/* Copyright (C) 2001-2007 Peter Selinger.
 *  This file is part of Potrace. It is free software and it is covered
 *  by the GNU General Public License. See the file COPYING for details. */

/* $Id: greymap.c 147 2007-04-09 00:44:09Z selinger $ */

/* Routines for manipulating greymaps, including reading pgm files. We
 *  only deal with greymaps of depth 8 bits. */

#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <cmath>

#include <greymap.h>

#define INTBITS ( 8 * sizeof(int) )

#define mod( a, n ) ( (a)>=(n) ? (a) % (n) : (a)>=0 ? (a) : (n) - 1 - ( -1 - (a) ) % (n) )

static int gm_readbody_pnm( FILE* f, greymap_t** gmp, int magic );
static int gm_readbody_bmp( FILE* f, greymap_t** gmp );

/* ---------------------------------------------------------------------- */
/* basic greymap routines */

/* return new un-initialized greymap. NULL with errno on error */

greymap_t* gm_new( int w, int h )
{
    greymap_t* gm;
    int        errno_save;

    gm = (greymap_t*) malloc( sizeof(greymap_t) );
    if( !gm )
    {
        return NULL;
    }
    gm->w   = w;
    gm->h   = h;
    gm->map = (signed short int*) malloc( w * h * sizeof(signed short int) );
    if( !gm->map )
    {
        errno_save = errno;
        free( gm );
        errno = errno_save;
        return NULL;
    }
    return gm;
}


/* free the given greymap */
void gm_free( greymap_t* gm )
{
    if( gm )
    {
        free( gm->map );
    }
    free( gm );
}


/* duplicate the given greymap. Return NULL on error with errno set. */
greymap_t* gm_dup( greymap_t* gm )
{
    greymap_t* gm1 = gm_new( gm->w, gm->h );

    if( !gm1 )
    {
        return NULL;
    }
    memcpy( gm1->map, gm->map, gm->w * gm->h * 2 );
    return gm1;
}


/* clear the given greymap to color b. */
void gm_clear( greymap_t* gm, int b )
{
    int i;

    if( b==0 )
    {
        memset( gm->map, 0, gm->w * gm->h * 2 );
    }
    else
    {
        for( i = 0; i<gm->w * gm->h; i++ )
        {
            gm->map[i] = b;
        }
    }
}


/* ---------------------------------------------------------------------- */
/* routines for reading pnm streams */

/* read next character after whitespace and comments. Return EOF on
 *  end of file or error. */
static int fgetc_ws( FILE* f )
{
    int c;

    while( 1 )
    {
        c = fgetc( f );
        if( c=='#' )
        {
            while( 1 )
            {
                c = fgetc( f );
                if( c=='\n' || c==EOF )
                {
                    break;
                }
            }
        }
        /* space, tab, line feed, carriage return, form-feed */
        if( c!=' ' && c!='\t' && c!='\r' && c!='\n' && c!=12 )
        {
            return c;
        }
    }
}


/* skip whitespace and comments, then read a non-negative decimal
 *  number from a stream. Return -1 on EOF. Tolerate other errors (skip
 *  bad characters). Do not the read any characters following the
 *  number (put next character back into the stream) */

static int readnum( FILE* f )
{
    int c;
    int acc;

    /* skip whitespace and comments */
    while( 1 )
    {
        c = fgetc_ws( f );
        if( c==EOF )
        {
            return -1;
        }
        if( c>='0' && c<='9' )
        {
            break;
        }
    }

    /* first digit is already in c */
    acc = c - '0';
    while( 1 )
    {
        c = fgetc( f );
        if( c==EOF )
        {
            break;
        }
        if( c<'0' || c>'9' )
        {
            ungetc( c, f );
            break;
        }
        acc *= 10;
        acc += c - '0';
    }

    return acc;
}


/* similar to readnum, but read only a single 0 or 1, and do not read
 *  any characters after it. */

static int readbit( FILE* f )
{
    int c;

