File: ljiip.c

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// $Id: ljiip.c 11282 2010-10-28 16:26:09Z airwin $
//
//      PLplot Laser Jet IIp device driver.
//      Based on old LJII driver, modifications by Wesley Ebisuzaki
//
//      DPI = 300, 150, 100	(dots per inch)
//              default: Unix 300 dpi, MS-DOS 150 dpi
//              higher = better output, more memory, longer to print
//      GCMODE = 0, 2 (graphics compression mode)
//              default: 2,  old laser jets should use 0
//              compression can speed up the printing up to 3x
//
//
#include "plDevs.h"

#ifdef PLD_ljiip

#include "plplotP.h"
#include "drivers.h"
#include <math.h>
#include <string.h>

#ifdef __GO32__                 // dos386/djgpp
#ifdef MSDOS
#undef MSDOS
#endif
#endif

// Device info
PLDLLIMPEXP_DRIVER const char* plD_DEVICE_INFO_ljiip =
    "ljiip:LaserJet IIp/deskjet compressed graphics:0:ljiip:32:ljiip\n";

// Function prototypes

void plD_dispatch_init_ljiip( PLDispatchTable *pdt );

void plD_init_ljiip( PLStream * );
void plD_line_ljiip( PLStream *, short, short, short, short );
void plD_polyline_ljiip( PLStream *, short *, short *, PLINT );
void plD_eop_ljiip( PLStream * );
void plD_bop_ljiip( PLStream * );
void plD_tidy_ljiip( PLStream * );
void plD_state_ljiip( PLStream *, PLINT );
void plD_esc_ljiip( PLStream *, PLINT, void * );

static void setpoint( PLINT, PLINT );

// top level declarations

// GCMODE = graphics compression mode, 0=old laser jets, 2=ljiip or later
#define GCMODE    2

// DPI = dots per inch, more dots=better plot, more memory, more time
// possible DPI = 75, 100, 150, 300
// if DPI=300 then your machine must have a free 1Mb block of memory

#define DPI    300

#ifdef MSDOS
#undef  DPI
#define DPI        150
#endif

#define OF         pls->OutFile
#define CURX       ( (long) ( DPI / 5 ) )
#define CURY       ( (long) ( DPI / 7 ) )
#define XDOTS      ( 376 * ( DPI / 50 ) ) // # dots across
#define YDOTS      ( 500 * ( DPI / 50 ) ) // # dots down
#define JETX       ( XDOTS - 1 )
#define JETY       ( YDOTS - 1 )


#define BPROW      ( XDOTS / 8L )                  // # bytes across
#define MAX_WID    8                               // max pen width in pixels
#define BPROW1     ( BPROW + ( MAX_WID + 7 ) / 8 ) // pen has width, make bitmap bigger
#define NBYTES     BPROW1 * ( YDOTS + MAX_WID )    // total number of bytes

// Graphics control characters.

#define ESC    0x1b
#define FF     0x0c

static char mask[8] =
{ '\200', '\100', '\040', '\020', '\010', '\004', '\002', '\001' };

#ifndef MSDOS
#define _HUGE
#else
#define _HUGE    _huge
#endif

static unsigned char _HUGE *bitmap;     // memory area NBYTES in size

void plD_dispatch_init_ljiip( PLDispatchTable *pdt )
{
#ifndef ENABLE_DYNDRIVERS
    pdt->pl_MenuStr = "LaserJet IIp/deskjet compressed graphics";
    pdt->pl_DevName = "ljiip";
#endif
    pdt->pl_type     = plDevType_FileOriented;
    pdt->pl_seq      = 32;
    pdt->pl_init     = (plD_init_fp) plD_init_ljiip;
    pdt->pl_line     = (plD_line_fp) plD_line_ljiip;
    pdt->pl_polyline = (plD_polyline_fp) plD_polyline_ljiip;
    pdt->pl_eop      = (plD_eop_fp) plD_eop_ljiip;
    pdt->pl_bop      = (plD_bop_fp) plD_bop_ljiip;
    pdt->pl_tidy     = (plD_tidy_fp) plD_tidy_ljiip;
    pdt->pl_state    = (plD_state_fp) plD_state_ljiip;
    pdt->pl_esc      = (plD_esc_fp) plD_esc_ljiip;
}

