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#	src/img2pdf.py
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James R. Barlow 2016-01-16 03:05:31 -08:00
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@ -2,7 +2,43 @@
CHANGES
=======
1.0.0 (unreleased)
0.1.6
-----
- replace -x and -y option by combined option -s (or --pagesize) and use -S
for --subject
- correctly encode and escape non-ascii metadata
- explicitly store date in UTC and allow parsing all date formats understood
by dateutil and `date --date`
0.1.5
-----
- Enable support for CMYK images
- Rework test suite
- support file objects as input
0.1.4
-----
- add Python 3 support
- make output reproducible by sorting and --nodate option
0.1.3
-----
- Avoid leaking file descriptors
- Convert unrecognized colorspaces to RGB
0.1.1
-----
- allow running src/img2pdf.py standalone
- license change from GPL to LGPL
- Add pillow 2.4.0 support
- add options to specify pdf dimensions in points
0.1.0 (unreleased)
------------------
- Initial PyPI release.

202
README.md
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@ -1,15 +1,16 @@
img2pdf
=======
Lossless conversion of images to PDF without unnecessarily re-encoding JPEG and
JPEG2000 files. Thus, no loss of quality and no unnecessary large output file.
Losslessly convert images to PDF without unnecessarily re-encoding JPEG and
JPEG2000 files. Image quality is retained without unnecessarily increasing
file size.
Background
----------
PDF is able to embed JPEG and JPEG2000 images as they are without re-encoding
them (and hence loosing quality) but I was missing a tool to do this
automatically, thus I wrote this piece of python code.
Quality loss can be avoided when converting JPEG and JPEG2000 images to
PDF by embedding them without re-encoding. I wrote this piece of python code.
because I was missing a tool to do this automatically.
If you know how to embed JPEG and JPEG2000 images into a PDF container without
recompression, using existing tools, please contact me so that I can put this
@ -18,110 +19,173 @@ code into the garbage bin :D
Functionality
-------------
The program will take image filenames from commandline arguments and output a
PDF file with them embedded into it. If the input image is a JPEG or JPEG2000
file, it will be included as-is without any processing. If it is in any other
format, the image will be included as zip-encoded RGB. As a result, this tool
will be able to lossless wrap any image into a PDF container while performing
better (in terms of quality/filesize ratio) than existing tools in case the
input image is a JPEG or JPEG2000 file.
This program will take a list of images and produce a PDF file with the images
embedded in it. JPEG and JPEG2000 images will be included without
recompression. Images in other formats will be included with zip/flate
encoding which usually leads to an increase in the resulting size because
formats like png compress better than PDF which just zip/flate compresses the
RGB data. As a result, this tool is able to losslessly wrap images into a PDF
container with a quality-filesize ratio that is typically better (in case of
JPEG and JPEG2000 images) or equal (in case of other formats) than that of
existing tools.
For example, imagemagick will re-encode the input JPEG image and thus change
its content:
For example, imagemagick will re-encode the input JPEG image (thus changing
its content):
$ convert img.jpg img.pdf
$ pdfimages img.pdf img.extr # not using -j to be extra sure there is no recompression
$ compare -metric AE img.jpg img.extr-000.ppm null:
1.6301e+06
If one wants to do a lossless conversion from any format to PDF with
imagemagick then one has to use zip-encoding:
If one wants to losslessly convert from any format to PDF with
imagemagick, one has to use zip compression:
$ convert input.jpg -compress Zip output.pdf
$ pdfimages img.pdf img.extr # not using -j to be extra sure there is no recompression
$ compare -metric AE img.jpg img.extr-000.ppm null:
0
The downside is, that using imagemagick like this will make the resulting PDF
files a few times bigger than the input JPEG or JPEG2000 file and can also not
output a multipage PDF.
However, this approach will result in PDF files that are a few times larger
than the input JPEG or JPEG2000 file.
img2pdf is able to output a PDF with multiple pages if more than one input
image is given, losslessly embed JPEG and JPEG2000 files into a PDF container
without adding more overhead than the PDF structure itself and will save all
other graphics formats using lossless zip-compression.
img2pdf is able to losslessly embed JPEG and JPEG2000 files into a PDF
container without additional overhead (aside from the PDF structure itself),
save other graphics formats using lossless zip compression,
and produce multi-page PDF files when more than one input image is given.
Another nifty advantage: Since no re-encoding is done in case of JPEG images,
the conversion is many (ten to hundred) times faster with img2pdf compared to
imagemagick. While a run of above convert command with a 2.8MB JPEG takes 27
seconds (on average) on my machine, conversion using img2pdf takes just a
fraction of a second.
Also, since JPEG and JPEG2000 images are not reencoded, conversion with
img2pdf is several times faster than with other tools.
Commandline Arguments
---------------------
At least one input file argument must be given as img2pdf needs to seek in the
file descriptor which would not be possible for stdin.
Usage
-----
Specify the dpi with the -d or --dpi options instead of reading it from the
image or falling back to 96.0.
#### General Notes
Specify the output file with -o or --output. By default output will be done to
stdout.
The images must be provided as files because img2pdf needs to seek
in the file descriptor. Input cannot be piped through stdin.
Specify metadata using the --title, --author, --creator, --producer,
--creationdate, --moddate, --subject and --keywords options (or their short
forms).
If no output file is specified with the `-o`/`--output` option,
output will be to stdout.
Specify -C or --colorspace to force a colorspace using PIL short handles like
'RGB', 'L' or '1'.
Descriptions of the options should be self explanatory.
