mirror of
https://github.com/PiBrewing/craftbeerpi4.git
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873 lines
28 KiB
Python
873 lines
28 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright (c) 2014-2020 Claudiu Popa <pcmanticore@gmail.com>
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# Copyright (c) 2014-2015 LOGILAB S.A. (Paris, FRANCE) <contact@logilab.fr>
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# Copyright (c) 2015-2016 Ceridwen <ceridwenv@gmail.com>
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# Copyright (c) 2015 Rene Zhang <rz99@cornell.edu>
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# Copyright (c) 2018 Bryce Guinta <bryce.paul.guinta@gmail.com>
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# Copyright (c) 2018 Ville Skyttä <ville.skytta@iki.fi>
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# Copyright (c) 2019 Stanislav Levin <slev@altlinux.org>
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# Copyright (c) 2019 David Liu <david@cs.toronto.edu>
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# Copyright (c) 2019 Bryce Guinta <bryce.guinta@protonmail.com>
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# Copyright (c) 2019 Frédéric Chapoton <fchapoton2@gmail.com>
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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/PyCQA/astroid/blob/master/COPYING.LESSER
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"""Astroid hooks for various builtins."""
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from functools import partial
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from textwrap import dedent
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import six
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from astroid import (
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MANAGER,
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UseInferenceDefault,
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AttributeInferenceError,
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inference_tip,
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InferenceError,
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NameInferenceError,
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AstroidTypeError,
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MroError,
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)
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from astroid import arguments
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from astroid.builder import AstroidBuilder
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from astroid import helpers
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from astroid import nodes
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from astroid import objects
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from astroid import scoped_nodes
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from astroid import util
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OBJECT_DUNDER_NEW = "object.__new__"
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def _extend_str(class_node, rvalue):
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"""function to extend builtin str/unicode class"""
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code = dedent(
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"""
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class whatever(object):
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def join(self, iterable):
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return {rvalue}
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def replace(self, old, new, count=None):
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return {rvalue}
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def format(self, *args, **kwargs):
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return {rvalue}
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def encode(self, encoding='ascii', errors=None):
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return ''
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def decode(self, encoding='ascii', errors=None):
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return u''
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def capitalize(self):
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return {rvalue}
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def title(self):
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return {rvalue}
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def lower(self):
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return {rvalue}
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def upper(self):
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return {rvalue}
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def swapcase(self):
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return {rvalue}
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def index(self, sub, start=None, end=None):
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return 0
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def find(self, sub, start=None, end=None):
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return 0
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def count(self, sub, start=None, end=None):
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return 0
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def strip(self, chars=None):
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return {rvalue}
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def lstrip(self, chars=None):
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return {rvalue}
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def rstrip(self, chars=None):
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return {rvalue}
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def rjust(self, width, fillchar=None):
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return {rvalue}
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def center(self, width, fillchar=None):
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return {rvalue}
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def ljust(self, width, fillchar=None):
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return {rvalue}
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"""
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)
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code = code.format(rvalue=rvalue)
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fake = AstroidBuilder(MANAGER).string_build(code)["whatever"]
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for method in fake.mymethods():
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method.parent = class_node
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method.lineno = None
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method.col_offset = None
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if "__class__" in method.locals:
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method.locals["__class__"] = [class_node]
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class_node.locals[method.name] = [method]
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method.parent = class_node
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def _extend_builtins(class_transforms):
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builtin_ast = MANAGER.builtins_module
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for class_name, transform in class_transforms.items():
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transform(builtin_ast[class_name])
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_extend_builtins(
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{
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"bytes": partial(_extend_str, rvalue="b''"),
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"str": partial(_extend_str, rvalue="''"),
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}
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)
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def _builtin_filter_predicate(node, builtin_name):
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if isinstance(node.func, nodes.Name) and node.func.name == builtin_name:
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return True
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if isinstance(node.func, nodes.Attribute):
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return (
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node.func.attrname == "fromkeys"
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and isinstance(node.func.expr, nodes.Name)
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and node.func.expr.name == "dict"
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)
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return False
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def register_builtin_transform(transform, builtin_name):
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"""Register a new transform function for the given *builtin_name*.
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The transform function must accept two parameters, a node and
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an optional context.
