatb[j][GRN]*(int32)scan[i][GRN] +
                                        cd->cmatb[j][BLU]*(int32)scan[i][BLU] ;
                                if (vl < 0) cmon[j] = vl/0x10000;
                                else cmon[j] = vl>>16;
                        }
                        cmon[EXP] = scan[i][EXP];
                } else
                        copycolr(cmon, scan[i]);
                                                        /* world luminance */
                li =    cd->clfb[RED]*(int32)cmon[RED] +
                        cd->clfb[GRN]*(int32)cmon[GRN] +
                        cd->clfb[BLU]*(int32)cmon[BLU] ;
                if (li >= 1L<<(12+8)) li = 255;
                else li >>= 12;
                bi = BRT2SCALE(cmon[EXP]-COLXS) + cd->inpsfb;
                if (li > 0)
                        bi += logi[li];
                else {
                        bi += logi[0];
                        li = 1;                         /* avoid /0 */
                }
                ls[i] = bi;
                if (cs == TM_NOCHROM)                   /* no color? */
                        continue;
                                                        /* mesopic adj. */
                if (tms->flags & TM_F_MESOPIC && bi < BMESUPPER) {
                        int     pf, sli = normscot(cmon);
                        if (bi < BMESLOWER) {
                                cmon[RED] = cmon[GRN] = cmon[BLU] = sli;
                        } else {
                                if (tms->flags & TM_F_BW)
                                        cmon[RED] = cmon[GRN] = cmon[BLU] = li;
                                pf = tmMesofact[bi-BMESLOWER];
                                sli *= 256 - pf;
                                for (j = 3; j--; ) {
                                        cmon[j] = sli + pf*cmon[j];
                                        if (cmon[j] <= 0) cmon[j] = 0;
                                        else cmon[j] >>= 8;
                                }
                        }
                } else if (tms->flags & TM_F_BW) {
                        cmon[RED] = cmon[GRN] = cmon[BLU] = li;
                } else {
                        for (j = 3; j--; )
                                if (cmon[j] < 0) cmon[j] = 0;
                }
                bi = ( (uint32)GAMTSZ*cd->clfb[RED]*cmon[RED]/li ) >> 12;
                cs[3*i  ] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
                bi = ( (uint32)GAMTSZ*cd->clfb[GRN]*cmon[GRN]/li ) >> 12;
                cs[3*i+1] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
                bi = ( (uint32)GAMTSZ*cd->clfb[BLU]*cmon[BLU]/li ) >> 12;
                cs[3*i+2] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
        }
        returnOK;
}


#define FMTRGB          1       /* Input is RGBE */
#define FMTCIE          2       /* Input is CIE XYZE */
#define FMTUNK          3       /* Input format is unspecified */
#define FMTBAD          4       /* Input is not a recognized format */

static struct radhead {
        int     format;         /* FMTRGB, FMTCIE, FMTUNK, FMTBAD */
        double  expos;          /* input exposure value */
        RGBPRIMP        primp;  /* input primaries */
        RGBPRIMS        mypri;  /* custom primaries */
} rhdefault = {FMTUNK, 1., stdprims, STDPRIMS};


static int
headline(                       /* grok a header line */
