src/common/bmpfile.c

#ifndef lint
static const char RCSid[] = "$Id: bmpfile.c,v 2.2 2004/03/26 21:29:19 schorsch Exp $";
#endif
/*
 *  Windows and OS/2 BMP file support
 */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "bmpfile.h"

/* get corresponding error message */
const char *
BMPerrorMessage(int ec)
{
        switch (ec) {
        case BIR_OK:
                return "No error";
        case BIR_EOF:
                return "End of BMP image";
        case BIR_TRUNCATED:
                return "Truncated BMP image";
        case BIR_UNSUPPORTED:
                return "Unsupported BMP feature";
        case BIR_RLERROR:
                return "BMP runlength encoding error";
        case BIR_SEEKERR:
                return "BMP seek error";
        }
        return "Unknown BMP error";
}

/* check than header is sensible */
static int
BMPheaderOK(const BMPHeader *hdr)
{
        if (!hdr)
                return 0;
        if ((hdr->width <= 0 | hdr->height <= 0))
                return 0;
        switch (hdr->bpp) {             /* check compression */
        case 1:
        case 24:
                if (hdr->compr != BI_UNCOMPR)
                        return 0;
                break;
        case 16:
        case 32:
                if ((hdr->compr != BI_UNCOMPR & hdr->compr != BI_BITFIELDS))
                        return 0;
                break;
        case 4:
                if ((hdr->compr != BI_UNCOMPR & hdr->compr != BI_RLE4))
                        return 0;
                break;
        case 8:
                if ((hdr->compr != BI_UNCOMPR & hdr->compr != BI_RLE8))
                        return 0;
                break;
        default:
                return 0;
        }
        if (hdr->compr == BI_BITFIELDS && (BMPbitField(hdr)[0] &
                                BMPbitField(hdr)[1] & BMPbitField(hdr)[2]))
                return 0;
        if ((hdr->nColors < 0 | hdr->impColors < 0))
                return 0;
        if (hdr->impColors > hdr->nColors)
                return 0;
        if (hdr->nColors > BMPpalLen(hdr))
                return 0;
        return 1;
}

                                        /* compute uncompressed scan size */
#define getScanSiz(h)   ( (((h)->bpp*(h)->width+7 >>3) + 3) & ~03 )

                                        /* get next byte from reader */
#define rdbyte(c,br)    ((br)->fpos += (c=(*(br)->cget)((br)->c_data))!=EOF, c)

/* read n bytes */
static int
rdbytes(char *bp, uint32 n, BMPReader *br)
{
        int     c;

        while (n--) {
                if (rdbyte(c, br) == EOF)
                        return BIR_TRUNCATED;
                *bp++ = c;
        }
        return BIR_OK;
}

/* read 32-bit integer in littlendian order */
static int32
rdint32(BMPReader *br)
{
        int32   i;
        int     c;

        i = rdbyte(c, br);
        i |= rdbyte(c, br) << 8;
        i |= rdbyte(c, br) << 16;
        i |= rdbyte(c, br) << 24;
        return i;                       /* -1 on EOF */
}

/* read 16-bit unsigned integer in littlendian order */
static int
rduint16(BMPReader *br)
{
        int     i;
        int     c;
        
        i = rdbyte(c, br);
        i |= rdbyte(c, br) << 8;
        return i;                       /* -1 on EOF */
}

/* seek on reader or return 0 (BIR_OK) on success */
static int
rdseek(uint32 pos, BMPReader *br)
{
        if (pos == br->fpos)
                return BIR_OK;
        if (br->seek == NULL || (*br->seek)(pos, br->c_data) != 0)
                return BIR_SEEKERR;
        br->fpos = pos;
        return BIR_OK;
}

/* open BMP stream for reading and get first scanline */
BMPReader *
BMPopenReader(int (*cget)(void *), int (*seek)(uint32, void *), void *c_data)
{
        BMPReader       *br;
        uint32          bmPos, hdrSiz;
        int             palLen;

        if (cget == NULL)
                return NULL;
        int     magic[2];               /* check magic number */
        magic[0] = (*cget)(c_data);
        if (magic[0] != 'B')
                return NULL;
        magic[1] = (*cget)(c_data);
        if (magic[1] != 'M' && magic[1] != 'A')
                return NULL;
        br = (BMPReader *)calloc(1, sizeof(BMPReader));
        if (br == NULL)
                return NULL;
        br->cget = cget;
        br->seek = seek;
        br->c_data = c_data;
        br->hdr = (BMPHeader *)malloc(sizeof(BMPHeader));
        if (br->hdr == NULL)
                goto err;
        br->fpos = 2;
                                        /* read & verify file header */
        (void)rdint32(br);                      /* file size */
        (void)rdint32(br);                      /* reserved word */
        bmPos = rdint32(br);                    /* offset to bitmap */
        hdrSiz = 2 + 3*4 + rdint32(br);         /* header size */
        if (hdrSiz < 2 + 6*4 + 2*2 + 6*4)
                goto err;
        br->hdr->width = rdint32(br);           /* bitmap width */
        br->hdr->height = rdint32(br);          /* bitmap height */
        if (((br->hdr->width <= 0) | (br->hdr->height == 0)))
                goto err;
        if ((br->hdr->yIsDown = br->hdr->height < 0))
                br->hdr->height = -br->hdr->height;
        if (rduint16(br) != 1)                  /* number of planes */
                goto err;
        br->hdr->bpp = rduint16(br);            /* bits per pixel */
        br->hdr->compr = rdint32(br);           /* compression mode */
        (void)rdint32(br);                      /* bitmap size */
        br->hdr->hRes = rdint32(br);            /* horizontal resolution */
        br->hdr->vRes = rdint32(br);            /* vertical resolution */
        br->hdr->nColors = rdint32(br);         /* # colors used */
        br->hdr->impColors = rdint32(br);       /* # important colors */
        if (br->hdr->impColors < 0)
                goto err;                       /* catch premature EOF */
        if (!BMPheaderOK(br->hdr))
                goto err;
        palLen = BMPpalLen(br->hdr);
        if (br->hdr->bpp <= 8) {                /* normalize color counts */
                if (br->hdr->nColors <= 0)
                        br->hdr->nColors = palLen;
                if (br->hdr->impColors <= 0)
                        br->hdr->impColors = br->hdr->nColors;
        }
                                                /* extend header */
        if (bmPos < hdrSiz + sizeof(RGBquad)*palLen)
                goto err;
        br->hdr->infoSiz = bmPos - (hdrSiz + sizeof(RGBquad)*palLen);
        if (palLen > 0 || br->hdr->infoSiz > 0) {
                br->hdr = (BMPHeader *)realloc((void *)br->hdr,
                                        sizeof(BMPHeader) +
                                        sizeof(RGBquad)*palLen +
                                        br->hdr->infoSiz);
                if (br->hdr == NULL)
                        goto err;
        }
                                                /* read colors or fields */
        if (br->hdr->compr == BI_BITFIELDS) {
                BMPbitField(br->hdr)[0] = (uint32)rdint32(br);
                BMPbitField(br->hdr)[1] = (uint32)rdint32(br);
                BMPbitField(br->hdr)[2] = (uint32)rdint32(br);
        } else if (rdbytes((char *)br->hdr->palette,
                        sizeof(RGBquad)*palLen, br) != BIR_OK)
                goto err;
                                                /* read add'l information */
        if (rdbytes(BMPinfo(br->hdr), br->hdr->infoSiz, br) != BIR_OK)
                goto err;
                                                /* read first scanline */
        br->scanline = (uint8 *)calloc(getScanSiz(br->hdr), sizeof(uint8));
        if (br->scanline == NULL)
                goto err;
        br->yscan = -1;
        if (seek != NULL && (br->hdr->compr == BI_RLE8 |
                                        br->hdr->compr == BI_RLE4)) {
                BMPReader       *newbr = (BMPReader *)realloc((void *)br,
                                                sizeof(BMPReader) +
                                                sizeof(br->scanpos[0]) *
                                                        br->hdr->height);
                if (newbr == NULL)
                        goto err;
                br = newbr;
                memset((void *)(br->scanpos + 1), 0,
                                sizeof(br->scanpos[0])*br->hdr->height);
        }
        br->scanpos[0] = br->fpos;
        if (BMPreadScanline(br) != BIR_OK)
                goto err;
        return br;
err:
        if (br->hdr != NULL)
                free((void *)br->hdr);
        if (br->scanline != NULL)
                free((void *)br->scanline);
        free((void *)br);
        return NULL;
}

