src/px/pvalue.c

/* Copyright (c) 1992 Regents of the University of California */

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

/*
 *  pvalue.c - program to print pixel values.
 *
 *     4/23/86
 */

#include  "standard.h"

#include  "color.h"

#include  "resolu.h"

#define  min(a,b)               ((a)<(b)?(a):(b))

                                /* what to put out (also RED, GRN, BLU) */
#define  ALL            3
#define  BRIGHT         4

#define  brightonly     (putprim==BRIGHT)

RESOLU  picres;                 /* resolution of picture */

int  uniq = 0;                  /* print only unique values? */

int  doexposure = 0;            /* exposure change? (>100 to print) */

int  dataonly = 0;              /* data only format? */

int  putprim = ALL;             /* what to put out */

int  reverse = 0;               /* reverse conversion? */

int  format = 'a';              /* input/output format */
char  *fmtid = "ascii";         /* format identifier for header */

int  header = 1;                /* do header? */

long  skipbytes = 0;            /* skip bytes in input? */

int  interleave = 1;            /* file is interleaved? */

int  resolution = 1;            /* put/get resolution string? */

int  original = 0;              /* convert to original values? */

int  wrongformat = 0;           /* wrong input format? */

double  gamcor = 1.0;           /* gamma correction */

int  ord[3] = {RED, GRN, BLU};  /* RGB ordering */
int  rord[4];                   /* reverse ordering */

COLOR  exposure = WHTCOLOR;

char  *progname;

FILE  *fin;
FILE  *fin2 = NULL, *fin3 = NULL;       /* for other color channels */

int  (*getval)(), (*putval)();


main(argc, argv)
int  argc;
char  **argv;
{
        extern int  checkhead();
        extern long  atol();
        double  d, expval = 1.0;
        int  i;

        progname = argv[0];

        for (i = 1; i < argc; i++)
                if (argv[i][0] == '-' || argv[i][0] == '+')
                        switch (argv[i][1]) {
                        case 'h':               /* header */
                                header = argv[i][0] == '+';
                                break;
                        case 'H':               /* resolution string */
                                resolution = argv[i][0] == '+';
                                break;
                        case 's':               /* skip bytes in header */
                                skipbytes = atol(argv[++i]);
                                break;
                        case 'u':               /* unique values */
                                uniq = argv[i][0] == '-';
                                break;
                        case 'o':               /* original values */
                                original = argv[i][0] == '-';
                                break;
                        case 'g':               /* gamma correction */
                                gamcor = atof(argv[i+1]);
                                if (argv[i][0] == '+')
                                        gamcor = 1.0/gamcor;
                                i++;
                                break;
                        case 'e':               /* exposure correction */
                                d = atof(argv[i+1]);
                                if (argv[i+1][0] == '-' || argv[i+1][0] == '+')
                                        d = pow(2.0, d);
                                if (argv[i][0] == '-')
                                        expval *= d;
                                scalecolor(exposure, d);
                                doexposure++;
                                i++;
                                break;
                        case 'R':               /* reverse byte sequence */
                                if (argv[i][0] == '-') {
                                        ord[0]=BLU; ord[1]=GRN; ord[2]=RED;
                                } else {
                                        ord[0]=RED; ord[1]=GRN; ord[2]=BLU;
                                }
                                break;
                        case 'r':               /* reverse conversion */
                                reverse = argv[i][0] == '-';
                                break;
                        case 'n':               /* non-interleaved RGB */
                                interleave = argv[i][0] == '+';
                                break;
                        case 'b':               /* brightness values */
                                putprim = argv[i][0] == '-' ? BRIGHT : ALL;
                                break;
                        case 'p':               /* put primary */
                                switch (argv[i][2]) {
                                case 'r': case 'R': putprim = RED; break;
                                case 'g': case 'G': putprim = GRN; break;
                                case 'b': case 'B': putprim = BLU; break;
                                default: goto unkopt;
                                }
                                break;
                        case 'd':               /* data only (no indices) */
                                dataonly = argv[i][0] == '-';
                                switch (argv[i][2]) {
                                case '\0':
                                case 'a':               /* ascii */
                                        format = 'a';
                                        fmtid = "ascii";
                                        break;
                                case 'i':               /* integer */
                                        format = 'i';
                                        fmtid = "ascii";
                                        break;
                                case 'b':               /* byte */
                                        dataonly = 1;
                                        format = 'b';
                                        fmtid = "byte";
                                        break;
                                case 'f':               /* float */
                                        dataonly = 1;
                                        format = 'f';
                                        fmtid = "float";
                                        break;
                                case 'd':               /* double */
                                        dataonly = 1;
                                        format = 'd';
                                        fmtid = "double";
                                        break;
                                default:
                                        goto unkopt;
                                }
                                break;
                        case 'x':               /* x resolution */
                        case 'X':               /* x resolution */
                                resolution = 0;
                                if (argv[i][0] == '-')
                                        picres.or |= XDECR;
                                picres.xr = atoi(argv[++i]);
                                break;
                        case 'y':               /* y resolution */
                        case 'Y':               /* y resolution */
                                resolution = 0;
                                if (argv[i][0] == '-')
                                        picres.or |= YDECR;
                                if (picres.xr == 0)
                                        picres.or |= YMAJOR;
                                picres.yr = atoi(argv[++i]);
                                break;
                        default:
unkopt:
                                fprintf(stderr, "%s: unknown option: %s\n",
                                                progname, argv[i]);
                                quit(1);
                                break;
                        }
                else
                        break;
                                        /* recognize special formats */
        if (dataonly && format == 'b')
                if (brightonly)
                        fmtid = "8-bit_grey";
                else
                        fmtid = "24-bit_rgb";
                                        /* assign reverse ordering */
        rord[ord[0]] = 0;
        rord[ord[1]] = 1;
        rord[ord[2]] = 2;
                                        /* get input */
        if (i == argc) {
                fin = stdin;
        } else if (i < argc) {
                if ((fin = fopen(argv[i], "r")) == NULL) {
                        fprintf(stderr, "%s: can't open file \"%s\"\n",
                                                progname, argv[i]);
                        quit(1);
                }
                if (reverse && !brightonly && i == argc-3) {
                        if ((fin2 = fopen(argv[i+1], "r")) == NULL) {
                                fprintf(stderr, "%s: can't open file \"%s\"\n",
                                                progname, argv[i+1]);
                                quit(1);
                        }
                        if ((fin3 = fopen(argv[i+2], "r")) == NULL) {
                                fprintf(stderr, "%s: can't open file \"%s\"\n",
                                                progname, argv[i+2]);
                                quit(1);
                        }
                        interleave = -1;
                } else if (i != argc-1)
                        fin = NULL;
                if (reverse && !brightonly && !interleave) {
                        fin2 = fopen(argv[i], "r");
                        fin3 = fopen(argv[i], "r");
                }
                if (skipbytes && (fseek(fin, skipbytes, 0) || (fin2 != NULL &&
                                (fseek(fin2, skipbytes, 0) ||
                                fseek(fin3, skipbytes, 0))))) {
                        fprintf(stderr, "%s: cannot skip %ld bytes on input\n",
                                        progname, skipbytes);
                        quit(1);
                }
        }
        if (fin == NULL) {
                fprintf(stderr, "%s: bad # file arguments\n", progname);
                quit(1);
        }

