109 lines
4.8 KiB
ReStructuredText
109 lines
4.8 KiB
ReStructuredText
Type Annotations
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================
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``attrs`` comes with first class support for type annotations for both Python 3.6 (:pep:`526`) and legacy syntax.
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However they will forever remain *optional*, therefore the example from the README could also be written as:
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.. doctest::
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>>> from attrs import define, field
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>>> @define
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... class SomeClass:
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... a_number = field(default=42)
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... list_of_numbers = field(factory=list)
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>>> sc = SomeClass(1, [1, 2, 3])
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>>> sc
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SomeClass(a_number=1, list_of_numbers=[1, 2, 3])
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You can choose freely between the approaches, but please remember that if you choose to use type annotations, you **must** annotate **all** attributes!
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----
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Even when going all-in on type annotations, you will need `attr.field` for some advanced features though.
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One of those features are the decorator-based features like defaults.
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It's important to remember that ``attrs`` doesn't do any magic behind your back.
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All the decorators are implemented using an object that is returned by the call to `attrs.field`.
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Attributes that only carry a class annotation do not have that object so trying to call a method on it will inevitably fail.
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*****
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Please note that types -- however added -- are *only metadata* that can be queried from the class and they aren't used for anything out of the box!
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Because Python does not allow references to a class object before the class is defined,
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types may be defined as string literals, so-called *forward references* (:pep:`526`).
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You can enable this automatically for a whole module by using ``from __future__ import annotations`` (:pep:`563`) as of Python 3.7.
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In this case ``attrs`` simply puts these string literals into the ``type`` attributes.
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If you need to resolve these to real types, you can call `attrs.resolve_types` which will update the attribute in place.
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In practice though, types show their biggest usefulness in combination with tools like mypy_, pytype_, or pyright_ that have dedicated support for ``attrs`` classes.
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The addition of static types is certainly one of the most exciting features in the Python ecosystem and helps you write *correct* and *verified self-documenting* code.
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If you don't know where to start, Carl Meyer gave a great talk on `Type-checked Python in the Real World <https://www.youtube.com/watch?v=pMgmKJyWKn8>`_ at PyCon US 2018 that will help you to get started in no time.
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mypy
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----
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While having a nice syntax for type metadata is great, it's even greater that mypy_ as of 0.570 ships with a dedicated ``attrs`` plugin which allows you to statically check your code.
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Imagine you add another line that tries to instantiate the defined class using ``SomeClass("23")``.
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Mypy will catch that error for you:
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.. code-block:: console
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$ mypy t.py
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t.py:12: error: Argument 1 to "SomeClass" has incompatible type "str"; expected "int"
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This happens *without* running your code!
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And it also works with *both* Python 2-style annotation styles.
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To mypy, this code is equivalent to the one above:
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.. code-block:: python
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@attr.s
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class SomeClass:
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a_number = attr.ib(default=42) # type: int
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list_of_numbers = attr.ib(factory=list, type=list[int])
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pyright
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-------
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``attrs`` provides support for pyright_ though the dataclass_transform_ specification.
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This provides static type inference for a subset of ``attrs`` equivalent to standard-library ``dataclasses``,
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and requires explicit type annotations using the `attrs.define` or ``@attr.s(auto_attribs=True)`` API.
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Given the following definition, ``pyright`` will generate static type signatures for ``SomeClass`` attribute access, ``__init__``, ``__eq__``, and comparison methods::
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@attr.define
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class SomeClass:
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a_number: int = 42
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list_of_numbers: list[int] = attr.field(factory=list)
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.. warning::
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The ``pyright`` inferred types are a subset of those supported by ``mypy``, including:
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- The generated ``__init__`` signature only includes the attribute type annotations.
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It currently does not include attribute ``converter`` types.
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- The ``attr.frozen`` decorator is not typed with frozen attributes, which are properly typed via ``attr.define(frozen=True)``.
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A `full list <https://github.com/microsoft/pyright/blob/main/specs/dataclass_transforms.md#attrs>`_ of limitations and incompatibilities can be found in pyright's repository.
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Your constructive feedback is welcome in both `attrs#795 <https://github.com/python-attrs/attrs/issues/795>`_ and `pyright#1782 <https://github.com/microsoft/pyright/discussions/1782>`_.
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Generally speaking, the decision on improving ``attrs`` support in pyright is entirely Microsoft's prerogative though.
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.. _mypy: http://mypy-lang.org
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.. _pytype: https://google.github.io/pytype/
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.. _pyright: https://github.com/microsoft/pyright
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.. _dataclass_transform: https://github.com/microsoft/pyright/blob/main/specs/dataclass_transforms.md
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