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Filename :
brain_functools.py
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# Licensed under the LGPL: https://www.gnu.org/licenses/old-licenses/lgpl-2.1.en.html # For details: https://github.com/PyCQA/astroid/blob/main/LICENSE # Copyright (c) https://github.com/PyCQA/astroid/blob/main/CONTRIBUTORS.txt """Astroid hooks for understanding functools library module.""" from __future__ import annotations from collections.abc import Iterator from functools import partial from itertools import chain from astroid import BoundMethod, arguments, extract_node, helpers, nodes, objects from astroid.context import InferenceContext from astroid.exceptions import InferenceError, UseInferenceDefault from astroid.inference_tip import inference_tip from astroid.interpreter import objectmodel from astroid.manager import AstroidManager from astroid.nodes.node_classes import AssignName, Attribute, Call, Name from astroid.nodes.scoped_nodes import FunctionDef from astroid.util import UninferableBase LRU_CACHE = "functools.lru_cache" class LruWrappedModel(objectmodel.FunctionModel): """Special attribute model for functions decorated with functools.lru_cache. The said decorators patches at decoration time some functions onto the decorated function. """ @property def attr___wrapped__(self): return self._instance @property def attr_cache_info(self): cache_info = extract_node( """ from functools import _CacheInfo _CacheInfo(0, 0, 0, 0) """ ) class CacheInfoBoundMethod(BoundMethod): def infer_call_result( self, caller, context: InferenceContext | None = None ): yield helpers.safe_infer(cache_info) return CacheInfoBoundMethod(proxy=self._instance, bound=self._instance) @property def attr_cache_clear(self): node = extract_node("""def cache_clear(self): pass""") return BoundMethod(proxy=node, bound=self._instance.parent.scope()) def _transform_lru_cache(node, context: InferenceContext | None = None) -> None: # TODO: this is not ideal, since the node should be immutable, # but due to https://github.com/PyCQA/astroid/issues/354, # there's not much we can do now. # Replacing the node would work partially, because, # in pylint, the old node would still be available, leading # to spurious false positives. node.special_attributes = LruWrappedModel()(node) def _functools_partial_inference( node: nodes.Call, context: InferenceContext | None = None ) -> Iterator[objects.PartialFunction]: call = arguments.CallSite.from_call(node, context=context) number_of_positional = len(call.positional_arguments) if number_of_positional < 1: raise UseInferenceDefault("functools.partial takes at least one argument") if number_of_positional == 1 and not call.keyword_arguments: raise UseInferenceDefault( "functools.partial needs at least to have some filled arguments" ) partial_function = call.positional_arguments[0] try: inferred_wrapped_function = next(partial_function.infer(context=context)) except (InferenceError, StopIteration) as exc: raise UseInferenceDefault from exc if isinstance(inferred_wrapped_function, UninferableBase): raise UseInferenceDefault("Cannot infer the wrapped function") if not isinstance(inferred_wrapped_function, FunctionDef): raise UseInferenceDefault("The wrapped function is not a function") # Determine if the passed keywords into the callsite are supported # by the wrapped function. if not inferred_wrapped_function.args: function_parameters = [] else: function_parameters = chain( inferred_wrapped_function.args.args or (), inferred_wrapped_function.args.posonlyargs or (), inferred_wrapped_function.args.kwonlyargs or (), ) parameter_names = { param.name for param in function_parameters if isinstance(param, AssignName) } if set(call.keyword_arguments) - parameter_names: raise UseInferenceDefault("wrapped function received unknown parameters") partial_function = objects.PartialFunction( call, name=inferred_wrapped_function.name, lineno=inferred_wrapped_function.lineno, col_offset=inferred_wrapped_function.col_offset, parent=node.parent, ) partial_function.postinit( args=inferred_wrapped_function.args, body=inferred_wrapped_function.body, decorators=inferred_wrapped_function.decorators, returns=inferred_wrapped_function.returns, type_comment_returns=inferred_wrapped_function.type_comment_returns, type_comment_args=inferred_wrapped_function.type_comment_args, doc_node=inferred_wrapped_function.doc_node, ) return iter((partial_function,)) def _looks_like_lru_cache(node) -> bool: """Check if the given function node is decorated with lru_cache.""" if not node.decorators: return False for decorator in node.decorators.nodes: if not isinstance(decorator, Call): continue if _looks_like_functools_member(decorator, "lru_cache"): return True return False def _looks_like_functools_member(node, member) -> bool: """Check if the given Call node is a functools.partial call.""" if isinstance(node.func, Name): return node.func.name == member if isinstance(node.func, Attribute): return ( node.func.attrname == member and isinstance(node.func.expr, Name) and node.func.expr.name == "functools" ) return False _looks_like_partial = partial(_looks_like_functools_member, member="partial") AstroidManager().register_transform( FunctionDef, _transform_lru_cache, _looks_like_lru_cache ) AstroidManager().register_transform( Call, inference_tip(_functools_partial_inference), _looks_like_partial, )