        if (reverse) {
#ifdef MSDOS
                setmode(fileno(stdout), O_BINARY);
                if (format != 'a' && format != 'i')
                        setmode(fileno(fin), O_BINARY);
#endif
                                        /* get header */
                if (header) {
                        if (checkheader(fin, fmtid, stdout) < 0) {
                                fprintf(stderr, "%s: wrong input format\n",
                                                progname);
                                quit(1);
                        }
                        if (fin2 != NULL) {
                                getheader(fin2, NULL, NULL);
                                getheader(fin3, NULL, NULL);
                        }
                } else
                        newheader("RADIANCE", stdout);
                                        /* get resolution */
                if ((resolution && !fgetsresolu(&picres, fin)) ||
                                picres.xr <= 0 || picres.yr <= 0) {
                        fprintf(stderr, "%s: missing resolution\n", progname);
                        quit(1);
                }
                if (resolution && fin2 != NULL) {
                        RESOLU  pres2;
                        if (!fgetsresolu(&pres2, fin2) ||
                                        pres2.or != picres.or ||
                                        pres2.xr != picres.xr ||
                                        pres2.yr != picres.yr ||
                                        !fgetsresolu(&pres2, fin3) ||
                                        pres2.or != picres.or ||
                                        pres2.xr != picres.xr ||
                                        pres2.yr != picres.yr) {
                                fprintf(stderr, "%s: resolution mismatch\n",
                                                progname);
                                quit(1);
                        }
                }
                                                /* add to header */
                printargs(i, argv, stdout);
                if (expval < .99 || expval > 1.01)
                        fputexpos(expval, stdout);
                fputformat(COLRFMT, stdout);
                putchar('\n');
                fputsresolu(&picres, stdout);   /* always put resolution */
                valtopix();
        } else {
#ifdef MSDOS
                setmode(fileno(fin), O_BINARY);
                if (format != 'a' && format != 'i')
                        setmode(fileno(stdout), O_BINARY);
#endif
                                                /* get header */
                getheader(fin, checkhead, NULL);
                if (wrongformat) {
                        fprintf(stderr, "%s: input not a Radiance picture\n",
                                        progname);
                        quit(1);
                }
                if (!fgetsresolu(&picres, fin)) {
                        fprintf(stderr, "%s: missing resolution\n", progname);
                        quit(1);
                }
                if (header) {
                        printargs(i, argv, stdout);
                        if (expval < .99 || expval > 1.01)
                                fputexpos(expval, stdout);
                        fputformat(fmtid, stdout);
                        putchar('\n');
                }
                if (resolution)                 /* put resolution */
                        fputsresolu(&picres, stdout);
                pixtoval();
        }

        quit(0);
}


int
checkhead(line)                         /* deal with line from header */
char  *line;
{
        char    fmt[32];
        double  d;
        COLOR   ctmp;

        if (formatval(fmt, line))
                wrongformat = strcmp(fmt, COLRFMT);
        else if (original && isexpos(line)) {
                d = 1.0/exposval(line);
                scalecolor(exposure, d);
                doexposure++;
        } else if (original && iscolcor(line)) {
                colcorval(ctmp, line);
                setcolor(exposure, colval(exposure,RED)/colval(ctmp,RED),
                                colval(exposure,GRN)/colval(ctmp,GRN),
                                colval(exposure,BLU)/colval(ctmp,BLU));
                doexposure++;
        } else if (header)
                fputs(line, stdout);
        return(0);
}


pixtoval()                              /* convert picture to values */
{
        register COLOR  *scanln;
        int  dogamma;
        COLOR  lastc;
        FLOAT  hv[2];
        int  startprim, endprim;
        long  startpos;
        int  y;
        register int  x;

        scanln = (COLOR *)malloc(scanlen(&picres)*sizeof(COLOR));
        if (scanln == NULL) {
                fprintf(stderr, "%s: out of memory\n", progname);
                quit(1);
        }
        dogamma = gamcor < .95 || gamcor > 1.05;
        if (putprim == ALL && !interleave) {
                startprim = RED; endprim = BLU;
                startpos = ftell(fin);
        } else {
                startprim = putprim; endprim = putprim;
        }
        for (putprim = startprim; putprim <= endprim; putprim++) {
                if (putprim != startprim && fseek(fin, startpos, 0)) {
                        fprintf(stderr, "%s: seek error on input file\n",
                                        progname);
                        quit(1);
                }
                set_io();
                setcolor(lastc, 0.0, 0.0, 0.0);
                for (y = 0; y < numscans(&picres); y++) {
                        if (freadscan(scanln, scanlen(&picres), fin) < 0) {
                                fprintf(stderr, "%s: read error\n", progname);
                                quit(1);
                        }
                        for (x = 0; x < scanlen(&picres); x++) {
                                if (uniq)
                                        if (    colval(scanln[x],RED) ==
                                                        colval(lastc,RED) &&
                                                colval(scanln[x],GRN) ==
                                                        colval(lastc,GRN) &&
                                                colval(scanln[x],BLU) ==
                                                        colval(lastc,BLU)       )
                                                continue;
                                        else
                                                copycolor(lastc, scanln[x]);
                                if (doexposure)
                                        multcolor(scanln[x], exposure);
                                if (dogamma)
                                        setcolor(scanln[x],
                                        pow(colval(scanln[x],RED), 1.0/gamcor),
                                        pow(colval(scanln[x],GRN), 1.0/gamcor),
                                        pow(colval(scanln[x],BLU), 1.0/gamcor));
                                if (!dataonly) {
                                        pix2loc(hv, &picres, x, y);
                                        printf("%7d %7d ",
                                                        (int)(hv[0]*picres.xr),
                                                        (int)(hv[1]*picres.yr));
                                }
                                if ((*putval)(scanln[x]) < 0) {
                                        fprintf(stderr, "%s: write error\n",
                                                        progname);
                                        quit(1);
                                }
                        }
                }
        }
        free((char *)scanln);
}


valtopix()                      /* convert values to a pixel file */
{
        int  dogamma;
        register COLOR  *scanln;
        int  y;
        register int  x;

        scanln = (COLOR *)malloc(scanlen(&picres)*sizeof(COLOR));
        if (scanln == NULL) {
                fprintf(stderr, "%s: out of memory\n", progname);
                quit(1);
        }
        dogamma = gamcor < .95 || gamcor > 1.05;
        set_io();
        for (y = 0; y < numscans(&picres); y++) {
                for (x = 0; x < scanlen(&picres); x++) {
                        if (!dataonly) {
                                fscanf(fin, "%*d %*d");
                                if (fin2 != NULL) {
                                        fscanf(fin2, "%*d %*d");
                                        fscanf(fin3, "%*d %*d");
                                }
                        }
                        if ((*getval)(scanln[x]) < 0) {
                                fprintf(stderr, "%s: read error\n", progname);
                                quit(1);
                        }
                        if (dogamma)
                                setcolor(scanln[x],
                                        pow(colval(scanln[x],RED), gamcor),
                                        pow(colval(scanln[x],GRN), gamcor),
                                        pow(colval(scanln[x],BLU), gamcor));
                        if (doexposure)
                                multcolor(scanln[x], exposure);
                }
                if (fwritescan(scanln, scanlen(&picres), stdout) < 0) {
                        fprintf(stderr, "%s: write error\n", progname);
                        quit(1);
                }
        }
        free((char *)scanln);
}


