I need a working approach of getting all classes that are inherited from a base class in Python.

10 Answers 10


New-style classes (i.e. subclassed from object, which is the default in Python 3) have a __subclasses__ method which returns the subclasses:

class Foo(object): pass
class Bar(Foo): pass
class Baz(Foo): pass
class Bing(Bar): pass

Here are the names of the subclasses:

print([cls.__name__ for cls in Foo.__subclasses__()])
# ['Bar', 'Baz']

Here are the subclasses themselves:

# [<class '__main__.Bar'>, <class '__main__.Baz'>]

Confirmation that the subclasses do indeed list Foo as their base:

for cls in Foo.__subclasses__():
# <class '__main__.Foo'>
# <class '__main__.Foo'>

Note if you want subsubclasses, you'll have to recurse:

def all_subclasses(cls):
    return set(cls.__subclasses__()).union(
        [s for c in cls.__subclasses__() for s in all_subclasses(c)])

# {<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>}

Note that if the class definition of a subclass hasn't been executed yet - for example, if the subclass's module hasn't been imported yet - then that subclass doesn't exist yet, and __subclasses__ won't find it.

You mentioned "given its name". Since Python classes are first-class objects, you don't need to use a string with the class's name in place of the class or anything like that. You can just use the class directly, and you probably should.

If you do have a string representing the name of a class and you want to find that class's subclasses, then there are two steps: find the class given its name, and then find the subclasses with __subclasses__ as above.

How to find the class from the name depends on where you're expecting to find it. If you're expecting to find it in the same module as the code that's trying to locate the class, then

cls = globals()[name]

would do the job, or in the unlikely case that you're expecting to find it in locals,

cls = locals()[name]

If the class could be in any module, then your name string should contain the fully-qualified name - something like 'pkg.module.Foo' instead of just 'Foo'. Use importlib to load the class's module, then retrieve the corresponding attribute:

import importlib
modname, _, clsname = name.rpartition('.')
mod = importlib.import_module(modname)
cls = getattr(mod, clsname)

However you find the class, cls.__subclasses__() would then return a list of its subclasses.

  • 16
    Do you really need vars()['Foo'].__subclasses__()? Isn't Foo.__subclasses__() the less kludgy equivalent, or am I missing something? – Matt Luongo Sep 28 '11 at 20:30
  • 8
    @Matt Luongo: In the comments to the question, the OP says, "I need a function that takes a name of some class and returns a list of classes". – unutbu Sep 28 '11 at 20:53
  • 10
    I agree with @Matt Luongo. Regardless of what the OP said in their comment, calling vars() without an argument is equivalent to locals(), so a subtlety of suggesting the use of vars()['Foo'] as shown in your answer, is that it implies that class Foo is defined in the local scope. This means that anywhere vars()['Foo'].__subclasses__() would work, Foo.__subclasses__() would, too. – martineau Aug 23 '12 at 18:01
  • Just now happened to notice your revision to use sets to avoid duplicates—however, I can't imagine a class inheritance tree that would contain them. Since, I assume you made the change for reason, would you please explain the motivation? – martineau Jul 12 '18 at 14:14
  • 4
    @martineau: One way a duplicate could arise is if someone defined class Bing(Bar, Foo): pass. Then the original all_subclasses(Foo) would return Bing twice. That might seem like a silly corner case, but I figure there little harm in fool-proofing the code by using set, thus guaranteeing the behavior we want. – unutbu Jul 12 '18 at 14:44

If you just want direct subclasses then .__subclasses__() works fine. If you want all subclasses, subclasses of subclasses, and so on, you'll need a function to do that for you.

