I recently came across this syntax, I am unaware of the difference.

I would appreciate it if someone could tell me the difference.


The answer is explained here.

To quote:

A class is free to implement comparison any way it chooses, and it can choose to make comparison against None mean something (which actually makes sense; if someone told you to implement the None object from scratch, how else would you get it to compare True against itself?).

Practically-speaking, there is not much difference since custom comparison operators are rare. But you should use is None as a general rule.

  • 35
    Also, is None is a bit (~50%) faster than == None :) – Nas Banov Jul 16 '10 at 1:08
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    @myusuf3: >>> timeit.Timer('None is None').timeit() | 0.225 | >>> timeit.Timer('None == None').timeit() | 0.328 – Nas Banov Jan 25 '12 at 21:44
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    @myusuf3 You don't really need a proof for that. is is, basically, integer comparison while == is not only resolving references but comparing values which may have mismatching types. – Pijusn Aug 9 '13 at 15:40
  • 3
    One on favour of "is". When a variable can be either None or something that has no meaningful comparison with None. For example, a variable can be a numpy.array or None (my particular case). – Jblasco Oct 14 '14 at 10:38
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    I would like to add to what @TimLudwinski is saying: first, if someone chose to override the equality operator to make None a special case, why would we want to tell them otherwise? Second, "There should be one-- and preferably only one --obvious way to do it." And the obvious way to check if something is equal to something is, well, the equality operator. – Yuval Dec 14 '15 at 16:45
class Foo:
    def __eq__(self,other):
        return True

# True

print(foo is None)
# False

In this case, they are the same. None is a singleton object (there only ever exists one None).

is checks to see if the object is the same object, while == just checks if they are equivalent.

For example:

p = [1]
q = [1]
p is q # False because they are not the same actual object
p == q # True because they are equivalent

But since there is only one None, they will always be the same, and is will return True.

p = None
q = None
p is q # True because they are both pointing to the same "None"

If you use numpy,

if np.zeros(3)==None: pass

will give you error when numpy does elementwise comparison

protected by Jon Clements Sep 23 '13 at 16:43

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