quit(code)
int  code;
{
        exit(code);
}


getcascii(col)          /* get an ascii color value from stream(s) */
COLOR  col;
{
        double  vd[3];

        if (fin2 == NULL) {
                if (fscanf(fin, "%lf %lf %lf", &vd[0], &vd[1], &vd[2]) != 3)
                        return(-1);
        } else {
                if (fscanf(fin, "%lf", &vd[0]) != 1 ||
                                fscanf(fin2, "%lf", &vd[1]) != 1 ||
                                fscanf(fin3, "%lf", &vd[2]) != 1)
                        return(-1);
        }
        setcolor(col, vd[rord[RED]], vd[rord[GRN]], vd[rord[BLU]]);
        return(0);
}


getcdouble(col)         /* get a double color value from stream(s) */
COLOR  col;
{
        double  vd[3];

        if (fin2 == NULL) {
                if (fread((char *)vd, sizeof(double), 3, fin) != 3)
                        return(-1);
        } else {
                if (fread((char *)vd, sizeof(double), 1, fin) != 1 ||
                        fread((char *)(vd+1), sizeof(double), 1, fin2) != 1 ||
                        fread((char *)(vd+2), sizeof(double), 1, fin3) != 1)
                        return(-1);
        }
        setcolor(col, vd[rord[RED]], vd[rord[GRN]], vd[rord[BLU]]);
        return(0);
}


getcfloat(col)          /* get a float color value from stream(s) */
COLOR  col;
{
        float  vf[3];

        if (fin2 == NULL) {
                if (fread((char *)vf, sizeof(float), 3, fin) != 3)
                        return(-1);
        } else {
                if (fread((char *)vf, sizeof(float), 1, fin) != 1 ||
                        fread((char *)(vf+1), sizeof(float), 1, fin2) != 1 ||
                        fread((char *)(vf+2), sizeof(float), 1, fin3) != 1)
                        return(-1);
        }
        setcolor(col, vf[rord[RED]], vf[rord[GRN]], vf[rord[BLU]]);
        return(0);
}


getcint(col)            /* get an int color value from stream(s) */
COLOR  col;
{
        int  vi[3];

        if (fin2 == NULL) {
                if (fscanf(fin, "%d %d %d", &vi[0], &vi[1], &vi[2]) != 3)
                        return(-1);
        } else {
                if (fscanf(fin, "%d", &vi[0]) != 1 ||
                                fscanf(fin2, "%d", &vi[1]) != 1 ||
                                fscanf(fin3, "%d", &vi[2]) != 1)
                        return(-1);
        }
        setcolor(col, (vi[rord[RED]]+.5)/256.,
                        (vi[rord[GRN]]+.5)/256., (vi[rord[BLU]]+.5)/256.);
        return(0);
}


getcbyte(col)           /* get a byte color value from stream(s) */
COLOR  col;
{
        BYTE  vb[3];

        if (fin2 == NULL) {
                if (fread((char *)vb, sizeof(BYTE), 3, fin) != 3)
                        return(-1);
        } else {
                if (fread((char *)vb, sizeof(BYTE), 1, fin) != 1 ||
                        fread((char *)(vb+1), sizeof(BYTE), 1, fin2) != 1 ||
                        fread((char *)(vb+2), sizeof(BYTE), 1, fin3) != 1)
                        return(-1);
        }
        setcolor(col, (vb[rord[RED]]+.5)/256.,
                        (vb[rord[GRN]]+.5)/256., (vb[rord[BLU]]+.5)/256.);
        return(0);
}


getbascii(col)          /* get an ascii brightness value from fin */
COLOR  col;
{
        double  vd;

        if (fscanf(fin, "%lf", &vd) != 1)
                return(-1);
        setcolor(col, vd, vd, vd);
        return(0);
}


getbdouble(col)         /* get a double brightness value from fin */
COLOR  col;
{
        double  vd;

        if (fread((char *)&vd, sizeof(double), 1, fin) != 1)
                return(-1);
        setcolor(col, vd, vd, vd);
        return(0);
}


getbfloat(col)          /* get a float brightness value from fin */
COLOR  col;
{
        float  vf;

        if (fread((char *)&vf, sizeof(float), 1, fin) != 1)
                return(-1);
        setcolor(col, vf, vf, vf);
        return(0);
}


getbint(col)            /* get an int brightness value from fin */
COLOR  col;
{
        int  vi;
        double  d;

        if (fscanf(fin, "%d", &vi) != 1)
                return(-1);
        d = (vi+.5)/256.;
        setcolor(col, d, d, d);
        return(0);
}


getbbyte(col)           /* get a byte brightness value from fin */
COLOR  col;
{
        BYTE  vb;
        double  d;

        if (fread((char *)&vb, sizeof(BYTE), 1, fin) != 1)
                return(-1);
        d = (vb+.5)/256.;
        setcolor(col, d, d, d);
        return(0);
}


putcascii(col)                  /* put an ascii color to stdout */
COLOR  col;
{
        fprintf(stdout, "%15.3e %15.3e %15.3e\n",
                        colval(col,ord[0]),
                        colval(col,ord[1]),
                        colval(col,ord[2]));

        return(ferror(stdout) ? -1 : 0);
}


putcfloat(col)                  /* put a float color to stdout */
COLOR  col;
{
        float  vf[3];

        vf[0] = colval(col,ord[0]);
        vf[1] = colval(col,ord[1]);
        vf[2] = colval(col,ord[2]);
        fwrite((char *)vf, sizeof(float), 3, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putcdouble(col)                 /* put a double color to stdout */
COLOR  col;
{
        double  vd[3];

        vd[0] = colval(col,ord[0]);
        vd[1] = colval(col,ord[1]);
        vd[2] = colval(col,ord[2]);
        fwrite((char *)vd, sizeof(double), 3, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putcint(col)                    /* put an int color to stdout */
COLOR  col;
{
        fprintf(stdout, "%d %d %d\n",
                        (int)(colval(col,ord[0])*256.),
                        (int)(colval(col,ord[1])*256.),
                        (int)(colval(col,ord[2])*256.));

        return(ferror(stdout) ? -1 : 0);
}


putcbyte(col)                   /* put a byte color to stdout */
COLOR  col;
{
        register int  i;
        BYTE  vb[3];

