/*
* Raster test program routines for CUPS.
*
* Copyright 2007-2016 by Apple Inc.
* Copyright 1997-2007 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/raster-private.h>
#include <cups/ppd.h>
#include <math.h>
/*
* Test PS commands and header...
*/
static const char *dsc_code =
"[{\n"
"%%BeginFeature: *PageSize Tabloid\n"
"<</PageSize[792 1224]>>setpagedevice\n"
"%%EndFeature\n"
"} stopped cleartomark\n";
static const char *setpagedevice_code =
"<<"
"/MediaClass(Media Class)"
"/MediaColor((Media Color))"
"/MediaType(Media\\\\Type)"
"/OutputType<416263>"
"/AdvanceDistance 1000"
"/AdvanceMedia 1"
"/Collate false"
"/CutMedia 2"
"/Duplex true"
"/HWResolution[100 200]"
"/InsertSheet true"
"/Jog 3"
"/LeadingEdge 1"
"/ManualFeed true"
"/MediaPosition 8#777"
"/MediaWeight 16#fe01"
"/MirrorPrint true"
"/NegativePrint true"
"/NumCopies 1"
"/Orientation 1"
"/OutputFaceUp true"
"/PageSize[612 792.1]"
"/Separations true"
"/TraySwitch true"
"/Tumble true"
"/cupsMediaType 2"
"/cupsColorOrder 1"
"/cupsColorSpace 1"
"/cupsCompression 1"
"/cupsRowCount 1"
"/cupsRowFeed 1"
"/cupsRowStep 1"
"/cupsBorderlessScalingFactor 1.001"
"/cupsInteger0 1"
"/cupsInteger1 2"
"/cupsInteger2 3"
"/cupsInteger3 4"
"/cupsInteger4 5"
"/cupsInteger5 6"
"/cupsInteger6 7"
"/cupsInteger7 8"
"/cupsInteger8 9"
"/cupsInteger9 10"
"/cupsInteger10 11"
"/cupsInteger11 12"
"/cupsInteger12 13"
"/cupsInteger13 14"
"/cupsInteger14 15"
"/cupsInteger15 16"
"/cupsReal0 1.1"
"/cupsReal1 2.1"
"/cupsReal2 3.1"
"/cupsReal3 4.1"
"/cupsReal4 5.1"
"/cupsReal5 6.1"
"/cupsReal6 7.1"
"/cupsReal7 8.1"
"/cupsReal8 9.1"
"/cupsReal9 10.1"
"/cupsReal10 11.1"
"/cupsReal11 12.1"
"/cupsReal12 13.1"
"/cupsReal13 14.1"
"/cupsReal14 15.1"
"/cupsReal15 16.1"
"/cupsString0(1)"
"/cupsString1(2)"
"/cupsString2(3)"
"/cupsString3(4)"
"/cupsString4(5)"
"/cupsString5(6)"
"/cupsString6(7)"
"/cupsString7(8)"
"/cupsString8(9)"
"/cupsString9(10)"
"/cupsString10(11)"
"/cupsString11(12)"
"/cupsString12(13)"
"/cupsString13(14)"
"/cupsString14(15)"
"/cupsString15(16)"
"/cupsMarkerType(Marker Type)"
"/cupsRenderingIntent(Rendering Intent)"
"/cupsPageSizeName(Letter)"
"/cupsPreferredBitsPerColor 17"
">> setpagedevice";
static cups_page_header2_t setpagedevice_header =
{
"Media Class", /* MediaClass */
"(Media Color)", /* MediaColor */
"Media\\Type", /* MediaType */
"Abc", /* OutputType */
1000, /* AdvanceDistance */
CUPS_ADVANCE_FILE, /* AdvanceMedia */
CUPS_FALSE, /* Collate */
CUPS_CUT_JOB, /* CutMedia */
CUPS_TRUE, /* Duplex */
{ 100, 200 }, /* HWResolution */
{ 0, 0, 0, 0 }, /* ImagingBoundingBox */
CUPS_TRUE, /* InsertSheet */
CUPS_JOG_SET, /* Jog */
CUPS_EDGE_RIGHT, /* LeadingEdge */
{ 0, 0 }, /* Margins */
CUPS_TRUE, /* ManualFeed */
0777, /* MediaPosition */
0xfe01, /* MediaWeight */
CUPS_TRUE, /* MirrorPrint */
CUPS_TRUE, /* NegativePrint */
1, /* NumCopies */
CUPS_ORIENT_90, /* Orientation */
CUPS_TRUE, /* OutputFaceUp */
