237 lines
7.1 KiB
ReStructuredText
237 lines
7.1 KiB
ReStructuredText
PEP: 613
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Title: Explicit Type Aliases
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Author: Shannon Zhu <szhu@fb.com>
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Sponsor: Guido van Rossum <guido@python.org>
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Discussions-To: https://mail.python.org/archives/list/typing-sig@python.org/thread/MWRJOBEEEMFVXE7CAKO7B4P46IPM4AN3/
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Status: Accepted
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 21-Jan-2020
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Post-History: 21-Jan-2020
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Abstract
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========
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Type aliases are user-specified types which may be as complex as any type hint,
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and are specified with a simple variable assignment on a module top level.
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This PEP formalizes a way to explicitly declare an assignment as a type alias.
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Motivation
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==========
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Type aliases are declared as top level variable assignments.
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In `PEP 484 <https://www.python.org/dev/peps/pep-0484/#type-aliases/>`_,
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the distinction between a valid type alias and a global variable was implicitly
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determined: if a top level assignment is unannotated, and the assigned value is
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a valid type, then the name being assigned to is a valid type alias. Otherwise,
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that name is simply a global value that cannot be used as a type hint.
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These implicit type alias declaration rules create confusion when type aliases
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involve forward references, invalid types, or violate other restrictions
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enforced on type alias declaration. Because the distinction between an
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unannotated value and a type alias is implicit, ambiguous or incorrect type
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alias declarations implicitly default to a valid value assignment. This creates
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expressions that are impossible to express as type aliases and punts error
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diagnosis of malformed type aliases downstream.
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The following examples each include an illustration of some of the suboptimal
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or confusing behaviors resulting from existing implicit alias declarations.
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We also introduce explicit aliases of the format ``TypeName: TypeAlias = Expression``
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here for the sake of comparison, but the syntax is discussed in further detail
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in later sections.
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Forward References:
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*******************
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::
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MyType = "ClassName"
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def foo() -> MyType: ...
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This code snippet should not error so long as ``ClassName`` is defined
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later on. However, a type checker is forced to assume that MyType is a value
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assignment rather than a type alias, and therefore may throw spurious errors
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that (1) ``MyType`` is an unannotated global string, and (2) ``MyType``
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cannot be used as a return annotation because it is not a valid type.
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::
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MyType: TypeAlias = "ClassName"
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def foo() -> MyType: ...
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Explicit aliases remove ambiguity so neither of the above errors will be
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thrown. Additionally, if something is wrong with ``ClassName``
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(i.e., it’s not actually defined later), the type checker can throw an error.
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Error Messaging:
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****************
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::
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MyType1 = InvalidType
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MyType2 = MyGeneric(int) # i.e., intention was MyGeneric[int]
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A type checker should warn on this code snippet that ``InvalidType`` is not
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a valid type, and therefore cannot be used to annotate an expression or to
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construct a type alias. Instead, type checkers are forced to throw spurious
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errors that (1) ``MyType`` is a global expression missing an annotation,
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and (2) ``MyType`` is not a valid type in all usages of ``MyType``
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across the codebase.
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::
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MyType1: TypeAlias = InvalidType
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MyType2: TypeAlias = MyGeneric(int)
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With explicit aliases, the type checker has enough information to error on the
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actual definition of the bad type alias, and explain why: that ``MyGeneric(int)``
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and ``InvalidType`` are not valid types. When the value expression is no longer
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evaluated as a global value, unactionable type errors on all usages of ``MyType``
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across the codebase can be suppressed.
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Scope Restrictions:
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*******************
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::
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class Foo:
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x = ClassName
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y: TypeAlias = ClassName
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z: Type[ClassName] = ClassName
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Type aliases are valid within class scope, both implicitly (``x``) and
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explicitly (``y``). If the line should be interpreted as a class
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variable, it must be explicitly annotated (``z``).
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::
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x = ClassName
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def foo() -> None:
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x = ClassName
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The outer ``x`` is a valid type alias, but type checkers must error if the
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inner ``x`` is ever used as a type because type aliases cannot be defined
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inside of a function.
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This is confusing because the alias declaration rule is not explicit, and because
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a type error will not be thrown on the location of the inner type alias declaration
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but rather on every one of its subsequent use cases.
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::
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x: TypeAlias = ClassName
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def foo() -> None:
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x = ClassName
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def bar() -> None:
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x: TypeAlias = ClassName
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With explicit aliases, the outer assignment is still a valid type variable.
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Inside ``foo``, the inner assignment should be interpreted as ``x: Type[ClassName]``.
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Inside ``bar``, the type checker should raise a clear error, communicating
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to the author that type aliases cannot be defined inside a function.
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Specification
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=============
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The explicit alias declaration syntax clearly differentiates between the three
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possible kinds of assignments: typed global expressions, untyped global
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expressions, and type aliases. This avoids the existence of assignments that
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break type checking when an annotation is added, and avoids classifying the
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nature of the assignment based on the type of the value.
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Implicit syntax (pre-existing):
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::
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x = 1 # untyped global expression
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x: int = 1 # typed global expression
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x = int # type alias
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x: Type[int] = int # typed global expression
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Explicit syntax:
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::
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x = 1 # untyped global expression
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x: int = 1 # typed global expression
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x = int # untyped global expression (see note below)
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x: Type[int] = int # typed global expression
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x: TypeAlias = int # type alias
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x: TypeAlias = "MyClass" # type alias
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Note: The examples above illustrate implicit and explicit alias declarations in
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isolation. For the sake of backwards compatibility, type checkers should support
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both simultaneously, meaning an untyped global expression ``x = int`` will
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still be considered a valid type alias.
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Backwards Compatibility
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=======================
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Explicit aliases provide an alternative way to declare type aliases, but all
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pre-existing code and old alias declarations will work as before.
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Reference Implementation
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========================
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The `Pyre <https://pyre-check.org/>`_ type checker supports explicit type
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alias declarations.
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Rejected Ideas
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==============
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Some alternative syntaxes were considered for explicit aliases:
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::
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MyType: TypeAlias[int]
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This looks a lot like an uninitialized variable.
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::
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MyType = TypeAlias[int]
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Along with the option above, this format potentially adds confusion around
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what the runtime value of ``MyType`` is.
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In comparison, the chosen syntax option ``MyType: TypeAlias = int`` is
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appealing because it still sticks with the ``MyType = int`` assignment
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syntax, and adds some information for the type checker purely as an annotation.
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Version History
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===============
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* 2021-11-16
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* Allow TypeAlias inside class scope
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Copyright
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=========
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This document is placed in the public domain or under the
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CC0-1.0-Universal license, whichever is more permissive.
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..
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Local Variables:
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mode: indented-text
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indent-tabs-mode: nil
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sentence-end-double-space: t
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fill-column: 70
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coding: utf-8
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End:
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