1253 lines
43 KiB
ReStructuredText
1253 lines
43 KiB
ReStructuredText
PEP: 677
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Title: Callable Type Syntax
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Author: Steven Troxler <steven.troxler@gmail.com>,
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Pradeep Kumar Srinivasan <gohanpra@gmail.com>
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Sponsor: Guido van Rossum <guido at python.org>
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Discussions-To: python-dev@python.org
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 13-Dec-2021
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Python-Version: 3.11
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Post-History: 16-Dec-2021
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Abstract
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========
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This PEP introduces a concise and friendly syntax for callable types,
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supporting the same functionality as ``typing.Callable`` but with an
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arrow syntax inspired by the syntax for typed function
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signatures. This allows types like ``Callable[[int, str], bool]`` to
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be written as ``(int, str) -> bool``.
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The proposed syntax supports all the functionality provided by
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``typing.Callable`` and ``typing.Concatenate``, and is intended to
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work as a drop-in replacement.
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Motivation
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==========
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One way to make code safer and easier to analyze is by making sure
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that functions and classes are well-typed. In Python we have type
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annotations, the framework for which is defined in :pep:`484`, to provide
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type hints that can find bugs as well as helping with editor tooling
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like tab completion, static analysis tooling, and code review.
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Consider the following untyped code::
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def flat_map(func, l):
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out = []
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for element in l:
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out.extend(func(element))
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return out
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def wrap(x: int) -> list[int]:
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return [x]
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def add(x: int, y: int) -> int:
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return x + y
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flat_map(wrap, [1, 2, 3]) # no runtime error, output is [1, 2, 3]
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flat_map(add, [1, 2, 3]) # runtime error: `add` expects 2 arguments, got 1
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We can add types to this example to detect the runtime error::
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from typing import Callable
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def flat_map(
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func: Callable[[int], list[int]],
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l: list[int]
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) -> list[int]:
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....
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...
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flat_map(wrap, [1, 2, 3]) # type checks okay, output is [1, 2, 3]
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flat_map(add, [1, 2, 3]) # type check error
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There are a few usability challenges with ``Callable`` we can see here:
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- It is verbose, particularly for more complex function signatures.
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- It relies on two levels of nested brackets, unlike any other generic
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type. This can be especially hard to read when some of the type
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parameters are themselves generic types.
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- The bracket structure is not visually similar to how function signatures
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are written.
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- It requires an explicit import, unlike many of the other most common
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types like ``list`` and ``dict``.
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Possibly as a result, `programmers often fail to write complete
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Callable types
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<https://github.com/pradeep90/annotation_collector#typed-projects---callable-type>`_.
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Such untyped or partially-typed callable types do not check the
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parameter types or return types of the given callable and thus negate
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the benefits of static typing. For example, they might write this::
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from typing import Callable
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def flat_map(
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func: Callable[..., Any],
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l: list[int]
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) -> list[int]:
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....
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...
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flat_map(add, [1, 2, 3]) # oops, no type check error!
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There's some partial type information here - we at least know that ``func``
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needs to be callable. But we've dropped too much type information for
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type checkers to find the bug.
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With our proposal, the example looks like this::
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def flat_map(
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func: (int) -> list[int],
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l: list[int]
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) -> list[int]:
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out = []
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for element in l:
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out.extend(f(element))
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return out
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...
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The type ``(int) -> list[int]`` is more concise, uses an arrow similar
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to the one indicating a return type in a function header, avoids
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nested brackets, and does not require an import.
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Rationale
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=========
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The ``Callable`` type is widely used. For example, `as of October 2021
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it was
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<https://github.com/pradeep90/annotation_collector#overall-stats-in-typeshed>`_
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the fifth most common complex type in typeshed, after ``Optional``,
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``Tuple``, ``Union``, and ``List``.
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The others have had their syntax improved and the need for imports
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eliminated by either :pep:`604` or :pep:`585`:
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- ``typing.Optional[int]`` is written ``int | None``
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- ``typing.Union[int, str]`` is written ``int | str``
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- ``typing.List[int]`` is written ``list[int]``
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- ``typing.Tuple[int, str]`` is written ``tuple[int, str]``
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The ``typing.Callable`` type is used almost as often as these other
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types, is more complicated to read and write, and still requires an
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import and bracket-based syntax.
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In this proposal, we chose to support all the existing semantics of
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``typing.Callable``, without adding support for new features. We made
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this decision after examining how frequently each feature might be
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used in existing typed and untyped open-source code. We determined
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that the vast majority of use cases are covered.
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We considered adding support for named, optional, and variadic
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arguments. However, we decided against including these features, as
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our analysis showed they are infrequently used. When they are really
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needed, it is possible to type these using `callback protocols
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<https://mypy.readthedocs.io/en/stable/protocols.html#callback-protocols>`_.
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An Arrow Syntax for Callable Types
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----------------------------------
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We are proposing a succinct, easy-to-use syntax for
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``typing.Callable`` that looks similar to function headers in Python.
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Our proposal closely follows syntax used by several popular languages
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such as `Typescript
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<https://basarat.gitbook.io/typescript/type-system/callable#arrow-syntax>`_,
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`Kotlin <https://kotlinlang.org/docs/lambdas.html>`_, and `Scala
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<https://docs.scala-lang.org/tour/higher-order-functions.html>`_.
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Our goals are that:
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- Callable types using this syntax will be easier to learn and use,
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particularly for developers with experience in other languages.
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- Library authors will be more likely to use expressive types for
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callables that enable type checkers to better understand code and
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find bugs, as in the ``decorator`` example above.
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Consider this simplified real-world example from a web server, written
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using the existing ``typing.Callable``::
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from typing import Awaitable, Callable
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from app_logic import Response, UserSetting
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def customize_response(
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response: Response,
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customizer: Callable[[Response, list[UserSetting]], Awaitable[Response]]
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) -> Response:
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...
