int /* O - Exit status */
main(int argc, /* I - Number of command-line arguments */
char *argv[]) /* I - Command-line arguments */
{
cups_image_t *img; /* Image to print */
cups_icspace_t primary; /* Primary image colorspace */
FILE *out; /* Output PPM/PGM file */
cups_ib_t *line; /* Line from file */
int y, /* Current line */
width, /* Width of image */
height, /* Height of image */
depth; /* Depth of image */
if (argc != 3)
{
puts("Usage: testimage filename.ext filename.[ppm|pgm]");
return (1);
}
if (strstr(argv[2], ".ppm") != NULL)
primary = CUPS_IMAGE_RGB;
else
primary = CUPS_IMAGE_WHITE;
img = cupsImageOpen(argv[1], primary, CUPS_IMAGE_WHITE, 100, 0, NULL);
if (!img)
{
perror(argv[1]);
return (1);
}
out = fopen(argv[2], "wb");
if (!out)
{
perror(argv[2]);
cupsImageClose(img);
return (1);
}
width = cupsImageGetWidth(img);
height = cupsImageGetHeight(img);
depth = cupsImageGetDepth(img);
line = calloc(width, depth);
fprintf(out, "P%d\n%d\n%d\n255\n",
cupsImageGetColorSpace(img) == CUPS_IMAGE_WHITE ? 5 : 6,
width, height);
for (y = 0; y < height; y ++)
{
cupsImageGetRow(img, 0, y, width, line);
fwrite(line, width, depth, out);
}
cupsImageClose(img);
fclose(out);
return (0);
}
int /* O - Exit status */
imagetops_main(int argc, /* I - Number of command-line arguments */
char *argv[]) /* I - Command-line arguments */
{
cups_image_t *img; /* Image to print */
float xprint, /* Printable area */
yprint,
xinches, /* Total size in inches */
yinches;
float xsize, /* Total size in points */
ysize,
xsize2,
ysize2;
float aspect; /* Aspect ratio */
int xpages, /* # x pages */
ypages, /* # y pages */
xpage, /* Current x page */
ypage, /* Current y page */
page; /* Current page number */
int xc0, yc0, /* Corners of the page in image coords */
xc1, yc1;
cups_ib_t *row; /* Current row */
int y; /* Current Y coordinate in image */
int colorspace; /* Output colorspace */
int out_offset, /* Offset into output buffer */
out_length; /* Length of output buffer */
ppd_file_t *ppd; /* PPD file */
ppd_choice_t *choice; /* PPD option choice */
int num_options; /* Number of print options */
cups_option_t *options; /* Print options */
const char *val; /* Option value */
int slowcollate; /* Collate copies the slow way */
float g; /* Gamma correction value */
float b; /* Brightness factor */
float zoom; /* Zoom facter */
int xppi, yppi; /* Pixels-per-inch */
int hue, sat; /* Hue and saturation adjustment */
int realcopies, /* Real copies being printed */
emit_jcl; /* Emit JCL? */
float left, top; /* Left and top of image */
char filename[1024]; /* Name of file to print */
time_t curtime; /* Current time */
struct tm *curtm; /* Current date */
char curdate[255]; /* Current date string */
int psFileMode = 0; //0:CREATE New ; 1: Append
int outColorDevice = 1; //0 : monochrome print , 1:color print
int count = 0,numFiles=1;
int defout,outfd;
/*
* Make sure status messages are not buffered...
*/
int ii=0;
for(;ii<argc;ii++)
LOGI("imagetops : argv:%s",argv[ii]);
fflush(stdout);
Copies = 1;
setbuf(stderr, NULL);
/*
* Ignore broken pipe signals...
*/
signal(SIGPIPE, SIG_IGN);
/*
* Process command-line options and write the prolog...
