For downstream package authors#

This document aims to explain some best practices for authoring a package that depends on NumPy.

Understanding NumPy’s versioning and API/ABI stability#

NumPy uses a standard, PEP 440 compliant, versioning scheme: major.minor.bugfix. A major release is highly unusual (NumPy is still at version 1.xx) and if it happens it will likely indicate an ABI break. Minor versions are released regularly, typically every 6 months. Minor versions contain new features, deprecations, and removals of previously deprecated code. Bugfix releases are made even more frequently; they do not contain any new features or deprecations.

It is important to know that NumPy, like Python itself and most other well known scientific Python projects, does not use semantic versioning. Instead, backwards incompatible API changes require deprecation warnings for at least two releases. For more details, see NEP 23 — Backwards compatibility and deprecation policy.

NumPy has both a Python API and a C API. The C API can be used directly or via Cython, f2py, or other such tools. If your package uses the C API, then ABI (application binary interface) stability of NumPy is important. NumPy’s ABI is forward but not backward compatible. This means: binaries compiled against a given version of NumPy will still run correctly with newer NumPy versions, but not with older versions.

Testing against the NumPy main branch or pre-releases#

For large, actively maintained packages that depend on NumPy, we recommend testing against the development version of NumPy in CI. To make this easy, nightly builds are provided as wheels at https://anaconda.org/scipy-wheels-nightly/. Example install command:

pip install -U --pre --only-binary :all: -i https://pypi.anaconda.org/scipy-wheels-nightly/simple numpy

This helps detect regressions in NumPy that need fixing before the next NumPy release. Furthermore, we recommend to raise errors on warnings in CI for this job, either all warnings or otherwise at least DeprecationWarning and FutureWarning. This gives you an early warning about changes in NumPy to adapt your code.

Adding a dependency on NumPy#

Build-time dependency#

If a package either uses the NumPy C API directly or it uses some other tool that depends on it like Cython or Pythran, NumPy is a build-time dependency of the package. Because the NumPy ABI is only forward compatible, you must build your own binaries (wheels or other package formats) against the lowest NumPy version that you support (or an even older version).

Picking the correct NumPy version to build against for each Python version and platform can get complicated. There are a couple of ways to do this. Build-time dependencies are specified in pyproject.toml (see PEP 517), which is the file used to build wheels by PEP 517 compliant tools (e.g., when using pip wheel).

You can specify everything manually in pyproject.toml, or you can instead rely on the oldest-supported-numpy metapackage. oldest-supported-numpy will specify the correct NumPy version at build time for wheels, taking into account Python version, Python implementation (CPython or PyPy), operating system and hardware platform. It will specify the oldest NumPy version that supports that combination of characteristics. Note: for platforms for which NumPy provides wheels on PyPI, it will be the first version with wheels (even if some older NumPy version happens to build).

For conda-forge it’s a little less complicated: there’s dedicated handling for NumPy in build-time and runtime dependencies, so typically this is enough (see here for docs):

host:
  - numpy
run:
  - {{ pin_compatible('numpy') }}

Note

pip has --no-use-pep517 and --no-build-isolation flags that may ignore pyproject.toml or treat it differently - if users use those flags, they are responsible for installing the correct build dependencies themselves.

conda will always use -no-build-isolation; dependencies for conda builds are given in the conda recipe (meta.yaml), the ones in pyproject.toml have no effect.

Please do not use setup_requires (it is deprecated and may invoke easy_install).

Because for NumPy you have to care about ABI compatibility, you specify the version with == to the lowest supported version. For your other build dependencies you can probably be looser, however it’s still important to set lower and upper bounds for each dependency. It’s fine to specify either a range or a specific version for a dependency like wheel or setuptools.

Warning

Note that setuptools does major releases often and those may contain changes that break numpy.distutils, which will not be updated anymore for new setuptools versions. It is therefore recommended to set an upper version bound in your build configuration for the last known version of setuptools that works with your build.

Runtime dependency & version ranges#

NumPy itself and many core scientific Python packages have agreed on a schedule for dropping support for old Python and NumPy versions: NEP 29 — Recommend Python and NumPy version support as a community policy standard. We recommend all packages depending on NumPy to follow the recommendations in NEP 29.

For run-time dependencies, specify version bounds using install_requires in setup.py (assuming you use numpy.distutils or setuptools to build).

Most libraries that rely on NumPy will not need to set an upper version bound: NumPy is careful to preserve backward-compatibility.

That said, if you are (a) a project that is guaranteed to release frequently, (b) use a large part of NumPy’s API surface, and (c) is worried that changes in NumPy may break your code, you can set an upper bound of <MAJOR.MINOR + N with N no less than 3, and MAJOR.MINOR being the current release of NumPy [*]. If you use the NumPy C API (directly or via Cython), you can also pin the current major version to prevent ABI breakage. Note that setting an upper bound on NumPy may affect the ability of your library to be installed alongside other, newer packages.

Note

SciPy has more documentation on how it builds wheels and deals with its build-time and runtime dependencies here.

NumPy and SciPy wheel build CI may also be useful as a reference, it can be found here for NumPy and here for SciPy.