Exemplo n.º 1
0
    def visit_FunctionDef(self, n: ast35.FunctionDef) -> Node:
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        arg_types = None  # type: List[Type]
        if n.type_comment is not None:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>',
                                            'func_type')
            except SyntaxError:
                raise TypeCommentParseError(TYPE_COMMENT_SYNTAX_ERROR,
                                            n.lineno)
            assert isinstance(func_type_ast, ast35.FunctionType)
            # for ellipsis arg
            if (len(func_type_ast.argtypes) == 1
                    and isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                arg_types = [
                    a.type_annotation
                    if a.type_annotation is not None else AnyType()
                    for a in args
                ]
            else:
                arg_types = [
                    a if a is not None else AnyType() for a in TypeConverter(
                        line=n.lineno).visit_list(func_type_ast.argtypes)
                ]
            return_type = TypeConverter(line=n.lineno).visit(
                func_type_ast.returns)

            # add implicit self type
            if self.in_class() and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(line=n.lineno).visit(n.returns)

        func_type = None
        if any(arg_types) or return_type:
            func_type = CallableType(
                [a if a is not None else AnyType()
                 for a in arg_types], arg_kinds, arg_names,
                return_type if return_type is not None else AnyType(), None)

        func_def = FuncDef(n.name, args, self.as_block(n.body, n.lineno),
                           func_type)
        if func_type is not None:
            func_type.definition = func_def

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.visit_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 2
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def _make_name_lvalue_var(lvalue: NameExpr, type: "mypy.types.Type",
                          ctx: ClassDefContext) -> Var:
    var = Var(lvalue.name, type)
    var.set_line(lvalue.line)
    var.is_ready = True
    var.info = ctx.cls.info
    return var
Exemplo n.º 3
0
    def visit_FunctionDef(self, n: ast35.FunctionDef) -> Node:
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        arg_types = None  # type: List[Type]
        if n.type_comment is not None:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>', 'func_type')
            except SyntaxError:
                raise TypeCommentParseError(TYPE_COMMENT_SYNTAX_ERROR, n.lineno)
            assert isinstance(func_type_ast, ast35.FunctionType)
            # for ellipsis arg
            if (len(func_type_ast.argtypes) == 1 and
                    isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                arg_types = [a.type_annotation if a.type_annotation is not None else AnyType()
                             for a in args]
            else:
                arg_types = [a if a is not None else AnyType() for
                            a in TypeConverter(line=n.lineno).visit_list(func_type_ast.argtypes)]
            return_type = TypeConverter(line=n.lineno).visit(func_type_ast.returns)

            # add implicit self type
            if self.in_class() and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(line=n.lineno).visit(n.returns)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            func_type = CallableType([a if a is not None else AnyType() for a in arg_types],
                                     arg_kinds,
                                     arg_names,
                                     return_type if return_type is not None else AnyType(),
                                     None)

        func_def = FuncDef(n.name,
                       args,
                       self.as_block(n.body, n.lineno),
                       func_type)
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.visit_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 4
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 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
Exemplo n.º 5
0
 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
Exemplo n.º 6
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    def visit_FunctionDef(self, n):
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        if n.type_comment is not None:
            func_type_ast = typed_ast.parse(n.type_comment, '<func_type>',
                                            'func_type')
            arg_types = [
                a if a is not None else AnyType() for a in TypeConverter(
                    line=n.lineno).visit(func_type_ast.argtypes)
            ]
            return_type = TypeConverter(line=n.lineno).visit(
                func_type_ast.returns)

            # add implicit self type
            if self.in_class and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(line=n.lineno).visit(n.returns)

        func_type = None
        if any(arg_types) or return_type:
            func_type = CallableType(
                [a if a is not None else AnyType()
                 for a in arg_types], arg_kinds, arg_names,
                return_type if return_type is not None else AnyType(), None)

        func_def = FuncDef(n.name, args, self.as_block(n.body, n.lineno),
                           func_type)
        if func_type is not None:
            func_type.definition = func_def

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.visit(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 7
0
    def visit_FunctionDef(self, n):
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        if n.type_comment is not None:
            func_type_ast = typed_ast.parse(n.type_comment, '<func_type>', 'func_type')
            arg_types = [a if a is not None else AnyType() for
                         a in TypeConverter(line=n.lineno).visit(func_type_ast.argtypes)]
            return_type = TypeConverter(line=n.lineno).visit(func_type_ast.returns)

