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path: root/lib/libpamwrite.c
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/*============================================================================
                                  libpamwrite.c
==============================================================================
   These are the library functions, which belong in the libnetpbm library,
   that deal with writing the PAM (Portable Arbitrary Format) image format
   raster (not the header).

   This file was originally written by Bryan Henderson and is contributed
   to the public domain by him and subsequent authors.
=============================================================================*/

/* See pmfileio.c for the complicated explanation of this 32/64 bit file
   offset stuff.
*/
#define _FILE_OFFSET_BITS 64
#define _LARGE_FILES  

#include <string.h>
#include <stdio.h>
#include <limits.h>
#include <assert.h>
#include <math.h>

#include "netpbm/pm_config.h"
#include "netpbm/pm_c_util.h"

#include "pam.h"


static __inline__ unsigned int
samplesPerPlainLine(sample       const maxval, 
                    unsigned int const depth, 
                    unsigned int const lineLength) {
/*----------------------------------------------------------------------------
   Return the minimum number of samples that should go in a line
   'lineLength' characters long in a plain format non-PBM PNM image
   with depth 'depth' and maxval 'maxval'.

   Note that this number is just for aesthetics; the Netpbm formats allow
   any number of samples per line.
-----------------------------------------------------------------------------*/
    unsigned int const digitsForMaxval = (unsigned int)
        (log(maxval + 0.1 ) / log(10.0));
        /* Number of digits maxval has in decimal */
        /* +0.1 is an adjustment to overcome precision problems */
    unsigned int const fit = lineLength / (digitsForMaxval + 1);
        /* Number of maxval-sized samples that fit in a line */
    unsigned int const retval = (fit > depth) ? (fit - (fit % depth)) : fit;
        /* 'fit', rounded down to a multiple of depth, if possible */

    return retval;
}



static void
writePamPlainPbmRow(const struct pam *  const pamP,
                    const tuple *       const tuplerow) {

    int col;
    unsigned int const samplesPerLine = 70;

    for (col = 0; col < pamP->width; ++col)
        fprintf(pamP->file,  
                ((col+1) % samplesPerLine == 0 || col == pamP->width-1)
                    ? "%1u\n" : "%1u",
                tuplerow[col][0] == PAM_PBM_BLACK ? PBM_BLACK : PBM_WHITE);
}



static void
writePamPlainRow(const struct pam *  const pamP,
                    const tuple *       const tuplerow) {

    int const samplesPerLine = 
        samplesPerPlainLine(pamP->maxval, pamP->depth, 79);

    int col;
    unsigned int samplesInCurrentLine;
        /* number of samples written from start of line  */
    
    samplesInCurrentLine = 0;

    for (col = 0; col < pamP->width; ++col) {
        unsigned int plane;
        for (plane = 0; plane < pamP->depth; ++plane){
            fprintf(pamP->file, "%lu ",tuplerow[col][plane]);

            ++samplesInCurrentLine;

            if (samplesInCurrentLine >= samplesPerLine) {
                fprintf(pamP->file, "\n");
                samplesInCurrentLine = 0;
            }            
        }
    }
    fprintf(pamP->file, "\n");
}



static void
formatPbmRow(const struct pam * const pamP,
             const tuple *      const tuplerow,
             unsigned char *    const outbuf,
             unsigned int *     const rowSizeP) {

    unsigned char accum;
    int col;
    
    accum = 0;  /* initial value */
    
    for (col=0; col < pamP->width; ++col) {
        accum |= 
            (tuplerow[col][0] == PAM_PBM_BLACK ? PBM_BLACK : PBM_WHITE)
                << (7-col%8);
        if (col%8 == 7) {
                outbuf[col/8] = accum;
                accum = 0;
        }
    }
    if (pamP->width % 8 != 0) {
        unsigned int const lastByteIndex = pamP->width/8;
        outbuf[lastByteIndex] = accum;
        *rowSizeP = lastByteIndex + 1;
    } else
        *rowSizeP = pamP->width/8;
}



