471 lines
18 KiB
Python
471 lines
18 KiB
Python
from parso.python import tree
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from jedi._compatibility import use_metaclass
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from jedi import debug
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from jedi.inference.cache import inference_state_method_cache, CachedMetaClass
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from jedi.inference import compiled
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from jedi.inference import recursion
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from jedi.inference import docstrings
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from jedi.inference import flow_analysis
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from jedi.inference.signature import TreeSignature
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from jedi.inference.filters import ParserTreeFilter, FunctionExecutionFilter, \
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AnonymousFunctionExecutionFilter
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from jedi.inference.names import ValueName, AbstractNameDefinition, \
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AnonymousParamName, ParamName, NameWrapper
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from jedi.inference.base_value import ContextualizedNode, NO_VALUES, \
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ValueSet, TreeValue, ValueWrapper
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from jedi.inference.lazy_value import LazyKnownValues, LazyKnownValue, \
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LazyTreeValue
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from jedi.inference.context import ValueContext, TreeContextMixin
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from jedi.inference.value import iterable
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from jedi import parser_utils
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from jedi.inference.parser_cache import get_yield_exprs
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from jedi.inference.helpers import values_from_qualified_names
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from jedi.inference.gradual.generics import TupleGenericManager
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class LambdaName(AbstractNameDefinition):
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string_name = '<lambda>'
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api_type = u'function'
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def __init__(self, lambda_value):
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self._lambda_value = lambda_value
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self.parent_context = lambda_value.parent_context
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@property
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def start_pos(self):
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return self._lambda_value.tree_node.start_pos
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def infer(self):
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return ValueSet([self._lambda_value])
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class FunctionAndClassBase(TreeValue):
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def get_qualified_names(self):
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if self.parent_context.is_class():
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n = self.parent_context.get_qualified_names()
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if n is None:
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# This means that the parent class lives within a function.
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return None
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return n + (self.py__name__(),)
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elif self.parent_context.is_module():
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return (self.py__name__(),)
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else:
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return None
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class FunctionMixin(object):
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api_type = u'function'
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def get_filters(self, origin_scope=None):
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cls = self.py__class__()
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for instance in cls.execute_with_values():
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for filter in instance.get_filters(origin_scope=origin_scope):
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yield filter
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def py__get__(self, instance, class_value):
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from jedi.inference.value.instance import BoundMethod
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if instance is None:
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# Calling the Foo.bar results in the original bar function.
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return ValueSet([self])
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return ValueSet([BoundMethod(instance, class_value.as_context(), self)])
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def get_param_names(self):
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return [AnonymousParamName(self, param.name)
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for param in self.tree_node.get_params()]
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@property
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def name(self):
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if self.tree_node.type == 'lambdef':
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return LambdaName(self)
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return ValueName(self, self.tree_node.name)
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def is_function(self):
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return True
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def py__name__(self):
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return self.name.string_name
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def get_type_hint(self, add_class_info=True):
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return_annotation = self.tree_node.annotation
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if return_annotation is None:
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def param_name_to_str(n):
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s = n.string_name
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annotation = n.infer().get_type_hint()
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if annotation is not None:
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s += ': ' + annotation
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if n.default_node is not None:
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s += '=' + n.default_node.get_code(include_prefix=False)
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return s
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function_execution = self.as_context()
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result = function_execution.infer()
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return_hint = result.get_type_hint()
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body = self.py__name__() + '(%s)' % ', '.join([
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param_name_to_str(n)
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for n in function_execution.get_param_names()
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])
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if return_hint is None:
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return body
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else:
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return_hint = return_annotation.get_code(include_prefix=False)
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body = self.py__name__() + self.tree_node.children[2].get_code(include_prefix=False)
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return body + ' -> ' + return_hint
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def py__call__(self, arguments):
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function_execution = self.as_context(arguments)
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return function_execution.infer()
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def _as_context(self, arguments=None):
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if arguments is None:
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return AnonymousFunctionExecution(self)
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return FunctionExecutionContext(self, arguments)
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def get_signatures(self):
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return [TreeSignature(f) for f in self.get_signature_functions()]
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class FunctionValue(use_metaclass(CachedMetaClass, FunctionMixin, FunctionAndClassBase)):
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@classmethod
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def from_context(cls, context, tree_node):
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def create(tree_node):
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if context.is_class():
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return MethodValue(
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context.inference_state,
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context,
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parent_context=parent_context,
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tree_node=tree_node
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)
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else:
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return cls(
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context.inference_state,
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parent_context=parent_context,
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tree_node=tree_node
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)
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overloaded_funcs = list(_find_overload_functions(context, tree_node))
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parent_context = context
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while parent_context.is_class() or parent_context.is_instance():
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parent_context = parent_context.parent_context
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function = create(tree_node)
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if overloaded_funcs:
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return OverloadedFunctionValue(
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function,
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# Get them into the correct order: lower line first.