They are available by running:
More help is available with the -h or --help option.
img2pdf --help
#### Controlling Page Size
The PDF page size can be manipulated. By default, the image will be sized "into" the given dimensions with the aspect ratio retained. For instance, to size an image into a page that is at most 500pt x 500pt, use:
img2pdf -s 500x500 -o output.pdf input.jpg
To "fill" out a page that is at least 500pt x 500pt, follow the dimensions with a `^`:
img2pdf -s 500x500^ -o output.pdf input.jpg
To output pages that are exactly 500pt x 500pt, follow the dimensions with an `!`:
img2pdf -s 500x500\! -o output.pdf input.jpg
Notice that the default unit is points. Units may be also be specified and mixed:
img2pdf -s 8.5inx27.94cm -o output.pdf input.jpg
If either width or height is omitted, the other will be calculated
to preserve aspect ratio.
img2pdf -s x280mm -o output1.pdf input.jpg
img2pdf -s 280mmx -o output2.pdf input.jpg
Some standard page sizes are recognized:
img2pdf -s letter -o output1.pdf input.jpg
img2pdf -s a4 -o output2.pdf input.jpg
#### Colorspace
Currently, the colorspace must be forced for JPEG 2000 images that are
not in the RGB colorspace. Available colorspace options are based on
Python Imaging Library (PIL) short handles.
* `RGB` = RGB color
* `L` = Grayscale
* `1` = Black and white (internally converted to grayscale)
* `CMYK` = CMYK color
* `CMYK;I` = CMYK color with inversion
For example, to encode a grayscale JPEG2000 image, use:
img2pdf -C L -o output.pdf input.jp2
Bugs
----
If you find a JPEG or JPEG2000 file that, when embedded can not be read by the
Adobe Acrobat Reader, please contact me.
If you find a JPEG or JPEG2000 file that, when embedded cannot be read
by the Adobe Acrobat Reader, please contact me.
For lossless conversion of other formats than JPEG or JPEG2000 files, zip/flate
encoding is used. This choice is based on a number of tests I did on images.
I converted them into PDF using imagemagick and all compressions it has to
offer and then compared the output size of the lossless variants. In all my
tests, zip/flate encoding performed best. You can verify my findings using the
test_comp.sh script with any input image given as a commandline argument. If
you find an input file that is outperformed by another lossless compression,
contact me.
For lossless conversion of formats other than JPEG or JPEG2000, zip/flate
encoding is used. This choice is based on tests I did with a number of images.
I converted them into PDF using the lossless variants of the compression
formats offered by imagemagick. In all my tests, zip/flate encoding performed
best. You can verify my findings using the test_comp.sh script with any input
image given as a commandline argument. If you find an input file that is
outperformed by another lossless compression method, contact me.
I have not yet figured out how to read the colorspace from jpeg2000 files.
Therefor jpeg2000 files use DeviceRGB per default. If your jpeg2000 files are
of any other colorspace you must force it using the --colorspace option.
Like -C L for DeviceGray.
I have not yet figured out how to determine the colorspace of JPEG2000 files.
Therefore JPEG2000 files use DeviceRGB by default. For JPEG2000 files with
other colorspaces, you must force it using the `--colorspace` option.
It might be possible to store transparency using masks but it is not clear
what the utility of such a functionality would be.
Most vector graphic formats can be losslessly turned into PDF (minus some of
the features unsupported by PDF) but img2pdf will currently turn vector
graphics into their lossy raster representations.
Acrobat is able to store a hint for the PDF reader of how to present the PDF
when opening it. Things like automatic fullscreen or the zoom level can be
configured.
It would be nice if a single input image could be read from standard input.
Installation
------------
You can install the package using:
On a Debian- and Ubuntu-based systems, dependencies may be installed
with the following command:
$ pip install img2pdf
apt-get install python python-pil python-setuptools
If you want to install from source code simply use:
Or for Python 3:
$ cd img2pdf/
$ pip install .
apt-get install python3 python3-pil python3-setuptools
You can then install the package using:
$ pip install img2pdf
If you prefer to install from source code use:
$ cd img2pdf/
$ pip install .
To test the console script without installing the package on your system,
simply use virtualenv:
use virtualenv:
$ cd img2pdf/
$ virtualenv ve
$ ve/bin/pip install .
$ cd img2pdf/
$ virtualenv ve
$ ve/bin/pip install .
You can then test the converter using:
$ ve/bin/img2pdf -o test.pdf src/tests/test.jpg
$ ve/bin/img2pdf -o test.pdf src/tests/test.jpg
Note that the package can also be used as a library as follows:
The package can also be used as a library:
import img2pdf
pdf_bytes = img2pdf('test.jpg', dpi=150)
import img2pdf
pdf_bytes = img2pdf.convert(['test.jpg'])
file = open("name.pdf","wb")
file.write(pdf_bytes)

2
setup.cfg Normal file
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@ -0,0 +1,2 @@
[metadata]
description-file = README.md

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@ -1,9 +1,12 @@
from setuptools import setup
VERSION="0.1.6~git"
setup (
name='img2pdf',
version='0.1.0',
version=VERSION,
author = "Johannes 'josch' Schauer",
author_email = 'j.schauer@email.de',
description = "Convert images to PDF via direct JPEG inclusion.",
long_description = open('README.md').read(),
license = "LGPL",
@ -15,12 +18,15 @@ setup (
'Programming Language :: Python :: 2',
'Programming Language :: Python :: 2.6',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3',
'Programming Language :: Python :: 3.4',
'Programming Language :: Python :: Implementation :: CPython',
'License :: OSI Approved :: GNU Lesser General Public License v3 (LGPLv3)',
'Programming Language :: Python',
'Natural Language :: English',
'Operating System :: OS Independent'],
url = 'http://pypi.python.org/pypi/img2pdf',
url = 'https://github.com/josch/img2pdf',
download_url = 'https://github.com/josch/img2pdf/archive/'+VERSION+'.tar.gz',
package_dir={"": "src"},
py_modules=['img2pdf', 'jp2'],
include_package_data = True,

