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/* cutswath.c
* functions to cut a swath of a PBM file for PPA printers
* Copyright (c) 1998 Tim Norman. See LICENSE for details.
* 3-15-98
*
* Mar 15, 1998 Jim Peterson <jspeter@birch.ee.vt.edu>
*
* Structured to accommodate both the HP820/1000, and HP720 series.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "ppa.h"
#include "ppapbm.h"
#include "cutswath.h"
extern int Width;
extern int Height;
extern int Pwidth;
/* sweep_data->direction must be set already */
/* Upon successful completion, sweep_data->image_data and
sweep_data->nozzle_data have been set to pointers which this routine
malloc()'d. */
/* Upon successful completion, all members of *sweep_data have been set
except direction, vertical_pos, and next. */
/* Returns: 0 if unsuccessful
1 if successful, but with non-printing result (end of page)
2 if successful, with printing result */
int
cut_pbm_swath(pbm_stat* pbm,ppa_stat* prn,int maxlines,ppa_sweep_data* sweep_data)
{
unsigned char *data, *ppa, *place, *maxplace;
int p_width, width8, p_width8;
int i, j, left, right, got_nonblank, numlines;
int horzpos, hp2;
int shift;
ppa_nozzle_data nozzles[2];
ppa = NULL;
/* shift = 6 if DPI==300 */
/* shift = 12 if DPI==600 */
shift = ( prn->DPI == 300 ? 6:12 ) ;
/* safeguard against the user freeing these */
sweep_data->image_data = NULL;
sweep_data->nozzle_data = NULL;
/* read the data from the input file */
width8 = (pbm->width + 7) / 8;
/*
fprintf(stderr,"cutswath(): width=%u\n",pbm->width);
fprintf(stderr,"cutswath(): height=%u\n",pbm->height);
*/
if ((data=malloc(width8*maxlines)) == NULL)
{
fprintf(stderr,"cutswath(): could not malloc data storage\n");
return 0;
}
/* ignore lines that are above the upper margin */
while(pbm->current_line < prn->top_margin)
if(!pbm_readline(pbm,data))
{
fprintf(stderr,"cutswath(): A-could not read top margin\n");
free (data); data=NULL;
return 0;
}
/* eat all lines that are below the lower margin */
if(pbm->current_line >= Height - prn->bottom_margin)
{
while(pbm->current_line < pbm->height)
if(!pbm_readline(pbm,data))
{
fprintf(stderr,"cutswath(): could not clear bottom margin\n");
free (data); data=NULL;
return 0;
}
free (data); data=NULL;
return 1;
}
left = Pwidth-prn->right_margin/8;
right = prn->left_margin/8;
/* eat all beginning blank lines and then up to maxlines or lower margin */
got_nonblank=numlines=0;
while( (pbm->current_line < Height-prn->bottom_margin) &&
(numlines < maxlines) )
{
if(!pbm_readline(pbm,data+width8*numlines))
{
fprintf(stderr,"cutswath(): B-could not read next line\n");
free (data); data=NULL;
return 0;
}
if(!got_nonblank)
for(j=prn->left_margin/8; j<left; j++)
if(data[j])
{
left = j;
got_nonblank=1;
break;
}
if(got_nonblank)
{
int newleft = left, newright = right;
/* find left-most nonblank */
for (i = prn->left_margin/8; i < left; i++)
if (data[width8*numlines+i])
{
newleft = i;
break;
}
/* find right-most nonblank */
for (i = Pwidth-prn->right_margin/8-1; i >= right; i--)
if (data[width8*numlines+i])
{
newright = i;
break;
}
numlines++;
if (newright < newleft)
{
fprintf (stderr, "Ack! newleft=%d, newright=%d, left=%d, right=%d\n",
newleft, newright, left, right);
free (data); data=NULL;
return 0;
}
/* if the next line might push us over the buffer size, stop here! */
/* ignore this test for the 720 right now. Will add better */
/* size-guessing for compressed data in the near future! */
if (numlines % 2 == 1 && prn->version != HP720)
{
int l = newleft, r = newright, w;
l--;
r+=2;
l*=8;
r*=8;
w = r-l;
w = (w+7)/8;
if ((w+2*shift)*numlines > prn->bufsize)
{
numlines--;
pbm_unreadline (pbm, data+width8*numlines);
break;
}
else
{
left = newleft;
right = newright;
}
}
else
{
left = newleft;
right = newright;
}
}
}
if(!got_nonblank)
{
/* eat all lines that are below the lower margin */