/* determine if image is grayscale */
int
BMPisGrayscale(const BMPHeader *hdr)
{
        const RGBquad   *rgbp;
        int             n;

        if (hdr == NULL)
                return -1;
        if (hdr->bpp > 8)               /* assume they had a reason for it */
                return 0;
        for (rgbp = hdr->palette, n = hdr->impColors; n-- > 0; rgbp++)
                if (((rgbp->r != rgbp->g) | (rgbp->g != rgbp->b)))
                        return 0;
        return 1;                       /* all colors neutral in map */
}

/* read and decode next BMP scanline */
int
BMPreadScanline(BMPReader *br)
{
        int     n;
        int8    *sp;

        if (br->yscan + 1 >= br->hdr->height)
                return BIR_EOF;
        br->yscan++;                    /* prepare to read */
        n = getScanSiz(br->hdr);        /* reading uncompressed data? */
        if (br->hdr->compr == BI_UNCOMPR || br->hdr->compr == BI_BITFIELDS)
                return rdbytes((char *)br->scanline, n, br);
        /*
         * RLE/RLE8 Decoding
         *
         * Certain aspects of this scheme are completely insane, so
         * we don't support them.  Fortunately, they rarely appear.
         * One is the mid-file EOD (0x0001) and another is the insane
         * "delta" (0x0002), which is like a "goto" statement for bitmaps.
         * Whoever thought this up should be shot, then told why
         * it's impossible to support in any reasonable way.
         * Also, RLE4 mode allows runs to stop halfway through a byte,
         * which is likewise uncodeable, so we don't even try.
         * Finally, the scanline break is ambiguous -- we assume here that
         * it is required at the end of each scanline, though I haven't
         * found anywhere this is written.  Otherwise, we would read to
         * the end of the scanline, assuming the next bit of data belongs
         * the following scan.  If a break follows the last pixel, as it
         * seems to in the files I've tested out of Photoshop, you end up
         * painting every other line black.  BTW, I assume any skipped
         * pixels are painted with color 0, which is often black.  Nowhere
         * is it specified what we should assume for missing pixels.  This
         * is undoubtedly the most brain-dead format I've ever encountered.
         */
        sp = br->scanline;
        while (n > 0) {
                int     skipOdd, len, val;

                if (rdbyte(len, br) == EOF)
                        return BIR_TRUNCATED;
                if (len > 0) {          /* got a run */
                        if (br->hdr->compr == BI_RLE4) {
                                if (len & 1)
                                        return BIR_UNSUPPORTED;
                                len >>= 1;
                        }
                        if (len > n)
                                return BIR_RLERROR;
                        if (rdbyte(val, br) == EOF)
                                return BIR_TRUNCATED;
                        n -= len;
                        while (len--)
                                *sp++ = val;
                        continue;
                }
                switch (rdbyte(len, br)) {
                case EOF:
                        return BIR_TRUNCATED;
                case 0:                 /* end of line */
                        while (n--)
                                *sp++ = 0;
                        continue;
                case 1:                 /* end of bitmap */
                case 2:                 /* delta */
                        return BIR_UNSUPPORTED;
                }
                                        /* absolute mode */
                if (br->hdr->compr == BI_RLE4) {
                        if (len & 1)
                                return BIR_UNSUPPORTED;
                        len >>= 1;
                }
                skipOdd = len & 1;
                if (len > n)
                        return BIR_RLERROR;
                n -= len;
                while (len--) {
                        if (rdbyte(val, br) == EOF)
                                return BIR_TRUNCATED;
                        *sp++ = val;
                }
                if (skipOdd && rdbyte(val, br) == EOF)
                        return BIR_TRUNCATED;
        }
                                        /* verify break at end of line */
        if (rdbyte(n, br) != 0 || (rdbyte(n, br) != 0 &&
                                (n != 1 || br->yscan != br->hdr->height-1)))
                return BIR_RLERROR;
        if (br->seek != NULL)           /* record next scanline position */
                br->scanpos[br->yscan + 1] = br->fpos;
        return BIR_OK;
}

/* read a specific scanline */
int
BMPseekScanline(int y, BMPReader *br)
{
        int     rv;
                                        /* check arguments */
        if (br == NULL)
                return BIR_EOF;
        if (y < 0)
                return BIR_SEEKERR;
        if (y >= br->hdr->height)
                return BIR_EOF;
                                        /* already read? */
        if (y == br->yscan)
                return BIR_OK;
                                        /* shall we seek? */
        if (y != br->yscan + 1 && br->seek != NULL) {
                int     yseek;
                uint32  seekp;
                if (br->hdr->compr == BI_UNCOMPR ||
                                        br->hdr->compr == BI_BITFIELDS) {
                        yseek = y;
                        seekp = br->scanpos[0] + y*getScanSiz(br->hdr);
                } else {
                        yseek = br->yscan + 1;
                        while (yseek < y && br->scanpos[yseek+1] != 0)
                                ++yseek;
                        if (y < yseek && br->scanpos[yseek=y] == 0)
                                return BIR_SEEKERR;
                        seekp = br->scanpos[yseek];
                }
                if ((rv = rdseek(seekp, br)) != BIR_OK)
                        return rv;
                br->yscan = yseek - 1;
        } else if (y < br->yscan)       /* else we can't back up */
                return BIR_SEEKERR;
                                        /* read until we get there */
        while (br->yscan < y)
                if ((rv = BMPreadScanline(br)) != BIR_OK)
                        return rv;
        return BIR_OK;
}