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"""
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def _transform_wrapper(node, context=None):
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result = transform(node, context=context)
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if result:
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if not result.parent:
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# Let the transformation function determine
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# the parent for its result. Otherwise,
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# we set it to be the node we transformed from.
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result.parent = node
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if result.lineno is None:
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result.lineno = node.lineno
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if result.col_offset is None:
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result.col_offset = node.col_offset
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return iter([result])
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MANAGER.register_transform(
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nodes.Call,
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inference_tip(_transform_wrapper),
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partial(_builtin_filter_predicate, builtin_name=builtin_name),
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)
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def _container_generic_inference(node, context, node_type, transform):
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args = node.args
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if not args:
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return node_type()
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if len(node.args) > 1:
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raise UseInferenceDefault()
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(arg,) = args
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transformed = transform(arg)
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if not transformed:
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try:
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inferred = next(arg.infer(context=context))
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except (InferenceError, StopIteration):
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raise UseInferenceDefault()
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if inferred is util.Uninferable:
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raise UseInferenceDefault()
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transformed = transform(inferred)
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if not transformed or transformed is util.Uninferable:
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raise UseInferenceDefault()
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return transformed
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def _container_generic_transform(arg, context, klass, iterables, build_elts):
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if isinstance(arg, klass):
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return arg
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elif isinstance(arg, iterables):
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if all(isinstance(elt, nodes.Const) for elt in arg.elts):
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elts = [elt.value for elt in arg.elts]
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else:
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# TODO: Does not handle deduplication for sets.
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elts = []
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for element in arg.elts:
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inferred = helpers.safe_infer(element, context=context)
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if inferred:
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evaluated_object = nodes.EvaluatedObject(
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original=element, value=inferred
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)
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elts.append(evaluated_object)
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elif isinstance(arg, nodes.Dict):
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# Dicts need to have consts as strings already.
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if not all(isinstance(elt[0], nodes.Const) for elt in arg.items):
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raise UseInferenceDefault()
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elts = [item[0].value for item in arg.items]
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elif isinstance(arg, nodes.Const) and isinstance(
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arg.value, (six.string_types, six.binary_type)
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):
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elts = arg.value
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else:
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return
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return klass.from_elements(elts=build_elts(elts))
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def _infer_builtin_container(
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node, context, klass=None, iterables=None, build_elts=None
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):
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transform_func = partial(
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_container_generic_transform,
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context=context,
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klass=klass,
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iterables=iterables,
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build_elts=build_elts,
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)
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return _container_generic_inference(node, context, klass, transform_func)
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# pylint: disable=invalid-name
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infer_tuple = partial(
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_infer_builtin_container,
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klass=nodes.Tuple,
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iterables=(
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nodes.List,
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nodes.Set,
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objects.FrozenSet,
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objects.DictItems,
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objects.DictKeys,
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objects.DictValues,
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),
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build_elts=tuple,
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)
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infer_list = partial(
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_infer_builtin_container,
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klass=nodes.List,
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iterables=(
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nodes.Tuple,
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nodes.Set,
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objects.FrozenSet,
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objects.DictItems,
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objects.DictKeys,
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objects.DictValues,
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),
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build_elts=list,
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)
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infer_set = partial(
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_infer_builtin_container,
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klass=nodes.Set,
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iterables=(nodes.List, nodes.Tuple, objects.FrozenSet, objects.DictKeys),
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build_elts=set,
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)
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infer_frozenset = partial(
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_infer_builtin_container,
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klass=objects.FrozenSet,
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iterables=(nodes.List, nodes.Tuple, nodes.Set, objects.FrozenSet, objects.DictKeys),
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build_elts=frozenset,
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)
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def _get_elts(arg, context):
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is_iterable = lambda n: isinstance(n, (nodes.List, nodes.Tuple, nodes.Set))
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try:
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inferred = next(arg.infer(context))
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except (InferenceError, NameInferenceError):
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raise UseInferenceDefault()
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if isinstance(inferred, nodes.Dict):
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items = inferred.items
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elif is_iterable(inferred):
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items = []
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for elt in inferred.elts:
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# If an item is not a pair of two items,
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# then fallback to the default inference.
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# Also, take in consideration only hashable items,
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# tuples and consts. We are choosing Names as well.