        i = colval(col,ord[0])*256.;
        vb[0] = min(i,255);
        i = colval(col,ord[1])*256.;
        vb[1] = min(i,255);
        i = colval(col,ord[2])*256.;
        vb[2] = min(i,255);
        fwrite((char *)vb, sizeof(BYTE), 3, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putbascii(col)                  /* put an ascii brightness to stdout */
COLOR  col;
{
        fprintf(stdout, "%15.3e\n", bright(col));

        return(ferror(stdout) ? -1 : 0);
}


putbfloat(col)                  /* put a float brightness to stdout */
COLOR  col;
{
        float  vf;

        vf = bright(col);
        fwrite((char *)&vf, sizeof(float), 1, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putbdouble(col)                 /* put a double brightness to stdout */
COLOR  col;
{
        double  vd;

        vd = bright(col);
        fwrite((char *)&vd, sizeof(double), 1, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putbint(col)                    /* put an int brightness to stdout */
COLOR  col;
{
        fprintf(stdout, "%d\n", (int)(bright(col)*256.));

        return(ferror(stdout) ? -1 : 0);
}


putbbyte(col)                   /* put a byte brightness to stdout */
COLOR  col;
{
        register int  i;
        BYTE  vb;

        i = bright(col)*256.;
        vb = min(i,255);
        fwrite((char *)&vb, sizeof(BYTE), 1, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putpascii(col)                  /* put an ascii primary to stdout */
COLOR  col;
{
        fprintf(stdout, "%15.3e\n", colval(col,putprim));

        return(ferror(stdout) ? -1 : 0);
}


putpfloat(col)                  /* put a float primary to stdout */
COLOR  col;
{
        float  vf;

        vf = colval(col,putprim);
        fwrite((char *)&vf, sizeof(float), 1, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putpdouble(col)                 /* put a double primary to stdout */
COLOR  col;
{
        double  vd;

        vd = colval(col,putprim);
        fwrite((char *)&vd, sizeof(double), 1, stdout);

        return(ferror(stdout) ? -1 : 0);
}


putpint(col)                    /* put an int primary to stdout */
COLOR  col;
{
        fprintf(stdout, "%d\n", (int)(colval(col,putprim)*256.));

        return(ferror(stdout) ? -1 : 0);
}


putpbyte(col)                   /* put a byte primary to stdout */
COLOR  col;
{
        register int  i;
        BYTE  vb;

        i = colval(col,putprim)*256.;
        vb = min(i,255);
        fwrite((char *)&vb, sizeof(BYTE), 1, stdout);