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With our proposal, this code can be abbreviated to::
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from app_logic import Response, UserSetting
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def customize_response(
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response: Response,
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customizer: async (Response, list[UserSetting]) -> Response,
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) -> Response:
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...
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This is shorter and requires fewer imports. It also has far less
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nesting of square brackets - only one level, as opposed to three in
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the original code.
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Compact Syntax for ``ParamSpec``
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--------------------------------
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A particularly common case where library authors leave off type information
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for callables is when defining decorators. Consider the following::
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from typing import Any, Callable
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def with_retries(
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f: Callable[..., Any]
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) -> Callable[..., Any]:
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def wrapper(retry_once, *args, **kwargs):
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if retry_once:
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try: return f(*args, **kwargs)
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except Exception: pass
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return f(*args, **kwargs)
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return wrapper
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@with_retries
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def f(x: int) -> int:
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return x
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f(y=10) # oops - no type error!
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In the code above, it is clear that the decorator should produce a
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function whose signature is like that of the argument ``f`` other
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than an additional ``retry_once`` argument. But the use of ``...``
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prevents a type checker from seeing this and alerting a user that
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``f(y=10)`` is invalid.
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With :pep:`612` it is possible to type decorators like this correctly
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as follows::
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from typing import Any, Callable, Concatenate, ParamSpec, TypeVar
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R = TypeVar("R")
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P = ParamSpec("P")
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def with_retries(
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f: Callable[P, R]
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) -> Callable[Concatenate[bool, P] R]:
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def wrapper(retry_once: bool, *args: P.args, **kwargs: P.kwargs) -> R:
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...
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return wrapper
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...
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With our proposed syntax, the properly-typed decorator example becomes
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concise and the type representations are visually descriptive::
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from typing import Any, ParamSpec, TypeVar
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R = TypeVar("R")
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P = ParamSpec("P")
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def with_retries(
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f: (**P) -> R
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) -> (bool, **P) -> R:
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...
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Comparing to Other Languages
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----------------------------
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Many popular programming languages use an arrow syntax similar
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to the one we are proposing here.
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TypeScript
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~~~~~~~~~~
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In `TypeScript
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<https://basarat.gitbook.io/typescript/type-system/callable#arrow-syntax>`_,
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function types are expressed in a syntax almost the same as the one we
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are proposing, but the arrow token is ``=>`` and arguments have names::
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(x: int, y: str) => bool
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The names of the arguments are not actually relevant to the type. So,
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for example, this is the same callable type::
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(a: int, b: str) => bool
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Kotlin
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~~~~~~
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Function types in `Kotlin <https://kotlinlang.org/docs/lambdas.html>`_ permit
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an identical syntax to the one we are proposing, for example::
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(Int, String) -> Bool
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It also optionally allows adding names to the arguments, for example::
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(x: Int, y: String) -> Bool
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As in TypeScript, the argument names (if provided) are just there for
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documentation and are not part of the type itself.
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Scala
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~~~~~
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`Scala <https://docs.scala-lang.org/tour/higher-order-functions.html>`_
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uses the ``=>`` arrow for function types. Other than that, their syntax is
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the same as the one we are proposing, for example::
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(Int, String) => Bool
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Scala, like Python, has the ability to provide function arguments by name.
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Function types can optionally include names, for example::
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(x: Int, y: String) => Bool
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Unlike in TypeScript and Kotlin, these names are part of the type if
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provided - any function implementing the type must use the same names.
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This is similar to the extended syntax proposal we describe in our
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`Rejected Alternatives`_ section.
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Function Definitions vs Callable Type Annotations
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In all of the languages listed above, type annotations for function
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definitions use a ``:`` rather than a ``->``. For example, in TypeScript
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a simple add function looks like this::
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function higher_order(fn: (a: string) => string): string {
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return fn("Hello, World");
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}
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Scala and Kotlin use essentially the same ``:`` syntax for return
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annotations. The ``:`` makes sense in these languages because they
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all use ``:`` for type annotations of
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parameters and variables, and the use for function return types is
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similar.
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In Python we use ``:`` to denote the start of a function body and
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``->`` for return annotations. As a result, even though our proposal
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is superficially the same as these other languages the context is
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different. There is potential for more confusion in Python when
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reading function definitions that include callable types.
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This is a key concern for which we are seeking feedback with our draft
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PEP; one idea we have floated is to use ``=>`` instead to make it easier
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to differentiate.
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The ML Language Family
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~~~~~~~~~~~~~~~~~~~~~~
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Languages in the ML family, including `F#
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<https://docs.microsoft.com/en-us/dotnet/fsharp/language-reference/fsharp-types#syntax-for-types>`_,
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`OCaml
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<https://www2.ocaml.org/learn/tutorials/basics.html#Defining-a-function>`_,
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and `Haskell <https://wiki.haskell.org/Type_signature>`_, all use
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``->`` to represent function types. All of them use a parentheses-free
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syntax with multiple arrows, for example in Haskell::
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Integer -> String -> Bool
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The use of multiple arrows, which differs from our proposal, makes
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sense for languages in this family because they use automatic
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`currying <https://en.wikipedia.org/wiki/Currying>`_ of function arguments,
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which means that a multi-argument function behaves like a single-argument
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function returning a function.
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Specification
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=============
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Typing Behavior
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---------------
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Type checkers should treat the new syntax with exactly the same
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semantics as ``typing.Callable``.