{ 612, 792 }, /* PageSize */
CUPS_TRUE, /* Separations */
CUPS_TRUE, /* TraySwitch */
CUPS_TRUE, /* Tumble */
0, /* cupsWidth */
0, /* cupsHeight */
2, /* cupsMediaType */
0, /* cupsBitsPerColor */
0, /* cupsBitsPerPixel */
0, /* cupsBytesPerLine */
CUPS_ORDER_BANDED, /* cupsColorOrder */
CUPS_CSPACE_RGB, /* cupsColorSpace */
1, /* cupsCompression */
1, /* cupsRowCount */
1, /* cupsRowFeed */
1, /* cupsRowStep */
0, /* cupsNumColors */
1.001f, /* cupsBorderlessScalingFactor */
{ 612.0f, 792.1f }, /* cupsPageSize */
{ 0.0f, 0.0f, 0.0f, 0.0f }, /* cupsImagingBBox */
{ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 },
/* cupsInteger[16] */
{ 1.1f, 2.1f, 3.1f, 4.1f, 5.1f, 6.1f, 7.1f, 8.1f, 9.1f, 10.1f, 11.1f, 12.1f, 13.1f, 14.1f, 15.1f, 16.1f }, /* cupsReal[16] */
{ "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13",
"14", "15", "16" }, /* cupsString[16] */
"Marker Type", /* cupsMarkerType */
"Rendering Intent", /* cupsRenderingIntent */
"Letter" /* cupsPageSizeName */
};
/*
* Local functions...
*/
static int do_ppd_tests(const char *filename, int num_options,
cups_option_t *options);
static int do_ps_tests(void);
static int do_ras_file(const char *filename);
static int do_raster_tests(cups_mode_t mode);
static void print_changes(cups_page_header2_t *header,
cups_page_header2_t *expected);
/*
* 'main()' - Test the raster functions.
*/
int /* O - Exit status */
main(int argc, /* I - Number of command-line args */
char *argv[]) /* I - Command-line arguments */
{
int errors; /* Number of errors */
const char *ext; /* Filename extension */
if (argc == 1)
{
errors = do_ps_tests();
errors += do_raster_tests(CUPS_RASTER_WRITE);
errors += do_raster_tests(CUPS_RASTER_WRITE_COMPRESSED);
errors += do_raster_tests(CUPS_RASTER_WRITE_PWG);
errors += do_raster_tests(CUPS_RASTER_WRITE_APPLE);
}
else
{
int i; /* Looping var */
int num_options; /* Number of options */
cups_option_t *options; /* Options */
for (errors = 0, num_options = 0, options = NULL, i = 1; i < argc; i ++)
{
if (argv[i][0] == '-')
{
if (argv[i][1] == 'o')
{
if (argv[i][2])
num_options = cupsParseOptions(argv[i] + 2, num_options, &options);
else
{
i ++;
if (i < argc)
num_options = cupsParseOptions(argv[i], num_options, &options);
else
{
puts("Usage: testraster [-o name=value ...] [filename.ppd ...]");
puts(" testraster [filename.ras ...]");
return (1);
}
}
}
else
{
puts("Usage: testraster [-o name=value ...] [filename.ppd ...]");
puts(" testraster [filename.ras ...]");
return (1);
}
}
else if ((ext = strrchr(argv[i], '.')) != NULL)
{
if (!strcmp(ext, ".ppd"))
errors += do_ppd_tests(argv[i], num_options, options);
else
errors += do_ras_file(argv[i]);
}
else
{
puts("Usage: testraster [-o name=value ...] [filename.ppd ...]");
puts(" testraster [filename.ras ...]");
return (1);
}
}
cupsFreeOptions(num_options, options);
}
return (errors);
}
/*
* 'do_ppd_tests()' - Test the default option commands in a PPD file.