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@ -1,3 +1,5 @@
#!/usr/bin/env python2
# Copyright (C) 2012-2014 Johannes 'josch' Schauer <j.schauer at email.de>
#
# This program is free software: you can redistribute it and/or
@ -15,13 +17,20 @@
# License along with this program. If not, see
# <http://www.gnu.org/licenses/>.
__version__ = "0.1.6~git"
default_dpi = 96.0
import re
import sys
import zlib
import argparse
import struct
from PIL import Image
from datetime import datetime
from jp2 import parsejp2
try:
from cStringIO import cStringIO
except ImportError:
from io import BytesIO as cStringIO
# XXX: Switch to use logging module.
def debug_out(message, verbose=True):
@ -34,19 +43,28 @@ def error_out(message):
def warning_out(message):
sys.stderr.write("W: "+message+"\n")
def datetime_to_pdfdate(dt):
return dt.strftime("%Y%m%d%H%M%SZ")
def parse(cont, indent=1):
if type(cont) is dict:
return "<<\n"+"\n".join(
[4 * indent * " " + "%s %s" % (k, parse(v, indent+1))
for k, v in cont.items()])+"\n"+4*(indent-1)*" "+">>"
elif type(cont) is int or type(cont) is float:
return str(cont)
return b"<<\n"+b"\n".join(
[4 * indent * b" " + k + b" " + parse(v, indent+1)
for k, v in sorted(cont.items())])+b"\n"+4*(indent-1)*b" "+b">>"
elif type(cont) is int:
return str(cont).encode()
elif type(cont) is float:
return ("%0.4f"%cont).encode()
elif isinstance(cont, obj):
return "%d 0 R"%cont.identifier
elif type(cont) is str:
return ("%d 0 R"%cont.identifier).encode()
elif type(cont) is str or type(cont) is bytes:
if type(cont) is str and type(cont) is not bytes:
raise Exception("parse must be passed a bytes object in py3")
return cont
elif type(cont) is list:
return "[ "+" ".join([parse(c, indent) for c in cont])+" ]"
return b"[ "+b" ".join([parse(c, indent) for c in cont])+b" ]"
else:
raise Exception("cannot handle type %s"%type(cont))
class obj(object):
def __init__(self, content, stream=None):
@ -56,56 +74,56 @@ class obj(object):
def tostring(self):
if self.stream:
return (
"%d 0 obj " % self.identifier +
("%d 0 obj " % self.identifier).encode() +
parse(self.content) +
"\nstream\n" + self.stream + "\nendstream\nendobj\n")
b"\nstream\n" + self.stream + b"\nendstream\nendobj\n")
else:
return "%d 0 obj "%self.identifier+parse(self.content)+" endobj\n"
return ("%d 0 obj "%self.identifier).encode()+parse(self.content)+b" endobj\n"
class pdfdoc(object):
def __init__(self, version=3, title=None, author=None, creator=None,
producer=None, creationdate=None, moddate=None, subject=None,
keywords=None):
keywords=None, nodate=False):
self.version = version # default pdf version 1.3
now = datetime.now()
self.objects = []
info = {}
if title:
info["/Title"] = "("+title+")"
info[b"/Title"] = b"("+title+b")"
if author:
info["/Author"] = "("+author+")"
info[b"/Author"] = b"("+author+b")"
if creator:
info["/Creator"] = "("+creator+")"
info[b"/Creator"] = b"("+creator+b")"
if producer:
info["/Producer"] = "("+producer+")"
info[b"/Producer"] = b"("+producer+b")"
if creationdate:
info["/CreationDate"] = "(D:"+creationdate.strftime("%Y%m%d%H%M%S")+")"
else:
info["/CreationDate"] = "(D:"+now.strftime("%Y%m%d%H%M%S")+")"
info[b"/CreationDate"] = b"(D:"+datetime_to_pdfdate(creationdate).encode()+b")"
elif not nodate:
info[b"/CreationDate"] = b"(D:"+datetime_to_pdfdate(now).encode()+b")"
if moddate:
info["/ModDate"] = "(D:"+moddate.strftime("%Y%m%d%H%M%S")+")"
else:
info["/ModDate"] = "(D:"+now.strftime("%Y%m%d%H%M%S")+")"
info[b"/ModDate"] = b"(D:"+datetime_to_pdfdate(moddate).encode()+b")"
elif not nodate:
info[b"/ModDate"] = b"(D:"+datetime_to_pdfdate(now).encode()+b")"
if subject:
info["/Subject"] = "("+subject+")"
info[b"/Subject"] = b"("+subject+b")"
if keywords:
info["/Keywords"] = "("+",".join(keywords)+")"
info[b"/Keywords"] = b"("+b",".join(keywords)+b")"
self.info = obj(info)
# create an incomplete pages object so that a /Parent entry can be
# added to each page
self.pages = obj({
"/Type": "/Pages",
"/Kids": [],
"/Count": 0
b"/Type": b"/Pages",
b"/Kids": [],
b"/Count": 0
})
self.catalog = obj({
"/Pages": self.pages,
"/Type": "/Catalog"
b"/Pages": self.pages,
b"/Type": b"/Catalog"
})
self.addobj(self.catalog)
self.addobj(self.pages)
@ -115,71 +133,70 @@ class pdfdoc(object):
obj.identifier = newid