/* get ith pixel from last scanline */
RGBquad
BMPdecodePixel(int i, const BMPReader *br)
{
        static const uint32     std16mask[3] = {0x7c00, 0x3e0, 0x1f};
        static const RGBquad    black = {0, 0, 0, 0};
        const uint32            *mask;
        const uint8             *pp;
        uint32                  pval, v;
        RGBquad                 cval;
        
        if (((br == NULL) | (i < 0)) || i >= br->hdr->width)
                return black;

        cval.padding = 0;

        switch (br->hdr->bpp) {
        case 24:
                pp = br->scanline + 3*i;
                cval.b = *pp++;
                cval.g = *pp++;
                cval.r = *pp;
                return cval;
        case 32:
                if (br->hdr->compr == BI_UNCOMPR)
                        return ((RGBquad *)br->scanline)[i];
                                                /* convert bit fields */
                pp = br->scanline + 4*i;
                pval = *pp++;
                pval |= *pp++ << 8;
                pval |= *pp++ << 16;
                pval |= *pp << 24;
                mask = BMPbitField(br->hdr);
                v = pval & mask[0];
                while (v & ~0xff) v >>= 8;
                cval.r = v;
                v = pval & mask[1];
                while (v & ~0xff) v >>= 8;
                cval.g = v;
                v = pval & mask[2];
                while (v & ~0xff) v >>= 8;
                cval.b = v;
                return cval;
        case 8:
                return br->hdr->palette[br->scanline[i]];
        case 1:
                return br->hdr->palette[br->scanline[i>>3]>>(7-i&7) & 1];
        case 4:
                return br->hdr->palette[br->scanline[i>>1]>>(i&1?4:0) & 0xf];
        case 16:
                pp = br->scanline + 2*i;
                pval = *pp++;
                pval |= *pp++ << 8;
                mask = std16mask;
                if (br->hdr->compr == BI_BITFIELDS)
                        mask = BMPbitField(br->hdr);
                cval.r = ((pval & mask[0]) << 8) / (mask[0] + 1);
                cval.g = ((pval & mask[1]) << 8) / (mask[1] + 1);
                cval.b = ((pval & mask[2]) << 8) / (mask[2] + 1);
                return cval;
        }
        return black;                           /* should never happen */
}

/* free BMP reader resources */
void
BMPfreeReader(BMPReader *br)
{
        if (br == NULL)
                return;
        free((void *)br->hdr);
        free((void *)br->scanline);
        free((void *)br);
}

/* stdio getc() callback */
int
stdio_getc(void *p)
{
        if (!p)
                return EOF;
        return getc((FILE *)p);
}

/* stdio putc() callback */
void
stdio_putc(int c, void *p)
{
        if (p)
                putc(c, (FILE *)p);
}

/* stdio fseek() callback */
int
stdio_fseek(uint32 pos, void *p)
{
        if (!p)
                return -1;
        return fseek((FILE *)p, (long)pos, 0);
}

/* allocate uncompressed (24-bit) RGB header */
BMPHeader *
BMPtruecolorHeader(int xr, int yr, int infolen)
{
        BMPHeader       *hdr;
        
        if (xr <= 0 || yr <= 0 || infolen < 0)
                return NULL;
        hdr = (BMPHeader *)malloc(sizeof(BMPHeader) - sizeof(hdr->palette) +
                                        infolen);
        if (hdr == NULL)
                return NULL;
        hdr->width = xr;
        hdr->height = yr;
        hdr->yIsDown = 0;                       /* default to upwards order */
        hdr->bpp = 24;
        hdr->compr = BI_UNCOMPR;
        hdr->hRes = hdr->vRes = 2835;           /* default to 72 ppi */
        hdr->nColors = hdr->impColors = 0;
        hdr->infoSiz = infolen;
        return hdr;
}

/* allocate color-mapped header (defaults minimal grayscale) */
BMPHeader *
BMPmappedHeader(int xr, int yr, int infolen, int ncolors)
{
        int             n;
        BMPHeader       *hdr;
        
        if (xr <= 0 || yr <= 0 || infolen < 0 || ncolors < 2)
                return NULL;
        if (ncolors <= 2)
                n = 1;
        else if (ncolors <= 16)
                n = 4;
        else if (ncolors <= 256)
                n = 8;
        else
                return NULL;
        hdr = (BMPHeader *)malloc(sizeof(BMPHeader) +
                                        sizeof(RGBquad)*(1<<n) -
                                        sizeof(hdr->palette) +
                                        infolen);
        if (hdr == NULL)
                return NULL;
        hdr->width = xr;
        hdr->height = yr;
        hdr->yIsDown = 0;                       /* default to upwards order */
        hdr->bpp = n;
        hdr->compr = BI_UNCOMPR;
        hdr->hRes = hdr->vRes = 2835;           /* default to 72 ppi */
        hdr->nColors = ncolors;
        hdr->impColors = 0;                     /* says all colors important */
        hdr->infoSiz = infolen;
        memset((void *)hdr->palette, 0, sizeof(RGBquad)*(1<<n) + infolen);
        for (n = ncolors; n--; )
                hdr->palette[n].r = hdr->palette[n].g =
                        hdr->palette[n].b = n*255/(ncolors-1);
        return hdr;
}

                                        /* put byte to writer */
#define wrbyte(c,bw)    ( (*(bw)->cput)(c,(bw)->c_data), \
                                ++(bw)->fpos > (bw)->flen ? \
                                        ((bw)->flen = (bw)->fpos) : \
                                        (bw)->fpos )

/* write out a string of bytes */
static void
wrbytes(char *bp, uint32 n, BMPWriter *bw)
{
        while (n--)
                wrbyte(*bp++, bw);
}

/* write 32-bit integer in littlendian order */
static void
wrint32(int32 i, BMPWriter *bw)
{
        wrbyte(i& 0xff, bw);
        wrbyte(i>>8 & 0xff, bw);
        wrbyte(i>>16 & 0xff, bw);
        wrbyte(i>>24 & 0xff, bw);
}

/* write 16-bit unsigned integer in littlendian order */
static void
wruint16(uint16 ui, BMPWriter *bw)
{
        wrbyte(ui & 0xff, bw);
        wrbyte(ui>>8 & 0xff, bw);
}

/* seek to the specified file position, returning 0 (BIR_OK) on success */
static int
wrseek(uint32 pos, BMPWriter *bw)
{
        if (pos == bw->fpos)
                return BIR_OK;
        if (bw->seek == NULL) {
                if (pos < bw->fpos)
                        return BIR_SEEKERR;
                while (bw->fpos < pos)
                        wrbyte(0, bw);
                return BIR_OK;
        }
        if ((*bw->seek)(pos, bw->c_data) != 0)
                return BIR_SEEKERR;
        bw->fpos = pos;
        if (pos > bw->flen)
                bw->flen = pos;
        return BIR_OK;
}