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As such, a type checker should treat the following pairs exactly the
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same::
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from typing import Awaitable, Callable, Concatenate, ParamSpec, TypeVarTuple
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P = ParamSpec("P")
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Ts = TypeVarTuple('Ts')
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f0: () -> bool
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f0: Callable[[], bool]
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f1: (int, str) -> bool
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f1: Callable[[int, str], bool]
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f2: (...) -> bool
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f2: Callable[..., bool]
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f3: async (str) -> str
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f3: Callable[[str], Awaitable[str]]
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f4: (**P) -> bool
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f4: Callable[P, bool]
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f5: (int, **P) -> bool
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f5: Callable[Concatenate[int, P], bool]
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f6: (*Ts) -> bool
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f6: Callable[[*Ts], bool]
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f7: (int, *Ts, str) -> bool
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f7: Callable[[int, *Ts, str], bool]
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Grammar and AST
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---------------
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The proposed new syntax can be described by these AST changes to `Parser/Python.asdl
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<https://github.com/python/cpython/blob/main/Parser/Python.asdl>`_::
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expr = <prexisting_expr_kinds>
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| AsyncCallableType(callable_type_arguments args, expr returns)
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| CallableType(callable_type_arguments args, expr returns)
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callable_type_arguments = AnyArguments
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| ArgumentsList(expr* posonlyargs)
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| Concatenation(expr* posonlyargs, expr param_spec)
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Here are our proposed changes to the `Python Grammar
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<https://docs.python.org/3/reference/grammar.htm>`::
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expression:
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| disjunction disjunction 'else' expression
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| callable_type_expression
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| disjunction
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| lambdef
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callable_type_expression:
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| callable_type_arguments '->' expression
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| ASYNC callable_type_arguments '->' expression
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callable_type_arguments:
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| '(' '...' [','] ')'
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| '(' callable_type_positional_argument* ')'
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| '(' callable_type_positional_argument* callable_type_param_spec ')'
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callable_type_positional_argument:
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| !'...' expression ','
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| !'...' expression &')'
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callable_type_param_spec:
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| '**' expression ','
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| '**' expression &')'
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If :pep:`646` is accepted, we intend to include support for unpacked
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types in two ways. To support the "star-for-unpack" syntax proposed in
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:pep:`646`, we will modify the grammar for
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``callable_type_positional_argument`` as follows::
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callable_type_positional_argument:
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| !'...' expression ','
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| !'...' expression &')'
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| '*' expression ','
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| '*' expression &')'
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With this change, a type of the form ``(int, *Ts) -> bool`` should
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evaluate the AST form::
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CallableType(
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ArgumentsList(Name("int"), Starred(Name("Ts")),
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Name("bool")
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)
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and be treated by type checkers as equivalent to or ``Callable[[int,
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*Ts], bool]`` or ``Callable[[int, Unpack[Ts]], bool]``.
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Implications of the Grammar
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---------------------------
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Precedence of ->
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~~~~~~~~~~~~~~~~
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``->`` binds less tightly than other operators, both inside types and
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in function signatures, so the following two callable types are
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equivalent::
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(int) -> str | bool
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(int) -> (str | bool)
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``->`` associates to the right, both inside types and in function
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signatures. So the following pairs are equivalent::
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(int) -> (str) -> bool
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(int) -> ((str) -> bool)
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def f() -> (int, str) -> bool: pass
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def f() -> ((int, str) -> bool): pass
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def f() -> (int) -> (str) -> bool: pass
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def f() -> ((int) -> ((str) -> bool)): pass
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Because operators bind more tightly than ``->``, parentheses are
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required whenever an arrow type is intended to be inside an argument
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to an operator like ``|``::
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(int) -> () -> int | () -> bool # syntax error!
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(int) -> (() -> int) | (() -> bool) # okay
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We discussed each of these behaviors and believe they are desirable:
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- Union types (represented by ``A | B`` according to :pep:`604`) are
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valid in function signature returns, so we need to allow operators
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in the return position for consistency.
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- Given that operators bind more tightly than ``->`` it is correct
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that a type like ``bool | () -> bool`` must be a syntax error. We
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should be sure the error message is clear because this may be a
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common mistake.
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- Associating ``->`` to the right, rather than requiring explicit
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parentheses, is consistent with other languages like TypeScript and
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respects the principle that valid expressions should normally be
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substitutable when possible.
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``async`` Keyword
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~~~~~~~~~~~~~~~~~
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All of the binding rules still work for async callable types::
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(int) -> async (float) -> str | bool
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(int) -> (async (float) -> (str | bool))
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def f() -> async (int, str) -> bool: pass
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def f() -> (async (int, str) -> bool): pass
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def f() -> async (int) -> async (str) -> bool: pass
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def f() -> (async (int) -> (async (str) -> bool)): pass
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Trailing Commas
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~~~~~~~~~~~~~~~
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- Following the precedent of function signatures, putting a comma in
|
|
an empty arguments list is illegal: ``(,) -> bool`` is a syntax
|
|
error.
|
|
- Again following precedent, trailing commas are otherwise always
|
|
permitted::
|
|
|
|
|
|
((int,) -> bool == (int) -> bool
|
|
((int, **P,) -> bool == (int, **P) -> bool
|
|
((...,) -> bool) == ((...) -> bool)
|
|
|
|
Allowing trailing commas also gives autoformatters more flexibility
|
|
when splitting callable types across lines, which is always legal
|
|
following standard python whitespace rules.
|
|
|
|
|
|
Disallowing ``...`` as an Argument Type
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Under normal circumstances, any valid expression is permitted where we
|
|
want a type annotation and ``...`` is a valid expression. This is
|
|
never semantically valid and all type checkers would reject it, but
|
|
the grammar would allow it if we did not explicitly prevent this.