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if not is_iterable(elt):
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raise UseInferenceDefault()
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if len(elt.elts) != 2:
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raise UseInferenceDefault()
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if not isinstance(elt.elts[0], (nodes.Tuple, nodes.Const, nodes.Name)):
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raise UseInferenceDefault()
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items.append(tuple(elt.elts))
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else:
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raise UseInferenceDefault()
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return items
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def infer_dict(node, context=None):
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"""Try to infer a dict call to a Dict node.
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The function treats the following cases:
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* dict()
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* dict(mapping)
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* dict(iterable)
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* dict(iterable, **kwargs)
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* dict(mapping, **kwargs)
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* dict(**kwargs)
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If a case can't be inferred, we'll fallback to default inference.
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"""
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call = arguments.CallSite.from_call(node, context=context)
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if call.has_invalid_arguments() or call.has_invalid_keywords():
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raise UseInferenceDefault
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args = call.positional_arguments
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kwargs = list(call.keyword_arguments.items())
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if not args and not kwargs:
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# dict()
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return nodes.Dict()
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elif kwargs and not args:
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# dict(a=1, b=2, c=4)
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items = [(nodes.Const(key), value) for key, value in kwargs]
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elif len(args) == 1 and kwargs:
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# dict(some_iterable, b=2, c=4)
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elts = _get_elts(args[0], context)
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keys = [(nodes.Const(key), value) for key, value in kwargs]
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items = elts + keys
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elif len(args) == 1:
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items = _get_elts(args[0], context)
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else:
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raise UseInferenceDefault()
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value = nodes.Dict(
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col_offset=node.col_offset, lineno=node.lineno, parent=node.parent
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)
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value.postinit(items)
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return value
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def infer_super(node, context=None):
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"""Understand super calls.
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There are some restrictions for what can be understood:
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* unbounded super (one argument form) is not understood.
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* if the super call is not inside a function (classmethod or method),
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then the default inference will be used.
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* if the super arguments can't be inferred, the default inference
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will be used.
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"""
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if len(node.args) == 1:
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# Ignore unbounded super.
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raise UseInferenceDefault
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scope = node.scope()
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if not isinstance(scope, nodes.FunctionDef):
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# Ignore non-method uses of super.
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raise UseInferenceDefault
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if scope.type not in ("classmethod", "method"):
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# Not interested in staticmethods.
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raise UseInferenceDefault
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cls = scoped_nodes.get_wrapping_class(scope)
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if not len(node.args):
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mro_pointer = cls
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# In we are in a classmethod, the interpreter will fill
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# automatically the class as the second argument, not an instance.
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if scope.type == "classmethod":
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mro_type = cls
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else:
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mro_type = cls.instantiate_class()
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else:
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try:
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mro_pointer = next(node.args[0].infer(context=context))
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except InferenceError:
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raise UseInferenceDefault
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try:
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mro_type = next(node.args[1].infer(context=context))
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except InferenceError:
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raise UseInferenceDefault
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if mro_pointer is util.Uninferable or mro_type is util.Uninferable:
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# No way we could understand this.
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raise UseInferenceDefault
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super_obj = objects.Super(
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mro_pointer=mro_pointer, mro_type=mro_type, self_class=cls, scope=scope
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)
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super_obj.parent = node
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return super_obj
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def _infer_getattr_args(node, context):
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if len(node.args) not in (2, 3):
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# Not a valid getattr call.
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raise UseInferenceDefault
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try:
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obj = next(node.args[0].infer(context=context))
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attr = next(node.args[1].infer(context=context))
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except InferenceError:
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raise UseInferenceDefault
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if obj is util.Uninferable or attr is util.Uninferable:
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# If one of the arguments is something we can't infer,
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# then also make the result of the getattr call something
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# which is unknown.
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return util.Uninferable, util.Uninferable
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is_string = isinstance(attr, nodes.Const) and isinstance(
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attr.value, six.string_types
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)
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if not is_string:
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raise UseInferenceDefault
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return obj, attr.value
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def infer_getattr(node, context=None):
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"""Understand getattr calls
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If one of the arguments is an Uninferable object, then the
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result will be an Uninferable object. Otherwise, the normal attribute
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lookup will be done.