    /* skip whitespace and comments */
    while( 1 )
    {
        c = fgetc_ws( f );
        if( c==EOF )
        {
            return -1;
        }
        if( c>='0' && c<='1' )
        {
            break;
        }
    }

    return c - '0';
}


/* ---------------------------------------------------------------------- */

/* read a PNM stream: P1-P6 format (see pnm(5)), or a BMP stream, and
 *  convert the output to a greymap. Return greymap in *gmp. Return 0
 *  on success, -1 on error with errno set, -2 on bad file format (with
 *  error message in gm_read_error), and 1 on premature end of file, -3
 *  on empty file (including files with only whitespace and comments),
 *  -4 if wrong magic number. If the return value is >=0, *gmp is
 *  valid. */

const char* gm_read_error = NULL;

int gm_read( FILE* f, greymap_t** gmp )
{
    int magic[2];

    /* read magic number. We ignore whitespace and comments before the
     *  magic, for the benefit of concatenated files in P1-P3 format.
     *  Multiple P1-P3 images in a single file are not formally allowed
     *  by the PNM standard, but there is no harm in being lenient. */

    magic[0] = fgetc_ws( f );
    if( magic[0] == EOF )
    {
        /* files which contain only comments and whitespace count as "empty" */
        return -3;
    }
    magic[1] = fgetc( f );
    if( magic[0] == 'P' && magic[1] >= '1' && magic[1] <= '6' )
    {
        return gm_readbody_pnm( f, gmp, magic[1] );
    }
    if( magic[0] == 'B' && magic[1] == 'M' )
    {
        return gm_readbody_bmp( f, gmp );
    }
    return -4;
}


/* ---------------------------------------------------------------------- */
/* read PNM format */

/* read PNM stream after magic number. Return values as for gm_read */
static int gm_readbody_pnm( FILE* f, greymap_t** gmp, int magic )
{
    greymap_t* gm;
    int        x, y, i, j, b, b1, sum;
    int        bpr; /* bytes per row (as opposed to 4*gm->c) */
    int        w, h, max;

    gm = NULL;

    w = readnum( f );
    if( w<0 )
    {
        goto format_error;
    }

    h = readnum( f );
    if( h<0 )
    {
        goto format_error;
    }

    /* allocate greymap */
    gm = gm_new( w, h );
    if( !gm )
    {
        return -1;
    }

    /* zero it out */
    gm_clear( gm, 0 );

    switch( magic )
    {
    default:
        /* not reached */
        goto format_error;

    case '1':
        /* read P1 format: PBM ascii */

        for( y = h - 1; y>=0; y-- )
        {
            for( x = 0; x<w; x++ )
            {
                b = readbit( f );
                if( b<0 )
                {
                    goto eof;
                }
                GM_UPUT( gm, x, y, b ? 0 : 255 );
            }
        }

        break;

    case '2':
        /* read P2 format: PGM ascii */

        max = readnum( f );
        if( max<1 )
        {
            goto format_error;
        }

        for( y = h - 1; y>=0; y-- )
        {
            for( x = 0; x<w; x++ )
            {
                b = readnum( f );
                if( b<0 )
                {
                    goto eof;
                }
                GM_UPUT( gm, x, y, b * 255 / max );
            }
        }

        break;

    case '3':
        /* read P3 format: PPM ascii */

        max = readnum( f );
        if( max<1 )
        {
            goto format_error;
        }

        for( y = h - 1; y>=0; y-- )
        {
            for( x = 0; x<w; x++ )
            {
                sum = 0;
                for( i = 0; i<3; i++ )
                {
                    b = readnum( f );
                    if( b<0 )
                    {
                        goto eof;
                    }
                    sum += b;
                }