/* open BMP stream for writing */
BMPWriter *
BMPopenWriter(void (*cput)(int, void *), int (*seek)(uint32, void *),
                        void *c_data, BMPHeader *hdr)
{
        BMPWriter       *bw;
        uint32          hdrSiz, palSiz, scanSiz, bmSiz;
                                                /* check arguments */
        if (cput == NULL)
                return NULL;
        if (!BMPheaderOK(hdr))
                return NULL;
        if ((hdr->bpp == 16 | hdr->compr == BI_RLE4))
                return NULL;                    /* unsupported */
        if (seek == NULL && (hdr->compr == BI_RLE8 | hdr->compr == BI_RLE4))
                return NULL;
                                                /* compute sizes */
        hdrSiz = 2 + 6*4 + 2*2 + 6*4;
        if (hdr->compr == BI_BITFIELDS)
                hdrSiz += sizeof(uint32)*3;
        palSiz = sizeof(RGBquad)*BMPpalLen(hdr);
        scanSiz = getScanSiz(hdr);
        bmSiz = hdr->height*scanSiz;            /* wrong if compressed */
                                                /* initialize writer */
        bw = (BMPWriter *)malloc(sizeof(BMPWriter));
        if (bw == NULL)
                return NULL;
        bw->hdr = hdr;
        bw->yscan = 0;
        bw->scanline = (uint8 *)calloc(scanSiz, sizeof(uint8));
        if (bw->scanline == NULL) {
                free((void *)bw);
                return NULL;
        }
        bw->fbmp = hdrSiz + palSiz + hdr->infoSiz;
        bw->fpos = bw->flen = 0;
        bw->cput = cput;
        bw->seek = seek;
        bw->c_data = c_data;
                                                /* write out header */
        wrbyte('B', bw); wrbyte('M', bw);       /* magic number */
        wrint32(bw->fbmp + bmSiz, bw);          /* file size */
        wrint32(0, bw);                         /* reserved word */
        wrint32(bw->fbmp, bw);                  /* offset to bitmap */
        wrint32(hdrSiz - bw->fpos, bw);         /* info header size */
        wrint32(hdr->width, bw);                /* bitmap width */
        if (hdr->yIsDown)                       /* bitmap height */
                wrint32(-hdr->height, bw);
        else
                wrint32(hdr->height, bw);
        wruint16(1, bw);                        /* number of planes */
        wruint16(hdr->bpp, bw);                 /* bits per pixel */
        wrint32(hdr->compr, bw);                /* compression mode */
        wrint32(bmSiz, bw);                     /* bitmap size */
        wrint32(hdr->hRes, bw);                 /* horizontal resolution */
        wrint32(hdr->vRes, bw);                 /* vertical resolution */
        wrint32(hdr->nColors, bw);              /* # colors used */
        wrint32(hdr->impColors, bw);            /* # important colors */
                                                /* write out color palette */
        wrbytes((char *)hdr->palette, palSiz, bw);
                                                /* write add'l information */
        wrbytes(BMPinfo(hdr), hdr->infoSiz, bw);
#ifndef NDEBUG
        if (bw->fpos != bw->fbmp) {
                fputs("Coding error 1 in BMPopenWriter\n", stderr);
                exit(1);
        }
#endif
        return bw;
}

/* find position of next run of 5 or more identical bytes, or 255 if none */
static int
findNextRun(const int8 *bp, int len)
{
        int     pos, cnt;
                                                /* look for run */
        for (pos = 0; len > 0 & pos < 255; pos++, bp++, len--) {
                if (len < 5)                    /* no hope left? */
                        continue;
                cnt = 1;                        /* else let's try it */
                while (bp[cnt] == bp[0])
                        if (++cnt >= 5)         /* long enough */
                                return pos;
        }
        return pos;                             /* didn't find any */
}
                                
/* write the current scanline */
int
BMPwriteScanline(BMPWriter *bw)
{
        const int8      *sp;
        int             n;

        if (bw->yscan >= bw->hdr->height)
                return BIR_EOF;
                                                /* writing uncompressed? */
        if (bw->hdr->compr == BI_UNCOMPR || bw->hdr->compr == BI_BITFIELDS) {
                uint32  scanSiz = getScanSiz(bw->hdr);
                uint32  slpos = bw->fbmp + bw->yscan*scanSiz;
                if (wrseek(slpos, bw) != BIR_OK)
                        return BIR_SEEKERR;
                wrbytes((char *)bw->scanline, scanSiz, bw);
                bw->yscan++;
                return BIR_OK;
        }
        /*
         * RLE8 Encoding
         *
         * See the notes in BMPreadScanline() on this encoding.  Needless
         * to say, we avoid the nuttier aspects of this specification.
         * We also assume that every scanline ends in a line break
         * (0x0000) except for the last, which ends in a bitmap break
         * (0x0001).  We don't support RLE4 at all; it's too awkward.
         */
        sp = bw->scanline;
        n = bw->hdr->width;
        while (n > 0) {
                int     cnt, val;

                cnt = findNextRun(sp, n);       /* 0-255 < n */
                if (cnt >= 3) {                 /* output non-run */
                        int     skipOdd = cnt & 1;
                        wrbyte(0, bw);
                        wrbyte(cnt, bw);
                        n -= cnt;
                        while (cnt--)
                                wrbyte(*sp++, bw);
                        if (skipOdd)
                                wrbyte(0, bw);
                }
                if (n <= 0)                     /* was that it? */
                        break;
                val = *sp;                      /* output run */
                for (cnt = 1; --n > 0 & *++sp == val; cnt++)
                        ;
                wrbyte(cnt, bw);
                wrbyte(val, bw);
        }
        bw->yscan++;                            /* write file length at end */
        if (bw->yscan == bw->hdr->height) {
                wrbyte(0, bw); wrbyte(1, bw);   /* end of bitmap marker */
                if (bw->seek == NULL || (*bw->seek)(2, bw->c_data) != 0)
                        return BIR_SEEKERR;
                bw->fpos = 2;
                wrint32(bw->flen, bw);          /* corrected file length */
        } else {
                wrbyte(0, bw); wrbyte(0, bw);   /* end of line marker */
        }
        return BIR_OK;
}