/* Though it is possible to simplify the sampleToBytesN() and
   formatNBpsRow() functions into a single routine that handles all
   sample widths, we value efficiency higher here.  Earlier versions
   of Netpbm (before 10.25) did that, with a loop, and performance
   suffered visibly.
*/

static __inline__ void
sampleToBytes2(unsigned char       buf[2], 
               sample        const sampleval) {

    buf[0] = (sampleval >> 8) & 0xff;
    buf[1] = (sampleval >> 0) & 0xff;
}



static __inline__ void
sampleToBytes3(unsigned char       buf[3], 
               sample        const sampleval) {

    buf[0] = (sampleval >> 16) & 0xff;
    buf[1] = (sampleval >>  8) & 0xff;
    buf[2] = (sampleval >>  0) & 0xff;
}



static __inline__ void
sampleToBytes4(unsigned char       buf[4], 
               sample        const sampleval) {

    buf[0] = (sampleval >> 24 ) & 0xff;
    buf[1] = (sampleval >> 16 ) & 0xff;
    buf[2] = (sampleval >>  8 ) & 0xff;
    buf[3] = (sampleval >>  0 ) & 0xff;
}



static __inline__ void
format1BpsRow(const struct pam * const pamP,
              const tuple *      const tuplerow,
              unsigned char *    const outbuf,
              unsigned int *     const rowSizeP) {
/*----------------------------------------------------------------------------
   Create the image of a row in the raster of a raw format Netpbm
   image that has one byte per sample (ergo not PBM).

   Put the image at *outbuf; put the number of bytes of it at *rowSizeP.
-----------------------------------------------------------------------------*/
    int col;
    unsigned int bufferCursor;

    bufferCursor = 0;  /* initial value */
    
    for (col = 0; col < pamP->width; ++col) {
        unsigned int plane;
        for (plane=0; plane < pamP->depth; ++plane)
            outbuf[bufferCursor++] = (unsigned char)tuplerow[col][plane];
    }
    *rowSizeP = pamP->width * 1 * pamP->depth;
}



static __inline__ void
format2BpsRow(const struct pam * const pamP,
              const tuple *      const tuplerow,
              unsigned char *    const outbuf,
              unsigned int *     const rowSizeP) {
/*----------------------------------------------------------------------------
  Analogous to format1BpsRow().
-----------------------------------------------------------------------------*/
    unsigned char (* const ob)[2] = (unsigned char (*)[2]) outbuf;

    int col;
    unsigned int bufferCursor;

    bufferCursor = 0;  /* initial value */
    
    for (col=0; col < pamP->width; ++col) {
        unsigned int plane;
        for (plane = 0; plane < pamP->depth; ++plane)
            sampleToBytes2(ob[bufferCursor++], tuplerow[col][plane]);
    }

    *rowSizeP = pamP->width * 2 * pamP->depth;
}



static __inline__ void
format3BpsRow(const struct pam * const pamP,
              const tuple *      const tuplerow,
              unsigned char *    const outbuf,
              unsigned int *     const rowSizeP) {
/*----------------------------------------------------------------------------
  Analogous to format1BpsRow().
-----------------------------------------------------------------------------*/
    unsigned char (* const ob)[3] = (unsigned char (*)[3]) outbuf;

    int col;
    unsigned int bufferCursor;

    bufferCursor = 0;  /* initial value */
    
    for (col=0; col < pamP->width; ++col) {
        unsigned int plane;
        for (plane = 0; plane < pamP->depth; ++plane)
            sampleToBytes3(ob[bufferCursor++], tuplerow[col][plane]);
    }

    *rowSizeP = pamP->width * 3 * pamP->depth;
}



static __inline__ void
format4BpsRow(const struct pam * const pamP,
              const tuple *      const tuplerow,
              unsigned char *    const outbuf,
              unsigned int *     const rowSizeP) {
/*----------------------------------------------------------------------------
  Analogous to format1BpsRow().
-----------------------------------------------------------------------------*/
    unsigned char (* const ob)[4] = (unsigned char (*)[4]) outbuf;

    int col;
    unsigned int bufferCursor;

    bufferCursor = 0;  /* initial value */
    
    for (col=0; col < pamP->width; ++col) {
        unsigned int plane;
        for (plane = 0; plane < pamP->depth; ++plane)
            sampleToBytes4(ob[bufferCursor++], tuplerow[col][plane]);
    }

    *rowSizeP = pamP->width * 4 * pamP->depth;
}



void
pnm_formatpamrow(const struct pam * const pamP,
                 const tuple *      const tuplerow,
                 unsigned char *    const outbuf,
                 unsigned int *     const rowSizeP) {
/*----------------------------------------------------------------------------
   Create the image of a row in the raster of a raw (not plain) format
   Netpbm image, as described by *pamP and tuplerow[].  Put the image
   at *outbuf.