*/
zoom = 0.0;
xppi = 0;
yppi = 0;
hue = 0;
sat = 100;
g = 1.0;
b = 1.0;
Copies = atoi(argv[4]);
options = NULL;
num_options = cupsParseOptions(argv[5], 0, &options);
ppdFilePath = argv[6];
ContentType= argv[7];
psFilePath = argv[8];
outColorDevice = atoi(argv[9]);
numFiles = argc - 10;
LOGI("imagetops : numFiles=%d",numFiles);
ppd = SetCommonOptions(num_options, options, 0);
if ((val = cupsGetOption("multiple-document-handling", num_options, options)) != NULL)
{
/*
* This IPP attribute is unnecessarily complicated...
*
* single-document, separate-documents-collated-copies, and
* single-document-new-sheet all require collated copies.
*
* separate-documents-uncollated-copies allows for uncollated copies.
*/
Collate = _cups_strcasecmp(val, "separate-documents-uncollated-copies") != 0;
}
if ((val = cupsGetOption("Collate", num_options, options)) != NULL &&
_cups_strcasecmp(val, "True") == 0)
Collate = 1;
if ((val = cupsGetOption("gamma", num_options, options)) != NULL)
{
/*
* Get gamma value from 1 to 10000...
*/
g = atoi(val) * 0.001f;
if (g < 0.001f)
g = 0.001f;
else if (g > 10.0f)
g = 10.0f;
}
if ((val = cupsGetOption("brightness", num_options, options)) != NULL)
{
/*
* Get brightness value from 10 to 1000.
*/
b = atoi(val) * 0.01f;
if (b < 0.1f)
b = 0.1f;
else if (b > 10.0f)
b = 10.0f;
}
if ((val = cupsGetOption("scaling", num_options, options)) != NULL)
zoom = atoi(val) * 0.01;
else if ((val = cupsGetOption("fitplot", num_options, options)) != NULL &&
!_cups_strcasecmp(val, "true"))
zoom = 1.0;
else if ((val = cupsGetOption("fit-to-page", num_options, options)) != NULL &&
!_cups_strcasecmp(val, "true"))
zoom = 1.0;
if ((val = cupsGetOption("ppi", num_options, options)) != NULL)
if (sscanf(val, "%dx%d", &xppi, &yppi) < 2)
yppi = xppi;
if ((val = cupsGetOption("position", num_options, options)) != NULL)
{
if (_cups_strcasecmp(val, "center") == 0)
{
XPosition = 0;
YPosition = 0;
}
else if (_cups_strcasecmp(val, "top") == 0)
{
XPosition = 0;
YPosition = 1;
}
else if (_cups_strcasecmp(val, "left") == 0)
{
XPosition = -1;
YPosition = 0;
}
else if (_cups_strcasecmp(val, "right") == 0)
{
XPosition = 1;
YPosition = 0;
}
else if (_cups_strcasecmp(val, "top-left") == 0)
{
XPosition = -1;
YPosition = 1;
}
else if (_cups_strcasecmp(val, "top-right") == 0)
{
XPosition = 1;
YPosition = 1;
}
else if (_cups_strcasecmp(val, "bottom") == 0)
{
XPosition = 0;
YPosition = -1;
}
else if (_cups_strcasecmp(val, "bottom-left") == 0)
{
XPosition = -1;
YPosition = -1;
}
else if (_cups_strcasecmp(val, "bottom-right") == 0)
{
XPosition = 1;
YPosition = -1;
}
}
if ((val = cupsGetOption("saturation", num_options, options)) != NULL)
sat = atoi(val);
if ((val = cupsGetOption("hue", num_options, options)) != NULL)
hue = atoi(val);
if ((choice = ppdFindMarkedChoice(ppd, "MirrorPrint")) != NULL)
{
val = choice->choice;
choice->marked = 0;
}
else
val = cupsGetOption("mirror", num_options, options);
if (val && (!_cups_strcasecmp(val, "true") || !_cups_strcasecmp(val, "on") ||
!_cups_strcasecmp(val, "yes")))
Flip = 1;
if ((val = cupsGetOption("emit-jcl", num_options, options)) != NULL &&
(!_cups_strcasecmp(val, "false") || !_cups_strcasecmp(val, "off") ||
!_cups_strcasecmp(val, "no") || !strcmp(val, "0")))
emit_jcl = 0;
else
emit_jcl = 1;
LOGI("imagetops/Copies=%d , Collate=%d, gamma=%f, brightness=%f, zoom=%f",Copies,Collate,g,b,zoom);
LOGI("imagetops/xppi=%d,yppi=%d,XPosition=%d,YPosition=%d,sat=%d,hue=%d,flip=%d,emit_jcl=%d",xppi,yppi,XPosition,YPosition,sat,hue,Flip,emit_jcl);
/*
* Open the input image to print...
