src/px/ra_tiff.c

/* Copyright (c) 1997 Silicon Graphics, Inc. */

#ifndef lint
static char SCCSid[] = "$SunId$ SGI";
#endif

/*
 *  Program to convert between RADIANCE and TIFF files.
 *  Added experimental LogLuv encodings 7/97 (GWL).
 */

#include  <stdio.h>
#include  <math.h>
#include  "tiffio.h"
#include  "color.h"
#include  "resolu.h"

#define  GAMCOR         2.2             /* default gamma */

#ifndef malloc
extern char  *malloc();
#endif
                                /* conversion flags */
#define C_CXFM          0x1             /* needs color transformation */
#define C_GAMUT         0x2             /* needs gamut mapping */
#define C_GAMMA         0x4             /* needs gamma correction */
#define C_GRY           0x8             /* TIFF is greyscale */
#define C_XYZE          0x10            /* Radiance is XYZE */
#define C_RFLT          0x20            /* Radiance data is float */
#define C_TFLT          0x40            /* TIFF data is float */
#define C_PRIM          0x80            /* has assigned primaries */

struct {
        uint16  flags;          /* conversion flags (defined above) */
        uint16  comp;           /* TIFF compression type */
        uint16  pconf;          /* TIFF planar configuration */
        float   gamcor;         /* gamma correction value */
        short   bradj;          /* Radiance exposure adjustment (stops) */
        uint16  orient;         /* visual orientation (TIFF spec.) */
        float   stonits;        /* input conversion to nits */
        float   pixrat;         /* pixel aspect ratio */
        FILE    *rfp;           /* Radiance stream pointer */
        TIFF    *tif;           /* TIFF pointer */
        uint32  xmax, ymax;     /* image dimensions */
        COLORMAT        cmat;   /* color transformation matrix */
        RGBPRIMS        prims;  /* RGB primaries */
        union {
                COLR    *colrs;         /* 4-byte ???E pointer */
                COLOR   *colors;        /* float array pointer */
                char    *p;             /* generic pointer */
        } r;                    /* Radiance scanline */
        union {
                uint8   *bp;            /* byte pointer */
                float   *fp;            /* float pointer */
                char    *p;             /* generic pointer */
        } t;                    /* TIFF scanline */
        int     (*tf)();        /* translation procedure */
}       cvts = {        /* conversion structure */
        0, COMPRESSION_NONE, PLANARCONFIG_CONTIG, GAMCOR, 0,
};

#define CHK(f)          (cvts.flags & (f))
#define SET(f)          (cvts.flags |= (f))
#define CLR(f)          (cvts.flags &= ~(f))
#define TGL(f)          (cvts.flags ^= (f))

int     Luv2Color(), L2Color(), RGB2Colr(), Gry2Colr();
int     Color2Luv(), Color2L(), Colr2RGB(), Colr2Gry();

short   ortab[8] = {            /* orientation conversion table */
        YMAJOR|YDECR,
        YMAJOR|YDECR|XDECR,
        YMAJOR|XDECR,
        YMAJOR,
        YDECR,
        XDECR|YDECR,
        XDECR,
        0
};

#define pixorder()      ortab[cvts.orient-1]

char  *progname;


main(argc, argv)
int  argc;
char  *argv[];
{
        int  reverse = 0;
        int  i;
        
        progname = argv[0];

        for (i = 1; i < argc; i++)
                if (argv[i][0] == '-')
                        switch (argv[i][1]) {
                        case 'g':               /* gamma correction */
                                cvts.gamcor = atof(argv[++i]);
                                break;
                        case 'x':               /* XYZE Radiance output */
                                TGL(C_XYZE);
                                break;
                        case 'z':               /* LZW compressed output */
                                cvts.comp = COMPRESSION_LZW;
                                break;
                        case 'L':               /* LogLuv 32-bit output */
                                cvts.comp = COMPRESSION_LOGLUV32;
                                break;
                        case 'l':               /* LogLuv 24-bit output */
                                cvts.comp = COMPRESSION_LOGLUV24;
                                break;
                        case 'b':               /* greyscale output? */
                                TGL(C_GRY);
                                break;
                        case 'e':               /* exposure adjustment */
                                if (argv[i+1][0] != '+' && argv[i+1][0] != '-')
                                        goto userr;
                                cvts.bradj = atoi(argv[++i]);
                                break;
                        case 'r':               /* reverse conversion? */
                                reverse = !reverse;
                                break;
                        case '\0':
                                goto doneopts;
                        default:
                                goto userr;
                        }
                else
                        break;
doneopts:
        if (reverse) {

                if (i != argc-2 && i != argc-1)
                        goto userr;

                tiff2ra(i, argv);

        } else {

                if (i != argc-2)
                        goto userr;

                if (CHK(C_GRY) && (cvts.comp == COMPRESSION_LOGLUV24 ||
                                        cvts.comp == COMPRESSION_LOGLUV32))
                        cvts.comp = COMPRESSION_LOGL16;

                ra2tiff(i, argv);
        }

        exit(0);
userr:
        fprintf(stderr,
        "Usage: %s [-z|-L|-l][-b][-e +/-stops][-g gamma] {in.pic|-} out.tif\n",
                        progname);
        fprintf(stderr,
        "   Or: %s -r [-x][-e +/-stops][-g gamma] in.tif [out.pic|-]\n",
                        progname);
        exit(1);
}


quiterr(err)            /* print message and exit */
char  *err;
{
        if (err != NULL) {
                fprintf(stderr, "%s: %s\n", progname, err);
                exit(1);
        }
        exit(0);
}


allocbufs()                     /* allocate scanline buffers */
{
        int     rsiz, tsiz;

        rsiz = CHK(C_RFLT) ? sizeof(COLOR) : sizeof(COLR);
        tsiz = (CHK(C_TFLT) ? sizeof(float) : sizeof(uint8)) *
                        (CHK(C_GRY) ? 1 : 3);
        cvts.r.p = (char *)malloc(rsiz*cvts.xmax);
        cvts.t.p = (char *)malloc(tsiz*cvts.xmax);
        if (cvts.r.p == NULL | cvts.t.p == NULL)
                quiterr("no memory to allocate scanline buffers");
}


initfromtif()           /* initialize conversion from TIFF input */
{
        uint16  hi;
        float   *fa, f1, f2;

        CLR(C_GRY|C_GAMMA|C_PRIM|C_RFLT|C_TFLT|C_CXFM);

        TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_PLANARCONFIG, &cvts.pconf);

        if (TIFFGetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES, &fa)) {
                cvts.prims[RED][CIEX] = fa[0];
                cvts.prims[RED][CIEY] = fa[1];
                cvts.prims[GRN][CIEX] = fa[2];
                cvts.prims[GRN][CIEY] = fa[3];
                cvts.prims[BLU][CIEX] = fa[4];
                cvts.prims[BLU][CIEY] = fa[5];
                cvts.prims[WHT][CIEX] = 1./3.;
                cvts.prims[WHT][CIEY] = 1./3.;
                if (TIFFGetField(cvts.tif, TIFFTAG_WHITEPOINT, &fa)) {
                        cvts.prims[WHT][CIEX] = fa[0];
                        cvts.prims[WHT][CIEY] = fa[1];
                }
                SET(C_PRIM);
        }

        if (!TIFFGetField(cvts.tif, TIFFTAG_COMPRESSION, &cvts.comp))
                cvts.comp = COMPRESSION_NONE;

        if (TIFFGetField(cvts.tif, TIFFTAG_XRESOLUTION, &f1) &&
                        TIFFGetField(cvts.tif, TIFFTAG_YRESOLUTION, &f2))
                cvts.pixrat = f1/f2;
        else
                cvts.pixrat = 1.;

        if (!TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_ORIENTATION, &cvts.orient))
                cvts.orient = 1;

        switch (cvts.comp) {
        case COMPRESSION_LOGL16:
                SET(C_GRY|C_RFLT|C_TFLT|C_GAMUT);
                cvts.pconf = PLANARCONFIG_CONTIG;
                TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
                                LOGLUVDATAFMT_FLTY);
                TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
                                SAMPLEFORMAT_IEEEFP);
                cvts.tf = L2Color;
                break;
        case COMPRESSION_LOGLUV24:
        case COMPRESSION_LOGLUV32:
                SET(C_RFLT|C_TFLT);
                if (!CHK(C_XYZE)) {
                        cpcolormat(cvts.cmat, xyz2rgbmat);
                        SET(C_CXFM|C_GAMUT);
                } else if (cvts.comp == COMPRESSION_LOGLUV32)
                        SET(C_GAMUT);
                if (cvts.pconf != PLANARCONFIG_CONTIG)
                        quiterr("cannot handle separate Luv planes");
                TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
                                LOGLUVDATAFMT_FLTXYZ);
                TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
                                SAMPLEFORMAT_IEEEFP);
                cvts.tf = Luv2Color;
                break;
        default:
                SET(C_GAMMA|C_GAMUT);
                setcolrgam(cvts.gamcor);
                if (CHK(C_XYZE)) {
                        comprgb2xyzmat(cvts.cmat,
                                        CHK(C_PRIM) ? cvts.prims : stdprims);
                        SET(C_CXFM);
                }
                if (!TIFFGetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, &hi) ||
                                (hi != 1 && hi != 3))
                        quiterr("unsupported samples per pixel");
                if (hi == 1) {
                        SET(C_GRY);
                        cvts.pconf = PLANARCONFIG_CONTIG;
                        cvts.tf = Gry2Colr;
                } else
                        cvts.tf = RGB2Colr;
                if (!TIFFGetField(cvts.tif, TIFFTAG_BITSPERSAMPLE, &hi) ||
                                hi != 8)
                        quiterr("unsupported bits per sample");
                break;
        }

        if (TIFFGetField(cvts.tif, TIFFTAG_PHOTOMETRIC, &hi) &&
                hi != (CHK(C_GRY) ? PHOTOMETRIC_MINISBLACK : PHOTOMETRIC_RGB))
                quiterr("unsupported photometric interpretation");

        if (!TIFFGetField(cvts.tif, TIFFTAG_IMAGEWIDTH, &cvts.xmax) ||
                !TIFFGetField(cvts.tif, TIFFTAG_IMAGELENGTH, &cvts.ymax))
                quiterr("unknown input image resolution");

        if (!TIFFGetField(cvts.tif, TIFFTAG_STONITS, &cvts.stonits))
                cvts.stonits = 1.;
                                        /* add to Radiance header */
        if (cvts.pixrat < .99 || cvts.pixrat > 1.01)
                fputaspect(cvts.pixrat, cvts.rfp);
        if (CHK(C_XYZE)) {
                fputexpos(pow(2.,(double)cvts.bradj)/cvts.stonits, cvts.rfp);
                fputformat(CIEFMT, cvts.rfp);
        } else {
                if (CHK(C_PRIM))
                        fputprims(cvts.prims, cvts.rfp);
                fputexpos(WHTEFFICACY*pow(2.,(double)cvts.bradj)/cvts.stonits,
                                cvts.rfp);
                fputformat(COLRFMT, cvts.rfp);
        }

        allocbufs();                    /* allocate scanline buffers */
}


tiff2ra(ac, av)         /* convert TIFF image to Radiance picture */
int  ac;
char  *av[];
{
        int32   y;
                                        /* open TIFF input */
        if ((cvts.tif = TIFFOpen(av[ac], "r")) == NULL)
                quiterr("cannot open TIFF input");
                                        /* open Radiance output */
        if (av[ac+1] == NULL || !strcmp(av[ac+1], "-"))
                cvts.rfp = stdout;
        else if ((cvts.rfp = fopen(av[ac+1], "w")) == NULL)
                quiterr("cannot open Radiance output picture");
                                        /* start output header */
        newheader("RADIANCE", cvts.rfp);
        printargs(ac, av, cvts.rfp);

        initfromtif();                  /* initialize conversion */

        fputc('\n', cvts.rfp);          /* finish Radiance header */
        fputresolu(pixorder(), (int)cvts.xmax, (int)cvts.ymax, cvts.rfp);

        for (y = 0; y < cvts.ymax; y++)         /* convert image */
                (*cvts.tf)(y);
                                                /* clean up */
        fclose(cvts.rfp);
        TIFFClose(cvts.tif);
}


int
headline(s)                     /* process Radiance input header line */
char    *s;
{
        char    fmt[32];

        if (formatval(fmt, s)) {
                if (!strcmp(fmt, COLRFMT))
                        CLR(C_XYZE);
                else if (!strcmp(fmt, CIEFMT))
                        SET(C_XYZE);
                else
                        quiterr("unrecognized input picture format");
                return;
        }
        if (isexpos(s)) {
                cvts.stonits /= exposval(s);
                return;
        }
        if (isaspect(s)) {
                cvts.pixrat *= aspectval(s);
                return;
        }
        if (isprims(s)) {
                primsval(cvts.prims, s);
                SET(C_PRIM);
                return;
        }
}


initfromrad()                   /* initialize input from a Radiance picture */
{
        int     i1, i2, po;
                                                /* read Radiance header */
        CLR(C_RFLT|C_TFLT|C_XYZE|C_PRIM|C_GAMMA|C_CXFM);
        cvts.stonits = 1.;
        cvts.pixrat = 1.;
        cvts.pconf = PLANARCONFIG_CONTIG;
        getheader(cvts.rfp, headline, NULL);
        if ((po = fgetresolu(&i1, &i2, cvts.rfp)) < 0)
                quiterr("bad Radiance picture");
        cvts.xmax = i1; cvts.ymax = i2;
        for (i1 = 0; i1 < 8; i1++)              /* interpret orientation */
                if (ortab[i1] == po) {
                        cvts.orient = i1 + 1;
                        break;
                }
        if (i1 >= 8)
                quiterr("internal error 1 in initfromrad");
        if (!(po & YMAJOR))
                cvts.pixrat = 1./cvts.pixrat;
        if (!CHK(C_XYZE))
                cvts.stonits *= WHTEFFICACY;
                                                /* set up conversion */
        TIFFSetField(cvts.tif, TIFFTAG_COMPRESSION, cvts.comp);

