src/common/tmapluv.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 * Routines for tone-mapping LogLuv encoded pixels.
 *
 * Externals declared in tmaptiff.h
 */

/* ====================================================================
 * The Radiance Software License, Version 1.0
 *
 * Copyright (c) 1990 - 2002 The Regents of the University of California,
 * through Lawrence Berkeley National Laboratory.   All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *         notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *       notice, this list of conditions and the following disclaimer in
 *       the documentation and/or other materials provided with the
 *       distribution.
 *
 * 3. The end-user documentation included with the redistribution,
 *           if any, must include the following acknowledgment:
 *             "This product includes Radiance software
 *                 (http://radsite.lbl.gov/)
 *                 developed by the Lawrence Berkeley National Laboratory
 *               (http://www.lbl.gov/)."
 *       Alternately, this acknowledgment may appear in the software itself,
 *       if and wherever such third-party acknowledgments normally appear.
 *
 * 4. The names "Radiance," "Lawrence Berkeley National Laboratory"
 *       and "The Regents of the University of California" must
 *       not be used to endorse or promote products derived from this
 *       software without prior written permission. For written
 *       permission, please contact [email protected].
 *
 * 5. Products derived from this software may not be called "Radiance",
 *       nor may "Radiance" appear in their name, without prior written
 *       permission of Lawrence Berkeley National Laboratory.
 *
 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED.   IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR
 * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
 * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 * ====================================================================
 *
 * This software consists of voluntary contributions made by many
 * individuals on behalf of Lawrence Berkeley National Laboratory.   For more
 * information on Lawrence Berkeley National Laboratory, please see
 * <http://www.lbl.gov/>.
 */

#define LOGLUV_PUBLIC           1

#include <stdio.h>
#include <string.h>
#include <math.h>
#include "tiffio.h"
#include "tmprivat.h"
#include "tmaptiff.h"

#ifndef BSD
#define bzero(d,n)              (void)memset(d,0,n)
#endif
#define uvflgop(p,uv,op)        ((p)->rgbflg[(uv)>>5] op (1L<<((uv)&0x1f)))
#define isuvset(p,uv)           uvflgop(p,uv,&)
#define setuv(p,uv)             uvflgop(p,uv,|=)
#define clruv(p,uv)             uvflgop(p,uv,&=~)
#define clruvall(p)             bzero((MEM_PTR)(p)->rgbflg,sizeof((p)->rgbflg))

#ifdef NOPROTO
static MEM_PTR  luv32Init();
static void     luv32NewSpace();
static MEM_PTR  luv24Init();
static void     luv24NewSpace();
#else
static MEM_PTR  luv32Init(struct tmStruct *);
static void     luv32NewSpace(struct tmStruct *);
static MEM_PTR  luv24Init(struct tmStruct *);
static void     luv24NewSpace(struct tmStruct *);
#endif

typedef struct {
        int     offset;                 /* computed luminance offset */
        BYTE    rgbval[1<<16][3];       /* computed RGB value for given uv */
        uint32  rgbflg[1<<(16-5)];      /* flags for computed values */
} LUV32DATA;                    /* LogLuv 32-bit conversion data */

#define UVNEU                   ((int)(UVSCALE*U_NEU)<<8 \
                                        | (int)(UVSCALE*V_NEU))

static struct tmPackage  luv32Pkg = {   /* 32-bit package functions */
        luv32Init, luv32NewSpace, free
};
static int      luv32Reg = -1;          /* 32-bit package reg. number */

typedef struct {
        int     offset;                 /* computed luminance offset */
        BYTE    rgbval[1<<14][3];       /* computed rgb value for uv index */
        uint32  rgbflg[1<<(14-5)];      /* flags for computed values */
} LUV24DATA;                    /* LogLuv 24-bit conversion data */

static struct tmPackage  luv24Pkg = {   /* 24-bit package functions */
        luv24Init, luv24NewSpace, free
};
static int      luv24Reg = -1;          /* 24-bit package reg. number */

