How can I require that an abstract base class implement a specific method as a coroutine. For example, consider this ABC:

import abc

class Foo(abc.ABC):
    async def func():

Now when I subclass and instantiate that:

class Bar(Foo):
    def func():

b = Bar()

This succeeds, although func is not async, as in the ABC. What can I do so that this only succeeds if func is async?

  • Possible duplicate of Test if function or method is normal or asynchronous – Elis Byberi Nov 29 '17 at 15:10
  • That question is about how to test, which is only part of the solution. I want to do this using an abstract base class. – Björn Pollex Nov 29 '17 at 15:13
  • You have to define async def func() again in class Bar. @abc.abstractmethod does not take in considerate if func() is async or not. – Elis Byberi Nov 29 '17 at 15:20
  • Yes, I understand that. I'm asking if there is a way to make this work, short of writing a custom meta class. – Björn Pollex Nov 29 '17 at 15:21
  • Testing function func() inside class __init__() is a way but it is not what you want! – Elis Byberi Nov 29 '17 at 15:28

You may use __new__ and check if and how a child class has override parent's coros.

import asyncio
import abc
import inspect

class A:    

    def __new__(cls, *arg, **kwargs):
        # get all coros of A
        parent_coros = inspect.getmembers(A, predicate=inspect.iscoroutinefunction)

        # check if parent's coros are still coros in a child
        for coro in parent_coros:
            child_method = getattr(cls, coro[0])
            if not inspect.iscoroutinefunction(child_method):
                raise RuntimeError('The method %s must be a coroutine' % (child_method,))

        return super(A, cls).__new__(cls, *arg, **kwargs)

    async def my_func(self):

class B(A):

    async def my_func(self):
        await asyncio.sleep(1)

class C(A):

    def my_func(self):

async def main():
    b = B()
    await b.my_func()

    c = C()  # this will trigger the RuntimeError
    await c.my_func()

loop = asyncio.get_event_loop()


  • a child class may override __new__ as well to suppress this constraint
  • not only async may be awaited. For example

    async def _change_in_db(self, key, value):
        # some db logic
    def change(self, key, value):
        if self.is_validate(value):
            raise Exception('Value is not valid')
        return self._change_in_db(key, value)  

    it's ok to call change like

    await o.change(key, value)

    Not to mention __await__ in objects, other raw Futures, Tasks...

  • Thanks, that's very useful, both the solution and the caveats! – Björn Pollex Nov 30 '17 at 9:31
  • I think it's important to add that passing *args and **kwargs to __new__ instead of __init__ isn't recommended. as Python 3.3+ will most likely throw an error if you do so. – Charming Robot Nov 23 '18 at 7:32
  • AFAIR docs.python.org/3/reference/datamodel.html#object.__new__ can accept arguments other than the first class (3.3+ doesn't throw any error), __new__ is a function like any other so why wouldn't is work. The __init__ is initlializer of an object, while here is the approach that uses class creation - such a different things. – kwarunek Nov 23 '18 at 8:51

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