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img2pdf
=======
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Lossless conversion of raster images to PDF. You should use img2pdf if your
priorities are (in this order):
1. **always lossless**: the image embedded in the PDF will always have the
exact same color information for every pixel as the input
2. **small**: if possible, the difference in filesize between the input image
and the output PDF will only be the overhead of the PDF container itself
3. **fast**: if possible, the input image is just pasted into the PDF document
as-is without any CPU hungry re-encoding of the pixel data
Conventional conversion software (like ImageMagick) would either:
1. not be lossless because lossy re-encoding to JPEG
2. not be small because using wasteful flate encoding of raw pixel data
3. not be fast because input data gets re-encoded
Another advantage of not having to re-encode the input (in most common
situations) is, that img2pdf is able to handle much larger input than other
software, because the raw pixel data never has to be loaded into memory.
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The following table shows how img2pdf handles different input depending on the
input file format and image color space.
| Format | Colorspace | Result |
| -------------------- | ------------------------------ | ------------- |
| JPEG | any | direct |
| JPEG2000 | any | direct |
| PNG (non-interlaced) | any | direct |
| TIFF (CCITT Group 4) | monochrome | direct |
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| any | any except CMYK and monochrome | PNG Paeth |
| any | monochrome | CCITT Group 4 |
| any | CMYK | flate |
For JPEG, JPEG2000, non-interlaced PNG and TIFF images with CCITT Group 4
encoded data, img2pdf directly embeds the image data into the PDF without
re-encoding it. It thus treats the PDF format merely as a container format for
the image data. In these cases, img2pdf only increases the filesize by the size
of the PDF container (typically around 500 to 700 bytes). Since data is only
copied and not re-encoded, img2pdf is also typically faster than other
solutions for these input formats.
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For all other input types, img2pdf first has to transform the pixel data to
make it compatible with PDF. In most cases, the PNG Paeth filter is applied to
the pixel data. For monochrome input, CCITT Group 4 is used instead. Only for
CMYK input no filter is applied before finally applying flate compression.
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Usage
-----
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The images must be provided as files because img2pdf needs to seek in the file
descriptor.
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If no output file is specified with the `-o`/`--output` option, output will be
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done to stdout. A typical invocation is:
$ img2pdf img1.png img2.jpg -o out.pdf
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The detailed documentation can be accessed by running:
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$ img2pdf --help
Bugs
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----
- If you find a JPEG, JPEG2000, PNG or CCITT Group 4 encoded TIFF file that,
when embedded into the PDF cannot be read by the Adobe Acrobat Reader,
please contact me.
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- 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 explicitly specify it using the
`--colorspace` option.
- Input images with alpha channels are not allowed. PDF only supports
transparency using binary masks but is unable to store 8-bit transparency
information as part of the image itself. But img2pdf will always be lossless
and thus, input images must not carry transparency information.
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- img2pdf uses PIL (or Pillow) to obtain image meta data and to convert the
input if necessary. To prevent decompression bomb denial of service attacks,
Pillow limits the maximum number of pixels an input image is allowed to
have. If you are sure that you know what you are doing, then you can disable
this safeguard by passing the `--pillow-limit-break` option to img2pdf. This
allows one to process even very large input images.
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Installation
------------
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On a Debian- and Ubuntu-based systems, img2pdf can be installed from the
official repositories:
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$ apt install img2pdf
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If you want to install it using pip, you can run:
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$ pip3 install img2pdf
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If you prefer to install from source code use:
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$ cd img2pdf/
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$ pip3 install .
To test the console script without installing the package on your system,
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use virtualenv:
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$ cd img2pdf/
$ virtualenv ve
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$ ve/bin/pip3 install .
You can then test the converter using:
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$ ve/bin/img2pdf -o test.pdf src/tests/test.jpg
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For Microsoft Windows users, PyInstaller based .exe files are produced by
appveyor. If you don't want to install Python before using img2pdf you can head
to appveyor and click on "Artifacts" to download the latest version:
https://ci.appveyor.com/project/josch/img2pdf
GUI
---
There exists an experimental GUI with all settings currently disabled. You can
directly convert images to PDF but you cannot set any options via the GUI yet.
If you are interested in adding more features to the PDF, please submit a merge
request. The GUI is based on tkinter and works on Linux, Windows and MacOS.
![](screenshot.png)
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Library
-------
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The package can also be used as a library:
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import img2pdf
# opening from filename
with open("name.pdf","wb") as f:
f.write(img2pdf.convert('test.jpg'))
# opening from file handle
with open("name.pdf","wb") as f1, open("test.jpg") as f2:
f1.write(img2pdf.convert(f2))
# using in-memory image data
with open("name.pdf","wb") as f:
f.write(img2pdf.convert("\x89PNG...")