*/
static int /* O - Number of errors */
do_ppd_tests(const char *filename, /* I - PPD file */
int num_options, /* I - Number of options */
cups_option_t *options) /* I - Options */
{
ppd_file_t *ppd; /* PPD file data */
cups_page_header2_t header; /* Page header */
printf("\"%s\": ", filename);
fflush(stdout);
if ((ppd = ppdOpenFile(filename)) == NULL)
{
ppd_status_t status; /* Status from PPD loader */
int line; /* Line number containing error */
status = ppdLastError(&line);
puts("FAIL (bad PPD file)");
printf(" %s on line %d\n", ppdErrorString(status), line);
return (1);
}
ppdMarkDefaults(ppd);
cupsMarkOptions(ppd, num_options, options);
if (cupsRasterInterpretPPD(&header, ppd, 0, NULL, NULL))
{
puts("FAIL (error from function)");
puts(cupsRasterErrorString());
return (1);
}
else
{
puts("PASS");
return (0);
}
}
/*
* 'do_ps_tests()' - Test standard PostScript commands.
*/
static int
do_ps_tests(void)
{
cups_page_header2_t header; /* Page header */
int preferred_bits; /* Preferred bits */
int errors = 0; /* Number of errors */
/*
* Test PS exec code...
*/
fputs("_cupsRasterExecPS(\"setpagedevice\"): ", stdout);
fflush(stdout);
memset(&header, 0, sizeof(header));
header.Collate = CUPS_TRUE;
preferred_bits = 0;
if (_cupsRasterExecPS(&header, &preferred_bits, setpagedevice_code))
{
puts("FAIL (error from function)");
puts(cupsRasterErrorString());
errors ++;
}
else if (preferred_bits != 17 ||
memcmp(&header, &setpagedevice_header, sizeof(header)))
{
puts("FAIL (bad header)");
if (preferred_bits != 17)
printf(" cupsPreferredBitsPerColor %d, expected 17\n",
preferred_bits);
print_changes(&setpagedevice_header, &header);
errors ++;
}
else
puts("PASS");
fputs("_cupsRasterExecPS(\"roll\"): ", stdout);
fflush(stdout);
if (_cupsRasterExecPS(&header, &preferred_bits,
"792 612 0 0 0\n"
"pop pop pop\n"
"<</PageSize[5 -2 roll]/ImagingBBox null>>"
"setpagedevice\n"))
{
puts("FAIL (error from function)");
puts(cupsRasterErrorString());
errors ++;
}
else if (header.PageSize[0] != 792 || header.PageSize[1] != 612)
{
printf("FAIL (PageSize [%d %d], expected [792 612])\n", header.PageSize[0],
header.PageSize[1]);
errors ++;
}
else
puts("PASS");
fputs("_cupsRasterExecPS(\"dup index\"): ", stdout);
fflush(stdout);
if (_cupsRasterExecPS(&header, &preferred_bits,
"true false dup\n"
"<</Collate 4 index"
"/Duplex 5 index"
"/Tumble 6 index>>setpagedevice\n"
"pop pop pop"))
{
puts("FAIL (error from function)");
puts(cupsRasterErrorString());
errors ++;
}
else
{
if (!header.Collate)
{
printf("FAIL (Collate false, expected true)\n");
errors ++;
}
if (header.Duplex)
{
printf("FAIL (Duplex true, expected false)\n");
errors ++;
}
if (header.Tumble)
{
printf("FAIL (Tumble true, expected false)\n");
errors ++;
}
if(header.Collate && !header.Duplex && !header.Tumble)
puts("PASS");
}
fputs("_cupsRasterExecPS(\"%%Begin/EndFeature code\"): ", stdout);
fflush(stdout);
if (_cupsRasterExecPS(&header, &preferred_bits, dsc_code))
{
puts("FAIL (error from function)");
puts(cupsRasterErrorString());
errors ++;
}
else if (header.PageSize[0] != 792 || header.PageSize[1] != 1224)
{
printf("FAIL (bad PageSize [%d %d], expected [792 1224])\n",
header.PageSize[0], header.PageSize[1]);
errors ++;
}
else
puts("PASS");
return (errors);
}
/*
* 'do_ras_file()' - Test reading of a raster file.
