filter/rastertoepson.c - platform/external/libcups - Git at Google

 /*
  * EPSON ESC/P and ESC/P2 filter for CUPS.
  *
  * Copyright 2007-2018 by Apple Inc.
  * Copyright 1993-2007 by Easy Software Products.
  *
  * These coded instructions, statements, and computer programs are the
  * property of Apple Inc. and are protected by Federal copyright
  * law.  Distribution and use rights are outlined in the file "LICENSE.txt"
  * which should have been included with this file.  If this file is
  * missing or damaged, see the license at "http://www.cups.org/".
  *
  * This file is subject to the Apple OS-Developed Software exception.
  */

 /*
  * Include necessary headers...
  */

 #include <cups/cups.h>
 #include <cups/ppd.h>
 #include <cups/string-private.h>
 #include <cups/language-private.h>
 #include <cups/raster.h>
 #include <unistd.h>
 #include <fcntl.h>
 #include <signal.h>


 /*
  * Model numbers...
  */

 #define EPSON_9PIN	0
 #define EPSON_24PIN	1
 #define EPSON_COLOR	2
 #define EPSON_PHOTO	3
 #define EPSON_ICOLOR	4
 #define EPSON_IPHOTO	5


 /*
  * Macros...
  */

 #define pwrite(s,n) fwrite((s), 1, (n), stdout)


 /*
  * Globals...
  */

 unsigned char	*Planes[6],		/* Output buffers */
 		*CompBuffer,		/* Compression buffer */
 		*LineBuffers[2];	/* Line bitmap buffers */
 int		Model,			/* Model number */
 		EjectPage,		/* Eject the page when done? */
 		Shingling,		/* Shingle output? */
 		Canceled;		/* Has the current job been canceled? */
 unsigned	NumPlanes,		/* Number of color planes */
 		Feed,			/* Number of lines to skip */
 		DotBit,			/* Bit in buffers */
 		DotBytes,		/* # bytes in a dot column */
 		DotColumns,		/* # columns in 1/60 inch */
 		LineCount,		/* # of lines processed */
 		EvenOffset,		/* Offset into 'even' buffers */
 		OddOffset;		/* Offset into 'odd' buffers */


 /*
  * Prototypes...
  */

 void	Setup(void);
 void	StartPage(const ppd_file_t *ppd, const cups_page_header2_t *header);
 void	EndPage(const cups_page_header2_t *header);
 void	Shutdown(void);

 void	CancelJob(int sig);
 void	CompressData(const unsigned char *line, unsigned length, unsigned plane,
 	             unsigned type, unsigned xstep, unsigned ystep);
 void	OutputLine(const cups_page_header2_t *header);
 void	OutputRows(const cups_page_header2_t *header, int row);


 /*
  * 'Setup()' - Prepare the printer for printing.
  */

 void
 Setup(void)
 {
   const char	*device_uri;		/* The device for the printer... */


  /*
   * EPSON USB printers need an additional command issued at the
   * beginning of each job to exit from "packet" mode...
   */

   if ((device_uri = getenv("DEVICE_URI")) != NULL &&
       strncmp(device_uri, "usb:", 4) == 0 && Model >= EPSON_ICOLOR)
     pwrite("\000\000\000\033\001@EJL 1284.4\n@EJL     \n\033@", 29);
 }


 /*
  * 'StartPage()' - Start a page of graphics.
  */

 void
 StartPage(
     const ppd_file_t         *ppd,	/* I - PPD file */
     const cups_page_header2_t *header)	/* I - Page header */
 {
   int		n, t;			/* Numbers */
   unsigned	plane;			/* Looping var */


  /*
   * Show page device dictionary...
   */

   fprintf(stderr, "DEBUG: StartPage...\n");
   fprintf(stderr, "DEBUG: Duplex = %d\n", header->Duplex);
   fprintf(stderr, "DEBUG: HWResolution = [ %d %d ]\n", header->HWResolution[0], header->HWResolution[1]);
   fprintf(stderr, "DEBUG: ImagingBoundingBox = [ %d %d %d %d ]\n", header->ImagingBoundingBox[0], header->ImagingBoundingBox[1], header->ImagingBoundingBox[2], header->ImagingBoundingBox[3]);
   fprintf(stderr, "DEBUG: Margins = [ %d %d ]\n", header->Margins[0], header->Margins[1]);
   fprintf(stderr, "DEBUG: ManualFeed = %d\n", header->ManualFeed);
   fprintf(stderr, "DEBUG: MediaPosition = %d\n", header->MediaPosition);
   fprintf(stderr, "DEBUG: NumCopies = %d\n", header->NumCopies);
   fprintf(stderr, "DEBUG: Orientation = %d\n", header->Orientation);
   fprintf(stderr, "DEBUG: PageSize = [ %d %d ]\n", header->PageSize[0], header->PageSize[1]);
   fprintf(stderr, "DEBUG: cupsWidth = %d\n", header->cupsWidth);
   fprintf(stderr, "DEBUG: cupsHeight = %d\n", header->cupsHeight);
   fprintf(stderr, "DEBUG: cupsMediaType = %d\n", header->cupsMediaType);
   fprintf(stderr, "DEBUG: cupsBitsPerColor = %d\n", header->cupsBitsPerColor);
   fprintf(stderr, "DEBUG: cupsBitsPerPixel = %d\n", header->cupsBitsPerPixel);
   fprintf(stderr, "DEBUG: cupsBytesPerLine = %d\n", header->cupsBytesPerLine);
   fprintf(stderr, "DEBUG: cupsColorOrder = %d\n", header->cupsColorOrder);
   fprintf(stderr, "DEBUG: cupsColorSpace = %d\n", header->cupsColorSpace);
   fprintf(stderr, "DEBUG: cupsCompression = %d\n", header->cupsCompression);

  /*
   * Send a reset sequence.
   */

   if (ppd && ppd->nickname && strstr(ppd->nickname, "OKIDATA") != NULL)
     printf("\033{A");	/* Set EPSON emulation mode */

   printf("\033@");

  /*
   * See which type of printer we are using...
   */

   switch (Model)
   {
     case EPSON_9PIN :
     case EPSON_24PIN :
         printf("\033P\022");		/* Set 10 CPI */

 	if (header->HWResolution[0] == 360 || header->HWResolution[0] == 240)
 	{
 	  printf("\033x1");		/* LQ printing */
 	  printf("\033U1");		/* Unidirectional */
 	}
 	else
 	{
 	  printf("\033x0");		/* Draft printing */
 	  printf("\033U0");		/* Bidirectional */
 	}

 	printf("\033l%c\033Q%c", 0,	/* Side margins */
                       (int)(10.0 * header->PageSize[0] / 72.0 + 0.5));
 	printf("\033\062\033C%c",	/* Page length in 1/6th inches */
 		      (int)(header->PageSize[1] / 12.0 + 0.5));
 	printf("\033N%c", 0);		/* Bottom margin */
         printf("\033O");		/* No perforation skip */

