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315 lines
11 KiB
Python
315 lines
11 KiB
Python
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# Copyright (c) 2015-2016, 2018-2020 Claudiu Popa <pcmanticore@gmail.com>
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# Copyright (c) 2015-2016 Ceridwen <ceridwenv@gmail.com>
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# Copyright (c) 2015 Florian Bruhin <me@the-compiler.org>
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# Copyright (c) 2016 Derek Gustafson <degustaf@gmail.com>
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# Copyright (c) 2018 hippo91 <guillaume.peillex@gmail.com>
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# Copyright (c) 2018 Bryce Guinta <bryce.paul.guinta@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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"""
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Inference objects are a way to represent composite AST nodes,
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which are used only as inference results, so they can't be found in the
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original AST tree. For instance, inferring the following frozenset use,
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leads to an inferred FrozenSet:
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Call(func=Name('frozenset'), args=Tuple(...))
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"""
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import builtins
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from astroid import bases
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from astroid import decorators
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from astroid import exceptions
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from astroid import MANAGER
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from astroid import node_classes
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from astroid import scoped_nodes
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from astroid import util
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BUILTINS = builtins.__name__
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objectmodel = util.lazy_import("interpreter.objectmodel")
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class FrozenSet(node_classes._BaseContainer):
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"""class representing a FrozenSet composite node"""
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def pytype(self):
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return "%s.frozenset" % BUILTINS
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def _infer(self, context=None):
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yield self
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@decorators.cachedproperty
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def _proxied(self): # pylint: disable=method-hidden
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ast_builtins = MANAGER.builtins_module
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return ast_builtins.getattr("frozenset")[0]
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class Super(node_classes.NodeNG):
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"""Proxy class over a super call.
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This class offers almost the same behaviour as Python's super,
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which is MRO lookups for retrieving attributes from the parents.
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The *mro_pointer* is the place in the MRO from where we should
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start looking, not counting it. *mro_type* is the object which
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provides the MRO, it can be both a type or an instance.
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*self_class* is the class where the super call is, while
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*scope* is the function where the super call is.
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"""
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# pylint: disable=unnecessary-lambda
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special_attributes = util.lazy_descriptor(lambda: objectmodel.SuperModel())
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# pylint: disable=super-init-not-called
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def __init__(self, mro_pointer, mro_type, self_class, scope):
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self.type = mro_type
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self.mro_pointer = mro_pointer
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self._class_based = False
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self._self_class = self_class
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self._scope = scope
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def _infer(self, context=None):
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yield self
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def super_mro(self):
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"""Get the MRO which will be used to lookup attributes in this super."""
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if not isinstance(self.mro_pointer, scoped_nodes.ClassDef):
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raise exceptions.SuperError(
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"The first argument to super must be a subtype of "
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"type, not {mro_pointer}.",
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super_=self,
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)
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if isinstance(self.type, scoped_nodes.ClassDef):
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# `super(type, type)`, most likely in a class method.
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self._class_based = True
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mro_type = self.type
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else:
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mro_type = getattr(self.type, "_proxied", None)
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if not isinstance(mro_type, (bases.Instance, scoped_nodes.ClassDef)):
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raise exceptions.SuperError(
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"The second argument to super must be an "
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"instance or subtype of type, not {type}.",
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super_=self,
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)
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if not mro_type.newstyle:
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raise exceptions.SuperError(
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"Unable to call super on old-style classes.", super_=self
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)
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mro = mro_type.mro()
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if self.mro_pointer not in mro:
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raise exceptions.SuperError(
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"The second argument to super must be an "
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"instance or subtype of type, not {type}.",
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super_=self,
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)
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index = mro.index(self.mro_pointer)
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return mro[index + 1 :]
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@decorators.cachedproperty
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def _proxied(self):
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ast_builtins = MANAGER.builtins_module
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return ast_builtins.getattr("super")[0]
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def pytype(self):
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return "%s.super" % BUILTINS
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def display_type(self):
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return "Super of"
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@property
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def name(self):
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"""Get the name of the MRO pointer."""
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return self.mro_pointer.name
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def qname(self):
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return "super"
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def igetattr(self, name, context=None):
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"""Retrieve the inferred values of the given attribute name."""
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if name in self.special_attributes:
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yield self.special_attributes.lookup(name)
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return
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try:
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mro = self.super_mro()
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# Don't let invalid MROs or invalid super calls
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# leak out as is from this function.
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except exceptions.SuperError as exc:
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raise exceptions.AttributeInferenceError(
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(
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"Lookup for {name} on {target!r} because super call {super!r} "
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"is invalid."
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),
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target=self,
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attribute=name,
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context=context,
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super_=exc.super_,
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) from exc
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except exceptions.MroError as exc:
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raise exceptions.AttributeInferenceError(
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(
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"Lookup for {name} on {target!r} failed because {cls!r} has an "
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"invalid MRO."
