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diff --git a/src/main/python/venv/Lib/site-packages/astroid/protocols.py b/src/main/python/venv/Lib/site-packages/astroid/protocols.py
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@@ -1,766 +0,0 @@
-# -*- coding: utf-8 -*-
-# Copyright (c) 2009-2011, 2013-2014 LOGILAB S.A. (Paris, FRANCE) <contact@logilab.fr>
-# Copyright (c) 2014-2018 Claudiu Popa <pcmanticore@gmail.com>
-# Copyright (c) 2014 Google, Inc.
-# Copyright (c) 2014 Eevee (Alex Munroe) <amunroe@yelp.com>
-# Copyright (c) 2015-2016 Ceridwen <ceridwenv@gmail.com>
-# Copyright (c) 2015 Dmitry Pribysh <dmand@yandex.ru>
-# Copyright (c) 2016 Derek Gustafson <degustaf@gmail.com>
-# Copyright (c) 2017-2018 Ashley Whetter <ashley@awhetter.co.uk>
-# Copyright (c) 2017 Ɓukasz Rogalski <rogalski.91@gmail.com>
-# Copyright (c) 2017 rr- <rr-@sakuya.pl>
-# Copyright (c) 2018 Bryce Guinta <bryce.paul.guinta@gmail.com>
-# Copyright (c) 2018 Nick Drozd <nicholasdrozd@gmail.com>
-# Copyright (c) 2018 HoverHell <hoverhell@gmail.com>
-
-# Licensed under the LGPL: https://www.gnu.org/licenses/old-licenses/lgpl-2.1.en.html
-# For details: https://github.com/PyCQA/astroid/blob/master/COPYING.LESSER
-
-"""this module contains a set of functions to handle python protocols for nodes
-where it makes sense.
-"""
-
-import collections
-import operator as operator_mod
-
-import itertools
-
-from astroid import Store
-from astroid import arguments
-from astroid import bases
-from astroid import context as contextmod
-from astroid import exceptions
-from astroid import decorators
-from astroid import node_classes
-from astroid import helpers
-from astroid import nodes
-from astroid import util
-
-raw_building = util.lazy_import("raw_building")
-objects = util.lazy_import("objects")
-
-
-def _reflected_name(name):
- return "__r" + name[2:]
-
-
-def _augmented_name(name):
- return "__i" + name[2:]
-
-
-_CONTEXTLIB_MGR = "contextlib.contextmanager"
-BIN_OP_METHOD = {
- "+": "__add__",
- "-": "__sub__",
- "/": "__truediv__",
- "//": "__floordiv__",
- "*": "__mul__",
- "**": "__pow__",
- "%": "__mod__",
- "&": "__and__",
- "|": "__or__",
- "^": "__xor__",
- "<<": "__lshift__",
- ">>": "__rshift__",
- "@": "__matmul__",
-}
-
-REFLECTED_BIN_OP_METHOD = {
- key: _reflected_name(value) for (key, value) in BIN_OP_METHOD.items()
-}
-AUGMENTED_OP_METHOD = {
- key + "=": _augmented_name(value) for (key, value) in BIN_OP_METHOD.items()
-}
-
-UNARY_OP_METHOD = {
- "+": "__pos__",
- "-": "__neg__",
- "~": "__invert__",
- "not": None, # XXX not '__nonzero__'
-}
-_UNARY_OPERATORS = {
- "+": operator_mod.pos,
- "-": operator_mod.neg,
- "~": operator_mod.invert,
- "not": operator_mod.not_,
-}
-
-
-def _infer_unary_op(obj, op):
- func = _UNARY_OPERATORS[op]
- value = func(obj)
- return nodes.const_factory(value)
-
-
-nodes.Tuple.infer_unary_op = lambda self, op: _infer_unary_op(tuple(self.elts), op)
-nodes.List.infer_unary_op = lambda self, op: _infer_unary_op(self.elts, op)
-nodes.Set.infer_unary_op = lambda self, op: _infer_unary_op(set(self.elts), op)
-nodes.Const.infer_unary_op = lambda self, op: _infer_unary_op(self.value, op)
-nodes.Dict.infer_unary_op = lambda self, op: _infer_unary_op(dict(self.items), op)
-
-# Binary operations
-
-BIN_OP_IMPL = {
- "+": lambda a, b: a + b,
- "-": lambda a, b: a - b,
- "/": lambda a, b: a / b,
- "//": lambda a, b: a // b,
- "*": lambda a, b: a * b,
- "**": lambda a, b: a ** b,