        return(ferror(stdout) ? -1 : 0);
}


set_io()                        /* set put and get functions */
{
        switch (format) {
        case 'a':                                       /* ascii */
                if (putprim == BRIGHT) {
                        getval = getbascii;
                        putval = putbascii;
                } else if (putprim != ALL) {
                        getval = getbascii;
                        putval = putpascii;
                } else {
                        getval = getcascii;
                        putval = putcascii;
                        if (reverse && !interleave) {
                                fprintf(stderr,
                                "%s: ASCII input files must be interleaved\n",
                                                progname);
                                quit(1);
                        }
                }
                return;
        case 'f':                                       /* binary float */
                if (putprim == BRIGHT) {
                        getval = getbfloat;
                        putval = putbfloat;
                } else if (putprim != ALL) {
                        getval = getbfloat;
                        putval = putpfloat;
                } else {
                        getval = getcfloat;
                        putval = putcfloat;
                        if (reverse && !interleave) {
                                if (fin2 == NULL)
                                        goto namerr;
                                if (fseek(fin2,
                                (long)sizeof(float)*picres.xr*picres.yr, 1))
                                        goto seekerr;
                                if (fseek(fin3,
                                (long)sizeof(float)*2*picres.xr*picres.yr, 1))
                                        goto seekerr;
                        }
                }
                return;
        case 'd':                                       /* binary double */
                if (putprim == BRIGHT) {
                        getval = getbdouble;
                        putval = putbdouble;
                } else if (putprim != ALL) {
                        getval = getbdouble;
                        putval = putpdouble;
                } else {
                        getval = getcdouble;
                        putval = putcdouble;
                        if (reverse && !interleave) {
                                if (fin2 == NULL)
                                        goto namerr;
                                if (fseek(fin2,
                                (long)sizeof(double)*picres.xr*picres.yr, 1))
                                        goto seekerr;
                                if (fseek(fin3,
                                (long)sizeof(double)*2*picres.xr*picres.yr, 1))
                                        goto seekerr;
                        }
                }
                return;
        case 'i':                                       /* integer */
                if (putprim == BRIGHT) {
                        getval = getbint;
                        putval = putbint;
                } else if (putprim != ALL) {
                        getval = getbint;
                        putval = putpint;
                } else {
                        getval = getcint;
                        putval = putcint;
                        if (reverse && !interleave) {
                                fprintf(stderr,
                                "%s: integer input files must be interleaved\n",
                                                progname);
                                quit(1);
                        }
                }
                return;
        case 'b':                                       /* byte */
                if (putprim == BRIGHT) {
                        getval = getbbyte;
                        putval = putbbyte;
                } else if (putprim != ALL) {
                        getval = getbbyte;
                        putval = putpbyte;
                } else {
                        getval = getcbyte;
                        putval = putcbyte;
                        if (reverse && !interleave) {
                                if (fin2 == NULL)
                                        goto namerr;
                                if (fseek(fin2,
                                (long)sizeof(BYTE)*picres.xr*picres.yr, 1))
                                        goto seekerr;
                                if (fseek(fin3,
                                (long)sizeof(BYTE)*2*picres.xr*picres.yr, 1))
                                        goto seekerr;
                        }
                }
                return;
        }
badopt:
        fprintf(stderr, "%s: botched file type\n", progname);
        quit(1);
namerr:
        fprintf(stderr, "%s: non-interleaved file(s) must be named\n",
                        progname);
        quit(1);
seekerr:
        fprintf(stderr, "%s: cannot seek on interleaved input file\n",
                        progname);
        quit(1);
}
Revision:	2.13
Committed:	Tue Oct 27 09:08:27 1998 UTC (25 years, 6 months ago) by gwlarson
Content type:	text/plain
Branch:	MAIN
Changes since 2.12:	+2 -0 lines
Log Message:	changed getheader() to listen to return value of passed function
#	Content
1	/* Copyright (c) 1992 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* pvalue.c - program to print pixel values.
9	*
10	* 4/23/86
11	*/
12
13	#include "standard.h"
14
15	#include "color.h"
16
17	#include "resolu.h"
18
19	#define min(a,b) ((a)<(b)?(a):(b))
20
21	/* what to put out (also RED, GRN, BLU) */
22	#define ALL 3
23	#define BRIGHT 4
24
25	#define brightonly (putprim==BRIGHT)
26
27	RESOLU picres; /* resolution of picture */
28
29	int uniq = 0; /* print only unique values? */
30
31	int doexposure = 0; /* exposure change? (>100 to print) */
32
33	int dataonly = 0; /* data only format? */
34
35	int putprim = ALL; /* what to put out */
36
37	int reverse = 0; /* reverse conversion? */
38
39	int format = 'a'; /* input/output format */
40	char fmtid = "ascii"; / format identifier for header */
41
42	int header = 1; /* do header? */
43
44	long skipbytes = 0; /* skip bytes in input? */
45
46	int interleave = 1; /* file is interleaved? */
47
48	int resolution = 1; /* put/get resolution string? */
49
50	int original = 0; /* convert to original values? */
51
52	int wrongformat = 0; /* wrong input format? */
53
54	double gamcor = 1.0; /* gamma correction */
55
56	int ord[3] = {RED, GRN, BLU}; /* RGB ordering */
57	int rord[4]; /* reverse ordering */
58
59	COLOR exposure = WHTCOLOR;
60
61	char *progname;