/* free BMP writer resources */
void
BMPfreeWriter(BMPWriter *bw)
{
        if (bw == NULL)
                return;
        free((void *)bw->hdr);
        free((void *)bw->scanline);
        free((void *)bw);
}
Revision:	2.3
Committed:	Fri Mar 26 22:58:21 2004 UTC (20 years, 1 month ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.2:	+260 -70 lines
Log Message:	Added support to ra_bmp for 16-bit images and RLE, plus created man page
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: bmpfile.c,v 2.2 2004/03/26 21:29:19 schorsch Exp $";
3	#endif
4	/*
5	* Windows and OS/2 BMP file support
6	*/
7
8	#include <stdio.h>
9	#include <stdlib.h>
10	#include <string.h>
11	#include "bmpfile.h"
12
13	/* get corresponding error message */
14	const char *
15	BMPerrorMessage(int ec)
16	{
17	switch (ec) {
18	case BIR_OK:
19	return "No error";
20	case BIR_EOF:
21	return "End of BMP image";
22	case BIR_TRUNCATED:
23	return "Truncated BMP image";
24	case BIR_UNSUPPORTED:
25	return "Unsupported BMP feature";
26	case BIR_RLERROR:
27	return "BMP runlength encoding error";
28	case BIR_SEEKERR:
29	return "BMP seek error";
30	}
31	return "Unknown BMP error";
32	}
33
34	/* check than header is sensible */
35	static int
36	BMPheaderOK(const BMPHeader *hdr)
37	{
38	if (!hdr)
39	return 0;
40	if ((hdr->width <= 0 \| hdr->height <= 0))
41	return 0;
42	switch (hdr->bpp) { /* check compression */
43	case 1:
44	case 24:
45	if (hdr->compr != BI_UNCOMPR)
46	return 0;
47	break;
48	case 16:
49	case 32:
50	if ((hdr->compr != BI_UNCOMPR & hdr->compr != BI_BITFIELDS))
51	return 0;
52	break;
53	case 4:
54	if ((hdr->compr != BI_UNCOMPR & hdr->compr != BI_RLE4))
55	return 0;
56	break;
57	case 8:
58	if ((hdr->compr != BI_UNCOMPR & hdr->compr != BI_RLE8))
59	return 0;
60	break;
61	default:
62	return 0;
63	}
64	if (hdr->compr == BI_BITFIELDS && (BMPbitField(hdr)[0] &
65	BMPbitField(hdr)[1] & BMPbitField(hdr)[2]))
66	return 0;
67	if ((hdr->nColors < 0 \| hdr->impColors < 0))
68	return 0;
69	if (hdr->impColors > hdr->nColors)
70	return 0;
71	if (hdr->nColors > BMPpalLen(hdr))
72	return 0;
73	return 1;
74	}
75
76	/* compute uncompressed scan size */
77	#define getScanSiz(h) ( (((h)->bpp*(h)->width+7 >>3) + 3) & ~03 )
78
79	/* get next byte from reader */
80	#define rdbyte(c,br) ((br)->fpos += (c=(*(br)->cget)((br)->c_data))!=EOF, c)
81
82	/* read n bytes */
83	static int
84	rdbytes(char bp, uint32 n, BMPReader br)
85	{
86	int c;
87
88	while (n--) {
89	if (rdbyte(c, br) == EOF)
90	return BIR_TRUNCATED;
91	*bp++ = c;
92	}
93	return BIR_OK;
94	}
95
96	/* read 32-bit integer in littlendian order */
97	static int32
98	rdint32(BMPReader *br)
99	{
100	int32 i;
101	int c;
102
103	i = rdbyte(c, br);
104	i \|= rdbyte(c, br) << 8;
105	i \|= rdbyte(c, br) << 16;
106	i \|= rdbyte(c, br) << 24;
107	return i; /* -1 on EOF */
108	}
109
110	/* read 16-bit unsigned integer in littlendian order */
111	static int
112	rduint16(BMPReader *br)
113	{
114	int i;
115	int c;
116
117	i = rdbyte(c, br);
118	i \|= rdbyte(c, br) << 8;
119	return i; /* -1 on EOF */
120	}
121
122	/* seek on reader or return 0 (BIR_OK) on success */
123	static int
124	rdseek(uint32 pos, BMPReader *br)
125	{
126	if (pos == br->fpos)
127	return BIR_OK;
128	if (br->seek == NULL \|\| (*br->seek)(pos, br->c_data) != 0)
129	return BIR_SEEKERR;
130	br->fpos = pos;
131	return BIR_OK;
132	}
133
134	/* open BMP stream for reading and get first scanline */
135	BMPReader *
136	BMPopenReader(int (cget)(void ), int (seek)(uint32, void ), void *c_data)
137	{
138	BMPReader *br;
139	uint32 bmPos, hdrSiz;
140	int palLen;
141
142	if (cget == NULL)
143	return NULL;
144	int magic[2]; /* check magic number */
145	magic[0] = (*cget)(c_data);
146	if (magic[0] != 'B')
147	return NULL;
148	magic[1] = (*cget)(c_data);
149	if (magic[1] != 'M' && magic[1] != 'A')
150	return NULL;
151	br = (BMPReader *)calloc(1, sizeof(BMPReader));
152	if (br == NULL)
153	return NULL;
154	br->cget = cget;
155	br->seek = seek;
156	br->c_data = c_data;
157	br->hdr = (BMPHeader *)malloc(sizeof(BMPHeader));
158	if (br->hdr == NULL)
159	goto err;
160	br->fpos = 2;
161	/* read & verify file header */
162	(void)rdint32(br); /* file size */
163	(void)rdint32(br); /* reserved word */
164	bmPos = rdint32(br); /* offset to bitmap */
165	hdrSiz = 2 + 34 + rdint32(br); / header size */
166	if (hdrSiz < 2 + 64 + 22 + 6*4)
167	goto err;
168	br->hdr->width = rdint32(br); /* bitmap width */
169	br->hdr->height = rdint32(br); /* bitmap height */
170	if (((br->hdr->width <= 0) \| (br->hdr->height == 0)))
171	goto err;
172	if ((br->hdr->yIsDown = br->hdr->height < 0))
173	br->hdr->height = -br->hdr->height;
174	if (rduint16(br) != 1) /* number of planes */
175	goto err;
176	br->hdr->bpp = rduint16(br); /* bits per pixel */
177	br->hdr->compr = rdint32(br); /* compression mode */
178	(void)rdint32(br); /* bitmap size */
179	br->hdr->hRes = rdint32(br); /* horizontal resolution */
180	br->hdr->vRes = rdint32(br); /* vertical resolution */
181	br->hdr->nColors = rdint32(br); /* # colors used */
182	br->hdr->impColors = rdint32(br); /* # important colors */
183	if (br->hdr->impColors < 0)
184	goto err; /* catch premature EOF */
185	if (!BMPheaderOK(br->hdr))
186	goto err;
187	palLen = BMPpalLen(br->hdr);
188	if (br->hdr->bpp <= 8) { /* normalize color counts */
189	if (br->hdr->nColors <= 0)
190	br->hdr->nColors = palLen;
191	if (br->hdr->impColors <= 0)
192	br->hdr->impColors = br->hdr->nColors;
193	}