- "%": lambda a, b: a % b,
- "&": lambda a, b: a & b,
- "|": lambda a, b: a | b,
- "^": lambda a, b: a ^ b,
- "<<": lambda a, b: a << b,
- ">>": lambda a, b: a >> b,
- "@": operator_mod.matmul,
-}
-for _KEY, _IMPL in list(BIN_OP_IMPL.items()):
- BIN_OP_IMPL[_KEY + "="] = _IMPL
-
-
-@decorators.yes_if_nothing_inferred
-def const_infer_binary_op(self, opnode, operator, other, context, _):
- not_implemented = nodes.Const(NotImplemented)
- if isinstance(other, nodes.Const):
- try:
- impl = BIN_OP_IMPL[operator]
- try:
- yield nodes.const_factory(impl(self.value, other.value))
- except TypeError:
- # ArithmeticError is not enough: float >> float is a TypeError
- yield not_implemented
- except Exception: # pylint: disable=broad-except
- yield util.Uninferable
- except TypeError:
- yield not_implemented
- elif isinstance(self.value, str) and operator == "%":
- # TODO(cpopa): implement string interpolation later on.
- yield util.Uninferable
- else:
- yield not_implemented
-
-
-nodes.Const.infer_binary_op = const_infer_binary_op
-
-
-def _multiply_seq_by_int(self, opnode, other, context):
- node = self.__class__(parent=opnode)
- filtered_elts = (
- helpers.safe_infer(elt, context) or util.Uninferable
- for elt in self.elts
- if elt is not util.Uninferable
- )
- node.elts = list(filtered_elts) * other.value
- return node
-
-
-def _filter_uninferable_nodes(elts, context):
- for elt in elts:
- if elt is util.Uninferable:
- yield nodes.Unknown()
- else:
- for inferred in elt.infer(context):
- if inferred is not util.Uninferable:
- yield inferred
- else:
- yield nodes.Unknown()
-
-
-@decorators.yes_if_nothing_inferred
-def tl_infer_binary_op(self, opnode, operator, other, context, method):
- not_implemented = nodes.Const(NotImplemented)
- if isinstance(other, self.__class__) and operator == "+":
- node = self.__class__(parent=opnode)
- node.elts = list(
- itertools.chain(
- _filter_uninferable_nodes(self.elts, context),
- _filter_uninferable_nodes(other.elts, context),
- )
- )
- yield node
- elif isinstance(other, nodes.Const) and operator == "*":
- if not isinstance(other.value, int):
- yield not_implemented
- return
- yield _multiply_seq_by_int(self, opnode, other, context)
- elif isinstance(other, bases.Instance) and operator == "*":
- # Verify if the instance supports __index__.
- as_index = helpers.class_instance_as_index(other)
- if not as_index:
- yield util.Uninferable
- else:
- yield _multiply_seq_by_int(self, opnode, as_index, context)
- else:
- yield not_implemented
-
-
-nodes.Tuple.infer_binary_op = tl_infer_binary_op
-nodes.List.infer_binary_op = tl_infer_binary_op
-
-
-@decorators.yes_if_nothing_inferred
-def instance_class_infer_binary_op(self, opnode, operator, other, context, method):
- return method.infer_call_result(self, context)
-
-
-bases.Instance.infer_binary_op = instance_class_infer_binary_op
-nodes.ClassDef.infer_binary_op = instance_class_infer_binary_op
-
-
-# assignment ##################################################################
-
-"""the assigned_stmts method is responsible to return the assigned statement
-(e.g. not inferred) according to the assignment type.
-
-The `assign_path` argument is used to record the lhs path of the original node.
-For instance if we want assigned statements for 'c' in 'a, (b,c)', assign_path
-will be [1, 1] once arrived to the Assign node.
-
-The `context` argument is the current inference context which should be given
-to any intermediary inference necessary.