        /*
 	* Setup various buffer limits...
 	*/

         DotBytes   = header->cupsRowCount / 8;
 	DotColumns = header->HWResolution[0] / 60;
         Shingling  = 0;

         if (Model == EPSON_9PIN)
 	  printf("\033\063\030");	/* Set line feed */
 	else
 	  switch (header->HWResolution[0])
 	  {
 	    case 60:
 	    case 120 :
 	    case 240 :
         	printf("\033\063\030");	/* Set line feed */
 		break;

 	    case 180 :
 	    case 360 :
         	Shingling = 1;

         	if (header->HWResolution[1] == 180)
         	  printf("\033\063\010");/* Set line feed */
 		else
         	  printf("\033+\010");	/* Set line feed */
         	break;
 	  }
         break;

     default :
        /*
 	* Set graphics mode...
 	*/

 	pwrite("\033(G\001\000\001", 6);	/* Graphics mode */

        /*
 	* Set the media size...
 	*/

         if (Model < EPSON_ICOLOR)
 	{
 	  pwrite("\033(U\001\000", 5);		/* Resolution/units */
 	  putchar((int)(3600 / header->HWResolution[1]));
         }
 	else
 	{
 	  pwrite("\033(U\005\000", 5);
 	  putchar((int)(1440 / header->HWResolution[1]));
 	  putchar((int)(1440 / header->HWResolution[1]));
 	  putchar((int)(1440 / header->HWResolution[0]));
 	  putchar(0xa0);	/* n/1440ths... */
 	  putchar(0x05);
 	}

 	n = (int)(header->PageSize[1] * header->HWResolution[1] / 72.0);

 	pwrite("\033(C\002\000", 5);		/* Page length */
 	putchar(n);
 	putchar(n >> 8);

         if (ppd)
 	  t = (int)((ppd->sizes[1].length - ppd->sizes[1].top) * header->HWResolution[1] / 72.0);
         else
 	  t = 0;

 	pwrite("\033(c\004\000", 5);		/* Top & bottom margins */
 	putchar(t);
 	putchar(t >> 8);
 	putchar(n);
 	putchar(n >> 8);

 	if (header->HWResolution[1] == 720)
 	{
 	  pwrite("\033(i\001\000\001", 6);	/* Microweave */
 	  pwrite("\033(e\002\000\000\001", 7);	/* Small dots */
 	}

 	pwrite("\033(V\002\000\000\000", 7);	/* Set absolute position 0 */

         DotBytes   = 0;
 	DotColumns = 0;
         Shingling  = 0;
         break;
   }

  /*
   * Set other stuff...
   */

   if (header->cupsColorSpace == CUPS_CSPACE_CMY)
     NumPlanes = 3;
   else if (header->cupsColorSpace == CUPS_CSPACE_KCMY)
     NumPlanes = 4;
   else if (header->cupsColorSpace == CUPS_CSPACE_KCMYcm)
     NumPlanes = 6;
   else
     NumPlanes = 1;

   Feed = 0;				/* No blank lines yet */

  /*
   * Allocate memory for a line/row of graphics...
   */

   if ((Planes[0] = malloc(header->cupsBytesPerLine + NumPlanes)) == NULL)
   {
     fputs("ERROR: Unable to allocate memory\n", stderr);
     exit(1);
   }

   for (plane = 1; plane < NumPlanes; plane ++)
     Planes[plane] = Planes[0] + plane * header->cupsBytesPerLine / NumPlanes;

   if (header->cupsCompression || DotBytes)
   {
     if ((CompBuffer = calloc(2, header->cupsWidth + 1)) == NULL)
     {
       fputs("ERROR: Unable to allocate memory\n", stderr);
       exit(1);
     }
   }
   else
     CompBuffer = NULL;

   if (DotBytes)
   {
     if ((LineBuffers[0] = calloc((size_t)DotBytes, (header->cupsWidth + 7) * (size_t)(Shingling + 1))) == NULL)
     {
       fputs("ERROR: Unable to allocate memory\n", stderr);
       exit(1);
     }

     LineBuffers[1] = LineBuffers[0] + DotBytes * header->cupsWidth;
     DotBit         = 128;
     LineCount      = 0;
     EvenOffset     = 0;
     OddOffset      = 0;
   }
 }


 /*
  * 'EndPage()' - Finish a page of graphics.
  */

 void
 EndPage(
     const cups_page_header2_t *header)	/* I - Page header */
 {
   if (DotBytes && header)
   {
    /*
     * Flush remaining graphics as needed...
     */

     if (!Shingling)
     {
       if (DotBit < 128 || EvenOffset)
         OutputRows(header, 0);
     }
     else if (OddOffset > EvenOffset)
     {
       OutputRows(header, 1);
       OutputRows(header, 0);
     }
     else
     {
       OutputRows(header, 0);
       OutputRows(header, 1);
     }
   }

  /*
   * Eject the current page...
   */

   putchar(12);				/* Form feed */
   fflush(stdout);

  /*
   * Free memory...
   */

   free(Planes[0]);

   if (CompBuffer)
     free(CompBuffer);

   if (DotBytes)
     free(LineBuffers[0]);
 }


 /*
  * 'Shutdown()' - Shutdown the printer.
  */

 void
 Shutdown(void)
 {
  /*
   * Send a reset sequence.
   */

   printf("\033@");
 }


 /*
  * 'CancelJob()' - Cancel the current job...
  */

 void
 CancelJob(int sig)			/* I - Signal */
 {
   (void)sig;

   Canceled = 1;
 }


 /*
  * 'CompressData()' - Compress a line of graphics.
  */

 void
 CompressData(const unsigned char *line,	/* I - Data to compress */
              unsigned            length,/* I - Number of bytes */
 	     unsigned            plane,	/* I - Color plane */
 	     unsigned            type,	/* I - Type of compression */
 	     unsigned            xstep,	/* I - X resolution */
 	     unsigned            ystep)	/* I - Y resolution */
 {
   const unsigned char	*line_ptr,	/* Current byte pointer */
         		*line_end,	/* End-of-line byte pointer */
         		*start;		/* Start of compression sequence */
   unsigned char      	*comp_ptr,	/* Pointer into compression buffer */
 			temp;		/* Current byte */
   int   	        count;		/* Count of bytes for output */
   static int		ctable[6] = { 0, 2, 1, 4, 18, 17 };
 					/* KCMYcm color values */


  /*
   * Setup pointers...
   */

   line_ptr = line;
   line_end = line + length;

  /*
   * Do depletion for 720 DPI printing...
   */

   if (ystep == 5)
   {
     for (comp_ptr = (unsigned char *)line; comp_ptr < line_end;)
     {
      /*
       * Grab the current byte...
       */

       temp = *comp_ptr;

      /*
       * Check adjacent bits...
       */

       if ((temp & 0xc0) == 0xc0)
         temp &= 0xbf;
       if ((temp & 0x60) == 0x60)
         temp &= 0xdf;
       if ((temp & 0x30) == 0x30)
         temp &= 0xef;
       if ((temp & 0x18) == 0x18)
         temp &= 0xf7;
       if ((temp & 0x0c) == 0x0c)
         temp &= 0xfb;
       if ((temp & 0x06) == 0x06)
         temp &= 0xfd;
       if ((temp & 0x03) == 0x03)
         temp &= 0xfe;

       *comp_ptr++ = temp;

      /*
       * Check the last bit in the current byte and the first bit in the
       * next byte...
       */

       if ((temp & 0x01) && comp_ptr < line_end && *comp_ptr & 0x80)
         *comp_ptr &= 0x7f;
     }
   }

   switch (type)
   {
     case 0 :
        /*
 	* Do no compression...
 	*/
 	break;

     case 1 :
        /*
         * Do TIFF pack-bits encoding...
         */

 	comp_ptr = CompBuffer;

 	while (line_ptr < line_end)
 	{
 	  if ((line_ptr + 1) >= line_end)
 	  {
 	   /*
 	    * Single byte on the end...
 	    */