*/
static int /* O - Number of errors */
do_ras_file(const char *filename) /* I - Filename */
{
unsigned y; /* Looping vars */
int fd; /* File descriptor */
cups_raster_t *ras; /* Raster stream */
cups_page_header2_t header; /* Page header */
unsigned char *data; /* Raster data */
int errors = 0; /* Number of errors */
unsigned pages = 0; /* Number of pages */
if ((fd = open(filename, O_RDONLY)) < 0)
{
printf("%s: %s\n", filename, strerror(errno));
return (1);
}
if ((ras = cupsRasterOpen(fd, CUPS_RASTER_READ)) == NULL)
{
printf("%s: cupsRasterOpen failed.\n", filename);
close(fd);
return (1);
}
printf("%s:\n", filename);
while (cupsRasterReadHeader2(ras, &header))
{
pages ++;
data = malloc(header.cupsBytesPerLine);
printf(" Page %u: %ux%ux%u@%ux%udpi", pages,
header.cupsWidth, header.cupsHeight, header.cupsBitsPerPixel,
header.HWResolution[0], header.HWResolution[1]);
fflush(stdout);
for (y = 0; y < header.cupsHeight; y ++)
if (cupsRasterReadPixels(ras, data, header.cupsBytesPerLine) <
header.cupsBytesPerLine)
break;
if (y < header.cupsHeight)
printf(" ERROR AT LINE %d\n", y);
else
putchar('\n');
free(data);
}
printf("EOF at %ld\n", (long)lseek(fd, SEEK_CUR, 0));
cupsRasterClose(ras);
close(fd);
return (errors);
}
/*
* 'do_raster_tests()' - Test reading and writing of raster data.
*/
static int /* O - Number of errors */
do_raster_tests(cups_mode_t mode) /* O - Write mode */
{
unsigned page, x, y; /* Looping vars */
FILE *fp; /* Raster file */
cups_raster_t *r; /* Raster stream */
cups_page_header2_t header, /* Page header */
expected; /* Expected page header */
unsigned char data[2048]; /* Raster data */
int errors = 0; /* Number of errors */
/*
* Test writing...
*/
printf("cupsRasterOpen(%s): ",
mode == CUPS_RASTER_WRITE ? "CUPS_RASTER_WRITE" :
mode == CUPS_RASTER_WRITE_COMPRESSED ? "CUPS_RASTER_WRITE_COMPRESSED" :
mode == CUPS_RASTER_WRITE_PWG ? "CUPS_RASTER_WRITE_PWG" :
"CUPS_RASTER_WRITE_APPLE");
fflush(stdout);
if ((fp = fopen("test.raster", "wb")) == NULL)
{
printf("FAIL (%s)\n", strerror(errno));
return (1);
}
if ((r = cupsRasterOpen(fileno(fp), mode)) == NULL)
{
printf("FAIL (%s)\n", strerror(errno));
fclose(fp);
return (1);
}
puts("PASS");
for (page = 0; page < 4; page ++)
{
memset(&header, 0, sizeof(header));
header.cupsWidth = 256;
header.cupsHeight = 256;
header.cupsBytesPerLine = 256;
header.HWResolution[0] = 64;
header.HWResolution[1] = 64;
header.PageSize[0] = 288;
header.PageSize[1] = 288;
header.cupsPageSize[0] = 288.0f;
header.cupsPageSize[1] = 288.0f;
if (page & 1)
{
header.cupsBytesPerLine *= 4;
header.cupsColorSpace = CUPS_CSPACE_CMYK;
header.cupsColorOrder = CUPS_ORDER_CHUNKED;
header.cupsNumColors = 4;
}
else
{
header.cupsColorSpace = CUPS_CSPACE_W;
header.cupsColorOrder = CUPS_ORDER_CHUNKED;
header.cupsNumColors = 1;
}
if (page & 2)
{
header.cupsBytesPerLine *= 2;
header.cupsBitsPerColor = 16;
header.cupsBitsPerPixel = (page & 1) ? 64 : 16;
}
else
{
header.cupsBitsPerColor = 8;
header.cupsBitsPerPixel = (page & 1) ? 32 : 8;
}
if (cupsRasterWriteHeader2(r, &header))
puts("cupsRasterWriteHeader2: PASS");
else
{
puts("cupsRasterWriteHeader2: FAIL");
errors ++;
