674 lines
23 KiB
Python
674 lines
23 KiB
Python
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# Licensed under the LGPL: https://www.gnu.org/licenses/old-licenses/lgpl-2.1.en.html
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# For details: https://github.com/pylint-dev/astroid/blob/main/LICENSE
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# Copyright (c) https://github.com/pylint-dev/astroid/blob/main/CONTRIBUTORS.txt
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"""Astroid hooks for the Python standard library."""
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from __future__ import annotations
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import functools
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import keyword
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from collections.abc import Iterator
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from textwrap import dedent
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from typing import Final
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import astroid
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from astroid import arguments, bases, inference_tip, nodes, util
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from astroid.builder import AstroidBuilder, _extract_single_node, extract_node
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from astroid.context import InferenceContext
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from astroid.exceptions import (
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AstroidTypeError,
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AstroidValueError,
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InferenceError,
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UseInferenceDefault,
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)
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from astroid.manager import AstroidManager
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ENUM_QNAME: Final[str] = "enum.Enum"
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TYPING_NAMEDTUPLE_QUALIFIED: Final = {
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"typing.NamedTuple",
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"typing_extensions.NamedTuple",
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}
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TYPING_NAMEDTUPLE_BASENAMES: Final = {
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"NamedTuple",
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"typing.NamedTuple",
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"typing_extensions.NamedTuple",
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}
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def _infer_first(node, context):
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if isinstance(node, util.UninferableBase):
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raise UseInferenceDefault
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try:
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value = next(node.infer(context=context))
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except StopIteration as exc:
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raise InferenceError from exc
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if isinstance(value, util.UninferableBase):
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raise UseInferenceDefault()
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return value
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def _find_func_form_arguments(node, context):
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def _extract_namedtuple_arg_or_keyword( # pylint: disable=inconsistent-return-statements
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position, key_name=None
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):
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if len(args) > position:
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return _infer_first(args[position], context)
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if key_name and key_name in found_keywords:
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return _infer_first(found_keywords[key_name], context)
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args = node.args
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keywords = node.keywords
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found_keywords = (
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{keyword.arg: keyword.value for keyword in keywords} if keywords else {}
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)
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name = _extract_namedtuple_arg_or_keyword(position=0, key_name="typename")
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names = _extract_namedtuple_arg_or_keyword(position=1, key_name="field_names")
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if name and names:
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return name.value, names
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raise UseInferenceDefault()
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def infer_func_form(
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node: nodes.Call,
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base_type: list[nodes.NodeNG],
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context: InferenceContext | None = None,
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enum: bool = False,
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) -> tuple[nodes.ClassDef, str, list[str]]:
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"""Specific inference function for namedtuple or Python 3 enum."""
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# node is a Call node, class name as first argument and generated class
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# attributes as second argument
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# namedtuple or enums list of attributes can be a list of strings or a
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# whitespace-separate string
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try:
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name, names = _find_func_form_arguments(node, context)
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try:
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attributes: list[str] = names.value.replace(",", " ").split()
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except AttributeError as exc:
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# Handle attributes of NamedTuples
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if not enum:
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attributes = []
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fields = _get_namedtuple_fields(node)
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if fields:
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fields_node = extract_node(fields)
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attributes = [
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_infer_first(const, context).value for const in fields_node.elts
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]
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# Handle attributes of Enums
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else:
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# Enums supports either iterator of (name, value) pairs
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# or mappings.
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if hasattr(names, "items") and isinstance(names.items, list):
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attributes = [
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_infer_first(const[0], context).value
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for const in names.items
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if isinstance(const[0], nodes.Const)
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]
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elif hasattr(names, "elts"):
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# Enums can support either ["a", "b", "c"]
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# or [("a", 1), ("b", 2), ...], but they can't
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# be mixed.
