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PyPI package:
https://pypi.python.org/pypi/pyvips
conda package:
https://anaconda.org/conda-forge/pyvips
We have formatted docs online here:
https://libvips.github.io/pyvips/
This module wraps the libvips image processing library:
The libvips docs are also very useful:
https://www.libvips.org/API/current/
If you have the development headers for libvips installed and have a working C compiler, this module will use cffi API mode to try to build a libvips binary extension for your Python.
If it is unable to build a binary extension, it will use cffi ABI mode instead and only needs the libvips shared library. This takes longer to start up and is typically ~20% slower in execution. You can find out if API mode is being used with:
.. code-block:: python
import pyvips
print(pyvips.API_mode)
This binding passes the vips test suite cleanly and with no leaks under python3 and pypy3 on Windows, macOS and Linux.
Programs that use pyvips
don't manipulate images directly, instead
they create pipelines of image processing operations building on a source
image. When the end of the pipe is connected to a destination, the whole
pipeline executes at once, streaming the image in parallel from source to
destination a section at a time.
Because pyvips
is parallel, it's quick, and because it doesn't need to
keep entire images in memory, it's light. For example, the libvips
speed and memory use benchmark:
https://github.com/libvips/libvips/wiki/Speed-and-memory-use
Loads a large tiff image, shrinks by 10%, sharpens, and saves again. On this
test pyvips
is typically 3x faster than ImageMagick and needs 5x less
memory.
There's a handy chapter in the docs explaining how libvips opens files, which gives some more background.
https://www.libvips.org/API/current/How-it-opens-files.html
The quickest way to start with pyvips is by installing the binary package with:
.. code-block:: shell
$ pip install "pyvips[binary]"
This installs a self-contained package with the most commonly needed libraries. If your platform is unsupported or the pre-built binary is unsuitable, you can install libvips globally instead.
You need the libvips shared library on your library search path, version 8.2 or later, though at least version 8.9 is required for all features to work. See:
https://www.libvips.org/install.html
Linux ^^^^^
Perhaps:
.. code-block:: shell
$ sudo apt install libvips-dev --no-install-recommends
$ pip install pyvips
With python 3.11 and later, you will need to create a venv first and add
path/to/venv
to your PATH
. Something like:
.. code-block:: shell
$ python3 -m venv ~/.local
$ pip install pyvips
macOS ^^^^^
With Homebrew:
.. code-block:: shell
$ brew install vips python pkg-config
$ pip3 install pyvips
Windows ^^^^^^^
On Windows, you can download a pre-compiled binary from the libvips website.
https://www.libvips.org/install.html
You'll need a 64-bit Python. The official one works well.
You can add vips-dev-x.y\bin
to your PATH
, but this will add a lot of
extra DLLs to your search path and they might conflict with other programs,
so it's usually safer to set PATH
in your program.
To set PATH
from within Python, you need something like this at the
start of your program:
.. code-block:: python
import os
vipsbin = r'c:\vips-dev-8.16\bin'
os.environ['PATH'] = vipsbin + ';' + os.environ['PATH']
For Python 3.8 and later, you need:
.. code-block:: python
import os
vipsbin = r'c:\vips-dev-8.16\bin'
add_dll_dir = getattr(os, 'add_dll_directory', None)
if callable(add_dll_dir):
add_dll_dir(vipsbin)
else:
os.environ['PATH'] = os.pathsep.join((vipsbin, os.environ['PATH']))
Now when you import pyvips, it should be able to find the DLLs.
Conda ^^^^^
The Conda package includes a matching libvips binary, so just enter:
.. code-block:: shell
$ conda install --channel conda-forge pyvips
This sample program loads a JPG image, doubles the value of every green pixel, sharpens, and then writes the image back to the filesystem again:
.. code-block:: python
import pyvips
image = pyvips.Image.new_from_file('some-image.jpg', access='sequential')
image *= [1, 2, 1]
mask = pyvips.Image.new_from_array([
[-1, -1, -1],
[-1, 16, -1],
[-1, -1, -1],
], scale=8)
image = image.conv(mask, precision='integer')
image.write_to_file('x.jpg')
Local user install:
.. code-block:: shell
$ pip3 install -e .
$ pypy -m pip --user -e .
Run all tests:
.. code-block:: shell
$ tox
Run test suite:
.. code-block:: shell
$ pytest
Run a specific test:
.. code-block:: shell
$ pytest tests/test_saveload.py
Run perf tests:
.. code-block:: shell
$ cd tests/perf $ ./run.sh
Stylecheck:
.. code-block:: shell
$ flake8
Generate HTML docs in doc/build/html
:
.. code-block:: shell
$ cd doc; sphinx-build -bhtml . build/html
Regenerate enums:
Make sure you have installed a libvips with all optional packages enabled, then
.. code-block:: shell
$ cd examples; \
./gen-enums.py ~/GIT/libvips/build/libvips/Vips-8.0.gir > enums.py
Then check and move enums.py
into pyvips/
.
Regenerate autodocs:
Make sure you have installed a libvips with all optional packages enabled, then
.. code-block:: shell
$ cd doc; \
python3 -c "import pyvips; pyvips.Operation.generate_sphinx_all()" > x
And copy-paste x
into the obvious place in doc/vimage.rst
.
Update version number:
.. code-block:: shell
$ vi pyvips/version.py
$ vi doc/conf.py
Update pypi package:
.. code-block:: shell
$ python3 -m build --sdist
$ twine upload --repository pyvips dist/*
$ git tag -a v2.2.0 -m "as uploaded to pypi"
$ git push origin v2.2.0