# multiple inputs (variant 1)
with open("name.pdf","wb") as f:
f.write(img2pdf.convert("test1.jpg", "test2.png"))
# multiple inputs (variant 2)
with open("name.pdf","wb") as f:
f.write(img2pdf.convert(["test1.jpg", "test2.png"]))
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# convert all files ending in .jpg inside a directory
dirname = "/path/to/images"
imgs = []
for fname in os.listdir(dirname):
if not fname.endswith(".jpg"):
continue
path = os.path.join(dirname, fname)
if os.path.isdir(path):
continue
imgs.append(path)
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with open("name.pdf","wb") as f:
f.write(img2pdf.convert(imgs))
# convert all files ending in .jpg in a directory and its subdirectories
dirname = "/path/to/images"
imgs = []
for r, _, f in os.walk(dirname):
for fname in f:
if not fname.endswith(".jpg"):
continue
imgs.append(os.path.join(r, fname))
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with open("name.pdf","wb") as f:
f.write(img2pdf.convert(imgs))
# convert all files matching a glob
import glob
with open("name.pdf","wb") as f:
f.write(img2pdf.convert(glob.glob("/path/to/*.jpg")))
# writing to file descriptor
with open("name.pdf","wb") as f1, open("test.jpg") as f2:
img2pdf.convert(f2, outputstream=f1)
# specify paper size (A4)
a4inpt = (img2pdf.mm_to_pt(210),img2pdf.mm_to_pt(297))
layout_fun = img2pdf.get_layout_fun(a4inpt)
with open("name.pdf","wb") as f:
f.write(img2pdf.convert('test.jpg', layout_fun=layout_fun))
# use a fixed dpi of 300 instead of reading it from the image
dpix = dpiy = 300
layout_fun = img2pdf.get_fixed_dpi_layout_fun((dpix, dpiy))
with open("name.pdf","wb") as f:
f.write(img2pdf.convert('test.jpg', layout_fun=layout_fun))
# create a PDF/A-1b compliant document by passing an ICC profile
with open("name.pdf","wb") as f:
f.write(img2pdf.convert('test.jpg', pdfa="/usr/share/color/icc/sRGB.icc"))
Comparison to ImageMagick
-------------------------
Create a large test image:
$ convert logo: -resize 8000x original.jpg
Convert it into PDF using ImageMagick and img2pdf:
$ time img2pdf original.jpg -o img2pdf.pdf
$ time convert original.jpg imagemagick.pdf
Notice how ImageMagick took an order of magnitude longer to do the conversion
than img2pdf. It also used twice the memory.
Now extract the image data from both PDF documents and compare it to the
original:
$ pdfimages -all img2pdf.pdf tmp
$ compare -metric AE original.jpg tmp-000.jpg null:
0
$ pdfimages -all imagemagick.pdf tmp
$ compare -metric AE original.jpg tmp-000.jpg null:
118716
To get lossless output with ImageMagick we can use Zip compression but that
unnecessarily increases the size of the output:
$ convert original.jpg -compress Zip imagemagick.pdf
$ pdfimages -all imagemagick.pdf tmp
$ compare -metric AE original.jpg tmp-000.png null:
0
$ stat --format="%s %n" original.jpg img2pdf.pdf imagemagick.pdf
1535837 original.jpg
1536683 img2pdf.pdf
9397809 imagemagick.pdf
Comparison to pdfLaTeX
----------------------
pdfLaTeX performs a lossless conversion from included images to PDF by default.
If the input is a JPEG, then it simply embeds the JPEG into the PDF in the same
way as img2pdf does it. But for other image formats it uses flate compression
of the plain pixel data and thus needlessly increases the output file size:
$ convert logo: -resize 8000x original.png
$ cat << END > pdflatex.tex
\documentclass{article}
\usepackage{graphicx}
\begin{document}
\includegraphics{original.png}
\end{document}
END
$ pdflatex pdflatex.tex
$ stat --format="%s %n" original.png pdflatex.pdf
4500182 original.png
9318120 pdflatex.pdf
Comparison to podofoimg2pdf
---------------------------
Like pdfLaTeX, podofoimg2pdf is able to perform a lossless conversion from JPEG
to PDF by plainly embedding the JPEG data into the pdf container. But just like
pdfLaTeX it uses flate compression for all other file formats, thus sometimes
resulting in larger files than necessary.
$ convert logo: -resize 8000x original.png
$ podofoimg2pdf out.pdf original.png
stat --format="%s %n" original.png out.pdf
4500181 original.png
9335629 out.pdf
It also only supports JPEG, PNG and TIF as input and lacks many of the
convenience features of img2pdf like page sizes, borders, rotation and
metadata.
Comparison to Tesseract OCR
---------------------------
Tesseract OCR comes closest to the functionality img2pdf provides. It is able
to convert JPEG and PNG input to PDF without needlessly increasing the filesize
and is at the same time lossless. So if your input is JPEG and PNG images, then
you should safely be able to use Tesseract instead of img2pdf. For other input,
Tesseract might not do a lossless conversion. For example it converts CMYK
input to RGB and removes the alpha channel from images with transparency. For
multipage TIFF or animated GIF, it will only convert the first frame.