}
fputs("cupsRasterWritePixels: ", stdout);
fflush(stdout);
memset(data, 0, header.cupsBytesPerLine);
for (y = 0; y < 64; y ++)
if (!cupsRasterWritePixels(r, data, header.cupsBytesPerLine))
break;
if (y < 64)
{
puts("FAIL");
errors ++;
}
else
{
for (x = 0; x < header.cupsBytesPerLine; x ++)
data[x] = (unsigned char)x;
for (y = 0; y < 64; y ++)
if (!cupsRasterWritePixels(r, data, header.cupsBytesPerLine))
break;
if (y < 64)
{
puts("FAIL");
errors ++;
}
else
{
memset(data, 255, header.cupsBytesPerLine);
for (y = 0; y < 64; y ++)
if (!cupsRasterWritePixels(r, data, header.cupsBytesPerLine))
break;
if (y < 64)
{
puts("FAIL");
errors ++;
}
else
{
for (x = 0; x < header.cupsBytesPerLine; x ++)
data[x] = (unsigned char)(x / 4);
for (y = 0; y < 64; y ++)
if (!cupsRasterWritePixels(r, data, header.cupsBytesPerLine))
break;
if (y < 64)
{
puts("FAIL");
errors ++;
}
else
puts("PASS");
}
}
}
}
cupsRasterClose(r);
fclose(fp);
/*
* Test reading...
*/
fputs("cupsRasterOpen(CUPS_RASTER_READ): ", stdout);
fflush(stdout);
if ((fp = fopen("test.raster", "rb")) == NULL)
{
printf("FAIL (%s)\n", strerror(errno));
return (1);
}
if ((r = cupsRasterOpen(fileno(fp), CUPS_RASTER_READ)) == NULL)
{
printf("FAIL (%s)\n", strerror(errno));
fclose(fp);
return (1);
}
puts("PASS");
for (page = 0; page < 4; page ++)
{
memset(&expected, 0, sizeof(expected));
expected.cupsWidth = 256;
expected.cupsHeight = 256;
expected.cupsBytesPerLine = 256;
expected.HWResolution[0] = 64;
expected.HWResolution[1] = 64;
expected.PageSize[0] = 288;
expected.PageSize[1] = 288;
if (mode != CUPS_RASTER_WRITE_PWG)
{
expected.cupsPageSize[0] = 288.0f;
expected.cupsPageSize[1] = 288.0f;
}
if (mode >= CUPS_RASTER_WRITE_PWG)
{
strlcpy(expected.MediaClass, "PwgRaster", sizeof(expected.MediaClass));
expected.cupsInteger[7] = 0xffffff;
}
if (page & 1)
{
expected.cupsBytesPerLine *= 4;
expected.cupsColorSpace = CUPS_CSPACE_CMYK;
expected.cupsColorOrder = CUPS_ORDER_CHUNKED;
expected.cupsNumColors = 4;
}
else
{
expected.cupsColorSpace = CUPS_CSPACE_W;
expected.cupsColorOrder = CUPS_ORDER_CHUNKED;
expected.cupsNumColors = 1;
}
if (page & 2)
{
expected.cupsBytesPerLine *= 2;
expected.cupsBitsPerColor = 16;
expected.cupsBitsPerPixel = (page & 1) ? 64 : 16;
}
else
{
expected.cupsBitsPerColor = 8;
expected.cupsBitsPerPixel = (page & 1) ? 32 : 8;
}
fputs("cupsRasterReadHeader2: ", stdout);
fflush(stdout);
if (!cupsRasterReadHeader2(r, &header))
{
puts("FAIL (read error)");
errors ++;
break;
}
if (memcmp(&header, &expected, sizeof(header)))
{
puts("FAIL (bad page header)");
errors ++;
print_changes(&header, &expected);
}
fputs("cupsRasterReadPixels: ", stdout);
fflush(stdout);
for (y = 0; y < 64; y ++)
{
if (!cupsRasterReadPixels(r, data, header.cupsBytesPerLine))
{
puts("FAIL (read error)");
errors ++;
break;
}
if (data[0] != 0 || memcmp(data, data + 1, header.cupsBytesPerLine - 1))
{
printf("FAIL (raster line %d corrupt)\n", y);
errors ++;
break;
}
}
if (y == 64)
{
for (y = 0; y < 64; y ++)
{
if (!cupsRasterReadPixels(r, data, header.cupsBytesPerLine))
{
puts("FAIL (read error)");
errors ++;
break;
}
for (x = 0; x < header.cupsBytesPerLine; x ++)