62
63	FILE *fin;
64	FILE fin2 = NULL, fin3 = NULL; /* for other color channels */
65
66	int (getval)(), (putval)();
67
68
69	main(argc, argv)
70	int argc;
71	char **argv;
72	{
73	extern int checkhead();
74	extern long atol();
75	double d, expval = 1.0;
76	int i;
77
78	progname = argv[0];
79
80	for (i = 1; i < argc; i++)
81	if (argv[i][0] == '-' \|\| argv[i][0] == '+')
82	switch (argv[i][1]) {
83	case 'h': /* header */
84	header = argv[i][0] == '+';
85	break;
86	case 'H': /* resolution string */
87	resolution = argv[i][0] == '+';
88	break;
89	case 's': /* skip bytes in header */
90	skipbytes = atol(argv[++i]);
91	break;
92	case 'u': /* unique values */
93	uniq = argv[i][0] == '-';
94	break;
95	case 'o': /* original values */
96	original = argv[i][0] == '-';
97	break;
98	case 'g': /* gamma correction */
99	gamcor = atof(argv[i+1]);
100	if (argv[i][0] == '+')
101	gamcor = 1.0/gamcor;
102	i++;
103	break;
104	case 'e': /* exposure correction */
105	d = atof(argv[i+1]);
106	if (argv[i+1][0] == '-' \|\| argv[i+1][0] == '+')
107	d = pow(2.0, d);
108	if (argv[i][0] == '-')
109	expval *= d;
110	scalecolor(exposure, d);
111	doexposure++;
112	i++;
113	break;
114	case 'R': /* reverse byte sequence */
115	if (argv[i][0] == '-') {
116	ord[0]=BLU; ord[1]=GRN; ord[2]=RED;
117	} else {
118	ord[0]=RED; ord[1]=GRN; ord[2]=BLU;
119	}
120	break;
121	case 'r': /* reverse conversion */
122	reverse = argv[i][0] == '-';
123	break;
124	case 'n': /* non-interleaved RGB */
125	interleave = argv[i][0] == '+';
126	break;
127	case 'b': /* brightness values */
128	putprim = argv[i][0] == '-' ? BRIGHT : ALL;
129	break;
130	case 'p': /* put primary */
131	switch (argv[i][2]) {
132	case 'r': case 'R': putprim = RED; break;
133	case 'g': case 'G': putprim = GRN; break;
134	case 'b': case 'B': putprim = BLU; break;
135	default: goto unkopt;
136	}
137	break;
138	case 'd': /* data only (no indices) */
139	dataonly = argv[i][0] == '-';
140	switch (argv[i][2]) {
141	case '\0':
142	case 'a': /* ascii */
143	format = 'a';
144	fmtid = "ascii";
145	break;
146	case 'i': /* integer */
147	format = 'i';
148	fmtid = "ascii";
149	break;
150	case 'b': /* byte */
151	dataonly = 1;
152	format = 'b';
153	fmtid = "byte";
154	break;
155	case 'f': /* float */
156	dataonly = 1;
157	format = 'f';
158	fmtid = "float";
159	break;
160	case 'd': /* double */
161	dataonly = 1;
162	format = 'd';
163	fmtid = "double";
164	break;
165	default:
166	goto unkopt;
167	}
168	break;
169	case 'x': /* x resolution */
170	case 'X': /* x resolution */
171	resolution = 0;
172	if (argv[i][0] == '-')
173	picres.or \|= XDECR;
174	picres.xr = atoi(argv[++i]);
175	break;
176	case 'y': /* y resolution */
177	case 'Y': /* y resolution */
178	resolution = 0;
179	if (argv[i][0] == '-')
180	picres.or \|= YDECR;
181	if (picres.xr == 0)
182	picres.or \|= YMAJOR;
183	picres.yr = atoi(argv[++i]);
184	break;
185	default:
186	unkopt:
187	fprintf(stderr, "%s: unknown option: %s\n",
188	progname, argv[i]);
189	quit(1);
190	break;
191	}
192	else
193	break;
194	/* recognize special formats */
195	if (dataonly && format == 'b')
196	if (brightonly)
197	fmtid = "8-bit_grey";
198	else
199	fmtid = "24-bit_rgb";
200	/* assign reverse ordering */
201	rord[ord[0]] = 0;
202	rord[ord[1]] = 1;
203	rord[ord[2]] = 2;
204	/* get input */
205	if (i == argc) {
206	fin = stdin;
207	} else if (i < argc) {
208	if ((fin = fopen(argv[i], "r")) == NULL) {
209	fprintf(stderr, "%s: can't open file \"%s\"\n",
210	progname, argv[i]);
211	quit(1);
212	}
213	if (reverse && !brightonly && i == argc-3) {
214	if ((fin2 = fopen(argv[i+1], "r")) == NULL) {
215	fprintf(stderr, "%s: can't open file \"%s\"\n",
216	progname, argv[i+1]);
217	quit(1);
218	}
219	if ((fin3 = fopen(argv[i+2], "r")) == NULL) {
220	fprintf(stderr, "%s: can't open file \"%s\"\n",
221	progname, argv[i+2]);
222	quit(1);
223	}
224	interleave = -1;
225	} else if (i != argc-1)
226	fin = NULL;
227	if (reverse && !brightonly && !interleave) {
228	fin2 = fopen(argv[i], "r");
229	fin3 = fopen(argv[i], "r");
230	}
231	if (skipbytes && (fseek(fin, skipbytes, 0) \|\| (fin2 != NULL &&
232	(fseek(fin2, skipbytes, 0) \|\|
233	fseek(fin3, skipbytes, 0))))) {
234	fprintf(stderr, "%s: cannot skip %ld bytes on input\n",
235	progname, skipbytes);
236	quit(1);
237	}
238	}
239	if (fin == NULL) {
240	fprintf(stderr, "%s: bad # file arguments\n", progname);
241	quit(1);
242	}
243
244	if (reverse) {
245	#ifdef MSDOS
246	setmode(fileno(stdout), O_BINARY);
247	if (format != 'a' && format != 'i')
248	setmode(fileno(fin), O_BINARY);
249	#endif
250	/* get header */
251	if (header) {
252	if (checkheader(fin, fmtid, stdout) < 0) {
253	fprintf(stderr, "%s: wrong input format\n",
254	progname);
255	quit(1);
256	}
257	if (fin2 != NULL) {
258	getheader(fin2, NULL, NULL);
259	getheader(fin3, NULL, NULL);
260	}
261	} else
262	newheader("RADIANCE", stdout);
263	/* get resolution */
264	if ((resolution && !fgetsresolu(&picres, fin)) \|\|
265	picres.xr <= 0 \|\| picres.yr <= 0) {
266	fprintf(stderr, "%s: missing resolution\n", progname);
267	quit(1);
268	}
269	if (resolution && fin2 != NULL) {
270	RESOLU pres2;
271	if (!fgetsresolu(&pres2, fin2) \|\|
272	pres2.or != picres.or \|\|
273	pres2.xr != picres.xr \|\|
274	pres2.yr != picres.yr \|\|
275	!fgetsresolu(&pres2, fin3) \|\|
276	pres2.or != picres.or \|\|
277	pres2.xr != picres.xr \|\|
278	pres2.yr != picres.yr) {
279	fprintf(stderr, "%s: resolution mismatch\n",
280	progname);
281	quit(1);
282	}
283	}
284	/* add to header */
285	printargs(i, argv, stdout);
286	if (expval < .99 \|\| expval > 1.01)
287	fputexpos(expval, stdout);
288	fputformat(COLRFMT, stdout);
289	putchar('\n');
290	fputsresolu(&picres, stdout); /* always put resolution */
291	valtopix();
292	} else {
293	#ifdef MSDOS
294	setmode(fileno(fin), O_BINARY);
295	if (format != 'a' && format != 'i')
296	setmode(fileno(stdout), O_BINARY);
297	#endif
298	/* get header */
299	getheader(fin, checkhead, NULL);
300	if (wrongformat) {
301	fprintf(stderr, "%s: input not a Radiance picture\n",
302	progname);
303	quit(1);
304	}
305	if (!fgetsresolu(&picres, fin)) {
306	fprintf(stderr, "%s: missing resolution\n", progname);
307	quit(1);
308	}
309	if (header) {
310	printargs(i, argv, stdout);
311	if (expval < .99 \|\| expval > 1.01)
312	fputexpos(expval, stdout);
313	fputformat(fmtid, stdout);
314	putchar('\n');
315	}
316	if (resolution) /* put resolution */
317	fputsresolu(&picres, stdout);
318	pixtoval();
319	}
320
321	quit(0);
322	}
323
324
325	int
326	checkhead(line) /* deal with line from header */
327	char *line;
328	{
329	char fmt[32];
330	double d;
331	COLOR ctmp;
332
333	if (formatval(fmt, line))
334	wrongformat = strcmp(fmt, COLRFMT);
335	else if (original && isexpos(line)) {
336	d = 1.0/exposval(line);
