How can I find all the abstract base classes that a given class is a "virtual subclass" of?

In other words, I'm looking for a magic function virtual_base_classes() that does something like this:

>>> for cls in virtual_base_classes(list):
>>>   print(cls)
<class 'collections.abc.MutableSequence'>
<class 'collections.abc.Sequence'>
<class 'collections.abc.Sized'>
<class 'collections.abc.Iterable'>
<class 'collections.abc.Container'>

(I don't know all the abc classes that list is registered with, so the above example may not be complete.)

Note that not every abstract base class will be defined in collections.abc. There is a module abc (distinct from collections.abc) which provides the metaclass ABCMeta. Any class that is an instance of ABCMeta supports registration of "virtual subclasses" using the standard interface (the register method). There's nothing that stops someone (whether a programmer or Python library) from creating an instance of ABCMeta that does not belong in collections.abc.

  • 1
    A class doesn't "know" that it has been registered as a virtual subclass of some ABC, so you can't find all ABCs starting from the class. Meanwhile, Python doesn't provide a means to locate every class that has ABCMeta as its metaclass (unless there's a piece of introspection you can do to find all classes, including those whose module is no longer in sys.modules due to a module reload). So you can't find all of your type's ABCs starting from a list of all existing ABCs either. – Steve Jessop Oct 14 '13 at 8:13
  • @SteveJessop thanks, this makes perfect sense. I suppose, strictly speaking, I can find all the reachable classes by iterating through the stack frames - but I didn't mean to go that far. – max Oct 14 '13 at 8:17
  • heh, yes, with enough effort you could iterate over every object in the Python runtime, testing each in turn to see if it's an ABC and if so whether your target type issubclass. – Steve Jessop Oct 14 '13 at 8:21
  • @SteveJessop There's object.__subclasses__() if you just want types, or gc.get_objects() for everything except immutable leafs. So I answered this properly. – o11c Nov 28 '18 at 5:23

Use issubclass and a list comprehension:

>>> import collections.abc
>>> import inspect
>>> [v for k, v in vars(collections.abc).items()
                                  if inspect.isclass(v) and issubclass(list, v) ]
[<class 'collections.abc.Container'>,
 <class 'collections.abc.Sequence'>,
 <class 'collections.abc.MutableSequence'>,
 <class 'collections.abc.Iterable'>,
 <class 'collections.abc.Sized'>
  • Sorry, I wanted the list of all the abstract base classes - rather than checking one by one. I'll clarify in the question. – max Oct 14 '13 at 7:54
  • @max updated the answer. – Ashwini Chaudhary Oct 14 '13 at 8:01
  • Thanks. That would work for collections.abc, but not in general. I'm updating the question to explain, since the comment doesn't have enough space. – max Oct 14 '13 at 8:05
  • Given Steve's comment, your answer is the best there is :) – max Oct 14 '13 at 8:16
  • anyway that i can achieve the same on python 2.7.x ? – Rasika Perera Apr 4 '15 at 13:05

This is, in fact, possible. The trick is to wrap the ABCMeta.register function, and scan object.__subclasses__() recursively to find anything registered before this module is imported.

''' Allow listing virtual bases from ABCMeta.

    Copyright © 2018 Ben Longbons <b.r.longbons@gmail.com>
    Licensed under GPL3+ or CC BY-SA 3.0+


    1. C++ programmers, remember "virtual base" means something
    different in Python!

    2. Importing this module as soon as possible, before creating any
    threads, and don't create bound references to `ABCMeta.register`.

    3. It's possible for there to be no valid MRO.

    4. This can't handle __subclasshook__ (for Callable etc).

    5. The MRO can change any time that `register` is called.

import abc
import threading

tracked_bases = {}
tracker_lock = threading.Lock()
global_virtual_mro_calculator = None
global_virtual_mro_calculator_token = None

def dotted_name(obj, *, relative=None):
    ''' Fully-qualified name of a class, function, or module.
    if relative is not None:
        relative = relative.__module__
    name = getattr(obj, '__qualname__', obj.__name__)
    # modules themselves have just a __name__
    mod = getattr(obj, '__module__', None)
    if mod is not None and mod != relative:
        return '%s.%s' % (mod, name)
    return name

def sorted_types(collection):
    return sorted(collection, key=lambda cls: dotted_name(cls))

def sanity_check():
    standard_calculator = MroCalculator()
    virtual_mro_calculator = get_global_virtual_mro_calculator()
    for t in sorted_types(hunt_types(object)):
        std_mro = standard_calculator.mro(t)
        assert tuple(std_mro) == t.__mro__, (std_mro, t.__mro__)
        virt_mro = virtual_mro_calculator.mro(t)
        assert set(virt_mro) >= set(t.__mro__)

def bases_string(cls, *, virtual=False, relative=None):
    assert cls is not relative
    rv = [dotted_name(base, relative=relative) for base in cls.__bases__]
    if virtual:
        for base in tracked_bases.get(cls, ()):
            rv.append('+' + dotted_name(base, relative=relative))
    if len(rv) <= 1:
        return ''
    return '(%s)' % ', '.join(rv)