-"""
-
-
-def _resolve_looppart(parts, assign_path, context):
- """recursive function to resolve multiple assignments on loops"""
- assign_path = assign_path[:]
- index = assign_path.pop(0)
- for part in parts:
- if part is util.Uninferable:
- continue
- if not hasattr(part, "itered"):
- continue
- try:
- itered = part.itered()
- except TypeError:
- continue
- for stmt in itered:
- index_node = nodes.Const(index)
- try:
- assigned = stmt.getitem(index_node, context)
- except (
- AttributeError,
- exceptions.AstroidTypeError,
- exceptions.AstroidIndexError,
- ):
- continue
- if not assign_path:
- # we achieved to resolved the assignment path,
- # don't infer the last part
- yield assigned
- elif assigned is util.Uninferable:
- break
- else:
- # we are not yet on the last part of the path
- # search on each possibly inferred value
- try:
- yield from _resolve_looppart(
- assigned.infer(context), assign_path, context
- )
- except exceptions.InferenceError:
- break
-
-
-@decorators.raise_if_nothing_inferred
-def for_assigned_stmts(self, node=None, context=None, assign_path=None):
- if isinstance(self, nodes.AsyncFor) or getattr(self, "is_async", False):
- # Skip inferring of async code for now
- return dict(node=self, unknown=node, assign_path=assign_path, context=context)
- if assign_path is None:
- for lst in self.iter.infer(context):
- if isinstance(lst, (nodes.Tuple, nodes.List)):
- yield from lst.elts
- else:
- yield from _resolve_looppart(self.iter.infer(context), assign_path, context)
- return dict(node=self, unknown=node, assign_path=assign_path, context=context)
-
-
-nodes.For.assigned_stmts = for_assigned_stmts
-nodes.Comprehension.assigned_stmts = for_assigned_stmts
-
-
-def sequence_assigned_stmts(self, node=None, context=None, assign_path=None):
- if assign_path is None:
- assign_path = []
- try:
- index = self.elts.index(node)
- except ValueError as exc:
- raise exceptions.InferenceError(
- "Tried to retrieve a node {node!r} which does not exist",
- node=self,
- assign_path=assign_path,
- context=context,
- ) from exc
-
- assign_path.insert(0, index)
- return self.parent.assigned_stmts(
- node=self, context=context, assign_path=assign_path
- )
-
-
-nodes.Tuple.assigned_stmts = sequence_assigned_stmts
-nodes.List.assigned_stmts = sequence_assigned_stmts
-
-
-def assend_assigned_stmts(self, node=None, context=None, assign_path=None):
- return self.parent.assigned_stmts(node=self, context=context)
-
-
-nodes.AssignName.assigned_stmts = assend_assigned_stmts
-nodes.AssignAttr.assigned_stmts = assend_assigned_stmts
-
-
-def _arguments_infer_argname(self, name, context):
- # arguments information may be missing, in which case we can't do anything
- # more
- if not (self.args or self.vararg or self.kwarg):
- yield util.Uninferable
- return
- # first argument of instance/class method
- if self.args and getattr(self.args[0], "name", None) == name:
- functype = self.parent.type
- cls = self.parent.parent.scope()
- is_metaclass = isinstance(cls, nodes.ClassDef) and cls.type == "metaclass"
- # If this is a metaclass, then the first argument will always
- # be the class, not an instance.