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if all(isinstance(const, nodes.Tuple) for const in names.elts):
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attributes = [
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_infer_first(const.elts[0], context).value
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for const in names.elts
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if isinstance(const, nodes.Tuple)
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]
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else:
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attributes = [
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_infer_first(const, context).value for const in names.elts
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]
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else:
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raise AttributeError from exc
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if not attributes:
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raise AttributeError from exc
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except (AttributeError, InferenceError) as exc:
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raise UseInferenceDefault from exc
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if not enum:
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# namedtuple maps sys.intern(str()) over over field_names
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attributes = [str(attr) for attr in attributes]
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# XXX this should succeed *unless* __str__/__repr__ is incorrect or throws
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# in which case we should not have inferred these values and raised earlier
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attributes = [attr for attr in attributes if " " not in attr]
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# If we can't infer the name of the class, don't crash, up to this point
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# we know it is a namedtuple anyway.
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name = name or "Uninferable"
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# we want to return a Class node instance with proper attributes set
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class_node = nodes.ClassDef(
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name,
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lineno=node.lineno,
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col_offset=node.col_offset,
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end_lineno=node.end_lineno,
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end_col_offset=node.end_col_offset,
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parent=nodes.Unknown(),
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)
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# A typical ClassDef automatically adds its name to the parent scope,
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# but doing so causes problems, so defer setting parent until after init
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# see: https://github.com/pylint-dev/pylint/issues/5982
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class_node.parent = node.parent
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class_node.postinit(
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# set base class=tuple
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bases=base_type,
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body=[],
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decorators=None,
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)
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# XXX add __init__(*attributes) method
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for attr in attributes:
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fake_node = nodes.EmptyNode()
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fake_node.parent = class_node
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fake_node.attrname = attr
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class_node.instance_attrs[attr] = [fake_node]
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return class_node, name, attributes
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def _has_namedtuple_base(node):
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"""Predicate for class inference tip.
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:type node: ClassDef
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:rtype: bool
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"""
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return set(node.basenames) & TYPING_NAMEDTUPLE_BASENAMES
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def _looks_like(node, name) -> bool:
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func = node.func
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if isinstance(func, nodes.Attribute):
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return func.attrname == name
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if isinstance(func, nodes.Name):
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return func.name == name
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return False
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_looks_like_namedtuple = functools.partial(_looks_like, name="namedtuple")
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_looks_like_enum = functools.partial(_looks_like, name="Enum")
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_looks_like_typing_namedtuple = functools.partial(_looks_like, name="NamedTuple")
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def infer_named_tuple(
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node: nodes.Call, context: InferenceContext | None = None
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) -> Iterator[nodes.ClassDef]:
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"""Specific inference function for namedtuple Call node."""
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tuple_base_name: list[nodes.NodeNG] = [
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nodes.Name(
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name="tuple",
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parent=node.root(),
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lineno=0,
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col_offset=0,
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end_lineno=None,
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end_col_offset=None,
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)
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]
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class_node, name, attributes = infer_func_form(
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node, tuple_base_name, context=context
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)
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call_site = arguments.CallSite.from_call(node, context=context)
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node = extract_node("import collections; collections.namedtuple")
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try:
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func = next(node.infer())
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except StopIteration as e:
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raise InferenceError(node=node) from e
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try:
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rename = next(
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call_site.infer_argument(func, "rename", context or InferenceContext())
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).bool_value()
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except (InferenceError, StopIteration):
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rename = False
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try:
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attributes = _check_namedtuple_attributes(name, attributes, rename)
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except AstroidTypeError as exc:
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raise UseInferenceDefault("TypeError: " + str(exc)) from exc
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except AstroidValueError as exc:
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raise UseInferenceDefault("ValueError: " + str(exc)) from exc
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replace_args = ", ".join(f"{arg}=None" for arg in attributes)
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field_def = (
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" {name} = property(lambda self: self[{index:d}], "
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"doc='Alias for field number {index:d}')"
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)
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field_defs = "\n".join(
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field_def.format(name=name, index=index)
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for index, name in enumerate(attributes)
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)
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fake = AstroidBuilder(AstroidManager()).string_build(
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f"""
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class {name}(tuple):
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__slots__ = ()
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_fields = {attributes!r}
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def _asdict(self):
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return self.__dict__
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@classmethod
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def _make(cls, iterable, new=tuple.__new__, len=len):
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return new(cls, iterable)