        char    *s,
        void    *vrh
)
{
        char    fmt[MAXFMTLEN];
        struct radhead  *rh = vrh;

        if (formatval(fmt, s)) {
                if (!strcmp(fmt, COLRFMT))
                        rh->format = FMTRGB;
                else if (!strcmp(fmt, CIEFMT))
                        rh->format = FMTCIE;
                else
                        rh->format = FMTBAD;
                return(0);
        }
        if (isexpos(s)) {
                rh->expos *= exposval(s);
                return(0);
        }
        if (isprims(s)) {
                primsval(rh->mypri, s);
                rh->primp = rh->mypri;
                return(0);
        }
        return(0);
}


int
tmLoadPicture(                          /* convert Radiance picture */
TMstruct        *tms,
TMbright        **lpp,
uby8    **cpp,
int     *xp,
int     *yp,
char    *fname,
FILE    *fp
)
{
        char    *funcName = fname==NULL ? "tmLoadPicture" : fname;
        FILE    *inpf;
        struct radhead  info;
        int     err;
        COLR    *scanin = NULL;
        int     i;
                                                /* check arguments */
        if (tms == NULL)
                returnErr(TM_E_TMINVAL);
        if ((lpp == NULL) | (xp == NULL) | (yp == NULL) |
                        ((fname == NULL) & (fp == TM_GETFILE)))
                returnErr(TM_E_ILLEGAL);
        *xp = *yp = 0;                          /* error precaution */
        if ((inpf = fp) == TM_GETFILE && (inpf = fopen(fname, "rb")) == NULL)
                returnErr(TM_E_BADFILE);
        *lpp = NULL;
        if (cpp != TM_NOCHROMP) *cpp = NULL;
        info = rhdefault;                       /* get our header */
        getheader(inpf, headline, &info);
        if ((info.format == FMTBAD) | (info.expos <= 0.) ||
                        fgetresolu(xp, yp, inpf) < 0) {
                err = TM_E_BADFILE; goto done;
        }
        if (info.format == FMTUNK)              /* assume RGBE format */
                info.format = FMTRGB;
        if (info.format == FMTRGB)
                info.expos /= WHTEFFICACY;
        else if (info.format == FMTCIE)
                info.primp = TM_XYZPRIM;
                                                /* prepare library */
        if ((err = tmSetSpace(tms, info.primp, 1./info.expos, NULL)) != TM_E_OK)
                goto done;
        err = TM_E_NOMEM;                       /* allocate arrays */
        *lpp = (TMbright *)malloc(sizeof(TMbright) * *xp * *yp);
        if (*lpp == NULL)
                goto done;
        if (cpp != TM_NOCHROMP) {
                *cpp = (uby8 *)malloc(3*sizeof(uby8) * *xp * *yp);
                if (*cpp == NULL)
                        goto done;
        }
        scanin = (COLR *)malloc(sizeof(COLR) * *xp);
        if (scanin == NULL)
                goto done;
        err = TM_E_BADFILE;                     /* read & convert scanlines */
        for (i = 0; i < *yp; i++) {
                if (freadcolrs(scanin, *xp, inpf) < 0) {
                        err = TM_E_BADFILE; break;
                }
                err = tmCvColrs(tms, *lpp + (i * *xp),
                        cpp==TM_NOCHROMP ? TM_NOCHROM : *cpp + (i * 3 * *xp),
                                scanin, *xp);
                if (err != TM_E_OK)
                        break;
        }