//--------------------------------------------------------------------------
// plD_init_ljiip()
//
// Initialize device.
//--------------------------------------------------------------------------

void
plD_init_ljiip( PLStream *pls )
{
    PLDev *dev;

    if ( pls->width == 0 )      // Is 0 if uninitialized
        pls->width = DPI / 100;

// Initialize family file info

    plFamInit( pls );

// Prompt for a file name if not already set

    plOpenFile( pls );

// Allocate and initialize device-specific data

    dev = plAllocDev( pls );

    dev->xold = PL_UNDEFINED;
    dev->yold = PL_UNDEFINED;
    dev->xmin = 0;
    dev->ymin = 0;

// number of pixels / mm

    plP_setpxl( (PLFLT) ( DPI / 25.4 ), (PLFLT) ( DPI / 25.4 ) );

// Rotate by 90 degrees since portrait mode addressing is used

    dev->xmin = 0;
    dev->ymin = 0;
    dev->xmax = JETY;
    dev->ymax = JETX;
    dev->xlen = dev->xmax - dev->xmin;
    dev->ylen = dev->ymax - dev->ymin;

    plP_setphy( dev->xmin, dev->xmax, dev->ymin, dev->ymax );

// If portrait mode is specified, then set up an additional rotation
// transformation with aspect ratio allowed to adjust via freeaspect.
// Default orientation is landscape (ORIENTATION == 3 or 90 deg rotation
// counter-clockwise from portrait).  (Legacy PLplot used seascape
// which was equivalent to ORIENTATION == 1 or 90 deg clockwise rotation
// from portrait.)

    if ( pls->portrait )
    {
        plsdiori( (PLFLT) ( 4 - ORIENTATION ) );
        pls->freeaspect = 1;
    }

// Allocate storage for bit map matrix

#ifdef MSDOS
    if ( ( bitmap = (unsigned char _HUGE *)
                    halloc( (long) NBYTES, sizeof ( char ) ) ) == NULL )
        plexit( "Out of memory in call to calloc" );
#else
    if ( ( bitmap = (unsigned char *) calloc( NBYTES, sizeof ( char ) ) ) == NULL )
        plexit( "Out of memory in call to calloc" );
#endif

// Reset Printer

    fprintf( OF, "%cE", ESC );
}

//--------------------------------------------------------------------------
// plD_line_ljiip()
//
// Draw a line in the current color from (x1,y1) to (x2,y2).
//--------------------------------------------------------------------------

void
plD_line_ljiip( PLStream *pls, short x1a, short y1a, short x2a, short y2a )
{
    PLDev *dev = (PLDev *) pls->dev;
    int   x1   = x1a, y1 = y1a, x2 = x2a, y2 = y2a;
    int   abs_dx, abs_dy, dx, dy, incx, incy;
    int   i, j, width, residual;
    PLFLT tmp;

    width = MIN( pls->width, MAX_WID );

// Take mirror image, since PCL expects (0,0) to be at top left

    y1 = dev->ymax - ( y1 - dev->ymin );
    y2 = dev->ymax - ( y2 - dev->ymin );

// Rotate by 90 degrees

    plRotPhy( ORIENTATION, dev->xmin, dev->ymin, dev->xmax, dev->ymax, &x1, &y1 );
    plRotPhy( ORIENTATION, dev->xmin, dev->ymin, dev->xmax, dev->ymax, &x2, &y2 );

    dx = x2 - x1;
    dy = y2 - y1;

    if ( dx < 0 )
    {
        abs_dx = -dx;
        incx   = -1;
    }
    else
    {
        abs_dx = dx;
        incx   = 1;
    }
    if ( dy < 0 )
    {
        abs_dy = -dy;
        incy   = -1;
    }
    else
    {
        abs_dy = dy;
        incy   = 1;
    }

