bpo-41559: Documentation for PEP 612 (GH-24000)

2021-01-02 08:45:50 +08:00 · 2021-01-02 08:45:50 +08:00 · 11276cd9c4
parent 3bf05327c2
commit 11276cd9c4
4 changed files with 238 additions and 8 deletions
--- a/Doc/library/stdtypes.rst
+++ b/Doc/library/stdtypes.rst
@ -4959,6 +4959,11 @@ All parameterized generics implement special read-only attributes.
      (~T,)
   .. note::
      A ``GenericAlias`` object with :class:`typing.ParamSpec` parameters may not
      have correct ``__parameters__`` after substitution because
      :class:`typing.ParamSpec` is intended primarily for static type checking.
 .. seealso::
   * :pep:`585` -- "Type Hinting Generics In Standard Collections"
--- a/Doc/library/typing.rst
+++ b/Doc/library/typing.rst
@ -18,7 +18,8 @@
 --------------
 This module provides runtime support for type hints as specified by
-:pep:`484`, :pep:`526`, :pep:`544`, :pep:`586`, :pep:`589`, :pep:`591`, and :pep:`613`.
+:pep:`484`, :pep:`526`, :pep:`544`, :pep:`586`, :pep:`589`, :pep:`591`,
 :pep:`612` and :pep:`613`.
 The most fundamental support consists of the types :data:`Any`, :data:`Union`,
 :data:`Tuple`, :data:`Callable`, :class:`TypeVar`, and
 :class:`Generic`.  For full specification please see :pep:`484`.  For
@ -171,6 +172,22 @@ It is possible to declare the return type of a callable without specifying
 the call signature by substituting a literal ellipsis
 for the list of arguments in the type hint: ``Callable[..., ReturnType]``.
 Callables which take other callables as arguments may indicate that their
 parameter types are dependent on each other using :class:`ParamSpec`.
 Additionally, if that callable adds or removes arguments from other
 callables, the :data:`Concatenate` operator may be used.  They
 take the form ``Callable[ParamSpecVariable, ReturnType]`` and
 ``Callable[Concatenate[Arg1Type, Arg2Type, ..., ParamSpecVariable], ReturnType]``
 respectively.
 .. versionchanged:: 3.10
   ``Callable`` now supports :class:`ParamSpec` and :data:`Concatenate`.
   See :pep:`612` for more information.
 .. seealso::
   The documentation for :class:`ParamSpec` and :class:`Concatenate` provide
   examples of usage in ``Callable``.
 .. _generics:
 Generics
@ -316,6 +333,43 @@ User defined generic type aliases are also supported. Examples::
 .. versionchanged:: 3.7
    :class:`Generic` no longer has a custom metaclass.
 User-defined generics for parameter expressions are also supported via parameter
 specification variables in the form ``Generic[P]``.  The behavior is consistent
 with type variables' described above as parameter specification variables are
 treated by the typing module as a specialized type variable.  The one exception
 to this is that a list of types can be used to substitute a :class:`ParamSpec`::
   >>> from typing import Generic, ParamSpec, TypeVar
   >>> T = TypeVar('T')
   >>> P = ParamSpec('P')
   >>> class Z(Generic[T, P]): ...
   ...
   >>> Z[int, [dict, float]]
   __main__.Z[int, (<class 'dict'>, <class 'float'>)]
 Furthermore, a generic with only one parameter specification variable will accept
 parameter lists in the forms ``X[[Type1, Type2, ...]]`` and also
 ``X[Type1, Type2, ...]`` for aesthetic reasons.  Internally, the latter is converted
 to the former and are thus equivalent::
   >>> class X(Generic[P]): ...
   ...
   >>> X[int, str]
   __main__.X[(<class 'int'>, <class 'str'>)]
   >>> X[[int, str]]
   __main__.X[(<class 'int'>, <class 'str'>)]
 Do note that generics with :class:`ParamSpec` may not have correct
 ``__parameters__`` after substitution in some cases because they
 are intended primarily for static type checking.
 .. versionchanged:: 3.10
   :class:`Generic` can now be parameterized over parameter expressions.
   See :class:`ParamSpec` and :pep:`612` for more details.
 A user-defined generic class can have ABCs as base classes without a metaclass
 conflict. Generic metaclasses are not supported. The outcome of parameterizing
 generics is cached, and most types in the typing module are hashable and
@ -602,10 +656,80 @@ These can be used as types in annotations using ``[]``, each having a unique syn
   ``Callable[..., Any]``, and in turn to
   :class:`collections.abc.Callable`.
