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CONTRIBUTING.md

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Contributing to PyTorch

If you are interested in contributing to PyTorch, your contributions will fall into two categories:

  1. You want to propose a new Feature and implement it
    • post about your intended feature, and we shall discuss the design and implementation. Once we agree that the plan looks good, go ahead and implement it.
  2. You want to implement a feature or bug-fix for an outstanding issue
    • Look at the outstanding issues here: https://github.com/pytorch/pytorch/issues
    • Especially look at the Low Priority and Medium Priority issues
    • Pick an issue and comment on the task that you want to work on this feature
    • If you need more context on a particular issue, please ask and we shall provide.

Once you finish implementing a feature or bugfix, please send a Pull Request to https://github.com/pytorch/pytorch

If you are not familiar with creating a Pull Request, here are some guides:

Developing locally with PyTorch

To locally develop with PyTorch, here are some tips:

  1. Uninstall all existing pytorch installs
conda uninstall pytorch
pip uninstall torch
pip uninstall torch # run this command twice
  1. Locally clone a copy of PyTorch from source:
git clone https://github.com/pytorch/pytorch
cd pytorch
  1. Install PyTorch in build develop mode:

A full set of instructions on installing PyTorch from Source are here: https://github.com/pytorch/pytorch#from-source

The change you have to make is to replace

python setup.py install

with

python setup.py build develop

This is especially useful if you are only changing Python files.

This mode will symlink the python files from the current local source tree into the python install.

Hence, if you modify a python file, you do not need to reinstall pytorch again and again.

For example:

  • Install local pytorch in build develop mode
  • modify your python file torch/__init__.py (for example)
  • test functionality
  • modify your python file torch/__init__.py
  • test functionality
  • modify your python file torch/__init__.py
  • test functionality

You do not need to repeatedly install after modifying python files.

Unit testing

PyTorch's testing is located under test/. Run the entire test suite with

python test/run_test.py

or run individual test files, like python test/test_nn.py, for individual test suites.

Better local unit tests with pytest

We don't officially support pytest, but it works well with our unittest tests and offers a number of useful features for local developing. Install it via pip install pytest.

If you want to just run tests that contain a specific substring, you can use the -k flag:

pytest test/test_nn.py -k Loss -v

The above is an example of testing a change to Loss functions: this command runs tests such as TestNN.test_BCELoss and TestNN.test_MSELoss and can be useful to save keystrokes.

Writing documentation

PyTorch uses Google style for formatting docstrings. Length of line inside docstrings block must be limited to 80 characters to fit into Jupyter documentation popups.

Managing multiple build trees

One downside to using python setup.py develop is that your development version of pytorch will be installed globally on your account (e.g., if you run import torch anywhere else, the development version will be used.

If you want to manage multiple builds of PyTorch, you can make use of conda environments to maintain separate Python package environments, each of which can be tied to a specific build of PyTorch. To set one up:

conda create -n pytorch-myfeature
source activate pytorch-myfeature
# if you run python now, torch will NOT be installed
python setup.py build develop

C++ Development tips

If you are working on the C++ code, there are a few important things that you will want to keep in mind:

  1. How to rebuild only the code you are working on, and
  2. How to make rebuilds in the absence of changes go faster.

Build only what you need.

python setup.py build will build everything, but since our build system is not very optimized for incremental rebuilds, this will actually be very slow. Far better is to only request rebuilds of the parts of the project you are working on:

  • Working on torch/csrc? Run python setup.py develop to rebuild (NB: no build here!)

  • Working on torch/lib/TH, did not make any cmake changes, and just want to see if it compiles? Run (cd torch/lib/build/TH && make install -j$(getconf _NPROCESSORS_ONLN)). This applies for any other subdirectory of torch/lib. Warning: Changes you make here will not be visible from Python. See below.

