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class A(object):

    def __init__(self, value):
        self.value = value

x = A(1)
y = A(2)

q = [x, y]

I want to remove from the list a specific object which was added before to it and to which I still have a reference. I do not want an equality test. I want an identity test. This code seems to work in both CPython and IronPython, but does the language guarantee this behavior or is it just a fluke?

The list.remove method documentation is this: same as del s[s.index(x)], which implies that an equality test is performed.

So will an object be equal to itself if you don't override __cmp__, __eq__ or __ne__?

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3 Answers 3

up vote 7 down vote accepted

Yes, in your case q.remove(y) would remove the first occurrence of an object which compares equal with y. However, the way you have defined your class A, you wouldn't ever have another object compare equal to y, except another reference to y itself.

This is because no other object could have a memory address equal to id(y) within y's lifetime, i.e. as long as you hold a reference to y (which you must, if you're going to remove it from a list!)

The relevant section of the docs is here:

If no __cmp__(), __eq__() or __ne__() operation is defined, class instances are compared by object identity (“address”).

edit: Just for fun, here's one way to create an object which does not compare equal to itself, but will compare equal to anything else:

>>> class Liar(object):
...   def __cmp__(self, other):
...     return id(self) == id(other)
>>> x = Liar()
>>> x
<__main__.Liar object at 0x7f1e02f3de10>
>>> x == x
>>> x == 1
>>> x == 'hello world'

You might notice this seemingly weird behaviour is the opposite of expectations, given the implementation. This is because __cmp__ interprets returning True as returning integer 1, and any positive integer represents 'greater than', whereas when id(self) != id(other) then False is interpreted as integer 0, which means that self == other. It's a very confused class!

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The answer is yes and no.

Consider the following example

>>> class A(object):
    def __init__(self, value):
        self.value = value        
>>> x = A(1)
>>> y = A(2)
>>> z = A(3)
>>> w = A(3)
>>> q = [x, y,z]
>>> id(y) #Second element in the list and y has the same reference
>>> id(q[1]) #Second element in the list and y has the same reference
>>> q.remove(y) #So it just compares the id and removes it
>>> q
[<__main__.A object at 0x02C19AB0>, <__main__.A object at 0x02C19B50>]
>>> q.remove(w) #Fails because though z and w contain the same value yet they are different object
Traceback (most recent call last):
  File "<pyshell#11>", line 1, in <module>
ValueError: list.remove(x): x not in list 

It will remove from the list iff they are the same object. If they are different object with same value it won;t remove it.

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The answer is simply yes, it's not "yes and no". And the OP explicitly said they wanted an identity test, not an equality test. –  wim Dec 21 '11 at 11:40

In python, by default an object is always equal to itself (the only exception I can think of is float("nan"). An object of a user-defined class will not be equal to any other object unless you define a comparison function.

See also http://docs.python.org/reference/expressions.html#notin

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