 	    *comp_ptr++ = 0x00;
 	    *comp_ptr++ = *line_ptr++;
 	  }
 	  else if (line_ptr[0] == line_ptr[1])
 	  {
 	   /*
 	    * Repeated sequence...
 	    */

 	    line_ptr ++;
 	    count = 2;

 	    while (line_ptr < (line_end - 1) &&
         	   line_ptr[0] == line_ptr[1] &&
         	   count < 127)
 	    {
               line_ptr ++;
               count ++;
 	    }

 	    *comp_ptr++ = (unsigned char)(257 - count);
 	    *comp_ptr++ = *line_ptr++;
 	  }
 	  else
 	  {
 	   /*
 	    * Non-repeated sequence...
 	    */

 	    start    = line_ptr;
 	    line_ptr ++;
 	    count    = 1;

 	    while (line_ptr < (line_end - 1) &&
         	   line_ptr[0] != line_ptr[1] &&
         	   count < 127)
 	    {
               line_ptr ++;
               count ++;
 	    }

 	    *comp_ptr++ = (unsigned char)(count - 1);

 	    memcpy(comp_ptr, start, (size_t)count);
 	    comp_ptr += count;
 	  }
 	}

         line_ptr = CompBuffer;
         line_end = comp_ptr;
 	break;
   }

   putchar(0x0d);			/* Move print head to left margin */

   if (Model < EPSON_ICOLOR)
   {
    /*
     * Do graphics the "old" way...
     */

     if (NumPlanes > 1)
     {
      /*
       * Set the color...
       */

       if (plane > 3)
 	printf("\033(r%c%c%c%c", 2, 0, 1, ctable[plane] & 15);
 					  /* Set extended color */
       else if (NumPlanes == 3)
 	printf("\033r%c", ctable[plane + 1]);
 					  /* Set color */
       else
 	printf("\033r%c", ctable[plane]);	/* Set color */
     }

    /*
     * Send a raster plane...
     */

     length *= 8;
     printf("\033.");			/* Raster graphics */
     putchar((int)type);
     putchar((int)ystep);
     putchar((int)xstep);
     putchar(1);
     putchar((int)length);
     putchar((int)(length >> 8));
   }
   else
   {
    /*
     * Do graphics the "new" way...
     */

     printf("\033i");
     putchar(ctable[plane]);
     putchar((int)type);
     putchar(1);
     putchar((int)length);
     putchar((int)(length >> 8));
     putchar(1);
     putchar(0);
   }

   pwrite(line_ptr, (size_t)(line_end - line_ptr));
   fflush(stdout);
 }


 /*
  * 'OutputLine()' - Output a line of graphics.
  */

 void
 OutputLine(
     const cups_page_header2_t *header)	/* I - Page header */
 {
   if (header->cupsRowCount)
   {
     unsigned		width;
     unsigned char	*tempptr,
 			*evenptr,
 			*oddptr;
     unsigned int	x;
     unsigned char	bit;
     const unsigned char	*pixel;
     unsigned char 	*temp;


    /*
     * Collect bitmap data in the line buffers and write after each buffer.
     */

     for (x = header->cupsWidth, bit = 128, pixel = Planes[0],
              temp = CompBuffer;
 	 x > 0;
 	 x --, temp ++)
     {
       if (*pixel & bit)
         *temp |= DotBit;

       if (bit > 1)
 	bit >>= 1;
       else
       {
 	bit = 128;
 	pixel ++;
       }
     }

     if (DotBit > 1)
       DotBit >>= 1;
     else
     {
      /*
       * Copy the holding buffer to the output buffer, shingling as necessary...
       */

       if (Shingling && LineCount != 0)
       {
        /*
         * Shingle the output...
         */

         if (LineCount & 1)
         {
           evenptr = LineBuffers[1] + OddOffset;
           oddptr  = LineBuffers[0] + EvenOffset + DotBytes;
         }
         else
         {
           evenptr = LineBuffers[0] + EvenOffset;
           oddptr  = LineBuffers[1] + OddOffset + DotBytes;
         }

         for (width = header->cupsWidth, tempptr = CompBuffer;
              width > 1;
              width -= 2, tempptr += 2, oddptr += DotBytes * 2,
 	         evenptr += DotBytes * 2)
         {
           evenptr[0] = tempptr[0];
           oddptr[0]  = tempptr[1];
         }

         if (width == 1)
         {
           evenptr[0] = tempptr[0];
           oddptr[0]  = tempptr[1];
         }
       }
       else
       {
        /*
         * Don't shingle the output...
         */

         for (width = header->cupsWidth, tempptr = CompBuffer,
                  evenptr = LineBuffers[0] + EvenOffset;
              width > 0;
              width --, tempptr ++, evenptr += DotBytes)
           *evenptr = tempptr[0];
       }

       if (Shingling && LineCount != 0)
       {
 	EvenOffset ++;
 	OddOffset ++;

 	if (EvenOffset == DotBytes)
 	{
 	  EvenOffset = 0;
 	  OutputRows(header, 0);
 	}

 	if (OddOffset == DotBytes)
 	{
           OddOffset = 0;
 	  OutputRows(header, 1);
 	}
       }
       else
       {
 	EvenOffset ++;

 	if (EvenOffset == DotBytes)
 	{
           EvenOffset = 0;
 	  OutputRows(header, 0);
 	}
       }

       DotBit = 128;
       LineCount ++;

       memset(CompBuffer, 0, header->cupsWidth);
     }
   }
   else
   {
     unsigned	plane;		/* Current plane */
     unsigned	bytes;		/* Bytes per plane */
     unsigned	xstep, ystep;	/* X & Y resolutions */

    /*
     * Write a single line of bitmap data as needed...
     */

     xstep = 3600 / header->HWResolution[0];
     ystep = 3600 / header->HWResolution[1];
     bytes = header->cupsBytesPerLine / NumPlanes;

     for (plane = 0; plane < NumPlanes; plane ++)
     {
      /*
       * Skip blank data...
       */

       if (!Planes[plane][0] &&
           memcmp(Planes[plane], Planes[plane] + 1, (size_t)bytes - 1) == 0)
 	continue;

      /*
       * Output whitespace as needed...
       */

       if (Feed > 0)
       {
 	pwrite("\033(v\002\000", 5);	/* Relative vertical position */
 	putchar((int)Feed);
 	putchar((int)(Feed >> 8));

 	Feed = 0;
       }

       CompressData(Planes[plane], bytes, plane, header->cupsCompression, xstep, ystep);
     }

     Feed ++;
   }
 }


 /*
  * 'OutputRows()' - Output 8, 24, or 48 rows.
  */

 void
 OutputRows(
     const cups_page_header2_t *header,	/* I - Page image header */
     int                      row)	/* I - Row number (0 or 1) */
 {
   unsigned	i, n,			/* Looping vars */
 		dot_count,		/* Number of bytes to print */
                 dot_min;		/* Minimum number of bytes */
   unsigned char *dot_ptr,		/* Pointer to print data */
 		*ptr;			/* Current data */


   dot_min = DotBytes * DotColumns;

   if (LineBuffers[row][0] != 0 ||
       memcmp(LineBuffers[row], LineBuffers[row] + 1, header->cupsWidth * DotBytes - 1))
   {
    /*
     * Skip leading space...
     */

     i         = 0;
     dot_count = header->cupsWidth * DotBytes;
     dot_ptr   = LineBuffers[row];

     while (dot_count >= dot_min && dot_ptr[0] == 0 &&
            memcmp(dot_ptr, dot_ptr + 1, dot_min - 1) == 0)
     {
       i         ++;
       dot_ptr   += dot_min;
       dot_count -= dot_min;
     }