done:                                           /* clean up */
        if (fp == NULL)
                fclose(inpf);
        if (scanin != NULL)
                free((MEM_PTR)scanin);
        if (err != TM_E_OK) {
                if (*lpp != NULL)
                        free((MEM_PTR)*lpp);
                if (cpp != TM_NOCHROMP && *cpp != NULL)
                        free((MEM_PTR)*cpp);
                returnErr(err);
        }
        returnOK;
}


#ifdef PCOND
static int                                      /* run pcond to map picture */
dopcond(psp, xp, yp, flags, monpri, gamval, Lddyn, Ldmax, fname)
uby8    **psp;
int     *xp, *yp;
int     flags;
RGBPRIMP        monpri;
double  gamval, Lddyn, Ldmax;
char    *fname;
{
        char    *funcName = fname;
        TMstruct        *tms = NULL;
        char    cmdbuf[1024];
        FILE    *infp;
        COLR    *scan;
        uby8    *rp;
        int     y;
        int     x;
                                        /* set up gamma correction */
        if (setcolrcor(pow, 1./gamval) < 0)
                returnErr(TM_E_NOMEM);
                                        /* create command */
        strcpy(cmdbuf, PCOND);
        if (flags & TM_F_HCONTR)
                strcat(cmdbuf, " -s");
        if (flags & TM_F_MESOPIC)
                strcat(cmdbuf, " -c");
        if (flags & TM_F_LINEAR)
                strcat(cmdbuf, " -l");
        if (flags & TM_F_ACUITY)
                strcat(cmdbuf, " -a");
        if (flags & TM_F_VEIL)
                strcat(cmdbuf, " -v");
        if (flags & TM_F_CWEIGHT)
                strcat(cmdbuf, " -w");
        if (monpri != stdprims)
                sprintf(cmdbuf+strlen(cmdbuf), " -p %f %f %f %f %f %f %f %f",
                                monpri[RED][CIEX], monpri[RED][CIEY],
                                monpri[GRN][CIEX], monpri[GRN][CIEY],
                                monpri[BLU][CIEX], monpri[BLU][CIEY],
                                monpri[WHT][CIEX], monpri[WHT][CIEY]);
        sprintf(cmdbuf+strlen(cmdbuf), " -d %f -u %f %s", Lddyn, Ldmax, fname);
                                        /* start pcond */
        if ((infp = popen(cmdbuf, "r")) == NULL)
                returnErr(TM_E_BADFILE);
                                        /* check picture format and size */
        if (checkheader(infp, COLRFMT, NULL) < 0 ||
                        fgetresolu(xp, yp, infp) < 0) {
                pclose(infp);
                returnErr(TM_E_BADFILE);
        }
                                        /* allocate arrays */
        scan = (COLR *)malloc(sizeof(COLR) * *xp);
        if (flags & TM_F_BW)
                rp = (uby8 *)malloc(sizeof(uby8) * *xp * *yp);
        else
                rp = (uby8 *)malloc(3*sizeof(uby8) * *xp * *yp);
        if (((*psp = rp) == NULL) | (scan == NULL)) {
                pclose(infp);
                returnErr(TM_E_NOMEM);
        }
                                        /* read and gamma map file */
        for (y = 0; y < *yp; y++) {
                if (freadcolrs(scan, *xp, infp) < 0) {
                        pclose(infp);
                        free((MEM_PTR)scan);
                        free((MEM_PTR)*psp);
                        *psp = NULL;
                        returnErr(TM_E_BADFILE);
                }
                colrs_gambs(scan, *xp);
                if (flags & TM_F_BW)
