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/* pbmtogo.c - read a PBM image and produce a GraphOn terminal raster file
**
** Rev 1.1 was based on pbmtolj.c
**
** Bo Thide', Swedish Institute of Space Physics, bt@irfu.se
**
**
** $Log: pbmtogo.c,v $
* Revision 1.5 89/11/25 00:24:12 00:24:12 root (Bo Thide)
* Bug found: The byte after 64 repeated bytes sometimes lost. Fixed.
*
* Revision 1.4 89/11/24 14:56:04 14:56:04 root (Bo Thide)
* Fixed the command line parsing since pbmtogo now always uses 2D
* compression. Added a few comments to the source.
*
* Revision 1.3 89/11/24 13:43:43 13:43:43 root (Bo Thide)
* Added capability for > 63 repeated bytes and > 62 repeated lines in
* the 2D compression scheme.
*
* Revision 1.2 89/11/15 01:04:47 01:04:47 root (Bo Thide)
* First version that works reasonably well with GraphOn 2D runlength
* encoding/compression.
*
* Revision 1.1 89/11/02 23:25:25 23:25:25 root (Bo Thide)
* Initial revision
*
**
** Copyright (C) 1988, 1989 by Jef Poskanzer, Michael Haberler, and Bo Thide'.
**
** Permission to use, copy, modify, and distribute this software and its
** documentation for any purpose and without fee is hereby granted, provided
** that the above copyright notice appear in all copies and that both that
** copyright notice and this permission notice appear in supporting
** documentation. This software is provided "as is" without express or
** implied warranty.
*/
#include <assert.h>
#include <stdio.h>
#include <string.h>
#include "pm_c_util.h"
#include "pbm.h"
#define GRAPHON_WIDTH 1056 /* GraphOn has 1056 bit wide raster lines */
#define GRAPHON_WIDTH_BYTES (GRAPHON_WIDTH / 8)
#define REPEAT_CURRENT_LINE_MASK 0x00
#define SKIP_AND_PLOT_MASK 0x40
#define REPEAT_PLOT_MASK 0x80
#define PLOT_ARBITRARY_DATA_MASK 0xc0
#define MAX_REPEAT 64
static unsigned char * scanlineptr;
/* Pointer to current scan line byte */
static int item, bitsperitem, bitshift;
static void
putinit(void) {
/* Enter graphics window */
printf("\0331");
/* Erase graphics window */
printf("\033\014");
/* Set graphics window in raster mode */
printf("\033r");
/* Select standard Tek coding **/
printf("\033[=11l");
bitsperitem = 1;
item = 0;
bitshift = 7;
}
static void
putitem(void) {
*scanlineptr++ = item;
bitsperitem = 0;
item = 0;
}
static void
putbit(bit const b) {
if (b == PBM_BLACK)
item += 1 << bitshift;
bitshift--;
if (bitsperitem == 8)
{
putitem();
bitshift = 7;
}
bitsperitem++;
}
static void
putrest(void) {
if (bitsperitem > 1)
putitem();
/* end raster downloading */
printf("\033\134");
/* Exit raster mode */
printf("\033t");
/* Exit graphics window
printf("\0332"); */
}
int
main(int argc,
const char ** argv) {
FILE * ifP;
bit * bitrow;
bit * bP;
int rows, cols, format, rucols, padright, row, col;
int nbyte, bytesperrow, ecount, ucount, nout, i, linerepeat;
int olditem;
unsigned char oldscanline[GRAPHON_WIDTH_BYTES];
unsigned char newscanline[GRAPHON_WIDTH_BYTES];
unsigned char diff[GRAPHON_WIDTH_BYTES];
unsigned char buffer[GRAPHON_WIDTH_BYTES];
unsigned char outbuffer[2*(GRAPHON_WIDTH_BYTES+1)]; /* Worst case. */
pm_proginit(&argc, argv);
if (argc-1 == 0)
ifP = stdin;
else if (argc-1 == 1)
ifP = pm_openr(argv[1]);
else
pm_error("There is at most one argument: input file name. "
"You specified %u", argc-1);
pbm_readpbminit(ifP, &cols, &rows, &format);
if (cols > GRAPHON_WIDTH)
pm_error("Image is wider (%u pixels) than a Graphon terminal "
"(%u pixels)", cols, GRAPHON_WIDTH);
bitrow = pbm_allocrow(cols);
/* Round cols up to the nearest multiple of 8. */
rucols = ( cols + 7 ) / 8;
bytesperrow = rucols; /* GraphOn uses bytes */
rucols = rucols * 8;
padright = rucols - cols;
for (i = 0; i < GRAPHON_WIDTH_BYTES; ++i )
buffer[i] = oldscanline[i] = 0;
putinit();
/* Start donwloading screen raster */
printf("\033P0;1;0;4;1;%d;%d;1!R1/", rows, rucols);
linerepeat = 63; /* 63 means "Start new picture" */
nout = 0; /* To prevent compiler warning */
for (row = 0; row < rows; row++) {
/* Store scan line data in the new scan line vector */
scanlineptr = newscanline;
pbm_readpbmrow(ifP, bitrow, cols, format);
/* Transfer raster graphics */
for (col = 0, bP = bitrow; col < cols; col++, bP++)
putbit(*bP);
for (col = 0; col < padright; col++)
putbit(0);
assert(bytesperrow <= GRAPHON_WIDTH_BYTES);
/* XOR data from the new scan line with data from old scan line */
for (i = 0; i < bytesperrow; i++)
diff[i] = oldscanline[i]^newscanline[i];
