How can I get the class that defined a method in Python?

I'd want the following example to print "__main__.FooClass":

class FooClass:
    def foo_method(self):
        print "foo"

class BarClass(FooClass):

bar = BarClass()
print get_class_that_defined_method(bar.foo_method)
  • What version of Python are you using? Before 2.2 you could use im_class, but that was changed to show the type of the bound self object. – Kathy Van Stone Jun 7 '09 at 2:40
  • 1
    Good to know. But I'm using 2.6. – Jesse Aldridge Jun 7 '09 at 2:48
import inspect

def get_class_that_defined_method(meth):
    for cls in inspect.getmro(meth.im_class):
        if meth.__name__ in cls.__dict__: 
            return cls
    return None
| improve this answer | |
  • 1
    Thanks, it would have taken me a while to figure this out on my own – David Jan 12 '10 at 8:53
  • Beware, not all classes implement __dict__! Sometimes __slots__ is used. It's probably better to use getattrto test if the method is in the class. – Codie CodeMonkey Mar 11 '13 at 22:07
  • 16
    For Python 3, please refer to this answer. – Yoel Sep 21 '14 at 13:13
  • 27
    I am getting: 'function' object has no attribute 'im_class' – Zitrax Jun 24 '15 at 9:00
  • 5
    In Python 2.7 it does not work. Same error about missing 'im_class'. – RedX May 23 '16 at 11:54

Thanks Sr2222 for pointing out I was missing the point...

Here's the corrected approach which is just like Alex's but does not require to import anything. I don't think it's an improvement though, unless there's a huge hierarchy of inherited classes as this approach stops as soon as the defining class is found, instead of returning the whole inheritance as getmro does. As said, this is a very unlikely scenario.

def get_class_that_defined_method(method):
    method_name = method.__name__
    if method.__self__:    
        classes = [method.__self__.__class__]
        #unbound method
        classes = [method.im_class]
    while classes:
        c = classes.pop()
        if method_name in c.__dict__:
            return c
            classes = list(c.__bases__) + classes
    return None

And the Example:

>>> class A(object):
...     def test(self): pass
>>> class B(A): pass
>>> class C(B): pass
>>> class D(A):
...     def test(self): print 1
>>> class E(D,C): pass

>>> get_class_that_defined_method(A().test)
<class '__main__.A'>
>>> get_class_that_defined_method(A.test)
<class '__main__.A'>
>>> get_class_that_defined_method(B.test)
<class '__main__.A'>
>>> get_class_that_defined_method(C.test)
<class '__main__.A'>
>>> get_class_that_defined_method(D.test)
<class '__main__.D'>
>>> get_class_that_defined_method(E().test)
<class '__main__.D'>
>>> get_class_that_defined_method(E.test)
<class '__main__.D'>
>>> E().test()

Alex solution returns the same results. As long as Alex approach can be used, I would use it instead of this one.

| improve this answer | |
  • Cls().meth.__self__ just gives you the instance of Cls that is bound to that specific instance of meth. It's analogous to Cls().meth.im_class. If you have class SCls(Cls), SCls().meth.__self__ will get you a SCls instance, not a Cls instance. What the OP wants is to get Cls, which it appears is only available by walking the MRO as @Alex Martelli does. – Silas Ray Dec 20 '12 at 15:03
  • @sr2222 You are right. I've modified the answer as I have already started though I think Alex solution is more compact. – estani Dec 30 '12 at 13:01
  • 1
    It's a good solution if you need to avoid imports, but since you are basically just re-implementing the MRO, it's not guaranteed to work forever. The MRO will probably stay the same, but it was already changed once in Python's past, and if it is changed again, this code will result is subtle, pervasive bugs. – Silas Ray Jan 2 '13 at 14:20
  • Time and time again, "very unlikely scenarios" do happen in programming. Seldomly, causing disasters. In general, the thinking pattern "XY.Z% it won't ever happen" is extremely lousy thinking tool when doing coding. Don't use it. Write 100% correct code. – ulidtko May 7 at 11:01
  • @ulidtko I think you misread the explanation. It's not about correctness but speed. There is no "perfect" solution that fits all cases, otherwise e.g. there will be only one sorting algorithm. The solution proposed here should be faster in the "rare" case. Since speed comes in 99% percentage of all cases after readability, this solution might be a better solution in "only" that rare case. The code, in case you didn't read it, is 100% correct, if that was what you've feared. – estani May 10 at 10:45

I don't know why no one has ever brought this up or why the top answer has 50 upvotes when it is slow as hell, but you can also do the following:

def get_class_that_defined_method(meth):
    return meth.im_class.__name__

For python 3 I believe this changed and you'll need to look into .__qualname__.

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  • 2
    Hmm. I am not seeing the defining class when I do that in python 2.7 -- I am getting the class that the method was called on, not the one where it is defined... – F1Rumors Aug 27 '18 at 14:00

In Python 3, if you need the actual class object you can do:

import sys
f = Foo.my_function
vars(sys.modules[f.__module__])[f.__qualname__.split('.')[0]]  # Gets Foo object

If the function could belong to a nested class you would need to iterate as follows:

f = Foo.Bar.my_function
vals = vars(sys.modules[f.__module__])
for attr in f.__qualname__.split('.')[:-1]:
    vals = vals[attr]
# vals is now the class Foo.Bar
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I started doing something somewhat similar, basically the idea was checking whenever a method in a base class had been implemented or not in a sub class. Turned out the way I originally did it I could not detect when an intermediate class was actually implementing the method.

My workaround for it was quite simple actually; setting a method attribute and testing its presence later. Here's an simplification of the whole thing:

class A():
    def method(self):
    method._orig = None # This attribute will be gone once the method is implemented

    def run_method(self, *args, **kwargs):
        if hasattr(self.method, '_orig'):
            raise Exception('method not implemented')
        self.method(*args, **kwargs)

class B(A):

class C(B):
    def method(self):

class D(C):

B().run_method() # ==> Raises Exception: method not implemented
C().run_method() # OK
D().run_method() # OK

UPDATE: Actually call method() from run_method() (isn't that the spirit?) and have it pass all arguments unmodified to the method.

P.S.: This answer does not directly answer the question. IMHO there are two reasons one would want to know which class defined a method; first is to point fingers at a class in debug code (such as in exception handling), and the second is to determine if the method has been re-implemented (where method is a stub meant to be implemented by the programmer). This answer solves that second case in a different way.

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Python 3

Solved it in a very simple way:

str(bar.foo_method).split(" ", 3)[-2]

This gives


Split on the dot to get the class and the function name separately

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