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list(reversed([create(f) for f in overloaded_funcs]))
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)
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return function
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def py__class__(self):
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c, = values_from_qualified_names(self.inference_state, u'types', u'FunctionType')
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return c
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def get_default_param_context(self):
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return self.parent_context
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def get_signature_functions(self):
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return [self]
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class FunctionNameInClass(NameWrapper):
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def __init__(self, class_context, name):
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super(FunctionNameInClass, self).__init__(name)
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self._class_context = class_context
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def get_defining_qualified_value(self):
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return self._class_context.get_value() # Might be None.
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class MethodValue(FunctionValue):
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def __init__(self, inference_state, class_context, *args, **kwargs):
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super(MethodValue, self).__init__(inference_state, *args, **kwargs)
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self.class_context = class_context
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def get_default_param_context(self):
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return self.class_context
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def get_qualified_names(self):
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# Need to implement this, because the parent value of a method
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# value is not the class value but the module.
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names = self.class_context.get_qualified_names()
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if names is None:
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return None
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return names + (self.py__name__(),)
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@property
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def name(self):
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return FunctionNameInClass(self.class_context, super(MethodValue, self).name)
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class BaseFunctionExecutionContext(ValueContext, TreeContextMixin):
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def _infer_annotations(self):
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raise NotImplementedError
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@inference_state_method_cache(default=NO_VALUES)
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@recursion.execution_recursion_decorator()
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def get_return_values(self, check_yields=False):
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funcdef = self.tree_node
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if funcdef.type == 'lambdef':
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return self.infer_node(funcdef.children[-1])
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if check_yields:
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value_set = NO_VALUES
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returns = get_yield_exprs(self.inference_state, funcdef)
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else:
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value_set = self._infer_annotations()
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if value_set:
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# If there are annotations, prefer them over anything else.
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# This will make it faster.
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return value_set
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value_set |= docstrings.infer_return_types(self._value)
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returns = funcdef.iter_return_stmts()
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for r in returns:
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if check_yields:
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value_set |= ValueSet.from_sets(
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lazy_value.infer()
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for lazy_value in self._get_yield_lazy_value(r)
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)
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else:
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check = flow_analysis.reachability_check(self, funcdef, r)
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if check is flow_analysis.UNREACHABLE:
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debug.dbg('Return unreachable: %s', r)
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else:
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try:
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children = r.children
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except AttributeError:
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ctx = compiled.builtin_from_name(self.inference_state, u'None')
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value_set |= ValueSet([ctx])
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else:
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value_set |= self.infer_node(children[1])
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if check is flow_analysis.REACHABLE:
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debug.dbg('Return reachable: %s', r)
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break
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return value_set
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def _get_yield_lazy_value(self, yield_expr):
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if yield_expr.type == 'keyword':
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# `yield` just yields None.
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ctx = compiled.builtin_from_name(self.inference_state, u'None')
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yield LazyKnownValue(ctx)
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return
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node = yield_expr.children[1]
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if node.type == 'yield_arg': # It must be a yield from.
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cn = ContextualizedNode(self, node.children[1])
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for lazy_value in cn.infer().iterate(cn):
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yield lazy_value
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else:
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yield LazyTreeValue(self, node)
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@recursion.execution_recursion_decorator(default=iter([]))
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def get_yield_lazy_values(self, is_async=False):
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# TODO: if is_async, wrap yield statements in Awaitable/async_generator_asend
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for_parents = [(y, tree.search_ancestor(y, 'for_stmt', 'funcdef',
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'while_stmt', 'if_stmt'))
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for y in get_yield_exprs(self.inference_state, self.tree_node)]
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# Calculate if the yields are placed within the same for loop.
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yields_order = []
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last_for_stmt = None
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for yield_, for_stmt in for_parents:
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# For really simple for loops we can predict the order. Otherwise
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# we just ignore it.
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parent = for_stmt.parent
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if parent.type == 'suite':
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parent = parent.parent
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if for_stmt.type == 'for_stmt' and parent == self.tree_node \
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and parser_utils.for_stmt_defines_one_name(for_stmt): # Simplicity for now.
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if for_stmt == last_for_stmt:
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yields_order[-1][1].append(yield_)
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else:
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yields_order.append((for_stmt, [yield_]))
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elif for_stmt == self.tree_node:
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yields_order.append((None, [yield_]))
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else:
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types = self.get_return_values(check_yields=True)
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if types:
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yield LazyKnownValues(types, min=0, max=float('inf'))
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return
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last_for_stmt = for_stmt
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for for_stmt, yields in yields_order:
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if for_stmt is None:
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# No for_stmt, just normal yields.
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for yield_ in yields:
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for result in self._get_yield_lazy_value(yield_):
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yield result
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else:
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input_node = for_stmt.get_testlist()
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cn = ContextualizedNode(self, input_node)
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ordered = cn.infer().iterate(cn)
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ordered = list(ordered)
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for lazy_value in ordered:
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dct = {str(for_stmt.children[1].value): lazy_value.infer()}
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with self.predefine_names(for_stmt, dct):
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for yield_in_same_for_stmt in yields:
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for result in self._get_yield_lazy_value(yield_in_same_for_stmt):
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yield result
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def merge_yield_values(self, is_async=False):
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return ValueSet.from_sets(
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lazy_value.infer()
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for lazy_value in self.get_yield_lazy_values()
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)
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def is_generator(self):
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return bool(get_yield_exprs(self.inference_state, self.tree_node))
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def infer(self):
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"""
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Created to be used by inheritance.
