I'm trying to implement an interface for conversions between types but I'm struggling to make it consistent since typing.Type is covariant

U = TypeVar('U')

class Into(Protocol[U]):
    def into(self, t: Type[U]) -> U:

The docs give a similar example with a crucial difference

class User: ...
class BasicUser(User): ...
class ProUser(User): ...
class TeamUser(User): ...

def make_new_user(user_class: Type[User]) -> User:
    return user_class()

There they say type checkers should check that all subclasses of User should implement a constructor with a valid signature to be instantiated like this. My use case is different because I might not be constructing the new type, just returning a pre-existing one. Say I do

class X: pass

class Wrapper:
    def __init__(self, x: X):
        self._x = x

    def into(self, t: Type[X]) -> X:
        return self._x

that all works fine until someone subclasses X

w = Wrapper(X())
class XX(X): pass
x: XX = w.into(XX)

The RHS is fine by mypy cos Type is covariant, but clearly the API is broken cos an X isn't an XX. If Type wasn't covariant this wouldn't be a concern: the RHS wouldn't type check until Wrapper was updated to support XX.

My question is: Is there some way to achieve this (or something similar) given the covariance of Type?


I want to use this to convert a type to multiple other types, specifying the desired type explicitly rather than just into_X, into_Y etc. I expect to do this with TypeVar or overload. I'm also having difficulty there.

This is inspired by rust's Into, where t: Type[U] is a type parameter not a function argument.

  • into doesn't use its t argument at all, so inheritance or covariance isn't your issue. – chepner May 16 at 19:04
  • @chepner I'd expect it to use the argument if I was implementing Into[X] and Into[Y] for a single class – joelb May 16 at 19:11
  • that aside, can you elaborate on why not using the argument means covariance isn't the issue? – joelb May 16 at 19:13
  • @joelb, can you present a simple use case of the code? I don't fully understand what you are doing. Is Wrapper supposed to extend the functionality of its input by adding a method into? What Wrapper() returns -- an instance of Wrapper or an instance of its input? Do you want to call w.into(int) and get the value stored in w, or do you want to modify w such that its attribute changes its type? Also, do you want to call w.into(List[str]), w.into(List[int]) -- i.e., the same value converts to different types? – kate-melnykova May 16 at 20:09
  • 1
    @joelb It hints that the function should return an X, and a tool like mypy will raise an error if it detects you trying to return something, but the type hints have no effect at runtime: into can return anything at all. – chepner May 16 at 23:02

eval solves the issue.

class Wrapper:
    def __init__(self, x: X):
        self._x = x

    def into(self, t: Type[X]) -> X:
        return eval(f'{t}({self._x})')
| improve this answer | |
  • 1
    You don't need eval at all; return t(self._x) would do the same thing (assuming t can be used to make a t out of self._x, or rather the result of str(self._x), in the first place). – chepner May 16 at 23:03
  • I assumed that t is a string. – kate-melnykova May 16 at 23:06
  • 1
    t won't be a string. it's a type, e.g. if self._x is 1, t would be int – joelb May 17 at 1:08
  • My solution still works, the solution of @chepner is simpler and also works. I think that the question is resolved. – kate-melnykova May 17 at 4:12
  • as chepner points out, this only works if you can construct an X out of another X like X(x), which in general, you can't – joelb May 17 at 14:41

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