if (data[x] != (x & 255))
break;
if (x < header.cupsBytesPerLine)
{
printf("FAIL (raster line %d corrupt)\n", y + 64);
errors ++;
break;
}
}
if (y == 64)
{
for (y = 0; y < 64; y ++)
{
if (!cupsRasterReadPixels(r, data, header.cupsBytesPerLine))
{
puts("FAIL (read error)");
errors ++;
break;
}
if (data[0] != 255 || memcmp(data, data + 1, header.cupsBytesPerLine - 1))
{
printf("fail (raster line %d corrupt)\n", y + 128);
errors ++;
break;
}
}
if (y == 64)
{
for (y = 0; y < 64; y ++)
{
if (!cupsRasterReadPixels(r, data, header.cupsBytesPerLine))
{
puts("FAIL (read error)");
errors ++;
break;
}
for (x = 0; x < header.cupsBytesPerLine; x ++)
if (data[x] != ((x / 4) & 255))
break;
if (x < header.cupsBytesPerLine)
{
printf("FAIL (raster line %d corrupt)\n", y + 192);
errors ++;
break;
}
}
if (y == 64)
puts("PASS");
}
}
}
}
cupsRasterClose(r);
fclose(fp);
return (errors);
}
/*
* 'print_changes()' - Print differences in the page header.
*/
static void
print_changes(
cups_page_header2_t *header, /* I - Actual page header */
cups_page_header2_t *expected) /* I - Expected page header */
{
int i; /* Looping var */
if (strcmp(header->MediaClass, expected->MediaClass))
printf(" MediaClass (%s), expected (%s)\n", header->MediaClass,
expected->MediaClass);
if (strcmp(header->MediaColor, expected->MediaColor))
printf(" MediaColor (%s), expected (%s)\n", header->MediaColor,
expected->MediaColor);
if (strcmp(header->MediaType, expected->MediaType))
printf(" MediaType (%s), expected (%s)\n", header->MediaType,
expected->MediaType);
if (strcmp(header->OutputType, expected->OutputType))
printf(" OutputType (%s), expected (%s)\n", header->OutputType,
expected->OutputType);
if (header->AdvanceDistance != expected->AdvanceDistance)
printf(" AdvanceDistance %d, expected %d\n", header->AdvanceDistance,
expected->AdvanceDistance);
if (header->AdvanceMedia != expected->AdvanceMedia)
printf(" AdvanceMedia %d, expected %d\n", header->AdvanceMedia,
expected->AdvanceMedia);
if (header->Collate != expected->Collate)
printf(" Collate %d, expected %d\n", header->Collate,
expected->Collate);
if (header->CutMedia != expected->CutMedia)
printf(" CutMedia %d, expected %d\n", header->CutMedia,
expected->CutMedia);
if (header->Duplex != expected->Duplex)
printf(" Duplex %d, expected %d\n", header->Duplex,
expected->Duplex);
if (header->HWResolution[0] != expected->HWResolution[0] ||
header->HWResolution[1] != expected->HWResolution[1])
printf(" HWResolution [%d %d], expected [%d %d]\n",
header->HWResolution[0], header->HWResolution[1],
expected->HWResolution[0], expected->HWResolution[1]);
if (memcmp(header->ImagingBoundingBox, expected->ImagingBoundingBox,
sizeof(header->ImagingBoundingBox)))
printf(" ImagingBoundingBox [%d %d %d %d], expected [%d %d %d %d]\n",
header->ImagingBoundingBox[0],
header->ImagingBoundingBox[1],
header->ImagingBoundingBox[2],
header->ImagingBoundingBox[3],
expected->ImagingBoundingBox[0],
expected->ImagingBoundingBox[1],
expected->ImagingBoundingBox[2],
expected->ImagingBoundingBox[3]);
if (header->InsertSheet != expected->InsertSheet)
printf(" InsertSheet %d, expected %d\n", header->InsertSheet,