                        for (x = 0; x < *xp; x++)
                                *rp++ = normbright(scan[x]);
                else
                        for (x = 0; x < *xp; x++) {
                                *rp++ = scan[x][RED];
                                *rp++ = scan[x][GRN];
                                *rp++ = scan[x][BLU];
                        }
        }
        free((MEM_PTR)scan);
        pclose(infp);
        returnOK;
}
#endif


int                                     /* map a Radiance picture */
tmMapPicture(psp, xp, yp, flags, monpri, gamval, Lddyn, Ldmax, fname, fp)
uby8    **psp;
int     *xp, *yp;
int     flags;
RGBPRIMP        monpri;
double  gamval, Lddyn, Ldmax;
char    *fname;
FILE    *fp;
{
        char    *funcName = fname==NULL ? "tmMapPicture" : fname;
        TMstruct        *tms = NULL;
        uby8    *cp;
        TMbright        *lp;
        int     err;
                                                /* check arguments */
        if ((psp == NULL) | (xp == NULL) | (yp == NULL) | (monpri == NULL) |
                        ((fname == NULL) & (fp == TM_GETFILE)))
                returnErr(TM_E_ILLEGAL);
                                                /* set defaults */
        if (gamval < MINGAM) gamval = DEFGAM;
        if (Lddyn < MINLDDYN) Lddyn = DEFLDDYN;
        if (Ldmax < MINLDMAX) Ldmax = DEFLDMAX;
        if (flags & TM_F_BW) monpri = stdprims;
#ifdef PCOND
                                                /* check for pcond run */
        if (fp == TM_GETFILE && flags & TM_F_UNIMPL)
                return( dopcond(psp, xp, yp, flags,
                                monpri, gamval, Lddyn, Ldmax, fname) );
#endif
                                                /* initialize tone mapping */
        if ((tms = tmInit(flags, monpri, gamval)) == NULL)
                returnErr(TM_E_NOMEM);
                                                /* load & convert picture */
        err = tmLoadPicture(tms, &lp, (flags&TM_F_BW) ? TM_NOCHROMP : &cp,
                        xp, yp, fname, fp);
        if (err != TM_E_OK) {
                tmDone(tms);
                return(err);
        }
                                                /* allocate space for result */
        if (flags & TM_F_BW) {
                *psp = (uby8 *)malloc(sizeof(uby8) * *xp * *yp);
                if (*psp == NULL) {
                        free((MEM_PTR)lp);
                        tmDone(tms);
                        returnErr(TM_E_NOMEM);
                }
                cp = TM_NOCHROM;
        } else
                *psp = cp;
                                                /* compute color mapping */
        err = tmAddHisto(tms, lp, *xp * *yp, 1);
        if (err != TM_E_OK)
                goto done;
        err = tmComputeMapping(tms, gamval, Lddyn, Ldmax);
        if (err != TM_E_OK)
                goto done;
                                                /* map colors */
        err = tmMapPixels(tms, *psp, lp, cp, *xp * *yp);

done:                                           /* clean up */
        free((MEM_PTR)lp);
        tmDone(tms);
        if (err != TM_E_OK) {                   /* free memory on error */
                free((MEM_PTR)*psp);
                *psp = NULL;
                returnErr(err);
        }
        returnOK;
}


static void
colrNewSpace(tms)               /* color space changed for tone mapping */