self.objects.append(obj)
def addimage(self, color, width, height, dpi, imgformat, imgdata):
def addimage(self, color, width, height, imgformat, imgdata, pdf_x, pdf_y):
if color == 'L':
color = "/DeviceGray"
colorspace = b"/DeviceGray"
elif color == 'RGB':
color = "/DeviceRGB"
colorspace = b"/DeviceRGB"
elif color == 'CMYK' or color == 'CMYK;I':
colorspace = b"/DeviceCMYK"
else:
error_out("unsupported color space: %s"%color)
exit(1)
# pdf units = 1/72 inch
pdf_x, pdf_y = 72.0*width/dpi[0], 72.0*height/dpi[1]
print(pdf_x)
print(pdf_y)
if pdf_x < 3.00 or pdf_y < 3.00:
warning_out("pdf width or height is below 3.00 - decrease the dpi")
elif pdf_x > 14400.0 or pdf_y > 14400.0:
#error_out(("pdf width or height is above 200.00 - increase the dpi")
warning_out("pdf width or height is below 3.00\" - decrease the dpi")
elif pdf_x > 200.0 or pdf_y > 200.0:
warning_out("pdf width or height would be above 200\" - squeezed inside")
x_scale = 14400.0 / pdf_x
y_scale = 14400.0 / pdf_y
x_scale = 200.0 / pdf_x
y_scale = 200.0 / pdf_y
scale = min(x_scale, y_scale) * 0.999
pdf_x *= scale
pdf_y *= scale
# either embed the whole jpeg or deflate the bitmap representation
if imgformat is "JPEG":
ofilter = [ "/DCTDecode" ]
elif imgformat is "JP2":
ofilter = [ "/JPXDecode" ]
ofilter = [ b"/DCTDecode" ]
elif imgformat is "JPEG2000":
ofilter = [ b"/JPXDecode" ]
self.version = 5 # jpeg2000 needs pdf 1.5
else:
ofilter = [ "/FlateDecode" ]
ofilter = [ b"/FlateDecode" ]
image = obj({
"/Type": "/XObject",
"/Subtype": "/Image",
"/Filter": ofilter,
"/Width": width,
"/Height": height,
"/ColorSpace": color,
# hardcoded as PIL doesnt provide bits for non-jpeg formats
"/BitsPerComponent": 8,
"/Length": len(imgdata)
b"/Type": b"/XObject",
b"/Subtype": b"/Image",
b"/Filter": ofilter,
b"/Width": width,
b"/Height": height,
b"/ColorSpace": colorspace,
# hardcoded as PIL doesn't provide bits for non-jpeg formats
b"/BitsPerComponent": 8,
b"/Length": len(imgdata)
}, imgdata)
text = "q\n%f 0 0 %f 0 0 cm\n/Im0 Do\nQ"%(pdf_x, pdf_y)
if color == 'CMYK;I':
# Inverts all four channels
image.content[b'/Decode'] = [1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 1.0, 0.0]
text = ("q\n%0.4f 0 0 %0.4f 0 0 cm\n/Im0 Do\nQ"%(pdf_x, pdf_y)).encode()
content = obj({
"/Length": len(text)
b"/Length": len(text)
}, text)
page = obj({
"/Type": "/Page",
"/Parent": self.pages,
"/Resources": {
"/XObject": {
"/Im0": image
b"/Type": b"/Page",
b"/Parent": self.pages,
b"/Resources": {
b"/XObject": {
b"/Im0": image
}
},
"/MediaBox": [0, 0, pdf_x, pdf_y],
"/Contents": content
b"/MediaBox": [0, 0, pdf_x, pdf_y],
b"/Contents": content
})
self.pages.content["/Kids"].append(page)
self.pages.content["/Count"] += 1
self.pages.content[b"/Kids"].append(page)
self.pages.content[b"/Count"] += 1
self.addobj(page)
self.addobj(content)
self.addobj(image)
@ -190,35 +207,43 @@ class pdfdoc(object):
xreftable = list()
result = "%%PDF-1.%d\n"%self.version
result = ("%%PDF-1.%d\n"%self.version).encode()
xreftable.append("0000000000 65535 f \n")
xreftable.append(b"0000000000 65535 f \n")
for o in self.objects:
xreftable.append("%010d 00000 n \n"%len(result))
xreftable.append(("%010d 00000 n \n"%len(result)).encode())
result += o.tostring()
xrefoffset = len(result)
result += "xref\n"
result += "0 %d\n"%len(xreftable)
result += b"xref\n"
result += ("0 %d\n"%len(xreftable)).encode()
for x in xreftable:
result += x
result += "trailer\n"
result += parse({"/Size": len(xreftable), "/Info": self.info, "/Root": self.catalog})+"\n"
result += "startxref\n"
result += "%d\n"%xrefoffset
result += "%%EOF\n"
result += b"trailer\n"
result += parse({b"/Size": len(xreftable), b"/Info": self.info, b"/Root": self.catalog})+b"\n"
result += b"startxref\n"
result += ("%d\n"%xrefoffset).encode()
result += b"%%EOF\n"
return result
def convert(images, dpi, title=None, author=None, creator=None, producer=None,
creationdate=None, moddate=None, subject=None, keywords=None,
colorspace=None, verbose=False):
def convert(images, dpi=None, pagesize=(None, None, None), title=None,
author=None, creator=None, producer=None, creationdate=None,
moddate=None, subject=None, keywords=None, colorspace=None,
nodate=False, verbose=False):
pagesize_options = pagesize[2]