expected->InsertSheet);
if (header->Jog != expected->Jog)
printf(" Jog %d, expected %d\n", header->Jog,
expected->Jog);
if (header->LeadingEdge != expected->LeadingEdge)
printf(" LeadingEdge %d, expected %d\n", header->LeadingEdge,
expected->LeadingEdge);
if (header->Margins[0] != expected->Margins[0] ||
header->Margins[1] != expected->Margins[1])
printf(" Margins [%d %d], expected [%d %d]\n",
header->Margins[0], header->Margins[1],
expected->Margins[0], expected->Margins[1]);
if (header->ManualFeed != expected->ManualFeed)
printf(" ManualFeed %d, expected %d\n", header->ManualFeed,
expected->ManualFeed);
if (header->MediaPosition != expected->MediaPosition)
printf(" MediaPosition %d, expected %d\n", header->MediaPosition,
expected->MediaPosition);
if (header->MediaWeight != expected->MediaWeight)
printf(" MediaWeight %d, expected %d\n", header->MediaWeight,
expected->MediaWeight);
if (header->MirrorPrint != expected->MirrorPrint)
printf(" MirrorPrint %d, expected %d\n", header->MirrorPrint,
expected->MirrorPrint);
if (header->NegativePrint != expected->NegativePrint)
printf(" NegativePrint %d, expected %d\n", header->NegativePrint,
expected->NegativePrint);
if (header->NumCopies != expected->NumCopies)
printf(" NumCopies %d, expected %d\n", header->NumCopies,
expected->NumCopies);
if (header->Orientation != expected->Orientation)
printf(" Orientation %d, expected %d\n", header->Orientation,
expected->Orientation);
if (header->OutputFaceUp != expected->OutputFaceUp)
printf(" OutputFaceUp %d, expected %d\n", header->OutputFaceUp,
expected->OutputFaceUp);
if (header->PageSize[0] != expected->PageSize[0] ||
header->PageSize[1] != expected->PageSize[1])
printf(" PageSize [%d %d], expected [%d %d]\n",
header->PageSize[0], header->PageSize[1],
expected->PageSize[0], expected->PageSize[1]);
if (header->Separations != expected->Separations)
printf(" Separations %d, expected %d\n", header->Separations,
expected->Separations);
if (header->TraySwitch != expected->TraySwitch)
printf(" TraySwitch %d, expected %d\n", header->TraySwitch,
expected->TraySwitch);
if (header->Tumble != expected->Tumble)
printf(" Tumble %d, expected %d\n", header->Tumble,
expected->Tumble);
if (header->cupsWidth != expected->cupsWidth)
printf(" cupsWidth %d, expected %d\n", header->cupsWidth,
expected->cupsWidth);
if (header->cupsHeight != expected->cupsHeight)
printf(" cupsHeight %d, expected %d\n", header->cupsHeight,
expected->cupsHeight);
if (header->cupsMediaType != expected->cupsMediaType)
printf(" cupsMediaType %d, expected %d\n", header->cupsMediaType,
expected->cupsMediaType);
if (header->cupsBitsPerColor != expected->cupsBitsPerColor)
printf(" cupsBitsPerColor %d, expected %d\n", header->cupsBitsPerColor,
expected->cupsBitsPerColor);
if (header->cupsBitsPerPixel != expected->cupsBitsPerPixel)
printf(" cupsBitsPerPixel %d, expected %d\n", header->cupsBitsPerPixel,
expected->cupsBitsPerPixel);
if (header->cupsBytesPerLine != expected->cupsBytesPerLine)
printf(" cupsBytesPerLine %d, expected %d\n", header->cupsBytesPerLine,
expected->cupsBytesPerLine);
if (header->cupsColorOrder != expected->cupsColorOrder)