194	/* extend header */
195	if (bmPos < hdrSiz + sizeof(RGBquad)*palLen)
196	goto err;
197	br->hdr->infoSiz = bmPos - (hdrSiz + sizeof(RGBquad)*palLen);
198	if (palLen > 0 \|\| br->hdr->infoSiz > 0) {
199	br->hdr = (BMPHeader )realloc((void )br->hdr,
200	sizeof(BMPHeader) +
201	sizeof(RGBquad)*palLen +
202	br->hdr->infoSiz);
203	if (br->hdr == NULL)
204	goto err;
205	}
206	/* read colors or fields */
207	if (br->hdr->compr == BI_BITFIELDS) {
208	BMPbitField(br->hdr)[0] = (uint32)rdint32(br);
209	BMPbitField(br->hdr)[1] = (uint32)rdint32(br);
210	BMPbitField(br->hdr)[2] = (uint32)rdint32(br);
211	} else if (rdbytes((char *)br->hdr->palette,
212	sizeof(RGBquad)*palLen, br) != BIR_OK)
213	goto err;
214	/* read add'l information */
215	if (rdbytes(BMPinfo(br->hdr), br->hdr->infoSiz, br) != BIR_OK)
216	goto err;
217	/* read first scanline */
218	br->scanline = (uint8 *)calloc(getScanSiz(br->hdr), sizeof(uint8));
219	if (br->scanline == NULL)
220	goto err;
221	br->yscan = -1;
222	if (seek != NULL && (br->hdr->compr == BI_RLE8 \|
223	br->hdr->compr == BI_RLE4)) {
224	BMPReader newbr = (BMPReader )realloc((void *)br,
225	sizeof(BMPReader) +
226	sizeof(br->scanpos[0]) *
227	br->hdr->height);
228	if (newbr == NULL)
229	goto err;
230	br = newbr;
231	memset((void *)(br->scanpos + 1), 0,
232	sizeof(br->scanpos[0])*br->hdr->height);
233	}
234	br->scanpos[0] = br->fpos;
235	if (BMPreadScanline(br) != BIR_OK)
236	goto err;
237	return br;
238	err:
239	if (br->hdr != NULL)
240	free((void *)br->hdr);
241	if (br->scanline != NULL)
242	free((void *)br->scanline);
243	free((void *)br);
244	return NULL;
245	}
246
247	/* determine if image is grayscale */
248	int
249	BMPisGrayscale(const BMPHeader *hdr)
250	{
251	const RGBquad *rgbp;
252	int n;
253
254	if (hdr == NULL)
255	return -1;
256	if (hdr->bpp > 8) /* assume they had a reason for it */
257	return 0;
258	for (rgbp = hdr->palette, n = hdr->impColors; n-- > 0; rgbp++)
259	if (((rgbp->r != rgbp->g) \| (rgbp->g != rgbp->b)))
260	return 0;
261	return 1; /* all colors neutral in map */
262	}
263
264	/* read and decode next BMP scanline */
265	int
266	BMPreadScanline(BMPReader *br)
267	{
268	int n;
269	int8 *sp;
270
271	if (br->yscan + 1 >= br->hdr->height)
272	return BIR_EOF;
273	br->yscan++; /* prepare to read */
274	n = getScanSiz(br->hdr); /* reading uncompressed data? */
275	if (br->hdr->compr == BI_UNCOMPR \|\| br->hdr->compr == BI_BITFIELDS)
276	return rdbytes((char *)br->scanline, n, br);
277	/*
278	* RLE/RLE8 Decoding
279	*
280	* Certain aspects of this scheme are completely insane, so
281	* we don't support them. Fortunately, they rarely appear.
282	* One is the mid-file EOD (0x0001) and another is the insane
283	* "delta" (0x0002), which is like a "goto" statement for bitmaps.
284	* Whoever thought this up should be shot, then told why
285	* it's impossible to support in any reasonable way.
286	* Also, RLE4 mode allows runs to stop halfway through a byte,
287	* which is likewise uncodeable, so we don't even try.
288	* Finally, the scanline break is ambiguous -- we assume here that
289	* it is required at the end of each scanline, though I haven't
290	* found anywhere this is written. Otherwise, we would read to
291	* the end of the scanline, assuming the next bit of data belongs
292	* the following scan. If a break follows the last pixel, as it
293	* seems to in the files I've tested out of Photoshop, you end up
294	* painting every other line black. BTW, I assume any skipped
295	* pixels are painted with color 0, which is often black. Nowhere
296	* is it specified what we should assume for missing pixels. This
297	* is undoubtedly the most brain-dead format I've ever encountered.
298	*/
299	sp = br->scanline;
300	while (n > 0) {
301	int skipOdd, len, val;
302
303	if (rdbyte(len, br) == EOF)
304	return BIR_TRUNCATED;
305	if (len > 0) { /* got a run */
306	if (br->hdr->compr == BI_RLE4) {
307	if (len & 1)
308	return BIR_UNSUPPORTED;
309	len >>= 1;
310	}
311	if (len > n)
312	return BIR_RLERROR;
313	if (rdbyte(val, br) == EOF)
314	return BIR_TRUNCATED;
315	n -= len;
316	while (len--)
317	*sp++ = val;
318	continue;
319	}
320	switch (rdbyte(len, br)) {
321	case EOF:
322	return BIR_TRUNCATED;
323	case 0: /* end of line */
324	while (n--)
325	*sp++ = 0;
326	continue;
327	case 1: /* end of bitmap */
328	case 2: /* delta */
329	return BIR_UNSUPPORTED;
330	}
331	/* absolute mode */
332	if (br->hdr->compr == BI_RLE4) {
333	if (len & 1)
334	return BIR_UNSUPPORTED;
335	len >>= 1;
336	}
337	skipOdd = len & 1;
338	if (len > n)
339	return BIR_RLERROR;
340	n -= len;
341	while (len--) {
342	if (rdbyte(val, br) == EOF)
343	return BIR_TRUNCATED;
344	*sp++ = val;
345	}
346	if (skipOdd && rdbyte(val, br) == EOF)
347	return BIR_TRUNCATED;
348	}
349	/* verify break at end of line */
350	if (rdbyte(n, br) != 0 \|\| (rdbyte(n, br) != 0 &&
351	(n != 1 \|\| br->yscan != br->hdr->height-1)))
352	return BIR_RLERROR;
353	if (br->seek != NULL) /* record next scanline position */
354	br->scanpos[br->yscan + 1] = br->fpos;
355	return BIR_OK;
356	}
357
358	/* read a specific scanline */
359	int
360	BMPseekScanline(int y, BMPReader *br)
361	{
362	int rv;
363	/* check arguments */
364	if (br == NULL)
365	return BIR_EOF;
366	if (y < 0)
367	return BIR_SEEKERR;
368	if (y >= br->hdr->height)
369	return BIR_EOF;
370	/* already read? */
371	if (y == br->yscan)
372	return BIR_OK;
373	/* shall we seek? */
374	if (y != br->yscan + 1 && br->seek != NULL) {