pdf = pdfdoc(3, title, author, creator, producer, creationdate,
moddate, subject, keywords)
moddate, subject, keywords, nodate)
for im in images:
rawdata = im.read()
im.seek(0)
for imfilename in images:
debug_out("Reading %s"%imfilename, verbose)
try:
rawdata = imfilename.read()
except AttributeError:
with open(imfilename, "rb") as im:
rawdata = im.read()
im = cStringIO(rawdata)
try:
imgdata = Image.open(im)
except IOError as e:
@ -229,14 +254,11 @@ def convert(images, dpi, title=None, author=None, creator=None, producer=None,
exit(1)
# image is jpeg2000
width, height, ics = parsejp2(rawdata)
imgformat = "JP2"
imgformat = "JPEG2000"
if dpi:
ndpi = dpi, dpi
debug_out("input dpi (forced) = %d x %d"%ndpi, verbose)
else:
ndpi = (96, 96) # TODO: read real dpi
debug_out("input dpi = %d x %d"%ndpi, verbose)
# TODO: read real dpi from input jpeg2000 image
ndpi = (default_dpi, default_dpi)
debug_out("input dpi = %d x %d" % ndpi, verbose)
if colorspace:
color = colorspace
@ -248,26 +270,45 @@ def convert(images, dpi, title=None, author=None, creator=None, producer=None,
width, height = imgdata.size
imgformat = imgdata.format
if dpi:
ndpi = dpi, dpi
debug_out("input dpi (forced) = %d x %d"%ndpi, verbose)
else:
ndpi = imgdata.info.get("dpi", (96, 96))
debug_out("input dpi = %d x %d"%ndpi, verbose)
ndpi = imgdata.info.get("dpi", (default_dpi, default_dpi))
# in python3, the returned dpi value for some tiff images will
# not be an integer but a float. To make the behaviour of
# img2pdf the same between python2 and python3, we convert that
# float into an integer by rounding
# search online for the 72.009 dpi problem for more info
ndpi = (int(round(ndpi[0])),int(round(ndpi[1])))
debug_out("input dpi = %d x %d" % ndpi, verbose)
if colorspace:
color = colorspace
debug_out("input colorspace (forced) = %s"%(color), verbose)
else:
color = imgdata.mode
if color == "CMYK" and imgformat == "JPEG":
# Adobe inverts CMYK JPEGs for some reason, and others
# have followed suit as well. Some software assumes the
# JPEG is inverted if the Adobe tag (APP14), while other
# software assumes all CMYK JPEGs are inverted. I don't
# have enough experience with these to know which is
# better for images currently in the wild, so I'm going
# with the first approach for now.
if "adobe" in imgdata.info:
color = "CMYK;I"
debug_out("input colorspace = %s"%(color), verbose)
debug_out("width x height = %d x %d"%(width,height), verbose)
debug_out("imgformat = %s"%imgformat, verbose)
if dpi:
ndpi = dpi, dpi
debug_out("input dpi (forced) = %d x %d" % ndpi, verbose)
elif pagesize_options:
ndpi = get_ndpi(width, height, pagesize)
debug_out("calculated dpi (based on pagesize) = %d x %d" % ndpi, verbose)
# depending on the input format, determine whether to pass the raw
# image or the zlib compressed color information
if imgformat is "JPEG" or imgformat is "JP2":
if imgformat is "JPEG" or imgformat is "JPEG2000":
if color == '1':
error_out("jpeg can't be monochrome")
exit(1)
@ -275,16 +316,61 @@ def convert(images, dpi, title=None, author=None, creator=None, producer=None,
else:
# because we do not support /CCITTFaxDecode
if color == '1':
debug_out("Converting colorspace 1 to L", verbose)
imgdata = imgdata.convert('L')
color = 'L'
imgdata = zlib.compress(imgdata.tostring())
pdf.addimage(color, width, height, ndpi, imgformat, imgdata)
elif color in ("RGB", "L", "CMYK", "CMYK;I"):
debug_out("Colorspace is OK: %s"%color, verbose)
else:
debug_out("Converting colorspace %s to RGB"%color, verbose)
imgdata = imgdata.convert('RGB')
color = imgdata.mode
img = imgdata.tobytes()
# the python-pil version 2.3.0-1ubuntu3 in Ubuntu does not have the close() method
try:
imgdata.close()
except AttributeError:
pass
imgdata = zlib.compress(img)
im.close()
if pagesize_options and pagesize_options['exact'][1]:
# output size exactly to specified dimensions
# pagesize[0], pagesize[1] already checked in valid_size()
pdf_x, pdf_y = pagesize[0], pagesize[1]
else:
# output size based on dpi; point = 1/72 inch
pdf_x, pdf_y = 72.0*width/float(ndpi[0]), 72.0*height/float(ndpi[1])
pdf.addimage(color, width, height, imgformat, imgdata, pdf_x, pdf_y)
return pdf.tostring()
def get_ndpi(width, height, pagesize):
pagesize_options = pagesize[2]
if pagesize_options and pagesize_options['fill'][1]:
if width/height < pagesize[0]/pagesize[1]:
tmp_dpi = 72.0*width/pagesize[0]
else:
tmp_dpi = 72.0*height/pagesize[1]
elif pagesize[0] and pagesize[1]:
# if both height and width given with no specific pagesize_option,
# resize to fit "into" page
if width/height < pagesize[0]/pagesize[1]:
tmp_dpi = 72.0*height/pagesize[1]
else:
tmp_dpi = 72.0*width/pagesize[0]
elif pagesize[0]:
# if width given, calculate dpi based on width
tmp_dpi = 72.0*width/pagesize[0]
elif pagesize[1]:
# if height given, calculate dpi based on height
tmp_dpi = 72.0*height/pagesize[1]
else:
tmp_dpi = default_dpi
return tmp_dpi, tmp_dpi
def positive_float(string):
value = float(string)
@ -294,58 +380,276 @@ def positive_float(string):
return value
def valid_date(string):
return datetime.strptime(string, "%Y-%m-%dT%H:%M:%S")
# first try parsing in ISO8601 format
try:
return datetime.strptime(string, "%Y-%m-%d")
except ValueError:
pass
try:
return datetime.strptime(string, "%Y-%m-%dT%H:%M")
except ValueError:
pass
try:
return datetime.strptime(string, "%Y-%m-%dT%H:%M:%S")
except ValueError:
pass
# then try dateutil
try:
from dateutil import parser
except ImportError:
pass
else:
try:
return parser.parse(string)
except TypeError:
pass
# as a last resort, try the local date utility
try:
import subprocess
except ImportError:
pass
else:
try:
utime = subprocess.check_output(["date", "--date", string, "+%s"])
except subprocess.CalledProcessError:
pass
else:
return datetime.utcfromtimestamp(int(utime))
raise argparse.ArgumentTypeError("cannot parse date: %s"%string)
def get_standard_papersize(string):
papersizes = {
"11x17" : "792x792^", # "792x1224",
"ledger" : "792x792^", # "1224x792",
"legal" : "612x612^", # "612x1008",
"letter" : "612x612^", # "612x792",
"arche" : "2592x2592^", # "2592x3456",
"archd" : "1728x1728^", # "1728x2592",
"archc" : "1296x1296^", # "1296x1728",
"archb" : "864x864^", # "864x1296",
"archa" : "648x648^", # "648x864",
"a0" : "2380x2380^", # "2380x3368",
"a1" : "1684x1684^", # "1684x2380",
"a2" : "1190x1190^", # "1190x1684",
"a3" : "842x842^", # "842x1190",
"a4" : "595x595^", # "595x842",
"a5" : "421x421^", # "421x595",
"a6" : "297x297^", # "297x421",
"a7" : "210x210^", # "210x297",
"a8" : "148x148^", # "148x210",
"a9" : "105x105^", # "105x148",
"a10" : "74x74^", # "74x105",
"b0" : "2836x2836^", # "2836x4008",
"b1" : "2004x2004^", # "2004x2836",
"b2" : "1418x1418^", # "1418x2004",
"b3" : "1002x1002^", # "1002x1418",
"b4" : "709x709^", # "709x1002",
"b5" : "501x501^", # "501x709",
"c0" : "2600x2600^", # "2600x3677",
"c1" : "1837x1837^", # "1837x2600",
"c2" : "1298x1298^", # "1298x1837",
"c3" : "918x918^", # "918x1298",
"c4" : "649x649^", # "649x918",
"c5" : "459x459^", # "459x649",
"c6" : "323x323^", # "323x459",
"flsa" : "612x612^", # "612x936",
"flse" : "612x612^", # "612x936",
"halfletter" : "396x396^", # "396x612",
"tabloid" : "792x792^", # "792x1224",
"statement" : "396x396^", # "396x612",
"executive" : "540x540^", # "540x720",
"folio" : "612x612^", # "612x936",
"quarto" : "610x610^", # "610x780"
}
string = string.lower()
return papersizes.get(string, string)
def valid_size(string):
# conversion factors from units to points
units = {
'in' : 72.0,
'cm' : 72.0/2.54,
'mm' : 72.0/25.4,
'pt' : 1.0
}
pagesize_options = {
'exact' : ['\!', False],
'shrink' : ['\>', False],
'enlarge' : ['\<', False],
'fill' : ['\^', False],
'percent' : ['\%', False],
'count' : ['\@', False],
}
string = get_standard_papersize(string)
pattern = re.compile(r"""
([0-9]*\.?[0-9]*) # tokens.group(1) == width; may be empty
([a-z]*) # tokens.group(2) == units; may be empty
x
([0-9]*\.?[0-9]*) # tokens.group(3) == height; may be empty
([a-zA-Z]*) # tokens.group(4) == units; may be empty
([^0-9a-zA-Z]*) # tokens.group(5) == extra options
""", re.VERBOSE)
tokens = pattern.match(string)
# tokens.group(0) should match entire input string
if tokens.group(0) != string:
msg = ('Input size needs to be of the format AuxBv#, '
'where A is width, B is height, u and v are units, '
'# are options. '
'You may omit either width or height, but not both. '
'Units may be specified as (in, cm, mm, pt). '
'You may omit units, which will default to pt. '
'Available options include (! = exact ; ^ = fill ; default = into).')