            # add implicit self type
            if self.in_class and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(line=n.lineno).visit(n.returns)

        func_type = None
        if any(arg_types) or return_type:
            func_type = CallableType([a if a is not None else AnyType() for a in arg_types],
                                     arg_kinds,
                                     arg_names,
                                     return_type if return_type is not None else AnyType(),
                                     None)

        func_def = FuncDef(n.name,
                       args,
                       self.as_block(n.body, n.lineno),
                       func_type)
        if func_type is not None:
            func_type.definition = func_def

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.visit(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 8
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    def _adjust_interface_function(
        self,
        api: SemanticAnalyzerPluginInterface,
        class_info: TypeInfo,
        func_def: FuncDef,
    ) -> Statement:

        if func_def.arg_names and func_def.arg_names[0] == "self":
            # reveal the common mistake of leaving "self" arguments in the
            # interface
            api.fail("Interface methods should not have 'self' argument",
                     func_def)
        else:
            selftype = Instance(class_info, [],
                                line=class_info.line,
                                column=class_info.column)
            selfarg = Argument(Var("self", None), selftype, None, ARG_POS)

            if isinstance(func_def.type, CallableType):
                func_def.type.arg_names.insert(0, "self")
                func_def.type.arg_kinds.insert(0, ARG_POS)
                func_def.type.arg_types.insert(0, selftype)
            func_def.arg_names.insert(0, "self")
            func_def.arg_kinds.insert(0, ARG_POS)
            func_def.arguments.insert(0, selfarg)

        func_def.is_abstract = True
        if func_def.name() in ("__getattr__", "__getattribute__"):
            # These special methods cannot be decorated. Likely a mypy bug.
            return func_def
        func_def.is_decorated = True
        var = Var(func_def.name(), func_def.type)
        var.is_initialized_in_class = True
        var.info = func_def.info
        var.set_line(func_def.line)
        decor = Decorator(func_def, [], var)
        return decor
Exemplo n.º 9
0
    def do_func_def(self, n: Union[ast35.FunctionDef, ast35.AsyncFunctionDef],
                    is_coroutine: bool = False) -> Union[FuncDef, Decorator]:
        """Helper shared between visit_FunctionDef and visit_AsyncFunctionDef."""
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        arg_types = None  # type: List[Type]
        if n.type_comment is not None:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>', 'func_type')
            except SyntaxError:
                raise TypeCommentParseError(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
            assert isinstance(func_type_ast, ast35.FunctionType)
            # for ellipsis arg
            if (len(func_type_ast.argtypes) == 1 and
                    isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                arg_types = [a.type_annotation if a.type_annotation is not None else AnyType()
                             for a in args]
            else:
                translated_args = (TypeConverter(line=n.lineno)
                                   .translate_expr_list(func_type_ast.argtypes))
                arg_types = [a if a is not None else AnyType()
                             for a in translated_args]
            return_type = TypeConverter(line=n.lineno).visit(func_type_ast.returns)

            # add implicit self type
            if self.in_class() and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(line=n.lineno).visit(n.returns)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            func_type = CallableType([a if a is not None else AnyType() for a in arg_types],
                                     arg_kinds,
                                     arg_names,
                                     return_type if return_type is not None else AnyType(),
                                     None)

        func_def = FuncDef(n.name,
                       args,
                       self.as_block(n.body, n.lineno),
                       func_type)
        if is_coroutine:
            # A coroutine is also a generator, mostly for internal reasons.
            func_def.is_generator = func_def.is_coroutine = True
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 10
0
    def visit_FunctionDef(self, n: ast27.FunctionDef) -> Statement:
        lineno = n.lineno
        converter = TypeConverter(self.errors, line=lineno,
                                  assume_str_is_unicode=self.unicode_literals)
        args, decompose_stmts = self.transform_args(n.args, lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]  # type: List[Optional[str]]
        arg_names = [None if argument_elide_name(name) else name for name in arg_names]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)

        arg_types = []  # type: List[Optional[Type]]
        type_comment = n.type_comment
        if (n.decorator_list and any(is_no_type_check_decorator(d) for d in n.decorator_list)):
            arg_types = [None] * len(args)
            return_type = None
        elif type_comment is not None and len(type_comment) > 0:
            try:
                func_type_ast = ast3_parse(type_comment, '<func_type>', 'func_type')
                assert isinstance(func_type_ast, ast3.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and
                        isinstance(func_type_ast.argtypes[0], ast3.Ellipsis)):
                    arg_types = [a.type_annotation
                                 if a.type_annotation is not None
                                 else AnyType(TypeOfAny.unannotated)
                                 for a in args]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if any(a.type_annotation is not None for a in args):
                        self.fail(message_registry.DUPLICATE_TYPE_SIGNATURES, lineno, n.col_offset)
                    arg_types = [a if a is not None else AnyType(TypeOfAny.unannotated) for
                                 a in converter.translate_expr_list(func_type_ast.argtypes)]
                return_type = converter.visit(func_type_ast.returns)