static int      uv14neu = -1;           /* neutral index for 14-bit (u',v') */


static void
uv2rgb(rgb, tm, uvp)                    /* compute RGB from uv coordinate */
BYTE    rgb[3];
register struct tmStruct        *tm;
double  uvp[2];
{       /* Should check that tm->inppri==TM_XYZPRIM beforehand... */
        double  d, x, y;
        COLOR   XYZ, RGB;
                                        /* convert to XYZ */
        d = 1./(6.*uvp[0] - 16.*uvp[1] + 12.);
        x = 9.*uvp[0] * d;
        y = 4.*uvp[1] * d;
        XYZ[CIEY] = 1./tm->inpsf;
        XYZ[CIEX] = x/y * XYZ[CIEY];
        XYZ[CIEZ] = (1.-x-y)/y * XYZ[CIEY];
                                        /* convert to RGB and clip */
        colortrans(RGB, tm->cmat, XYZ);
        clipgamut(RGB, 1., CGAMUT_LOWER, cblack, cwhite);
                                        /* perform final scaling & gamma */
        d = tm->clf[RED] * RGB[RED];
        rgb[RED] = d>=.999 ? 255 : (int)(256.*pow(d, 1./tm->mongam));
        d = tm->clf[GRN] * RGB[GRN];
        rgb[GRN] = d>=.999 ? 255 : (int)(256.*pow(d, 1./tm->mongam));
        d = tm->clf[BLU] * RGB[BLU];
        rgb[BLU] = d>=.999 ? 255 : (int)(256.*pow(d, 1./tm->mongam));
}


static TMbright
compmeshift(li, uvp)                    /* compute mesopic color shift */
TMbright        li;             /* encoded world luminance */
double  uvp[2];                 /* world (u',v') -> returned desaturated */
{
        double  scotrat;
        register double d;

        if (li >= BMESUPPER)
                return(li);
        scotrat = (.767676768 - 1.02356902*uvp[1])/uvp[0] - .343434343;
        if (li <= BMESLOWER) {
                d = 0.;
                uvp[0] = U_NEU; uvp[1] = V_NEU;
        } else {
                d = (tmMesofact[li-BMESLOWER] + .5) * (1./256.);
                uvp[0] = d*uvp[0] + (1.-d)*U_NEU;
                uvp[1] = d*uvp[1] + (1.-d)*V_NEU;
        }
        /*
        d = li + (double)TM_BRTSCALE*log(d + (1.-d)*scotrat);
        */
        d = d + (1.-d)*scotrat;
        d -= 1.;                        /* Taylor expansion of log(x) about 1 */
        d = d*(1. + d*(-.5 + d*(1./3. + d*-.125)));
        d = li + (double)TM_BRTSCALE*d;
        return((TMbright)(d>0. ? d+.5 : d-.5));
}


int
tmCvLuv32(ls, cs, luvs, len)            /* convert raw 32-bit LogLuv values */
TMbright        *ls;
BYTE    *cs;
uint32  *luvs;
int     len;
{
        static char     funcName[] = "tmCvLuv32";
        double  uvp[2];
        register LUV32DATA      *ld;
        register int    i, j;
                                        /* check arguments */
        if (tmTop == NULL)
                returnErr(TM_E_TMINVAL);
        if (ls == NULL | luvs == NULL | len < 0)
                returnErr(TM_E_ILLEGAL);
                                        /* check package registration */
        if (luv32Reg < 0) {
                if ((luv32Reg = tmRegPkg(&luv32Pkg)) < 0)
                        returnErr(TM_E_CODERR1);
                tmMkMesofact();
        }
                                        /* get package data */
        if ((ld = (LUV32DATA *)tmPkgData(tmTop,luv32Reg)) == NULL)
                returnErr(TM_E_NOMEM);
                                        /* convert each pixel */
        for (i = len; i--; ) {
                j = luvs[i] >> 16;              /* get luminance */
                if (j & 0x8000)                 /* negative luminance */
                        ls[i] = TM_NOBRT;       /* assign bogus value */
                else                            /* else convert to lnL */
                        ls[i] = (BRT2SCALE(j) >> 8) - ld->offset;
                if (cs == TM_NOCHROM)           /* no color? */
                        continue;
                                                /* get chrominance */
                if (tmTop->flags & TM_F_MESOPIC && ls[i] < BMESUPPER) {
                        uvp[0] = 1./UVSCALE*((luvs[i]>>8 & 0xff) + .5);
                        uvp[1] = 1./UVSCALE*((luvs[i] & 0xff) + .5);
                        ls[i] = compmeshift(ls[i], uvp);
                        j = tmTop->flags&TM_F_BW || ls[i]<BMESLOWER
                                        ? UVNEU
                                        : (int)(uvp[0]*UVSCALE)<<8
                                                | (int)(uvp[1]*UVSCALE);
                } else {
                        j = tmTop->flags&TM_F_BW ? UVNEU : luvs[i]&0xffff;
                }
                if (!isuvset(ld, j)) {
                        uvp[0] = 1./UVSCALE*((j>>8) + .5);
                        uvp[1] = 1./UVSCALE*((j & 0xff) + .5);
                        uv2rgb(ld->rgbval[j], tmTop, uvp);
                        setuv(ld, j);
                }
                cs[3*i  ] = ld->rgbval[j][RED];
                cs[3*i+1] = ld->rgbval[j][GRN];
                cs[3*i+2] = ld->rgbval[j][BLU];
        }
        returnOK;
}