*/
if(outColorDevice == 1) //added @ grv
colorspace = CUPS_IMAGE_RGB_CMYK;
else
colorspace = CUPS_IMAGE_WHITE;
LOGI("imagetops/ colorspace = %d",colorspace);
for(count=0;count<numFiles;count++){
Copies = atoi(argv[4]);
//do everything for both image files
strlcpy(filename, argv[(10 + count)], sizeof(filename));
LOGI("imagetops : count=%d , filename=%s",count,filename);
img = cupsImageOpen(filename, colorspace, CUPS_IMAGE_WHITE, sat, hue, NULL);
if (img == NULL)
{
LOGI("imagetops:error:The print file could not be opened.");
_cupsLangPrintFilter(stderr, "ERROR",
_("The print file could not be opened."));
ppdClose(ppd);
return (1);
}
colorspace = cupsImageGetColorSpace(img);
LOGI("imagetops: cupsImageGetColorSpace finished : colorspace :%d",colorspace);
/*
* Scale as necessary...
*/
if (zoom == 0.0 && xppi == 0)
{
xppi = cupsImageGetXPPI(img);
yppi = cupsImageGetYPPI(img);
}
LOGI("imagetops:xppi=%d",xppi);
LOGI("imagetops:yppi=%d",yppi);
if (yppi == 0)
yppi = xppi;
fprintf(stderr, "DEBUG: Before scaling: xppi=%d, yppi=%d, zoom=%.2f\n",
xppi, yppi, zoom);
if (xppi > 0)
{
/*
* Scale the image as neccesary to match the desired pixels-per-inch.
*/
if (Orientation & 1)
{
xprint = (PageTop - PageBottom) / 72.0;
yprint = (PageRight - PageLeft) / 72.0;
}
else
{
xprint = (PageRight - PageLeft) / 72.0;
yprint = (PageTop - PageBottom) / 72.0;
}
fprintf(stderr, "DEBUG: Before scaling: xprint=%.1f, yprint=%.1f\n",
xprint, yprint);
xinches = (float)cupsImageGetWidth(img) / (float)xppi;
yinches = (float)cupsImageGetHeight(img) / (float)yppi;
fprintf(stderr, "DEBUG: Image size is %.1f x %.1f inches...\n",
xinches, yinches);
if ((val = cupsGetOption("natural-scaling", num_options, options)) != NULL)
{
xinches = xinches * atoi(val) / 100;
yinches = yinches * atoi(val) / 100;
}
if (cupsGetOption("orientation-requested", num_options, options) == NULL &&
cupsGetOption("landscape", num_options, options) == NULL)
{
/*
* Rotate the image if it will fit landscape but not portrait...
*/
fputs("DEBUG: Auto orientation...\n", stderr);
LOGI("imagetops.c : Auto orientation...");
if ((xinches > xprint || yinches > yprint) && xinches <= yprint && yinches <= xprint)
{
/*
* Rotate the image as needed...
*/
fputs("DEBUG: Using landscape orientation...\n", stderr);
LOGI("imagetops.c : Auto orientation : Using landscape orientation");
Orientation = (Orientation + 1) & 3;
xsize = yprint;
yprint = xprint;
xprint = xsize;
}
}
}else{
/*
* Scale percentage of page size...