        switch (cvts.comp) {
        case COMPRESSION_LOGL16:
                SET(C_GRY|C_RFLT|C_TFLT);
                TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
                                LOGLUVDATAFMT_FLTY);
                TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
                                SAMPLEFORMAT_IEEEFP);
                cvts.tf = Color2L;
                break;
        case COMPRESSION_LOGLUV24:
        case COMPRESSION_LOGLUV32:
                SET(C_RFLT|C_TFLT);
                CLR(C_GRY);
                if (!CHK(C_XYZE)) {
                        cpcolormat(cvts.cmat, rgb2xyzmat);
                        SET(C_CXFM);
                }
                TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
                                LOGLUVDATAFMT_FLTXYZ);
                TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
                                SAMPLEFORMAT_IEEEFP);
                cvts.tf = Color2Luv;
                break;
        default:
                SET(C_GAMMA|C_GAMUT);
                setcolrgam(cvts.gamcor);
                if (CHK(C_XYZE)) {
                        compxyz2rgbmat(cvts.cmat,
                                        CHK(C_PRIM) ? cvts.prims : stdprims);
                        SET(C_CXFM);
                }
                if (CHK(C_GRY))
                        cvts.tf = Colr2Gry;
                else
                        cvts.tf = Colr2RGB;
                if (CHK(C_PRIM)) {
                        TIFFSetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES,
                                        (float *)cvts.prims);
                        TIFFSetField(cvts.tif, TIFFTAG_WHITEPOINT,
                                        (float *)cvts.prims[WHT]);
                }
                break;
        }
                                                /* set other TIFF fields */
        TIFFSetField(cvts.tif, TIFFTAG_IMAGEWIDTH, cvts.xmax);
        TIFFSetField(cvts.tif, TIFFTAG_IMAGELENGTH, cvts.ymax);
        TIFFSetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, CHK(C_GRY) ? 1 : 3);
        TIFFSetField(cvts.tif, TIFFTAG_BITSPERSAMPLE, CHK(C_TFLT) ? 32 : 8);
        TIFFSetField(cvts.tif, TIFFTAG_PHOTOMETRIC,
                        CHK(C_GRY) ? PHOTOMETRIC_MINISBLACK : PHOTOMETRIC_RGB);
        TIFFSetField(cvts.tif, TIFFTAG_XRESOLUTION, 72.);
        TIFFSetField(cvts.tif, TIFFTAG_YRESOLUTION, 72./cvts.pixrat);
        TIFFSetField(cvts.tif, TIFFTAG_ORIENTATION, cvts.orient);
        TIFFSetField(cvts.tif, TIFFTAG_RESOLUTIONUNIT, 2);
        TIFFSetField(cvts.tif, TIFFTAG_PLANARCONFIG, cvts.pconf);
        TIFFSetField(cvts.tif, TIFFTAG_STONITS,
                        cvts.stonits/pow(2.,(double)cvts.bradj));
        i1 = TIFFScanlineSize(cvts.tif);
        i2 = 8192/i1;                           /* compute good strip size */
        if (i2 < 1) i2 = 1;
        TIFFSetField(cvts.tif, TIFFTAG_ROWSPERSTRIP, (uint32)i2);

        allocbufs();                            /* allocate scanline buffers */
}


ra2tiff(ac, av)         /* convert Radiance picture to TIFF image */
int  ac;
char  *av[];
{
        uint32  y;
                                                /* open Radiance file */
        if (!strcmp(av[ac], "-"))
                cvts.rfp = stdin;
        else if ((cvts.rfp = fopen(av[ac], "r")) == NULL)
                quiterr("cannot open Radiance input picture");
                                                /* open TIFF file */
        if ((cvts.tif = TIFFOpen(av[ac+1], "w")) == NULL)
                quiterr("cannot open TIFF output");

        initfromrad();                          /* initialize conversion */

        for (y = 0; y < cvts.ymax; y++)         /* convert image */
                (*cvts.tf)(y);
                                                /* clean up */
        TIFFClose(cvts.tif);
        fclose(cvts.rfp);
}


int
Luv2Color(y)                    /* read/convert/write Luv->COLOR scanline */
uint32  y;
{
        register int    x;

        if (CHK(C_RFLT|C_TFLT) != (C_RFLT|C_TFLT) | CHK(C_GRY))
                quiterr("internal error 1 in Luv2Color");

        if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error reading TIFF input");
        
        for (x = cvts.xmax; x--; ) {
                cvts.r.colors[x][RED] = cvts.t.fp[3*x];
                cvts.r.colors[x][GRN] = cvts.t.fp[3*x + 1];
                cvts.r.colors[x][BLU] = cvts.t.fp[3*x + 2];
                if (CHK(C_CXFM))
                        colortrans(cvts.r.colors[x], cvts.cmat,
                                        cvts.r.colors[x]);
                if (CHK(C_GAMUT))
                        clipgamut(cvts.r.colors[x], cvts.t.fp[3*x + 1],
                                        CGAMUT_LOWER, cblack, cwhite);
        }
        if (cvts.bradj) {
                double  m = pow(2.,(double)cvts.bradj);
                for (x = cvts.xmax; x--; )
                        scalecolor(cvts.r.colors[x], m);
        }

        if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
                quiterr("error writing Radiance picture");
}


int
L2Color(y)                      /* read/convert/write L16->COLOR scanline */
uint32  y;
{
        register int    x;

        if (CHK(C_RFLT|C_TFLT|C_GRY) != (C_RFLT|C_TFLT|C_GRY))
                quiterr("internal error 1 in L2Color");

        if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error reading TIFF input");
        
        for (x = cvts.xmax; x--; )
                cvts.r.colors[x][RED] =
                cvts.r.colors[x][GRN] =
                cvts.r.colors[x][BLU] = cvts.t.fp[x] > 0. ? cvts.t.fp[x] : 0.;

        if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
                quiterr("error writing Radiance picture");
}


int
RGB2Colr(y)                     /* read/convert/write RGB->COLR scanline */
uint32  y;
{
        COLOR   ctmp;
        register int    x;

        if (CHK(C_RFLT|C_TFLT|C_GRY))
                quiterr("internal error 1 in RGB2Colr");

        if (cvts.pconf == PLANARCONFIG_CONTIG) {
                if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                        goto readerr;
                for (x = cvts.xmax; x--; ) {
                        cvts.r.colrs[x][RED] = cvts.t.bp[3*x];
                        cvts.r.colrs[x][GRN] = cvts.t.bp[3*x + 1];
                        cvts.r.colrs[x][BLU] = cvts.t.bp[3*x + 2];
                }
        } else {
                if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                        goto readerr;
                if (TIFFReadScanline(cvts.tif,
                                (tidata_t)(cvts.t.bp + cvts.xmax), y, 1) < 0)
                        goto readerr;
                if (TIFFReadScanline(cvts.tif,
                                (tidata_t)(cvts.t.bp + 2*cvts.xmax), y, 2) < 0)
                        goto readerr;
                for (x = cvts.xmax; x--; ) {
                        cvts.r.colrs[x][RED] = cvts.t.bp[x];
                        cvts.r.colrs[x][GRN] = cvts.t.bp[cvts.xmax + x];
                        cvts.r.colrs[x][BLU] = cvts.t.bp[2*cvts.xmax + x];
                }
        }