375	int yseek;
376	uint32 seekp;
377	if (br->hdr->compr == BI_UNCOMPR \|\|
378	br->hdr->compr == BI_BITFIELDS) {
379	yseek = y;
380	seekp = br->scanpos[0] + y*getScanSiz(br->hdr);
381	} else {
382	yseek = br->yscan + 1;
383	while (yseek < y && br->scanpos[yseek+1] != 0)
384	++yseek;
385	if (y < yseek && br->scanpos[yseek=y] == 0)
386	return BIR_SEEKERR;
387	seekp = br->scanpos[yseek];
388	}
389	if ((rv = rdseek(seekp, br)) != BIR_OK)
390	return rv;
391	br->yscan = yseek - 1;
392	} else if (y < br->yscan) /* else we can't back up */
393	return BIR_SEEKERR;
394	/* read until we get there */
395	while (br->yscan < y)
396	if ((rv = BMPreadScanline(br)) != BIR_OK)
397	return rv;
398	return BIR_OK;
399	}
400
401	/* get ith pixel from last scanline */
402	RGBquad
403	BMPdecodePixel(int i, const BMPReader *br)
404	{
405	static const uint32 std16mask[3] = {0x7c00, 0x3e0, 0x1f};
406	static const RGBquad black = {0, 0, 0, 0};
407	const uint32 *mask;
408	const uint8 *pp;
409	uint32 pval, v;
410	RGBquad cval;
411
412	if (((br == NULL) \| (i < 0)) \|\| i >= br->hdr->width)
413	return black;
414
415	cval.padding = 0;
416
417	switch (br->hdr->bpp) {
418	case 24:
419	pp = br->scanline + 3*i;
420	cval.b = *pp++;
421	cval.g = *pp++;
422	cval.r = *pp;
423	return cval;
424	case 32:
425	if (br->hdr->compr == BI_UNCOMPR)
426	return ((RGBquad *)br->scanline)[i];
427	/* convert bit fields */
428	pp = br->scanline + 4*i;
429	pval = *pp++;
430	pval \|= *pp++ << 8;
431	pval \|= *pp++ << 16;
432	pval \|= *pp << 24;
433	mask = BMPbitField(br->hdr);
434	v = pval & mask[0];
435	while (v & ~0xff) v >>= 8;
436	cval.r = v;
437	v = pval & mask[1];
438	while (v & ~0xff) v >>= 8;
439	cval.g = v;
440	v = pval & mask[2];
441	while (v & ~0xff) v >>= 8;
442	cval.b = v;
443	return cval;
444	case 8:
445	return br->hdr->palette[br->scanline[i]];
446	case 1:
447	return br->hdr->palette[br->scanline[i>>3]>>(7-i&7) & 1];
448	case 4:
449	return br->hdr->palette[br->scanline[i>>1]>>(i&1?4:0) & 0xf];
450	case 16:
451	pp = br->scanline + 2*i;
452	pval = *pp++;
453	pval \|= *pp++ << 8;
454	mask = std16mask;
455	if (br->hdr->compr == BI_BITFIELDS)
456	mask = BMPbitField(br->hdr);
457	cval.r = ((pval & mask[0]) << 8) / (mask[0] + 1);
458	cval.g = ((pval & mask[1]) << 8) / (mask[1] + 1);
459	cval.b = ((pval & mask[2]) << 8) / (mask[2] + 1);
460	return cval;
461	}
462	return black; /* should never happen */
463	}
464
465	/* free BMP reader resources */
466	void
467	BMPfreeReader(BMPReader *br)
468	{
469	if (br == NULL)
470	return;
471	free((void *)br->hdr);
472	free((void *)br->scanline);
473	free((void *)br);
474	}
475
476	/* stdio getc() callback */
477	int
478	stdio_getc(void *p)
479	{
480	if (!p)
481	return EOF;
482	return getc((FILE *)p);
483	}
484
485	/* stdio putc() callback */
486	void
487	stdio_putc(int c, void *p)
488	{
489	if (p)
490	putc(c, (FILE *)p);
491	}
492
493	/* stdio fseek() callback */
494	int
495	stdio_fseek(uint32 pos, void *p)
496	{
497	if (!p)
498	return -1;
499	return fseek((FILE *)p, (long)pos, 0);
500	}
501
502	/* allocate uncompressed (24-bit) RGB header */
503	BMPHeader *
504	BMPtruecolorHeader(int xr, int yr, int infolen)
505	{
506	BMPHeader *hdr;
507
508	if (xr <= 0 \|\| yr <= 0 \|\| infolen < 0)
509	return NULL;
510	hdr = (BMPHeader *)malloc(sizeof(BMPHeader) - sizeof(hdr->palette) +
511	infolen);
512	if (hdr == NULL)
513	return NULL;
514	hdr->width = xr;
515	hdr->height = yr;
516	hdr->yIsDown = 0; /* default to upwards order */
517	hdr->bpp = 24;
518	hdr->compr = BI_UNCOMPR;
519	hdr->hRes = hdr->vRes = 2835; /* default to 72 ppi */
520	hdr->nColors = hdr->impColors = 0;
521	hdr->infoSiz = infolen;
522	return hdr;
523	}
524
525	/* allocate color-mapped header (defaults minimal grayscale) */
526	BMPHeader *
527	BMPmappedHeader(int xr, int yr, int infolen, int ncolors)
528	{
529	int n;
530	BMPHeader *hdr;
531
532	if (xr <= 0 \|\| yr <= 0 \|\| infolen < 0 \|\| ncolors < 2)
533	return NULL;
534	if (ncolors <= 2)
535	n = 1;
536	else if (ncolors <= 16)
537	n = 4;
538	else if (ncolors <= 256)
539	n = 8;
540	else
541	return NULL;
542	hdr = (BMPHeader *)malloc(sizeof(BMPHeader) +
543	sizeof(RGBquad)*(1<<n) -
544	sizeof(hdr->palette) +
545	infolen);
546	if (hdr == NULL)
547	return NULL;
548	hdr->width = xr;
549	hdr->height = yr;
550	hdr->yIsDown = 0; /* default to upwards order */
551	hdr->bpp = n;
552	hdr->compr = BI_UNCOMPR;
553	hdr->hRes = hdr->vRes = 2835; /* default to 72 ppi */
554	hdr->nColors = ncolors;
555	hdr->impColors = 0; /* says all colors important */
556	hdr->infoSiz = infolen;
557	memset((void )hdr->palette, 0, sizeof(RGBquad)(1<<n) + infolen);
558	for (n = ncolors; n--; )
559	hdr->palette[n].r = hdr->palette[n].g =
560	hdr->palette[n].b = n*255/(ncolors-1);
561	return hdr;
562	}
563
564	/* put byte to writer */
565	#define wrbyte(c,bw) ( (*(bw)->cput)(c,(bw)->c_data), \
566	++(bw)->fpos > (bw)->flen ? \
567	((bw)->flen = (bw)->fpos) : \
568	(bw)->fpos )
569
570	/* write out a string of bytes */
571	static void
572	wrbytes(char bp, uint32 n, BMPWriter bw)
573	{
574	while (n--)
575	wrbyte(*bp++, bw);
576	}
577
578	/* write 32-bit integer in littlendian order */
579	static void
580	wrint32(int32 i, BMPWriter *bw)
581	{
582	wrbyte(i& 0xff, bw);
583	wrbyte(i>>8 & 0xff, bw);
584	wrbyte(i>>16 & 0xff, bw);
585	wrbyte(i>>24 & 0xff, bw);
586	}
587
588	/* write 16-bit unsigned integer in littlendian order */
589	static void
590	wruint16(uint16 ui, BMPWriter *bw)
