# Licensed under the GPL: https://www.gnu.org/licenses/old-licenses/gpl-2.0.html # For details: https://github.com/pylint-dev/pylint/blob/main/LICENSE # Copyright (c) https://github.com/pylint-dev/pylint/blob/main/CONTRIBUTORS.txt """Check for new / old style related problems.""" from __future__ import annotations from typing import TYPE_CHECKING import astroid from astroid import nodes from pylint.checkers import BaseChecker from pylint.checkers.utils import ( has_known_bases, node_frame_class, only_required_for_messages, ) from pylint.typing import MessageDefinitionTuple if TYPE_CHECKING: from pylint.lint import PyLinter MSGS: dict[str, MessageDefinitionTuple] = { "E1003": ( "Bad first argument %r given to super()", "bad-super-call", "Used when another argument than the current class is given as " "first argument of the super builtin.", ) } class NewStyleConflictChecker(BaseChecker): """Checks for usage of new style capabilities on old style classes and other new/old styles conflicts problems. * use of property, __slots__, super * "super" usage """ # configuration section name name = "newstyle" # messages msgs = MSGS # configuration options options = () @only_required_for_messages("bad-super-call") def visit_functiondef(self, node: nodes.FunctionDef) -> None: """Check use of super.""" # ignore actual functions or method within a new style class if not node.is_method(): return klass = node.parent.frame() for stmt in node.nodes_of_class(nodes.Call): if node_frame_class(stmt) != node_frame_class(node): # Don't look down in other scopes. continue expr = stmt.func if not isinstance(expr, nodes.Attribute): continue call = expr.expr # skip the test if using super if not ( isinstance(call, nodes.Call) and isinstance(call.func, nodes.Name) and call.func.name == "super" ): continue # super should not be used on an old style class if klass.newstyle or not has_known_bases(klass): # super first arg should not be the class if not call.args: continue # calling super(type(self), self) can lead to recursion loop # in derived classes arg0 = call.args[0] if ( isinstance(arg0, nodes.Call) and isinstance(arg0.func, nodes.Name) and arg0.func.name == "type" ): self.add_message("bad-super-call", node=call, args=("type",)) continue # calling super(self.__class__, self) can lead to recursion loop # in derived classes if ( len(call.args) >= 2 and isinstance(call.args[1], nodes.Name) and call.args[1].name == "self" and isinstance(arg0, nodes.Attribute) and arg0.attrname == "__class__" ): self.add_message( "bad-super-call", node=call, args=("self.__class__",) ) continue try: supcls = call.args and next(call.args[0].infer(), None) except astroid.InferenceError: continue # If the supcls is in the ancestors of klass super can be used to skip # a step in the mro() and get a method from a higher parent if klass is not supcls and all(i != supcls for i in klass.ancestors()): name = None # if supcls is not Uninferable, then supcls was inferred # and use its name. Otherwise, try to look # for call.args[0].name if supcls: name = supcls.name elif call.args and hasattr(call.args[0], "name"): name = call.args[0].name if name: self.add_message("bad-super-call", node=call, args=(name,)) visit_asyncfunctiondef = visit_functiondef def register(linter: PyLinter) -> None: linter.register_checker(NewStyleConflictChecker(linter))