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"""
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obj, attr = _infer_getattr_args(node, context)
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if (
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obj is util.Uninferable
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or attr is util.Uninferable
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or not hasattr(obj, "igetattr")
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):
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return util.Uninferable
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try:
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return next(obj.igetattr(attr, context=context))
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except (StopIteration, InferenceError, AttributeInferenceError):
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if len(node.args) == 3:
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# Try to infer the default and return it instead.
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try:
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return next(node.args[2].infer(context=context))
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except InferenceError:
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raise UseInferenceDefault
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raise UseInferenceDefault
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def infer_hasattr(node, context=None):
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"""Understand hasattr calls
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This always guarantees three possible outcomes for calling
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hasattr: Const(False) when we are sure that the object
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doesn't have the intended attribute, Const(True) when
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we know that the object has the attribute and Uninferable
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when we are unsure of the outcome of the function call.
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"""
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try:
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obj, attr = _infer_getattr_args(node, context)
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if (
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obj is util.Uninferable
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or attr is util.Uninferable
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or not hasattr(obj, "getattr")
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):
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return util.Uninferable
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obj.getattr(attr, context=context)
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except UseInferenceDefault:
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# Can't infer something from this function call.
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return util.Uninferable
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except AttributeInferenceError:
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# Doesn't have it.
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return nodes.Const(False)
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return nodes.Const(True)
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def infer_callable(node, context=None):
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"""Understand callable calls
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This follows Python's semantics, where an object
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is callable if it provides an attribute __call__,
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even though that attribute is something which can't be
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called.
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"""
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if len(node.args) != 1:
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# Invalid callable call.
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raise UseInferenceDefault
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argument = node.args[0]
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try:
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inferred = next(argument.infer(context=context))
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except InferenceError:
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return util.Uninferable
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if inferred is util.Uninferable:
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return util.Uninferable
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return nodes.Const(inferred.callable())
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def infer_property(node, context=None):
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"""Understand `property` class
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This only infers the output of `property`
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call, not the arguments themselves.
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"""
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if len(node.args) < 1:
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# Invalid property call.
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raise UseInferenceDefault
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getter = node.args[0]
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try:
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inferred = next(getter.infer(context=context))
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except InferenceError:
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raise UseInferenceDefault
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if not isinstance(inferred, (nodes.FunctionDef, nodes.Lambda)):
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raise UseInferenceDefault
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return objects.Property(
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function=inferred,
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name=inferred.name,
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doc=getattr(inferred, "doc", None),
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lineno=node.lineno,
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parent=node,
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col_offset=node.col_offset,
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)
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def infer_bool(node, context=None):
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"""Understand bool calls."""
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if len(node.args) > 1:
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# Invalid bool call.
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raise UseInferenceDefault
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if not node.args:
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return nodes.Const(False)
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argument = node.args[0]
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try:
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inferred = next(argument.infer(context=context))
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except InferenceError:
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return util.Uninferable
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if inferred is util.Uninferable:
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return util.Uninferable
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bool_value = inferred.bool_value(context=context)
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if bool_value is util.Uninferable:
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return util.Uninferable
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return nodes.Const(bool_value)
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|
|
|
|
def infer_type(node, context=None):
|
|
"""Understand the one-argument form of *type*."""
|
|
if len(node.args) != 1:
|
|
raise UseInferenceDefault
|
|
|
|
return helpers.object_type(node.args[0], context)
|
|
|
|
|
|
def infer_slice(node, context=None):
|
|
"""Understand `slice` calls."""
|
|
args = node.args
|
|
if not 0 < len(args) <= 3:
|
|
raise UseInferenceDefault
|
|
|
|
infer_func = partial(helpers.safe_infer, context=context)
|
|
args = [infer_func(arg) for arg in args]
|
|
for arg in args:
|
|
if not arg or arg is util.Uninferable:
|
|
raise UseInferenceDefault
|
|
if not isinstance(arg, nodes.Const):
|
|
raise UseInferenceDefault
|
|
if not isinstance(arg.value, (type(None), int)):
|
|
raise UseInferenceDefault
|
|
|
|
if len(args) < 3:
|
|
# Make sure we have 3 arguments.
|
|
args.extend([None] * (3 - len(args)))
|
|
|
|
slice_node = nodes.Slice(
|
|
lineno=node.lineno, col_offset=node.col_offset, parent=node.parent
|
|
)
|
|
slice_node.postinit(*args)
|
|
return slice_node
|
|
|
|
|
|
def _infer_object__new__decorator(node, context=None):
|
|
# Instantiate class immediately
|
|
# since that's what @object.__new__ does
|
|
return iter((node.instantiate_class(),))
|
|
|
|
|
|
def _infer_object__new__decorator_check(node):
|
|
"""Predicate before inference_tip
|
|
|
|
Check if the given ClassDef has an @object.__new__ decorator
|
|
"""
|
|
if not node.decorators:
|
|
return False
|
|
|
|
for decorator in node.decorators.nodes:
|
|
if isinstance(decorator, nodes.Attribute):
|
|
if decorator.as_string() == OBJECT_DUNDER_NEW:
|
|
return True
|
|
return False
|
|
|
|
|
|
def infer_issubclass(callnode, context=None):
|
|
"""Infer issubclass() calls
|
|
|
|
:param nodes.Call callnode: an `issubclass` call
|
|
:param InferenceContext: the context for the inference
|
|
:rtype nodes.Const: Boolean Const value of the `issubclass` call
|
|
:raises UseInferenceDefault: If the node cannot be inferred
|
|
"""
|
|
call = arguments.CallSite.from_call(callnode, context=context)
|
|
if call.keyword_arguments:
|
|
# issubclass doesn't support keyword arguments
|
|
raise UseInferenceDefault("TypeError: issubclass() takes no keyword arguments")
|
|
if len(call.positional_arguments) != 2:
|
|
raise UseInferenceDefault(
|
|
"Expected two arguments, got {count}".format(
|
|
count=len(call.positional_arguments)
|
|
)
|
|
)
|
|
# The left hand argument is the obj to be checked
|
|
obj_node, class_or_tuple_node = call.positional_arguments
|
|
|
|
try:
|
|
obj_type = next(obj_node.infer(context=context))
|
|
except InferenceError as exc:
|
|
raise UseInferenceDefault from exc
|
|
if not isinstance(obj_type, nodes.ClassDef):
|
|
raise UseInferenceDefault("TypeError: arg 1 must be class")
|
|
|
|
# The right hand argument is the class(es) that the given
|
|
# object is to be checked against.
|
|
try:
|
|
class_container = _class_or_tuple_to_container(
|
|
class_or_tuple_node, context=context
|
|
)
|
|
except InferenceError as exc:
|
|
raise UseInferenceDefault from exc
|
|
try:
|
|
issubclass_bool = helpers.object_issubclass(obj_type, class_container, context)
|
|
except AstroidTypeError as exc:
|
|
raise UseInferenceDefault("TypeError: " + str(exc)) from exc
|
|
except MroError as exc:
|
|
raise UseInferenceDefault from exc
|
|
return nodes.Const(issubclass_bool)
|
|
|
|
|
|
def infer_isinstance(callnode, context=None):
|
|
"""Infer isinstance calls
|
|
|
|
:param nodes.Call callnode: an isinstance call
|
|
:param InferenceContext: context for call
|
|
(currently unused but is a common interface for inference)
|
|
:rtype nodes.Const: Boolean Const value of isinstance call
|
|
|
|
:raises UseInferenceDefault: If the node cannot be inferred
|
|
"""
|
|
call = arguments.CallSite.from_call(callnode, context=context)
|
|
if call.keyword_arguments:
|
|
# isinstance doesn't support keyword arguments
|
|
raise UseInferenceDefault("TypeError: isinstance() takes no keyword arguments")
|
|
if len(call.positional_arguments) != 2:
|
|
raise UseInferenceDefault(
|
|
"Expected two arguments, got {count}".format(
|
|
count=len(call.positional_arguments)
|
|
)
|
|
)
|
|
# The left hand argument is the obj to be checked
|
|
obj_node, class_or_tuple_node = call.positional_arguments
|
|
# The right hand argument is the class(es) that the given
|
|
# obj is to be check is an instance of
|
|
try:
|
|
class_container = _class_or_tuple_to_container(
|
|
class_or_tuple_node, context=context
|
|
)
|
|
except InferenceError:
|
|
raise UseInferenceDefault