printf(" cupsColorOrder %d, expected %d\n", header->cupsColorOrder,
expected->cupsColorOrder);
if (header->cupsColorSpace != expected->cupsColorSpace)
printf(" cupsColorSpace %d, expected %d\n", header->cupsColorSpace,
expected->cupsColorSpace);
if (header->cupsCompression != expected->cupsCompression)
printf(" cupsCompression %d, expected %d\n", header->cupsCompression,
expected->cupsCompression);
if (header->cupsRowCount != expected->cupsRowCount)
printf(" cupsRowCount %d, expected %d\n", header->cupsRowCount,
expected->cupsRowCount);
if (header->cupsRowFeed != expected->cupsRowFeed)
printf(" cupsRowFeed %d, expected %d\n", header->cupsRowFeed,
expected->cupsRowFeed);
if (header->cupsRowStep != expected->cupsRowStep)
printf(" cupsRowStep %d, expected %d\n", header->cupsRowStep,
expected->cupsRowStep);
if (header->cupsNumColors != expected->cupsNumColors)
printf(" cupsNumColors %d, expected %d\n", header->cupsNumColors,
expected->cupsNumColors);
if (fabs(header->cupsBorderlessScalingFactor - expected->cupsBorderlessScalingFactor) > 0.001)
printf(" cupsBorderlessScalingFactor %g, expected %g\n",
header->cupsBorderlessScalingFactor,
expected->cupsBorderlessScalingFactor);
if (fabs(header->cupsPageSize[0] - expected->cupsPageSize[0]) > 0.001 ||
fabs(header->cupsPageSize[1] - expected->cupsPageSize[1]) > 0.001)
printf(" cupsPageSize [%g %g], expected [%g %g]\n",
header->cupsPageSize[0], header->cupsPageSize[1],
expected->cupsPageSize[0], expected->cupsPageSize[1]);
if (fabs(header->cupsImagingBBox[0] - expected->cupsImagingBBox[0]) > 0.001 ||
fabs(header->cupsImagingBBox[1] - expected->cupsImagingBBox[1]) > 0.001 ||
fabs(header->cupsImagingBBox[2] - expected->cupsImagingBBox[2]) > 0.001 ||
fabs(header->cupsImagingBBox[3] - expected->cupsImagingBBox[3]) > 0.001)
printf(" cupsImagingBBox [%g %g %g %g], expected [%g %g %g %g]\n",
header->cupsImagingBBox[0], header->cupsImagingBBox[1],
header->cupsImagingBBox[2], header->cupsImagingBBox[3],
expected->cupsImagingBBox[0], expected->cupsImagingBBox[1],
expected->cupsImagingBBox[2], expected->cupsImagingBBox[3]);
for (i = 0; i < 16; i ++)
if (header->cupsInteger[i] != expected->cupsInteger[i])
printf(" cupsInteger%d %d, expected %d\n", i, header->cupsInteger[i],
expected->cupsInteger[i]);
for (i = 0; i < 16; i ++)
if (fabs(header->cupsReal[i] - expected->cupsReal[i]) > 0.001)
printf(" cupsReal%d %g, expected %g\n", i, header->cupsReal[i],
expected->cupsReal[i]);
for (i = 0; i < 16; i ++)
if (strcmp(header->cupsString[i], expected->cupsString[i]))
printf(" cupsString%d (%s), expected (%s)\n", i,
header->cupsString[i], expected->cupsString[i]);
if (strcmp(header->cupsMarkerType, expected->cupsMarkerType))
printf(" cupsMarkerType (%s), expected (%s)\n", header->cupsMarkerType,
expected->cupsMarkerType);
if (strcmp(header->cupsRenderingIntent, expected->cupsRenderingIntent))
printf(" cupsRenderingIntent (%s), expected (%s)\n",
header->cupsRenderingIntent,
expected->cupsRenderingIntent);
if (strcmp(header->cupsPageSizeName, expected->cupsPageSizeName))
printf(" cupsPageSizeName (%s), expected (%s)\n",
header->cupsPageSizeName,
expected->cupsPageSizeName);
}