:mod:`!annotationlib` --- Functionality for introspecting annotations ===================================================================== .. module:: annotationlib :synopsis: Functionality for introspecting annotations **Source code:** :source:`Lib/annotationlib.py` .. testsetup:: default import annotationlib from annotationlib import * -------------- The :mod:`!annotationlib` module provides tools for introspecting :term:`annotations ` on modules, classes, and functions. Annotations are :ref:`lazily evaluated ` and often contain forward references to objects that are not yet defined when the annotation is created. This module provides a set of low-level tools that can be used to retrieve annotations in a reliable way, even in the presence of forward references and other edge cases. This module supports retrieving annotations in three main formats (see :class:`Format`), each of which works best for different use cases: * :attr:`~Format.VALUE` evaluates the annotations and returns their value. This is most straightforward to work with, but it may raise errors, for example if the annotations contain references to undefined names. * :attr:`~Format.FORWARDREF` returns :class:`ForwardRef` objects for annotations that cannot be resolved, allowing you to inspect the annotations without evaluating them. This is useful when you need to work with annotations that may contain unresolved forward references. * :attr:`~Format.SOURCE` returns the annotations as a string, similar to how it would appear in the source file. This is useful for documentation generators that want to display annotations in a readable way. The :func:`get_annotations` function is the main entry point for retrieving annotations. Given a function, class, or module, it returns an annotations dictionary in the requested format. This module also provides functionality for working directly with the :term:`annotate function` that is used to evaluate annotations, such as :func:`get_annotate_function` and :func:`call_annotate_function`, as well as the :func:`call_evaluate_function` function for working with :term:`evaluate functions `. .. seealso:: :pep:`649` proposed the current model for how annotations work in Python. :pep:`749` expanded on various aspects of :pep:`649` and introduced the :mod:`!annotationlib` module. :ref:`annotations-howto` provides best practices for working with annotations. :pypi:`typing-extensions` provides a backport of :func:`get_annotations` that works on earlier versions of Python. Annotation semantics -------------------- The way annotations are evaluated has changed over the history of Python 3, and currently still depends on a :ref:`future import `. There have been execution models for annotations: * *Stock semantics* (default in Python 3.0 through 3.13; see :pep:`3107` and :pep:`526`): Annotations are evaluated eagerly, as they are encountered in the source code. * *Stringified annotations* (used with ``from __future__ import annotations`` in Python 3.7 and newer; see :pep:`563`): Annotations are stored as strings only. * *Deferred evaluation* (default in Python 3.14 and newer; see :pep:`649` and :pep:`749`): Annotations are evaluated lazily, only when they are accessed. As an example, consider the following program:: def func(a: Cls) -> None: print(a) class Cls: pass print(func.__annotations__) This will behave as follows: * Under stock semantics (Python 3.13 and earlier), it will throw a :exc:`NameError` at the line where ``func`` is defined, because ``Cls`` is an undefined name at that point. * Under stringified annotations (if ``from __future__ import annotations`` is used), it will print ``{'a': 'Cls', 'return': 'None'}``. * Under deferred evaluation (Python 3.14 and later), it will print ``{'a': , 'return': None}``. Stock semantics were used when function annotations were first introduced in Python 3.0 (by :pep:`3107`) because this was the simplest, most obvious way to implement annotations. The same execution model was used when variable annotations were introduced in Python 3.6 (by :pep:`526`). However, stock semantics caused problems when using annotations as type hints, such as a need to refer to names that are not yet defined when the annotation is encountered. In addition, there were performance problems with executing annotations at module import time. Therefore, in Python 3.7, :pep:`563` introduced the ability to store annotations as strings using the ``from __future__ import annotations`` syntax. The plan at the time was to eventually make this behavior the default, but a problem appeared: stringified annotations are more difficult to process for those who introspect annotations at runtime. An alternative proposal, :pep:`649`, introduced the third execution model, deferred evaluation, and was implemented in Python 3.14. Stringified annotations are still used if ``from __future__ import annotations`` is present, but this behavior will eventually be removed. Classes ------- .. class:: Format An :class:`~enum.IntEnum` describing the formats in which annotations can be returned. Members of the enum, or their equivalent integer values, can be passed to :func:`get_annotations` and other functions in this module, as well as to :attr:`~object.