*/
xprint = (PageRight - PageLeft) / 72.0;
yprint = (PageTop - PageBottom) / 72.0;
aspect = (float)cupsImageGetYPPI(img) / (float)cupsImageGetXPPI(img);
fprintf(stderr, "DEBUG: Before scaling: xprint=%.1f, yprint=%.1f\n",
xprint, yprint);
fprintf(stderr, "DEBUG: cupsImageGetXPPI(img) = %d, cupsImageGetYPPI(img) = %d, aspect = %f\n",
cupsImageGetXPPI(img), cupsImageGetYPPI(img), aspect);
xsize = xprint * zoom;
ysize = xsize * cupsImageGetHeight(img) / cupsImageGetWidth(img) / aspect;
if (ysize > (yprint * zoom))
{
ysize = yprint * zoom;
xsize = ysize * cupsImageGetWidth(img) * aspect / cupsImageGetHeight(img);
}
xsize2 = yprint * zoom;
ysize2 = xsize2 * cupsImageGetHeight(img) / cupsImageGetWidth(img) / aspect;
if (ysize2 > (xprint * zoom))
{
ysize2 = xprint * zoom;
xsize2 = ysize2 * cupsImageGetWidth(img) * aspect / cupsImageGetHeight(img);
}
fprintf(stderr, "DEBUG: Portrait size is %.2f x %.2f inches\n", xsize, ysize);
fprintf(stderr, "DEBUG: Landscape size is %.2f x %.2f inches\n", xsize2, ysize2);
if (cupsGetOption("orientation-requested", num_options, options) == NULL && cupsGetOption("landscape", num_options, options) == NULL)
{
/*
* Choose the rotation with the largest area, but prefer
* portrait if they are equal...
*/
fputs("DEBUG: Auto orientation...\n", stderr);
if ((xsize * ysize) < (xsize2 * xsize2))
{
/*
* Do landscape orientation...
*/
fputs("DEBUG: Using landscape orientation...\n", stderr);
Orientation = 1;
xinches = xsize2;
yinches = ysize2;
xprint = (PageTop - PageBottom) / 72.0;
yprint = (PageRight - PageLeft) / 72.0;
}
else
{
/*
* Do portrait orientation...
*/
fputs("DEBUG: Using portrait orientation...\n", stderr);
Orientation = 0;
xinches = xsize;
yinches = ysize;
}
}
else if (Orientation & 1)
{
fputs("DEBUG: Using landscape orientation...\n", stderr);
xinches = xsize2;
yinches = ysize2;
xprint = (PageTop - PageBottom) / 72.0;
yprint = (PageRight - PageLeft) / 72.0;
}
else
{
fputs("DEBUG: Using portrait orientation...\n", stderr);
xinches = xsize;
yinches = ysize;
xprint = (PageRight - PageLeft) / 72.0;
yprint = (PageTop - PageBottom) / 72.0;
}
}
/*
* Compute the number of pages to print and the size of the image on each
* page...
*/
xpages = ceil(xinches / xprint);
ypages = ceil(yinches / yprint);
xprint = xinches / xpages;
yprint = yinches / ypages;
fprintf(stderr, "DEBUG: xpages = %dx%.2fin, ypages = %dx%.2fin\n",xpages, xprint, ypages, yprint);
/*
* Update the page size for custom sizes...
*/
if ((choice = ppdFindMarkedChoice(ppd, "PageSize")) != NULL && _cups_strcasecmp(choice->choice, "Custom") == 0)
{
float width, /* New width in points */
length; /* New length in points */
char s[255]; /* New custom page size... */
/*
* Use the correct width and length for the current orientation...
*/
if (Orientation & 1)
{
width = yprint * 72.0;
length = xprint * 72.0;
}
else
{
width = xprint * 72.0;
length = yprint * 72.0;
}
/*
* Add margins to page size...
*/
width += ppd->custom_margins[0] + ppd->custom_margins[2];
length += ppd->custom_margins[1] + ppd->custom_margins[3];
/*
* Enforce minimums...
