Python “is” statement: what is happening?

I was quite surprised when

``````[] is not []
``````

evaluated to `True`.

What is happening in this code? What really `not` and `is` statements are doing?

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`a is not b` is a special operator which is equivalent to `not a is b`.

The operator `a is b` returns True if a and b are bound to the same object, otherwise False. When you create two empty lists you get two different objects, so `is` returns False (and therefore `is not` returns True).

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if a and b are the same object - I would like are bound to the same object even better. –  Björn Pollex Sep 15 '10 at 14:30
@Space_C0wb0y: Fixed. –  Mark Byers Sep 15 '10 at 14:32

`is` is the identity comparison.

`==` is the equality comparison.

Your statement is making two different lists and checking if they are the same instance, which they are not. If you use `==` it will return true and because they are both empty lists.

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The best way to describe WHY that happens is this:

``````>>> x = []
>>> y = []
>>> print(x is y)
... False
``````

`x` and `y` are actually two different lists, so if you add something to `x`, it does not appear in `y`

``````>>> x.append(1)
>>> print(x)
... [1]
>>> print(y)
... []
``````

So how do we make (`x is y`) evaluate true?

``````>>> x = []
>>> y = x
>>> print(x is y)
... True

>>> x.append(10)

>>> print(x)
... [10]
>>> print(y)
... [10]

>>> print(x is y)
... True
``````

if you want to see if two lists have the same contents...

``````>>> x = []
>>> y = []
>>> print(x == y)
... True

>>> x.append(21)

>>> print(x)
... [21]
>>> print(y)
... []

>>> print(x == y)
... False

>>> y = [21]
>>> print(x == y)
... True
``````
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Excellent answer, but, after reading this in Python reference, I get confused: Due to automatic garbage-collection, free lists, and the dynamic nature of descriptors, you may notice seemingly unusual behaviour in certain uses of the is operator, like those involving comparisons between instance methods, or constants. –  auraham Aug 4 '12 at 3:50

`is` means is same instance. It evaluates to true if the variables on either side of the operator point to the same object and false otherwise.

Reference, near the bottom.

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is checks for identity. `[]` and `[]` are two different (but equivalent) lists. If you want to check if both the lists are empty you can use their truth value (false for empty strings, collections, and zeros).

``````if not ([] and []):
print 'Spanish Inquisition'
``````

the only time that `is` is guaranteed to return True is for singletons such as None. Like the Highlander, there can be only one instance of None in your program - every time you return None it's the very same "thing" as the none referred to if you type `print None`.

[], OTOH, is not guaranteed to be anything except an empty list and evaluate to False in a boolean context.

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`a = b`. I believe that we are now guaranteed that `a is b`. –  recursive Sep 15 '10 at 14:38
@recursive that is true :) –  Jiaaro Sep 15 '10 at 14:43
@recursive, do you know if that's the case for strings/numbers? –  Wayne Werner Sep 16 '10 at 13:59
As far as I know, it's true for everything. When you assign `b` to `a` in python, you are assigning `a` to be a reference to the object currently referenced by `b`. So their identity will be identical. It's python, so it may be possible to do some weird thing like overriding assignment to break this, but in general, I'd say yes. –  recursive Sep 16 '10 at 14:09
I guess that makes sense - and is different from `a = "hi"; b = "hi"` which `is` behavior is not guaranteed aside from returning True or False. –  Wayne Werner Sep 16 '10 at 14:30
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