                # add implicit self type
                if self.in_class() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType(TypeOfAny.special_form))
            except SyntaxError:
                self.fail(TYPE_COMMENT_SYNTAX_ERROR, lineno, n.col_offset)
                arg_types = [AnyType(TypeOfAny.from_error)] * len(args)
                return_type = AnyType(TypeOfAny.from_error)
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = converter.visit(None)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(isinstance(t, EllipsisType) for t in arg_types):
                self.fail("Ellipses cannot accompany other argument types "
                          "in function type signature.", lineno, 0)
            elif len(arg_types) > len(arg_kinds):
                self.fail('Type signature has too many arguments', lineno, 0)
            elif len(arg_types) < len(arg_kinds):
                self.fail('Type signature has too few arguments', lineno, 0)
            else:
                any_type = AnyType(TypeOfAny.unannotated)
                func_type = CallableType([a if a is not None else any_type for a in arg_types],
                                        arg_kinds,
                                        arg_names,
                                        return_type if return_type is not None else any_type,
                                        _dummy_fallback)

        body = self.as_required_block(n.body, lineno)
        if decompose_stmts:
            body.body = decompose_stmts + body.body
        func_def = FuncDef(n.name,
                       args,
                       body,
                       func_type)
        if isinstance(func_def.type, CallableType):
            # semanal.py does some in-place modifications we want to avoid
            func_def.unanalyzed_type = func_def.type.copy_modified()
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            dec = Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
            dec.set_line(lineno, n.col_offset)
            return dec
        else:
            # Overrides set_line -- can't use self.set_line
            func_def.set_line(lineno, n.col_offset)
            return func_def
Exemplo n.º 11
0
    def visit_FunctionDef(self, n: ast27.FunctionDef) -> Statement:
        converter = TypeConverter(self.errors, line=n.lineno)
        args, decompose_stmts = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]  # type: List[Optional[str]]
        arg_names = [None if argument_elide_name(name) else name for name in arg_names]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)

        arg_types = []  # type: List[Optional[Type]]
        if (n.decorator_list and any(is_no_type_check_decorator(d) for d in n.decorator_list)):
            arg_types = [None] * len(args)
            return_type = None
        elif n.type_comment is not None and len(n.type_comment) > 0:
            try:
                func_type_ast = ast3.parse(n.type_comment, '<func_type>', 'func_type')
                assert isinstance(func_type_ast, ast3.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and
                        isinstance(func_type_ast.argtypes[0], ast3.Ellipsis)):
                    arg_types = [a.type_annotation
                                 if a.type_annotation is not None
                                 else AnyType(TypeOfAny.unannotated)
                                 for a in args]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if any(a.type_annotation is not None for a in args):
                        self.fail(messages.DUPLICATE_TYPE_SIGNATURES, n.lineno, n.col_offset)
                    arg_types = [a if a is not None else AnyType(TypeOfAny.unannotated) for
                                 a in converter.translate_expr_list(func_type_ast.argtypes)]
                return_type = converter.visit(func_type_ast.returns)

                # add implicit self type
                if self.in_class() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType(TypeOfAny.special_form))
            except SyntaxError:
                self.fail(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
                arg_types = [AnyType(TypeOfAny.from_error)] * len(args)
                return_type = AnyType(TypeOfAny.from_error)
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = converter.visit(None)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(isinstance(t, EllipsisType) for t in arg_types):
                self.fail("Ellipses cannot accompany other argument types "
                          "in function type signature.", n.lineno, 0)
            elif len(arg_types) > len(arg_kinds):
                self.fail('Type signature has too many arguments', n.lineno, 0)
            elif len(arg_types) < len(arg_kinds):
                self.fail('Type signature has too few arguments', n.lineno, 0)
            else:
                any_type = AnyType(TypeOfAny.unannotated)
                func_type = CallableType([a if a is not None else any_type for a in arg_types],
                                        arg_kinds,
                                        arg_names,
                                        return_type if return_type is not None else any_type,
                                        _dummy_fallback)