Here's a simple, readable function that recursively finds all subclasses of a given class:

def get_all_subclasses(cls):
    all_subclasses = []

    for subclass in cls.__subclasses__():

    return all_subclasses
  • 3
    Thank you @fletom! Although what I needed back to those days was just __subclasses__() your solution is really nice. Take you +1 ;) Btw, I think it might be more reliable using generators in your case. – Roman Prykhodchenko Jul 5 '13 at 7:46
  • 2
    Shouldn't all_subclasses be a set to eliminate duplicates? – Ryne Everett Sep 4 '16 at 1:06
  • @RyneEverett You mean if you're using multiple inheritance? I think otherwise you shouldn't end up with duplicates. – fletom Sep 22 '16 at 13:41
  • @fletom Yes, multiple inheritance would be necessary for duplicates. For instance, A(object), B(A), C(A), and D(B, C). get_all_subclasses(A) == [B, C, D, D]. – Ryne Everett Sep 22 '16 at 15:42
  • @RomanPrykhodchenko: The title of your question says to find all the subclasses of a class given its name, but this as well as other only work given the class itself, not just its name—so just what is it? – martineau Feb 24 '18 at 19:10

The simplest solution in general form:

def get_subclasses(cls):
    for subclass in cls.__subclasses__():
        yield from get_subclasses(subclass)
        yield subclass

And a classmethod in case you have a single class where you inherit from:

def get_subclasses(cls):
    for subclass in cls.__subclasses__():
        yield from subclass.get_subclasses()
        yield subclass
  • 1
    The generator approach is really clean. – four43 Feb 24 '18 at 17:02

Python 3.6 - __init_subclass__

As other answer mentioned you can check the __subclasses__ attribute to get the list of subclasses, since python 3.6 you can modify this attribute creation by overriding the __init_subclass__ method.

class PluginBase:
    subclasses = []

    def __init_subclass__(cls, **kwargs):

class Plugin1(PluginBase):

class Plugin2(PluginBase):

This way, if you know what you're doing, you can override the behavior of of __subclasses__ and omit/add subclasses from this list.

  • Does that work for indirect for subclasses? – ChillarAnand Jun 12 '17 at 15:25
  • 1
    Yes any sub class from any kind would trigger the __init_subclass on the parent's class. – Or Duan Jun 12 '17 at 15:59

FWIW, here's what I meant about @unutbu's answer only working with locally defined classes — and that using eval() instead of vars() would make it work with any accessible class, not only those defined in the current scope.

For those who dislike using eval(), a way is also shown to avoid it.

First here's a concrete example demonstrating the potential problem with using vars():

class Foo(object): pass
class Bar(Foo): pass
class Baz(Foo): pass
class Bing(Bar): pass

# unutbu's approach
def all_subclasses(cls):
    return cls.__subclasses__() + [g for s in cls.__subclasses__()
                                       for g in all_subclasses(s)]

print(all_subclasses(vars()['Foo']))  # Fine because  Foo is in scope
# -> [<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>]

def func():  # won't work because Foo class is not locally defined

    func()  # not OK because Foo is not local to func()
except Exception as e:
    print('calling func() raised exception: {!r}'.format(e))
    # -> calling func() raised exception: KeyError('Foo',)

print(all_subclasses(eval('Foo')))  # OK
# -> [<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>]

# using eval('xxx') instead of vars()['xxx']
def func2():

func2()  # Works
# -> [<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>]

This could be improved by moving the eval('ClassName') down into the function defined, which makes using it easier without loss of the additional generality gained by using eval() which unlike vars() is not context-sensitive:

# easier to use version
def all_subclasses2(classname):
    direct_subclasses = eval(classname).__subclasses__()
    return direct_subclasses + [g for s in direct_subclasses
                                    for g in all_subclasses2(s.__name__)]

# pass 'xxx' instead of eval('xxx')
def func_ez():
    print(all_subclasses2('Foo'))  # simpler

# -> [<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>]

Lastly, it's possible, and perhaps even important in some cases, to avoid using eval() for security reasons, so here's a version without it:

def get_all_subclasses(cls):
    """ Generator of all a class's subclasses. """
        for subclass in cls.__subclasses__():
            yield subclass
            for subclass in get_all_subclasses(subclass):
                yield subclass
    except TypeError:

def all_subclasses3(classname):
    for cls in get_all_subclasses(object):  # object is base of all new-style classes.
        if cls.__name__.split('.')[-1] == classname:
        raise ValueError('class %s not found' % classname)
    direct_subclasses = cls.__subclasses__()
    return direct_subclasses + [g for s in direct_subclasses
                                    for g in all_subclasses3(s.__name__)]