|
|
|
|
Since ``...`` is meaningless as a type and there are usability
|
|
concerns, our grammar rules it out and the following is a syntax
|
|
error::
|
|
|
|
(int, ...) -> bool
|
|
|
|
We decided that there were compelling reasons to do this:
|
|
|
|
- The semantics of ``(...) -> bool`` are different from ``(T) -> bool``
|
|
for any valid type T: ``(...)`` is a special form indicating
|
|
``AnyArguments`` whereas ``T`` is a type parameter in the arguments
|
|
list.
|
|
- ``...`` is used as a placeholder default value to indicate an
|
|
optional argument in stubs and callback protocols. Allowing it in
|
|
the position of a type could easily lead to confusion and possibly
|
|
bugs due to typos.
|
|
- In the ``tuple`` generic type, we special-case ``...`` to mean
|
|
"more of the same", e.g. a ``tuple[int, ...]`` means a tuple with
|
|
one or more integers. We do not use ``...`` in a a similar way
|
|
in callable types, so to prevent misunderstandings it makes sense
|
|
to prevent this.
|
|
|
|
|
|
|
|
Incompatibility with other possible uses of ``*`` and ``**``
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
The use of ``**P`` for supporting :pep:`612` ``ParamSpec`` rules out any
|
|
future proposal using a bare ``**<some_type>`` to type
|
|
``kwargs``. This seems acceptable because:
|
|
|
|
- If we ever do want such a syntax, it would be clearer to require an
|
|
argument name anyway. This would also make the type look more
|
|
similar to a function signature. In other words, if we ever support
|
|
typing ``kwargs`` in callable types, we would prefer ``(int,
|
|
**kwargs: str)`` rather than ``(int, **str)``.
|
|
- :pep:`646` unpacking syntax would rule out using ``*<some_type>`` for
|
|
``args``. The ``kwargs`` case is similar enough that this rules out
|
|
a bare ``**<some_type>`` anyway.
|
|
|
|
|
|
|
|
Compatibility with Arrow-Based Lambda Syntax
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
To the best of our knowledge there is no active discussion of
|
|
arrow-style lambda syntax that we are aware of, but it is nonetheless
|
|
worth considering what possibilities would be ruled out by adopting
|
|
this proposal.
|
|
|
|
It would be incompatible with this proposal to adopt the same a
|
|
parenthesized ``->``-based arrow syntax for lambdas, e.g. ``(x, y) ->
|
|
x + y`` for ``lambda x, y: x + y``.
|
|
|
|
|
|
Our view is that if we want arrow syntax for lambdas in the future, it
|
|
would be a better choice to use ``=>``, e.g. ``(x, y) => x + y``.
|
|
Many languages use the same arrow token for both lambdas and callable
|
|
types, but Python is unique in that types are expressions and have to
|
|
evaluate to runtime values. Our view is that this merits using
|
|
separate tokens, and given the existing use of ``->`` for return types
|
|
in function signatures it would be more coherent to use ``->`` for
|
|
callable types and ``=>`` for lambdas.
|
|
|
|
Runtime Behavior
|
|
----------------
|
|
|
|
The new AST nodes need to evaluate to runtime types, and we have two goals for the
|
|
behavior of these runtime types:
|
|
|
|
- They should expose a structured API that is descriptive and powerful
|
|
enough to be compatible with extending the type to include new features
|
|
like named and variadic arguments.
|
|
- They should also expose an API that is backward-compatible with
|
|
``typing.Callable``.
|
|
|
|
Evaluation and Structured API
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
We intend to create new builtin types to which the new AST nodes will
|
|
evaluate, exposing them in the ``types`` module.
|
|
|
|
Our plan is to expose a structured API as if they were defined as follows::
|
|
|
|
class CallableType:
|
|
is_async: bool
|
|
arguments: Ellipsis | tuple[CallableTypeArgument]
|
|
return_type: object
|
|
|
|
class CallableTypeArgument:
|
|
kind: CallableTypeArgumentKind
|
|
annotation: object
|
|
|
|
@enum.global_enum
|
|
class CallableTypeArgumentKind(enum.IntEnum):
|
|
POSITIONAL_ONLY: int = ...
|
|
PARAM_SPEC: int = ...
|
|
|
|
|
|
The evaluation rules are expressed in terms of the following
|
|
pseudocode::
|
|
|
|
def evaluate_callable_type(
|
|
callable_type: ast.CallableType | ast.AsyncCallableType:
|
|
) -> CallableType:
|
|
return CallableType(
|
|
is_async=isinstance(callable_type, ast.AsyncCallableType),
|
|
arguments=_evaluate_arguments(callable_type.arguments),
|
|
return_type=evaluate_expression(callable_type.returns),
|
|
)
|
|
|
|
def _evaluate_arguments(arguments):
|
|
match arguments:
|
|
case ast.AnyArguments():
|
|
return Ellipsis
|
|
case ast.ArgumentsList(posonlyargs):
|
|
return tuple(
|
|
_evaluate_arg(arg) for arg in args
|
|
)
|
|
case ast.ArgumentsListConcatenation(posonlyargs, param_spec):
|
|
return tuple(
|
|
*(evaluate_arg(arg) for arg in args),
|
|
_evaluate_arg(arg=param_spec, kind=PARAM_SPEC)
|
|
)
|
|
if isinstance(arguments, Any
|
|
return Ellipsis
|
|
|
|
def _evaluate_arg(arg, kind=POSITIONAL_ONLY):
|
|
return CallableTypeArgument(
|
|
kind=POSITIONAL_ONLY,
|
|
annotation=evaluate_expression(value)
|
|
)
|
|
|
|
|
|
Backward-Compatible API
|
|
~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
To get backward compatibility with the existing ``types.Callable`` API,
|
|
which relies on fields ``__args__`` and ``__parameters__``, we can define
|
|
them as if they were written in terms of the following::
|
|
|
|
import itertools
|
|
import typing
|
|
|
|
def get_args(t: CallableType) -> tuple[object]:
|
|
return_type_arg = (
|
|
typing.Awaitable[t.return_type]
|
|
if t.is_async
|
|
else t.return_type
|
|
)
|
|
arguments = t.arguments
|
|
if isinstance(arguments, Ellipsis):
|
|
argument_args = (Ellipsis,)
|
|
else:
|
|
argument_args = (arg.annotation for arg in arguments)
|
|
return (
|
|
*arguments_args,
|
|
return_type_arg
|
|
)
|
|
|
|
def get_parameters(t: CallableType) -> tuple[object]:
|
|
out = []
|
|
for arg in get_args(t):
|
|
if isinstance(arg, typing.ParamSpec):
|
|
out.append(t)
|
|
else:
|
|
out.extend(arg.__parameters__)
|
|
return tuple(out)
|
|
|
|
|
|
Additional Behaviors of ``types.CallableType``
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
As with the ``A | B`` syntax for unions introduced in :pep:`604`:
|
|
|
|
- The ``__eq__`` method should treat equivalent ``typing.Callable``
|
|
values as equal to values constructed using the builtin syntax, and
|
|
otherwise should behave like the ``__eq__`` of ``typing.Callable``.
