How can you get a not bound class method?

class Foo:
    def bar(cls): pass

>>> Foo.bar
<bound method type.bar of <class '__main__.Foo'>>

Edit: This is python 3. Sorry for the confusion.

  • Did you really mean for Foo to be an old-style class here? – abarnert Jan 29 '13 at 2:32
  • In Python 3, there is no such thing as an unbound method. I'll update my answer, but… it's not as interesting a question. – abarnert Jan 29 '13 at 2:35
  • Changing the phrase to "not bound class method" doesn't help. There still is no such thing. If you want the bare function itself, my answer already says how to get that. If you want something different, then either you're asking for something that doesn't exist, or you need to explain what exactly you're asking for. – abarnert Jan 29 '13 at 2:46
  • What do you actually want this thing for? What do you plan to do with it? If you want to make calls on it by passing it an explicit cls argument, or create bound methods out of it, or anything else, what you want (in Python 3) is just a plain old function. (And if you want to call it directly, the bound method is already what you want.) – abarnert Jan 29 '13 at 2:50

Python 3 does not have unbound methods. Forget about classmethods for a moment, and look at this:

>>> class Foo:
...     def baz(self): pass
>>> Foo.baz
<function __main__.baz>

In 2.x, this would be <unbound method Foo.baz>, but 3.x does not have unbound methods.

If you want to get the function out of a bound method, that's easy:

>>> foo = Foo()
>>> foo.baz
<bound method Foo.baz of <__main__.Foo object at 0x104da6850>>
>>> foo.baz.__func__
<function __main__.baz>

In the same way:

>>> class Foo:
...     @classmethod
...     def bar(cls): pass
>>> Foo.bar
<bound method type.bar of <class '__main__.Foo'>>
>>> Foo.bar.__func__
<function __main__.bar>

Things are much more interesting in 2.x, because there actually are unbound methods to get. You can't normally see an unbound classmethod, because the whole point is that they get bound to the class at class creation time, instead of being left unbound and then bound to each instance at instance creation time.

But really, an unbound method is just any instancemethod whose im_self is None. So, just as you can do this:

class Foo(object):
    def baz(self): pass

foo = Foo()
bound_baz = foo.baz
unbound_baz = new.instancemethod(bound_baz.im_func, None, bound_baz.im_class)

Note that bound_baz.im_func is the 2.x version of bound_baz.__func__ in 3.x—but that new.instancemethod does not have a 3.x equivalent.

The documentation says that new is deprecated in favor of types, for 3.x compatibility, and in fact, you can do this in 2.x:

unbound_baz = types.MethodType(bound_baz.im_func, None, bound_baz.im_class)

But that doesn't work in 3.x, because MethodType does not take a class parameter, and does not allow its instance parameter to be None. And personally, when I'm doing something that is explicitly 2.x-only and cannot be ported to 3.x, I think using new is clearer.

Anyway, given a class in 2.x, you can do this:

class Foo(object):
    def bar(cls): pass

bound_bar = Foo.bar
unbound_bar = new.instancemethod(bound_bar.im_func, None, bound_bar.im_class)

If you print it out, you'll see:

<unbound method type.bar>

Or, using your example, with an old-style class:

class Foo:
    def bar(cls): pass

<unbound method classobj.bar>

And yes, maybe it's a bit of a cheat that the im_class of a classmethod for an old-style class is classobj even though that's not Foo.__class__, but it seems like the most reasonable way to get old-style and new-style classes working similarly in all of the usual use cases.

  • Thanks for your answer. Sorry if my terminology was confusing. By "unbound" I meant "not bound". Messing around, I stumbled on this solution: Foo.__dict__['bar'] – darkfeline Jan 29 '13 at 2:46
  • 1
    @darkfeline: That isn't really right. Most seriously, what you've got there (a builtins.classmethod instance) isn't a method, and isn't even callable. But there are more minor issues, like the fact that this probably doesn't work with inheritance the way you expect. Why is Foo.bar.__func__ not what you're looking for? – abarnert Jan 29 '13 at 2:48
  • I see what you're saying. Foo.__dict__['bar'] seemed like it was getting the function directly, but after some more testing and reading up on descriptors, I see that is not the case. Thanks for your answer, though it's a bit long-winded =) – darkfeline Jan 29 '13 at 2:52
  • @darkfeline: Well, I'd already written the 2.x answer, and it seemed easier to write a 3.x answer that referred to what was already there, than to rewrite it and have to say half the same stuff in a slightly different way. – abarnert Jan 29 '13 at 2:53

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