pdoc.doc_types
This module handles all interpretation of type annotations in pdoc.
In particular, it provides functionality to resolve typing.ForwardRef objects without raising an exception.
View Source
""" This module handles all interpretation of type annotations in pdoc. In particular, it provides functionality to resolve [typing.ForwardRef](https://docs.python.org/3/library/typing.html#typing.ForwardRef) objects without raising an exception. """ from __future__ import annotations import functools import inspect import operator import sys import types import typing import warnings from types import BuiltinFunctionType, ModuleType from typing import ( Any, Optional, TYPE_CHECKING, ) from typing import _GenericAlias # type: ignore from . import extract from ._compat import GenericAlias, Literal, UnionType, get_args, get_origin from .doc_ast import type_checking_sections if TYPE_CHECKING: class empty: pass empty = inspect.Signature.empty # type: ignore # noqa """ A "special" object signaling the absence of a type annotation. This is useful to distinguish it from an actual annotation with `None`. This value is an alias of `inspect.Signature.empty`. """ # adapted from # https://github.com/python/cpython/blob/9feae41c4f04ca27fd2c865807a5caeb50bf4fc4/Lib/inspect.py#L1740-L1747 # ✂ start ✂ _WrapperDescriptor = type(type.__call__) _MethodWrapper = type(all.__call__) # type: ignore _ClassMethodWrapper = type(int.__dict__["from_bytes"]) NonUserDefinedCallables = ( _WrapperDescriptor, _MethodWrapper, _ClassMethodWrapper, BuiltinFunctionType, ) # ✂ end ✂ def formatannotation(annotation: Any) -> str: """ Like `inspect.formatannotation()`, but with a small bugfix for Python 3.9's GenericAlias annotations. """ # a small inconsistency in Python 3.9, # formatannotation(list[str]) returns "list". if isinstance(annotation, type) and get_args(annotation): return repr(annotation) return inspect.formatannotation(annotation) def resolve_annotations( annotations: dict[str, Any], module: Optional[ModuleType], fullname: str, ) -> dict[str, Any]: """ Given an `annotations` dictionary with type annotations (for example, `cls.__annotations__`), this function tries to resolve all types using `pdoc.doc_types.safe_eval_type`. Returns: A dictionary with the evaluated types. """ ns = getattr(module, "__dict__", {}) resolved = {} for name, value in annotations.items(): resolved[name] = safe_eval_type(value, ns, module, fullname) return resolved def safe_eval_type( t: Any, globalns, module: Optional[types.ModuleType], fullname: str, ) -> Any: """ This method wraps `typing._eval_type`, but doesn't raise on errors. It is used to evaluate a type annotation, which might already be a proper type (in which case no action is required), or a forward reference string, which needs to be resolved. If _eval_type fails, we try some heuristics to import a missing module. If that still fails, a warning is emitted and `t` is returned as-is. """ try: return _eval_type(t, globalns, None) except AttributeError as e: err = str(e) _, obj, _, attr, _ = err.split("'") mod = f"{obj}.{attr}" except NameError as e: err = str(e) _, mod, _ = err.split("'") except Exception as e: warnings.warn(f"Error parsing type annotation {t} for {fullname}: {e}") return t # Simple _eval_type has failed. We now execute all TYPE_CHECKING sections in the module and try again. if module: try: code = compile(type_checking_sections(module), "<string>", "exec") eval(code, globalns, globalns) except Exception as e: warnings.warn( f"Failed to run TYPE_CHECKING code while parsing {t} type annotation for {fullname}: {e}" ) try: return _eval_type(t, globalns, None) except Exception: pass try: val = extract.load_module(mod) except Exception: warnings.warn( f"Error parsing type annotation {t} for {fullname}. Import of {mod} failed: {err}" ) return t return safe_eval_type(t, {mod: val, **globalns}, module, fullname) def _eval_type(t, globalns, localns, recursive_guard=frozenset()): # Adapted from typing._eval_type. # Added type coercion originally found in get_type_hints, but removed NoneType check because that was distracting. # Added a special check for typing.Literal, whose literal strings would otherwise be evaluated. if isinstance(t, str): if sys.version_info < (3, 9): # pragma: no cover t = t.strip("\"'") t = typing.ForwardRef(t) if get_origin(t) is Literal: return t if isinstance(t, typing.ForwardRef): # inlined from # https://github.com/python/cpython/blob/4f51fa9e2d3ea9316e674fb9a9f3e3112e83661c/Lib/typing.py#L684-L707 if t.