int
tmCvLuv24(ls, cs, luvs, len)            /* convert raw 24-bit LogLuv values */
TMbright        *ls;
BYTE    *cs;
uint32  *luvs;
int     len;
{
        char    funcName[] = "tmCvLuv24";
        double  uvp[2];
        register LUV24DATA      *ld;
        register int    i, j;
                                        /* check arguments */
        if (tmTop == NULL)
                returnErr(TM_E_TMINVAL);
        if (ls == NULL | luvs == NULL | len < 0)
                returnErr(TM_E_ILLEGAL);
                                        /* check package registration */
        if (luv24Reg < 0) {
                if ((luv24Reg = tmRegPkg(&luv24Pkg)) < 0)
                        returnErr(TM_E_CODERR1);
                tmMkMesofact();
        }
                                        /* get package data */
        if ((ld = (LUV24DATA *)tmPkgData(tmTop,luv24Reg)) == NULL)
                returnErr(TM_E_NOMEM);
                                        /* convert each pixel */
        for (i = len; i--; ) {
                j = luvs[i] >> 14;              /* get luminance */
                ls[i] = (BRT2SCALE(j) >> 6) - ld->offset;
                if (cs == TM_NOCHROM)           /* no color? */
                        continue;
                                                /* get chrominance */
                if (tmTop->flags & TM_F_MESOPIC && ls[i] < BMESUPPER) {
                        if (uv_decode(uvp, uvp+1, luvs[i]&0x3fff) < 0) {
                                uvp[0] = U_NEU;         /* should barf? */
                                uvp[1] = V_NEU;
                        }
                        ls[i] = compmeshift(ls[i], uvp);
                        if (tmTop->flags&TM_F_BW || ls[i]<BMESLOWER
                                        || (j = uv_encode(uvp[0], uvp[1],
                                                SGILOGENCODE_NODITHER)) < 0)
                                j = uv14neu;
                } else {
                        j = tmTop->flags&TM_F_BW ? uv14neu : luvs[i]&0x3fff;
                }
                if (!isuvset(ld, j)) {
                        if (uv_decode(&uvp[0], &uvp[1], j) < 0) {
                                uvp[0] = U_NEU; uvp[1] = V_NEU;
                        }
                        uv2rgb(ld->rgbval[j], tmTop, uvp);
                        setuv(ld, j);
                }
                cs[3*i  ] = ld->rgbval[j][RED];
                cs[3*i+1] = ld->rgbval[j][GRN];
                cs[3*i+2] = ld->rgbval[j][BLU];
        }
        returnOK;
}


int
tmCvL16(ls, l16s, len)                  /* convert 16-bit LogL values */
TMbright        *ls;
uint16  *l16s;
int     len;
{
        static char     funcName[] = "tmCvL16";
        static double   lastsf;
        static int      offset;
        register int    i;
                                        /* check arguments */
        if (tmTop == NULL)
                returnErr(TM_E_TMINVAL);
        if (ls == NULL | l16s == NULL | len < 0)
                returnErr(TM_E_ILLEGAL);
                                        /* check scaling offset */
        if (!FEQ(tmTop->inpsf, lastsf)) {
                offset = BRT2SCALE(64);
                if (tmTop->inpsf > 1.0001)
                        offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)+.5);
                else if (tmTop->inpsf < 0.9999)
                        offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)-.5);
                lastsf = tmTop->inpsf;
        }
                                        /* convert each pixel */
        for (i = len; i--; ) {
                if (l16s[i] & 0x8000)           /* negative luminance */
                        ls[i] = TM_NOBRT;       /* assign bogus value */
                else                            /* else convert to lnL */
                        ls[i] = (BRT2SCALE(l16s[i]) >> 8) - offset;
        }
        returnOK;
}