|
|
- The ``__repr__`` method should produce an arrow syntax representation that,
|
|
when evaluated, gives us back an equal ``types.CallableType`` instance.
|
|
|
|
|
|
Rejected Alternatives
|
|
=====================
|
|
|
|
Many of the alternatives we considered would have been more expressive
|
|
than ``typing.Callable``, for example adding support for describing
|
|
signatures that include named, optional, and variadic arguments.
|
|
|
|
To determine which features we most needed to support with a callable
|
|
type syntax, we did an extensive analysis of existing projects:
|
|
|
|
- `stats on the use of the Callable type <https://github.com/pradeep90/annotation_collector#typed-projects---callable-type>`_;
|
|
- `stats on how untyped and partially-typed callbacks are actually used <https://github.com/pradeep90/annotation_collector#typed-projects---callback-usage>`_.
|
|
|
|
We decided on a simple proposal with improved syntax for the existing
|
|
``Callable`` type because the vast majority of callbacks can be correctly
|
|
described by the existing ``typing.Callable`` semantics:
|
|
|
|
- Positional parameters: By far the most important case to handle well
|
|
is simple callable types with positional parameters, such as
|
|
``(int, str) -> bool``
|
|
- ParamSpec and Concatenate: The next most important feature is good
|
|
support for :pep:`612` ``ParamSpec`` and ``Concatenate`` types like
|
|
``(**P) -> bool`` and ``(int, **P) -> bool``. These are common
|
|
primarily because of the heavy use of decorator patterns in python
|
|
code.
|
|
- TypeVarTuples: The next most important feature, assuming :pep:`646` is
|
|
accepted, is for unpacked types which are common because of cases
|
|
where a wrapper passes along ``*args`` to some other function.
|
|
|
|
Features that other, more complicated proposals would support account
|
|
for fewer than 2% of the use cases we found. These are already
|
|
expressible using callback protocols, and since they are uncommon we
|
|
decided that it made more sense to move forward with a simpler syntax.
|
|
|
|
Extended Syntax Supporting Named and Optional Arguments
|
|
-------------------------------------------------------
|
|
|
|
Another alternative was for a compatible but more complex syntax that
|
|
could express everything in this PEP but also named, optional, and
|
|
variadic arguments. In this “extended” syntax proposal the following
|
|
types would have been equivalent::
|
|
|
|
class Function(typing.Protocol):
|
|
def f(self, x: int, /, y: float, *, z: bool = ..., **kwargs: str) -> bool:
|
|
...
|
|
|
|
Function = (int, y: float, *, z: bool = ..., **kwargs: str) -> bool
|
|
|
|
Advantages of this syntax include: - Most of the advantages of the
|
|
proposal in this PEP (conciseness, :pep:`612` support, etc) -
|
|
Furthermore, the ability to handle named, optional, and variadic
|
|
arguments
|
|
|
|
We decided against proposing it for the following reasons:
|
|
|
|
- The implementation would have been more difficult, and usage stats
|
|
demonstrate that fewer than 3% of use cases would benefit from any
|
|
of the added features.
|
|
- The group that debated these proposals was split down the middle
|
|
about whether these changes are desirable:
|
|
|
|
- On the one hand, they make callable types more expressive. On the
|
|
other hand, they could easily confuse users who have not read the
|
|
full specification of callable type syntax.
|
|
- We believe the simpler syntax proposed in this PEP, which
|
|
introduces no new semantics and closely mimics syntax in other
|
|
popular languages like Kotlin, Scala, and TypesScript, is much
|
|
less likely to confuse users.
|
|
|
|
- We intend to implement the current proposal in a way that is
|
|
forward-compatible with the more complicated extended syntax. If the
|
|
community decides after more experience and discussion that we want
|
|
the additional features, it should be straightforward to propose
|
|
them in the future.
|
|
- Even a full extended syntax cannot replace the use of callback
|
|
protocols for overloads. For example, no closed form of callable type
|
|
could express a function that maps bools to bools and ints to floats,
|
|
like this callback protocol.::
|
|
|
|
from typing import overload, Protocol
|
|
|
|
class OverloadedCallback(Protocol)
|
|
|
|
@overload
|
|
def __call__(self, x: int) -> float: ...
|
|
|
|
@overload
|
|
def __call__(self, x: bool) -> bool: ...
|
|
|
|
def __call__(self, x: int | bool) -> float | bool: ...
|
|
|
|
|
|
f: OverloadedCallback = ...