- if is_metaclass or functype == "classmethod":
- yield cls
- return
- if functype == "method":
- yield bases.Instance(cls)
- return
-
- if context and context.callcontext:
- call_site = arguments.CallSite(context.callcontext, context.extra_context)
- yield from call_site.infer_argument(self.parent, name, context)
- return
-
- if name == self.vararg:
- vararg = nodes.const_factory(())
- vararg.parent = self
- yield vararg
- return
- if name == self.kwarg:
- kwarg = nodes.const_factory({})
- kwarg.parent = self
- yield kwarg
- return
- # if there is a default value, yield it. And then yield Uninferable to reflect
- # we can't guess given argument value
- try:
- context = contextmod.copy_context(context)
- yield from self.default_value(name).infer(context)
- yield util.Uninferable
- except exceptions.NoDefault:
- yield util.Uninferable
-
-
-def arguments_assigned_stmts(self, node=None, context=None, assign_path=None):
- if context.callcontext:
- # reset call context/name
- callcontext = context.callcontext
- context = contextmod.copy_context(context)
- context.callcontext = None
- args = arguments.CallSite(callcontext)
- return args.infer_argument(self.parent, node.name, context)
- return _arguments_infer_argname(self, node.name, context)
-
-
-nodes.Arguments.assigned_stmts = arguments_assigned_stmts
-
-
-@decorators.raise_if_nothing_inferred
-def assign_assigned_stmts(self, node=None, context=None, assign_path=None):
- if not assign_path:
- yield self.value
- return None
- yield from _resolve_assignment_parts(
- self.value.infer(context), assign_path, context
- )
-
- return dict(node=self, unknown=node, assign_path=assign_path, context=context)
-
-
-def assign_annassigned_stmts(self, node=None, context=None, assign_path=None):
- for inferred in assign_assigned_stmts(self, node, context, assign_path):
- if inferred is None:
- yield util.Uninferable
- else:
- yield inferred
-
-
-nodes.Assign.assigned_stmts = assign_assigned_stmts
-nodes.AnnAssign.assigned_stmts = assign_annassigned_stmts
-nodes.AugAssign.assigned_stmts = assign_assigned_stmts
-
-
-def _resolve_assignment_parts(parts, assign_path, context):
- """recursive function to resolve multiple assignments"""
- assign_path = assign_path[:]
- index = assign_path.pop(0)
- for part in parts:
- assigned = None
- if isinstance(part, nodes.Dict):
- # A dictionary in an iterating context
- try:
- assigned, _ = part.items[index]
- except IndexError:
- return
-
- elif hasattr(part, "getitem"):
- index_node = nodes.Const(index)
- try:
- assigned = part.getitem(index_node, context)
- except (exceptions.AstroidTypeError, exceptions.AstroidIndexError):
- return
-
- if not assigned:
- return
-
- if not assign_path:
- # we achieved to resolved the assignment path, don't infer the
- # last part
- yield assigned
- elif assigned is util.Uninferable:
- return
- else:
- # we are not yet on the last part of the path search on each
- # possibly inferred value
- try:
- yield from _resolve_assignment_parts(
- assigned.infer(context), assign_path, context
- )
- except exceptions.InferenceError:
- return
-
-
-@decorators.raise_if_nothing_inferred
-def excepthandler_assigned_stmts(self, node=None, context=None, assign_path=None):
- for assigned in node_classes.unpack_infer(self.type):
- if isinstance(assigned, nodes.ClassDef):
- assigned = objects.ExceptionInstance(assigned)
-
- yield assigned
- return dict(node=self, unknown=node, assign_path=assign_path, context=context)
-
-
-nodes.ExceptHandler.assigned_stmts = excepthandler_assigned_stmts
-
-
-def _infer_context_manager(self, mgr, context):
- inferred = next(mgr.infer(context=context))
- if isinstance(inferred, bases.Generator):
- # Check if it is decorated with contextlib.contextmanager.
- func = inferred.parent
- if not func.decorators:
- raise exceptions.InferenceError(
- "No decorators found on inferred generator %s", node=func
- )
-
- for decorator_node in func.decorators.nodes:
- decorator = next(decorator_node.infer(context))
- if isinstance(decorator, nodes.FunctionDef):
- if decorator.qname() == _CONTEXTLIB_MGR:
- break
- else:
- # It doesn't interest us.
- raise exceptions.InferenceError(node=func)
-
- # Get the first yield point. If it has multiple yields,
- # then a RuntimeError will be raised.