TMstruct        *tms;
{
        COLRDATA        *cd;
        double  d;
        int     i, j;

        cd = (COLRDATA *)tms->pd[colrReg];
        for (i = 3; i--; )
                cd->clfb[i] = 0x1000*tms->clf[i] + .5;
        cd->inpsfb = tmCvLuminance(tms->inpsf);
        for (i = 3; i--; )
                for (j = 3; j--; ) {
                        d = tms->cmat[i][j] / tms->inpsf;
                        cd->cmatb[i][j] = 0x10000*d + (d<0. ? -.5 : .5);
                }
}


static MEM_PTR
colrInit(tms)                   /* initialize private data for tone mapping */
TMstruct        *tms;
{
        COLRDATA        *cd;
        int     i;
                                        /* allocate our data */
        cd = (COLRDATA *)malloc(sizeof(COLRDATA));
        if (cd == NULL)
                return(NULL);
        tms->pd[colrReg] = (MEM_PTR)cd;
                                        /* compute gamma table */
        for (i = GAMTSZ; i--; )
                cd->gamb[i] = 256.*pow((i+.5)/GAMTSZ, 1./tms->mongam);
                                        /* compute color and scale factors */
        colrNewSpace(tms);
        return((MEM_PTR)cd);
}
Revision:	3.33
Committed:	Fri Jul 19 17:37:56 2019 UTC (4 years, 10 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 3.32:	+2 -1 lines
Log Message:	Moved declarations and definitions for header.c from resolu.h to rtio.h
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: tmapcolrs.c,v 3.32 2018/08/02 18:33:42 greg Exp $";
3	#endif
4	/*
5	* Routines for tone mapping on Radiance RGBE and XYZE pictures.
6	*
7	* Externals declared in tonemap.h
8	*/
9
10	#include "copyright.h"
11
12	#include <stdio.h>
13	#include <stdlib.h>
14	#include <string.h>
15	#include <math.h>
16	#include <time.h>
17
18	#ifdef PCOND
19	#include "paths.h"
20	#endif
21	#include "tmprivat.h"
22	#include "rtio.h"
23	#include "resolu.h"
24
25	#define GAMTSZ 4096
26
27	typedef struct {
28	uby8 gamb[GAMTSZ]; /* gamma lookup table */
29	int clfb[3]; /* encoded tm->clf */
30	int32 cmatb[3][3]; /* encoded color transform */
31	TMbright inpsfb; /* encoded tm->inpsf */
32	} COLRDATA;
33
34	static MEM_PTR colrInit(TMstruct *);
35	static void colrNewSpace(TMstruct *);
36	static gethfunc headline;
37
38	static struct tmPackage colrPkg = { /* our package functions */
39	colrInit, colrNewSpace, free
40	};
41	static int colrReg = -1; /* our package registration number */
42
43	static TMbright logi[256];
44
45
46	int
47	tmCvColrs( /* convert RGBE/XYZE colors */
48	TMstruct *tms,
49	TMbright *ls,
50	uby8 *cs,
51	COLR *scan,
52	int len
53	)
54	{
55	static const char funcName[] = "tmCvColrs";
56	int cmon[4];
57	COLRDATA *cd;
58	int i, j, bi;
59	int32 li, vl;
60
61	if (tms == NULL)
62	returnErr(TM_E_TMINVAL);
63	if ((ls == NULL) \| (scan == NULL) \| (len < 0))
64	returnErr(TM_E_ILLEGAL);
65	if (colrReg < 0) { /* build tables if necessary */
66	colrReg = tmRegPkg(&colrPkg);
67	if (colrReg < 0)
68	returnErr(TM_E_CODERR1);
69	for (i = 256; i--; )
70	logi[i] = TM_BRTSCALE*log((i+.5)/256.) - .5;
71	tmMkMesofact();
72	}
73	if ((cd = (COLRDATA *)tmPkgData(tms,colrReg)) == NULL)
74	returnErr(TM_E_NOMEM);
75	for (i = len; i--; ) {
76	if (tmNeedMatrix(tms)) { /* apply color xform */
77	for (j = 3; j--; ) {
78	vl = cd->cmatb[j][RED]*(int32)scan[i][RED] +
79	cd->cmatb[j][GRN]*(int32)scan[i][GRN] +
80	cd->cmatb[j][BLU]*(int32)scan[i][BLU] ;
