I've observed at least 3 types related to functions in Python 3:

>>> class A():
...  def f(): pass
>>> A.f
<function A.f at 0x7fcaef304268>
>>> A().f
<bound method A.f of <__main__.A object at 0x7fcaef2fae80  
>>> set.union
<method 'union' of 'set' objects>

I'm wondering what's the difference between 'function', 'method' and 'bound method'? Is 'method' a type equivalent to 'unbound method' in Python 2?

1 Answer 1


Is 'method' a type equivalent to 'unbound method' in Python 2?

Kind-a-sort-a. But not really. It is a method_descriptor object defined in C code. It is an unbound method, but not the kind you found in Python 2.

For Python types written C, all 'methods' are really C functions. The <method 'name' of 'type' objects> object you found is a special object you can use to call that function given an instance and further arguments, just like the function object does for custom Python classes. The object is defined in C in the PyMethodDescr_Type structure. It implements the descriptor protocol, just like functions do.

Python defines several other such descriptor types; if you use __slots__, each attribute is a dsescriptor of type member_descriptor (see the PyMemberDescr_Type structure), while classmethod, property and staticmethod are perhaps better known descriptor objects.

In Python 2, bound and unbound methods are really just one type, instancemethod (defined by the PyMethod_Type structure); it'll report as bound if the __self__ (im_self) attribute is set. In Python 3 using a function as a descriptor simply doesn't produce method objects without __self__ set; instead calling function.__get__() with no instance just returns the function again.

The only reason Python 2 returns unbound methods is to enforce a type check; the first argument must be an instance of the class (or a subclass thereof). This didn't make all that much sense for Python code that supports duck-typing, so in Python 3 the restriction was removed. However, with C code you can't use duck-typing, you still have to restrict the type, and that's why C-types still return a method_descriptor object that enforces this restriction.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.