    /*
     * Skip trailing space...
     */

     while (dot_count >= dot_min && dot_ptr[dot_count - dot_min] == 0 &&
            memcmp(dot_ptr + dot_count - dot_min,
 	          dot_ptr + dot_count - dot_min + 1, dot_min - 1) == 0)
       dot_count -= dot_min;

    /*
     * Position print head for printing...
     */

     if (i == 0)
       putchar('\r');
     else
     {
       putchar(0x1b);
       putchar('$');
       putchar((int)(i & 255));
       putchar((int)(i >> 8));
     }

    /*
     * Start bitmap graphics for this line...
     */

     printf("\033*");			/* Select bit image */
     switch (header->HWResolution[0])
     {
       case 60 : /* 60x60/72 DPI gfx */
           putchar(0);
           break;
       case 120 : /* 120x60/72 DPI gfx */
           putchar(1);
           break;
       case 180 : /* 180 DPI gfx */
           putchar(39);
           break;
       case 240 : /* 240x72 DPI gfx */
           putchar(3);
           break;
       case 360 : /* 360x180/360 DPI gfx */
 	  if (header->HWResolution[1] == 180)
 	  {
             if (Shingling && LineCount != 0)
               putchar(40);		/* 360x180 fast */
             else
               putchar(41);		/* 360x180 slow */
 	  }
 	  else
           {
 	    if (Shingling && LineCount != 0)
               putchar(72);		/* 360x360 fast */
             else
               putchar(73);		/* 360x360 slow */
           }
           break;
     }

     n = dot_count / DotBytes;
     putchar((int)(n & 255));
     putchar((int)(n / 256));

    /*
     * Write the graphics data...
     */

     if (header->HWResolution[0] == 120 ||
         header->HWResolution[0] == 240)
     {
      /*
       * Need to interleave the dots to avoid hosing the print head...
       */

       for (n = dot_count / 2, ptr = dot_ptr; n > 0; n --, ptr += 2)
       {
         putchar(*ptr);
 	putchar(0);
       }

       if (dot_count & 1)
         putchar(*ptr);

      /*
       * Move the head back and print the odd bytes...
       */

       if (i == 0)
 	putchar('\r');
       else
       {
 	putchar(0x1b);
 	putchar('$');
 	putchar((int)(i & 255));
 	putchar((int)(i >> 8));
       }

       if (header->HWResolution[0] == 120)
       	printf("\033*\001");		/* Select bit image */
       else
       	printf("\033*\003");		/* Select bit image */

       n = (unsigned)dot_count / DotBytes;
       putchar((int)(n & 255));
       putchar((int)(n / 256));

       for (n = dot_count / 2, ptr = dot_ptr + 1; n > 0; n --, ptr += 2)
       {
 	putchar(0);
         putchar(*ptr);
       }

       if (dot_count & 1)
         putchar(0);
     }
     else
       pwrite(dot_ptr, dot_count);
   }

  /*
   * Feed the paper...
   */

   putchar('\n');

   if (Shingling && row == 1)
   {
     if (header->HWResolution[1] == 360)
       printf("\n\n\n\n");
     else
       printf("\n");
   }

   fflush(stdout);

  /*
   * Clear the buffer...
   */

   memset(LineBuffers[row], 0, header->cupsWidth * DotBytes);
 }


 /*
  * 'main()' - Main entry and processing of driver.
  */

 int					/* O - Exit status */
 main(int  argc,				/* I - Number of command-line arguments */
      char *argv[])			/* I - Command-line arguments */
 {
   int			fd;		/* File descriptor */
   cups_raster_t		*ras;		/* Raster stream for printing */
   cups_page_header2_t	header;		/* Page header from file */
   ppd_file_t		*ppd;		/* PPD file */
   int			page;		/* Current page */
   unsigned		y;		/* Current line */
 #if defined(HAVE_SIGACTION) && !defined(HAVE_SIGSET)
   struct sigaction action;		/* Actions for POSIX signals */
 #endif /* HAVE_SIGACTION && !HAVE_SIGSET */


  /*
   * Make sure status messages are not buffered...
   */

   setbuf(stderr, NULL);

  /*
   * Check command-line...
   */

   if (argc < 6 || argc > 7)
   {
    /*
     * We don't have the correct number of arguments; write an error message
     * and return.
     */

     _cupsLangPrintFilter(stderr, "ERROR",
                          _("%s job-id user title copies options [file]"),
                          "rastertoepson");
     return (1);
   }

  /*
   * Open the page stream...
   */

   if (argc == 7)
   {
     if ((fd = open(argv[6], O_RDONLY)) == -1)
     {
       _cupsLangPrintError("ERROR", _("Unable to open raster file"));
       sleep(1);
       return (1);
     }
   }
   else
     fd = 0;

   ras = cupsRasterOpen(fd, CUPS_RASTER_READ);

  /*
   * Register a signal handler to eject the current page if the
   * job is cancelled.
   */

   Canceled = 0;

 #ifdef HAVE_SIGSET /* Use System V signals over POSIX to avoid bugs */
   sigset(SIGTERM, CancelJob);
 #elif defined(HAVE_SIGACTION)
   memset(&action, 0, sizeof(action));

   sigemptyset(&action.sa_mask);
   action.sa_handler = CancelJob;
   sigaction(SIGTERM, &action, NULL);
 #else
   signal(SIGTERM, CancelJob);
 #endif /* HAVE_SIGSET */

  /*
   * Initialize the print device...
   */

   ppd = ppdOpenFile(getenv("PPD"));
   if (!ppd)
   {
     ppd_status_t	status;		/* PPD error */
     int			linenum;	/* Line number */

     _cupsLangPrintFilter(stderr, "ERROR",
                          _("The PPD file could not be opened."));

     status = ppdLastError(&linenum);

     fprintf(stderr, "DEBUG: %s on line %d.\n", ppdErrorString(status), linenum);

     return (1);
   }

   Model = ppd->model_number;

   Setup();

  /*
   * Process pages as needed...
   */

   page = 0;

   while (cupsRasterReadHeader2(ras, &header))
   {
    /*
     * Write a status message with the page number and number of copies.
     */

     if (Canceled)
       break;

     page ++;

     fprintf(stderr, "PAGE: %d %d\n", page, header.NumCopies);
     _cupsLangPrintFilter(stderr, "INFO", _("Starting page %d."), page);

    /*
     * Start the page...
     */

     StartPage(ppd, &header);

    /*
     * Loop for each line on the page...
     */

     for (y = 0; y < header.cupsHeight; y ++)
     {
      /*
       * Let the user know how far we have progressed...
       */

       if (Canceled)
 	break;

       if ((y & 127) == 0)
       {
         _cupsLangPrintFilter(stderr, "INFO",
 	                     _("Printing page %d, %u%% complete."),
 			     page, 100 * y / header.cupsHeight);
         fprintf(stderr, "ATTR: job-media-progress=%u\n",
 		100 * y / header.cupsHeight);
       }

      /*
       * Read a line of graphics...
       */

       if (cupsRasterReadPixels(ras, Planes[0], header.cupsBytesPerLine) < 1)
         break;

      /*
       * Write it to the printer...
       */

       OutputLine(&header);
     }

    /*
     * Eject the page...
     */

     _cupsLangPrintFilter(stderr, "INFO", _("Finished page %d."), page);