81	if (vl < 0) cmon[j] = vl/0x10000;
82	else cmon[j] = vl>>16;
83	}
84	cmon[EXP] = scan[i][EXP];
85	} else
86	copycolr(cmon, scan[i]);
87	/* world luminance */
88	li = cd->clfb[RED]*(int32)cmon[RED] +
89	cd->clfb[GRN]*(int32)cmon[GRN] +
90	cd->clfb[BLU]*(int32)cmon[BLU] ;
91	if (li >= 1L<<(12+8)) li = 255;
92	else li >>= 12;
93	bi = BRT2SCALE(cmon[EXP]-COLXS) + cd->inpsfb;
94	if (li > 0)
95	bi += logi[li];
96	else {
97	bi += logi[0];
98	li = 1; /* avoid /0 */
99	}
100	ls[i] = bi;
101	if (cs == TM_NOCHROM) /* no color? */
102	continue;
103	/* mesopic adj. */
104	if (tms->flags & TM_F_MESOPIC && bi < BMESUPPER) {
105	int pf, sli = normscot(cmon);
106	if (bi < BMESLOWER) {
107	cmon[RED] = cmon[GRN] = cmon[BLU] = sli;
108	} else {
109	if (tms->flags & TM_F_BW)
110	cmon[RED] = cmon[GRN] = cmon[BLU] = li;
111	pf = tmMesofact[bi-BMESLOWER];
112	sli *= 256 - pf;
113	for (j = 3; j--; ) {
114	cmon[j] = sli + pf*cmon[j];
115	if (cmon[j] <= 0) cmon[j] = 0;
116	else cmon[j] >>= 8;
117	}
118	}
119	} else if (tms->flags & TM_F_BW) {
120	cmon[RED] = cmon[GRN] = cmon[BLU] = li;
121	} else {
122	for (j = 3; j--; )
123	if (cmon[j] < 0) cmon[j] = 0;
124	}
125	bi = ( (uint32)GAMTSZcd->clfb[RED]cmon[RED]/li ) >> 12;
126	cs[3*i ] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
127	bi = ( (uint32)GAMTSZcd->clfb[GRN]cmon[GRN]/li ) >> 12;
128	cs[3*i+1] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
129	bi = ( (uint32)GAMTSZcd->clfb[BLU]cmon[BLU]/li ) >> 12;
130	cs[3*i+2] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
131	}
132	returnOK;
133	}
134
135
136	#define FMTRGB 1 /* Input is RGBE */
137	#define FMTCIE 2 /* Input is CIE XYZE */
138	#define FMTUNK 3 /* Input format is unspecified */
139	#define FMTBAD 4 /* Input is not a recognized format */
140
141	static struct radhead {
142	int format; /* FMTRGB, FMTCIE, FMTUNK, FMTBAD */
143	double expos; /* input exposure value */
144	RGBPRIMP primp; /* input primaries */
145	RGBPRIMS mypri; /* custom primaries */
146	} rhdefault = {FMTUNK, 1., stdprims, STDPRIMS};
147
148
149	static int
150	headline( /* grok a header line */
151	char *s,
152	void *vrh
153	)
154	{
155	char fmt[MAXFMTLEN];
156	struct radhead *rh = vrh;
157
158	if (formatval(fmt, s)) {
159	if (!strcmp(fmt, COLRFMT))
160	rh->format = FMTRGB;
161	else if (!strcmp(fmt, CIEFMT))
162	rh->format = FMTCIE;
163	else
164	rh->format = FMTBAD;
165	return(0);
166	}
167	if (isexpos(s)) {
168	rh->expos *= exposval(s);
169	return(0);
170	}
171	if (isprims(s)) {
172	primsval(rh->mypri, s);
173	rh->primp = rh->mypri;
174	return(0);
175	}
176	return(0);
177	}
178
179
180	int
181	tmLoadPicture( /* convert Radiance picture */
182	TMstruct *tms,
183	TMbright **lpp,
184	uby8 **cpp,
185	int *xp,
186	int *yp,
187	char *fname,
188	FILE *fp
189	)
190	{
191	char *funcName = fname==NULL ? "tmLoadPicture" : fname;
192	FILE *inpf;
193	struct radhead info;
194	int err;
195	COLR *scanin = NULL;
196	int i;
197	/* check arguments */
198	if (tms == NULL)
199	returnErr(TM_E_TMINVAL);
200	if ((lpp == NULL) \| (xp == NULL) \| (yp == NULL) \|
201	((fname == NULL) & (fp == TM_GETFILE)))
202	returnErr(TM_E_ILLEGAL);
203	xp = yp = 0; /* error precaution */
204	if ((inpf = fp) == TM_GETFILE && (inpf = fopen(fname, "rb")) == NULL)
205	returnErr(TM_E_BADFILE);
206	*lpp = NULL;
207	if (cpp != TM_NOCHROMP) *cpp = NULL;
208	info = rhdefault; /* get our header */
209	getheader(inpf, headline, &info);