if(pbm->current_line >= Height - prn->bottom_margin)
{
while(pbm->current_line < pbm->height)
if(!pbm_readline(pbm,data))
{
fprintf(stderr,"cutswath(): could not clear bottom margin\n");
free (data); data=NULL;
return 0;
}
free (data); data=NULL;
return 1;
}
free (data); data=NULL;
return 0; /* error, since didn't get to lower margin, yet blank */
}
/* make sure numlines is even and >= 2 (b/c we have to pass the printer
HALF of the number of pins used */
if (numlines == 1)
{
/* there's no way that we only have 1 line and not enough memory, so
we're safe to increase numlines here. Also, the bottom margin should
be > 0 so we have some lines to read */
if(!pbm_readline(pbm,data+width8*numlines))
{
fprintf(stderr,"cutswath(): C-could not read next line\n");
free (data); data=NULL;
return 0;
}
numlines++;
}
if (numlines % 2 == 1)
{
/* decrease instead of increasing so we don't max out the buffer */
numlines--;
pbm_unreadline (pbm, data+width8*numlines);
}
/* calculate vertical position */
sweep_data->vertical_pos = pbm->current_line;
/* change sweep params */
left--;
right+=2;
left *= 8;
right *= 8;
/* construct the sweep data */
p_width = right - left;
p_width8 = (p_width + 7) / 8;
if ((ppa = malloc ((p_width8+2*shift) * numlines)) == NULL)
{
fprintf(stderr,"cutswath(): could not malloc ppa storage\n");
free (data); data=NULL;
return 0;
}
place = ppa;
/* place 0's in the first 12 columns */
memset (place, 0, numlines/2 * shift);
place += numlines/2 * shift;
if(sweep_data->direction == right_to_left) /* right-to-left */
{
for (i = p_width8+shift-1; i >= 0; i--)
{
if (i >= shift)
{
for (j = 0; j < numlines/2; j++)
*place++ = data[j*2*width8 + i + left/8-shift];
}
else
{
memset (place, 0, numlines/2);
place += numlines/2;
}
if (i < p_width8)
{
for (j = 0; j < numlines/2; j++)
*place++ = data[(j*2+1)*width8 + i + left/8];
}
else
{
memset (place, 0, numlines/2);
place += numlines/2;
}
}
}
else /* sweep_data->direction == left_to_right */
{
for (i = 0; i < p_width8+shift; i++)
{
if (i < p_width8)
{
for (j = 0; j < numlines/2; j++)
*place++ = data[(j*2+1)*width8 + i + left/8];
}
else
{
memset (place, 0, numlines/2);
place += numlines/2;
}
if (i >= shift)
{
for (j = 0; j < numlines/2; j++)
*place++ = data[j*2*width8 + i + left/8 - shift];
}
else
{
memset (place, 0, numlines/2);
place += numlines/2;
}
}
}
/* done with data */
free (data); data=NULL;
/* place 0's in the last 12 columns */
memset (place, 0, numlines/2 * shift);
place += numlines/2 * shift;
maxplace = place;
/* create sweep data */
sweep_data->image_data = ppa;
sweep_data->data_size = maxplace-ppa;
sweep_data->in_color = False;
/*
horzpos = left*600/prn->DPI + (sweep_data->direction==left_to_right ? 0*600/prn->DPI : 0);
*/
horzpos = left * 600/prn->DPI;
hp2 = horzpos + ( p_width8 + 2*shift )*8 * 600/prn->DPI;
sweep_data->left_margin = horzpos;
sweep_data->right_margin = hp2 + prn->marg_diff;
for (i = 0; i < 2; i++)
{
nozzles[i].DPI = prn->DPI;
nozzles[i].pins_used_d2 = numlines/2;
nozzles[i].unused_pins_p1 = 301-numlines;
nozzles[i].first_pin = 1;
if (i == 0)
{
nozzles[i].left_margin = horzpos + prn->marg_diff;
nozzles[i].right_margin = hp2 + prn->marg_diff;
if(sweep_data->direction == right_to_left)
/* 0 */
nozzles[i].nozzle_delay=prn->right_to_left_delay[0];
else
/* 6 */
nozzles[i].nozzle_delay=prn->left_to_right_delay[0];
}
else
{
nozzles[i].left_margin = horzpos;
nozzles[i].right_margin = hp2;
if(sweep_data->direction == right_to_left)
/* 2 */
nozzles[i].nozzle_delay=prn->right_to_left_delay[1];
else
/* 0 */
nozzles[i].nozzle_delay=prn->left_to_right_delay[1];
}
}
sweep_data->nozzle_data_size = 2;
sweep_data->nozzle_data = malloc(sizeof(nozzles));
if(sweep_data->nozzle_data == NULL)
return 0;
memcpy(sweep_data->nozzle_data,nozzles,sizeof(nozzles));
return 2;
}
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