2

I'm facing a problem referenced in Mypy documentation but with no provided workaround:

from typing import overload, Union

@overload
def unsafe_func(x: int) -> int: ...

@overload
def unsafe_func(x: object) -> str: ...

def unsafe_func(x: object) -> Union[int, str]:
    if isinstance(x, int):
        return 42
    else:
        return "some string"

This generates the following error (see Mypy playground):

main.py:4: error: Overloaded function signatures 1 and 2 overlap with incompatible return types
Found 1 error in 1 file (checked 1 source file)

I do understand the reason (int is also an object so unsafe_func(42) can't be resolved unambiguously), but I don't know how to fix it.

How to type hint the function so that express that int -> int and any other object -> str?


The real use case is to create a decorator with optional argument:

from inspect import isclass

def catcher(function_or_exception):
    # Case when decorator is used with argument
    # 'function_or_exception' is of type 'Exception'
    if isclass(function_or_exception) and issubclass(function_or_exception, BaseException):
        def decorator(decorated):
            def decorate():
                try:
                    decorated()
                except function_or_exception:
                    print("An error occurred")
            return decorate
        return decorator

    # Case when decorator is used without arguments.
    # 'function_or_exception' is of type 'Callable'
    else:
        def decorate():
            try:
                function_or_exception()
            except Exception:
                print("An error occurred")
        return decorate

@catcher
def my_func_1():
    "1" + 1

@catcher(ZeroDivisionError)
def my_func_2():
    1 / 0


my_func_1()
my_func_2()

5
  • Out of curiosity: why do you even want this? The two functions are clearly different functions (different input type and different output type). Why do they have the same name? Is there a real use case for this?
    – wovano
    Oct 1, 2022 at 10:10
  • @wovano I implemented only one function for convenience. To be more precise, the exact function I'm trying to type hint is this one (see examples).
    – Delgan
    Oct 1, 2022 at 10:28
  • 1
    @wovano I added an simplified implementation of the real use case although it's not necessarily very straightforward. ;)
    – Delgan
    Oct 1, 2022 at 11:29
  • What you're showing IS a workaround, indeed. It is "undefined behaviour", but in fact mypy tries overloaded definitions in source order, and same does Pyright, AFAIC. You can add ignore comment to overload definition to silence that error and verify that reveal_type(unsafe_func(1)) is builtins.int and reveal_type(unsafe_func([])) is builtins.str.
    – STerliakov
    Oct 1, 2022 at 14:25
  • @SUTerliakov Damn, it's as simple as adding a #type: ignore comment... Thanks for the hint! Would you like to convert your comment into an answer so I can close my question (otherwise I will make a community answer)?
    – Delgan
    Oct 1, 2022 at 14:44

1 Answer 1

0

Allow me to suggest a slightly different implementation that doesn't cause typing issues with @overload. It uses the common pattern for decorators that can be used with or without parentheses. The difference is that the exception class would have to be passed as a keyword argument.

Here is a full working example (Python 3.10+ due to the use of ParamSpec):

from collections.abc import Callable
from functools import wraps
from typing import ParamSpec, TypeVar, overload


P = ParamSpec("P")
T = TypeVar("T")


@overload
def catcher(func: Callable[P, T]) -> Callable[P, T | None]:
    ...


@overload
def catcher(
    *,
    exc: type[BaseException] = Exception,
) -> Callable[[Callable[P, T]], Callable[P, T | None]]:
    ...


def catcher(
    func: Callable[P, T] | None = None,
    *,
    exc: type[BaseException] = Exception,
) -> Callable[P, T | None] | Callable[[Callable[P, T]], Callable[P, T | None]]:
    def decorator(function: Callable[P, T]) -> Callable[P, T | None]:
        @wraps(function)
        def inner_wrapper(*args: P.args, **kwargs: P.kwargs) -> T | None:
            try:
                return function(*args, **kwargs)
            except exc as e:
                print(f"{e.__class__.__name__} occurred")
                return None
        return inner_wrapper
    return decorator if func is None else decorator(func)


@catcher
def my_func_1() -> None:
    raise TypeError


@catcher(exc=ZeroDivisionError)
def my_func_2() -> float:
    return 1 / 0


if __name__ == '__main__':
    my_func_1()
    x = my_func_2()

Output:

TypeError occurred
ZeroDivisionError occurred

No issues with mypy --strict.

While using the decorator is only slightly more verbose, it is arguably a bit "safer" with regard to the types involved. The implementation itself on the other hand is less verbose because you only define the inner functions/wrappers once.

I tried a few things, but was unable to safely construct the desired signature using the exception class as a positional argument.

5
  • Python3.8 with mypy error: Module "typing" has no attribute "ParamSpec"; maybe "_ParamSpec", and then error: Module "typing" does not explicitly export attribute "_ParamSpec" Jan 4, 2023 at 18:35
  • @ryanjdillon Well, yes, ParamSpec is new in 3.10. That is why I explicitly mentioned the version in my answer. Jan 4, 2023 at 18:48
  • Just a breadcrumb for others, as ParamSpec's public api being only available in 3.10 was not explicitly mentioned. Jan 4, 2023 at 18:51
  • @ryanjdillon I wrote the minimum requirements for my code literally right on top of it, but fine, to indicate why exactly the requirement is 3.10 I edited the post. Jan 4, 2023 at 18:53
  • You wrote that you had run your code with python 3.10, not that 3.10 was a minimum requirement. I tried it with 3.8, and didn't work, hence my comment. Far more helpful what you have there now. Thanks :) Jan 4, 2023 at 18:58

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