  • Working on torch/lib and want to run your changes / rerun cmake? Run python setup.py build_deps. Note that this will rerun cmake for every subdirectory in TH; if you are only working on one project, consider editing torch/lib/build_all.sh and commenting out the build lines of libraries you are not working on.

On the initial build, you can also speed things up with the environment variables DEBUG and NO_CUDA.

  • DEBUG=1 will enable debug builds (-g -O0)
  • NO_CUDA=1 will disable compiling CUDA (in case you are developing on something not CUDA related), to save compile time.

For example:

NO_CUDA=1 DEBUG=1 python setup.py build develop

Make sure you continue to pass these flags on subsequent builds.

Code completion and IDE support

When using python setup.py develop, PyTorch will generate a compile_commands.json file that can be used by many editors to provide command completion and error highlighting for PyTorch's C++ code. You need to pip install ninja to generate accurate information for the code in torch/csrc. More information at:

Make no-op build fast.

Use Ninja

Python setuptools is pretty dumb, and always rebuilds every C file in a project. If you install the ninja build system with pip install ninja, then PyTorch will use it to track dependencies correctly.

Use CCache

Even when dependencies are tracked with file modification, there are many situations where files get rebuilt when a previous compilation was exactly the same.

Using ccache in a situation like this is a real time-saver. However, by default, ccache does not properly support CUDA stuff, so here are the instructions for installing a custom ccache fork that has CUDA support:

# install and export ccache
if ! ls ~/ccache/bin/ccache
then
    sudo apt-get update
    sudo apt-get install -y automake autoconf
    sudo apt-get install -y asciidoc
    mkdir -p ~/ccache
    pushd /tmp
    rm -rf ccache
    git clone https://github.com/colesbury/ccache -b ccbin
    pushd ccache
    ./autogen.sh
    ./configure
    make install prefix=~/ccache
    popd
    popd

    mkdir -p ~/ccache/lib
    mkdir -p ~/ccache/cuda
    ln -s ~/ccache/bin/ccache ~/ccache/lib/cc
    ln -s ~/ccache/bin/ccache ~/ccache/lib/c++
    ln -s ~/ccache/bin/ccache ~/ccache/lib/gcc
    ln -s ~/ccache/bin/ccache ~/ccache/lib/g++
    ln -s ~/ccache/bin/ccache ~/ccache/cuda/nvcc

    ~/ccache/bin/ccache -M 25Gi
fi

export PATH=~/ccache/lib:$PATH
export CUDA_NVCC_EXECUTABLE=~/ccache/cuda/nvcc

CUDA Development tips

If you are working on the CUDA code, here are some useful CUDA debugging tips:

  1. CUDA_DEBUG=1 will enable CUDA debugging symbols (-g -G). This is particularly helpful in debugging device code. However, it will slow down the build process, so use wisely.
  2. cuda-gdb and cuda-memcheck are your best CUDA debugging friends. Unlikegdb, cuda-gdb can display actual values in a CUDA tensor (rather than all zeros).

Hope this helps, and thanks for considering to contribute.

Caffe2 notes

In 2018, we merged Caffe2 into the PyTorch source repository. While the steady state aspiration is that Caffe2 and PyTorch share code freely, in the meantime there will be some separation.

If you submit a PR to only PyTorch or only Caffe2 code, CI will only run for the project you edited. The logic for this is implemented in .jenkins/pytorch/dirty.sh and .jenkins/caffe2/dirty.sh; you can look at this to see what path prefixes constitute changes. This also means if you ADD a new top-level path, or you start sharing code between projects, you need to modify these files.

There are a few "unusual" directories which, for historical reasons, are Caffe2/PyTorch specific. Here they are:

  • CMakeLists.txt, Makefile, binaries, cmake, conda, modules, scripts are Caffe2-specific. Don't put PyTorch code in them without extra coordination.

  • mypy*, requirements.txt, setup.py, test, tools are PyTorch-specific. Don't put Caffe2 code in them without extra coordination.