        body = self.as_required_block(n.body, n.lineno)
        if decompose_stmts:
            body.body = decompose_stmts + body.body
        func_def = FuncDef(n.name,
                       args,
                       body,
                       func_type)
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 12
0
    def do_func_def(self, n: Union[ast35.FunctionDef, ast35.AsyncFunctionDef],
                    is_coroutine: bool = False) -> Union[FuncDef, Decorator]:
        """Helper shared between visit_FunctionDef and visit_AsyncFunctionDef."""
        no_type_check = bool(n.decorator_list and
                             any(is_no_type_check_decorator(d) for d in n.decorator_list))

        args = self.transform_args(n.args, n.lineno, no_type_check=no_type_check)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]  # type: List[Optional[str]]
        arg_names = [None if argument_elide_name(name) else name for name in arg_names]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)
        arg_types = None  # type: List[Type]
        if no_type_check:
            arg_types = [None] * len(args)
            return_type = None
        elif n.type_comment is not None:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>', 'func_type')
                assert isinstance(func_type_ast, ast35.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and
                        isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                    if n.returns:
                        # PEP 484 disallows both type annotations and type comments
                        self.fail(messages.DUPLICATE_TYPE_SIGNATURES, n.lineno, n.col_offset)
                    arg_types = [a.type_annotation if a.type_annotation is not None else AnyType()
                                 for a in args]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if n.returns or any(a.type_annotation is not None for a in args):
                        self.fail(messages.DUPLICATE_TYPE_SIGNATURES, n.lineno, n.col_offset)
                    translated_args = (TypeConverter(self.errors, line=n.lineno)
                                       .translate_expr_list(func_type_ast.argtypes))
                    arg_types = [a if a is not None else AnyType()
                                for a in translated_args]
                return_type = TypeConverter(self.errors,
                                            line=n.lineno).visit(func_type_ast.returns)

                # add implicit self type
                if self.in_class() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType())
            except SyntaxError:
                self.fail(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
                arg_types = [AnyType()] * len(args)
                return_type = AnyType()
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(self.errors, line=n.lineno).visit(n.returns)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(isinstance(t, EllipsisType) for t in arg_types):
                self.fail("Ellipses cannot accompany other argument types "
                          "in function type signature.", n.lineno, 0)
            elif len(arg_types) > len(arg_kinds):
                self.fail('Type signature has too many arguments', n.lineno, 0)
            elif len(arg_types) < len(arg_kinds):
                self.fail('Type signature has too few arguments', n.lineno, 0)
            else:
                func_type = CallableType([a if a is not None else
                                          AnyType(implicit=True) for a in arg_types],
                                         arg_kinds,
                                         arg_names,
                                         return_type if return_type is not None else
                                         AnyType(implicit=True),
                                         None)

        func_def = FuncDef(n.name,
                       args,
                       self.as_block(n.body, n.lineno),
                       func_type)
        if is_coroutine:
            # A coroutine is also a generator, mostly for internal reasons.
            func_def.is_generator = func_def.is_coroutine = True
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 13
0
    def do_func_def(self,
                    n: Union[ast3.FunctionDef, ast3.AsyncFunctionDef],
                    is_coroutine: bool = False) -> Union[FuncDef, Decorator]:
        """Helper shared between visit_FunctionDef and visit_AsyncFunctionDef."""
        no_type_check = bool(
            n.decorator_list
            and any(is_no_type_check_decorator(d) for d in n.decorator_list))

        args = self.transform_args(n.args,
                                   n.lineno,
                                   no_type_check=no_type_check)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name()
                     for arg in args]  # type: List[Optional[str]]
        arg_names = [
            None if argument_elide_name(name) else name for name in arg_names
        ]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)
        arg_types = []  # type: List[Optional[Type]]
        if no_type_check:
            arg_types = [None] * len(args)
            return_type = None
        elif n.type_comment is not None:
            try:
                func_type_ast = ast3.parse(n.type_comment, '<func_type>',
                                           'func_type')
                assert isinstance(func_type_ast, ast3.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and isinstance(
                        func_type_ast.argtypes[0], ast3.Ellipsis)):
                    if n.returns:
                        # PEP 484 disallows both type annotations and type comments
                        self.fail(errorcode.DUPLICATE_TYPE_SIGNATURES(),
                                  n.lineno, n.col_offset)
                    arg_types = [
                        a.type_annotation if a.type_annotation is not None else
                        AnyType(TypeOfAny.unannotated) for a in args
                    ]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if n.returns or any(a.type_annotation is not None
                                        for a in args):
                        self.fail(errorcode.DUPLICATE_TYPE_SIGNATURES(),
                                  n.lineno, n.col_offset)
                    translated_args = (TypeConverter(
                        self.errors, line=n.lineno).translate_expr_list(
                            func_type_ast.argtypes))
                    arg_types = [
                        a if a is not None else AnyType(TypeOfAny.unannotated)
                        for a in translated_args
                    ]
                return_type = TypeConverter(self.errors, line=n.lineno).visit(
                    func_type_ast.returns)