   'outbuf' must be the address of space allocated with pnm_allocrowimage().
   
   We return as *rowSizeP the number of bytes in the row image.
-----------------------------------------------------------------------------*/
    if (PAM_FORMAT_TYPE(pamP->format) == PBM_TYPE)
        formatPbmRow(pamP, tuplerow, outbuf, rowSizeP);
    else {
        switch(pamP->bytes_per_sample){
        case 1: format1BpsRow(pamP, tuplerow, outbuf, rowSizeP); break;
        case 2: format2BpsRow(pamP, tuplerow, outbuf, rowSizeP); break;
        case 3: format3BpsRow(pamP, tuplerow, outbuf, rowSizeP); break;
        case 4: format4BpsRow(pamP, tuplerow, outbuf, rowSizeP); break;
        default:
            pm_error("invalid bytes per sample passed to "
                     "pnm_formatpamrow(): %u",  pamP->bytes_per_sample);
        }
    }
}



static void
writePamRawRow(const struct pam * const pamP,
               const tuple *      const tuplerow,
               unsigned int       const count) {
/*----------------------------------------------------------------------------
   Write mutiple ('count') copies of the same row ('tuplerow') to the file,
   in raw (not plain) format.
-----------------------------------------------------------------------------*/
    jmp_buf jmpbuf;
    jmp_buf * origJmpbufP;
    unsigned int rowImageSize;
    unsigned char * outbuf;  /* malloc'ed */

    outbuf = pnm_allocrowimage(pamP);

    pnm_formatpamrow(pamP, tuplerow, outbuf, &rowImageSize);

    if (setjmp(jmpbuf) != 0) {
        pnm_freerowimage(outbuf);
        pm_setjmpbuf(origJmpbufP);
        pm_longjmp();
    } else {
        unsigned int i;

        pm_setjmpbufsave(&jmpbuf, &origJmpbufP);
        
        for (i = 0; i < count; ++i) {
            size_t bytesWritten;
            
            bytesWritten = fwrite(outbuf, 1, rowImageSize, pamP->file);
            if (bytesWritten != rowImageSize)
                pm_error("fwrite() failed to write an image row to the file.  "
                         "errno=%d (%s)", errno, strerror(errno));
        }
        pm_setjmpbuf(origJmpbufP);
    }
    pnm_freerowimage(outbuf);
}



void 
pnm_writepamrow(const struct pam * const pamP, 
                const tuple *      const tuplerow) {

    /* For speed, we don't check any of the inputs for consistency 
       here (unless it's necessary to avoid crashing).  Any consistency
       checking should have been done by a prior call to 
       pnm_writepaminit().
    */
    
    if (pamP->format == PAM_FORMAT || !(pm_plain_output || pamP->plainformat))
        writePamRawRow(pamP, tuplerow, 1);
    else {
        switch (PAM_FORMAT_TYPE(pamP->format)) {
        case PBM_TYPE:
            writePamPlainPbmRow(pamP, tuplerow);
            break;
        case PGM_TYPE:
        case PPM_TYPE:
            writePamPlainRow(pamP, tuplerow);
            break;
        case PAM_TYPE:
            assert(false);
            break;
        default:
            pm_error("Invalid 'format' value %u in pam structure", 
                     pamP->format);
        }
    }
}



void
pnm_writepamrowmult(const struct pam * const pamP, 
                    const tuple *      const tuplerow,
                    unsigned int       const count) {
/*----------------------------------------------------------------------------
   Write mutiple ('count') copies of the same row ('tuplerow') to the file.
-----------------------------------------------------------------------------*/
   if (pm_plain_output || pamP->plainformat) {
       unsigned int i;
       for (i = 0; i < count; ++i)
           pnm_writepamrow(pamP, tuplerow);
   } else
       /* Simple common case - use fastpath */
       writePamRawRow(pamP, tuplerow, count);
}



void 
pnm_writepam(struct pam * const pamP, 
             tuple **     const tuplearray) {

    int row;

    pnm_writepaminit(pamP);
    
    for (row = 0; row < pamP->height; ++row) 
        pnm_writepamrow(pamP, tuplearray[row]);
}