|
|
f(True) # bool
|
|
f(3) # float
|
|
|
|
|
|
|
|
We confirmed that the current proposal is forward-compatible with
|
|
extended syntax by
|
|
`implementing <https://github.com/stroxler/cpython/tree/callable-type-syntax--extended>`_
|
|
a grammar and AST for this extended syntax on top of our reference
|
|
implementation of this PEP's grammar.
|
|
|
|
|
|
Syntax Closer to Function Signatures
|
|
------------------------------------
|
|
|
|
One alternative we had floated was a syntax much more similar to
|
|
function signatures.
|
|
|
|
In this proposal, the following types would have been equivalent::
|
|
|
|
class Function(typing.Protocol):
|
|
def f(self, x: int, /, y: float, *, z: bool = ..., **kwargs: str) -> bool:
|
|
...
|
|
|
|
Function = (x: int, /, y: float, *, z: bool = ..., **kwargs: str) -> bool
|
|
|
|
|
|
The benefits of this proposal would have included:
|
|
|
|
- Perfect syntactic consistency between signatures and callable types.
|
|
- Support for more features of function signatures (named, optional,
|
|
variadic args) that this PEP does not support.
|
|
|
|
Key downsides that led us to reject the idea include the following:
|
|
|
|
- A large majority of use cases only use positional-only arguments. This
|
|
syntax would be more verbose for that use case, both because of requiring
|
|
argument names and an explicit ``/``, for example ``(int, /) -> bool`` where
|
|
our proposal allows ``(int) -> bool``
|
|
- The requirement for explicit ``/`` for positional-only arguments has
|
|
a high risk of causing frequent bugs - which often would not be
|
|
detected by unit tests - where library authors would accidentally
|
|
use types with named arguments.
|
|
- Our analysis suggests that support for ``ParamSpec`` is key, but the
|
|
scoping rules laid out in :pep:`612` would have made this difficult.
|
|
|
|
|
|
Other Proposals Considered
|
|
--------------------------
|
|
|
|
Functions-as-Types
|
|
~~~~~~~~~~~~~~~~~~
|
|
|
|
An idea we looked at very early on was to `allow using functions as types
|
|
<https://docs.google.com/document/d/1rv6CCDnmLIeDrYlXe-QcyT0xNPSYAuO1EBYjU3imU5s/edit?usp=sharing>`_.
|
|
The idea is allowing a function to stand in for its own call
|
|
signature, with roughly the same semantics as the ``__call__`` method
|
|
of callback protocols::
|
|
|
|
def CallableType(
|
|
positional_only: int,
|
|
/,
|
|
named: str,
|
|
*args: float,
|
|
keyword_only: int = ...,
|
|
**kwargs: str
|
|
) -> bool: ...
|
|
|
|
f: CallableType = ...
|
|
f(5, 6.6, 6.7, named=6, x="hello", y="world") # typechecks as bool
|
|
|
|
This may be a good idea, but we do not consider it a viable
|
|
replacement for callable types:
|
|
|
|
- It would be difficult to handle ``ParamSpec``, which we consider a
|
|
critical feature to support.
|
|
- When using functions as types, the callable types are not first-class
|
|
values. Instead, they require a separate, out-of-line function
|
|
definition to define a type alias
|
|
- It would not support more features than callback protocols, and seems
|
|
more like a shorter way to write them than a replacement for
|
|
``Callable``.
|
|
|
|
Hybrid keyword-arrow Syntax
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
In the Rust language, a keyword ``fn`` is used to indicate functions
|
|
in much the same way as Python's ``def``, and callable types are
|
|
indicated using a hybrid arrow syntax ``Fn(i64, String) -> bool``.
|
|
|
|
We could use the ``def`` keyword in callable types for Python, for
|
|
example our two-parameter boolean function could be written as
|
|
``def(int, str) -> bool``. But we think this might confuse readers
|
|
into thinking ``def(A, B) -> C`` is a lambda, particularly because
|
|
Javascript's ``function`` keyword is used in both named and anonymous
|
|
functions.
|
|
|
|
Parenthesis-Free Syntax
|
|
~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
We considered a parentheses-free syntax that would have been even more
|
|
concise::
|
|
|
|
int, str -> bool
|
|
|
|
We decided against it because this is not visually as similar to
|
|
existing function header syntax. Moreover, it is visually similar to
|
|
lambdas, which bind names with no parentheses: ``lambda x, y: x ==
|
|
y``.
|
|
|
|
Requiring Outer Parentheses
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
A concern with the current proposal is readability, particularly
|
|
when callable types are used in return type position which leads to
|
|
multiple top-level ``->`` tokens, for example::
|
|
|
|
def make_adder() -> (int) -> int:
|
|
return lambda x: x + 1
|
|
|
|
We considered a few ideas to prevent this by changing rules about
|
|
parentheses. One was to move the parentheses to the outside, so
|
|
that a two-argument boolean function is written ``(int, str -> bool)``.
|
|
With this change, the example above becomes::
|
|
|
|
def make_adder() -> (int -> int):
|
|
return lambda x: x + 1
|
|
|
|
This makes the nesting of many examples that are difficult to
|
|
follow clear, but we rejected it because
|
|
|
|
- Currently in Python commas bind very loosely, which means it might be common
|
|
to misread ``(int, str -> bool)`` as a tuple whose first element is an int,
|
|
rather than a two-parameter callable type.
|
|
- It is not very similar to function header syntax, and one of our goals was
|
|
familiar syntax inspired by function headers.
|
|
- This syntax may be more readable for deaply nested callables like the one
|
|
above, but deep nesting is not very common. Encouraging extra parentheses
|
|
around callable types in return position via a style guide would have most of
|
|
the readability benefit without the downsides.