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"""
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inference_state = self.inference_state
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is_coroutine = self.tree_node.parent.type in ('async_stmt', 'async_funcdef')
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from jedi.inference.gradual.base import GenericClass
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if is_coroutine:
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if self.is_generator():
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if inference_state.environment.version_info < (3, 6):
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return NO_VALUES
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async_generator_classes = inference_state.typing_module \
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.py__getattribute__('AsyncGenerator')
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yield_values = self.merge_yield_values(is_async=True)
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# The contravariant doesn't seem to be defined.
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generics = (yield_values.py__class__(), NO_VALUES)
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return ValueSet(
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# In Python 3.6 AsyncGenerator is still a class.
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GenericClass(c, TupleGenericManager(generics))
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for c in async_generator_classes
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).execute_annotation()
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else:
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if inference_state.environment.version_info < (3, 5):
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return NO_VALUES
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async_classes = inference_state.typing_module.py__getattribute__('Coroutine')
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return_values = self.get_return_values()
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# Only the first generic is relevant.
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generics = (return_values.py__class__(), NO_VALUES, NO_VALUES)
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return ValueSet(
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GenericClass(c, TupleGenericManager(generics)) for c in async_classes
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).execute_annotation()
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else:
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if self.is_generator():
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return ValueSet([iterable.Generator(inference_state, self)])
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else:
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return self.get_return_values()
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class FunctionExecutionContext(BaseFunctionExecutionContext):
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def __init__(self, function_value, arguments):
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super(FunctionExecutionContext, self).__init__(function_value)
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self._arguments = arguments
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def get_filters(self, until_position=None, origin_scope=None):
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yield FunctionExecutionFilter(
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self, self._value,
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until_position=until_position,
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origin_scope=origin_scope,
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arguments=self._arguments
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)
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def _infer_annotations(self):
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from jedi.inference.gradual.annotation import infer_return_types
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return infer_return_types(self._value, self._arguments)
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def get_param_names(self):
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return [
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ParamName(self._value, param.name, self._arguments)
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for param in self._value.tree_node.get_params()
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]
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class AnonymousFunctionExecution(BaseFunctionExecutionContext):
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def _infer_annotations(self):
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# I don't think inferring anonymous executions is a big thing.
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# Anonymous contexts are mostly there for the user to work in. ~ dave
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return NO_VALUES
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def get_filters(self, until_position=None, origin_scope=None):
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yield AnonymousFunctionExecutionFilter(
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self, self._value,
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until_position=until_position,
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origin_scope=origin_scope,
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)
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def get_param_names(self):
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return self._value.get_param_names()
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class OverloadedFunctionValue(FunctionMixin, ValueWrapper):
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def __init__(self, function, overloaded_functions):
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super(OverloadedFunctionValue, self).__init__(function)
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self._overloaded_functions = overloaded_functions
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def py__call__(self, arguments):
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debug.dbg("Execute overloaded function %s", self._wrapped_value, color='BLUE')
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function_executions = []
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for signature in self.get_signatures():
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function_execution = signature.value.as_context(arguments)
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function_executions.append(function_execution)
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if signature.matches_signature(arguments):
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return function_execution.infer()
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if self.inference_state.is_analysis:
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# In this case we want precision.
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return NO_VALUES
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return ValueSet.from_sets(fe.infer() for fe in function_executions)
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def get_signature_functions(self):
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return self._overloaded_functions
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def get_type_hint(self, add_class_info=True):
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return 'Union[%s]' % ', '.join(f.get_type_hint() for f in self._overloaded_functions)
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def _find_overload_functions(context, tree_node):
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def _is_overload_decorated(funcdef):
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if funcdef.parent.type == 'decorated':
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decorators = funcdef.parent.children[0]
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if decorators.type == 'decorator':
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decorators = [decorators]
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else:
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decorators = decorators.children
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for decorator in decorators:
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dotted_name = decorator.children[1]
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if dotted_name.type == 'name' and dotted_name.value == 'overload':
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# TODO check with values if it's the right overload
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return True
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return False
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if tree_node.type == 'lambdef':
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return
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if _is_overload_decorated(tree_node):
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yield tree_node
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while True:
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filter = ParserTreeFilter(
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context,
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until_position=tree_node.start_pos
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)
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names = filter.get(tree_node.name.value)
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assert isinstance(names, list)
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if not names:
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break
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found = False
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for name in names:
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funcdef = name.tree_name.parent
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if funcdef.type == 'funcdef' and _is_overload_decorated(funcdef):
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tree_node = funcdef
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found = True
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yield funcdef
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if not found:
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break
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