__forward_arg__ in recursive_guard: # pragma: no cover return t if not t.__forward_evaluated__ or localns is not globalns: if globalns is None and localns is None: # pragma: no cover globalns = localns = {} elif globalns is None: # pragma: no cover globalns = localns elif localns is None: # pragma: no cover localns = globalns __forward_module__ = getattr(t, "__forward_module__", None) if __forward_module__ is not None: globalns = getattr( sys.modules.get(__forward_module__, None), "__dict__", globalns ) (type_,) = (eval(t.__forward_code__, globalns, localns),) t.__forward_value__ = _eval_type( type_, globalns, localns, recursive_guard | {t.__forward_arg__} ) t.__forward_evaluated__ = True return t.__forward_value__ # https://github.com/python/cpython/blob/main/Lib/typing.py#L333-L343 # fmt: off # ✂ start ✂ if isinstance(t, (_GenericAlias, GenericAlias, UnionType)): ev_args = tuple(_eval_type(a, globalns, localns, recursive_guard) for a in t.__args__) if ev_args == t.__args__: return t if isinstance(t, GenericAlias): return GenericAlias(t.__origin__, ev_args) if isinstance(t, UnionType): return functools.reduce(operator.or_, ev_args) else: return t.copy_with(ev_args) return t # ✂ end ✂
#
empty
A "special" object signaling the absence of a type annotation.
This is useful to distinguish it from an actual annotation with None.
This value is an alias of inspect.Signature.empty.
View Source
def formatannotation(annotation: Any) -> str: """ Like `inspect.formatannotation()`, but with a small bugfix for Python 3.9's GenericAlias annotations. """ # a small inconsistency in Python 3.9, # formatannotation(list[str]) returns "list". if isinstance(annotation, type) and get_args(annotation): return repr(annotation) return inspect.formatannotation(annotation)
Like inspect.formatannotation(), but with a small bugfix for Python 3.9's GenericAlias annotations.
#
def
resolve_annotations(
annotations: dict,
module: Optional[module],
fullname: str
) -> dict[str, typing.Any]:
View Source
def resolve_annotations( annotations: dict[str, Any], module: Optional[ModuleType], fullname: str, ) -> dict[str, Any]: """ Given an `annotations` dictionary with type annotations (for example, `cls.__annotations__`), this function tries to resolve all types using `pdoc.doc_types.safe_eval_type`. Returns: A dictionary with the evaluated types. """ ns = getattr(module, "__dict__", {}) resolved = {} for name, value in annotations.items(): resolved[name] = safe_eval_type(value, ns, module, fullname) return resolved
Given an annotations dictionary with type annotations (for example, cls.__annotations__),
this function tries to resolve all types using pdoc.doc_types.safe_eval_type.
Returns: A dictionary with the evaluated types.
View Source
def safe_eval_type( t: Any, globalns, module: Optional[types.ModuleType], fullname: str, ) -> Any: """ This method wraps `typing._eval_type`, but doesn't raise on errors. It is used to evaluate a type annotation, which might already be a proper type (in which case no action is required), or a forward reference string, which needs to be resolved. If _eval_type fails, we try some heuristics to import a missing module. If that still fails, a warning is emitted and `t` is returned as-is. """ try: return _eval_type(t, globalns, None) except AttributeError as e: err = str(e) _, obj, _, attr, _ = err.split("'") mod = f"{obj}.{attr}" except NameError as e: err = str(e) _, mod, _ = err.split("'") except Exception as e: warnings.warn(f"Error parsing type annotation {t} for {fullname}: {e}") return t # Simple _eval_type has failed. We now execute all TYPE_CHECKING sections in the module and try again. if module: try: code = compile(type_checking_sections(module), "<string>", "exec") eval(code, globalns, globalns) except Exception as e: warnings.warn( f"Failed to run TYPE_CHECKING code while parsing {t} type annotation for {fullname}: {e}" ) try: return _eval_type(t, globalns, None) except Exception: pass try: val = extract.load_module(mod) except Exception: warnings.warn( f"Error parsing type annotation {t} for {fullname}. Import of {mod} failed: {err}" ) return t return safe_eval_type(t, {mod: val, **globalns}, module, fullname)
This method wraps typing._eval_type, but doesn't raise on errors.
It is used to evaluate a type annotation, which might already be
a proper type (in which case no action is required), or a forward reference string,
which needs to be resolved.
If _eval_type fails, we try some heuristics to import a missing module.
If that still fails, a warning is emitted and t is returned as-is.