-
- possible_yield_points = func.nodes_of_class(nodes.Yield)
- # Ignore yields in nested functions
- yield_point = next(
- (node for node in possible_yield_points if node.scope() == func), None
- )
- if yield_point:
- if not yield_point.value:
- const = nodes.Const(None)
- const.parent = yield_point
- const.lineno = yield_point.lineno
- yield const
- else:
- yield from yield_point.value.infer(context=context)
- elif isinstance(inferred, bases.Instance):
- try:
- enter = next(inferred.igetattr("__enter__", context=context))
- except (exceptions.InferenceError, exceptions.AttributeInferenceError):
- raise exceptions.InferenceError(node=inferred)
- if not isinstance(enter, bases.BoundMethod):
- raise exceptions.InferenceError(node=enter)
- yield from enter.infer_call_result(self, context)
- else:
- raise exceptions.InferenceError(node=mgr)
-
-
-@decorators.raise_if_nothing_inferred
-def with_assigned_stmts(self, node=None, context=None, assign_path=None):
- """Infer names and other nodes from a *with* statement.
-
- This enables only inference for name binding in a *with* statement.
- For instance, in the following code, inferring `func` will return
- the `ContextManager` class, not whatever ``__enter__`` returns.
- We are doing this intentionally, because we consider that the context
- manager result is whatever __enter__ returns and what it is binded
- using the ``as`` keyword.
-
- class ContextManager(object):
- def __enter__(self):
- return 42
- with ContextManager() as f:
- pass
-
- # ContextManager().infer() will return ContextManager
- # f.infer() will return 42.
-
- Arguments:
- self: nodes.With
- node: The target of the assignment, `as (a, b)` in `with foo as (a, b)`.
- context: Inference context used for caching already inferred objects
- assign_path:
- A list of indices, where each index specifies what item to fetch from
- the inference results.
- """
- try:
- mgr = next(mgr for (mgr, vars) in self.items if vars == node)
- except StopIteration:
- return None
- if assign_path is None:
- yield from _infer_context_manager(self, mgr, context)
- else:
- for result in _infer_context_manager(self, mgr, context):
- # Walk the assign_path and get the item at the final index.
- obj = result
- for index in assign_path:
- if not hasattr(obj, "elts"):
- raise exceptions.InferenceError(
- "Wrong type ({targets!r}) for {node!r} assignment",
- node=self,
- targets=node,
- assign_path=assign_path,
- context=context,
- )
- try:
- obj = obj.elts[index]
- except IndexError as exc:
- raise exceptions.InferenceError(
- "Tried to infer a nonexistent target with index {index} "
- "in {node!r}.",
- node=self,
- targets=node,
- assign_path=assign_path,
- context=context,
- ) from exc
- except TypeError as exc:
- raise exceptions.InferenceError(
- "Tried to unpack a non-iterable value " "in {node!r}.",
- node=self,
- targets=node,
- assign_path=assign_path,
- context=context,
- ) from exc
- yield obj
- return dict(node=self, unknown=node, assign_path=assign_path, context=context)
-
-
-nodes.With.assigned_stmts = with_assigned_stmts
-
-
-@decorators.raise_if_nothing_inferred
-def named_expr_assigned_stmts(self, node, context=None, assign_path=None):
- """Infer names and other nodes from an assignment expression"""
- if self.target == node:
- yield from self.value.infer(context=context)
- else:
- raise exceptions.InferenceError(
- "Cannot infer NamedExpr node {node!r}",
- node=self,
- assign_path=assign_path,
- context=context,
- )
-
-
-nodes.NamedExpr.assigned_stmts = named_expr_assigned_stmts
-
-
-@decorators.yes_if_nothing_inferred
-def starred_assigned_stmts(self, node=None, context=None, assign_path=None):
- """
- Arguments:
- self: nodes.Starred
- node: a node related to the current underlying Node.
- context: Inference context used for caching already inferred objects
- assign_path:
- A list of indices, where each index specifies what item to fetch from
- the inference results.
