I had a bug where I was relying on methods being equal to each other when using is. It turns out that's not the case:

>>> class What:
...     def meth(self):
...         pass

>>> What.meth is What.meth  # This is False in Python 2
>>> inst = What()
>>> inst.meth is inst.meth

Why is that the case? It works for regular functions:

>>> def func(): pass
>>> func is func
  • 4
    This works in Python 3 btw.
    – poke
    Apr 12, 2013 at 17:55
  • 3
    @poke no, What.meth is What.meth works (returns True) but inst = What(); inst.meth is inst.meth returns False on Python 3.8.0
    – user3064538
    Apr 9, 2020 at 15:41

2 Answers 2


Method objects are created each time you access them. Functions act as descriptors, returning a method object when their .__get__ method is called:

>>> What.__dict__['meth']
<function What.meth at 0x10a6f9c80>
>>> What.__dict__['meth'].__get__(What(), What)
<bound method What.meth of <__main__.What object at 0x10a6f7b10>>

If you're on Python 3.8 or later, you can use == equality testing instead. On Python 3.8 and later, two methods are equal if their .__self__ and .__func__ attributes are identical objects (so if they wrap the same function, and are bound to the same instance, both tested with is).

Before 3.8, method == behaviour is inconsistent based on how the method was implemented - Python methods and one of the two C method types compare __self__ for equality instead of identity, while the other C method type compares __self__ by identity. See Python issue 1617161.

If you need to test that the methods represent the same underlying function, test their __func__ attributes:

>>> What.meth == What.meth     # functions (or unbound methods in Python 2)
>>> What().meth == What.meth   # bound method and function
>>> What().meth == What().meth # bound methods with *different* instances
>>> What().meth.__func__ == What().meth.__func__ # functions
  • 1
    If I use == will I get the identity-equality behavior I was looking for?
    – Claudiu
    Apr 12, 2013 at 17:56
  • I think method equality checks identity for .im_self, not equality. check it out
    – Claudiu
    Apr 12, 2013 at 18:06
  • @Claudiu: yes, sorry, it tests if im_self is identical.
    – Martijn Pieters
    Apr 12, 2013 at 18:08
  • @Claudiu Claudiu, Martijn : you mean, in the comments, that method equality checks identity for im_self AND im_func, don't you ? That's the point that has been corrected in the edit, hasn't it ?
    – eyquem
    Jan 20, 2014 at 3:00
  • Yes, both are tested for identity; functions are only equal if they are identical anyway.
    – Martijn Pieters
    Jan 20, 2014 at 8:27

Martijn is right that a new Methods are objects generated by .__get__ so their address pointers don't equate with an is evaluation. Note that using == will evaluate as intended in Python 2.7.

class Test(object):
    def tmethod(self):

>>> Test.meth is Test.meth
>>> Test.meth == Test.meth

>>> t = Test()
>>> t.meth is t.meth
>>> t.meth == t.meth

Note however that methods referenced from an instance do not equate to those referenced from class because of the self reference carried along with the method from an instance.

>>> t = Test()
>>> t.meth is Test.meth
>>> t.meth == Test.meth

In Python 3.3 the is operator for methods more often behaves the same as the == so you get the expected behavior instead in this example. This results from both __cmp__ disappearing and a cleaner method object representation in Python 3; methods now have __eq__ and references are not built-on-the-fly objects, so the behavior follows as one might expect without Python 2 expectations.

>>> Test.meth is Test.meth
>>> Test.meth == Test.meth
>>> Test.meth.__eq__(Test.meth)
  • Your analysis is off. The changes you observed in Python 3 aren't related to is; they're due to the disappearance of unbound method objects in Python 3. Test.meth is now just the raw function object you defined, instead of an unbound method object created on the fly. Jan 28, 2017 at 23:32
  • Ahh yes, I added some clarifying details to include the unbound object issue.
    – Pyrce
    Jan 31, 2017 at 19:10

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