                GM_UPUT( gm, x, y, sum * (255 / 3) / max );
            }
        }

        break;

    case '4':
        /* read P4 format: PBM raw */

        b = fgetc( f ); /* read single white-space character after height */
        if( b==EOF )
        {
            goto format_error;
        }

        bpr = (w + 7) / 8;

        for( y = h - 1; y>=0; y-- )
        {
            for( i = 0; i<bpr; i++ )
            {
                b = fgetc( f );
                if( b==EOF )
                {
                    goto eof;
                }
                for( j = 0; j<8; j++ )
                {
                    GM_PUT( gm, i * 8 + j, y, b & (0x80 >> j) ? 0 : 255 );
                }
            }
        }

        break;

    case '5':
        /* read P5 format: PGM raw */

        max = readnum( f );
        if( max<1 )
        {
            goto format_error;
        }

        b = fgetc( f ); /* read single white-space character after max */
        if( b==EOF )
        {
            goto format_error;
        }

        for( y = h - 1; y>=0; y-- )
        {
            for( x = 0; x<w; x++ )
            {
                b = fgetc( f );
                if( b==EOF )
                    goto eof;
                if( max>=256 )
                {
                    b <<= 8;
                    b1  = fgetc( f );
                    if( b1==EOF )
                        goto eof;
                    b |= b1;
                }
                GM_UPUT( gm, x, y, b * 255 / max );
            }
        }

        break;

    case '6':
        /* read P6 format: PPM raw */

        max = readnum( f );
        if( max<1 )
        {
            goto format_error;
        }

        b = fgetc( f ); /* read single white-space character after max */
        if( b==EOF )
        {
            goto format_error;
        }

        for( y = h - 1; y>=0; y-- )
        {
            for( x = 0; x<w; x++ )
            {
                sum = 0;
                for( i = 0; i<3; i++ )
                {
                    b = fgetc( f );
                    if( b==EOF )
                    {
                        goto eof;
                    }
                    if( max>=256 )
                    {
                        b <<= 8;
                        b1  = fgetc( f );
                        if( b1==EOF )
                            goto eof;
                        b |= b1;
                    }
                    sum += b;
                }

                GM_UPUT( gm, x, y, sum * (255 / 3) / max );
            }
        }

        break;
    }

    *gmp = gm;
    return 0;

eof:
    *gmp = gm;
    return 1;

format_error:
    gm_free( gm );
    if( magic == '1' || magic == '4' )
    {
        gm_read_error = "invalid pbm file";
    }
    else if( magic == '2' || magic == '5' )
    {
        gm_read_error = "invalid pgm file";
    }
    else
    {
        gm_read_error = "invalid ppm file";
    }
    return -2;
}


/* ---------------------------------------------------------------------- */
/* read BMP format */

struct bmp_info_s
{
    unsigned int FileSize;
    unsigned int reserved;
    unsigned int DataOffset;
    unsigned int InfoSize;
    unsigned int w;             /* width */
    unsigned int h;             /* height */
    unsigned int Planes;
    unsigned int bits;          /* bits per sample */
    unsigned int comp;          /* compression mode */
    unsigned int ImageSize;
    unsigned int XpixelsPerM;
    unsigned int YpixelsPerM;
    unsigned int ncolors;       /* number of colors in palette */
    unsigned int ColorsImportant;
    unsigned int ctbits;        /* sample size for color table */
};
typedef struct bmp_info_s bmp_info_t;

/* auxiliary */

static int bmp_count = 0;   /* counter for byte padding */
static int bmp_pos   = 0;   /* counter from start of BMP data */

/* read n-byte little-endian integer. Return 1 on EOF or error, else
 *  0. Assume n<=4. */
static int bmp_readint( FILE* f, int n, unsigned int* p )
{
    int          i;
    unsigned int sum = 0;
    int          b;

    for( i = 0; i<n; i++ )
    {
        b = fgetc( f );
        if( b==EOF )
        {
            return 1;
        }
        sum += b << (8 * i);
    }

    bmp_count += n;
    bmp_pos   += n;
    *p = sum;
    return 0;
}


/* reset padding boundary */
static void bmp_pad_reset( void )
{
    bmp_count = 0;
}