raise argparse.ArgumentTypeError(msg)
# temporary list to loop through to process width and height
pagesize_size = {
'x' : [0, tokens.group(1), tokens.group(2)],
'y' : [0, tokens.group(3), tokens.group(4)]
}
for key, value in pagesize_size.items():
try:
value[0] = float(value[1])
value[0] *= units[value[2]] # convert to points
except ValueError:
# assign None if width or height not provided
value[0] = None
except KeyError:
# if units unrecognized, raise error
# otherwise default to pt because units not provided
if value[2]:
msg = "unrecognized unit '%s'." % value[2]
raise argparse.ArgumentTypeError(msg)
x = pagesize_size['x'][0]
y = pagesize_size['y'][0]
# parse options for resize methods
if tokens.group(5):
for key, value in pagesize_options.items():
if re.search(value[0], tokens.group(5)):
value[1] = True
if pagesize_options['fill'][1]:
# if either width or height is not given, try to fill in missing value
if not x:
x = y
elif not y:
y = x
if pagesize_options['exact'][1]:
if not x or not y:
msg = ('exact size requires both width and height.')
raise argparse.ArgumentTypeError(msg)
if not x and not y:
msg = ('width and height cannot both be omitted.')
raise argparse.ArgumentTypeError(msg)
return (x, y, pagesize_options)
# in python3, the received argument will be a unicode str() object which needs
# to be encoded into a bytes() object
# in python2, the received argument will be a binary str() object which needs
# no encoding
# we check whether we use python2 or python3 by checking whether the argument
# is both, type str and type bytes (only the case in python2)
def pdf_embedded_string(string):
if type(string) is str and type(string) is not bytes:
# py3
pass
else:
# py2
string = string.decode("utf8")
string = b"\xfe\xff"+string.encode("utf-16-be")
string = string.replace(b'\\', b'\\\\')
string = string.replace(b'(', b'\\(')
string = string.replace(b')', b'\\)')
return string
parser = argparse.ArgumentParser(
description='Lossless conversion/embedding of images (in)to pdf')
parser.add_argument(
'images', metavar='infile', type=argparse.FileType('rb'),
'images', metavar='infile', type=str,
nargs='+', help='input file(s)')
parser.add_argument(
'-o', '--output', metavar='out', type=argparse.FileType('wb'),
default=sys.stdout, help='output file (default: stdout)')
parser.add_argument(
default=getattr(sys.stdout, "buffer", sys.stdout),
help='output file (default: stdout)')
sizeopts = parser.add_mutually_exclusive_group()
sizeopts.add_argument(
'-d', '--dpi', metavar='dpi', type=positive_float,
help='dpi for pdf output (default: 96.0)')
help=('dpi for pdf output. '
'If input image does not specify dpi the default is %.2f. '
'Must not be used with -s/--pagesize.') % default_dpi
)
sizeopts.add_argument(
'-s', '--pagesize', metavar='size', type=valid_size,
default=(None, None, None),
help=('size of the pdf pages in format AuxBv#, '
'where A is width, B is height, u and v are units, # are options. '
'You may omit either width or height, but not both. '
'Some common page sizes, such as letter and a4, are also recognized. '
'Units may be specified as (in, cm, mm, pt). '
'Units default to pt when absent. '
'Available options include (! = exact ; ^ = fill ; default = into). '
'Must not be used with -d/--dpi.')
)
parser.add_argument(
'-t', '--title', metavar='title', type=str,
'-t', '--title', metavar='title', type=pdf_embedded_string,
help='title for metadata')
parser.add_argument(
'-a', '--author', metavar='author', type=str,
'-a', '--author', metavar='author', type=pdf_embedded_string,
help='author for metadata')
parser.add_argument(
'-c', '--creator', metavar='creator', type=str,
'-c', '--creator', metavar='creator', type=pdf_embedded_string,
help='creator for metadata')
parser.add_argument(
'-p', '--producer', metavar='producer', type=str,
'-p', '--producer', metavar='producer', type=pdf_embedded_string,
help='producer for metadata')
parser.add_argument(
'-r', '--creationdate', metavar='creationdate', type=valid_date,
help='creation date for metadata in YYYY-MM-DDTHH:MM:SS format')
help='UTC creation date for metadata in YYYY-MM-DD or YYYY-MM-DDTHH:MM or YYYY-MM-DDTHH:MM:SS format or any format understood by python dateutil module or any format understood by `date --date`')
parser.add_argument(
'-m', '--moddate', metavar='moddate', type=valid_date,
help='modification date for metadata in YYYY-MM-DDTHH:MM:SS format')
help='UTC modification date for metadata in YYYY-MM-DD or YYYY-MM-DDTHH:MM or YYYY-MM-DDTHH:MM:SS format or any format understood by python dateutil module or any format understood by `date --date`')
parser.add_argument(
'-s', '--subject', metavar='subject', type=str,
'-S', '--subject', metavar='subject', type=pdf_embedded_string,
help='subject for metadata')
parser.add_argument(
'-k', '--keywords', metavar='kw', type=str, nargs='+',
'-k', '--keywords', metavar='kw', type=pdf_embedded_string, nargs='+',
help='keywords for metadata')
parser.add_argument(
'-C', '--colorspace', metavar='colorspace', type=str,
help='force PIL colorspace (one of: RGB, L, 1)')