     EndPage(&header);

     if (Canceled)
       break;
   }

  /*
   * Shutdown the printer...
   */

   Shutdown();

   ppdClose(ppd);

  /*
   * Close the raster stream...
   */

   cupsRasterClose(ras);
   if (fd != 0)
     close(fd);

  /*
   * If no pages were printed, send an error message...
   */

   if (page == 0)
   {
     _cupsLangPrintFilter(stderr, "ERROR", _("No pages were found."));
     return (1);
   }
   else
     return (0);
 }
	/*
	* EPSON ESC/P and ESC/P2 filter for CUPS.
	*
	* Copyright 2007-2018 by Apple Inc.
	* Copyright 1993-2007 by Easy Software Products.
	*
	* These coded instructions, statements, and computer programs are the
	* property of Apple Inc. and are protected by Federal copyright
	* law. Distribution and use rights are outlined in the file "LICENSE.txt"
	* which should have been included with this file. If this file is
	* missing or damaged, see the license at "http://www.cups.org/".
	*
	* This file is subject to the Apple OS-Developed Software exception.
	*/

	/*
	* Include necessary headers...
	*/

	#include <cups/cups.h>
	#include <cups/ppd.h>
	#include <cups/string-private.h>
	#include <cups/language-private.h>
	#include <cups/raster.h>
	#include <unistd.h>
	#include <fcntl.h>
	#include <signal.h>


	/*
	* Model numbers...
	*/

	#define EPSON_9PIN 0
	#define EPSON_24PIN 1
	#define EPSON_COLOR 2
	#define EPSON_PHOTO 3
	#define EPSON_ICOLOR 4
	#define EPSON_IPHOTO 5


	/*
	* Macros...
	*/

	#define pwrite(s,n) fwrite((s), 1, (n), stdout)


	/*
	* Globals...
	*/

	unsigned char Planes[6], / Output buffers */
	CompBuffer, / Compression buffer */
	LineBuffers[2]; / Line bitmap buffers */
	int Model, /* Model number */
	EjectPage, /* Eject the page when done? */
	Shingling, /* Shingle output? */
	Canceled; /* Has the current job been canceled? */
	unsigned NumPlanes, /* Number of color planes */
	Feed, /* Number of lines to skip */
	DotBit, /* Bit in buffers */
	DotBytes, /* # bytes in a dot column */
	DotColumns, /* # columns in 1/60 inch */
	LineCount, /* # of lines processed */
	EvenOffset, /* Offset into 'even' buffers */
	OddOffset; /* Offset into 'odd' buffers */


	/*
	* Prototypes...
	*/

	void Setup(void);
	void StartPage(const ppd_file_t ppd, const cups_page_header2_t header);
	void EndPage(const cups_page_header2_t *header);
	void Shutdown(void);

	void CancelJob(int sig);
	void CompressData(const unsigned char *line, unsigned length, unsigned plane,
	unsigned type, unsigned xstep, unsigned ystep);
	void OutputLine(const cups_page_header2_t *header);
	void OutputRows(const cups_page_header2_t *header, int row);


	/*
	* 'Setup()' - Prepare the printer for printing.
	*/

	void
	Setup(void)
	{
	const char device_uri; / The device for the printer... */


	/*
	* EPSON USB printers need an additional command issued at the
	* beginning of each job to exit from "packet" mode...
	*/

	if ((device_uri = getenv("DEVICE_URI")) != NULL &&
	strncmp(device_uri, "usb:", 4) == 0 && Model >= EPSON_ICOLOR)
	pwrite("\000\000\000\033\001@EJL 1284.4\n@EJL \n\033@", 29);
	}


	/*
	* 'StartPage()' - Start a page of graphics.
	*/

	void
	StartPage(
	const ppd_file_t ppd, / I - PPD file */
	const cups_page_header2_t header) / I - Page header */
	{
	int n, t; /* Numbers */
	unsigned plane; /* Looping var */


	/*
	* Show page device dictionary...
	*/

	fprintf(stderr, "DEBUG: StartPage...\n");
	fprintf(stderr, "DEBUG: Duplex = %d\n", header->Duplex);
	fprintf(stderr, "DEBUG: HWResolution = [ %d %d ]\n", header->HWResolution[0], header->HWResolution[1]);
	fprintf(stderr, "DEBUG: ImagingBoundingBox = [ %d %d %d %d ]\n", header->ImagingBoundingBox[0], header->ImagingBoundingBox[1], header->ImagingBoundingBox[2], header->ImagingBoundingBox[3]);
	fprintf(stderr, "DEBUG: Margins = [ %d %d ]\n", header->Margins[0], header->Margins[1]);
	fprintf(stderr, "DEBUG: ManualFeed = %d\n", header->ManualFeed);
	fprintf(stderr, "DEBUG: MediaPosition = %d\n", header->MediaPosition);
	fprintf(stderr, "DEBUG: NumCopies = %d\n", header->NumCopies);
	fprintf(stderr, "DEBUG: Orientation = %d\n", header->Orientation);
	fprintf(stderr, "DEBUG: PageSize = [ %d %d ]\n", header->PageSize[0], header->PageSize[1]);
	fprintf(stderr, "DEBUG: cupsWidth = %d\n", header->cupsWidth);
	fprintf(stderr, "DEBUG: cupsHeight = %d\n", header->cupsHeight);
	fprintf(stderr, "DEBUG: cupsMediaType = %d\n", header->cupsMediaType);
	fprintf(stderr, "DEBUG: cupsBitsPerColor = %d\n", header->cupsBitsPerColor);
	fprintf(stderr, "DEBUG: cupsBitsPerPixel = %d\n", header->cupsBitsPerPixel);
	fprintf(stderr, "DEBUG: cupsBytesPerLine = %d\n", header->cupsBytesPerLine);
	fprintf(stderr, "DEBUG: cupsColorOrder = %d\n", header->cupsColorOrder);
	fprintf(stderr, "DEBUG: cupsColorSpace = %d\n", header->cupsColorSpace);
	fprintf(stderr, "DEBUG: cupsCompression = %d\n", header->cupsCompression);

	/*
	* Send a reset sequence.
	*/

	if (ppd && ppd->nickname && strstr(ppd->nickname, "OKIDATA") != NULL)
	printf("\033{A"); /* Set EPSON emulation mode */

	printf("\033@");

	/*
	* See which type of printer we are using...
	*/

	switch (Model)
	{
	case EPSON_9PIN :
	case EPSON_24PIN :
	printf("\033P\022"); /* Set 10 CPI */

	if (header->HWResolution[0] == 360 \|\| header->HWResolution[0] == 240)
	{
	printf("\033x1"); /* LQ printing */
	printf("\033U1"); /* Unidirectional */
	}
	else
	{
	printf("\033x0"); /* Draft printing */
	printf("\033U0"); /* Bidirectional */
	}

	printf("\033l%c\033Q%c", 0, /* Side margins */
	(int)(10.0 * header->PageSize[0] / 72.0 + 0.5));
	printf("\033\062\033C%c", /* Page length in 1/6th inches */
	(int)(header->PageSize[1] / 12.0 + 0.5));
	printf("\033N%c", 0); /* Bottom margin */
	printf("\033O"); /* No perforation skip */