        gambs_colrs(cvts.r.colrs, cvts.xmax);
        if (CHK(C_CXFM))
                for (x = cvts.xmax; x--; ) {
                        colr_color(ctmp, cvts.r.colrs[x]);
                        colortrans(ctmp, cvts.cmat, ctmp);
                        if (CHK(C_GAMUT))       /* !CHK(C_XYZE) */
                                clipgamut(ctmp, bright(ctmp), CGAMUT_LOWER,
                                                cblack, cwhite);
                        setcolr(cvts.r.colrs[x], colval(ctmp,RED),
                                        colval(ctmp,GRN), colval(ctmp,BLU));
                }
        if (cvts.bradj)
                shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);

        if (fwritecolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
                quiterr("error writing Radiance picture");
        return;
readerr:
        quiterr("error reading TIFF input");
}


int
Gry2Colr(y)                     /* read/convert/write G8->COLR scanline */
uint32  y;
{
        register int    x;

        if (CHK(C_RFLT|C_TFLT) | !CHK(C_GRY))
                quiterr("internal error 1 in Gry2Colr");

        if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error reading TIFF input");

        for (x = cvts.xmax; x--; )
                cvts.r.colrs[x][RED] =
                cvts.r.colrs[x][GRN] =
                cvts.r.colrs[x][BLU] = cvts.t.bp[x];

        gambs_colrs(cvts.r.colrs, cvts.xmax);
        if (cvts.bradj)
                shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);

        if (fwritecolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
                quiterr("error writing Radiance picture");
}


int
Color2L(y)                      /* read/convert/write COLOR->L16 scanline */
uint32  y;
{
        double  m = pow(2.,(double)cvts.bradj);
        register int    x;

        if (CHK(C_RFLT|C_TFLT) != (C_RFLT|C_TFLT) | !CHK(C_GRY))
                quiterr("internal error 1 in Color2L");

        if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
                quiterr("error reading Radiance picture");

        for (x = cvts.xmax; x--; )
                cvts.t.fp[x] = m*( CHK(C_XYZE) ? colval(cvts.r.colors[x],CIEY)
                                                : bright(cvts.r.colors[x]) );

        if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error writing TIFF output");
}


int
Color2Luv(y)                    /* read/convert/write COLOR->Luv scanline */
uint32  y;
{
        register int    x;

        if (CHK(C_RFLT|C_TFLT) != (C_RFLT|C_TFLT) | CHK(C_GRY))
                quiterr("internal error 1 in Color2Luv");

        if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
                quiterr("error reading Radiance picture");

        if (CHK(C_CXFM))
                for (x = cvts.xmax; x--; )
                        colortrans(cvts.r.colors[x], cvts.cmat,
                                        cvts.r.colors[x]);
        if (cvts.bradj) {
                double  m = pow(2.,(double)cvts.bradj);
                for (x = cvts.xmax; x--; )
                        scalecolor(cvts.r.colors[x], m);
        }

        for (x = cvts.xmax; x--; ) {
                cvts.t.fp[3*x] = colval(cvts.r.colors[x],RED);
                cvts.t.fp[3*x+1] = colval(cvts.r.colors[x],GRN);
                cvts.t.fp[3*x+2] = colval(cvts.r.colors[x],BLU);
        }

        if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error writing TIFF output");
}


int
Colr2Gry(y)                     /* read/convert/write COLR->RGB scanline */
uint32  y;
{
        register int    x;

        if (CHK(C_RFLT|C_TFLT) | !CHK(C_GRY))
                quiterr("internal error 1 in Colr2Gry");

        if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
                quiterr("error reading Radiance picture");

        if (cvts.bradj)
                shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
        for (x = cvts.xmax; x--; )
                colval(cvts.r.colrs[x],CIEY) = normbright(cvts.r.colrs[x]);
        colrs_gambs(cvts.r.colrs, cvts.xmax);

        for (x = cvts.xmax; x--; )
                cvts.t.bp[x] = colval(cvts.r.colrs[x],CIEY);

        if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error writing TIFF output");
}


int
Colr2RGB(y)                     /* read/convert/write COLR->RGB scanline */
uint32  y;
{
        COLOR   ctmp;
        register int    x;

        if (CHK(C_RFLT|C_TFLT|C_GRY))
                quiterr("internal error 1 in Colr2RGB");

        if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
                quiterr("error reading Radiance picture");

        if (cvts.bradj)
                shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
        if (CHK(C_CXFM))
                for (x = cvts.xmax; x--; ) {
                        colr_color(ctmp, cvts.r.colrs[x]);
                        colortrans(ctmp, cvts.cmat, ctmp);
                        if (CHK(C_GAMUT))
                                clipgamut(ctmp, bright(ctmp), CGAMUT,
                                                cblack, cwhite);
                        setcolr(cvts.r.colrs[x], colval(ctmp,RED),
                                        colval(ctmp,GRN), colval(ctmp,BLU));
                }
        colrs_gambs(cvts.r.colrs, cvts.xmax);

        for (x = cvts.xmax; x--; ) {
                cvts.t.bp[3*x] = cvts.r.colrs[x][RED];
                cvts.t.bp[3*x+1] = cvts.r.colrs[x][GRN];
                cvts.t.bp[3*x+2] = cvts.r.colrs[x][BLU];
        }