/* read padding bytes to 4-byte boundary. Return 1 on EOF or error,
 *  else 0. */
static int bmp_pad( FILE* f )
{
    int c, i, b;

    c = (-bmp_count) & 3;
    for( i = 0; i<c; i++ )
    {
        b = fgetc( f );
        if( b==EOF )
        {
            return 1;
        }
    }

    bmp_pos  += c;
    bmp_count = 0;
    return 0;
}


/* forward to the new file position. Return 1 on EOF or error, else 0 */
static int bmp_forward( FILE* f, int pos )
{
    int b;

    while( bmp_pos < pos )
    {
        b = fgetc( f );
        if( b==EOF )
        {
            return 1;
        }
        bmp_pos++;
        bmp_count++;
    }

    return 0;
}


#define TRY( x )     if( x ) \
        goto try_error
#define TRY_EOF( x ) if( x ) \
        goto eof

/* read BMP stream after magic number. Return values as for gm_read.
 *  We choose to be as permissive as possible, since there are many
 *  programs out there which produce BMP. For instance, ppmtobmp can
 *  produce codings with anywhere from 1-8 or 24 bits per sample,
 *  although most specifications only allow 1,4,8,24,32. We can also
 *  read both the old and new OS/2 BMP formats in addition to the
 *  Windows BMP format. */
static int gm_readbody_bmp( FILE* f, greymap_t** gmp )
{
    bmp_info_t   bmpinfo;
    int*         coltable;
    unsigned int b, c;
    unsigned int i, j;
    greymap_t*   gm;
    unsigned int x, y;
    int          col[2];
    unsigned int bitbuf;
    unsigned int n;

    gm_read_error = NULL;
    gm = NULL;
    coltable = NULL;

    bmp_pos = 2; /* set file position */

    /* file header (minus magic number) */
    TRY( bmp_readint( f, 4, &bmpinfo.FileSize ) );
    TRY( bmp_readint( f, 4, &bmpinfo.reserved ) );
    TRY( bmp_readint( f, 4, &bmpinfo.DataOffset ) );

    /* info header */
    TRY( bmp_readint( f, 4, &bmpinfo.InfoSize ) );
    if( bmpinfo.InfoSize == 40 || bmpinfo.InfoSize == 64 )
    {
        /* Windows or new OS/2 format */
        bmpinfo.ctbits = 32; /* sample size in color table */
        TRY( bmp_readint( f, 4, &bmpinfo.w ) );
        TRY( bmp_readint( f, 4, &bmpinfo.h ) );
        TRY( bmp_readint( f, 2, &bmpinfo.Planes ) );
        TRY( bmp_readint( f, 2, &bmpinfo.bits ) );
        TRY( bmp_readint( f, 4, &bmpinfo.comp ) );
        TRY( bmp_readint( f, 4, &bmpinfo.ImageSize ) );
        TRY( bmp_readint( f, 4, &bmpinfo.XpixelsPerM ) );
        TRY( bmp_readint( f, 4, &bmpinfo.YpixelsPerM ) );
        TRY( bmp_readint( f, 4, &bmpinfo.ncolors ) );
        TRY( bmp_readint( f, 4, &bmpinfo.ColorsImportant ) );
    }
    else if( bmpinfo.InfoSize == 12 )
    {
        /* old OS/2 format */
        bmpinfo.ctbits = 24; /* sample size in color table */
        TRY( bmp_readint( f, 2, &bmpinfo.w ) );
        TRY( bmp_readint( f, 2, &bmpinfo.h ) );
        TRY( bmp_readint( f, 2, &bmpinfo.Planes ) );
        TRY( bmp_readint( f, 2, &bmpinfo.bits ) );
        bmpinfo.comp    = 0;
        bmpinfo.ncolors = 0;
    }
    else
    {
        goto format_error;
    }