	/*
	* Setup various buffer limits...
	*/

	DotBytes = header->cupsRowCount / 8;
	DotColumns = header->HWResolution[0] / 60;
	Shingling = 0;

	if (Model == EPSON_9PIN)
	printf("\033\063\030"); /* Set line feed */
	else
	switch (header->HWResolution[0])
	{
	case 60:
	case 120 :
	case 240 :
	printf("\033\063\030"); /* Set line feed */
	break;

	case 180 :
	case 360 :
	Shingling = 1;

	if (header->HWResolution[1] == 180)
	printf("\033\063\010");/* Set line feed */
	else
	printf("\033+\010"); /* Set line feed */
	break;
	}
	break;

	default :
	/*
	* Set graphics mode...
	*/

	pwrite("\033(G\001\000\001", 6); /* Graphics mode */

	/*
	* Set the media size...
	*/

	if (Model < EPSON_ICOLOR)
	{
	pwrite("\033(U\001\000", 5); /* Resolution/units */
	putchar((int)(3600 / header->HWResolution[1]));
	}
	else
	{
	pwrite("\033(U\005\000", 5);
	putchar((int)(1440 / header->HWResolution[1]));
	putchar((int)(1440 / header->HWResolution[1]));
	putchar((int)(1440 / header->HWResolution[0]));
	putchar(0xa0); /* n/1440ths... */
	putchar(0x05);
	}

	n = (int)(header->PageSize[1] * header->HWResolution[1] / 72.0);

	pwrite("\033(C\002\000", 5); /* Page length */
	putchar(n);
	putchar(n >> 8);

	if (ppd)
	t = (int)((ppd->sizes[1].length - ppd->sizes[1].top) * header->HWResolution[1] / 72.0);
	else
	t = 0;

	pwrite("\033(c\004\000", 5); /* Top & bottom margins */
	putchar(t);
	putchar(t >> 8);
	putchar(n);
	putchar(n >> 8);

	if (header->HWResolution[1] == 720)
	{
	pwrite("\033(i\001\000\001", 6); /* Microweave */
	pwrite("\033(e\002\000\000\001", 7); /* Small dots */
	}

	pwrite("\033(V\002\000\000\000", 7); /* Set absolute position 0 */

	DotBytes = 0;
	DotColumns = 0;
	Shingling = 0;
	break;
	}

	/*
	* Set other stuff...
	*/

	if (header->cupsColorSpace == CUPS_CSPACE_CMY)
	NumPlanes = 3;
	else if (header->cupsColorSpace == CUPS_CSPACE_KCMY)
	NumPlanes = 4;
	else if (header->cupsColorSpace == CUPS_CSPACE_KCMYcm)
	NumPlanes = 6;
	else
	NumPlanes = 1;

	Feed = 0; /* No blank lines yet */

	/*
	* Allocate memory for a line/row of graphics...
	*/

	if ((Planes[0] = malloc(header->cupsBytesPerLine + NumPlanes)) == NULL)
	{
	fputs("ERROR: Unable to allocate memory\n", stderr);
	exit(1);
	}

	for (plane = 1; plane < NumPlanes; plane ++)
	Planes[plane] = Planes[0] + plane * header->cupsBytesPerLine / NumPlanes;

	if (header->cupsCompression \|\| DotBytes)
	{
	if ((CompBuffer = calloc(2, header->cupsWidth + 1)) == NULL)
	{
	fputs("ERROR: Unable to allocate memory\n", stderr);
	exit(1);
	}
	}
	else
	CompBuffer = NULL;

	if (DotBytes)
	{
	if ((LineBuffers[0] = calloc((size_t)DotBytes, (header->cupsWidth + 7) * (size_t)(Shingling + 1))) == NULL)
	{
	fputs("ERROR: Unable to allocate memory\n", stderr);
	exit(1);
	}

	LineBuffers[1] = LineBuffers[0] + DotBytes * header->cupsWidth;
	DotBit = 128;
	LineCount = 0;
	EvenOffset = 0;
	OddOffset = 0;
	}
	}


	/*
	* 'EndPage()' - Finish a page of graphics.
	*/

	void
	EndPage(
	const cups_page_header2_t header) / I - Page header */
	{
	if (DotBytes && header)
	{
	/*
	* Flush remaining graphics as needed...
	*/

	if (!Shingling)
	{
	if (DotBit < 128 \|\| EvenOffset)
	OutputRows(header, 0);
	}
	else if (OddOffset > EvenOffset)
	{
	OutputRows(header, 1);
	OutputRows(header, 0);
	}
	else
	{
	OutputRows(header, 0);
	OutputRows(header, 1);
	}
	}

	/*
	* Eject the current page...
	*/

	putchar(12); /* Form feed */
	fflush(stdout);

	/*
	* Free memory...
	*/

	free(Planes[0]);

	if (CompBuffer)
	free(CompBuffer);

	if (DotBytes)
	free(LineBuffers[0]);
	}


	/*
	* 'Shutdown()' - Shutdown the printer.
	*/

	void
	Shutdown(void)
	{
	/*
	* Send a reset sequence.
	*/

	printf("\033@");
	}


	/*
	* 'CancelJob()' - Cancel the current job...
	*/

	void
	CancelJob(int sig) /* I - Signal */
	{
	(void)sig;

	Canceled = 1;
	}


	/*
	* 'CompressData()' - Compress a line of graphics.
	*/

	void
	CompressData(const unsigned char line, / I - Data to compress */
	unsigned length,/* I - Number of bytes */
	unsigned plane, /* I - Color plane */
	unsigned type, /* I - Type of compression */
	unsigned xstep, /* I - X resolution */
	unsigned ystep) /* I - Y resolution */
	{
	const unsigned char line_ptr, / Current byte pointer */
	line_end, / End-of-line byte pointer */
	start; / Start of compression sequence */
	unsigned char comp_ptr, / Pointer into compression buffer */
	temp; /* Current byte */
	int count; /* Count of bytes for output */
	static int ctable[6] = { 0, 2, 1, 4, 18, 17 };
	/* KCMYcm color values */


	/*
	* Setup pointers...
	*/

	line_ptr = line;
	line_end = line + length;

	/*
	* Do depletion for 720 DPI printing...
	*/

	if (ystep == 5)
	{
	for (comp_ptr = (unsigned char *)line; comp_ptr < line_end;)
	{
	/*
	* Grab the current byte...
	*/

	temp = *comp_ptr;

	/*
	* Check adjacent bits...
	*/

	if ((temp & 0xc0) == 0xc0)
	temp &= 0xbf;
	if ((temp & 0x60) == 0x60)
	temp &= 0xdf;
	if ((temp & 0x30) == 0x30)
	temp &= 0xef;
	if ((temp & 0x18) == 0x18)
	temp &= 0xf7;
	if ((temp & 0x0c) == 0x0c)
	temp &= 0xfb;
	if ((temp & 0x06) == 0x06)
	temp &= 0xfd;
	if ((temp & 0x03) == 0x03)
	temp &= 0xfe;

	*comp_ptr++ = temp;

	/*
	* Check the last bit in the current byte and the first bit in the
	* next byte...
	*/

	if ((temp & 0x01) && comp_ptr < line_end && *comp_ptr & 0x80)
	*comp_ptr &= 0x7f;
	}
	}

	switch (type)
	{
	case 0 :
	/*
	* Do no compression...
	*/
	break;

	case 1 :
	/*
	* Do TIFF pack-bits encoding...
	*/

	comp_ptr = CompBuffer;

	while (line_ptr < line_end)
	{
	if ((line_ptr + 1) >= line_end)
	{
	/*
	* Single byte on the end...
	*/

