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I have python class trees, each made up of an abstract base class and many deriving concrete classes. I want all concrete classes to be accessible through a base-class method, and I do not want to specify anything during child-class creation.

This is what my imagined solution looks like:

class BaseClassA(object):
    # <some magic code around here>
    def getConcreteClasses(cls):
        # <some magic related code here>

class ConcreteClassA1(BaseClassA):
    # no magic-related code here

class ConcreteClassA2(BaseClassA):
    # no magic-related code here

As much as possible, I'd prefer to write the "magic" once as a sort of design pattern. I want to be able to apply it to different class trees in different scenarios (i.e. add a similar tree with "BaseClassB" and its concrete classes).

Thanks Internet!

share|improve this question
That's... not really a solution... – Ignacio Vazquez-Abrams Jul 18 '11 at 8:07
Will all of the concrete classes be in the same source file? – Triptych Jul 18 '11 at 8:08
@Ignacio: indeed that's not a solution, it's how I would like to use a solution in my scenario. @Triptych: No, not necessarily. – Yonatan Jul 18 '11 at 8:38
up vote 5 down vote accepted

you can use meta classes for that:

class AutoRegister(type):
    def __new__(mcs, name, bases, classdict):
        new_cls = type.__new__(mcs, name, bases, classdict)
        #print mcs, name, bases, classdict
        for b in bases:
            if hasattr(b, 'register_subclass'):
        return new_cls

class AbstractClassA(object):
    __metaclass__ = AutoRegister
    _subclasses = []

    def register_subclass(klass, cls):

    def get_concrete_classes(klass):
        return klass._subclasses

class ConcreteClassA1(AbstractClassA):

class ConcreteClassA2(AbstractClassA):

class ConcreteClassA3(ConcreteClassA2):

print AbstractClassA.get_concrete_classes()

I'm personnaly very wary of this kind of magic. Don't put too much of this in your code.

share|improve this answer
Very elegant! I've seen a similar solution with meta-classes, but less flexible. Thanks Alex! – Yonatan Jul 18 '11 at 8:45

Another way to do this, with a decorator, if your subclasses are either not defining __init__ or are calling their parent's __init__:

def lister(cls):
    cls.classes = list()
    cls._init = cls.__init__
    def init(self, *args, **kwargs):
        cls = self.__class__
        if cls not in cls.classes:
        cls._init(self, *args, **kwargs)
    cls.__init__ = init
    def getclasses(cls):
        return cls.classes
    cls.getclasses = getclasses
    return cls

class A(object): pass

class B(A): pass

class C(A):
    def __init__(self):
        super(C, self).__init__()

b = B()
c = C()
c2 = C()
print 'Classes:', c.getclasses()

It will work whether or not the base class defines __init__.

share|improve this answer
The 'init' limitation is totally acceptable; however, note that concrete classes will not be 'registered' until the first instance has been created. This does not fit my scenario where I want to choose which class to instantiate based on which concrete classes are available. However, it's very good for when you want to register only classes which have actually been instantiated. – Yonatan Jul 18 '11 at 8:56
Didn't think about what your use case was. Also, came back to add this is probably better done with __new__ rather than __init__ as it's perhaps less likely to be overridden without calling the parent class' __new__. – agf Jul 18 '11 at 9:25

You should know that part of the answer you're looking for is built-in. New-style classes automatically keep a weak reference to all of their child classes which can be accessed with the __subclasses__ method:

def getConcreteClasses(cls):
    return cls.__subclasses__()

This won't return sub-sub-classes. If you need those, you can create a recursive generator to get them all:

def getConcreteClasses(cls):
    for c in cls.__subclasses__():
        yield c
        for c2 in c.getConcreteClasses():
            yield c2
share|improve this answer
Brilliant, I had no idea this mechanism exists. This is great when no "callback" behavior of registration is required, but instead on-demand iteration of subclass tree. It's also nice to generate the subclass tree starting from python's built-in "object" class. – Yonatan Jul 18 '11 at 14:28

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