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def _replace(self, {replace_args}):
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return self
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def __getnewargs__(self):
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return tuple(self)
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{field_defs}
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"""
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)
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class_node.locals["_asdict"] = fake.body[0].locals["_asdict"]
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class_node.locals["_make"] = fake.body[0].locals["_make"]
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class_node.locals["_replace"] = fake.body[0].locals["_replace"]
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class_node.locals["_fields"] = fake.body[0].locals["_fields"]
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for attr in attributes:
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class_node.locals[attr] = fake.body[0].locals[attr]
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# we use UseInferenceDefault, we can't be a generator so return an iterator
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return iter([class_node])
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def _get_renamed_namedtuple_attributes(field_names):
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names = list(field_names)
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seen = set()
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for i, name in enumerate(field_names):
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if (
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not all(c.isalnum() or c == "_" for c in name)
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or keyword.iskeyword(name)
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or not name
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or name[0].isdigit()
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or name.startswith("_")
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or name in seen
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):
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names[i] = "_%d" % i
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seen.add(name)
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return tuple(names)
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def _check_namedtuple_attributes(typename, attributes, rename=False):
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attributes = tuple(attributes)
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if rename:
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attributes = _get_renamed_namedtuple_attributes(attributes)
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# The following snippet is derived from the CPython Lib/collections/__init__.py sources
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# <snippet>
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for name in (typename, *attributes):
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if not isinstance(name, str):
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raise AstroidTypeError("Type names and field names must be strings")
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if not name.isidentifier():
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raise AstroidValueError(
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"Type names and field names must be valid" + f"identifiers: {name!r}"
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)
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if keyword.iskeyword(name):
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raise AstroidValueError(
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f"Type names and field names cannot be a keyword: {name!r}"
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)
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seen = set()
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for name in attributes:
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if name.startswith("_") and not rename:
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raise AstroidValueError(
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f"Field names cannot start with an underscore: {name!r}"
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)
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if name in seen:
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raise AstroidValueError(f"Encountered duplicate field name: {name!r}")
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seen.add(name)
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# </snippet>
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return attributes
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def infer_enum(
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node: nodes.Call, context: InferenceContext | None = None
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) -> Iterator[bases.Instance]:
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"""Specific inference function for enum Call node."""
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# Raise `UseInferenceDefault` if `node` is a call to a a user-defined Enum.
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try:
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inferred = node.func.infer(context)
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except (InferenceError, StopIteration) as exc:
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raise UseInferenceDefault from exc
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if not any(
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isinstance(item, nodes.ClassDef) and item.qname() == ENUM_QNAME
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for item in inferred
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):
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raise UseInferenceDefault
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enum_meta = _extract_single_node(
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"""
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class EnumMeta(object):
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'docstring'
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def __call__(self, node):
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class EnumAttribute(object):
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name = ''
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value = 0
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return EnumAttribute()
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def __iter__(self):
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class EnumAttribute(object):
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name = ''
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value = 0
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return [EnumAttribute()]
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def __reversed__(self):
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class EnumAttribute(object):
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name = ''
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value = 0
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return (EnumAttribute, )
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def __next__(self):
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return next(iter(self))
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def __getitem__(self, attr):
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class Value(object):
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@property
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def name(self):
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return ''
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@property
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def value(self):
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return attr
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return Value()
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__members__ = ['']
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"""
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)
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class_node = infer_func_form(node, [enum_meta], context=context, enum=True)[0]
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return iter([class_node.instantiate_class()])
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INT_FLAG_ADDITION_METHODS = """
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def __or__(self, other):
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return {name}(self.value | other.value)
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def __and__(self, other):
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return {name}(self.value & other.value)
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def __xor__(self, other):
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return {name}(self.value ^ other.value)
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def __add__(self, other):
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return {name}(self.value + other.value)
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def __div__(self, other):
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return {name}(self.value / other.value)
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def __invert__(self):
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return {name}(~self.value)
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def __mul__(self, other):
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return {name}(self.value * other.value)
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"""
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def infer_enum_class(node: nodes.ClassDef) -> nodes.ClassDef:
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"""Specific inference for enums."""
