While the first part of the question (which is in the title) has been answered a few times before (i.e., Why is NaN not equal to NaN?), I don't see why the second piece works the way it does (inspired by this question How to Check list containing NaN)?


>> nan == nan

>> nan in [nan]

An explanatory addendum to the question considering the answer from @DSM. So, why float("nan") is behaving differently from nan? Shouldn't it evaluate again to simple nan and why interpreter behaves this way?

>> x = float("nan")
>> y = nan
>> x
>> y
>> x is nan, x is float("nan"), y is nan
(False, False, True)

Basically, it refers to same generic nan in the first case, but creates separate object in the second:

>> nans = [nan for i in range(2)]
>> map(id, nans)
[190459300, 190459300]
>> nans = [float("nan") for i in range(2)]
>> map(id, nans)
[190459300, 190459301]
  • 2
    Re your addendum, float('nan') always creates a new object. The nan that you're testing against is a pre-existing object that will never be the same ID as a newly created one. Assignment in Python always simply references the original object; a = b; a is b will always return True no matter what b is. Dec 2, 2013 at 4:33

1 Answer 1


nan not being equal to nan is part of the definition of nan, so that part's easy.

As for nan in [nan] being True, that's because identity is tested before equality for containment in lists. You're comparing the same two objects.

If you tried the same thing with two different nans, you'd get False:

>>> nans = [float("nan") for i in range(2)]
>>> map(id, nans)
[190459300, 190459284]
>>> nans
[nan, nan]
>>> nans[0] is nans[1]
>>> nans[0] in nans
>>> nans[0] in nans[1:]

Your addendum doesn't really have much to do with nan, that's simply how Python works. Once you understand that float("nan") is under no obligation to return some nan singleton, and that y = x doesn't make a copy of x but instead binds the name y to the object named by x, there's nothing left to get.

  • Hmm... Why the nan's are the same in the first example? Why aren't they initialized as two different objects? Because x = nan and nan in [x] still returns True.
    – sashkello
    Dec 2, 2013 at 2:52
  • 3
    @sashkello: what first example are you referring to? Your nan == nan? nan names a particular object (in this case, I'm pretty sure it was the np.nan). No matter how many times you say the name, it still refers to the same object: there's no initialization going on. Similarly, x = nan doesn't make a copy of nan, it just makes x a new name and says that it names the object which is also named by nan. Try x is nan after doing that, for example.
    – DSM
    Dec 2, 2013 at 2:55
  • I just don't see how that is different from float("nan") then? Are there different 'flavors' of nan's? Otherwise, as I understand, float("nan") should still return nan which is again one same object, isn't it? I want to understand why nan in [nan] is different from `nan in [float("nan")]? How does interpreter know that the nan in the list has been obtained in a different way? I also don't get why float("nan") in [float("nan")] is false in such case...
    – sashkello
    Dec 2, 2013 at 3:11
  • 4
    No, as I said in the original question, nans aren't unique objects. Look at the above transcript: the two nans have different ids and nans[0] is nans[1] is False. nan in [nan] is True because it's basically any(x is nan or x == nan for x in [nan]). x is nan is True so it doesn't matter that x == nan is False. The same rule applied to nan in [float("nan")] gives x is nan is False (they're different objects) and x == nan is still False. float("nan") in [float("nan")] gives False because they're TWO SEPARATE NANS.
    – DSM
    Dec 2, 2013 at 3:14
  • 1
    @sashkello, not that it matters much, but yes there actually are different flavors of NaNs, there are signalling NaNs too, which behave the same.
    – seberg
    Dec 2, 2013 at 9:00

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