    /* forward to color table (i.e., if bmpinfo.InfoSize == 64) */
    TRY( bmp_forward( f, 14 + bmpinfo.InfoSize ) );

    if( bmpinfo.Planes != 1 )
    {
        gm_read_error = "cannot handle bmp planes";
        goto format_error; /* can't handle planes */
    }

    if( bmpinfo.ncolors == 0 )
    {
        bmpinfo.ncolors = 1 << bmpinfo.bits;
    }

    /* color table, present only if bmpinfo.bits <= 8. */
    if( bmpinfo.bits <= 8 )
    {
        coltable = (int*) malloc( bmpinfo.ncolors * sizeof(int) );
        if( !coltable )
        {
            goto std_error;
        }

        /* NOTE: since we are reading a greymap, we can immediately convert
         *  the color table entries to grey values. */
        for( i = 0; i<bmpinfo.ncolors; i++ )
        {
            TRY( bmp_readint( f, bmpinfo.ctbits / 8, &c ) );
            c = ( (c >> 16) & 0xff ) + ( (c >> 8) & 0xff ) + (c & 0xff);
            coltable[i] = c / 3;
        }
    }

    /* forward to data */
    if( bmpinfo.InfoSize != 12 ) /* not old OS/2 format */
    {
        TRY( bmp_forward( f, bmpinfo.DataOffset ) );
    }

    /* allocate greymap */
    gm = gm_new( bmpinfo.w, bmpinfo.h );
    if( !gm )
    {
        goto std_error;
    }

    /* zero it out */
    gm_clear( gm, 0 );

    switch( bmpinfo.bits + 0x100 * bmpinfo.comp )
    {
    default:
        goto format_error;
        break;

    case 0x001: /* monochrome palette */

        /* raster data */
        for( y = 0; y<bmpinfo.h; y++ )
        {
            bmp_pad_reset();
            for( i = 0; 8 * i<bmpinfo.w; i++ )
            {
                TRY_EOF( bmp_readint( f, 1, &b ) );
                for( j = 0; j<8; j++ )
                {
                    GM_PUT( gm, i * 8 + j, y, b & (0x80 >> j) ? coltable[1] : coltable[0] );
                }
            }

            TRY( bmp_pad( f ) );
        }

        break;

    case 0x002: /* 2-bit to 8-bit palettes */
    case 0x003:
    case 0x004:
    case 0x005:
    case 0x006:
    case 0x007:
    case 0x008:
        for( y = 0; y<bmpinfo.h; y++ )
        {
            bmp_pad_reset();
            bitbuf = 0; /* bit buffer: bits in buffer are high-aligned */
            n = 0;      /* number of bits currently in bitbuffer */
            for( x = 0; x<bmpinfo.w; x++ )
            {
                if( n < bmpinfo.bits )
                {
                    TRY_EOF( bmp_readint( f, 1, &b ) );
                    bitbuf |= b << (INTBITS - 8 - n);
                    n += 8;
                }
                b = bitbuf >> (INTBITS - bmpinfo.bits);
                bitbuf <<= bmpinfo.bits;
                n -= bmpinfo.bits;
                GM_UPUT( gm, x, y, coltable[b] );
            }

            TRY( bmp_pad( f ) );
        }

        break;

    case 0x010: /* 16-bit encoding */

        /* can't do this format because it is not well-documented and I
         *  don't have any samples */
        gm_read_error = "cannot handle bmp 16-bit coding";
        goto format_error;
        break;

    case 0x018: /* 24-bit encoding */
    case 0x020: /* 32-bit encoding */
        for( y = 0; y<bmpinfo.h; y++ )
        {
            bmp_pad_reset();
            for( x = 0; x<bmpinfo.w; x++ )
            {
                TRY_EOF( bmp_readint( f, bmpinfo.bits / 8, &c ) );
                c = ( (c >> 16) & 0xff ) + ( (c >> 8) & 0xff ) + (c & 0xff);
                GM_UPUT( gm, x, y, c / 3 );
            }

