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

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What do you mean by "the base class"? – Andrew Jaffe Oct 5 '10 at 9:19
As modules that havn't been imported yet simply don't exist, there's no general-purpose way to do this. If you want to examine the ones that are, start at the inspect module. – Glenn Maynard Oct 5 '10 at 9:20
I think he means "some class". – Deniz Dogan Oct 5 '10 at 9:21
is it a particular class and can you modify it or do you want to do it for subclasses of any class? – aaronasterling Oct 5 '10 at 9:22
I need a function that takes a name of some class and returns a list of classes the specified one is the base class for. Will check the inspect module as Glenn Maynard advised. – Roman Prykhodchenko Oct 5 '10 at 9:40

4 Answers 4

up vote 88 down vote accepted

New-style classes 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 vars()['Foo'].__subclasses__()])
# ['Bar', 'Baz']

Here are the subclasses themselves:

print([cls for cls in vars()['Foo'].__subclasses__()])
# [<class '__main__.Bar'>, <class '__main__.Baz'>]

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

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

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

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

# [<class '__main__.Bar'>, <class '__main__.Baz'>, <class '__main__.Bing'>]
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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
@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
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
To make it work with a class name given as a string, I would suggest instead using something like eval('Foo').__subclasses__() which would effectively do the same sequence of lookups that Python normally uses for any name: locals, globals, and then lastly among builtins. – martineau Feb 6 '13 at 0:53

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
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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

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'>}
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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):
        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'>]
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Using eval() and vars() for this kind of thing is pretty evil... – Chris Withers May 18 at 13:19
@Chris: Added a version that doesn't use eval() — better now? – martineau May 19 at 14:55

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