static void
luv32NewSpace(tm)               /* initialize 32-bit LogLuv color space */
struct tmStruct *tm;
{
        register LUV32DATA      *ld;

        if (tm->inppri != TM_XYZPRIM) {         /* panic time! */
                fputs("Improper input color space in luv32NewSpace!\n", stderr);
                exit(1);
        }
        ld = (LUV32DATA *)tm->pd[luv32Reg];
        ld->offset = BRT2SCALE(64);
        if (tm->inpsf > 1.0001)
                ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)+.5);
        else if (tm->inpsf < 0.9999)
                ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)-.5);
        clruvall(ld);
}


static MEM_PTR
luv32Init(tm)                   /* allocate data for 32-bit LogLuv decoder */
struct tmStruct *tm;
{
        register LUV32DATA      *ld;

        ld = (LUV32DATA *)malloc(sizeof(LUV32DATA));
        if (ld == NULL)
                return(NULL);
        tm->pd[luv32Reg] = (MEM_PTR)ld;
        luv32NewSpace(tm);
        return((MEM_PTR)ld);
}


static void
luv24NewSpace(tm)               /* initialize 24-bit LogLuv color space */
struct tmStruct *tm;
{
        register LUV24DATA      *ld;

        if (tm->inppri != TM_XYZPRIM) {         /* panic time! */
                fputs("Improper input color space in luv24NewSpace!\n", stderr);
                exit(1);
        }
        ld = (LUV24DATA *)tm->pd[luv24Reg];
        ld->offset = BRT2SCALE(12);
        if (tm->inpsf > 1.0001)
                ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)+.5);
        else if (tm->inpsf < 0.9999)
                ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)-.5);
        clruvall(ld);
}


static MEM_PTR
luv24Init(tm)                   /* allocate data for 24-bit LogLuv decoder */
struct tmStruct *tm;
{
        register LUV24DATA      *ld;