        if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
                quiterr("error writing TIFF output");
}
Revision:	2.9
Committed:	Thu Jul 24 11:47:05 1997 UTC (26 years, 9 months ago) by gregl
Content type:	text/plain
Branch:	MAIN
Changes since 2.8:	+640 -172 lines
Log Message:	added a ton of new stuff for Luv format images and new tags
#	User	Rev	Content
1	gregl	2.9	/* Copyright (c) 1997 Silicon Graphics, Inc. */
2	greg	1.1
3			#ifndef lint
4	gregl	2.9	static char SCCSid[] = "$SunId$ SGI";
5	greg	1.1	#endif
6
7			/*
8	gregl	2.9	* Program to convert between RADIANCE and TIFF files.
9			* Added experimental LogLuv encodings 7/97 (GWL).
10	greg	1.1	*/
11
12			#include <stdio.h>
13	greg	2.3	#include <math.h>
14	greg	1.1	#include "tiffio.h"
15			#include "color.h"
16	greg	1.6	#include "resolu.h"
17
18	greg	2.8	#define GAMCOR 2.2 /* default gamma */
19
20	gregl	2.9	#ifndef malloc
21			extern char *malloc();
22			#endif
23			/* conversion flags */
24			#define C_CXFM 0x1 /* needs color transformation */
25			#define C_GAMUT 0x2 /* needs gamut mapping */
26			#define C_GAMMA 0x4 /* needs gamma correction */
27			#define C_GRY 0x8 /* TIFF is greyscale */
28			#define C_XYZE 0x10 /* Radiance is XYZE */
29			#define C_RFLT 0x20 /* Radiance data is float */
30			#define C_TFLT 0x40 /* TIFF data is float */
31			#define C_PRIM 0x80 /* has assigned primaries */
32	greg	1.1
33	gregl	2.9	struct {
34			uint16 flags; /* conversion flags (defined above) */
35			uint16 comp; /* TIFF compression type */
36			uint16 pconf; /* TIFF planar configuration */
37			float gamcor; /* gamma correction value */
38			short bradj; /* Radiance exposure adjustment (stops) */
39			uint16 orient; /* visual orientation (TIFF spec.) */
40			float stonits; /* input conversion to nits */
41			float pixrat; /* pixel aspect ratio */
42			FILE rfp; / Radiance stream pointer */
43			TIFF tif; / TIFF pointer */
44			uint32 xmax, ymax; /* image dimensions */
45			COLORMAT cmat; /* color transformation matrix */
46			RGBPRIMS prims; /* RGB primaries */
47			union {
48			COLR colrs; / 4-byte ???E pointer */
49			COLOR colors; / float array pointer */
50			char p; / generic pointer */
51			} r; /* Radiance scanline */
52			union {
53			uint8 bp; / byte pointer */
54			float fp; / float pointer */
55			char p; / generic pointer */
56			} t; /* TIFF scanline */
57			int (tf)(); / translation procedure */
58			} cvts = { /* conversion structure */
59			0, COMPRESSION_NONE, PLANARCONFIG_CONTIG, GAMCOR, 0,
60			};
61	greg	1.4
62	gregl	2.9	#define CHK(f) (cvts.flags & (f))
63			#define SET(f) (cvts.flags \|= (f))
64			#define CLR(f) (cvts.flags &= ~(f))
65			#define TGL(f) (cvts.flags ^= (f))
66	greg	1.5
67	gregl	2.9	int Luv2Color(), L2Color(), RGB2Colr(), Gry2Colr();
68			int Color2Luv(), Color2L(), Colr2RGB(), Colr2Gry();
69	greg	1.1
70	gregl	2.9	short ortab[8] = { /* orientation conversion table */
71			YMAJOR\|YDECR,
72			YMAJOR\|YDECR\|XDECR,
73			YMAJOR\|XDECR,
74			YMAJOR,
75			YDECR,
76			XDECR\|YDECR,
77			XDECR,
78			0
79			};
80	greg	1.1
81	gregl	2.9	#define pixorder() ortab[cvts.orient-1]
82
83	greg	1.1	char *progname;
84
85
86			main(argc, argv)
87			int argc;
88			char *argv[];
89			{
90			int reverse = 0;
91			int i;
92
93			progname = argv[0];
94
95			for (i = 1; i < argc; i++)
96			if (argv[i][0] == '-')
97			switch (argv[i][1]) {
98	gregl	2.9	case 'g': /* gamma correction */
99			cvts.gamcor = atof(argv[++i]);
100	greg	1.1	break;
101	gregl	2.9	case 'x': /* XYZE Radiance output */
102			TGL(C_XYZE);
103	greg	1.4	break;
104	gregl	2.9	case 'z': /* LZW compressed output */
105			cvts.comp = COMPRESSION_LZW;
106	greg	1.5	break;
107	gregl	2.9	case 'L': /* LogLuv 32-bit output */
108			cvts.comp = COMPRESSION_LOGLUV32;
109			break;
110			case 'l': /* LogLuv 24-bit output */
111			cvts.comp = COMPRESSION_LOGLUV24;
112			break;
113			case 'b': /* greyscale output? */
114			TGL(C_GRY);
115			break;
116			case 'e': /* exposure adjustment */
117	greg	1.1	if (argv[i+1][0] != '+' && argv[i+1][0] != '-')
118			goto userr;
119	gregl	2.9	cvts.bradj = atoi(argv[++i]);
120	greg	1.1	break;
121	gregl	2.9	case 'r': /* reverse conversion? */
122	greg	1.1	reverse = !reverse;
123			break;
124			case '\0':
125			goto doneopts;
126			default:
127			goto userr;
128			}
129			else
130			break;
131			doneopts:
132	gregl	2.9	if (reverse) {
133	greg	1.1
134			if (i != argc-2 && i != argc-1)
135			goto userr;
136	gregl	2.9
137			tiff2ra(i, argv);
138
139			} else {
140
141	greg	1.1	if (i != argc-2)
142			goto userr;
143
144	gregl	2.9	if (CHK(C_GRY) && (cvts.comp == COMPRESSION_LOGLUV24 \|\|
145			cvts.comp == COMPRESSION_LOGLUV32))
146			cvts.comp = COMPRESSION_LOGL16;
147
148			ra2tiff(i, argv);
149			}
150
151	greg	1.1	exit(0);
152			userr:
153	greg	1.4	fprintf(stderr,
154	gregl	2.9	"Usage: %s [-z\|-L\|-l][-b][-e +/-stops][-g gamma] {in.pic\|-} out.tif\n",
155	greg	1.1	progname);
156	gregl	2.9	fprintf(stderr,
157			" Or: %s -r [-x][-e +/-stops][-g gamma] in.tif [out.pic\|-]\n",
158			progname);
159	greg	1.1	exit(1);
160			}
161
162
163			quiterr(err) /* print message and exit */
164			char *err;
165			{
166			if (err != NULL) {
167			fprintf(stderr, "%s: %s\n", progname, err);
168			exit(1);
169			}
170			exit(0);
171			}
172
173
174	gregl	2.9	allocbufs() /* allocate scanline buffers */
175	greg	1.1	{
176	gregl	2.9	int rsiz, tsiz;
177
178			rsiz = CHK(C_RFLT) ? sizeof(COLOR) : sizeof(COLR);
179			tsiz = (CHK(C_TFLT) ? sizeof(float) : sizeof(uint8)) *
180			(CHK(C_GRY) ? 1 : 3);
181			cvts.r.p = (char )malloc(rsizcvts.xmax);
182			cvts.t.p = (char )malloc(tsizcvts.xmax);
183			if (cvts.r.p == NULL \| cvts.t.p == NULL)
184			quiterr("no memory to allocate scanline buffers");