337	scalecolor(exposure, d);
338	doexposure++;
339	} else if (original && iscolcor(line)) {
340	colcorval(ctmp, line);
341	setcolor(exposure, colval(exposure,RED)/colval(ctmp,RED),
342	colval(exposure,GRN)/colval(ctmp,GRN),
343	colval(exposure,BLU)/colval(ctmp,BLU));
344	doexposure++;
345	} else if (header)
346	fputs(line, stdout);
347	return(0);
348	}
349
350
351	pixtoval() /* convert picture to values */
352	{
353	register COLOR *scanln;
354	int dogamma;
355	COLOR lastc;
356	FLOAT hv[2];
357	int startprim, endprim;
358	long startpos;
359	int y;
360	register int x;
361
362	scanln = (COLOR )malloc(scanlen(&picres)sizeof(COLOR));
363	if (scanln == NULL) {
364	fprintf(stderr, "%s: out of memory\n", progname);
365	quit(1);
366	}
367	dogamma = gamcor < .95 \|\| gamcor > 1.05;
368	if (putprim == ALL && !interleave) {
369	startprim = RED; endprim = BLU;
370	startpos = ftell(fin);
371	} else {
372	startprim = putprim; endprim = putprim;
373	}
374	for (putprim = startprim; putprim <= endprim; putprim++) {
375	if (putprim != startprim && fseek(fin, startpos, 0)) {
376	fprintf(stderr, "%s: seek error on input file\n",
377	progname);
378	quit(1);
379	}
380	set_io();
381	setcolor(lastc, 0.0, 0.0, 0.0);
382	for (y = 0; y < numscans(&picres); y++) {
383	if (freadscan(scanln, scanlen(&picres), fin) < 0) {
384	fprintf(stderr, "%s: read error\n", progname);
385	quit(1);
386	}
387	for (x = 0; x < scanlen(&picres); x++) {
388	if (uniq)
389	if ( colval(scanln[x],RED) ==
390	colval(lastc,RED) &&
391	colval(scanln[x],GRN) ==
392	colval(lastc,GRN) &&
393	colval(scanln[x],BLU) ==
394	colval(lastc,BLU) )
395	continue;
396	else
397	copycolor(lastc, scanln[x]);
398	if (doexposure)
399	multcolor(scanln[x], exposure);
400	if (dogamma)
401	setcolor(scanln[x],
402	pow(colval(scanln[x],RED), 1.0/gamcor),
403	pow(colval(scanln[x],GRN), 1.0/gamcor),
404	pow(colval(scanln[x],BLU), 1.0/gamcor));
405	if (!dataonly) {
406	pix2loc(hv, &picres, x, y);
407	printf("%7d %7d ",
408	(int)(hv[0]*picres.xr),
409	(int)(hv[1]*picres.yr));
410	}
411	if ((*putval)(scanln[x]) < 0) {
412	fprintf(stderr, "%s: write error\n",
413	progname);
414	quit(1);
415	}
416	}
417	}
418	}
419	free((char *)scanln);
420	}
421
422
423	valtopix() /* convert values to a pixel file */
424	{
425	int dogamma;
426	register COLOR *scanln;
427	int y;
428	register int x;
429
430	scanln = (COLOR )malloc(scanlen(&picres)sizeof(COLOR));
431	if (scanln == NULL) {
432	fprintf(stderr, "%s: out of memory\n", progname);
433	quit(1);
434	}
435	dogamma = gamcor < .95 \|\| gamcor > 1.05;
436	set_io();
437	for (y = 0; y < numscans(&picres); y++) {
438	for (x = 0; x < scanlen(&picres); x++) {
439	if (!dataonly) {
440	fscanf(fin, "%d %d");
441	if (fin2 != NULL) {
442	fscanf(fin2, "%d %d");
443	fscanf(fin3, "%d %d");
444	}
445	}
446	if ((*getval)(scanln[x]) < 0) {
447	fprintf(stderr, "%s: read error\n", progname);
448	quit(1);
449	}
450	if (dogamma)
451	setcolor(scanln[x],
452	pow(colval(scanln[x],RED), gamcor),
453	pow(colval(scanln[x],GRN), gamcor),
454	pow(colval(scanln[x],BLU), gamcor));
455	if (doexposure)
456	multcolor(scanln[x], exposure);
457	}
458	if (fwritescan(scanln, scanlen(&picres), stdout) < 0) {
459	fprintf(stderr, "%s: write error\n", progname);
460	quit(1);
461	}
462	}
463	free((char *)scanln);
464	}
465
466
467	quit(code)
468	int code;
469	{
470	exit(code);
471	}
472
473
474	getcascii(col) /* get an ascii color value from stream(s) */
475	COLOR col;
476	{
477	double vd[3];
478
479	if (fin2 == NULL) {
480	if (fscanf(fin, "%lf %lf %lf", &vd[0], &vd[1], &vd[2]) != 3)
481	return(-1);
482	} else {
483	if (fscanf(fin, "%lf", &vd[0]) != 1 \|\|
484	fscanf(fin2, "%lf", &vd[1]) != 1 \|\|
485	fscanf(fin3, "%lf", &vd[2]) != 1)
486	return(-1);
487	}
488	setcolor(col, vd[rord[RED]], vd[rord[GRN]], vd[rord[BLU]]);
489	return(0);
490	}
491
492
493	getcdouble(col) /* get a double color value from stream(s) */
494	COLOR col;
495	{
496	double vd[3];
497
498	if (fin2 == NULL) {
499	if (fread((char *)vd, sizeof(double), 3, fin) != 3)
500	return(-1);
501	} else {
502	if (fread((char *)vd, sizeof(double), 1, fin) != 1 \|\|
503	fread((char *)(vd+1), sizeof(double), 1, fin2) != 1 \|\|
504	fread((char *)(vd+2), sizeof(double), 1, fin3) != 1)
505	return(-1);
506	}
507	setcolor(col, vd[rord[RED]], vd[rord[GRN]], vd[rord[BLU]]);
508	return(0);
509	}
510
511
512	getcfloat(col) /* get a float color value from stream(s) */
513	COLOR col;
514	{
515	float vf[3];
516
517	if (fin2 == NULL) {
518	if (fread((char *)vf, sizeof(float), 3, fin) != 3)
519	return(-1);
520	} else {
521	if (fread((char *)vf, sizeof(float), 1, fin) != 1 \|\|
522	fread((char *)(vf+1), sizeof(float), 1, fin2) != 1 \|\|
523	fread((char *)(vf+2), sizeof(float), 1, fin3) != 1)
524	return(-1);
525	}
526	setcolor(col, vf[rord[RED]], vf[rord[GRN]], vf[rord[BLU]]);
527	return(0);
528	}
529
530
531	getcint(col) /* get an int color value from stream(s) */
532	COLOR col;
533	{
534	int vi[3];
535
536	if (fin2 == NULL) {
537	if (fscanf(fin, "%d %d %d", &vi[0], &vi[1], &vi[2]) != 3)
538	return(-1);
539	} else {
540	if (fscanf(fin, "%d", &vi[0]) != 1 \|\|
541	fscanf(fin2, "%d", &vi[1]) != 1 \|\|
542	fscanf(fin3, "%d", &vi[2]) != 1)
543	return(-1);
544	}
545	setcolor(col, (vi[rord[RED]]+.5)/256.,
546	(vi[rord[GRN]]+.5)/256., (vi[rord[BLU]]+.5)/256.);
547	return(0);
548	}
549
550
551	getcbyte(col) /* get a byte color value from stream(s) */
552	COLOR col;
553	{
554	BYTE vb[3];
555
556	if (fin2 == NULL) {
557	if (fread((char *)vb, sizeof(BYTE), 3, fin) != 3)
558	return(-1);
559	} else {
560	if (fread((char *)vb, sizeof(BYTE), 1, fin) != 1 \|\|
561	fread((char *)(vb+1), sizeof(BYTE), 1, fin2) != 1 \|\|
562	fread((char *)(vb+2), sizeof(BYTE), 1, fin3) != 1)
563	return(-1);
564	}
565	setcolor(col, (vb[rord[RED]]+.5)/256.,
566	(vb[rord[GRN]]+.5)/256., (vb[rord[BLU]]+.5)/256.);
567	return(0);
568	}
569
570
571	getbascii(col) /* get an ascii brightness value from fin */
572	COLOR col;
573	{
574	double vd;
575
576	if (fscanf(fin, "%lf", &vd) != 1)
577	return(-1);
578	setcolor(col, vd, vd, vd);
579	return(0);
580	}
581
582
583	getbdouble(col) /* get a double brightness value from fin */
584	COLOR col;
585	{
586	double vd;
587
588	if (fread((char *)&vd, sizeof(double), 1, fin) != 1)
589	return(-1);
590	setcolor(col, vd, vd, vd);
591	return(0);
592	}
593
594
595	getbfloat(col) /* get a float brightness value from fin */
596	COLOR col;
597	{
598	float vf;
599
600	if (fread((char *)&vf, sizeof(float), 1, fin) != 1)
601	return(-1);
602	setcolor(col, vf, vf, vf);
603	return(0);
604	}
605
606
607	getbint(col) /* get an int brightness value from fin */
608	COLOR col;
609	{
610	int vi;
611	double d;
612
613	if (fscanf(fin, "%d", &vi) != 1)
614	return(-1);
615	d = (vi+.5)/256.;