__annotate__` functions. .. attribute:: VALUE :value: 1 Values are the result of evaluating the annotation expressions. .. attribute:: FORWARDREF :value: 2 Values are real annotation values (as per :attr:`Format.VALUE` format) for defined values, and :class:`ForwardRef` proxies for undefined values. Real objects may contain references to, :class:`ForwardRef` proxy objects. .. attribute:: SOURCE :value: 3 Values are the text string of the annotation as it appears in the source code, up to modifications including, but not restricted to, whitespace normalizations and constant values optimizations. The exact values of these strings may change in future versions of Python. .. versionadded:: 3.14 .. class:: ForwardRef A proxy object for forward references in annotations. Instances of this class are returned when the :attr:`~Format.FORWARDREF` format is used and annotations contain a name that cannot be resolved. This can happen when a forward reference is used in an annotation, such as when a class is referenced before it is defined. .. attribute:: __forward_arg__ A string containing the code that was evaluated to produce the :class:`~ForwardRef`. The string may not be exactly equivalent to the original source. .. method:: evaluate(*, globals=None, locals=None, type_params=None, owner=None) Evaluate the forward reference, returning its value. This may throw an exception, such as :exc:`NameError`, if the forward reference refers to names that do not exist. The arguments to this method can be used to provide bindings for names that would otherwise be undefined. :class:`~ForwardRef` instances returned by :func:`get_annotations` retain references to information about the scope they originated from, so calling this method with no further arguments may be sufficient to evaluate such objects. :class:`~ForwardRef` instances created by other means may not have any information about their scope, so passing arguments to this method may be necessary to evaluate them successfully. *globals* and *locals* are passed to :func:`eval`, representing the global and local namespaces in which the name is evaluated. *type_params*, if given, must be a tuple of :ref:`type parameters ` that are in scope while the forward reference is being evaluated. *owner* is the object that owns the annotation from which the forward reference derives, usually a function, class, or module. .. important:: Once a :class:`~ForwardRef` instance has been evaluated, it caches the evaluated value, and future calls to :meth:`evaluate` will return the cached value, regardless of the parameters passed in. .. versionadded:: 3.14 Functions --------- .. function:: call_annotate_function(annotate, format, *, owner=None) Call the :term:`annotate function` *annotate* with the given *format*, a member of the :class:`Format` enum, and return the annotations dictionary produced by the function. This helper function is required because annotate functions generated by the compiler for functions, classes, and modules only support the :attr:`~Format.VALUE` format when called directly. To support other formats, this function calls the annotate function in a special environment that allows it to produce annotations in the other formats. This is a useful building block when implementing functionality that needs to partially evaluate annotations while a class is being constructed. *owner* is the object that owns the annotation function, usually a function, class, or module. If provided, it is used in the :attr:`~Format.FORWARDREF` format to produce a :class:`ForwardRef` object that carries more information. .. seealso:: :PEP:`PEP 649 <649#the-stringizer-and-the-fake-globals-environment>` contains an explanation of the implementation technique used by this function. .. versionadded:: 3.14 .. function:: call_evaluate_function(evaluate, format, *, owner=None) Call the :term:`evaluate function` *evaluate* with the given *format*, a member of the :class:`Format` enum, and return the value produced by the function. This is similar to :func:`call_annotate_function`, but the latter