|
|
try:
|
|
isinstance_bool = helpers.object_isinstance(obj_node, class_container, context)
|
|
except AstroidTypeError as exc:
|
|
raise UseInferenceDefault("TypeError: " + str(exc))
|
|
except MroError as exc:
|
|
raise UseInferenceDefault from exc
|
|
if isinstance_bool is util.Uninferable:
|
|
raise UseInferenceDefault
|
|
return nodes.Const(isinstance_bool)
|
|
|
|
|
|
def _class_or_tuple_to_container(node, context=None):
|
|
# Move inferences results into container
|
|
# to simplify later logic
|
|
# raises InferenceError if any of the inferences fall through
|
|
node_infer = next(node.infer(context=context))
|
|
# arg2 MUST be a type or a TUPLE of types
|
|
# for isinstance
|
|
if isinstance(node_infer, nodes.Tuple):
|
|
class_container = [
|
|
next(node.infer(context=context)) for node in node_infer.elts
|
|
]
|
|
class_container = [
|
|
klass_node for klass_node in class_container if klass_node is not None
|
|
]
|
|
else:
|
|
class_container = [node_infer]
|
|
return class_container
|
|
|
|
|
|
def infer_len(node, context=None):
|
|
"""Infer length calls
|
|
|
|
:param nodes.Call node: len call to infer
|
|
:param context.InferenceContext: node context
|
|
:rtype nodes.Const: a Const node with the inferred length, if possible
|
|
"""
|
|
call = arguments.CallSite.from_call(node, context=context)
|
|
if call.keyword_arguments:
|
|
raise UseInferenceDefault("TypeError: len() must take no keyword arguments")
|
|
if len(call.positional_arguments) != 1:
|
|
raise UseInferenceDefault(
|
|
"TypeError: len() must take exactly one argument "
|
|
"({len}) given".format(len=len(call.positional_arguments))
|
|
)
|
|
[argument_node] = call.positional_arguments
|
|
try:
|
|
return nodes.Const(helpers.object_len(argument_node, context=context))
|
|
except (AstroidTypeError, InferenceError) as exc:
|
|
raise UseInferenceDefault(str(exc)) from exc
|
|
|
|
|
|
def infer_str(node, context=None):
|
|
"""Infer str() calls
|
|
|
|
:param nodes.Call node: str() call to infer
|
|
:param context.InferenceContext: node context
|
|
:rtype nodes.Const: a Const containing an empty string
|
|
"""
|
|
call = arguments.CallSite.from_call(node, context=context)
|
|
if call.keyword_arguments:
|
|
raise UseInferenceDefault("TypeError: str() must take no keyword arguments")
|
|
try:
|
|
return nodes.Const("")
|
|
except (AstroidTypeError, InferenceError) as exc:
|
|
raise UseInferenceDefault(str(exc)) from exc
|
|
|
|
|
|
def infer_int(node, context=None):
|
|
"""Infer int() calls
|
|
|
|
:param nodes.Call node: int() call to infer
|
|
:param context.InferenceContext: node context
|
|
:rtype nodes.Const: a Const containing the integer value of the int() call
|
|
"""
|
|
call = arguments.CallSite.from_call(node, context=context)
|
|
if call.keyword_arguments:
|
|
raise UseInferenceDefault("TypeError: int() must take no keyword arguments")
|
|
|
|
if call.positional_arguments:
|
|
try:
|
|
first_value = next(call.positional_arguments[0].infer(context=context))
|
|
except (InferenceError, StopIteration) as exc:
|
|
raise UseInferenceDefault(str(exc)) from exc
|
|
|
|
if first_value is util.Uninferable:
|
|
raise UseInferenceDefault
|
|
|
|
if isinstance(first_value, nodes.Const) and isinstance(
|
|
first_value.value, (int, str)
|
|
):
|
|
try:
|
|
actual_value = int(first_value.value)
|
|
except ValueError:
|
|
return nodes.Const(0)
|
|
return nodes.Const(actual_value)
|
|
|
|
return nodes.Const(0)
|
|
|
|
|
|
def infer_dict_fromkeys(node, context=None):
|
|
"""Infer dict.fromkeys
|
|
|
|
:param nodes.Call node: dict.fromkeys() call to infer
|
|
:param context.InferenceContext: node context
|
|
:rtype nodes.Dict:
|
|
a Dictionary containing the values that astroid was able to infer.
