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@ -36,6 +36,8 @@ import platform
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import hashlib
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from itertools import chain
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logger = logging.getLogger(__name__)
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have_pdfrw = True
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try:
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import pdfrw
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@ -1177,10 +1179,10 @@ def get_imgmetadata(imgdata, imgformat, default_dpi, colorspace, rawdata=None):
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ics = imgdata.mode
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if ics in ["LA", "PA", "RGBA"] or "transparency" in imgdata.info:
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logging.warning("Image contains transparency which cannot be retained in PDF.")
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logging.warning("img2pdf will not perform a lossy operation.")
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logging.warning("You can remove the alpha channel using imagemagick:")
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logging.warning(
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logger.warning("Image contains transparency which cannot be retained in PDF.")
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logger.warning("img2pdf will not perform a lossy operation.")
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logger.warning("You can remove the alpha channel using imagemagick:")
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logger.warning(
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" $ convert input.png -background white -alpha "
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"remove -alpha off output.png"
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)
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@ -1201,7 +1203,7 @@ def get_imgmetadata(imgdata, imgformat, default_dpi, colorspace, rawdata=None):
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imgdata.tag_v2.get(TiffImagePlugin.Y_RESOLUTION, default_dpi),
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)
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logging.debug("input dpi = %d x %d", *ndpi)
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logger.debug("input dpi = %d x %d", *ndpi)
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rotation = 0
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if hasattr(imgdata, "_getexif") and imgdata._getexif() is not None:
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@ -1224,11 +1226,11 @@ def get_imgmetadata(imgdata, imgformat, default_dpi, colorspace, rawdata=None):
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else:
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raise ExifOrientationError("Invalid rotation (%d)" % value)
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logging.debug("rotation = %d°", rotation)
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logger.debug("rotation = %d°", rotation)
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if colorspace:
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color = colorspace
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logging.debug("input colorspace (forced) = %s", color)
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logger.debug("input colorspace (forced) = %s", color)
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else:
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color = None
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for c in Colorspace:
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@ -1258,13 +1260,13 @@ def get_imgmetadata(imgdata, imgformat, default_dpi, colorspace, rawdata=None):
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# with the first approach for now.
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if "adobe" in imgdata.info:
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color = Colorspace["CMYK;I"]
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logging.debug("input colorspace = %s", color.name)
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logger.debug("input colorspace = %s", color.name)
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iccp = None
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if "icc_profile" in imgdata.info:
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iccp = imgdata.info.get("icc_profile")
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logging.debug("width x height = %dpx x %dpx", imgwidthpx, imgheightpx)
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logger.debug("width x height = %dpx x %dpx", imgwidthpx, imgheightpx)
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return (color, ndpi, imgwidthpx, imgheightpx, rotation, iccp)
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@ -1292,8 +1294,8 @@ def ccitt_payload_location_from_pil(img):
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(offset,), (length,) = strip_offsets, strip_bytes
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logging.debug("TIFF strip_offsets: %d" % offset)
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logging.debug("TIFF strip_bytes: %d" % length)
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logger.debug("TIFF strip_offsets: %d" % offset)
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logger.debug("TIFF strip_bytes: %d" % length)
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return offset, length
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@ -1301,7 +1303,7 @@ def ccitt_payload_location_from_pil(img):
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def transcode_monochrome(imgdata):
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"""Convert the open PIL.Image imgdata to compressed CCITT Group4 data"""
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logging.debug("Converting monochrome to CCITT Group4")
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logger.debug("Converting monochrome to CCITT Group4")
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# Convert the image to Group 4 in memory. If libtiff is not installed and
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# Pillow is not compiled against it, .save() will raise an exception.