185			}
186
187
188			initfromtif() /* initialize conversion from TIFF input */
189			{
190			uint16 hi;
191			float *fa, f1, f2;
192
193			CLR(C_GRY\|C_GAMMA\|C_PRIM\|C_RFLT\|C_TFLT\|C_CXFM);
194
195			TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_PLANARCONFIG, &cvts.pconf);
196
197			if (TIFFGetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES, &fa)) {
198			cvts.prims[RED][CIEX] = fa[0];
199			cvts.prims[RED][CIEY] = fa[1];
200			cvts.prims[GRN][CIEX] = fa[2];
201			cvts.prims[GRN][CIEY] = fa[3];
202			cvts.prims[BLU][CIEX] = fa[4];
203			cvts.prims[BLU][CIEY] = fa[5];
204			cvts.prims[WHT][CIEX] = 1./3.;
205			cvts.prims[WHT][CIEY] = 1./3.;
206			if (TIFFGetField(cvts.tif, TIFFTAG_WHITEPOINT, &fa)) {
207			cvts.prims[WHT][CIEX] = fa[0];
208			cvts.prims[WHT][CIEY] = fa[1];
209			}
210			SET(C_PRIM);
211			}
212
213			if (!TIFFGetField(cvts.tif, TIFFTAG_COMPRESSION, &cvts.comp))
214			cvts.comp = COMPRESSION_NONE;
215
216			if (TIFFGetField(cvts.tif, TIFFTAG_XRESOLUTION, &f1) &&
217			TIFFGetField(cvts.tif, TIFFTAG_YRESOLUTION, &f2))
218			cvts.pixrat = f1/f2;
219			else
220			cvts.pixrat = 1.;
221
222			if (!TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_ORIENTATION, &cvts.orient))
223			cvts.orient = 1;
224
225			switch (cvts.comp) {
226			case COMPRESSION_LOGL16:
227			SET(C_GRY\|C_RFLT\|C_TFLT\|C_GAMUT);
228			cvts.pconf = PLANARCONFIG_CONTIG;
229			TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
230			LOGLUVDATAFMT_FLTY);
231			TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
232			SAMPLEFORMAT_IEEEFP);
233			cvts.tf = L2Color;
234			break;
235			case COMPRESSION_LOGLUV24:
236			case COMPRESSION_LOGLUV32:
237			SET(C_RFLT\|C_TFLT);
238			if (!CHK(C_XYZE)) {
239			cpcolormat(cvts.cmat, xyz2rgbmat);
240			SET(C_CXFM\|C_GAMUT);
241			} else if (cvts.comp == COMPRESSION_LOGLUV32)
242			SET(C_GAMUT);
243			if (cvts.pconf != PLANARCONFIG_CONTIG)
244			quiterr("cannot handle separate Luv planes");
245			TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
246			LOGLUVDATAFMT_FLTXYZ);
247			TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
248			SAMPLEFORMAT_IEEEFP);
249			cvts.tf = Luv2Color;
250			break;
251			default:
252			SET(C_GAMMA\|C_GAMUT);
253			setcolrgam(cvts.gamcor);
254			if (CHK(C_XYZE)) {
255			comprgb2xyzmat(cvts.cmat,
256			CHK(C_PRIM) ? cvts.prims : stdprims);
257			SET(C_CXFM);
258			}
259			if (!TIFFGetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, &hi) \|\|
260			(hi != 1 && hi != 3))
261			quiterr("unsupported samples per pixel");
262			if (hi == 1) {
263			SET(C_GRY);
264			cvts.pconf = PLANARCONFIG_CONTIG;
265			cvts.tf = Gry2Colr;
266			} else
267			cvts.tf = RGB2Colr;
268			if (!TIFFGetField(cvts.tif, TIFFTAG_BITSPERSAMPLE, &hi) \|\|
269			hi != 8)
270			quiterr("unsupported bits per sample");
271			break;
272			}
273
274			if (TIFFGetField(cvts.tif, TIFFTAG_PHOTOMETRIC, &hi) &&
275			hi != (CHK(C_GRY) ? PHOTOMETRIC_MINISBLACK : PHOTOMETRIC_RGB))
276	greg	1.1	quiterr("unsupported photometric interpretation");
277	gregl	2.9
278			if (!TIFFGetField(cvts.tif, TIFFTAG_IMAGEWIDTH, &cvts.xmax) \|\|
279			!TIFFGetField(cvts.tif, TIFFTAG_IMAGELENGTH, &cvts.ymax))
280	greg	1.1	quiterr("unknown input image resolution");
281	gregl	2.9
282			if (!TIFFGetField(cvts.tif, TIFFTAG_STONITS, &cvts.stonits))
283			cvts.stonits = 1.;
284			/* add to Radiance header */
285			if (cvts.pixrat < .99 \|\| cvts.pixrat > 1.01)
286			fputaspect(cvts.pixrat, cvts.rfp);
287			if (CHK(C_XYZE)) {
288			fputexpos(pow(2.,(double)cvts.bradj)/cvts.stonits, cvts.rfp);
289			fputformat(CIEFMT, cvts.rfp);
290			} else {
291			if (CHK(C_PRIM))
292			fputprims(cvts.prims, cvts.rfp);
293			fputexpos(WHTEFFICACY*pow(2.,(double)cvts.bradj)/cvts.stonits,
294			cvts.rfp);
295			fputformat(COLRFMT, cvts.rfp);
296			}
297
298			allocbufs(); /* allocate scanline buffers */
299			}
300
301
302			tiff2ra(ac, av) /* convert TIFF image to Radiance picture */
303			int ac;
304			char *av[];
305			{
306			int32 y;
307			/* open TIFF input */
308			if ((cvts.tif = TIFFOpen(av[ac], "r")) == NULL)
309			quiterr("cannot open TIFF input");
310			/* open Radiance output */
311			if (av[ac+1] == NULL \|\| !strcmp(av[ac+1], "-"))
312			cvts.rfp = stdout;
313			else if ((cvts.rfp = fopen(av[ac+1], "w")) == NULL)
314			quiterr("cannot open Radiance output picture");
315			/* start output header */
316			newheader("RADIANCE", cvts.rfp);
317			printargs(ac, av, cvts.rfp);
318
319			initfromtif(); /* initialize conversion */
320
321			fputc('\n', cvts.rfp); /* finish Radiance header */
322			fputresolu(pixorder(), (int)cvts.xmax, (int)cvts.ymax, cvts.rfp);
323
324			for (y = 0; y < cvts.ymax; y++) /* convert image */
325			(*cvts.tf)(y);
326			/* clean up */
327			fclose(cvts.rfp);
328			TIFFClose(cvts.tif);
329			}
330
331
332			int
333			headline(s) /* process Radiance input header line */
334			char *s;
335			{
336			char fmt[32];
337
338			if (formatval(fmt, s)) {
339			if (!strcmp(fmt, COLRFMT))
340			CLR(C_XYZE);
341			else if (!strcmp(fmt, CIEFMT))
342			SET(C_XYZE);
343			else
344			quiterr("unrecognized input picture format");
345			return;
346			}
347			if (isexpos(s)) {
348			cvts.stonits /= exposval(s);
349			return;
350			}
351			if (isaspect(s)) {
352			cvts.pixrat *= aspectval(s);
353			return;
354			}
355			if (isprims(s)) {
356			primsval(cvts.prims, s);
357			SET(C_PRIM);
358			return;
359			}
360			}
361
362
363			initfromrad() /* initialize input from a Radiance picture */
364			{
365			int i1, i2, po;
366			/* read Radiance header */
367			CLR(C_RFLT\|C_TFLT\|C_XYZE\|C_PRIM\|C_GAMMA\|C_CXFM);
368			cvts.stonits = 1.;
369			cvts.pixrat = 1.;
