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Is this just two ways to write the same code? Is there any functional difference I should be aware of?

>>> a = 'foo'
>>> if not a == 'bar':
...     'its not'
'its not'
>>> if a != 'bar':
...     'its not'
'its not'
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When you used timeit what did you find? –  S.Lott Dec 15 '11 at 2:55

2 Answers 2

up vote 6 down vote accepted

In python, to check whether or not an object is equal or not equal to another object, special functions are called. __eq__ is called to check ==, while __ne__ is called to check !=

In general, an object could define __ne__ differently than __eq__.


class Junk(object):
    def __ne__(self, other):
        return False

    def __eq__(self, other):
        return False

j = Junk()
print not j == 1
print j != 1

This yields:


However, this would be especially evil... You usually should never have to worry about this.

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Strange! What is an example where one would actually want for a.__ne__(b) != not a.__eq__(b) ? –  wim Dec 15 '11 at 2:49
That's a great question! I honestly can't think of one... However, there are cases where this issues raises its head. Numpy ndarrays are a good example. somearray != 1 will return a boolean array, while not somearray == 1 will raise an error. This is because __eq__ and __ne__ return boolean arrays, but not somearray is (deliberately) undefined. (This probably seems confusing if you haven't worked with numpy much. My apologies if this example makes no sense!) –  Joe Kington Dec 15 '11 at 2:58

not a == b gets translated to a call to not a.__eq__(b), while a != b gets translated to a call to a.__ne__(b). For the most part (pretty much every normal object I can think of), __ne__ is defined as def __ne__(self, other): not self.__eq__(other), so there's no functional difference. However, you could easily create a psychotic object that was both equal and not equal to other values, just by overriding __ne__ in the right way (though I can't think of a case where that would make sense right now).

On the flip side, the builtin objects probably implement a != b in manner that's slightly faster than not a == b, but probably not by any noticable amount.

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