*/
if (width < ppd->custom_min[0])
width = ppd->custom_min[0];
if (length < ppd->custom_min[1])
length = ppd->custom_min[1];
fprintf(stderr, "DEBUG: Updated custom page size to %.2f x %.2f inches...\n",width / 72.0, length / 72.0);
/*
* Set the new custom size...
*/
sprintf(s, "Custom.%.0fx%.0f", width, length);
ppdMarkOption(ppd, "PageSize", s);
/*
* Update page variables...
*/
PageWidth = width;
PageLength = length;
PageLeft = ppd->custom_margins[0];
PageRight = width - ppd->custom_margins[2];
PageBottom = ppd->custom_margins[1];
PageTop = length - ppd->custom_margins[3];
}
/*
* See if we need to collate, and if so how we need to do it...
*/
if (xpages == 1 && ypages == 1)
Collate = 0;
slowcollate = Collate && ppdFindOption(ppd, "Collate") == NULL;
if (Copies > 1 && !slowcollate)
{
realcopies = Copies;
Copies = 1;
}
else
realcopies = 1;
/*
* Write any "exit server" options that have been selected...
*/
//Changes to create ps file -- start
if(count == 0){//single side print
defout = dup(1);
outfd = open(psFilePath,O_RDWR | O_CREAT,S_IRWXU |S_IRWXG | S_IRWXO);
dup2(outfd,1);
}
//Changes to create ps file -- end
ppdEmit(ppd, stdout, PPD_ORDER_EXIT);
/*
* Write any JCL commands that are needed to print PostScript code...
*/
if (emit_jcl)
ppdEmitJCL(ppd, stdout, atoi(argv[1]), argv[2], argv[3]);
/*
* Start sending the document with any commands needed...
*/
curtime = time(NULL);
curtm = localtime(&curtime);
//////////////////
if(count == 0){
puts("%!PS-Adobe-3.0");
printf("%%%%BoundingBox: %.0f %.0f %.0f %.0f\n", PageLeft, PageBottom,PageRight, PageTop);
printf("%%%%LanguageLevel: %d\n", LanguageLevel);
printf("%%%%Pages: %d\n", xpages * ypages * Copies * numFiles);
puts("%%DocumentData: Clean7Bit");
puts("%%DocumentNeededResources: font Helvetica-Bold");
puts("%%Creator: imagetops/" CUPS_SVERSION);
strftime(curdate, sizeof(curdate), "%c", curtm);
printf("%%%%CreationDate: %s\n", curdate);
WriteTextComment("Title", argv[3]);
WriteTextComment("For", argv[2]);
if (Orientation & 1)
puts("%%Orientation: Landscape");
else
puts("%%Orientation: Portrait");
puts("%%EndComments");
puts("%%BeginProlog");
if (ppd != NULL && ppd->patches != NULL)
puts(ppd->patches);
ppdEmit(ppd, stdout, PPD_ORDER_DOCUMENT);
ppdEmit(ppd, stdout, PPD_ORDER_ANY);
ppdEmit(ppd, stdout, PPD_ORDER_PROLOG);
if (g != 1.0 || b != 1.0)
printf("{ neg 1 add dup 0 lt { pop 1 } { %.3f exp neg 1 add } "
"ifelse %.3f mul } bind settransfer\n", g, b);
WriteCommon();
switch (Orientation)
{
case 0 :
WriteLabelProlog(cupsGetOption("page-label", num_options, options),
PageBottom, PageTop, PageWidth);
break;
case 1 :
WriteLabelProlog(cupsGetOption("page-label", num_options, options),
PageLeft, PageRight, PageLength);
break;
case 2 :
WriteLabelProlog(cupsGetOption("page-label", num_options, options),
PageLength - PageTop, PageLength - PageBottom, PageWidth);
break;
case 3 :
WriteLabelProlog(cupsGetOption("page-label", num_options, options),
PageWidth - PageRight, PageWidth - PageLeft,PageLength);
break;
}
if (realcopies > 1)
{
if (ppd == NULL || ppd->language_level == 1)
printf("/#copies %d def\n", realcopies);
else
printf("<</NumCopies %d>>setpagedevice\n", realcopies);
}
puts("%%EndProlog");
}
/*
* Output the pages...