370			cvts.pconf = PLANARCONFIG_CONTIG;
371			getheader(cvts.rfp, headline, NULL);
372			if ((po = fgetresolu(&i1, &i2, cvts.rfp)) < 0)
373			quiterr("bad Radiance picture");
374			cvts.xmax = i1; cvts.ymax = i2;
375			for (i1 = 0; i1 < 8; i1++) /* interpret orientation */
376			if (ortab[i1] == po) {
377			cvts.orient = i1 + 1;
378			break;
379	greg	1.1	}
380	gregl	2.9	if (i1 >= 8)
381			quiterr("internal error 1 in initfromrad");
382			if (!(po & YMAJOR))
383			cvts.pixrat = 1./cvts.pixrat;
384			if (!CHK(C_XYZE))
385			cvts.stonits *= WHTEFFICACY;
386			/* set up conversion */
387			TIFFSetField(cvts.tif, TIFFTAG_COMPRESSION, cvts.comp);
388
389			switch (cvts.comp) {
390			case COMPRESSION_LOGL16:
391			SET(C_GRY\|C_RFLT\|C_TFLT);
392			TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
393			LOGLUVDATAFMT_FLTY);
394			TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
395			SAMPLEFORMAT_IEEEFP);
396			cvts.tf = Color2L;
397			break;
398			case COMPRESSION_LOGLUV24:
399			case COMPRESSION_LOGLUV32:
400			SET(C_RFLT\|C_TFLT);
401			CLR(C_GRY);
402			if (!CHK(C_XYZE)) {
403			cpcolormat(cvts.cmat, rgb2xyzmat);
404			SET(C_CXFM);
405			}
406			TIFFSetField(cvts.tif, TIFFTAG_LOGLUVDATAFMT,
407			LOGLUVDATAFMT_FLTXYZ);
408			TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
409			SAMPLEFORMAT_IEEEFP);
410			cvts.tf = Color2Luv;
411			break;
412			default:
413			SET(C_GAMMA\|C_GAMUT);
414			setcolrgam(cvts.gamcor);
415			if (CHK(C_XYZE)) {
416			compxyz2rgbmat(cvts.cmat,
417			CHK(C_PRIM) ? cvts.prims : stdprims);
418			SET(C_CXFM);
419			}
420			if (CHK(C_GRY))
421			cvts.tf = Colr2Gry;
422			else
423			cvts.tf = Colr2RGB;
424			if (CHK(C_PRIM)) {
425			TIFFSetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES,
426			(float *)cvts.prims);
427			TIFFSetField(cvts.tif, TIFFTAG_WHITEPOINT,
428			(float *)cvts.prims[WHT]);
429			}
430			break;
431	greg	1.1	}
432	gregl	2.9	/* set other TIFF fields */
433			TIFFSetField(cvts.tif, TIFFTAG_IMAGEWIDTH, cvts.xmax);
434			TIFFSetField(cvts.tif, TIFFTAG_IMAGELENGTH, cvts.ymax);
435			TIFFSetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, CHK(C_GRY) ? 1 : 3);
436			TIFFSetField(cvts.tif, TIFFTAG_BITSPERSAMPLE, CHK(C_TFLT) ? 32 : 8);
437			TIFFSetField(cvts.tif, TIFFTAG_PHOTOMETRIC,
438			CHK(C_GRY) ? PHOTOMETRIC_MINISBLACK : PHOTOMETRIC_RGB);
439			TIFFSetField(cvts.tif, TIFFTAG_XRESOLUTION, 72.);
440			TIFFSetField(cvts.tif, TIFFTAG_YRESOLUTION, 72./cvts.pixrat);
441			TIFFSetField(cvts.tif, TIFFTAG_ORIENTATION, cvts.orient);
442			TIFFSetField(cvts.tif, TIFFTAG_RESOLUTIONUNIT, 2);
443			TIFFSetField(cvts.tif, TIFFTAG_PLANARCONFIG, cvts.pconf);
444			TIFFSetField(cvts.tif, TIFFTAG_STONITS,
445			cvts.stonits/pow(2.,(double)cvts.bradj));
446			i1 = TIFFScanlineSize(cvts.tif);
447			i2 = 8192/i1; /* compute good strip size */
448			if (i2 < 1) i2 = 1;
449			TIFFSetField(cvts.tif, TIFFTAG_ROWSPERSTRIP, (uint32)i2);
450
451			allocbufs(); /* allocate scanline buffers */
452			}
453
454
455			ra2tiff(ac, av) /* convert Radiance picture to TIFF image */
456			int ac;
457			char *av[];
458			{
459			uint32 y;
460			/* open Radiance file */
461			if (!strcmp(av[ac], "-"))
462			cvts.rfp = stdin;
463			else if ((cvts.rfp = fopen(av[ac], "r")) == NULL)
464			quiterr("cannot open Radiance input picture");
465			/* open TIFF file */
466			if ((cvts.tif = TIFFOpen(av[ac+1], "w")) == NULL)
467			quiterr("cannot open TIFF output");
468
469			initfromrad(); /* initialize conversion */
470
471			for (y = 0; y < cvts.ymax; y++) /* convert image */
472			(*cvts.tf)(y);
473	greg	1.1	/* clean up */
474	gregl	2.9	TIFFClose(cvts.tif);
475			fclose(cvts.rfp);
476			}
477
478
479			int
480			Luv2Color(y) /* read/convert/write Luv->COLOR scanline */
481			uint32 y;
482			{
483			register int x;
484
485			if (CHK(C_RFLT\|C_TFLT) != (C_RFLT\|C_TFLT) \| CHK(C_GRY))
486			quiterr("internal error 1 in Luv2Color");
487
488			if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
489			quiterr("error reading TIFF input");
490
491			for (x = cvts.xmax; x--; ) {
492			cvts.r.colors[x][RED] = cvts.t.fp[3*x];
493			cvts.r.colors[x][GRN] = cvts.t.fp[3*x + 1];
494			cvts.r.colors[x][BLU] = cvts.t.fp[3*x + 2];
495			if (CHK(C_CXFM))
496			colortrans(cvts.r.colors[x], cvts.cmat,
497			cvts.r.colors[x]);
498			if (CHK(C_GAMUT))
499			clipgamut(cvts.r.colors[x], cvts.t.fp[3*x + 1],
500			CGAMUT_LOWER, cblack, cwhite);
501			}
502			if (cvts.bradj) {
503			double m = pow(2.,(double)cvts.bradj);
504			for (x = cvts.xmax; x--; )
505			scalecolor(cvts.r.colors[x], m);
506			}
507
508			if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
509			quiterr("error writing Radiance picture");
510			}
511
512
513			int
514			L2Color(y) /* read/convert/write L16->COLOR scanline */
515			uint32 y;
516			{
517			register int x;
518
519			if (CHK(C_RFLT\|C_TFLT\|C_GRY) != (C_RFLT\|C_TFLT\|C_GRY))
520			quiterr("internal error 1 in L2Color");
521
522			if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
523			quiterr("error reading TIFF input");
524
525			for (x = cvts.xmax; x--; )
526			cvts.r.colors[x][RED] =
527			cvts.r.colors[x][GRN] =
528			cvts.r.colors[x][BLU] = cvts.t.fp[x] > 0. ? cvts.t.fp[x] : 0.;
529
530			if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
531			quiterr("error writing Radiance picture");
532			}
533
534
535			int
536			RGB2Colr(y) /* read/convert/write RGB->COLR scanline */
537			uint32 y;
538			{
539			COLOR ctmp;
540			register int x;
541
542			if (CHK(C_RFLT\|C_TFLT\|C_GRY))
543			quiterr("internal error 1 in RGB2Colr");
544
545			if (cvts.pconf == PLANARCONFIG_CONTIG) {
546			if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
547			goto readerr;
548			for (x = cvts.xmax; x--; ) {