                # add implicit self type
                if self.in_class() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType(TypeOfAny.special_form))
            except SyntaxError:
                self.fail(errorcode.SYNTAX_ERROR_TYPE_COMMENT(), n.lineno,
                          n.col_offset)
                if n.type_comment and n.type_comment[0] != "(":
                    self.note(
                        errorcode.MSG_SHOW(
                            'Suggestion: wrap argument types in parentheses'),
                        n.lineno, n.col_offset)
                arg_types = [AnyType(TypeOfAny.from_error)] * len(args)
                return_type = AnyType(TypeOfAny.from_error)
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(
                self.errors,
                line=n.returns.lineno if n.returns else n.lineno).visit(
                    n.returns)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(
                    isinstance(t, EllipsisType) for t in arg_types):
                self.fail(
                    errorcode.
                    ELLIPSES_CANNOT_ACC_OTHER_ARG_TYPES_IN_FUNCTION_TYPE_SIGNATURE(
                    ), n.lineno, 0)
            elif len(arg_types) > len(arg_kinds):
                self.fail(errorcode.TYPE_SIGNATURE_HAS_TOO_MANY_ARGUMENTS(),
                          n.lineno, 0)
            elif len(arg_types) < len(arg_kinds):
                self.fail(errorcode.TYPE_SIGNATURE_HAS_TOO_FEW_ARGUMENTS(),
                          n.lineno, 0)
            else:
                func_type = CallableType([
                    a if a is not None else AnyType(TypeOfAny.unannotated)
                    for a in arg_types
                ], arg_kinds, arg_names, return_type if return_type is not None
                                         else AnyType(TypeOfAny.unannotated),
                                         _dummy_fallback)

        func_def = FuncDef(n.name, args,
                           self.as_required_block(n.body, n.lineno), func_type)
        if is_coroutine:
            # A coroutine is also a generator, mostly for internal reasons.
            func_def.is_generator = func_def.is_coroutine = True
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def,
                             self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 14
0
    def visit_FunctionDef(self, n: ast27.FunctionDef) -> Statement:
        converter = TypeConverter(self.errors, line=n.lineno)
        args, decompose_stmts = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]  # type: List[Optional[str]]
        arg_names = [None if argument_elide_name(name) else name for name in arg_names]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)

        arg_types = None  # type: List[Type]
        if (n.decorator_list and any(is_no_type_check_decorator(d) for d in n.decorator_list)):
            arg_types = [None] * len(args)
            return_type = None
        elif n.type_comment is not None and len(n.type_comment) > 0:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>', 'func_type')
                assert isinstance(func_type_ast, ast35.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and
                        isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                    arg_types = [a.type_annotation if a.type_annotation is not None else AnyType()
                                for a in args]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if any(a.type_annotation is not None for a in args):
                        self.fail(messages.DUPLICATE_TYPE_SIGNATURES, n.lineno, n.col_offset)
                    arg_types = [a if a is not None else AnyType() for
                                a in converter.translate_expr_list(func_type_ast.argtypes)]
                return_type = converter.visit(func_type_ast.returns)

                # add implicit self type
                if self.in_class() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType())
            except SyntaxError:
                self.fail(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
                arg_types = [AnyType()] * len(args)
                return_type = AnyType()
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = converter.visit(None)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(isinstance(t, EllipsisType) for t in arg_types):
                self.fail("Ellipses cannot accompany other argument types "
                          "in function type signature.", n.lineno, 0)
            elif len(arg_types) > len(arg_kinds):
                self.fail('Type signature has too many arguments', n.lineno, 0)
            elif len(arg_types) < len(arg_kinds):
                self.fail('Type signature has too few arguments', n.lineno, 0)
            else:
                func_type = CallableType([a if a is not None else AnyType() for a in arg_types],
                                        arg_kinds,
                                        arg_names,
                                        return_type if return_type is not None else AnyType(),
                                        None)