# no eval('xxx')
def func3():

func3()  # Also works
# -> [<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>]
  • 3
    Using eval() and vars() for this kind of thing is pretty evil... – Chris Withers May 18 '15 at 13:19
  • 1
    @Chris: Added a version that doesn't use eval() — better now? – martineau May 19 '15 at 14:55

A much shorter version for getting a list of all subclasses:

from itertools import chain

def subclasses(cls):
    return list(
            [list(chain.from_iterable([[x], subclasses(x)])) for x in cls.__subclasses__()]

This isn't as good an answer as using the special built-in__subclasses__()class method which @unutbu mentions, so I present it merely as an exercise. Thesubclasses()function defined returns a dictionary which maps all the subclass names to the subclasses themselves.

def traced_subclass(baseclass):
    class _SubclassTracer(type):
        def __new__(cls, classname, bases, classdict):
            obj = type(classname, bases, classdict)
            if baseclass in bases: # sanity check
                attrname = '_%s__derived' % baseclass.__name__
                derived = getattr(baseclass, attrname, {})
                derived.update( {classname:obj} )
                setattr(baseclass, attrname, derived)
             return obj
    return _SubclassTracer

def subclasses(baseclass):
    attrname = '_%s__derived' % baseclass.__name__
    return getattr(baseclass, attrname, None)

class BaseClass(object):

class SubclassA(BaseClass):
    __metaclass__ = traced_subclass(BaseClass)

class SubclassB(BaseClass):
    __metaclass__ = traced_subclass(BaseClass)

print subclasses(BaseClass)


{'SubclassB': <class '__main__.SubclassB'>,
 'SubclassA': <class '__main__.SubclassA'>}

Here's a version without recursion:

def get_subclasses_gen(cls):

    def _subclasses(classes, seen):
        while True:
            subclasses = sum((x.__subclasses__() for x in classes), [])
            yield from classes
            yield from seen
            found = []
            if not subclasses:

            classes = subclasses
            seen = found

    return _subclasses([cls], [])

This differs from other implementations in that it returns the original class. This is because it makes the code simpler and:

class Ham(object):

assert(issubclass(Ham, Ham)) # True

If get_subclasses_gen looks a bit weird that's because it was created by converting a tail-recursive implementation into a looping generator:

def get_subclasses(cls):

    def _subclasses(classes, seen):
        subclasses = sum(*(frozenset(x.__subclasses__()) for x in classes))
        found = classes + seen
        if not subclasses:
            return found

        return _subclasses(subclasses, found)

    return _subclasses([cls], [])

How can I find all subclasses of a class given its name?

We can certainly easily do this given access to the object itself, yes.

Simply given its name is a poor idea, as there can be multiple classes of the same name, even defined in the same module.

I created an implementation for another answer, and since it answers this question and it's a little more elegant than the other solutions here, here it is:

def get_subclasses(cls):
    """returns all subclasses of argument, cls"""
    if issubclass(cls, type):
        subclasses = cls.__subclasses__(cls)
        subclasses = cls.__subclasses__()
    for subclass in subclasses:
    return subclasses


>>> import pprint
>>> list_of_classes = get_subclasses(int)
>>> pprint.pprint(list_of_classes)
[<class 'bool'>,
 <enum 'IntEnum'>,
 <enum 'IntFlag'>,
 <class 'sre_constants._NamedIntConstant'>,
 <class 'subprocess.Handle'>,
 <enum '_ParameterKind'>,
 <enum 'Signals'>,
 <enum 'Handlers'>,
 <enum 'RegexFlag'>]

I cannot imagine a real world use case for it, but a robust way (even on Python 2 old style classes) would be to scan the globals namespace:

def has_children(cls):
    g = globals().copy()   # use a copy to make sure it will not change during iteration
    g.update(locals())     # add local symbols
    for k, v in g.items(): # iterate over all globals object
            if (v is not cls) and issubclass(v, cls): # found a strict sub class?
                return True
        except TypeError:  # issubclass raises a TypeError if arg is not a class...
    return False

It works on Python 2 new style classes and Python 3 classes as well as on Python 2 classic classes

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