'-C', '--colorspace', metavar='colorspace', type=pdf_embedded_string,
help='force PIL colorspace (one of: RGB, L, 1, CMYK, CMYK;I)')
parser.add_argument(
'-D', '--nodate', help='do not add timestamps', action="store_true")
parser.add_argument(
'-v', '--verbose', help='verbose mode', action="store_true")
parser.add_argument(
'-V', '--version', action='version', version='%(prog)s '+__version__,
help="Print version information and exit")
def main(args=None):
if args is None:
args = sys.argv[1:]
args = parser.parse_args(args)
args.output.write(
convert(
args.images, args.dpi, args.title, args.author,
args.images, args.dpi, args.pagesize, args.title, args.author,
args.creator, args.producer, args.creationdate, args.moddate,
args.subject, args.keywords, args.colorspace, args.verbose))
args.subject, args.keywords, args.colorspace, args.nodate,
args.verbose))
if __name__ == '__main__':
main()

View file

@ -85,6 +85,6 @@ def parsejp2(data):
if __name__ == "__main__":
import sys
width, height, colorspace = parsejp2(open(sys.argv[1]).read())
print "width = %d"%width
print "height = %d"%height
print "colorspace = %s"%colorspace
sys.stdout.write("width = %d"%width)
sys.stdout.write("height = %d"%height)
sys.stdout.write("colorspace = %s"%colorspace)

View file

@ -1,7 +1,109 @@
import unittest
import test_img2pdf
import os
import img2pdf
import zlib
from PIL import Image
HERE = os.path.dirname(__file__)
#convert +set date:create +set date:modify -define png:exclude-chunk=time
def test_suite():
class TestImg2Pdf(unittest.TestCase):
pass
for test_name in os.listdir(os.path.join(HERE, "input")):
inputf = os.path.join(HERE, "input", test_name)
if not os.path.isfile(inputf):
continue
outputf = os.path.join(HERE, "output", test_name+".pdf")
assert os.path.isfile(outputf)
def handle(self, f=inputf, out=outputf):
with open(f, "rb") as inf:
orig_imgdata = inf.read()
pdf = img2pdf.convert([f], nodate=True)
imgdata = b""
instream = False
imgobj = False
colorspace = None
imgfilter = None
width = None
height = None
length = None
# ugly workaround to parse the created pdf
for line in pdf.split(b'\n'):
if instream:
if line == b"endstream":
break
else:
imgdata += line + b'\n'
else:
if imgobj and line == b"stream":
instream = True
elif b"/Subtype /Image" in line:
imgobj = True
elif b"/Width" in line:
width = int(line.split()[-1])
elif b"/Height" in line:
height = int(line.split()[-1])
elif b"/Length" in line:
length = int(line.split()[-1])
elif b"/Filter" in line:
imgfilter = line.split()[-2]
elif b"/ColorSpace" in line:
colorspace = line.split()[-1]
# remove trailing \n
imgdata = imgdata[:-1]
# test if the length field is correct
self.assertEqual(len(imgdata), length)
# test if the filter is valid:
self.assertIn(imgfilter, [b"/DCTDecode", b"/JPXDecode", b"/FlateDecode"])
# test if the colorspace is valid
self.assertIn(colorspace, [b"/DeviceGray", b"/DeviceRGB", b"/DeviceCMYK"])
# test if the image has correct size
orig_img = Image.open(f)
self.assertEqual(width, orig_img.size[0])
self.assertEqual(height, orig_img.size[1])
# if the input file is a jpeg then it should've been copied
# verbatim into the PDF
if imgfilter in [b"/DCTDecode", b"/JPXDecode"]:
self.assertEqual(imgdata, orig_imgdata)
elif imgfilter == b"/FlateDecode":
# otherwise, the data is flate encoded and has to be equal to
# the pixel data of the input image
imgdata = zlib.decompress(imgdata)
if colorspace == b"/DeviceGray":
colorspace = 'L'
elif colorspace == b"/DeviceRGB":
colorspace = 'RGB'
elif colorspace == b"/DeviceCMYK":
colorspace = 'CMYK'
else:
raise Exception("invalid colorspace")
im = Image.frombytes(colorspace, (width, height), imgdata)
if orig_img.mode == '1':
orig_img = orig_img.convert("L")
elif orig_img.mode not in ("RGB", "L", "CMYK", "CMYK;I"):
orig_img = orig_img.convert("RGB")
self.assertEqual(im.tobytes(), orig_img.tobytes())
# the python-pil version 2.3.0-1ubuntu3 in Ubuntu does not have the close() method
try:
im.close()
except AttributeError:
pass
# lastly, make sure that the generated pdf matches bit by bit the
# expected pdf
with open(out, "rb") as outf:
out = outf.read()
self.assertEqual(pdf, out)
# the python-pil version 2.3.0-1ubuntu3 in Ubuntu does not have the close() method
try:
orig_img.close()
except AttributeError:
pass
setattr(TestImg2Pdf, "test_%s"%test_name, handle)
return unittest.TestSuite((
unittest.makeSuite(test_img2pdf.TestImg2Pdf),
unittest.makeSuite(TestImg2Pdf),
))

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@ -1,20 +0,0 @@
import datetime
import os
import unittest
import img2pdf
HERE = os.path.dirname(__file__)
moddate = datetime.datetime(2014, 1, 1)
class TestImg2Pdf(unittest.TestCase):
def test_jpg2pdf(self):
with open(os.path.join(HERE, 'test.jpg'), 'r') as img_fp:
with open(os.path.join(HERE, 'test.pdf'), 'r') as pdf_fp:
self.assertEqual(
img2pdf.convert([img_fp], 150,
creationdate=moddate, moddate=moddate),
pdf_fp.read())
def test_png2pdf(self):
with open(os.path.join(HERE, 'test.png'), 'r') as img_fp:
self.assertRaises(SystemExit, img2pdf.convert, [img_fp], 150)