        body = self.as_block(n.body, n.lineno)
        if decompose_stmts:
            body.body = decompose_stmts + body.body
        func_def = FuncDef(n.name,
                       args,
                       body,
                       func_type)
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 15
0
    def visit_FunctionDef(self, n: ast27.FunctionDef) -> Statement:
        converter = TypeConverter(line=n.lineno)
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        arg_types = None  # type: List[Type]
        if n.type_comment is not None and len(n.type_comment) > 0:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>',
                                            'func_type')
            except SyntaxError:
                raise TypeCommentParseError(TYPE_COMMENT_SYNTAX_ERROR,
                                            n.lineno, n.col_offset)
            assert isinstance(func_type_ast, ast35.FunctionType)
            # for ellipsis arg
            if (len(func_type_ast.argtypes) == 1
                    and isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                arg_types = [
                    a.type_annotation
                    if a.type_annotation is not None else AnyType()
                    for a in args
                ]
            else:
                arg_types = [
                    a if a is not None else AnyType() for a in
                    converter.translate_expr_list(func_type_ast.argtypes)
                ]
            return_type = converter.visit(func_type_ast.returns)

            # add implicit self type
            if self.in_class() and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = converter.visit(None)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) > len(arg_kinds):
                raise FastParserError('Type signature has too many arguments',
                                      n.lineno,
                                      offset=0)
            if len(arg_types) < len(arg_kinds):
                raise FastParserError('Type signature has too few arguments',
                                      n.lineno,
                                      offset=0)
            func_type = CallableType(
                [a if a is not None else AnyType()
                 for a in arg_types], arg_kinds, arg_names,
                return_type if return_type is not None else AnyType(), None)

        func_def = FuncDef(n.name, args, self.as_block(n.body, n.lineno),
                           func_type)
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def,
                             self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 16
0
    def do_func_def(self,
                    n: Union[ast3.FunctionDef, ast3.AsyncFunctionDef],
                    is_coroutine: bool = False) -> Union[FuncDef, Decorator]:
        """Helper shared between visit_FunctionDef and visit_AsyncFunctionDef."""
        no_type_check = bool(
            n.decorator_list
            and any(is_no_type_check_decorator(d) for d in n.decorator_list))

        args = self.transform_args(n.args,
                                   n.lineno,
                                   no_type_check=no_type_check)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name()
                     for arg in args]  # type: List[Optional[str]]
        arg_names = [
            None if argument_elide_name(name) else name for name in arg_names
        ]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)
        arg_types = None  # type: List[Type]
        if no_type_check:
            arg_types = [None] * len(args)
            return_type = None
        elif n.type_comment is not None:
            try:
                func_type_ast = ast3.parse(n.type_comment, '<func_type>',
                                           'func_type')
                assert isinstance(func_type_ast, ast3.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and isinstance(
                        func_type_ast.argtypes[0], ast3.Ellipsis)):
                    if n.returns:
                        # PEP 484 disallows both type annotations and type comments
                        self.fail(messages.DUPLICATE_TYPE_SIGNATURES, n.lineno,
                                  n.col_offset)
                    arg_types = [
                        a.type_annotation
                        if a.type_annotation is not None else AnyType()
                        for a in args
                    ]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if n.returns or any(a.type_annotation is not None
                                        for a in args):
                        self.fail(messages.DUPLICATE_TYPE_SIGNATURES, n.lineno,
                                  n.col_offset)
                    translated_args = (TypeConverter(
                        self.errors, line=n.lineno).translate_expr_list(
                            func_type_ast.argtypes))
                    arg_types = [
                        a if a is not None else AnyType()
                        for a in translated_args
                    ]
                return_type = TypeConverter(self.errors, line=n.lineno).visit(
                    func_type_ast.returns)

                # add implicit self type
                if self.in_class() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType())
            except SyntaxError:
                self.fail(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
                arg_types = [AnyType()] * len(args)
                return_type = AnyType()
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(self.errors,
                                        line=n.lineno).visit(n.returns)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(
                    isinstance(t, EllipsisType) for t in arg_types):
                self.fail(
                    "Ellipses cannot accompany other argument types "
                    "in function type signature.", n.lineno, 0)
            elif len(arg_types) > len(arg_kinds):
                self.fail('Type signature has too many arguments', n.lineno, 0)
            elif len(arg_types) < len(arg_kinds):
                self.fail('Type signature has too few arguments', n.lineno, 0)
            else:
                func_type = CallableType(
                    [
                        a if a is not None else AnyType(implicit=True)
                        for a in arg_types
                    ], arg_kinds, arg_names,
                    return_type if return_type is not None else AnyType(
                        implicit=True), None)