	*comp_ptr++ = 0x00;
	comp_ptr++ = line_ptr++;
	}
	else if (line_ptr[0] == line_ptr[1])
	{
	/*
	* Repeated sequence...
	*/

	line_ptr ++;
	count = 2;

	while (line_ptr < (line_end - 1) &&
	line_ptr[0] == line_ptr[1] &&
	count < 127)
	{
	line_ptr ++;
	count ++;
	}

	*comp_ptr++ = (unsigned char)(257 - count);
	comp_ptr++ = line_ptr++;
	}
	else
	{
	/*
	* Non-repeated sequence...
	*/

	start = line_ptr;
	line_ptr ++;
	count = 1;

	while (line_ptr < (line_end - 1) &&
	line_ptr[0] != line_ptr[1] &&
	count < 127)
	{
	line_ptr ++;
	count ++;
	}

	*comp_ptr++ = (unsigned char)(count - 1);

	memcpy(comp_ptr, start, (size_t)count);
	comp_ptr += count;
	}
	}

	line_ptr = CompBuffer;
	line_end = comp_ptr;
	break;
	}

	putchar(0x0d); /* Move print head to left margin */

	if (Model < EPSON_ICOLOR)
	{
	/*
	* Do graphics the "old" way...
	*/

	if (NumPlanes > 1)
	{
	/*
	* Set the color...
	*/

	if (plane > 3)
	printf("\033(r%c%c%c%c", 2, 0, 1, ctable[plane] & 15);
	/* Set extended color */
	else if (NumPlanes == 3)
	printf("\033r%c", ctable[plane + 1]);
	/* Set color */
	else
	printf("\033r%c", ctable[plane]); /* Set color */
	}

	/*
	* Send a raster plane...
	*/

	length *= 8;
	printf("\033."); /* Raster graphics */
	putchar((int)type);
	putchar((int)ystep);
	putchar((int)xstep);
	putchar(1);
	putchar((int)length);
	putchar((int)(length >> 8));
	}
	else
	{
	/*
	* Do graphics the "new" way...
	*/

	printf("\033i");
	putchar(ctable[plane]);
	putchar((int)type);
	putchar(1);
	putchar((int)length);
	putchar((int)(length >> 8));
	putchar(1);
	putchar(0);
	}

	pwrite(line_ptr, (size_t)(line_end - line_ptr));
	fflush(stdout);
	}


	/*
	* 'OutputLine()' - Output a line of graphics.
	*/

	void
	OutputLine(
	const cups_page_header2_t header) / I - Page header */
	{
	if (header->cupsRowCount)
	{
	unsigned width;
	unsigned char *tempptr,
	*evenptr,
	*oddptr;
	unsigned int x;
	unsigned char bit;
	const unsigned char *pixel;
	unsigned char *temp;


	/*
	* Collect bitmap data in the line buffers and write after each buffer.
	*/

	for (x = header->cupsWidth, bit = 128, pixel = Planes[0],
	temp = CompBuffer;
	x > 0;
	x --, temp ++)
	{
	if (*pixel & bit)
	*temp \|= DotBit;

	if (bit > 1)
	bit >>= 1;
	else
	{
	bit = 128;
	pixel ++;
	}
	}

	if (DotBit > 1)
	DotBit >>= 1;
	else
	{
	/*
	* Copy the holding buffer to the output buffer, shingling as necessary...
	*/

	if (Shingling && LineCount != 0)
	{
	/*
	* Shingle the output...
	*/

	if (LineCount & 1)
	{
	evenptr = LineBuffers[1] + OddOffset;
	oddptr = LineBuffers[0] + EvenOffset + DotBytes;
	}
	else
	{
	evenptr = LineBuffers[0] + EvenOffset;
	oddptr = LineBuffers[1] + OddOffset + DotBytes;
	}

	for (width = header->cupsWidth, tempptr = CompBuffer;
	width > 1;
	width -= 2, tempptr += 2, oddptr += DotBytes * 2,
	evenptr += DotBytes * 2)
	{
	evenptr[0] = tempptr[0];
	oddptr[0] = tempptr[1];
	}

	if (width == 1)
	{
	evenptr[0] = tempptr[0];
	oddptr[0] = tempptr[1];
	}
	}
	else
	{
	/*
	* Don't shingle the output...
	*/

	for (width = header->cupsWidth, tempptr = CompBuffer,
	evenptr = LineBuffers[0] + EvenOffset;
	width > 0;
	width --, tempptr ++, evenptr += DotBytes)
	*evenptr = tempptr[0];
	}

	if (Shingling && LineCount != 0)
	{
	EvenOffset ++;
	OddOffset ++;

	if (EvenOffset == DotBytes)
	{
	EvenOffset = 0;
	OutputRows(header, 0);
	}

	if (OddOffset == DotBytes)
	{
	OddOffset = 0;
	OutputRows(header, 1);
	}
	}
	else
	{
	EvenOffset ++;

	if (EvenOffset == DotBytes)
	{
	EvenOffset = 0;
	OutputRows(header, 0);
	}
	}

	DotBit = 128;
	LineCount ++;

	memset(CompBuffer, 0, header->cupsWidth);
	}
	}
	else
	{
	unsigned plane; /* Current plane */
	unsigned bytes; /* Bytes per plane */
	unsigned xstep, ystep; /* X & Y resolutions */

	/*
	* Write a single line of bitmap data as needed...
	*/

	xstep = 3600 / header->HWResolution[0];
	ystep = 3600 / header->HWResolution[1];
	bytes = header->cupsBytesPerLine / NumPlanes;

	for (plane = 0; plane < NumPlanes; plane ++)
	{
	/*
	* Skip blank data...
	*/

	if (!Planes[plane][0] &&
	memcmp(Planes[plane], Planes[plane] + 1, (size_t)bytes - 1) == 0)
	continue;

	/*
	* Output whitespace as needed...
	*/

	if (Feed > 0)
	{
	pwrite("\033(v\002\000", 5); /* Relative vertical position */
	putchar((int)Feed);
	putchar((int)(Feed >> 8));

	Feed = 0;
	}

	CompressData(Planes[plane], bytes, plane, header->cupsCompression, xstep, ystep);
	}

	Feed ++;
	}
	}


	/*
	* 'OutputRows()' - Output 8, 24, or 48 rows.
	*/

	void
	OutputRows(
	const cups_page_header2_t header, / I - Page image header */
	int row) /* I - Row number (0 or 1) */
	{
	unsigned i, n, /* Looping vars */
	dot_count, /* Number of bytes to print */
	dot_min; /* Minimum number of bytes */
	unsigned char dot_ptr, / Pointer to print data */
	ptr; / Current data */


	dot_min = DotBytes * DotColumns;

	if (LineBuffers[row][0] != 0 \|\|
	memcmp(LineBuffers[row], LineBuffers[row] + 1, header->cupsWidth * DotBytes - 1))
	{
	/*
	* Skip leading space...
	*/

	i = 0;
	dot_count = header->cupsWidth * DotBytes;
	dot_ptr = LineBuffers[row];

	while (dot_count >= dot_min && dot_ptr[0] == 0 &&
	memcmp(dot_ptr, dot_ptr + 1, dot_min - 1) == 0)
	{
	i ++;
	dot_ptr += dot_min;
	dot_count -= dot_min;
	}

	/*
	* Skip trailing space...
	*/

	while (dot_count >= dot_min && dot_ptr[dot_count - dot_min] == 0 &&
	memcmp(dot_ptr + dot_count - dot_min,
	dot_ptr + dot_count - dot_min + 1, dot_min - 1) == 0)
	dot_count -= dot_min;