|
|
|
|
We also considered requiring parentheses on both the parameter list and the
|
|
outside, e.g. ``((int, str) -> bool)``. With this change, the example above
|
|
becomes::
|
|
|
|
def make_adder() -> ((int) -> int):
|
|
return lambda x: x + 1
|
|
|
|
We rejected this change because:
|
|
|
|
- The outer parentheses only help readability in some cases, mostly when a
|
|
callable type is used in return position. In many other cases they hurt
|
|
readability rather than helping.
|
|
- We agree that it might make sense to encourage outer parentheses in several
|
|
cases, particularly callable types in function return annotations. But
|
|
|
|
- We believe it is more appropriate to encourage this in style guides,
|
|
linters, and autoformatters than to bake it into the parser and throw
|
|
syntax errors.
|
|
- Moreover, if a type is complicated enough that readability is a concern
|
|
we can always use type aliases, for example::
|
|
|
|
IntToIntFunction: (int) -> int
|
|
|
|
def make_adder() -> IntToIntFunction:
|
|
return lambda x: x + 1
|
|
|
|
|
|
Making ``->`` bind tighter than ``|``
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
In order to allow both ``->`` and ``|`` tokens in type expressions we
|
|
had to choose precedence. In the current proposal, this is a function
|
|
returning an optional boolean::
|
|
|
|
(int, str) -> bool | None # equivalent ot (int, str) -> (bool | None)
|
|
|
|
We considered having ``->`` bind tighter so that instead the expression
|
|
would parse as ``((int, str) -> bool) | None``. There are two advantages
|
|
to this:
|
|
|
|
- It means we no would longer have to treat ``None | (int, str) ->
|
|
bool`` as a syntax error.
|
|
- Looking at typeshed today, optional callable arguments are very common
|
|
because using ``None`` as a default value is a standard Python idiom.
|
|
Having ``->`` bind tighter would make these easier to write.
|
|
|
|
We decided against this for a few reasons:
|
|
|
|
- The function header ``def f() -> int | None: ...`` is legal
|
|
and indicates a function returning an optional int. To be consistent
|
|
with function headers, callable types should do the same.
|
|
- TypeScript is the other popular language we know of that uses both
|
|
``->`` and ``|`` tokens in type expressions, and they have ``|`` bind
|
|
tighter. While we do not have to follow their lead, we prefer to do
|
|
so.
|
|
- We do acknowledge that optional callable types are common and
|
|
having ``|`` bind tighter forces extra parentheses, which makes these
|
|
types harder to write. But code is read more often than written, and
|
|
we believe that requiring the outer parentheses for an optional callable
|
|
type like ``((int, str) -> bool) | None`` is preferable for readability.
|
|
|
|
|
|
Introducing type-strings
|
|
~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Another idea was adding a new “special string” syntax and putting the type
|
|
inside of it, for example ``t”(int, str) -> bool”``. We rejected this
|
|
because it is not as readable, and seems out of step with `guidance
|
|
<https://mail.python.org/archives/list/python-dev@python.org/message/SZLWVYV2HPLU6AH7DOUD7DWFUGBJGQAY/>`_
|
|
from the Steering Council on ensuring that type expressions do not
|
|
diverge from the rest of Python's syntax.
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|
|
|
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|
Improving Usability of the Indexed Callable Type
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|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
If we do not want to add new syntax for callable types, we could
|
|
look at how to make the existing type easier to read. One proposal
|
|
would be to make the builtin ``callable`` function indexable so
|
|
that it could be used as a type::
|
|
|
|
callable[[int, str], bool]
|
|
|
|
This change would be analogous to :pep:`585` that made built in collections
|
|
like ``list`` and ``dict`` usable as types, and would make imports
|
|
more convenient, but it wouldn't help readability of the types themselves
|
|
much.
|
|
|
|
In order to reduce the number of brackets needed in complex callable
|
|
types, it would be possible to allow tuples for the argument list::
|
|
|
|
callable[(int, str), bool]
|
|
|
|
This actually is a significant readability improvement for
|
|
multi-argument functions, but the problem is that it makes callables
|
|
with one arguments, which are the most common arity, hard to
|
|
write: because ``(x)`` evaluates to ``x``, they would have to be
|
|
written like ``callable[(int,), bool]``. We find this awkward.
|
|
|
|
Moreover, none of these ideas help as much with reducing verbosity
|
|
as the current proposal, nor do they introduce as strong a visual cue
|
|
as the ``->`` between the parameter types and the return type.
|
|
|
|
Alternative Runtime Behaviors
|
|
-----------------------------
|
|
|
|
The hard requirements on our runtime API are that:
|
|
|
|
- It must preserve backward compatibility with ``typing.Callable`` via
|
|
``__args__`` and ``__params__``.
|
|
- It must provide a structured API, which should be extensible if
|
|
in the future we try to support named and variadic arguments.
|
|
|
|
Alternative APIs
|
|
~~~~~~~~~~~~~~~~
|
|
|
|
We considered having the runtime data ``types.CallableType`` use a
|
|
more structured API where there would be separate fields for
|
|
``posonlyargs`` and ``param_spec``. The current proposal was
|
|
was inspired by the ``inspect.Signature`` type.
|
|
|
|
We use "argument" in our field and type names, unlike "parameter"
|
|
as in ``inspect.Signature``, in order to avoid confusion with
|
|
the ``callable_type.__parameters__`` field from the legacy API
|
|
that refers to type parameters rather than callable parameters.
|
|
|
|
Using the plain return type in ``__args__`` for async types
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
It is debatable whether we are required to preserve backward compatiblity
|
|
of ``__args__`` for async callable types like ``async (int) -> str``. The
|
|
reason is that one could argue they are not expressible directly
|
|
using ``typing.Callable``, and therefore it would be fine to set
|
|
``__args__`` as ``(int, int)`` rather than ``(int, typing.Awaitable[int])``.