            TRY( bmp_pad( f ) );
        }

        break;

    case 0x204: /* 4-bit runlength compressed encoding (RLE4) */
        x = 0;
        y = 0;
        while( 1 )
        {
            TRY_EOF( bmp_readint( f, 1, &b ) ); /* opcode */
            TRY_EOF( bmp_readint( f, 1, &c ) ); /* argument */
            if( b>0 )
            {
                /* repeat count */
                col[0] = coltable[(c >> 4) & 0xf];
                col[1] = coltable[c & 0xf];
                for( i = 0; i<b && x<bmpinfo.w; i++ )
                {
                    if( x>=bmpinfo.w )
                    {
                        x = 0;
                        y++;
                    }
                    if( y>=bmpinfo.h )
                    {
                        break;
                    }
                    GM_UPUT( gm, x, y, col[i & 1] );
                    x++;
                }
            }
            else if( c == 0 )
            {
                /* end of line */
                y++;
                x = 0;
            }
            else if( c == 1 )
            {
                /* end of greymap */
                break;
            }
            else if( c == 2 )
            {
                /* "delta": skip pixels in x and y directions */
                TRY_EOF( bmp_readint( f, 1, &b ) ); /* x offset */
                TRY_EOF( bmp_readint( f, 1, &c ) ); /* y offset */
                x += b;
                y += c;
            }
            else
            {
                /* verbatim segment */
                for( i = 0; i<c; i++ )
                {
                    if( (i & 1)==0 )
                    {
                        TRY_EOF( bmp_readint( f, 1, &b ) );
                    }
                    if( x>=bmpinfo.w )
                    {
                        x = 0;
                        y++;
                    }
                    if( y>=bmpinfo.h )
                    {
                        break;
                    }
                    GM_PUT( gm, x, y, coltable[( b >> ( 4 - 4 * (i & 1) ) ) & 0xf] );
                    x++;
                }

                if( (c + 1) & 2 )
                {
                    /* pad to 16-bit boundary */
                    TRY_EOF( bmp_readint( f, 1, &b ) );
                }
            }
        }

        break;

    case 0x108: /* 8-bit runlength compressed encoding (RLE8) */
        x = 0;
        y = 0;
        while( 1 )
        {
            TRY_EOF( bmp_readint( f, 1, &b ) ); /* opcode */
            TRY_EOF( bmp_readint( f, 1, &c ) ); /* argument */
            if( b>0 )
            {
                /* repeat count */
                for( i = 0; i<b; i++ )
                {
                    if( x>=bmpinfo.w )
                    {
                        x = 0;
                        y++;
                    }
                    if( y>=bmpinfo.h )
                    {
                        break;
                    }
                    GM_UPUT( gm, x, y, coltable[c] );
                    x++;
                }
            }
            else if( c == 0 )
            {
                /* end of line */
                y++;
                x = 0;
            }
            else if( c == 1 )
            {
                /* end of greymap */
                break;
            }
            else if( c == 2 )
            {
                /* "delta": skip pixels in x and y directions */
                TRY_EOF( bmp_readint( f, 1, &b ) ); /* x offset */
                TRY_EOF( bmp_readint( f, 1, &c ) ); /* y offset */
                x += b;
                y += c;
            }
            else
            {
                /* verbatim segment */
                for( i = 0; i<c; i++ )
                {
                    TRY_EOF( bmp_readint( f, 1, &b ) );
                    if( x>=bmpinfo.w )
                    {
                        x = 0;
                        y++;
                    }
                    if( y>=bmpinfo.h )
                    {
                        break;
                    }
                    GM_PUT( gm, x, y, coltable[b] );
                    x++;
                }

                if( c & 1 )
                {
                    /* pad input to 16-bit boundary */
                    TRY_EOF( bmp_readint( f, 1, &b ) );
                }
            }
        }