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),
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target=self,
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attribute=name,
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context=context,
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mros=exc.mros,
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cls=exc.cls,
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) from exc
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found = False
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for cls in mro:
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if name not in cls.locals:
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continue
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found = True
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for inferred in bases._infer_stmts([cls[name]], context, frame=self):
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if not isinstance(inferred, scoped_nodes.FunctionDef):
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yield inferred
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continue
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# We can obtain different descriptors from a super depending
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# on what we are accessing and where the super call is.
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if inferred.type == "classmethod":
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yield bases.BoundMethod(inferred, cls)
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elif self._scope.type == "classmethod" and inferred.type == "method":
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yield inferred
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elif self._class_based or inferred.type == "staticmethod":
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yield inferred
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elif isinstance(inferred, Property):
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function = inferred.function
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try:
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yield from function.infer_call_result(
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caller=self, context=context
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)
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except exceptions.InferenceError:
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yield util.Uninferable
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elif bases._is_property(inferred):
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# TODO: support other descriptors as well.
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try:
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yield from inferred.infer_call_result(self, context)
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except exceptions.InferenceError:
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yield util.Uninferable
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else:
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yield bases.BoundMethod(inferred, cls)
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if not found:
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raise exceptions.AttributeInferenceError(
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target=self, attribute=name, context=context
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)
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def getattr(self, name, context=None):
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return list(self.igetattr(name, context=context))
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class ExceptionInstance(bases.Instance):
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"""Class for instances of exceptions
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It has special treatment for some of the exceptions's attributes,
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which are transformed at runtime into certain concrete objects, such as
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the case of .args.
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"""
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@decorators.cachedproperty
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def special_attributes(self):
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qname = self.qname()
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instance = objectmodel.BUILTIN_EXCEPTIONS.get(
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qname, objectmodel.ExceptionInstanceModel
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)
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return instance()(self)
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class DictInstance(bases.Instance):
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"""Special kind of instances for dictionaries
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This instance knows the underlying object model of the dictionaries, which means
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that methods such as .values or .items can be properly inferred.
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"""
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# pylint: disable=unnecessary-lambda
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special_attributes = util.lazy_descriptor(lambda: objectmodel.DictModel())
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# Custom objects tailored for dictionaries, which are used to
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# disambiguate between the types of Python 2 dict's method returns
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# and Python 3 (where they return set like objects).
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class DictItems(bases.Proxy):
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__str__ = node_classes.NodeNG.__str__
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__repr__ = node_classes.NodeNG.__repr__
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class DictKeys(bases.Proxy):
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__str__ = node_classes.NodeNG.__str__
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__repr__ = node_classes.NodeNG.__repr__
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class DictValues(bases.Proxy):
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__str__ = node_classes.NodeNG.__str__
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__repr__ = node_classes.NodeNG.__repr__
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class PartialFunction(scoped_nodes.FunctionDef):
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"""A class representing partial function obtained via functools.partial"""
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def __init__(
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self, call, name=None, doc=None, lineno=None, col_offset=None, parent=None
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):
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super().__init__(name, doc, lineno, col_offset, parent)
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self.filled_positionals = len(call.positional_arguments[1:])
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self.filled_args = call.positional_arguments[1:]
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self.filled_keywords = call.keyword_arguments
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def infer_call_result(self, caller=None, context=None):
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if context:
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current_passed_keywords = {
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keyword for (keyword, _) in context.callcontext.keywords
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}
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for keyword, value in self.filled_keywords.items():
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if keyword not in current_passed_keywords:
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context.callcontext.keywords.append((keyword, value))
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call_context_args = context.callcontext.args or []
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context.callcontext.args = self.filled_args + call_context_args
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return super().infer_call_result(caller=caller, context=context)
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def qname(self):
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return self.__class__.__name__
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# TODO: Hack to solve the circular import problem between node_classes and objects
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# This is not needed in 2.0, which has a cleaner design overall
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node_classes.Dict.__bases__ = (node_classes.NodeNG, DictInstance)
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class Property(scoped_nodes.FunctionDef):
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"""Class representing a Python property"""
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def __init__(
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self, function, name=None, doc=None, lineno=None, col_offset=None, parent=None
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):
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self.function = function
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super().__init__(name, doc, lineno, col_offset, parent)
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# pylint: disable=unnecessary-lambda
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special_attributes = util.lazy_descriptor(lambda: objectmodel.PropertyModel())
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type = "property"
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def pytype(self):
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return "%s.property" % BUILTINS
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def infer_call_result(self, caller=None, context=None):
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raise exceptions.InferenceError("Properties are not callable")
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def infer(self, context=None, **kwargs):
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return iter((self,))
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