210	if ((info.format == FMTBAD) \| (info.expos <= 0.) \|\|
211	fgetresolu(xp, yp, inpf) < 0) {
212	err = TM_E_BADFILE; goto done;
213	}
214	if (info.format == FMTUNK) /* assume RGBE format */
215	info.format = FMTRGB;
216	if (info.format == FMTRGB)
217	info.expos /= WHTEFFICACY;
218	else if (info.format == FMTCIE)
219	info.primp = TM_XYZPRIM;
220	/* prepare library */
221	if ((err = tmSetSpace(tms, info.primp, 1./info.expos, NULL)) != TM_E_OK)
222	goto done;
223	err = TM_E_NOMEM; /* allocate arrays */
224	lpp = (TMbright )malloc(sizeof(TMbright) * xp *yp);
225	if (*lpp == NULL)
226	goto done;
227	if (cpp != TM_NOCHROMP) {
228	cpp = (uby8 )malloc(3sizeof(uby8) xp *yp);
229	if (*cpp == NULL)
230	goto done;
231	}
232	scanin = (COLR )malloc(sizeof(COLR) *xp);
233	if (scanin == NULL)
234	goto done;
235	err = TM_E_BADFILE; /* read & convert scanlines */
236	for (i = 0; i < *yp; i++) {
237	if (freadcolrs(scanin, *xp, inpf) < 0) {
238	err = TM_E_BADFILE; break;
239	}
240	err = tmCvColrs(tms, lpp + (i *xp),
241	cpp==TM_NOCHROMP ? TM_NOCHROM : cpp + (i 3 * *xp),
242	scanin, *xp);
243	if (err != TM_E_OK)
244	break;
245	}
246	done: /* clean up */
247	if (fp == NULL)
248	fclose(inpf);
249	if (scanin != NULL)
250	free((MEM_PTR)scanin);
251	if (err != TM_E_OK) {
252	if (*lpp != NULL)
253	free((MEM_PTR)*lpp);
254	if (cpp != TM_NOCHROMP && *cpp != NULL)
255	free((MEM_PTR)*cpp);
256	returnErr(err);
257	}
258	returnOK;
259	}
260
261
262	#ifdef PCOND
263	static int /* run pcond to map picture */
264	dopcond(psp, xp, yp, flags, monpri, gamval, Lddyn, Ldmax, fname)
265	uby8 **psp;
266	int xp, yp;
267	int flags;
268	RGBPRIMP monpri;
269	double gamval, Lddyn, Ldmax;
270	char *fname;
271	{
272	char *funcName = fname;
273	TMstruct *tms = NULL;
274	char cmdbuf[1024];
275	FILE *infp;
276	COLR *scan;
277	uby8 *rp;
278	int y;
279	int x;
280	/* set up gamma correction */
281	if (setcolrcor(pow, 1./gamval) < 0)
282	returnErr(TM_E_NOMEM);
283	/* create command */
284	strcpy(cmdbuf, PCOND);
285	if (flags & TM_F_HCONTR)
286	strcat(cmdbuf, " -s");
287	if (flags & TM_F_MESOPIC)
288	strcat(cmdbuf, " -c");
289	if (flags & TM_F_LINEAR)
290	strcat(cmdbuf, " -l");
291	if (flags & TM_F_ACUITY)
292	strcat(cmdbuf, " -a");
293	if (flags & TM_F_VEIL)
294	strcat(cmdbuf, " -v");
295	if (flags & TM_F_CWEIGHT)
296	strcat(cmdbuf, " -w");
297	if (monpri != stdprims)
298	sprintf(cmdbuf+strlen(cmdbuf), " -p %f %f %f %f %f %f %f %f",
299	monpri[RED][CIEX], monpri[RED][CIEY],
300	monpri[GRN][CIEX], monpri[GRN][CIEY],
301	monpri[BLU][CIEX], monpri[BLU][CIEY],
302	monpri[WHT][CIEX], monpri[WHT][CIEY]);
303	sprintf(cmdbuf+strlen(cmdbuf), " -d %f -u %f %s", Lddyn, Ldmax, fname);
304	/* start pcond */
305	if ((infp = popen(cmdbuf, "r")) == NULL)
306	returnErr(TM_E_BADFILE);
307	/* check picture format and size */
308	if (checkheader(infp, COLRFMT, NULL) < 0 \|\|
309	fgetresolu(xp, yp, infp) < 0) {
310	pclose(infp);
311	returnErr(TM_E_BADFILE);
312	}
313	/* allocate arrays */
314	scan = (COLR )malloc(sizeof(COLR) *xp);
315	if (flags & TM_F_BW)
316	rp = (uby8 )malloc(sizeof(uby8) xp *yp);
317	else
318	rp = (uby8 )malloc(3sizeof(uby8) * xp *yp);
319	if (((*psp = rp) == NULL) \| (scan == NULL)) {
320	pclose(infp);
321	returnErr(TM_E_NOMEM);
322	}
323	/* read and gamma map file */
324	for (y = 0; y < *yp; y++) {
325	if (freadcolrs(scan, *xp, infp) < 0) {
326	pclose(infp);