   Callables which take other callables as arguments may indicate that their
   parameter types are dependent on each other using :class:`ParamSpec`.
   Additionally, if that callable adds or removes arguments from other
   callables, the :data:`Concatenate` operator may be used.  They
   take the form ``Callable[ParamSpecVariable, ReturnType]`` and
   ``Callable[Concatenate[Arg1Type, Arg2Type, ..., ParamSpecVariable], ReturnType]``
   respectively.
   .. deprecated:: 3.9
      :class:`collections.abc.Callable` now supports ``[]``. See :pep:`585` and
      :ref:`types-genericalias`.
   .. versionchanged:: 3.10
      ``Callable`` now supports :class:`ParamSpec` and :data:`Concatenate`.
      See :pep:`612` for more information.
   .. seealso::
      The documentation for :class:`ParamSpec` and :class:`Concatenate` provide
      examples of usage with ``Callable``.
 .. data:: Concatenate
   Used with :data:`Callable` and :class:`ParamSpec` to type annotate a higher
   order callable which adds, removes, or transforms parameters of another
   callable.  Usage is in the form
   ``Concatenate[Arg1Type, Arg2Type, ..., ParamSpecVariable]``. ``Concatenate``
   is currently only valid when used as the first argument to a :data:`Callable`.
   The last parameter to ``Concatenate`` must be a :class:`ParamSpec`.
   For example, to annotate a decorator ``with_lock`` which provides a
   :class:`threading.Lock` to the decorated function,  ``Concatenate`` can be
   used to indicate that ``with_lock`` expects a callable which takes in a
   ``Lock`` as the first argument, and returns a callable with a different type
   signature.  In this case, the :class:`ParamSpec` indicates that the returned
   callable's parameter types are dependent on the parameter types of the
   callable being passed in::
      from collections.abc import Callable
      from threading import Lock
      from typing import Any, Concatenate, ParamSpec
      P = ParamSpec('P')
      R = ParamSpec('R')
      # Use this lock to ensure that only one thread is executing a function
      # at any time.
      my_lock = Lock()
      def with_lock(f: Callable[Concatenate[Lock, P], R]) -> Callable[P, R]:
          '''A type-safe decorator which provides a lock.'''
          global my_lock
          def inner(*args: P.args, **kwargs: P.kwargs) -> T:
              # Provide the lock as the first argument.
              return f(my_lock, *args, **kwargs)
          return inner
      @with_lock
      def sum_threadsafe(lock: Lock, numbers: list[float]) -> float:
          '''Add a list of numbers together in a thread-safe manner.'''
          with lock:
              return sum(numbers)
      # We don't need to pass in the lock ourselves thanks to the decorator.
      sum_threadsafe([1.1, 2.2, 3.3])
 .. versionadded:: 3.10
 .. seealso::
   * :pep:`612` -- Parameter Specification Variables (the PEP which introduced
     ``ParamSpec`` and ``Concatenate``).
   * :class:`ParamSpec` and :class:`Callable`.
 .. class:: Type(Generic[CT_co])
   A variable annotated with ``C`` may accept a value of type ``C``. In
@ -876,6 +1000,84 @@ These are not used in annotations. They are building blocks for creating generic
    for the type variable must be a subclass of the boundary type,
    see :pep:`484`.
 .. class:: ParamSpec(name, *, bound=None, covariant=False, contravariant=False)
   Parameter specification variable.  A specialized version of
   :class:`type variables <TypeVar>`.
   Usage::
      P = ParamSpec('P')
   Parameter specification variables exist primarily for the benefit of static
   type checkers.  They are used to forward the parameter types of one
   callable to another callable -- a pattern commonly found in higher order
   functions and decorators.  They are only valid when used in ``Concatenate``,
   or as the first argument to ``Callable``, or as parameters for user-defined
   Generics.  See :class:`Generic` for more information on generic types.
   For example, to add basic logging to a function, one can create a decorator
   ``add_logging`` to log function calls.  The parameter specification variable
   tells the type checker that the callable passed into the decorator and the
   new callable returned by it have inter-dependent type parameters::
      from collections.abc import Callable
      from typing import TypeVar, ParamSpec
      import logging
      T = TypeVar('T')
      P = ParamSpec('P')
      def add_logging(f: Callable[P, T]) -> Callable[P, T]:
          '''A type-safe decorator to add logging to a function.'''
          def inner(*args: P.args, **kwargs: P.kwargs) -> T:
              logging.info(f'{f.__name__} was called')
              return f(*args, **kwargs)
          return inner
      @add_logging
      def add_two(x: float, y: float) -> float:
          '''Add two numbers together.'''
          return x + y
   Without ``ParamSpec``, the simplest way to annotate this previously was to
   use a :class:`TypeVar` with bound ``Callable[..., Any]``.  However this
   causes two problems:
      1. The type checker can't type check the ``inner`` function because
         ``*args`` and ``**kwargs`` have to be typed :data:`Any`.