        break;
    } /* switch */

    /* skip any potential junk after the data section, but don't
     *  complain in case EOF is encountered */
    bmp_forward( f, bmpinfo.FileSize );

    free( coltable );
    *gmp = gm;
    return 0;

eof:
    free( coltable );
    *gmp = gm;
    return 1;

format_error:
try_error:
    free( coltable );
    free( gm );
    if( !gm_read_error )
    {
        gm_read_error = "invalid bmp file";
    }
    return -2;

std_error:
    free( coltable );
    free( gm );
    return -1;
}


/* ---------------------------------------------------------------------- */

/* write a pgm stream, either P2 or (if raw != 0) P5 format. Include
 *  one-line comment if non-NULL. Mode determines how out-of-range
 *  color values are converted. Gamma is the desired gamma correction,
 *  if any (set to 2.2 if the image is to look optimal on a CRT monitor,
 *  2.8 for LCD). Set to 1.0 for no gamma correction */

int gm_writepgm( FILE* f, greymap_t* gm, char* comment, int raw, int mode, double gamma )
{
    int x, y, v;
    int gammatable[256];

    /* prepare gamma correction lookup table */
    if( gamma != 1.0 )
    {
        gammatable[0] = 0;
        for( v = 1; v<256; v++ )
        {
            gammatable[v] = (int) ( 255 * exp( log( v / 255.0 ) / gamma ) + 0.5 );
        }
    }
    else
    {
        for( v = 0; v<256; v++ )
        {
            gammatable[v] = v;
        }
    }

    fprintf( f, raw ? "P5\n" : "P2\n" );
    if( comment && *comment )
    {
        fprintf( f, "# %s\n", comment );
    }
    fprintf( f, "%d %d 255\n", gm->w, gm->h );
    for( y = gm->h - 1; y>=0; y-- )
    {
        for( x = 0; x<gm->w; x++ )
        {
            v = GM_UGET( gm, x, y );
            if( mode == GM_MODE_NONZERO )
            {
                if( v > 255 )
                {
                    v = 510 - v;
                }
                if( v < 0 )
                {
                    v = 0;
                }
            }
            else if( mode == GM_MODE_ODD )
            {
                v = mod( v, 510 );
                if( v > 255 )
                {
                    v = 510 - v;
                }
            }
            else if( mode == GM_MODE_POSITIVE )
            {
                if( v < 0 )
                {
                    v = 0;
                }
                else if( v > 255 )
                {
                    v = 255;
                }
            }
            else if( mode == GM_MODE_NEGATIVE )
            {
                v = 510 - v;
                if( v < 0 )
                {
                    v = 0;
                }
                else if( v > 255 )
                {
                    v = 255;
                }
            }
            v = gammatable[v];

            if( raw )
            {
                fputc( v, f );
            }
            else
            {
                fprintf( f, x == gm->w - 1 ? "%d\n" : "%d ", v );
            }
        }
    }

    return 0;
}


/* ---------------------------------------------------------------------- */
/* output - for primitive debugging purposes only! */

/* print greymap to screen */
int gm_print( FILE* f, greymap_t* gm )
{
    int x, y;
    int xx, yy;
    int d, t;
    int sw, sh;

    sw = gm->w < 79 ? gm->w : 79;
    sh = gm->w < 79 ? gm->h : gm->h * sw * 44 / (79 * gm->w);

    for( yy = sh - 1; yy>=0; yy-- )
    {
        for( xx = 0; xx<sw; xx++ )
        {
            d = 0;
            t = 0;
            for( x = xx * gm->w / sw; x<(xx + 1) * gm->w / sw; x++ )
            {
                for( y = yy * gm->h / sh; y<(yy + 1) * gm->h / sh; y++ )
                {
                    d += GM_GET( gm, x, y );
                    t += 256;
                }
            }

            fputc( "*#=- "[5 * d / t], f ); /* what a cute trick :) */
        }

        fputc( '\n', f );
    }

    return 0;
}