|
|
In case the inference failed for any reason, an empty dictionary
|
|
will be inferred instead.
|
|
"""
|
|
|
|
def _build_dict_with_elements(elements):
|
|
new_node = nodes.Dict(
|
|
col_offset=node.col_offset, lineno=node.lineno, parent=node.parent
|
|
)
|
|
new_node.postinit(elements)
|
|
return new_node
|
|
|
|
call = arguments.CallSite.from_call(node, context=context)
|
|
if call.keyword_arguments:
|
|
raise UseInferenceDefault("TypeError: int() must take no keyword arguments")
|
|
if len(call.positional_arguments) not in {1, 2}:
|
|
raise UseInferenceDefault(
|
|
"TypeError: Needs between 1 and 2 positional arguments"
|
|
)
|
|
|
|
default = nodes.Const(None)
|
|
values = call.positional_arguments[0]
|
|
try:
|
|
inferred_values = next(values.infer(context=context))
|
|
except InferenceError:
|
|
return _build_dict_with_elements([])
|
|
if inferred_values is util.Uninferable:
|
|
return _build_dict_with_elements([])
|
|
|
|
# Limit to a couple of potential values, as this can become pretty complicated
|
|
accepted_iterable_elements = (nodes.Const,)
|
|
if isinstance(inferred_values, (nodes.List, nodes.Set, nodes.Tuple)):
|
|
elements = inferred_values.elts
|
|
for element in elements:
|
|
if not isinstance(element, accepted_iterable_elements):
|
|
# Fallback to an empty dict
|
|
return _build_dict_with_elements([])
|
|
|
|
elements_with_value = [(element, default) for element in elements]
|
|
return _build_dict_with_elements(elements_with_value)
|
|
|
|
elif isinstance(inferred_values, nodes.Const) and isinstance(
|
|
inferred_values.value, (str, bytes)
|
|
):
|
|
elements = [
|
|
(nodes.Const(element), default) for element in inferred_values.value
|
|
]
|
|
return _build_dict_with_elements(elements)
|
|
elif isinstance(inferred_values, nodes.Dict):
|
|
keys = inferred_values.itered()
|
|
for key in keys:
|
|
if not isinstance(key, accepted_iterable_elements):
|
|
# Fallback to an empty dict
|
|
return _build_dict_with_elements([])
|
|
|
|
elements_with_value = [(element, default) for element in keys]
|
|
return _build_dict_with_elements(elements_with_value)
|
|
|
|
# Fallback to an empty dictionary
|
|
return _build_dict_with_elements([])
|
|
|
|
|
|
# Builtins inference
|
|
register_builtin_transform(infer_bool, "bool")
|
|
register_builtin_transform(infer_super, "super")
|
|
register_builtin_transform(infer_callable, "callable")
|
|
register_builtin_transform(infer_property, "property")
|
|
register_builtin_transform(infer_getattr, "getattr")
|
|
register_builtin_transform(infer_hasattr, "hasattr")
|
|
register_builtin_transform(infer_tuple, "tuple")
|
|
register_builtin_transform(infer_set, "set")
|
|
register_builtin_transform(infer_list, "list")
|
|
register_builtin_transform(infer_dict, "dict")
|
|
register_builtin_transform(infer_frozenset, "frozenset")
|
|
register_builtin_transform(infer_type, "type")
|
|
register_builtin_transform(infer_slice, "slice")
|
|
register_builtin_transform(infer_isinstance, "isinstance")
|
|
register_builtin_transform(infer_issubclass, "issubclass")
|
|
register_builtin_transform(infer_len, "len")
|
|
register_builtin_transform(infer_str, "str")
|
|
register_builtin_transform(infer_int, "int")
|
|
register_builtin_transform(infer_dict_fromkeys, "dict.fromkeys")
|
|
|
|
|
|
# Infer object.__new__ calls
|
|
MANAGER.register_transform(
|
|
nodes.ClassDef,
|
|
inference_tip(_infer_object__new__decorator),
|
|
_infer_object__new__decorator_check,
|
|
)
|