*/
row = malloc(cupsImageGetWidth(img) * abs(colorspace) + 3);
fprintf(stderr, "DEBUG: XPosition=%d, YPosition=%d, Orientation=%d\n",XPosition, YPosition, Orientation);
fprintf(stderr, "DEBUG: xprint=%.0f, yprint=%.0f\n", xprint, yprint);
fprintf(stderr, "DEBUG: PageLeft=%.0f, PageRight=%.0f, PageWidth=%.0f\n",PageLeft, PageRight, PageWidth);
fprintf(stderr, "DEBUG: PageBottom=%.0f, PageTop=%.0f, PageLength=%.0f\n",PageBottom, PageTop, PageLength);
switch (Orientation)
{
default :
switch (XPosition)
{
case -1 :
left = PageLeft;
break;
default :
left = (PageRight + PageLeft - xprint * 72) / 2;
break;
case 1 :
left = PageRight - xprint * 72;
break;
}
switch (YPosition)
{
case -1 :
top = PageBottom + yprint * 72;
break;
default :
top = (PageTop + PageBottom + yprint * 72) / 2;
break;
case 1 :
top = PageTop;
break;
}
break;
case 1 :
switch (XPosition)
{
case -1 :
left = PageBottom;
break;
default :
left = (PageTop + PageBottom - xprint * 72) / 2;
break;
case 1 :
left = PageTop - xprint * 72;
break;
}
switch (YPosition)
{
case -1 :
top = PageLeft + yprint * 72;
break;
default :
top = (PageRight + PageLeft + yprint * 72) / 2;
break;
case 1 :
top = PageRight;
break;
}
break;
case 2 :
switch (XPosition)
{
case 1 :
left = PageLeft;
break;
default :
left = (PageRight + PageLeft - xprint * 72) / 2;
break;
case -1 :
left = PageRight - xprint * 72;
break;
}
switch (YPosition)
{
case 1 :
top = PageBottom + yprint * 72;
break;
default :
top = (PageTop + PageBottom + yprint * 72) / 2;
break;
case -1 :
top = PageTop;
break;
}
break;
case 3 :
switch (XPosition)
{
case 1 :
left = PageBottom;
break;
default :
left = (PageTop + PageBottom - xprint * 72) / 2;
break;
case -1 :
left = PageTop - xprint * 72;
break;
}
switch (YPosition)
{
case 1 :
top = PageLeft + yprint * 72;
break;
default :
top = (PageRight + PageLeft + yprint * 72) / 2;
break;
case -1 :
top = PageRight;
break;
}
break;
}
fprintf(stderr, "DEBUG: left=%.2f, top=%.2f\n", left, top);
for (page = 1; Copies > 0; Copies --)
for (xpage = 0; xpage < xpages; xpage ++)
for (ypage = 0; ypage < ypages; ypage ++, page ++)
{
if (ppd && ppd->num_filters == 0)
fprintf(stderr, "PAGE: %d %d\n", page, realcopies);
_cupsLangPrintFilter(stderr, "INFO", _("Printing page %d."), page);
printf("%%%%Page: %d %d\n", (page * (count+1)), (page*(count+1)));
//TEST_TODO
if(count>=1){
puts("%%BeginPageSetup");
if (Orientation & 1)
puts("%%PageOrientation: Landscape");
else
puts("%%PageOrientation: Portrait");
puts("%%EndPageSetup");
}
ppdEmit(ppd, stdout, PPD_ORDER_PAGE);
puts("gsave");
if (Flip)
printf("%.0f 0 translate -1 1 scale\n", PageWidth);
switch (Orientation)
{
case 1 : /* Landscape */