        func_def = FuncDef(n.name, args, self.as_block(n.body, n.lineno),
                           func_type)
        if is_coroutine:
            # A coroutine is also a generator, mostly for internal reasons.
            func_def.is_generator = func_def.is_coroutine = True
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def,
                             self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 17
0
    def visit_FunctionDef(self, n: ast27.FunctionDef) -> Statement:
        converter = TypeConverter(line=n.lineno)
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]  # type: List[Optional[str]]
        arg_names = [None if argument_elide_name(name) else name for name in arg_names]
        if special_function_elide_names(n.name):
            arg_names = [None] * len(arg_names)

        arg_types = None  # type: List[Type]
        if n.type_comment is not None and len(n.type_comment) > 0:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>', 'func_type')
            except SyntaxError:
                raise TypeCommentParseError(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
            assert isinstance(func_type_ast, ast35.FunctionType)
            # for ellipsis arg
            if (len(func_type_ast.argtypes) == 1 and
                    isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                arg_types = [a.type_annotation if a.type_annotation is not None else AnyType()
                             for a in args]
            else:
                arg_types = [a if a is not None else AnyType() for
                            a in converter.translate_expr_list(func_type_ast.argtypes)]
            return_type = converter.visit(func_type_ast.returns)

            # add implicit self type
            if self.in_class() and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = converter.visit(None)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) > len(arg_kinds):
                raise FastParserError('Type signature has too many arguments', n.lineno, offset=0)
            if len(arg_types) < len(arg_kinds):
                raise FastParserError('Type signature has too few arguments', n.lineno, offset=0)
            func_type = CallableType([a if a is not None else AnyType() for a in arg_types],
                                     arg_kinds,
                                     arg_names,
                                     return_type if return_type is not None else AnyType(),
                                     None)

        func_def = FuncDef(n.name,
                       args,
                       self.as_block(n.body, n.lineno),
                       func_type)
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def
Exemplo n.º 18
0
    def visit_FunctionDef(self, n: ast27.FunctionDef) -> Statement:
        self.class_and_function_stack.append('F')
        lineno = n.lineno
        converter = TypeConverter(self.errors,
                                  line=lineno,
                                  override_column=n.col_offset,
                                  assume_str_is_unicode=self.unicode_literals)
        args, decompose_stmts = self.transform_args(n.args, lineno)
        if special_function_elide_names(n.name):
            for arg in args:
                arg.pos_only = True

        arg_kinds = [arg.kind for arg in args]
        arg_names = [
            None if arg.pos_only else arg.variable.name for arg in args
        ]

        arg_types: List[Optional[Type]] = []
        type_comment = n.type_comment
        if (n.decorator_list and any(
                is_no_type_check_decorator(d) for d in n.decorator_list)):
            arg_types = [None] * len(args)
            return_type = None
        elif type_comment is not None and len(type_comment) > 0:
            try:
                func_type_ast = ast3_parse(type_comment, '<func_type>',
                                           'func_type')
                assert isinstance(func_type_ast, ast3.FunctionType)
                # for ellipsis arg
                if (len(func_type_ast.argtypes) == 1 and isinstance(
                        func_type_ast.argtypes[0], ast3.Ellipsis)):
                    arg_types = [
                        a.type_annotation if a.type_annotation is not None else
                        AnyType(TypeOfAny.unannotated) for a in args
                    ]
                else:
                    # PEP 484 disallows both type annotations and type comments
                    if any(a.type_annotation is not None for a in args):
                        self.fail(message_registry.DUPLICATE_TYPE_SIGNATURES,
                                  lineno, n.col_offset)
                    arg_types = [
                        a if a is not None else AnyType(TypeOfAny.unannotated)
                        for a in converter.translate_expr_list(
                            func_type_ast.argtypes)
                    ]
                return_type = converter.visit(func_type_ast.returns)

                # add implicit self type
                if self.in_method_scope() and len(arg_types) < len(args):
                    arg_types.insert(0, AnyType(TypeOfAny.special_form))
            except SyntaxError:
                stripped_type = type_comment.split("#", 2)[0].strip()
                err_msg = '{} "{}"'.format(TYPE_COMMENT_SYNTAX_ERROR,
                                           stripped_type)
                self.fail(err_msg, lineno, n.col_offset)
                arg_types = [AnyType(TypeOfAny.from_error)] * len(args)
                return_type = AnyType(TypeOfAny.from_error)
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = converter.visit(None)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) != 1 and any(
                    isinstance(t, EllipsisType) for t in arg_types):
                self.fail(
                    "Ellipses cannot accompany other argument types "
                    "in function type signature", lineno, n.col_offset)
            elif len(arg_types) > len(arg_kinds):
                self.fail('Type signature has too many arguments',
                          lineno,
                          n.col_offset,
                          blocker=False)
            elif len(arg_types) < len(arg_kinds):
                self.fail('Type signature has too few arguments',
                          lineno,
                          n.col_offset,
                          blocker=False)
            else:
                any_type = AnyType(TypeOfAny.unannotated)
                func_type = CallableType(
                    [a if a is not None else any_type
                     for a in arg_types], arg_kinds, arg_names,
                    return_type if return_type is not None else any_type,
                    _dummy_fallback)