- """
- # pylint: disable=too-many-locals,too-many-branches,too-many-statements
- def _determine_starred_iteration_lookups(starred, target, lookups):
- # Determine the lookups for the rhs of the iteration
- itered = target.itered()
- for index, element in enumerate(itered):
- if (
- isinstance(element, nodes.Starred)
- and element.value.name == starred.value.name
- ):
- lookups.append((index, len(itered)))
- break
- if isinstance(element, nodes.Tuple):
- lookups.append((index, len(element.itered())))
- _determine_starred_iteration_lookups(starred, element, lookups)
-
- stmt = self.statement()
- if not isinstance(stmt, (nodes.Assign, nodes.For)):
- raise exceptions.InferenceError(
- "Statement {stmt!r} enclosing {node!r} " "must be an Assign or For node.",
- node=self,
- stmt=stmt,
- unknown=node,
- context=context,
- )
-
- if context is None:
- context = contextmod.InferenceContext()
-
- if isinstance(stmt, nodes.Assign):
- value = stmt.value
- lhs = stmt.targets[0]
-
- if sum(1 for _ in lhs.nodes_of_class(nodes.Starred)) > 1:
- raise exceptions.InferenceError(
- "Too many starred arguments in the " " assignment targets {lhs!r}.",
- node=self,
- targets=lhs,
- unknown=node,
- context=context,
- )
-
- try:
- rhs = next(value.infer(context))
- except exceptions.InferenceError:
- yield util.Uninferable
- return
- if rhs is util.Uninferable or not hasattr(rhs, "itered"):
- yield util.Uninferable
- return
-
- try:
- elts = collections.deque(rhs.itered())
- except TypeError:
- yield util.Uninferable
- return
-
- # Unpack iteratively the values from the rhs of the assignment,
- # until the find the starred node. What will remain will
- # be the list of values which the Starred node will represent
- # This is done in two steps, from left to right to remove
- # anything before the starred node and from right to left
- # to remove anything after the starred node.
-
- for index, left_node in enumerate(lhs.elts):
- if not isinstance(left_node, nodes.Starred):
- if not elts:
- break
- elts.popleft()
- continue
- lhs_elts = collections.deque(reversed(lhs.elts[index:]))
- for right_node in lhs_elts:
- if not isinstance(right_node, nodes.Starred):
- if not elts:
- break
- elts.pop()
- continue
- # We're done
- packed = nodes.List(
- ctx=Store, parent=self, lineno=lhs.lineno, col_offset=lhs.col_offset
- )
- packed.postinit(elts=elts)
- yield packed
- break
-
- if isinstance(stmt, nodes.For):
- try:
- inferred_iterable = next(stmt.iter.infer(context=context))
- except exceptions.InferenceError:
- yield util.Uninferable
- return
- if inferred_iterable is util.Uninferable or not hasattr(
- inferred_iterable, "itered"
- ):
- yield util.Uninferable
- return
- try:
- itered = inferred_iterable.itered()
- except TypeError:
- yield util.Uninferable
- return
-
- target = stmt.target
-
- if not isinstance(target, nodes.Tuple):
- raise exceptions.InferenceError(
- "Could not make sense of this, the target must be a tuple",
- context=context,
- )
-
- lookups = []
- _determine_starred_iteration_lookups(self, target, lookups)
- if not lookups:
- raise exceptions.InferenceError(
- "Could not make sense of this, needs at least a lookup", context=context
- )
-
- # Make the last lookup a slice, since that what we want for a Starred node
- last_element_index, last_element_length = lookups[-1]
- is_starred_last = last_element_index == (last_element_length - 1)
-
- lookup_slice = slice(
- last_element_index,
- None if is_starred_last else (last_element_length - last_element_index),
- )
- lookups[-1] = lookup_slice
-
- for element in itered:
-
- # We probably want to infer the potential values *for each* element in an
- # iterable, but we can't infer a list of all values, when only a list of
- # step values are expected:
- #
- # for a, *b in [...]:
- # b
- #
- # *b* should now point to just the elements at that particular iteration step,
- # which astroid can't know about.
-
- found_element = None
- for lookup in lookups:
- if not hasattr(element, "itered"):
- break
- if not isinstance(lookup, slice):
- # Grab just the index, not the whole length
- lookup = lookup[0]
- try:
- itered_inner_element = element.itered()
- element = itered_inner_element[lookup]
- except IndexError:
- break
- except TypeError:
- # Most likely the itered() call failed, cannot make sense of this
- yield util.Uninferable
- return
- else:
- found_element = element
-
- unpacked = nodes.List(
- ctx=Store, parent=self, lineno=self.lineno, col_offset=self.col_offset
- )
- unpacked.postinit(elts=found_element or [])
- yield unpacked
- return
-
- yield util.Uninferable
-
-
-nodes.Starred.assigned_stmts = starred_assigned_stmts