Let me explain with some sample, first.
Suppose there is a web API client module (MyAPIClient), a mapper class that converts arbitrary response into Python object (ObjectMapper), and a class that represents response object (User and Message).

class User(MyResponse):
    def __init__(self, status: int, id: int, name: str) -> None:
        self.id = int
        self.name = name

class Message(MyResponse):
    def __init__(self, status: int, id: int, text: str) -> None:
        self.id = int
        self.text = name

class ObjectMapper(object):
    def __init__(self, mapping_class: ???) -> None:
        self.mapping_class = mapping_class

    def map(self, obj) -> MyResponse:
        return self.mapping_class(**kwargs)

class MyAPIClient(object):
    def __init__(self, ...) -> None:

    def get_current_user(...) -> User:
        self.request("GET", "/current_user", ObjectMapper(User))

    def get_message(...) -> Message:
        self.request("GET", "/message", ObjectMapper(Message))

    def request(method: str, endpoint: str, mapper: ObjectMapper):
        res = requests.request(...)
        return json.loads(response.content.decode(), object_hook=mapper.map)

As shown in the sample above, ObjectMapper receives an argument named "mapping_class." This is NOT an instance of the class, but a class itself as shown in MyAPIClient#get_current_user and MyAPIClient#get_message. My question is how I should annotate this mapping_class in the ObjectMapper#__init__ which is currently marked as "???" in the sample above.

  • I am not familiar with PEP 484, but all classes are instances of type. If this helps you, feel free to post it as an answer yourself, because I cannot judge the applicability with respect to PEP 484. – Jonas Schäfer Jan 3 '16 at 15:54
  • Thank you for bringing that up, @JonasWielicki. I actually tried going with "type," but kind of gaveup because... 1) mypy complains "error: 'type' not callable," and 2) assigning "type" seems too broad, so I'd like to narrow it down to something related to "MyResponse" class in the sample above because it's the base class of "User" and "Message". – Oklahomer Jan 3 '16 at 16:02
  • Yeah, that's what I thought. However mypy and PyCharm complain "not callable" error. Since the code is expecting to receive the instance of MyResponse or its subclasses instance, it's natural that it complains "not callable" because any of them has call implemented and I'm not going to. So here comes the initial question, how to let them know we are just passing class, not instance... – Oklahomer Jan 3 '16 at 16:19
  • @PadraicCunningham 'mapping_class: MyResponse' - is wrong: type(MyResponse) != type(MyResponse()) – Mikhail Gerasimov Jan 3 '16 at 16:20
  • Just declare with "mapping_class: type". PyCharm won't complain about it anymore, but mypy returns "error: 'type' not callable" on the calling part; "self.mapping_class(**kwargs)". – Oklahomer Jan 3 '16 at 16:39

Class itself is callable, that returns instance of that class. Solution can be:

mapping_class: Callable[..., MyResponse]
  • Pycharm etc.. would still complain, object is not callable – Padraic Cunningham Jan 3 '16 at 16:35
  • @PadraicCunningham it's not about solution, but about Pycharm doesn't support "Callable" annotation yet, see: youtrack.jetbrains.com/issue/PY-17888 You can vote for that issue :) – Mikhail Gerasimov Jan 3 '16 at 16:38
  • I could pass ObjectMapper(Foo) where Foo has no relation to MyResponse and it would work fine – Padraic Cunningham Jan 3 '16 at 16:41
  • @PadraicCunningham, why? "Callable[..., MyResponse]" says that return value should be instance of "MyResponse". Instance of "Foo" is not instance of "MyResponse". – Mikhail Gerasimov Jan 3 '16 at 16:43
  • That is my point, you can pass anything and there is no warning or error – Padraic Cunningham Jan 3 '16 at 16:44

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