        ld = (LUV24DATA *)malloc(sizeof(LUV24DATA));
        if (ld == NULL)
                return(NULL);
        tm->pd[luv24Reg] = (MEM_PTR)ld;
        if (uv14neu < 0)                /* initialize neutral color index */
                uv14neu = uv_encode(U_NEU, V_NEU, SGILOGENCODE_NODITHER);
        luv24NewSpace(tm);
        return((MEM_PTR)ld);
}
Revision:	3.4
Committed:	Sat Feb 22 02:07:22 2003 UTC (21 years, 2 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 3.3:	+109 -88 lines
Log Message:	Changes and check-in for 3.5 release Includes new source files and modifications not recorded for many years See ray/doc/notes/ReleaseNotes for notes between 3.1 and 3.5 release
#	User	Rev	Content
1	gwlarson	3.1	#ifndef lint
2	greg	3.4	static const char RCSid[] = "$Id$";
3	gwlarson	3.1	#endif
4			/*
5			* Routines for tone-mapping LogLuv encoded pixels.
6	greg	3.4	*
7			* Externals declared in tmaptiff.h
8			*/
9
10			/* ====================================================================
11			* The Radiance Software License, Version 1.0
12			*
13			* Copyright (c) 1990 - 2002 The Regents of the University of California,
14			* through Lawrence Berkeley National Laboratory. All rights reserved.
15			*
16			* Redistribution and use in source and binary forms, with or without
17			* modification, are permitted provided that the following conditions
18			* are met:
19			*
20			* 1. Redistributions of source code must retain the above copyright
21			* notice, this list of conditions and the following disclaimer.
22			*
23			* 2. Redistributions in binary form must reproduce the above copyright
24			* notice, this list of conditions and the following disclaimer in
25			* the documentation and/or other materials provided with the
26			* distribution.
27			*
28			* 3. The end-user documentation included with the redistribution,
29			* if any, must include the following acknowledgment:
30			* "This product includes Radiance software
31			* (http://radsite.lbl.gov/)
32			* developed by the Lawrence Berkeley National Laboratory
33			* (http://www.lbl.gov/)."
34			* Alternately, this acknowledgment may appear in the software itself,
35			* if and wherever such third-party acknowledgments normally appear.
36			*
37			* 4. The names "Radiance," "Lawrence Berkeley National Laboratory"
38			* and "The Regents of the University of California" must
39			* not be used to endorse or promote products derived from this
40			* software without prior written permission. For written
41			* permission, please contact [email protected].
42			*
43			* 5. Products derived from this software may not be called "Radiance",
44			* nor may "Radiance" appear in their name, without prior written
45			* permission of Lawrence Berkeley National Laboratory.
46			*
47			* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
48			* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
49			* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
50			* DISCLAIMED. IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR
51			* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
52			* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
53			* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
54			* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
55			* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
56			* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
57			* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
58			* SUCH DAMAGE.
59			* ====================================================================
60			*
61			* This software consists of voluntary contributions made by many
62			* individuals on behalf of Lawrence Berkeley National Laboratory. For more
63			* information on Lawrence Berkeley National Laboratory, please see