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@ -1365,7 +1367,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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if imgformat is None:
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imgformat = ImageFormat.other
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logging.debug("imgformat = %s", imgformat.name)
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logger.debug("imgformat = %s", imgformat.name)
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# depending on the input format, determine whether to pass the raw
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# image or the zlib compressed color information
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@ -1382,7 +1384,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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if color == Colorspace["RGBA"]:
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raise JpegColorspaceError("jpeg can't have an alpha channel")
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im.close()
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logging.debug("read_images() embeds a JPEG")
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logger.debug("read_images() embeds a JPEG")
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return [
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(
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color,
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@ -1419,7 +1421,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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depth = rawdata[24]
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if depth not in [1, 2, 4, 8, 16]:
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raise ValueError("invalid bit depth: %d" % depth)
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logging.debug("read_images() embeds a PNG")
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logger.debug("read_images() embeds a PNG")
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return [
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(
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color,
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@ -1503,7 +1505,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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# msb-to-lsb: nothing to do
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pass
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elif fillorder == 2:
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logging.debug("fillorder is lsb-to-msb => reverse bits")
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logger.debug("fillorder is lsb-to-msb => reverse bits")
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# lsb-to-msb: reverse bits of each byte
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rawdata = bytearray(rawdata)
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for i in range(len(rawdata)):
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@ -1511,7 +1513,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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rawdata = bytes(rawdata)
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else:
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raise ValueError("unsupported FillOrder: %d" % fillorder)
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logging.debug("read_images() embeds Group4 from TIFF")
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logger.debug("read_images() embeds Group4 from TIFF")
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result.append(
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(
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color,
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@ -1530,7 +1532,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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img_page_count += 1
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continue
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logging.debug("Converting frame: %d" % img_page_count)
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logger.debug("Converting frame: %d" % img_page_count)
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color, ndpi, imgwidthpx, imgheightpx, rotation, iccp = get_imgmetadata(
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imgdata, imgformat, default_dpi, colorspace
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@ -1540,7 +1542,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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if color == Colorspace["1"]:
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try:
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ccittdata = transcode_monochrome(imgdata)
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logging.debug("read_images() encoded a B/W image as CCITT group 4")
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logger.debug("read_images() encoded a B/W image as CCITT group 4")
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result.append(
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(
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color,
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@ -1559,8 +1561,8 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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img_page_count += 1
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continue
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except Exception as e:
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logging.debug(e)
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logging.debug("Converting colorspace 1 to L")
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logger.debug(e)
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logger.debug("Converting colorspace 1 to L")
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newimg = imgdata.convert("L")
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color = Colorspace.L
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elif color in [
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@ -1570,7 +1572,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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Colorspace["CMYK;I"],
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Colorspace.P,
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]:
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logging.debug("Colorspace is OK: %s", color)
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logger.debug("Colorspace is OK: %s", color)
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newimg = imgdata
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else:
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raise ValueError("unknown or unsupported colorspace: %s" % color.name)
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@ -1578,7 +1580,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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# compression
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if color in [Colorspace.CMYK, Colorspace["CMYK;I"]]:
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imggz = zlib.compress(newimg.tobytes())
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logging.debug("read_images() encoded CMYK with flate compression")
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logger.debug("read_images() encoded CMYK with flate compression")
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result.append(
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(
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color,
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@ -1609,7 +1611,7 @@ def read_images(rawdata, colorspace, first_frame_only=False):
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depth = ord(pngbuffer.read(1))
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if depth not in [1, 2, 4, 8, 16]:
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raise ValueError("invalid bit depth: %d" % depth)
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logging.debug("read_images() encoded an image as PNG")
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logger.debug("read_images() encoded an image as PNG")
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result.append(
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(
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color,
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@ -2040,7 +2042,7 @@ def convert(*images, **kwargs):
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userunit = None
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if pagewidth < 3.00 or pageheight < 3.00:
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logging.warning(
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logger.warning(
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"pdf width or height is below 3.00 - too small for some viewers!"
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)
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elif pagewidth > 14400.0 or pageheight > 14400.0:
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@ -3614,7 +3616,7 @@ and left/right, respectively. It is not possible to specify asymmetric borders.
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# if no positional arguments were supplied, read a single image from
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# standard input
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if len(args.images) == 0:
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logging.info("reading image from standard input")
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logger.info("reading image from standard input")
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try:
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args.images = [sys.stdin.buffer.read()]
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except KeyboardInterrupt:
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@ -3625,14 +3627,14 @@ and left/right, respectively. It is not possible to specify asymmetric borders.
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if args.viewer_initial_page is not None:
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if args.viewer_initial_page < 1:
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parser.print_usage(file=sys.stderr)
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logging.error(
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logger.error(
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"%s: error: argument --viewer-initial-page: must be "
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"greater than zero" % parser.prog
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)
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sys.exit(2)
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if args.viewer_initial_page > len(args.images):
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parser.print_usage(file=sys.stderr)
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logging.error(
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logger.error(
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"%s: error: argument --viewer-initial-page: must be "
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"less than or equal to the total number of pages" % parser.prog
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)
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@ -3669,8 +3671,8 @@ and left/right, respectively. It is not possible to specify asymmetric borders.
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pdfa=args.pdfa,
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)
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except Exception as e:
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logging.error("error: " + str(e))
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if logging.getLogger().isEnabledFor(logging.DEBUG):
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logger.error("error: " + str(e))
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if logger.isEnabledFor(logging.DEBUG):
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import traceback
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traceback.print_exc(file=sys.stderr)
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