def dump_types(cls, *, virtual=False, depth=0, relative=None, sigil=''):
    name = dotted_name(cls, relative=relative)
    bases = bases_string(cls, virtual=virtual, relative=relative)
    if isinstance(cls, abc.ABCMeta):
        sigil += '!'
    print('  ' * depth, sigil, name, bases, sep='')
    depth += 1

    for child in sorted_types(type(cls).__subclasses__(cls)):
        dump_types(child, virtual=virtual, depth=depth, relative=cls)
    if virtual:
        if isinstance(cls, abc.ABCMeta):
            for child in sorted_types(cls._abc_registry):
                dump_types(child, virtual=virtual, depth=depth, relative=cls, sigil='+')

def hunt_types(cls, seen=None):
    if seen is None:
        seen = {cls}
    # There are usually only about 500 classes at startup, and the walk
    # finishes in under ~0.5 ms on CPython and ~0.05 ms on PyPy.
    # Using `gc.get_referrers(abc.ABCMeta)` would take about the same
    # time on CPython, but it's *much* slower on PyPy (~50 ms).
    for scls in type(cls).__subclasses__(cls):
        if scls in seen:
        hunt_types(scls, seen)
    return seen

def _register_types(cls):
    assert isinstance(cls, abc.ABCMeta)
    # This order is also nondeterministic, but this one doesn't matter.
    for vscls in cls._abc_registry:
        tracked_bases.setdefault(vscls, []).append(cls)

def _install():
    with tracker_lock:
        old_register = abc.ABCMeta.register
        def abc_tracker_register(cls, subclass):
            with tracker_lock:
                if issubclass(subclass, cls):
                    return subclass
                rv = old_register(cls, subclass)
                assert rv is subclass
                tracked_bases.setdefault(subclass, []).append(cls)
                return rv
        abc.ABCMeta.register = abc_tracker_register
        # TODO nondeterministic order - `hunt_types` returns a `set`.
        # This only matters if some class has been registered as a
        # (direct) virtual subclass of *multiple* ABCs
        for t in hunt_types(object):
            if isinstance(t, abc.ABCMeta):
        del t

class MroCalculator:
    # Based on https://www.python.org/download/releases/2.3/mro/
    # but with more flexibility.
    def __init__(self):
        self.mro_cache = {}

    def bases(self, cls):
        assert isinstance(cls, type)
        return cls.__bases__

    def merge(self, mros):
        assert isinstance(mros, list)
        for mro in mros:
            assert isinstance(mro, list)
            for cls in mro:
                assert isinstance(cls, type)

        rv = []
        while True:
            mros = [mro for mro in mros if mro]
            if not mros:
                return tuple(rv)
            for mro in mros:
                cand = mro[0]
                for m in mros:
                    if cand in m[1:]:
                        cand = None
                if cand is not None:
            if cand is None:
                bad_bases = [mro[0] for mro in mros]
                bad_base_str = ', '.join(sorted(set([dotted_name(b) for b in bad_bases])))
                raise TypeError('Cannot create a consistent method resolution order (MRO) for bases %s' % bad_base_str)
            for mro in mros:
                if cand is mro[0]:
                    del mro[0]

    def mro(self, cls):
        assert isinstance(cls, type)
        rv = self.mro_cache.get(cls, None)
        if rv is not None:
            return rv

        bases = list(self.bases(cls))
        if cls is not object:
            assert bases, cls
        rv = self.merge([[cls]] + [list(self.mro(b)) for b in bases] + [bases])
        assert cls not in self.mro_cache
        assert isinstance(rv, tuple)
        self.mro_cache[cls] = rv
        return rv

class VirtualMroCalculator(MroCalculator):
    def bases(self, cls):
        super_bases = super().bases(cls)
        more_bases = tuple(tracked_bases.get(cls, ()))
        # Virtual bases must come *first* in the MRO to handle:
        #   class _io.BytesIO(_io._BufferedIOBase): pass
        #   class io.BufferedIOBase(_io._BufferedIOBase): pass
        #   io.BufferedIOBase.register(_io.BytesIO)
        # This also occurs in _frozen_importlib_external.
        return more_bases + super_bases

def get_global_virtual_mro_calculator():
    global global_virtual_mro_calculator
    global global_virtual_mro_calculator_token
    # The token can't change while we hold the lock.
    with tracker_lock:
        current_token = abc.get_cache_token()
        if current_token != global_virtual_mro_calculator_token:
            global_virtual_mro_calculator_token = current_token
            global_virtual_mro_calculator = VirtualMroCalculator()
        return global_virtual_mro_calculator

def virtual_mro(cls):
    virtual_mro_calculator = get_global_virtual_mro_calculator()
    # This may or may not see (and cache) concurrent changes.
    # The important part is that *future* calls will see them.
    return virtual_mro_calculator.mro(cls)


if __name__ == '__main__':
    dump_types(object, virtual=True)

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