|
|
|
|
But we believe this would be problematic. By preserving the appearance
|
|
of a backward-compatible API while actually breaking its semantics on
|
|
async types, we would cause runtime type libraries that attempt to
|
|
interpret ``Callable`` using ``__args__`` to fail silently.
|
|
|
|
It is for this reason that we automatically wrap the return type in
|
|
``Awaitable``.
|
|
|
|
Backward Compatibility
|
|
======================
|
|
|
|
This PEP proposes a major syntax improvement over ``typing.Callable``,
|
|
but the static semantics are the same.
|
|
|
|
As such, the only thing we need for backward compatibility is to
|
|
ensure that types specified via the new syntax behave the same as
|
|
equivalent ``typing.Callable`` and ``typing.Concatenate`` values they
|
|
intend to replace.
|
|
|
|
There is no particular interaction between this proposal and ``from
|
|
__future__ import annotations`` - just like any other type annotation
|
|
it will be unparsed to a string at module import, and
|
|
``typing.get_type_hints`` should correctly evaluate the resulting
|
|
strings in cases where that is possible.
|
|
|
|
This is discussed in more detail in the Runtime Behavior section.
|
|
|
|
|
|
Reference Implementation
|
|
========================
|
|
|
|
We have a working `implementation
|
|
<https://github.com/stroxler/cpython/tree/callable-type-syntax--shorthand>`_
|
|
of the AST and Grammar with tests verifying that the grammar proposed
|
|
here has the desired behaviors.
|
|
|
|
The runtime behavior is not yet implemented. As discussed in the
|
|
`Runtime Behavior`_ portion of the spec we have a detailed plan for
|
|
both a backward-compatible API and a more structured API in
|
|
`a separate doc
|
|
<https://docs.google.com/document/d/15nmTDA_39Lo-EULQQwdwYx_Q1IYX4dD5WPnHbFG71Lk/edit>`_
|
|
where we are also open to discussion and alternative ideas.
|
|
|
|
|
|
Open Issues
|
|
===========
|
|
|
|
Details of the Runtime API
|
|
--------------------------
|
|
|
|
We have attempted to provide a complete behavior specification in
|
|
the `Runtime Behavior`_ section of this PEP.
|
|
|
|
But there are probably more details that we will not realize we
|
|
need to define until we build a full reference implementation.
|
|
|
|
Optimizing ``SyntaxError`` messages
|
|
-----------------------------------
|
|
|
|
The current reference implementation has a fully-functional parser and
|
|
all edge cases presented here have been tested.
|
|
|
|
But there are some known cases where the errors are not as informative
|
|
as we would like. For example, because ``(int, ...) -> bool`` is
|
|
illegal but ``(int, ...)`` is a valid tuple, we currently produce a
|
|
syntax error flagging the ``->`` as the problem even though the real
|
|
cause of the error is using ``...`` as an argument type.
|
|
|
|
This is not part of the specification *per se* but is an important
|
|
detail to address in our implementation. The solution will likely
|
|
involve adding ``invalid_.*`` rules to ``python.gram`` and customizing
|
|
error messages.
|
|
|
|
Resources
|
|
=========
|
|
|
|
Background and History
|
|
----------------------
|
|
|
|
:pep:`PEP 484 specifies
|
|
<484#suggested-syntax-for-python-2-7-and-straddling-code>`
|
|
a very similar syntax for function type hint *comments* for use in
|
|
code that needs to work on Python 2.7. For example::
|
|
|
|
def f(x, y):
|
|
# type: (int, str) -> bool
|
|
...
|
|
|
|
At that time we used indexing operations to specify generic types like
|
|
``typing.Callable`` because we decided not to add syntax for
|
|
types. However, we have since begun to do so, e.g. with :pep:`604`.
|
|
|
|
**Maggie** proposed better callable type syntax as part of a larger
|
|
`presentation on typing simplifications
|
|
<https://drive.google.com/file/d/1XhqTKoO6RHtz7zXqW5Wgq9nzaEz9TXjI/view>`_
|
|
at the PyCon Typing Summit 2021.
|
|
|
|
**Steven** `brought up this proposal on typing-sig
|
|
<https://mail.python.org/archives/list/typing-sig@python.org/thread/3JNXLYH5VFPBNIVKT6FFBVVFCZO4GFR2>`_.
|
|
We had several meetings to discuss alternatives, and `this presentation
|
|
<https://www.dropbox.com/s/sshgtr4p30cs0vc/Python%20Callable%20Syntax%20Proposals.pdf?dl=0>`_
|
|
led us to the current proposal.
|
|
|
|
**Pradeep** `brought this proposal to python-dev
|
|
<https://mail.python.org/archives/list/python-dev@python.org/thread/VBHJOS3LOXGVU6I4FABM6DKHH65GGCUB>`_
|
|
for feedback.
|
|
|
|
Acknowledgments
|
|
---------------
|
|
|
|
Thanks to the following people for their feedback on the PEP and help
|
|
planning the reference implementation:
|
|
|
|
Alex Waygood, Eric Traut, Guido van Rossum, James Hilton-Balfe,
|
|
Jelle Zijlstra, Maggie Moss, Tuomas Suutari, Shannon Zhu.
|
|
|
|
Copyright
|
|
=========
|
|
|
|
This document is placed in the public domain or under the
|
|
CC0-1.0-Universal license, whichever is more permissive.
|
|
|
|
|
|
..
|
|
Local Variables:
|
|
mode: indented-text
|
|
indent-tabs-mode: nil
|
|
sentence-end-double-space: t
|
|
fill-column: 70
|
|
coding: utf-8
|
|
End:
|