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for basename in (b for cls in node.mro() for b in cls.basenames):
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if node.root().name == "enum":
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# Skip if the class is directly from enum module.
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break
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dunder_members = {}
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target_names = set()
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for local, values in node.locals.items():
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if (
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any(not isinstance(value, nodes.AssignName) for value in values)
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or local == "_ignore_"
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):
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continue
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stmt = values[0].statement()
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if isinstance(stmt, nodes.Assign):
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if isinstance(stmt.targets[0], nodes.Tuple):
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targets = stmt.targets[0].itered()
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else:
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targets = stmt.targets
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elif isinstance(stmt, nodes.AnnAssign):
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targets = [stmt.target]
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else:
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continue
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inferred_return_value = None
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if stmt.value is not None:
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if isinstance(stmt.value, nodes.Const):
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if isinstance(stmt.value.value, str):
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inferred_return_value = repr(stmt.value.value)
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else:
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inferred_return_value = stmt.value.value
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else:
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inferred_return_value = stmt.value.as_string()
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new_targets = []
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for target in targets:
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if isinstance(target, nodes.Starred):
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continue
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target_names.add(target.name)
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# Replace all the assignments with our mocked class.
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classdef = dedent(
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"""
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class {name}({types}):
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@property
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def value(self):
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return {return_value}
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@property
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def _value_(self):
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return {return_value}
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@property
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def name(self):
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||
|
return "{name}"
|
||
|
@property
|
||
|
def _name_(self):
|
||
|
return "{name}"
|
||
|
""".format(
|
||
|
name=target.name,
|
||
|
types=", ".join(node.basenames),
|
||
|
return_value=inferred_return_value,
|
||
|
)
|
||
|
)
|
||
|
if "IntFlag" in basename:
|
||
|
# Alright, we need to add some additional methods.
|
||
|
# Unfortunately we still can't infer the resulting objects as
|
||
|
# Enum members, but once we'll be able to do that, the following
|
||
|
# should result in some nice symbolic execution
|
||
|
classdef += INT_FLAG_ADDITION_METHODS.format(name=target.name)
|
||
|
|
||
|
fake = AstroidBuilder(
|
||
|
AstroidManager(), apply_transforms=False
|
||
|
).string_build(classdef)[target.name]
|
||
|
fake.parent = target.parent
|
||
|
for method in node.mymethods():
|
||
|
fake.locals[method.name] = [method]
|
||
|
new_targets.append(fake.instantiate_class())
|
||
|
if stmt.value is None:
|
||
|
continue
|
||
|
dunder_members[local] = fake
|
||
|
node.locals[local] = new_targets
|
||
|
|
||
|
# The undocumented `_value2member_map_` member:
|
||
|
node.locals["_value2member_map_"] = [
|
||
|
nodes.Dict(
|
||
|
parent=node,
|
||
|
lineno=node.lineno,
|
||
|
col_offset=node.col_offset,
|
||
|
end_lineno=node.end_lineno,
|
||
|
end_col_offset=node.end_col_offset,
|
||
|
)
|
||
|
]
|
||
|
|
||
|
members = nodes.Dict(
|
||
|
parent=node,
|
||
|
lineno=node.lineno,
|
||
|
col_offset=node.col_offset,
|
||
|
end_lineno=node.end_lineno,
|
||
|
end_col_offset=node.end_col_offset,
|
||
|
)
|
||
|
members.postinit(
|
||
|
[
|
||
|
(
|
||
|
nodes.Const(k, parent=members),
|
||
|
nodes.Name(
|
||
|
v.name,
|
||
|
parent=members,
|
||
|
lineno=v.lineno,
|
||
|
col_offset=v.col_offset,
|
||
|
end_lineno=v.end_lineno,
|
||
|
end_col_offset=v.end_col_offset,
|
||
|
),
|
||
|
)
|
||
|
for k, v in dunder_members.items()
|
||
|
]
|
||
|
)
|
||
|
node.locals["__members__"] = [members]