64			* <http://www.lbl.gov/>.
65	gwlarson	3.1	*/
66
67	greg	3.4	#define LOGLUV_PUBLIC 1
68
69	gwlarson	3.1	#include <stdio.h>
70	greg	3.4	#include <string.h>
71	gwlarson	3.1	#include <math.h>
72			#include "tiffio.h"
73			#include "tmprivat.h"
74	greg	3.4	#include "tmaptiff.h"
75	gwlarson	3.1
76			#ifndef BSD
77			#define bzero(d,n) (void)memset(d,0,n)
78			#endif
79			#define uvflgop(p,uv,op) ((p)->rgbflg[(uv)>>5] op (1L<<((uv)&0x1f)))
80			#define isuvset(p,uv) uvflgop(p,uv,&)
81			#define setuv(p,uv) uvflgop(p,uv,\|=)
82			#define clruv(p,uv) uvflgop(p,uv,&=~)
83			#define clruvall(p) bzero((MEM_PTR)(p)->rgbflg,sizeof((p)->rgbflg))
84
85	greg	3.4	#ifdef NOPROTO
86	gwlarson	3.1	static MEM_PTR luv32Init();
87			static void luv32NewSpace();
88			static MEM_PTR luv24Init();
89			static void luv24NewSpace();
90	greg	3.4	#else
91			static MEM_PTR luv32Init(struct tmStruct *);
92			static void luv32NewSpace(struct tmStruct *);
93			static MEM_PTR luv24Init(struct tmStruct *);
94			static void luv24NewSpace(struct tmStruct *);
95			#endif
96	gwlarson	3.1
97			typedef struct {
98			int offset; /* computed luminance offset */
99			BYTE rgbval[1<<16][3]; /* computed RGB value for given uv */
100			uint32 rgbflg[1<<(16-5)]; /* flags for computed values */
101			} LUV32DATA; /* LogLuv 32-bit conversion data */
102
103			#define UVNEU ((int)(UVSCALE*U_NEU)<<8 \
104			\| (int)(UVSCALE*V_NEU))
105
106			static struct tmPackage luv32Pkg = { /* 32-bit package functions */
107			luv32Init, luv32NewSpace, free
108			};
109			static int luv32Reg = -1; /* 32-bit package reg. number */
110
111			typedef struct {
112			int offset; /* computed luminance offset */
113			BYTE rgbval[1<<14][3]; /* computed rgb value for uv index */
114			uint32 rgbflg[1<<(14-5)]; /* flags for computed values */
115			} LUV24DATA; /* LogLuv 24-bit conversion data */
116
117			static struct tmPackage luv24Pkg = { /* 24-bit package functions */
118			luv24Init, luv24NewSpace, free
119			};
120			static int luv24Reg = -1; /* 24-bit package reg. number */
121
122			static int uv14neu = -1; /* neutral index for 14-bit (u',v') */
123
124
125	greg	3.4	static void
126	gwlarson	3.1	uv2rgb(rgb, tm, uvp) /* compute RGB from uv coordinate */
127			BYTE rgb[3];
128			register struct tmStruct *tm;
129			double uvp[2];
130			{ /* Should check that tm->inppri==TM_XYZPRIM beforehand... */
131			double d, x, y;
132	gwlarson	3.2	COLOR XYZ, RGB;
133	gwlarson	3.1	/* convert to XYZ */
134			d = 1./(6.uvp[0] - 16.uvp[1] + 12.);
135			x = 9.uvp[0] d;
136			y = 4.uvp[1] d;
137			XYZ[CIEY] = 1./tm->inpsf;
138			XYZ[CIEX] = x/y * XYZ[CIEY];
139			XYZ[CIEZ] = (1.-x-y)/y * XYZ[CIEY];
140			/* convert to RGB and clip */
141			colortrans(RGB, tm->cmat, XYZ);
142	greg	3.4	clipgamut(RGB, 1., CGAMUT_LOWER, cblack, cwhite);
143	gwlarson	3.1	/* perform final scaling & gamma */
144			d = tm->clf[RED] * RGB[RED];
145			rgb[RED] = d>=.999 ? 255 : (int)(256.*pow(d, 1./tm->mongam));
146			d = tm->clf[GRN] * RGB[GRN];
147			rgb[GRN] = d>=.999 ? 255 : (int)(256.*pow(d, 1./tm->mongam));
148			d = tm->clf[BLU] * RGB[BLU];
149			rgb[BLU] = d>=.999 ? 255 : (int)(256.*pow(d, 1./tm->mongam));
150			}
151
152
153			static TMbright
154			compmeshift(li, uvp) /* compute mesopic color shift */
155			TMbright li; /* encoded world luminance */
156			double uvp[2]; /* world (u',v') -> returned desaturated */
157			{
158	greg	3.4	double scotrat;
159			register double d;
160	gwlarson	3.2
161			if (li >= BMESUPPER)
162			return(li);
163	greg	3.4	scotrat = (.767676768 - 1.02356902*uvp[1])/uvp[0] - .343434343;
164	gwlarson	3.2	if (li <= BMESLOWER) {
165			d = 0.;
166			uvp[0] = U_NEU; uvp[1] = V_NEU;
167			} else {
168	greg	3.4	d = (tmMesofact[li-BMESLOWER] + .5) * (1./256.);