        body = self.as_required_block(n.body, lineno)
        if decompose_stmts:
            body.body = decompose_stmts + body.body
        func_def = FuncDef(n.name, args, body, func_type)
        if isinstance(func_def.type, CallableType):
            # semanal.py does some in-place modifications we want to avoid
            func_def.unanalyzed_type = func_def.type.copy_modified()
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = lineno

        if n.decorator_list:
            var = Var(func_def.name)
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            dec = Decorator(func_def,
                            self.translate_expr_list(n.decorator_list), var)
            dec.set_line(lineno, n.col_offset)
            retval: Statement = dec
        else:
            # Overrides set_line -- can't use self.set_line
            func_def.set_line(lineno, n.col_offset)
            retval = func_def
        self.class_and_function_stack.pop()
        return retval
Exemplo n.º 19
0
    def do_func_def(self, n: Union[ast35.FunctionDef, ast35.AsyncFunctionDef],
                    is_coroutine: bool = False) -> Union[FuncDef, Decorator]:
        """Helper shared between visit_FunctionDef and visit_AsyncFunctionDef."""
        args = self.transform_args(n.args, n.lineno)

        arg_kinds = [arg.kind for arg in args]
        arg_names = [arg.variable.name() for arg in args]
        arg_types = None  # type: List[Type]
        if n.type_comment is not None:
            try:
                func_type_ast = ast35.parse(n.type_comment, '<func_type>', 'func_type')
            except SyntaxError:
                raise TypeCommentParseError(TYPE_COMMENT_SYNTAX_ERROR, n.lineno, n.col_offset)
            assert isinstance(func_type_ast, ast35.FunctionType)
            # for ellipsis arg
            if (len(func_type_ast.argtypes) == 1 and
                    isinstance(func_type_ast.argtypes[0], ast35.Ellipsis)):
                arg_types = [a.type_annotation if a.type_annotation is not None else AnyType()
                             for a in args]
            else:
                translated_args = (TypeConverter(line=n.lineno)
                                   .translate_expr_list(func_type_ast.argtypes))
                arg_types = [a if a is not None else AnyType()
                             for a in translated_args]
            return_type = TypeConverter(line=n.lineno).visit(func_type_ast.returns)

            # add implicit self type
            if self.in_class() and len(arg_types) < len(args):
                arg_types.insert(0, AnyType())
        else:
            arg_types = [a.type_annotation for a in args]
            return_type = TypeConverter(line=n.lineno).visit(n.returns)

        for arg, arg_type in zip(args, arg_types):
            self.set_type_optional(arg_type, arg.initializer)

        if isinstance(return_type, UnboundType):
            return_type.is_ret_type = True

        func_type = None
        if any(arg_types) or return_type:
            if len(arg_types) > len(arg_kinds):
                raise FastParserError('Type signature has too many arguments', n.lineno, offset=0)
            if len(arg_types) < len(arg_kinds):
                raise FastParserError('Type signature has too few arguments', n.lineno, offset=0)
            func_type = CallableType([a if a is not None else AnyType() for a in arg_types],
                                     arg_kinds,
                                     arg_names,
                                     return_type if return_type is not None else AnyType(),
                                     None)

        func_def = FuncDef(n.name,
                       args,
                       self.as_block(n.body, n.lineno),
                       func_type)
        if is_coroutine:
            # A coroutine is also a generator, mostly for internal reasons.
            func_def.is_generator = func_def.is_coroutine = True
        if func_type is not None:
            func_type.definition = func_def
            func_type.line = n.lineno

        if n.decorator_list:
            var = Var(func_def.name())
            var.is_ready = False
            var.set_line(n.decorator_list[0].lineno)

            func_def.is_decorated = True
            func_def.set_line(n.lineno + len(n.decorator_list))
            func_def.body.set_line(func_def.get_line())
            return Decorator(func_def, self.translate_expr_list(n.decorator_list), var)
        else:
            return func_def