// make pixel width narrower for diag lines

    if ( abs_dy <= abs_dx )
    {
        if ( abs_dx == 0 )
            tmp = 1.0;
        else
            tmp = 1.0 - (PLFLT) abs_dy / abs_dx;
    }
    else
    {
        tmp = 1.0 - (PLFLT) abs_dx / abs_dy;
    }

    width = floor( 0.5 + width * ( tmp * tmp * tmp * ( 1.0 - 0.707107 ) + 0.707107 ) );

    if ( width < 1 )
        width = 1;
    if ( width > 1 )
    {
        for ( i = 0; i < width; i++ )
        {
            for ( j = 0; j < width; j++ )
            {
                setpoint( (PLINT) ( x1 + i ), (PLINT) ( y1 + j ) );
                setpoint( (PLINT) ( x2 + i ), (PLINT) ( y2 + j ) );
            }
        }
    }
    if ( abs_dx >= abs_dy )
    {
        residual = -( abs_dx >> 1 );
        if ( width == 1 )
        {
            for ( i = 0; i <= abs_dx; i++, x1 += incx )
            {
                setpoint( (PLINT) ( x1 ), (PLINT) ( y1 ) );
                if ( ( residual += abs_dy ) >= 0 )
                {
                    residual -= abs_dx;
                    y1       += incy;
                }
            }
        }
        else
        {
            for ( i = 0; i <= abs_dx; i++, x1 += incx )
            {
                for ( j = 0; j < width; j++ )
                {
                    setpoint( (PLINT) ( x1 ), (PLINT) ( y1 + j ) );
                    setpoint( (PLINT) ( x1 + width - 1 ), (PLINT) ( y1 + j ) );
                }
                if ( ( residual += abs_dy ) >= 0 )
                {
                    residual -= abs_dx;
                    y1       += incy;
                }
            }
        }
    }
    else
    {
        residual = -( abs_dy >> 1 );
        if ( width == 1 )
        {
            for ( i = 0; i <= abs_dy; i++, y1 += incy )
            {
                setpoint( (PLINT) ( x1 ), (PLINT) ( y1 ) );
                if ( ( residual += abs_dx ) >= 0 )
                {
                    residual -= abs_dy;
                    x1       += incx;
                }
            }
        }
        else
        {
            for ( i = 0; i <= abs_dy; i++, y1 += incy )
            {
                for ( j = 0; j < width; j++ )
                {
                    setpoint( (PLINT) ( x1 + j ), (PLINT) ( y1 ) );
                    setpoint( (PLINT) ( x1 + j ), (PLINT) ( y1 + width - 1 ) );
                }
                if ( ( residual += abs_dx ) >= 0 )
                {
                    residual -= abs_dy;
                    x1       += incx;
                }
            }
        }
    }
}

//--------------------------------------------------------------------------
// plD_polyline_ljiip()
//
// Draw a polyline in the current color.
//--------------------------------------------------------------------------

void
plD_polyline_ljiip( PLStream *pls, short *xa, short *ya, PLINT npts )
{
    PLINT i;

    for ( i = 0; i < npts - 1; i++ )
        plD_line_ljiip( pls, xa[i], ya[i], xa[i + 1], ya[i + 1] );
}

//--------------------------------------------------------------------------
// plD_eop_ljiip()
//
// End of page.(prints it here).
//--------------------------------------------------------------------------

void
plD_eop_ljiip( PLStream *pls )
{
    PLINT j;
    unsigned char _HUGE *p;
#if GCMODE > 0
    int                 i, iy, last, n, jmax;
    unsigned char _HUGE t_buf[BPROW * 2];
    unsigned char       c;
#endif

// PCL III setup: ref. Deskjet Plus Printer Owner's Manual

    fprintf( OF, "\033*rB" );              // end raster graphics
    fprintf( OF, "\033*t%3dR", DPI );      // set DPI