      2. :func:`~cast` may be required in the body of the ``add_logging``
         decorator when returning the ``inner`` function, or the static type
         checker must be told to ignore the ``return inner``.
   .. attribute:: args
   .. attribute:: kwargs
      Since ``ParamSpec`` captures both positional and keyword parameters,
      ``P.args`` and ``P.kwargs`` can be used to split a ``ParamSpec`` into its
      components.  ``P.args`` represents the tuple of positional parameters in a
      given call and should only be used to annotate ``*args``.  ``P.kwargs``
      represents the mapping of keyword parameters to their values in a given call,
      and should be only be used to annotate ``**kwargs`` or ``**kwds``.  Both
      attributes require the annotated parameter to be in scope.
   Parameter specification variables created with ``covariant=True`` or
   ``contravariant=True`` can be used to declare covariant or contravariant
   generic types.  The ``bound`` argument is also accepted, similar to
   :class:`TypeVar`.  However the actual semantics of these keywords are yet to
   be decided.
   .. versionadded:: 3.10
   .. note::
      Only parameter specification variables defined in global scope can
      be pickled.
   .. seealso::
      * :pep:`612` -- Parameter Specification Variables (the PEP which introduced
        ``ParamSpec`` and ``Concatenate``).
      * :class:`Callable` and :class:`Concatenate`.
 .. data:: AnyStr
   ``AnyStr`` is a type variable defined as
--- a/Doc/whatsnew/3.10.rst
+++ b/Doc/whatsnew/3.10.rst
@ -144,6 +144,28 @@ See :pep:`604` for more details.
 (Contributed by Maggie Moss and Philippe Prados in :issue:`41428`.)
 PEP 612: Parameter Specification Variables
 ------------------------------------------
 Two new options to improve the information provided to static type checkers for
 :pep:`484`\ 's ``Callable`` have been added to the :mod:`typing` module.
 The first is the parameter specification variable.  They are used to forward the
 parameter types of one callable to another callable -- a pattern commonly
 found in higher order functions and decorators.  Examples of usage can be found
 in :class:`typing.ParamSpec`. Previously, there was no easy way to type annotate
 dependency of parameter types in such a precise manner.
 The second option is the new ``Concatenate`` operator. It's used in conjunction
 with parameter specification variables to type annotate a higher order callable
 which adds or removes parameters of another callable.  Examples of usage can
 be found in :class:`typing.Concatenate`.
 See :class:`typing.Callable`, :class:`typing.ParamSpec`,
 :class:`typing.Concatenate` and :pep:`612` for more details.
 (Contributed by Ken Jin in :issue:`41559`.)
 Other Language Changes
 ======================
--- a/Lib/typing.py
+++ b/Lib/typing.py
@ -544,8 +544,9 @@ def TypeAlias(self, parameters):
@_SpecialForm
 def Concatenate(self, parameters):
-    """Used in conjunction with ParamSpec and Callable to represent a higher
+    """Used in conjunction with ``ParamSpec`` and ``Callable`` to represent a
-    order function which adds, removes or transforms parameters of a Callable.
+    higher order function which adds, removes or transforms parameters of a
    callable.
    For example::
@ -735,11 +736,11 @@ class ParamSpec(_Final, _Immutable, _TypeVarLike, _root=True):
    Parameter specification variables exist primarily for the benefit of static
    type checkers.  They are used to forward the parameter types of one
-    Callable to another Callable, a pattern commonly found in higher order
+    callable to another callable, a pattern commonly found in higher order
-    functions and decorators.  They are only valid when used in Concatenate, or
+    functions and decorators.  They are only valid when used in ``Concatenate``,
-    as the first argument to Callable, or as parameters for user-defined Generics.
+    or s the first argument to ``Callable``, or as parameters for user-defined
-    See class Generic for more information on generic types.  An example for
+    Generics.  See class Generic for more information on generic types.  An
-    annotating a decorator::
+    example for annotating a decorator::
       T = TypeVar('T')
       P = ParamSpec('P')