/*
** If the difference map is different from current internal buffer,
** encode the difference and put it in the output buffer.
** Else, increase the counter for the current buffer by one.
*/
if ((memcmp(buffer, diff, bytesperrow) != 0) || (row == 0)) {
/*
**Since the data in the buffer has changed, send the
**scan line repeat count to cause the old line(s) to
**be plotted on the screen, copy the new data into
**the internal buffer, and reset the counters.
*/
putchar(linerepeat);
for (i = 0; i < bytesperrow; ++i)
buffer[i] = diff[i];
nbyte = 0; /* Internal buffer byte counter */
nout = 0; /* Output buffer byte counter */
/* Run length encode the new internal buffr (= difference map) */
while (TRUE) {
ucount = 0; /* Unique items counter */
do /* Find unique patterns */
{
olditem = buffer[nbyte++];
ucount++;
} while (nbyte < bytesperrow && (olditem != buffer[nbyte])
&& (ucount < MIN(bytesperrow, MAX_REPEAT)));
if ((ucount != MAX_REPEAT) && (nbyte != bytesperrow)) {
/* Back up to the last truly unique pattern */
ucount--;
nbyte--;
}
if (ucount > 0) {
/* Output the unique patterns */
outbuffer[nout++] =
(ucount-1) | PLOT_ARBITRARY_DATA_MASK;
for (i = nbyte-ucount; i < nbyte; i++)
outbuffer[nout++] = buffer[i];
}
/*
** If we already are at the end of the current scan
** line, skip the rest of the encoding and start
** with a new scan line.
*/
if (nbyte >= bytesperrow)
goto nextrow;
ecount = 0; /* Equal items counter */
do /* Find equal patterns */
{
olditem = buffer[nbyte++];
ecount++;
} while (nbyte < bytesperrow && (olditem == buffer[nbyte])
&& (ecount < MIN(bytesperrow, MAX_REPEAT)));
if (ecount > 1) {
/* More than 1 equal pattern */
if (olditem == '\0') {
/* White patterns */
if (nbyte >= bytesperrow-1) {
/* No more valid data ahead */
outbuffer[nout++] =
(ecount-2) | SKIP_AND_PLOT_MASK;
outbuffer[nout++] = buffer[nbyte-1];
}
else {
/* More valid data ahead */
outbuffer[nout++] =
(ecount-1) | SKIP_AND_PLOT_MASK;
outbuffer[nout++] = buffer[nbyte++];
}
}
else {
/* Non-white patterns */
outbuffer[nout++] = (ecount-1) | REPEAT_PLOT_MASK;
outbuffer[nout++] = olditem;
} /* if (olditem == '\0') */
} /* if (ecount > 1) */
else
nbyte--; /* No equal items found */
if (nbyte >= bytesperrow)
goto nextrow;
} /* while (TRUE) */
nextrow: printf("%d/", nout+1); /* Total bytes to xfer = nout+1 */
fflush(stdout);
/* Output the plot data */
fwrite(outbuffer, 1, nout, stdout);
/* Reset the counters */
linerepeat = 0;
} else {
linerepeat++;
if (linerepeat == 62) /* 62 lines max, then restart */
{
putchar(linerepeat);
printf("%d/", nout+1);
fflush(stdout);
fwrite(outbuffer, 1, nout, stdout);
linerepeat = 0;
}
}
/* Now we are ready for a new scan line */
for (i = 0; i < bytesperrow; ++i)
oldscanline[i] = newscanline[i];
}
putchar(linerepeat); /* For the last line(s) to be plotted */
pm_close(ifP);
putrest();
return 0;
}
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