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Why is the first result False, should it not be True?

>>> from collections import OrderedDict
>>> OrderedDict.__repr__ is OrderedDict.__repr__
>>> dict.__repr__ is dict.__repr__
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Python 3.3 returns True – HashSplat Jun 23 '14 at 14:06
It is Python 2.7. – Chameleon Jun 23 '14 at 14:17
@JustinEngel: That's because Python 3 does away with unbound methods, all methods are bound. Try OrderedDict().__repr__ is OrderedDict().__repr__ in Python 3 and you'll see the same behaviour. – Martijn Pieters Jun 23 '14 at 14:24
I curious how something like this would ever be touched on in practical code – Nick T Jun 23 '14 at 20:17
@NickT: Verifying a monkey-patched method would require knowledge of how methods are bound. Adding a method from one class to another class would also require that you extract the function object, not the method, etc. – Martijn Pieters Jun 24 '14 at 9:56
up vote 55 down vote accepted

For user-defined functions, in Python 2 unbound and bound methods are created on demand, through the descriptor protocol; OrderedDict.__repr__ is such a method object, as the wrapped function is implemented as a pure-Python function.

The descriptor protocol will call the __get__ method on objects that support it, so __repr__.__get__() is called whenever you try to access OrderedDict.__repr__; for classes None (no instance) and the class object itself are passed in. Because you get a new method object each time the function __get__ method is invoked, is fails. It is not the same method object.

dict.__repr__ is not a custom Python function but a C function, and its __get__ descriptor method essentially just returns self when accessed on the class. Accessing the attribute gives you the same object each time, so is works:

>>> dict.__repr__.__get__(None, dict) is dict.__repr__  # None means no instance

Methods have a __func__ attribute referencing the wrapped function, use that to test for identity:

>>> OrderedDict.__repr__
<unbound method OrderedDict.__repr__>
>>> OrderedDict.__repr__.__func__
<function __repr__ at 0x102c2f1b8>
>>> OrderedDict.__repr__.__func__.__get__(None, OrderedDict)
<unbound method OrderedDict.__repr__>
>>> OrderedDict.__repr__.__func__ is OrderedDict.__repr__.__func__

Python 3 does away with unbound methods, function.__get__(None, classobj) returns the function object itself (so it behaves like dict.__repr__ does). But you will see the same behaviour with bound methods, methods retrieved from an instance.

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As a simply test to prove this for yourself, create a class with its __repr__ method as __repr__ = lambda :x, and the is test will fail. Actually, overriding __repr__ in general will cause is to fail. – aruisdante Jun 23 '14 at 14:06
And, in the general case, NO classes' pure-python unbound methods compare as True with is. – aruisdante Jun 23 '14 at 14:12
@aruisdante: well, you can create (more than one) reference to the method object, and then you can still use is. But retrieving a method from a class gives you a fresh object because the function __get__ method produces a new object. – Martijn Pieters Jun 23 '14 at 14:13
Ah yeah, sure, I meant via direct comparison as the OP did. And obviously your answer actually says that, it just isn't immediately obvious. Perhaps providing a simple example where you show that for ANY class with ANY pure-python methods this will happen would be helpful to future viewers of this question. – aruisdante Jun 23 '14 at 14:15
@aruisdante: I am more focusing on the difference here with dict.__repr__; talking just about the method objects is a duplicate, actually. – Martijn Pieters Jun 23 '14 at 14:16

The two OrderedDict.__repr__ are not bound to the same object. If you try:

 OrderedDict.__repr__ == OrderedDict.__repr__

you'll see that they have the same value.

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