|
||
|
# The enum.Enum class itself defines two @DynamicClassAttribute data-descriptors
|
||
|
# "name" and "value" (which we override in the mocked class for each enum member
|
||
|
# above). When dealing with inference of an arbitrary instance of the enum
|
||
|
# class, e.g. in a method defined in the class body like:
|
||
|
# class SomeEnum(enum.Enum):
|
||
|
# def method(self):
|
||
|
# self.name # <- here
|
||
|
# In the absence of an enum member called "name" or "value", these attributes
|
||
|
# should resolve to the descriptor on that particular instance, i.e. enum member.
|
||
|
# For "value", we have no idea what that should be, but for "name", we at least
|
||
|
# know that it should be a string, so infer that as a guess.
|
||
|
if "name" not in target_names:
|
||
|
code = dedent(
|
||
|
"""
|
||
|
@property
|
||
|
def name(self):
|
||
|
return ''
|
||
|
"""
|
||
|
)
|
||
|
name_dynamicclassattr = AstroidBuilder(AstroidManager()).string_build(code)[
|
||
|
"name"
|
||
|
]
|
||
|
node.locals["name"] = [name_dynamicclassattr]
|
||
|
break
|
||
|
return node
|
||
|
|
||
|
|
||
|
def infer_typing_namedtuple_class(class_node, context: InferenceContext | None = None):
|
||
|
"""Infer a subclass of typing.NamedTuple."""
|
||
|
# Check if it has the corresponding bases
|
||
|
annassigns_fields = [
|
||
|
annassign.target.name
|
||
|
for annassign in class_node.body
|
||
|
if isinstance(annassign, nodes.AnnAssign)
|
||
|
]
|
||
|
code = dedent(
|
||
|
"""
|
||
|
from collections import namedtuple
|
||
|
namedtuple({typename!r}, {fields!r})
|
||
|
"""
|
||
|
).format(typename=class_node.name, fields=",".join(annassigns_fields))
|
||
|
node = extract_node(code)
|
||
|
try:
|
||
|
generated_class_node = next(infer_named_tuple(node, context))
|
||
|
except StopIteration as e:
|
||
|
raise InferenceError(node=node, context=context) from e
|
||
|
for method in class_node.mymethods():
|
||
|
generated_class_node.locals[method.name] = [method]
|
||
|
|
||
|
for body_node in class_node.body:
|
||
|
if isinstance(body_node, nodes.Assign):
|
||
|
for target in body_node.targets:
|
||
|
attr = target.name
|
||
|
generated_class_node.locals[attr] = class_node.locals[attr]
|
||
|
elif isinstance(body_node, nodes.ClassDef):
|
||
|
generated_class_node.locals[body_node.name] = [body_node]
|
||
|
|
||
|
return iter((generated_class_node,))
|
||
|
|
||
|
|
||
|
def infer_typing_namedtuple_function(node, context: InferenceContext | None = None):
|
||
|
"""
|
||
|
Starting with python3.9, NamedTuple is a function of the typing module.
|
||
|
The class NamedTuple is build dynamically through a call to `type` during
|
||
|
initialization of the `_NamedTuple` variable.
|
||
|
"""
|
||
|
klass = extract_node(
|
||
|
"""
|
||
|
from typing import _NamedTuple
|
||
|
_NamedTuple
|
||
|
"""
|
||
|
)
|
||
|
return klass.infer(context)
|
||
|
|
||
|
|
||
|
def infer_typing_namedtuple(
|
||
|
node: nodes.Call, context: InferenceContext | None = None
|
||
|
) -> Iterator[nodes.ClassDef]:
|
||
|
"""Infer a typing.NamedTuple(...) call."""
