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I am new to python, and I don't quite understand the __func__ in python 2.7.

I know when I define a class like this:

class Foo:
    def f(self, arg):
        print arg

I can use either Foo().f('a') or Foo.f(Foo(), 'a') to call this method. However, I can't call this method by Foo.f(Foo, 'a'). But I accidently found that I can use Foo.f.__func__(Foo, 'a') or even Foo.f.__func__(1, 'a') to get the same result.

I print out the values of Foo.f, Foo().f and Foo.f.__func__, and they are all different. However, I have only one piece of code in definition. Who can help to explain how above code actually works, especially the __func__? I get really confused now.

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See here. Basically, in python 2 there's a difference between "bound" and "unbound" methods. –  gdbdmdb Oct 17 '12 at 13:22
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1 Answer 1

up vote 8 down vote accepted

When you access Foo.f or Foo().f a method is returned; it's unbound in the first case and bound in the second. A python method is essentially a wrapper around a function that also holds a reference to the class it is a method of. When bound, it also holds a reference to the instance.

When you call an method, it'll do a type-check on the first argument passed in to make sure it is an instance (it has to be an instance of the referenced class, or a subclass of that class). When the method is bound, it'll provide that first argument, on an unbound method you provide it yourself.

It's this method object that has the __func__ attribute, which is just a reference to the wrapped function. By accessing the underlying function instead of calling the method, you remove the typecheck, and you can pass in anything you want as the first argument. Functions don't care about their argument types, but methods do.

Note that in Python 3, this has changed; Foo.f just returns the function, not an unbound method. Foo().f returns a method still, still bound, but there is no way to create an unbound method any more.

Under the hood, each function object has a __get__ method, this is what returns the method object:

>>> class Foo(object):
...     def f(self): pass
... 
>>> Foo.f
<unbound method Foo.f>
>>> Foo().f
<bound method Foo.f of <__main__.Foo object at 0x11046bc10>>
>>> Foo.__dict__['f']
<function f at 0x110450230>
>>> Foo.f.__func__
<function f at 0x110450230>
>>> Foo.f.__func__.__get__(Foo(), Foo)
<bound method Foo.f of <__main__.Foo object at 0x11046bc50>>
>>> Foo.f.__func__.__get__(None, Foo)
<unbound method Foo.f>
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Thanks for your explanation! I now understand how my code works. Still, I think I need some more time to look into the __get__ you just talk about. You have been very helpful. –  cutejumper Oct 17 '12 at 13:35
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