def goto_stub_definitions(self, context, name): def_ = name.get_definition(import_name_always=True) if def_ is not None: type_ = def_.type is_classdef = type_ == 'classdef' if is_classdef or type_ == 'funcdef': if is_classdef: c = ClassContext(self, context, name.parent) else: c = FunctionContext.from_context(context, name.parent) return ContextSet([c]) if type_ == 'expr_stmt': is_simple_name = name.parent.type not in ('power', 'trailer') if is_simple_name: return eval_expr_stmt(context, def_, name) if type_ == 'for_stmt': container_types = context.eval_node(def_.children[3]) cn = ContextualizedNode(context, def_.children[3]) for_types = iterate_contexts(container_types, cn) c_node = ContextualizedName(context, name) return check_tuple_assignments(self, c_node, for_types) if type_ in ('import_from', 'import_name'): return imports.infer_import(context, name) else: result = self._follow_error_node_imports_if_possible(context, name) if result is not None: return result return helpers.evaluate_call_of_leaf(context, name)
def goto_definitions(self, context, name): def_ = name.get_definition(import_name_always=True) if def_ is not None: type_ = def_.type if type_ == 'classdef': return [ClassContext(self, context, name.parent)] elif type_ == 'funcdef': return [FunctionContext(self, context, name.parent)] if type_ == 'expr_stmt': is_simple_name = name.parent.type not in ('power', 'trailer') if is_simple_name: return eval_expr_stmt(context, def_, name) if type_ == 'for_stmt': container_types = context.eval_node(def_.children[3]) cn = ContextualizedNode(context, def_.children[3]) for_types = iterate_contexts(container_types, cn) c_node = ContextualizedName(context, name) return check_tuple_assignments(self, c_node, for_types) if type_ in ('import_from', 'import_name'): return imports.infer_import(context, name) return helpers.evaluate_call_of_leaf(context, name)