591	{
592	wrbyte(ui & 0xff, bw);
593	wrbyte(ui>>8 & 0xff, bw);
594	}
595
596	/* seek to the specified file position, returning 0 (BIR_OK) on success */
597	static int
598	wrseek(uint32 pos, BMPWriter *bw)
599	{
600	if (pos == bw->fpos)
601	return BIR_OK;
602	if (bw->seek == NULL) {
603	if (pos < bw->fpos)
604	return BIR_SEEKERR;
605	while (bw->fpos < pos)
606	wrbyte(0, bw);
607	return BIR_OK;
608	}
609	if ((*bw->seek)(pos, bw->c_data) != 0)
610	return BIR_SEEKERR;
611	bw->fpos = pos;
612	if (pos > bw->flen)
613	bw->flen = pos;
614	return BIR_OK;
615	}
616
617	/* open BMP stream for writing */
618	BMPWriter *
619	BMPopenWriter(void (cput)(int, void ), int (seek)(uint32, void ),
620	void c_data, BMPHeader hdr)
621	{
622	BMPWriter *bw;
623	uint32 hdrSiz, palSiz, scanSiz, bmSiz;
624	/* check arguments */
625	if (cput == NULL)
626	return NULL;
627	if (!BMPheaderOK(hdr))
628	return NULL;
629	if ((hdr->bpp == 16 \| hdr->compr == BI_RLE4))
630	return NULL; /* unsupported */
631	if (seek == NULL && (hdr->compr == BI_RLE8 \| hdr->compr == BI_RLE4))
632	return NULL;
633	/* compute sizes */
634	hdrSiz = 2 + 64 + 22 + 6*4;
635	if (hdr->compr == BI_BITFIELDS)
636	hdrSiz += sizeof(uint32)*3;
637	palSiz = sizeof(RGBquad)*BMPpalLen(hdr);
638	scanSiz = getScanSiz(hdr);
639	bmSiz = hdr->heightscanSiz; / wrong if compressed */
640	/* initialize writer */
641	bw = (BMPWriter *)malloc(sizeof(BMPWriter));
642	if (bw == NULL)
643	return NULL;
644	bw->hdr = hdr;
645	bw->yscan = 0;
646	bw->scanline = (uint8 *)calloc(scanSiz, sizeof(uint8));
647	if (bw->scanline == NULL) {
648	free((void *)bw);
649	return NULL;
650	}
651	bw->fbmp = hdrSiz + palSiz + hdr->infoSiz;
652	bw->fpos = bw->flen = 0;
653	bw->cput = cput;
654	bw->seek = seek;
655	bw->c_data = c_data;
656	/* write out header */
657	wrbyte('B', bw); wrbyte('M', bw); /* magic number */
658	wrint32(bw->fbmp + bmSiz, bw); /* file size */
659	wrint32(0, bw); /* reserved word */
660	wrint32(bw->fbmp, bw); /* offset to bitmap */
661	wrint32(hdrSiz - bw->fpos, bw); /* info header size */
662	wrint32(hdr->width, bw); /* bitmap width */
663	if (hdr->yIsDown) /* bitmap height */
664	wrint32(-hdr->height, bw);
665	else
666	wrint32(hdr->height, bw);
667	wruint16(1, bw); /* number of planes */
668	wruint16(hdr->bpp, bw); /* bits per pixel */
669	wrint32(hdr->compr, bw); /* compression mode */
670	wrint32(bmSiz, bw); /* bitmap size */
671	wrint32(hdr->hRes, bw); /* horizontal resolution */
672	wrint32(hdr->vRes, bw); /* vertical resolution */
673	wrint32(hdr->nColors, bw); /* # colors used */
674	wrint32(hdr->impColors, bw); /* # important colors */
675	/* write out color palette */
676	wrbytes((char *)hdr->palette, palSiz, bw);
677	/* write add'l information */
678	wrbytes(BMPinfo(hdr), hdr->infoSiz, bw);
679	#ifndef NDEBUG
680	if (bw->fpos != bw->fbmp) {
681	fputs("Coding error 1 in BMPopenWriter\n", stderr);
682	exit(1);
683	}
684	#endif
685	return bw;
686	}
687
688	/* find position of next run of 5 or more identical bytes, or 255 if none */
689	static int
690	findNextRun(const int8 *bp, int len)
691	{
692	int pos, cnt;
693	/* look for run */
694	for (pos = 0; len > 0 & pos < 255; pos++, bp++, len--) {
695	if (len < 5) /* no hope left? */
696	continue;
697	cnt = 1; /* else let's try it */
698	while (bp[cnt] == bp[0])
699	if (++cnt >= 5) /* long enough */
700	return pos;
701	}
702	return pos; /* didn't find any */
703	}
704
705	/* write the current scanline */
706	int
707	BMPwriteScanline(BMPWriter *bw)
708	{
709	const int8 *sp;
710	int n;
711
712	if (bw->yscan >= bw->hdr->height)
713	return BIR_EOF;
714	/* writing uncompressed? */
715	if (bw->hdr->compr == BI_UNCOMPR \|\| bw->hdr->compr == BI_BITFIELDS) {
716	uint32 scanSiz = getScanSiz(bw->hdr);
717	uint32 slpos = bw->fbmp + bw->yscan*scanSiz;
718	if (wrseek(slpos, bw) != BIR_OK)
719	return BIR_SEEKERR;
720	wrbytes((char *)bw->scanline, scanSiz, bw);
721	bw->yscan++;
722	return BIR_OK;
723	}
724	/*
725	* RLE8 Encoding
726	*
727	* See the notes in BMPreadScanline() on this encoding. Needless
728	* to say, we avoid the nuttier aspects of this specification.
729	* We also assume that every scanline ends in a line break
730	* (0x0000) except for the last, which ends in a bitmap break
731	* (0x0001). We don't support RLE4 at all; it's too awkward.
732	*/
733	sp = bw->scanline;
734	n = bw->hdr->width;
735	while (n > 0) {
736	int cnt, val;
737
738	cnt = findNextRun(sp, n); /* 0-255 < n */
739	if (cnt >= 3) { /* output non-run */
740	int skipOdd = cnt & 1;
741	wrbyte(0, bw);
742	wrbyte(cnt, bw);
743	n -= cnt;
744	while (cnt--)
745	wrbyte(*sp++, bw);
746	if (skipOdd)
747	wrbyte(0, bw);
748	}
749	if (n <= 0) /* was that it? */
750	break;
751	val = sp; / output run */
752	for (cnt = 1; --n > 0 & *++sp == val; cnt++)
753	;
754	wrbyte(cnt, bw);
755	wrbyte(val, bw);
756	}
757	bw->yscan++; /* write file length at end */
758	if (bw->yscan == bw->hdr->height) {
759	wrbyte(0, bw); wrbyte(1, bw); /* end of bitmap marker */
760	if (bw->seek == NULL \|\| (*bw->seek)(2, bw->c_data) != 0)
761	return BIR_SEEKERR;
762	bw->fpos = 2;
763	wrint32(bw->flen, bw); /* corrected file length */
764	} else {
765	wrbyte(0, bw); wrbyte(0, bw); /* end of line marker */
766	}
767	return BIR_OK;
768	}
769
770	/* free BMP writer resources */
771	void
772	BMPfreeWriter(BMPWriter *bw)
773	{
774	if (bw == NULL)
775	return;
776	free((void *)bw->hdr);
777	free((void *)bw->scanline);
778	free((void *)bw);
779	}