def visit_var(self, node: Var) -> Var: # Note that a Var must be transformed to a Var. if node in self.var_map: return self.var_map[node] new = Var(node.name(), self.optional_type(node.type)) new.line = node.line new._fullname = node._fullname new.info = node.info new.is_self = node.is_self new.is_ready = node.is_ready new.is_initialized_in_class = node.is_initialized_in_class new.is_staticmethod = node.is_staticmethod new.is_property = node.is_property new.set_line(node.line) self.var_map[node] = new return new
def add_method( ctx: ClassDefContext, name: str, args: List[Argument], return_type: Type, self_type: Optional[Type] = None, tvar_def: Optional[TypeVarDef] = None, is_classmethod: bool = False, is_new: bool = False, is_staticmethod: bool = False, ) -> None: """ Adds a new method to a class. This can be dropped if/when https://github.com/python/mypy/issues/7301 is merged """ info = ctx.cls.info # First remove any previously generated methods with the same name # to avoid clashes and problems in the semantic analyzer. if name in info.names: sym = info.names[name] if sym.plugin_generated and isinstance(sym.node, FuncDef): ctx.cls.defs.body.remove(sym.node) self_type = self_type or fill_typevars(info) if is_classmethod or is_new: first = [ Argument(Var("_cls"), TypeType.make_normalized(self_type), None, ARG_POS) ] elif is_staticmethod: first = [] else: self_type = self_type or fill_typevars(info) first = [Argument(Var("self"), self_type, None, ARG_POS)] args = first + args arg_types, arg_names, arg_kinds = [], [], [] for arg in args: assert arg.type_annotation, "All arguments must be fully typed." arg_types.append(arg.type_annotation) arg_names.append(get_name(arg.variable)) arg_kinds.append(arg.kind) function_type = ctx.api.named_type("__builtins__.function") signature = CallableType(arg_types, arg_kinds, arg_names, return_type, function_type) if tvar_def: signature.variables = [tvar_def] func = FuncDef(name, args, Block([PassStmt()])) func.info = info func.type = set_callable_name(signature, func) func.is_class = is_classmethod func.is_static = is_staticmethod func._fullname = get_fullname(info) + "." + name func.line = info.line # NOTE: we would like the plugin generated node to dominate, but we still # need to keep any existing definitions so they get semantically analyzed. if name in info.names: # Get a nice unique name instead. r_name = get_unique_redefinition_name(name, info.names) info.names[r_name] = info.names[name] if is_classmethod or is_staticmethod: func.is_decorated = True v = Var(name, func.type) v.info = info v._fullname = func._fullname if is_classmethod: v.is_classmethod = True dec = Decorator(func, [NameExpr("classmethod")], v) else: v.is_staticmethod = True dec = Decorator(func, [NameExpr("staticmethod")], v) dec.line = info.line sym = SymbolTableNode(MDEF, dec) else: sym = SymbolTableNode(MDEF, func) sym.plugin_generated = True info.names[name] = sym info.defn.defs.body.append(func)