549			cvts.r.colrs[x][RED] = cvts.t.bp[3*x];
550			cvts.r.colrs[x][GRN] = cvts.t.bp[3*x + 1];
551			cvts.r.colrs[x][BLU] = cvts.t.bp[3*x + 2];
552			}
553			} else {
554			if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
555			goto readerr;
556			if (TIFFReadScanline(cvts.tif,
557			(tidata_t)(cvts.t.bp + cvts.xmax), y, 1) < 0)
558			goto readerr;
559			if (TIFFReadScanline(cvts.tif,
560			(tidata_t)(cvts.t.bp + 2*cvts.xmax), y, 2) < 0)
561			goto readerr;
562			for (x = cvts.xmax; x--; ) {
563			cvts.r.colrs[x][RED] = cvts.t.bp[x];
564			cvts.r.colrs[x][GRN] = cvts.t.bp[cvts.xmax + x];
565			cvts.r.colrs[x][BLU] = cvts.t.bp[2*cvts.xmax + x];
566			}
567			}
568
569			gambs_colrs(cvts.r.colrs, cvts.xmax);
570			if (CHK(C_CXFM))
571			for (x = cvts.xmax; x--; ) {
572			colr_color(ctmp, cvts.r.colrs[x]);
573			colortrans(ctmp, cvts.cmat, ctmp);
574			if (CHK(C_GAMUT)) /* !CHK(C_XYZE) */
575			clipgamut(ctmp, bright(ctmp), CGAMUT_LOWER,
576			cblack, cwhite);
577			setcolr(cvts.r.colrs[x], colval(ctmp,RED),
578			colval(ctmp,GRN), colval(ctmp,BLU));
579			}
580			if (cvts.bradj)
581			shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
582
583			if (fwritecolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
584			quiterr("error writing Radiance picture");
585	greg	1.1	return;
586			readerr:
587			quiterr("error reading TIFF input");
588			}
589
590
591	gregl	2.9	int
592			Gry2Colr(y) /* read/convert/write G8->COLR scanline */
593			uint32 y;
594	greg	1.1	{
595			register int x;
596	gregl	2.9
597			if (CHK(C_RFLT\|C_TFLT) \| !CHK(C_GRY))
598			quiterr("internal error 1 in Gry2Colr");
599
600			if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
601			quiterr("error reading TIFF input");
602
603			for (x = cvts.xmax; x--; )
604			cvts.r.colrs[x][RED] =
605			cvts.r.colrs[x][GRN] =
606			cvts.r.colrs[x][BLU] = cvts.t.bp[x];
607
608			gambs_colrs(cvts.r.colrs, cvts.xmax);
609			if (cvts.bradj)
610			shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
611
612			if (fwritecolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
613			quiterr("error writing Radiance picture");
614			}
615
616
617			int
618			Color2L(y) /* read/convert/write COLOR->L16 scanline */
619			uint32 y;
620			{
621			double m = pow(2.,(double)cvts.bradj);
622			register int x;
623
624			if (CHK(C_RFLT\|C_TFLT) != (C_RFLT\|C_TFLT) \| !CHK(C_GRY))
625			quiterr("internal error 1 in Color2L");
626
627			if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
628			quiterr("error reading Radiance picture");
629
630			for (x = cvts.xmax; x--; )
631			cvts.t.fp[x] = m*( CHK(C_XYZE) ? colval(cvts.r.colors[x],CIEY)
632			: bright(cvts.r.colors[x]) );
633
634			if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
635			quiterr("error writing TIFF output");
636			}
637
638
639			int
640			Color2Luv(y) /* read/convert/write COLOR->Luv scanline */
641			uint32 y;
642			{
643			register int x;
644
645			if (CHK(C_RFLT\|C_TFLT) != (C_RFLT\|C_TFLT) \| CHK(C_GRY))
646			quiterr("internal error 1 in Color2Luv");
647
648			if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
649			quiterr("error reading Radiance picture");
650
651			if (CHK(C_CXFM))
652			for (x = cvts.xmax; x--; )
653			colortrans(cvts.r.colors[x], cvts.cmat,
654			cvts.r.colors[x]);
655			if (cvts.bradj) {
656			double m = pow(2.,(double)cvts.bradj);
657			for (x = cvts.xmax; x--; )
658			scalecolor(cvts.r.colors[x], m);
659			}
660
661			for (x = cvts.xmax; x--; ) {
662			cvts.t.fp[3*x] = colval(cvts.r.colors[x],RED);
663			cvts.t.fp[3*x+1] = colval(cvts.r.colors[x],GRN);
664			cvts.t.fp[3*x+2] = colval(cvts.r.colors[x],BLU);
665			}
666
667			if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
668			quiterr("error writing TIFF output");
669			}
670
671
672			int
673			Colr2Gry(y) /* read/convert/write COLR->RGB scanline */
674			uint32 y;
675			{
676			register int x;
677
678			if (CHK(C_RFLT\|C_TFLT) \| !CHK(C_GRY))
679			quiterr("internal error 1 in Colr2Gry");
680
681			if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
682			quiterr("error reading Radiance picture");
683
684			if (cvts.bradj)
685			shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
686			for (x = cvts.xmax; x--; )
687			colval(cvts.r.colrs[x],CIEY) = normbright(cvts.r.colrs[x]);
688			colrs_gambs(cvts.r.colrs, cvts.xmax);
689
690			for (x = cvts.xmax; x--; )
691			cvts.t.bp[x] = colval(cvts.r.colrs[x],CIEY);
692
693			if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
694			quiterr("error writing TIFF output");
695			}
696
697
698			int
699			Colr2RGB(y) /* read/convert/write COLR->RGB scanline */
700			uint32 y;
701			{
702			COLOR ctmp;
703			register int x;
704
705			if (CHK(C_RFLT\|C_TFLT\|C_GRY))
706			quiterr("internal error 1 in Colr2RGB");
707
708			if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
709			quiterr("error reading Radiance picture");
710
711			if (cvts.bradj)
712			shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
713			if (CHK(C_CXFM))
714			for (x = cvts.xmax; x--; ) {
715			colr_color(ctmp, cvts.r.colrs[x]);
716			colortrans(ctmp, cvts.cmat, ctmp);
717			if (CHK(C_GAMUT))
718			clipgamut(ctmp, bright(ctmp), CGAMUT,
719			cblack, cwhite);
720			setcolr(cvts.r.colrs[x], colval(ctmp,RED),
721			colval(ctmp,GRN), colval(ctmp,BLU));
722	greg	1.1	}
723	gregl	2.9	colrs_gambs(cvts.r.colrs, cvts.xmax);
724
725			for (x = cvts.xmax; x--; ) {
726			cvts.t.bp[3*x] = cvts.r.colrs[x][RED];
727			cvts.t.bp[3*x+1] = cvts.r.colrs[x][GRN];
728			cvts.t.bp[3*x+2] = cvts.r.colrs[x][BLU];
729	greg	1.1	}
730	gregl	2.9
731			if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
732			quiterr("error writing TIFF output");
733	greg	1.1	}