169	gwlarson	3.2	uvp[0] = duvp[0] + (1.-d)U_NEU;
170			uvp[1] = duvp[1] + (1.-d)V_NEU;
171			}
172	greg	3.4	/*
173			d = li + (double)TM_BRTSCALElog(d + (1.-d)scotrat);
174			*/
175			d = d + (1.-d)*scotrat;
176			d -= 1.; /* Taylor expansion of log(x) about 1 */
177			d = d(1. + d(-.5 + d(1./3. + d-.125)));
178			d = li + (double)TM_BRTSCALE*d;
179			return((TMbright)(d>0. ? d+.5 : d-.5));
180	gwlarson	3.1	}
181
182
183			int
184			tmCvLuv32(ls, cs, luvs, len) /* convert raw 32-bit LogLuv values */
185			TMbright *ls;
186			BYTE *cs;
187			uint32 *luvs;
188			int len;
189			{
190			static char funcName[] = "tmCvLuv32";
191			double uvp[2];
192			register LUV32DATA *ld;
193			register int i, j;
194			/* check arguments */
195			if (tmTop == NULL)
196			returnErr(TM_E_TMINVAL);
197			if (ls == NULL \| luvs == NULL \| len < 0)
198			returnErr(TM_E_ILLEGAL);
199			/* check package registration */
200	greg	3.4	if (luv32Reg < 0) {
201			if ((luv32Reg = tmRegPkg(&luv32Pkg)) < 0)
202			returnErr(TM_E_CODERR1);
203			tmMkMesofact();
204			}
205	gwlarson	3.1	/* get package data */
206			if ((ld = (LUV32DATA *)tmPkgData(tmTop,luv32Reg)) == NULL)
207			returnErr(TM_E_NOMEM);
208			/* convert each pixel */
209			for (i = len; i--; ) {
210			j = luvs[i] >> 16; /* get luminance */
211			if (j & 0x8000) /* negative luminance */
212	gwlarson	3.3	ls[i] = TM_NOBRT; /* assign bogus value */
213	gwlarson	3.1	else /* else convert to lnL */
214	greg	3.4	ls[i] = (BRT2SCALE(j) >> 8) - ld->offset;
215	gwlarson	3.1	if (cs == TM_NOCHROM) /* no color? */
216			continue;
217			/* get chrominance */
218			if (tmTop->flags & TM_F_MESOPIC && ls[i] < BMESUPPER) {
219			uvp[0] = 1./UVSCALE*((luvs[i]>>8 & 0xff) + .5);
220			uvp[1] = 1./UVSCALE*((luvs[i] & 0xff) + .5);
221			ls[i] = compmeshift(ls[i], uvp);
222	gwlarson	3.2	j = tmTop->flags&TM_F_BW \|\| ls[i]<BMESLOWER
223	gwlarson	3.1	? UVNEU
224			: (int)(uvp[0]*UVSCALE)<<8
225			\| (int)(uvp[1]*UVSCALE);
226			} else {
227			j = tmTop->flags&TM_F_BW ? UVNEU : luvs[i]&0xffff;
228			}
229			if (!isuvset(ld, j)) {
230	greg	3.4	uvp[0] = 1./UVSCALE*((j>>8) + .5);
231			uvp[1] = 1./UVSCALE*((j & 0xff) + .5);
232	gwlarson	3.1	uv2rgb(ld->rgbval[j], tmTop, uvp);
233			setuv(ld, j);
234			}
235			cs[3*i ] = ld->rgbval[j][RED];
236			cs[3*i+1] = ld->rgbval[j][GRN];
237			cs[3*i+2] = ld->rgbval[j][BLU];
238			}
239			returnOK;
240			}
241
242
243			int
244			tmCvLuv24(ls, cs, luvs, len) /* convert raw 24-bit LogLuv values */
245			TMbright *ls;
246			BYTE *cs;
247			uint32 *luvs;
248			int len;
249			{
250			char funcName[] = "tmCvLuv24";
251			double uvp[2];
252			register LUV24DATA *ld;
253			register int i, j;
254			/* check arguments */
255			if (tmTop == NULL)
256			returnErr(TM_E_TMINVAL);
257			if (ls == NULL \| luvs == NULL \| len < 0)
258			returnErr(TM_E_ILLEGAL);
259			/* check package registration */
260	greg	3.4	if (luv24Reg < 0) {
261			if ((luv24Reg = tmRegPkg(&luv24Pkg)) < 0)
262			returnErr(TM_E_CODERR1);
263			tmMkMesofact();
264			}
265	gwlarson	3.1	/* get package data */
266			if ((ld = (LUV24DATA *)tmPkgData(tmTop,luv24Reg)) == NULL)
267			returnErr(TM_E_NOMEM);
268			/* convert each pixel */
269			for (i = len; i--; ) {
270			j = luvs[i] >> 14; /* get luminance */
271	greg	3.4	ls[i] = (BRT2SCALE(j) >> 6) - ld->offset;
272	gwlarson	3.1	if (cs == TM_NOCHROM) /* no color? */
273			continue;
274			/* get chrominance */
275			if (tmTop->flags & TM_F_MESOPIC && ls[i] < BMESUPPER) {
276	greg	3.4	if (uv_decode(uvp, uvp+1, luvs[i]&0x3fff) < 0) {
277	gwlarson	3.1	uvp[0] = U_NEU; /* should barf? */
278			uvp[1] = V_NEU;
279			}
280			ls[i] = compmeshift(ls[i], uvp);
281	gwlarson	3.2	if (tmTop->flags&TM_F_BW \|\| ls[i]<BMESLOWER
282	greg	3.4	\|\| (j = uv_encode(uvp[0], uvp[1],
