def calculate_class_properties(graph: 'Graph', scc: List[str], errors: Errors) -> None: for module in scc: tree = graph[module].tree assert tree # TODO: calculate properties also for classes nested in functions. for _, node, _ in tree.local_definitions(): if isinstance(node.node, TypeInfo): calculate_class_abstract_status(node.node, tree.is_stub, errors) calculate_class_vars(node.node)
def calculate_class_properties(graph: 'Graph', scc: List[str], errors: Errors) -> None: for module in scc: tree = graph[module].tree assert tree for _, node, _ in tree.local_definitions(): if isinstance(node.node, TypeInfo): calculate_class_abstract_status(node.node, tree.is_stub, errors) calculate_class_vars(node.node)
def calculate_class_properties(graph: 'Graph', scc: List[str], errors: Errors) -> None: for module in scc: tree = graph[module].tree assert tree for _, node, _ in tree.local_definitions(): if isinstance(node.node, TypeInfo): saved = (module, node.node, None) # module, class, function with errors.scope.saved_scope(saved) if errors.scope else nothing(): calculate_class_abstract_status(node.node, tree.is_stub, errors) check_protocol_status(node.node, errors) calculate_class_vars(node.node) add_type_promotion(node.node, tree.names, graph[module].options)
def calculate_class_properties(graph: 'Graph', scc: List[str], errors: Errors) -> None: for module in scc: tree = graph[module].tree assert tree # TODO: calculate properties also for classes nested in functions. for _, node, _ in tree.local_definitions(): if isinstance(node.node, TypeInfo): saved = (module, node.node, None) # module, class, function with errors.scope.saved_scope(saved) if errors.scope else nothing(): calculate_class_abstract_status(node.node, tree.is_stub, errors) check_protocol_status(node.node, errors) calculate_class_vars(node.node) add_type_promotion(node.node, tree.names, graph[module].options)