616	setcolor(col, d, d, d);
617	return(0);
618	}
619
620
621	getbbyte(col) /* get a byte brightness value from fin */
622	COLOR col;
623	{
624	BYTE vb;
625	double d;
626
627	if (fread((char *)&vb, sizeof(BYTE), 1, fin) != 1)
628	return(-1);
629	d = (vb+.5)/256.;
630	setcolor(col, d, d, d);
631	return(0);
632	}
633
634
635	putcascii(col) /* put an ascii color to stdout */
636	COLOR col;
637	{
638	fprintf(stdout, "%15.3e %15.3e %15.3e\n",
639	colval(col,ord[0]),
640	colval(col,ord[1]),
641	colval(col,ord[2]));
642
643	return(ferror(stdout) ? -1 : 0);
644	}
645
646
647	putcfloat(col) /* put a float color to stdout */
648	COLOR col;
649	{
650	float vf[3];
651
652	vf[0] = colval(col,ord[0]);
653	vf[1] = colval(col,ord[1]);
654	vf[2] = colval(col,ord[2]);
655	fwrite((char *)vf, sizeof(float), 3, stdout);
656
657	return(ferror(stdout) ? -1 : 0);
658	}
659
660
661	putcdouble(col) /* put a double color to stdout */
662	COLOR col;
663	{
664	double vd[3];
665
666	vd[0] = colval(col,ord[0]);
667	vd[1] = colval(col,ord[1]);
668	vd[2] = colval(col,ord[2]);
669	fwrite((char *)vd, sizeof(double), 3, stdout);
670
671	return(ferror(stdout) ? -1 : 0);
672	}
673
674
675	putcint(col) /* put an int color to stdout */
676	COLOR col;
677	{
678	fprintf(stdout, "%d %d %d\n",
679	(int)(colval(col,ord[0])*256.),
680	(int)(colval(col,ord[1])*256.),
681	(int)(colval(col,ord[2])*256.));
682
683	return(ferror(stdout) ? -1 : 0);
684	}
685
686
687	putcbyte(col) /* put a byte color to stdout */
688	COLOR col;
689	{
690	register int i;
691	BYTE vb[3];
692
693	i = colval(col,ord[0])*256.;
694	vb[0] = min(i,255);
695	i = colval(col,ord[1])*256.;
696	vb[1] = min(i,255);
697	i = colval(col,ord[2])*256.;
698	vb[2] = min(i,255);
699	fwrite((char *)vb, sizeof(BYTE), 3, stdout);
700
701	return(ferror(stdout) ? -1 : 0);
702	}
703
704
705	putbascii(col) /* put an ascii brightness to stdout */
706	COLOR col;
707	{
708	fprintf(stdout, "%15.3e\n", bright(col));
709
710	return(ferror(stdout) ? -1 : 0);
711	}
712
713
714	putbfloat(col) /* put a float brightness to stdout */
715	COLOR col;
716	{
717	float vf;
718
719	vf = bright(col);
720	fwrite((char *)&vf, sizeof(float), 1, stdout);
721
722	return(ferror(stdout) ? -1 : 0);
723	}
724
725
726	putbdouble(col) /* put a double brightness to stdout */
727	COLOR col;
728	{
729	double vd;
730
731	vd = bright(col);
732	fwrite((char *)&vd, sizeof(double), 1, stdout);
733
734	return(ferror(stdout) ? -1 : 0);
735	}
736
737
738	putbint(col) /* put an int brightness to stdout */
739	COLOR col;
740	{
741	fprintf(stdout, "%d\n", (int)(bright(col)*256.));
742
743	return(ferror(stdout) ? -1 : 0);
744	}
745
746
747	putbbyte(col) /* put a byte brightness to stdout */
748	COLOR col;
749	{
750	register int i;
751	BYTE vb;
752
753	i = bright(col)*256.;
754	vb = min(i,255);
755	fwrite((char *)&vb, sizeof(BYTE), 1, stdout);
756
757	return(ferror(stdout) ? -1 : 0);
758	}
759
760
761	putpascii(col) /* put an ascii primary to stdout */
762	COLOR col;
763	{
764	fprintf(stdout, "%15.3e\n", colval(col,putprim));
765
766	return(ferror(stdout) ? -1 : 0);
767	}
768
769
770	putpfloat(col) /* put a float primary to stdout */
771	COLOR col;
772	{
773	float vf;
774
775	vf = colval(col,putprim);
776	fwrite((char *)&vf, sizeof(float), 1, stdout);
777
778	return(ferror(stdout) ? -1 : 0);
779	}
780
781
782	putpdouble(col) /* put a double primary to stdout */
783	COLOR col;
784	{
785	double vd;
786
787	vd = colval(col,putprim);
788	fwrite((char *)&vd, sizeof(double), 1, stdout);
789
790	return(ferror(stdout) ? -1 : 0);
791	}
792
793
794	putpint(col) /* put an int primary to stdout */
795	COLOR col;
796	{
797	fprintf(stdout, "%d\n", (int)(colval(col,putprim)*256.));
798
799	return(ferror(stdout) ? -1 : 0);
800	}
801
802
803	putpbyte(col) /* put a byte primary to stdout */
804	COLOR col;
805	{
806	register int i;
807	BYTE vb;
808
809	i = colval(col,putprim)*256.;
810	vb = min(i,255);
811	fwrite((char *)&vb, sizeof(BYTE), 1, stdout);
812
813	return(ferror(stdout) ? -1 : 0);
814	}
815
816
817	set_io() /* set put and get functions */
818	{
819	switch (format) {
820	case 'a': /* ascii */
821	if (putprim == BRIGHT) {
822	getval = getbascii;
823	putval = putbascii;
824	} else if (putprim != ALL) {
825	getval = getbascii;
826	putval = putpascii;
827	} else {
828	getval = getcascii;
829	putval = putcascii;
830	if (reverse && !interleave) {
831	fprintf(stderr,
832	"%s: ASCII input files must be interleaved\n",
833	progname);
834	quit(1);
835	}
836	}
837	return;
838	case 'f': /* binary float */
839	if (putprim == BRIGHT) {
840	getval = getbfloat;
841	putval = putbfloat;
842	} else if (putprim != ALL) {
843	getval = getbfloat;
844	putval = putpfloat;
845	} else {
846	getval = getcfloat;
847	putval = putcfloat;
848	if (reverse && !interleave) {
849	if (fin2 == NULL)
850	goto namerr;
851	if (fseek(fin2,
852	(long)sizeof(float)picres.xrpicres.yr, 1))
853	goto seekerr;
854	if (fseek(fin3,
855	(long)sizeof(float)2picres.xr*picres.yr, 1))
856	goto seekerr;
857	}
858	}
859	return;
860	case 'd': /* binary double */
861	if (putprim == BRIGHT) {
862	getval = getbdouble;
863	putval = putbdouble;
864	} else if (putprim != ALL) {
865	getval = getbdouble;
866	putval = putpdouble;
867	} else {
868	getval = getcdouble;
869	putval = putcdouble;
870	if (reverse && !interleave) {
871	if (fin2 == NULL)
872	goto namerr;
873	if (fseek(fin2,
874	(long)sizeof(double)picres.xrpicres.yr, 1))
875	goto seekerr;
876	if (fseek(fin3,
877	(long)sizeof(double)2picres.xr*picres.yr, 1))
878	goto seekerr;
879	}
880	}
881	return;
882	case 'i': /* integer */
883	if (putprim == BRIGHT) {
884	getval = getbint;
885	putval = putbint;
886	} else if (putprim != ALL) {
887	getval = getbint;
888	putval = putpint;
889	} else {
890	getval = getcint;
891	putval = putcint;
892	if (reverse && !interleave) {
893	fprintf(stderr,
894	"%s: integer input files must be interleaved\n",
895	progname);
896	quit(1);
897	}
898	}
899	return;
900	case 'b': /* byte */
901	if (putprim == BRIGHT) {
902	getval = getbbyte;
903	putval = putbbyte;
904	} else if (putprim != ALL) {
905	getval = getbbyte;
906	putval = putpbyte;
907	} else {
908	getval = getcbyte;
909	putval = putcbyte;
910	if (reverse && !interleave) {
911	if (fin2 == NULL)
912	goto namerr;
913	if (fseek(fin2,
914	(long)sizeof(BYTE)picres.xrpicres.yr, 1))
915	goto seekerr;
916	if (fseek(fin3,
917	(long)sizeof(BYTE)2picres.xr*picres.yr, 1))
918	goto seekerr;
919	}
920	}
921	return;
922	}
923	badopt:
924	fprintf(stderr, "%s: botched file type\n", progname);
925	quit(1);
926	namerr:
927	fprintf(stderr, "%s: non-interleaved file(s) must be named\n",
928	progname);
929	quit(1);
930	seekerr:
931	fprintf(stderr, "%s: cannot seek on interleaved input file\n",
932	progname);
933	quit(1);
934	}