283			SGILOGENCODE_NODITHER)) < 0)
284	gwlarson	3.1	j = uv14neu;
285			} else {
286			j = tmTop->flags&TM_F_BW ? uv14neu : luvs[i]&0x3fff;
287			}
288			if (!isuvset(ld, j)) {
289	greg	3.4	if (uv_decode(&uvp[0], &uvp[1], j) < 0) {
290	gwlarson	3.2	uvp[0] = U_NEU; uvp[1] = V_NEU;
291	gwlarson	3.1	}
292			uv2rgb(ld->rgbval[j], tmTop, uvp);
293			setuv(ld, j);
294			}
295			cs[3*i ] = ld->rgbval[j][RED];
296			cs[3*i+1] = ld->rgbval[j][GRN];
297			cs[3*i+2] = ld->rgbval[j][BLU];
298			}
299			returnOK;
300			}
301
302
303			int
304			tmCvL16(ls, l16s, len) /* convert 16-bit LogL values */
305			TMbright *ls;
306			uint16 *l16s;
307			int len;
308			{
309			static char funcName[] = "tmCvL16";
310			static double lastsf;
311			static int offset;
312			register int i;
313			/* check arguments */
314			if (tmTop == NULL)
315			returnErr(TM_E_TMINVAL);
316			if (ls == NULL \| l16s == NULL \| len < 0)
317			returnErr(TM_E_ILLEGAL);
318			/* check scaling offset */
319			if (!FEQ(tmTop->inpsf, lastsf)) {
320	greg	3.4	offset = BRT2SCALE(64);
321	gwlarson	3.1	if (tmTop->inpsf > 1.0001)
322			offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)+.5);
323			else if (tmTop->inpsf < 0.9999)
324			offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)-.5);
325			lastsf = tmTop->inpsf;
326			}
327			/* convert each pixel */
328			for (i = len; i--; ) {
329			if (l16s[i] & 0x8000) /* negative luminance */
330	gwlarson	3.3	ls[i] = TM_NOBRT; /* assign bogus value */
331	gwlarson	3.1	else /* else convert to lnL */
332	greg	3.4	ls[i] = (BRT2SCALE(l16s[i]) >> 8) - offset;
333	gwlarson	3.1	}
334			returnOK;
335			}
336
337
338			static void
339			luv32NewSpace(tm) /* initialize 32-bit LogLuv color space */
340			struct tmStruct *tm;
341			{
342			register LUV32DATA *ld;
343
344			if (tm->inppri != TM_XYZPRIM) { /* panic time! */
345			fputs("Improper input color space in luv32NewSpace!\n", stderr);
346			exit(1);
347			}
348			ld = (LUV32DATA *)tm->pd[luv32Reg];
349	greg	3.4	ld->offset = BRT2SCALE(64);
350	gwlarson	3.1	if (tm->inpsf > 1.0001)
351			ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)+.5);
352			else if (tm->inpsf < 0.9999)
353			ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)-.5);
354			clruvall(ld);
355			}
356
357
358			static MEM_PTR
359			luv32Init(tm) /* allocate data for 32-bit LogLuv decoder */
360			struct tmStruct *tm;
361			{
362			register LUV32DATA *ld;
363
364			ld = (LUV32DATA *)malloc(sizeof(LUV32DATA));
365			if (ld == NULL)
366			return(NULL);
367			tm->pd[luv32Reg] = (MEM_PTR)ld;
368			luv32NewSpace(tm);
369			return((MEM_PTR)ld);
370			}
371
372
373			static void
374			luv24NewSpace(tm) /* initialize 24-bit LogLuv color space */
375			struct tmStruct *tm;
376			{
377			register LUV24DATA *ld;
378
379			if (tm->inppri != TM_XYZPRIM) { /* panic time! */
380			fputs("Improper input color space in luv24NewSpace!\n", stderr);
381			exit(1);
382			}
383			ld = (LUV24DATA *)tm->pd[luv24Reg];
384	greg	3.4	ld->offset = BRT2SCALE(12);
385	gwlarson	3.1	if (tm->inpsf > 1.0001)
386			ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)+.5);
387			else if (tm->inpsf < 0.9999)
388			ld->offset -= (int)(TM_BRTSCALE*log(tmTop->inpsf)-.5);
389			clruvall(ld);
390			}
391
392
393			static MEM_PTR
394			luv24Init(tm) /* allocate data for 24-bit LogLuv decoder */
395			struct tmStruct *tm;
396			{
397			register LUV24DATA *ld;
398
399			ld = (LUV24DATA *)malloc(sizeof(LUV24DATA));
400			if (ld == NULL)
401			return(NULL);
402			tm->pd[luv24Reg] = (MEM_PTR)ld;
403	greg	3.4	if (uv14neu < 0) /* initialize neutral color index */
404			uv14neu = uv_encode(U_NEU, V_NEU, SGILOGENCODE_NODITHER);
405	gwlarson	3.1	luv24NewSpace(tm);
406			return((MEM_PTR)ld);
407			}