#if GCMODE != 0
    fprintf( OF, "\033*r%dS", XDOTS );     // raster width
    fprintf( OF, "\033*b%1dM", GCMODE );   // graphics mode
#endif

// First move cursor to origin

    fprintf( OF, "\033*p%ldX", CURX );
    fprintf( OF, "\033*p%ldY", CURY );
    fprintf( OF, "\033*r0A" );             // start graphics

// Write out raster data

#if GCMODE == 0
    for ( j = 0, p = bitmap; j < YDOTS; j++, p += BPROW1 )
    {
        fprintf( OF, "\033*b>%dW", BPROW );
        fwrite( p, BPROW, sizeof ( char ), OF );
    }
#endif
#if GCMODE == 2
    for ( iy = 0, p = bitmap; iy < YDOTS; iy++, p += BPROW1 )
    {
        // find last non-zero byte

        last = BPROW - 1;
        while ( last > 0 && p[last] == 0 )
            last--;
        last++;

        // translate to mode 2, save results in t_buf[]

        i = n = 0;
        while ( i < last )
        {
            c    = p[i];
            jmax = i + 127;
            jmax = last < jmax ? last : jmax;
            if ( i < last - 2 && ( c == p[i + 1] ) && ( c == p[i + 2] ) )
            {
                j = i + 3;
                while ( j < jmax && c == p[j] )
                    j++;
                t_buf[n++] = ( i - j + 1 ) & 0xff;
                t_buf[n++] = c;
                i          = j;
            }
            else
            {
                for ( j = i + 1; j < jmax; j++ )
                {
                    if ( j < last - 2 && ( p[j] == p[j + 1] ) &&
                         ( p[j + 1] == p[j + 2] ) )
                        break;
                }
                t_buf[n++] = j - i - 1;
                while ( i < j )
                {
                    t_buf[n++] = p[i++];
                }
            }
        }
        fprintf( OF, "\033*b%dW", (int) n );
        fwrite( t_buf, (int) n, sizeof ( char ), OF );
    }
#endif

    pls->bytecnt += NBYTES;

// End raster graphics and send Form Feed

    fprintf( OF, "\033*rB" );
    fprintf( OF, "%c", FF );

// Finally, clear out bitmap storage area

    memset( (void *) bitmap, '\0', NBYTES );
}

//--------------------------------------------------------------------------
// plD_bop_ljiip()
//
// Set up for the next page.
// Advance to next family file if necessary (file output).
//--------------------------------------------------------------------------

void
plD_bop_ljiip( PLStream *pls )
{
    if ( !pls->termin )
        plGetFam( pls );

    pls->page++;
}

//--------------------------------------------------------------------------
// plD_tidy_ljiip()
//
// Close graphics file or otherwise clean up.
//--------------------------------------------------------------------------

void
plD_tidy_ljiip( PLStream *pls )
{
// Reset Printer

    fprintf( OF, "%cE", ESC );
    plCloseFile( pls );
    free( (char *) bitmap );
}

//--------------------------------------------------------------------------
// plD_state_ljiip()
//
// Handle change in PLStream state (color, pen width, fill attribute, etc).
//--------------------------------------------------------------------------

void
plD_state_ljiip( PLStream *pls, PLINT op )
{
}

//--------------------------------------------------------------------------
// plD_esc_ljiip()
//
// Escape function.
//--------------------------------------------------------------------------

void
plD_esc_ljiip( PLStream *pls, PLINT op, void *ptr )
{
}

//--------------------------------------------------------------------------
// setpoint()
//
// Sets a bit in the bitmap.
//--------------------------------------------------------------------------

static void
setpoint( PLINT x, PLINT y )
{
    PLINT index;
    index = x / 8 + y * BPROW1;
    *( bitmap + index ) = *( bitmap + index ) | mask[x % 8];
}

#else
int
pldummy_ljiip()
{
    return 0;
}

#endif                          // PLD_ljii