PEP: 713 Title: Callable Modules Author: Amethyst Reese Sponsor: Ɓukasz Langa Discussions-To: https://discuss.python.org/t/pep-713-callable-modules/26127 Status: Rejected Type: Standards Track Content-Type: text/x-rst Created: 20-Apr-2023 Python-Version: 3.12 Post-History: `23-Apr-2023 `__ Resolution: https://discuss.python.org/t/26127/86 Rejection Notice ================ The Steering Council didn't feel that there was a compelling reason to have this PEP, even though it clearly could be done from a consistency point of view. If this idea comes up again in the future, this is a useful prior discussion to refer to. Abstract ======== Modules are currently not directly callable. Classes can define a ``__call__`` method that makes instance objects callable, but defining a similarly named function in the global module scope has no effect, and that function can only be called by importing or referencing it directly as ``module.__call__``. :pep:`562` added support for :meth:`~object.__getattr__` and :meth:`~object.__dir__` for modules, but defining ``__getattr__`` to return a value for ``__call__`` still does not make a module callable. This PEP proposes support for making modules directly callable by defining a ``__call__`` object in the module's global namespace, either as a standard function, or an arbitrary callable object. Motivation ========== Many modules have only a single primary interface to their functionality. In many cases, that interface is a single callable object, where being able to import and use the module directly as a callable provides a more "Pythonic" interface for users:: # user.py import fancy @fancy def func(...): ... Currently, providing this style of interface requires modifying the module object at runtime to make it callable. This is commonly done by replacing the module object in ``sys.modules`` with a callable alternative (such as a function or class instance):: # fancy.py def fancy(...): ... sys.modules[__name__] = fancy This has the effect of making the original module effectively unreachable without further hooks from the author, even with ``from module import member``. It also results in a "module" object that is missing all of the special module attributes, including ``__doc__``, ``__package__``, ``__path__``, etc. Alternatively, a module author can choose to override the module's ``__class__`` property with a custom type that provides a callable interface:: # fancy.py def fancy(...): ... class FancyModule(types.ModuleType): def __call__(self, ...): return fancy(...) sys.modules[__name__].__class__ = FancyModule The downside of either approach is that it not only results in extra boilerplate, but also results in type checker failures because they don't recognize that the module is callable at runtime: .. code-block:: console $ mypy user.py user.py:3: error: Module not callable [operator] Found 1 error in 1 file (checked 1 source file) Specification ============= When a module object is called, and a ``__call__`` object is found (either as the result of a ``__getattr__`` or ``__dict__`` lookup), then that object will be called with the given arguments. If a ``__call__`` object is not found, then a ``TypeError`` will be raised, matching the existing behavior. All of these examples would be considered valid, callable modules: .. code-block:: python # hello.py def __call__(...): pass .. code-block:: python # hello.py class Hello: pass __call__ = Hello .. code-block:: python # hello.py def hello(): pass def __getattr__(name): if name == "__call__": return hello The first two styles should generally be preferred, as it allows for easier static analysis from tools like type checkers, though the third form would be allowed in order to make the implementation more consistent. The intent is to allow arbitrary callable object to be assigned to the module's ``__call__`` property or returned by the module's ``__getattr__`` method, enabling module authors to pick the most suitable mechanism for making their module callable by users. Backwards Compatibility and Impact on Performance ================================================= This PEP is not expected to cause any backwards incompatibility. Any modules that already contain a ``__call__`` object will continue to function the same as before, though with the additional ability to be called directly. It is considered unlikely that modules with an existing ``__call__`` object would depend on the existing behavior of raising ``TypeError`` when called. Performance implications of this PEP are minimal, as it defines a new interface. Calling a module would trigger a lookup for the name ``__call__`` on a module object. Existing workarounds for creating callable modules already depend on this behavior for generic objects, resulting in similar performance for these callable modules. Type checkers will likely need to be updated accordingly to treat modules with a ``__call__`` object as callable. This should be possible to support in type checkers when checking code targeted at older Python versions that do not support callable modules, with the expectation that these modules would also include one of the workarounds mentioned earlier to make the module callable. How to Teach This ================= The documentation for :external+python:ref:`callable types ` will include modules in the list, with a link to :meth:`~object.__call__`. The :external+python:ref:`callable-types` documentation will include a section covering callable modules, with example code, similar to the section for `customizing module attribute access`__. __ https://docs.python.org/3/reference/datamodel.html#customizing-module-attribute-access Reference Implementation ======================== The proposed implementation of callable modules is available in `CPython PR #103742 `_. Rejected Ideas ============== Given the introduction of ``__getattr__`` and ``__dir__``, and the proposal to enable use of ``__call__``, it was considered if it was worth allowing use of *all* :external+python:ref:`specialnames` for modules, such as ``__or__`` and ``__iter__``. While this would not be completely undesired, it increases the potential for backward compatibility concerns, and these other special methods are likely to provide less utility to library authors in comparison to ``__call__``. Copyright ========= This document is placed in the public domain or under the CC0-1.0-Universal license, whichever is more permissive.