	/*
	* Position print head for printing...
	*/

	if (i == 0)
	putchar('\r');
	else
	{
	putchar(0x1b);
	putchar('$');
	putchar((int)(i & 255));
	putchar((int)(i >> 8));
	}

	/*
	* Start bitmap graphics for this line...
	*/

	printf("\033"); / Select bit image */
	switch (header->HWResolution[0])
	{
	case 60 : /* 60x60/72 DPI gfx */
	putchar(0);
	break;
	case 120 : /* 120x60/72 DPI gfx */
	putchar(1);
	break;
	case 180 : /* 180 DPI gfx */
	putchar(39);
	break;
	case 240 : /* 240x72 DPI gfx */
	putchar(3);
	break;
	case 360 : /* 360x180/360 DPI gfx */
	if (header->HWResolution[1] == 180)
	{
	if (Shingling && LineCount != 0)
	putchar(40); /* 360x180 fast */
	else
	putchar(41); /* 360x180 slow */
	}
	else
	{
	if (Shingling && LineCount != 0)
	putchar(72); /* 360x360 fast */
	else
	putchar(73); /* 360x360 slow */
	}
	break;
	}

	n = dot_count / DotBytes;
	putchar((int)(n & 255));
	putchar((int)(n / 256));

	/*
	* Write the graphics data...
	*/

	if (header->HWResolution[0] == 120 \|\|
	header->HWResolution[0] == 240)
	{
	/*
	* Need to interleave the dots to avoid hosing the print head...
	*/

	for (n = dot_count / 2, ptr = dot_ptr; n > 0; n --, ptr += 2)
	{
	putchar(*ptr);
	putchar(0);
	}

	if (dot_count & 1)
	putchar(*ptr);

	/*
	* Move the head back and print the odd bytes...
	*/

	if (i == 0)
	putchar('\r');
	else
	{
	putchar(0x1b);
	putchar('$');
	putchar((int)(i & 255));
	putchar((int)(i >> 8));
	}

	if (header->HWResolution[0] == 120)
	printf("\033\001"); / Select bit image */
	else
	printf("\033\003"); / Select bit image */

	n = (unsigned)dot_count / DotBytes;
	putchar((int)(n & 255));
	putchar((int)(n / 256));

	for (n = dot_count / 2, ptr = dot_ptr + 1; n > 0; n --, ptr += 2)
	{
	putchar(0);
	putchar(*ptr);
	}

	if (dot_count & 1)
	putchar(0);
	}
	else
	pwrite(dot_ptr, dot_count);
	}

	/*
	* Feed the paper...
	*/

	putchar('\n');

	if (Shingling && row == 1)
	{
	if (header->HWResolution[1] == 360)
	printf("\n\n\n\n");
	else
	printf("\n");
	}

	fflush(stdout);

	/*
	* Clear the buffer...
	*/

	memset(LineBuffers[row], 0, header->cupsWidth * DotBytes);
	}


	/*
	* 'main()' - Main entry and processing of driver.
	*/

	int /* O - Exit status */
	main(int argc, /* I - Number of command-line arguments */
	char argv[]) / I - Command-line arguments */
	{
	int fd; /* File descriptor */
	cups_raster_t ras; / Raster stream for printing */
	cups_page_header2_t header; /* Page header from file */
	ppd_file_t ppd; / PPD file */
	int page; /* Current page */
	unsigned y; /* Current line */
	#if defined(HAVE_SIGACTION) && !defined(HAVE_SIGSET)
	struct sigaction action; /* Actions for POSIX signals */
	#endif /* HAVE_SIGACTION && !HAVE_SIGSET */


	/*
	* Make sure status messages are not buffered...
	*/

	setbuf(stderr, NULL);

	/*
	* Check command-line...
	*/

	if (argc < 6 \|\| argc > 7)
	{
	/*
	* We don't have the correct number of arguments; write an error message
	* and return.
	*/

	_cupsLangPrintFilter(stderr, "ERROR",
	_("%s job-id user title copies options [file]"),
	"rastertoepson");
	return (1);
	}

	/*
	* Open the page stream...
	*/

	if (argc == 7)
	{
	if ((fd = open(argv[6], O_RDONLY)) == -1)
	{
	_cupsLangPrintError("ERROR", _("Unable to open raster file"));
	sleep(1);
	return (1);
	}
	}
	else
	fd = 0;

	ras = cupsRasterOpen(fd, CUPS_RASTER_READ);

	/*
	* Register a signal handler to eject the current page if the
	* job is cancelled.
	*/

	Canceled = 0;

	#ifdef HAVE_SIGSET /* Use System V signals over POSIX to avoid bugs */
	sigset(SIGTERM, CancelJob);
	#elif defined(HAVE_SIGACTION)
	memset(&action, 0, sizeof(action));

	sigemptyset(&action.sa_mask);
	action.sa_handler = CancelJob;
	sigaction(SIGTERM, &action, NULL);
	#else
	signal(SIGTERM, CancelJob);
	#endif /* HAVE_SIGSET */

	/*
	* Initialize the print device...
	*/

	ppd = ppdOpenFile(getenv("PPD"));
	if (!ppd)
	{
	ppd_status_t status; /* PPD error */
	int linenum; /* Line number */

	_cupsLangPrintFilter(stderr, "ERROR",
	_("The PPD file could not be opened."));

	status = ppdLastError(&linenum);

	fprintf(stderr, "DEBUG: %s on line %d.\n", ppdErrorString(status), linenum);

	return (1);
	}

	Model = ppd->model_number;

	Setup();

	/*
	* Process pages as needed...
	*/

	page = 0;

	while (cupsRasterReadHeader2(ras, &header))
	{
	/*
	* Write a status message with the page number and number of copies.
	*/

	if (Canceled)
	break;

	page ++;

	fprintf(stderr, "PAGE: %d %d\n", page, header.NumCopies);
	_cupsLangPrintFilter(stderr, "INFO", _("Starting page %d."), page);

	/*
	* Start the page...
	*/

	StartPage(ppd, &header);

	/*
	* Loop for each line on the page...
	*/

	for (y = 0; y < header.cupsHeight; y ++)
	{
	/*
	* Let the user know how far we have progressed...
	*/

	if (Canceled)
	break;

	if ((y & 127) == 0)
	{
	_cupsLangPrintFilter(stderr, "INFO",
	_("Printing page %d, %u%% complete."),
	page, 100 * y / header.cupsHeight);
	fprintf(stderr, "ATTR: job-media-progress=%u\n",
	100 * y / header.cupsHeight);
	}

	/*
	* Read a line of graphics...
	*/

	if (cupsRasterReadPixels(ras, Planes[0], header.cupsBytesPerLine) < 1)
	break;

	/*
	* Write it to the printer...
	*/

	OutputLine(&header);
	}

	/*
	* Eject the page...
	*/

	_cupsLangPrintFilter(stderr, "INFO", _("Finished page %d."), page);

	EndPage(&header);

	if (Canceled)
	break;
	}

	/*
	* Shutdown the printer...
	*/

	Shutdown();

	ppdClose(ppd);

	/*
	* Close the raster stream...
	*/

	cupsRasterClose(ras);
	if (fd != 0)
	close(fd);

	/*
	* If no pages were printed, send an error message...
	*/

	if (page == 0)
	{
	_cupsLangPrintFilter(stderr, "ERROR", _("No pages were found."));
	return (1);
	}
	else
	return (0);
	}