327	free((MEM_PTR)scan);
328	free((MEM_PTR)*psp);
329	*psp = NULL;
330	returnErr(TM_E_BADFILE);
331	}
332	colrs_gambs(scan, *xp);
333	if (flags & TM_F_BW)
334	for (x = 0; x < *xp; x++)
335	*rp++ = normbright(scan[x]);
336	else
337	for (x = 0; x < *xp; x++) {
338	*rp++ = scan[x][RED];
339	*rp++ = scan[x][GRN];
340	*rp++ = scan[x][BLU];
341	}
342	}
343	free((MEM_PTR)scan);
344	pclose(infp);
345	returnOK;
346	}
347	#endif
348
349
350	int /* map a Radiance picture */
351	tmMapPicture(psp, xp, yp, flags, monpri, gamval, Lddyn, Ldmax, fname, fp)
352	uby8 **psp;
353	int xp, yp;
354	int flags;
355	RGBPRIMP monpri;
356	double gamval, Lddyn, Ldmax;
357	char *fname;
358	FILE *fp;
359	{
360	char *funcName = fname==NULL ? "tmMapPicture" : fname;
361	TMstruct *tms = NULL;
362	uby8 *cp;
363	TMbright *lp;
364	int err;
365	/* check arguments */
366	if ((psp == NULL) \| (xp == NULL) \| (yp == NULL) \| (monpri == NULL) \|
367	((fname == NULL) & (fp == TM_GETFILE)))
368	returnErr(TM_E_ILLEGAL);
369	/* set defaults */
370	if (gamval < MINGAM) gamval = DEFGAM;
371	if (Lddyn < MINLDDYN) Lddyn = DEFLDDYN;
372	if (Ldmax < MINLDMAX) Ldmax = DEFLDMAX;
373	if (flags & TM_F_BW) monpri = stdprims;
374	#ifdef PCOND
375	/* check for pcond run */
376	if (fp == TM_GETFILE && flags & TM_F_UNIMPL)
377	return( dopcond(psp, xp, yp, flags,
378	monpri, gamval, Lddyn, Ldmax, fname) );
379	#endif
380	/* initialize tone mapping */
381	if ((tms = tmInit(flags, monpri, gamval)) == NULL)
382	returnErr(TM_E_NOMEM);
383	/* load & convert picture */
384	err = tmLoadPicture(tms, &lp, (flags&TM_F_BW) ? TM_NOCHROMP : &cp,
385	xp, yp, fname, fp);
386	if (err != TM_E_OK) {
387	tmDone(tms);
388	return(err);
389	}
390	/* allocate space for result */
391	if (flags & TM_F_BW) {
392	psp = (uby8 )malloc(sizeof(uby8) * xp *yp);
393	if (*psp == NULL) {
394	free((MEM_PTR)lp);
395	tmDone(tms);
396	returnErr(TM_E_NOMEM);
397	}
398	cp = TM_NOCHROM;
399	} else
400	*psp = cp;
401	/* compute color mapping */
402	err = tmAddHisto(tms, lp, xp *yp, 1);
403	if (err != TM_E_OK)
404	goto done;
405	err = tmComputeMapping(tms, gamval, Lddyn, Ldmax);
406	if (err != TM_E_OK)
407	goto done;
408	/* map colors */
409	err = tmMapPixels(tms, psp, lp, cp, xp * *yp);
410
411	done: /* clean up */
412	free((MEM_PTR)lp);
413	tmDone(tms);
414	if (err != TM_E_OK) { /* free memory on error */
415	free((MEM_PTR)*psp);
416	*psp = NULL;
417	returnErr(err);
418	}
419	returnOK;
420	}
421
422
423	static void
424	colrNewSpace(tms) /* color space changed for tone mapping */
425	TMstruct *tms;
426	{
427	COLRDATA *cd;
428	double d;
429	int i, j;
430
431	cd = (COLRDATA *)tms->pd[colrReg];
432	for (i = 3; i--; )
433	cd->clfb[i] = 0x1000*tms->clf[i] + .5;
434	cd->inpsfb = tmCvLuminance(tms->inpsf);
435	for (i = 3; i--; )
436	for (j = 3; j--; ) {
437	d = tms->cmat[i][j] / tms->inpsf;
438	cd->cmatb[i][j] = 0x10000*d + (d<0. ? -.5 : .5);
439	}
440	}
441
442
443	static MEM_PTR
444	colrInit(tms) /* initialize private data for tone mapping */
445	TMstruct *tms;
446	{
447	COLRDATA *cd;
448	int i;
449	/* allocate our data */
450	cd = (COLRDATA *)malloc(sizeof(COLRDATA));
451	if (cd == NULL)
452	return(NULL);
453	tms->pd[colrReg] = (MEM_PTR)cd;
454	/* compute gamma table */
455	for (i = GAMTSZ; i--; )
456	cd->gamb[i] = 256.*pow((i+.5)/GAMTSZ, 1./tms->mongam);
457	/* compute color and scale factors */
458	colrNewSpace(tms);
459	return((MEM_PTR)cd);
460	}