|
||
|
# This is essentially a namedtuple with different arguments
|
||
|
# so we extract the args and infer a named tuple.
|
||
|
try:
|
||
|
func = next(node.func.infer())
|
||
|
except (InferenceError, StopIteration) as exc:
|
||
|
raise UseInferenceDefault from exc
|
||
|
|
||
|
if func.qname() not in TYPING_NAMEDTUPLE_QUALIFIED:
|
||
|
raise UseInferenceDefault
|
||
|
|
||
|
if len(node.args) != 2:
|
||
|
raise UseInferenceDefault
|
||
|
|
||
|
if not isinstance(node.args[1], (nodes.List, nodes.Tuple)):
|
||
|
raise UseInferenceDefault
|
||
|
|
||
|
return infer_named_tuple(node, context)
|
||
|
|
||
|
|
||
|
def _get_namedtuple_fields(node: nodes.Call) -> str:
|
||
|
"""Get and return fields of a NamedTuple in code-as-a-string.
|
||
|
|
||
|
Because the fields are represented in their code form we can
|
||
|
extract a node from them later on.
|
||
|
"""
|
||
|
names = []
|
||
|
container = None
|
||
|
try:
|
||
|
container = next(node.args[1].infer())
|
||
|
except (InferenceError, StopIteration) as exc:
|
||
|
raise UseInferenceDefault from exc
|
||
|
# We pass on IndexError as we'll try to infer 'field_names' from the keywords
|
||
|
except IndexError:
|
||
|
pass
|
||
|
if not container:
|
||
|
for keyword_node in node.keywords:
|
||
|
if keyword_node.arg == "field_names":
|
||
|
try:
|
||
|
container = next(keyword_node.value.infer())
|
||
|
except (InferenceError, StopIteration) as exc:
|
||
|
raise UseInferenceDefault from exc
|
||
|
break
|
||
|
if not isinstance(container, nodes.BaseContainer):
|
||
|
raise UseInferenceDefault
|
||
|
for elt in container.elts:
|
||
|
if isinstance(elt, nodes.Const):
|
||
|
names.append(elt.as_string())
|
||
|
continue
|
||
|
if not isinstance(elt, (nodes.List, nodes.Tuple)):
|
||
|
raise UseInferenceDefault
|
||
|
if len(elt.elts) != 2:
|
||
|
raise UseInferenceDefault
|
||
|
names.append(elt.elts[0].as_string())
|
||
|
|
||
|
if names:
|
||
|
field_names = f"({','.join(names)},)"
|
||
|
else:
|
||
|
field_names = ""
|
||
|
return field_names
|
||
|
|
||
|
|
||
|
def _is_enum_subclass(cls: astroid.ClassDef) -> bool:
|
||
|
"""Return whether cls is a subclass of an Enum."""
|
||
|
return cls.is_subtype_of("enum.Enum")
|
||
|
|
||
|
|
||
|
def register(manager: AstroidManager) -> None:
|
||
|
manager.register_transform(
|
||
|
nodes.Call, inference_tip(infer_named_tuple), _looks_like_namedtuple
|
||
|
)
|
||
|
manager.register_transform(nodes.Call, inference_tip(infer_enum), _looks_like_enum)
|
||
|
manager.register_transform(
|
||
|
nodes.ClassDef, infer_enum_class, predicate=_is_enum_subclass
|
||
|
)
|
||
|
manager.register_transform(
|
||
|
nodes.ClassDef,
|
||
|
inference_tip(infer_typing_namedtuple_class),
|
||
|
_has_namedtuple_base,
|
||
|
)
|
||
|
manager.register_transform(
|
||
|
nodes.FunctionDef,
|
||
|
inference_tip(infer_typing_namedtuple_function),
|
||
|
lambda node: node.name == "NamedTuple"
|
||
|
and getattr(node.root(), "name", None) == "typing",
|
||
|
)
|
||
|
manager.register_transform(
|
||
|
nodes.Call,
|
||
|
inference_tip(infer_typing_namedtuple),
|
||
|
_looks_like_typing_namedtuple,
|
||
|
)
|