printf("%.0f 0 translate 90 rotate\n", PageWidth);
break;
case 2 : /* Reverse Portrait */
printf("%.0f %.0f translate 180 rotate\n", PageWidth, PageLength);
break;
case 3 : /* Reverse Landscape */
printf("0 %.0f translate -90 rotate\n", PageLength);
break;
}
puts("gsave");
xc0 = cupsImageGetWidth(img) * xpage / xpages;
xc1 = cupsImageGetWidth(img) * (xpage + 1) / xpages - 1;
yc0 = cupsImageGetHeight(img) * ypage / ypages;
yc1 = cupsImageGetHeight(img) * (ypage + 1) / ypages - 1;
printf("%.1f %.1f translate\n", left, top);
printf("%.3f %.3f scale\n\n",xprint * 72.0 / (xc1 - xc0 + 1),yprint * 72.0 / (yc1 - yc0 + 1));
if (LanguageLevel == 1)
{
printf("/picture %d string def\n", (xc1 - xc0 + 1) * abs(colorspace));
printf("%d %d 8[1 0 0 -1 0 1]", (xc1 - xc0 + 1), (yc1 - yc0 + 1));
if (colorspace == CUPS_IMAGE_WHITE)
puts("{currentfile picture readhexstring pop} image");
else
printf("{currentfile picture readhexstring pop} false %d colorimage\n",abs(colorspace));
for (y = yc0; y <= yc1; y ++)
{
cupsImageGetRow(img, xc0, y, xc1 - xc0 + 1, row);
ps_hex(row, (xc1 - xc0 + 1) * abs(colorspace), y == yc1);
}
}
else
{
switch (colorspace)
{
case CUPS_IMAGE_WHITE :
puts("/DeviceGray setcolorspace");
break;
case CUPS_IMAGE_RGB :
puts("/DeviceRGB setcolorspace");
break;
case CUPS_IMAGE_CMYK :
puts("/DeviceCMYK setcolorspace");
break;
}
printf("<<"
"/ImageType 1"
"/Width %d"
"/Height %d"
"/BitsPerComponent 8",
xc1 - xc0 + 1, yc1 - yc0 + 1);
switch (colorspace)
{
case CUPS_IMAGE_WHITE :
fputs("/Decode[0 1]", stdout);
break;
case CUPS_IMAGE_RGB :
fputs("/Decode[0 1 0 1 0 1]", stdout);
break;
case CUPS_IMAGE_CMYK :
fputs("/Decode[0 1 0 1 0 1 0 1]", stdout);
break;
}
fputs("\n/DataSource currentfile/ASCII85Decode filter", stdout);
if (((xc1 - xc0 + 1) / xprint) < 100.0)
fputs("/Interpolate true", stdout);
puts("/ImageMatrix[1 0 0 -1 0 1]>>image");
for (y = yc0, out_offset = 0; y <= yc1; y ++)
{
cupsImageGetRow(img, xc0, y, xc1 - xc0 + 1, row + out_offset);
out_length = (xc1 - xc0 + 1) * abs(colorspace) + out_offset;
out_offset = out_length & 3;
ps_ascii85(row, out_length, y == yc1);
if (out_offset > 0)
memcpy(row, row + out_length - out_offset, out_offset);
}
}
if(count==1){
puts("grestore");
WriteLabels(0);
puts("grestore");
}
puts("showpage");
puts("%%PageTrailer");
}
} //end of big for loop
puts("%%EOF");
/*
* End the job with the appropriate JCL command or CTRL-D otherwise.
*/
if (emit_jcl)
{
if (ppd && ppd->jcl_end)
ppdEmitJCLEnd(ppd, stdout);
else
putchar(0x04);
}
fflush(stdout);
dup2(defout,1);
close(outfd);
close(defout);
/*
* Close files...
*/
LOGI("imagetops:Close files");
cupsImageClose(img);
ppdClose(ppd);
return (0);
}