always returns a dictionary mapping strings to annotations, while this function returns a single value. This is intended for use with the evaluate functions generated for lazily evaluated elements related to type aliases and type parameters: * :meth:`typing.TypeAliasType.evaluate_value`, the value of type aliases * :meth:`typing.TypeVar.evaluate_bound`, the bound of type variables * :meth:`typing.TypeVar.evaluate_constraints`, the constraints of type variables * :meth:`typing.TypeVar.evaluate_default`, the default value of type variables * :meth:`typing.ParamSpec.evaluate_default`, the default value of parameter specifications * :meth:`typing.TypeVarTuple.evaluate_default`, the default value of type variable tuples *owner* is the object that owns the evaluate function, such as the type alias or type variable object. *format* can be used to control the format in which the value is returned: .. doctest:: >>> type Alias = undefined >>> call_evaluate_function(Alias.evaluate_value, Format.VALUE) Traceback (most recent call last): ... NameError: name 'undefined' is not defined >>> call_evaluate_function(Alias.evaluate_value, Format.FORWARDREF) ForwardRef('undefined') >>> call_evaluate_function(Alias.evaluate_value, Format.SOURCE) 'undefined' .. versionadded:: 3.14 .. function:: get_annotate_function(obj) Retrieve the :term:`annotate function` for *obj*. Return :const:`!None` if *obj* does not have an annotate function. This is usually equivalent to accessing the :attr:`~object.__annotate__` attribute of *obj*, but direct access to the attribute may return the wrong object in certain situations involving metaclasses. This function should be used instead of accessing the attribute directly. .. versionadded:: 3.14 .. function:: get_annotations(obj, *, globals=None, locals=None, eval_str=False, format=Format.VALUE) Compute the annotations dict for an object. *obj* may be a callable, class, module, or other object with :attr:`~object.__annotate__` and :attr:`~object.__annotations__` attributes. Passing in an object of any other type raises :exc:`TypeError`. The *format* parameter controls the format in which annotations are returned, and must be a member of the :class:`Format` enum or its integer equivalent. Returns a dict. :func:`!get_annotations` returns a new dict every time it's called; calling it twice on the same object will return two different but equivalent dicts. This function handles several details for you: * If *eval_str* is true, values of type :class:`!str` will be un-stringized using :func:`eval`. This is intended for use with stringized annotations (``from __future__ import annotations``). It is an error to set *eval_str* to true with formats other than :attr:`Format.VALUE`. * If *obj* doesn't have an annotations dict, returns an empty dict. (Functions and methods always have an annotations dict; classes, modules, and other types of callables may not.) * Ignores inherited annotations on classes, as well as annotations on metaclasses. If a class doesn't have its own annotations dict, returns an empty dict. * All accesses to object members and dict values are done using ``getattr()`` and ``dict.get()`` for safety. *eval_str* controls whether or not values of type :class:`!str` are replaced with the result of calling :func:`eval` on those values: * If eval_str is true, :func:`eval` is called on values of type :class:`!str`. (Note that :func:`!get_annotations` doesn't catch exceptions; if :func:`eval` raises an exception, it will unwind the stack past the :func:`!get_annotations` call.) * If *eval_str* is false (the default), values of type :class:`!str` are unchanged. *globals* and *locals* are passed in to :func:`eval`; see the documentation for :func:`eval` for more information. If *globals* or *locals* is :const:`!None`, this function may replace that value with a context-specific default, contingent on ``type(obj)``: * If *obj* is a module, *globals* defaults to ``obj.__dict__``. * If *obj* is a class, *globals* defaults to ``sys.modules[obj.__module__].__dict__`` and *locals* defaults to the *obj* class namespace. * If *obj* is a callable, *globals* defaults to :attr:`obj.__globals__ `, although if *obj* is a wrapped function (using :func:`functools.update_wrapper`) or a :class:`functools.partial` object, it is unwrapped until a non-wrapped function is found. Calling :func:`!get_annotations` is best practice for accessing the annotations dict of any object. See :ref:`annotations-howto` for more information on annotations best practices. .. doctest:: >>> def f(a: int, b: str) -> float: ... pass >>> get_annotations(f) {'a': , 'b': , 'return': } .. versionadded:: 3.14