How to check for NaN values

`float('nan')` represents NaN (not a number). But how do I check for it?

• For some history of NaN in Python, see PEP 754. python.org/dev/peps/pep-0754 Commented Jan 22, 2010 at 1:30
• just for fun, NaN is a Number: `isinstance(float("nan"), Number)` ;-P Commented Feb 4, 2023 at 20:16

``````>>> import math
>>> x = float('nan')
>>> math.isnan(x)
True
``````
• @charlie-parker : In Python3, math.isnan is still a part of the math module. docs.python.org/3/library/math.html#math.isnan . Use numpy.isnan if you wish, this answer is just a suggestion. Commented Sep 8, 2016 at 4:43
• is `math.isnan` preferred to `np.isnan()` ?
– TMWP
Commented Aug 1, 2017 at 2:25
• @TMWP possibly... `import numpy` takes around 15 MB of RAM, whereas `import math` takes some 0,2 MB Commented Sep 12, 2017 at 12:09
• @TMWP: If you're using NumPy, `numpy.isnan` is a superior choice, as it handles NumPy arrays. If you're not using NumPy, there's no benefit to taking a NumPy dependency and spending the time to load NumPy just for a NaN check (but if you're writing the kind of code that does NaN checks, it's likely you should be using NumPy). Commented Feb 21, 2019 at 0:51
• @jungwook That actually doesn't work. Your expression is always false. That is, `float('nan') == float('nan')` returns `False` — which is a strange convention, but basically part of the definition of a NaN. The approach you want is actually the one posted by Chris Jester-Young, below.
– Mike
Commented Jul 11, 2019 at 15:38

The usual way to test for a NaN is to see if it's equal to itself:

``````def isNaN(num):
return num != num
``````
• Word of warning: quoting Bear's comment below "For people stuck with python <= 2.5. Nan != Nan did not work reliably. Used numpy instead." Having said that, I've not actually ever seen it fail. Commented Jan 26, 2010 at 13:18
• I'm sure that, given operator overloading, there are lots of ways I could confuse this function. go with math.isnan() Commented Aug 11, 2011 at 22:38
• It says in the 754 spec mentioned above that NaN==NaN should always be false, although it is not always implemented as such. Isn't is possible this is how math and/or numpy check this under the hood anyway? Commented Apr 1, 2014 at 16:16
• Even though this works and, to a degree makes sense, I'm a human with principles and I hereby declare this as prohibited witchcraft. Please use math.isnan instead. Commented Oct 16, 2019 at 21:09
• If your input includes strings this is the correct answer. (@williamtorkington) `np.isnan` and `math.isnan` will both break in this case. Commented Jun 28, 2020 at 15:07

`numpy.isnan(number)` tells you if it's `NaN` or not.

• Works in python version 2.7 too. Commented Dec 5, 2012 at 14:35
• `numpy.all(numpy.isnan(data_list))` is also useful if you need to determine if all elements in the list are nan Commented Feb 27, 2014 at 22:18
• No need for NumPy: `all(map(math.isnan, [float("nan")]*5))` Commented Mar 28, 2015 at 3:41
• When this answer was written 6 years ago, Python 2.5 was still in common use - and math.isnan was not part of the standard library. Now days I'm really hoping that's not the case in many places! Commented Mar 30, 2015 at 7:30
• note that np.isnan() doesn't handle decimal.Decimal type (as many numpy's function). math.isnan() does handle. Commented May 16, 2018 at 15:53

Here are three ways where you can test a variable is "NaN" or not.

``````import pandas as pd
import numpy as np
import math

# For single variable all three libraries return single boolean
x1 = float("nan")

print(f"It's pd.isna: {pd.isna(x1)}")
print(f"It's np.isnan: {np.isnan(x1)}}")
print(f"It's math.isnan: {math.isnan(x1)}}")
``````

Output:

``````It's pd.isna: True
It's np.isnan: True
It's math.isnan: True
``````
• pd.isna(value) saved a lot of troubles! working like a charm! Commented Oct 15, 2019 at 16:57
• `pd.isnan()` or `pd.isna()`? That is the question :D Commented Apr 13, 2021 at 14:44
• version 3 of this answer was correct and well formatted. this one (now 7) is wrong again. rolled back as "dont want your edit" while the edits improved the answer, wtf. Commented May 20, 2021 at 13:52
• side note I have found `if not np.isnan(x):` to be quite useful.
– Cam
Commented Oct 22, 2021 at 10:49
• `pd.isna('foo')` is also the only one that can handle strings. `np.isnan('foo')` and `math.isnan('foo')` will result in TypeError exception. Commented Sep 30, 2022 at 20:32

Editor's note: The below timings are flawed, for example, they have not factored out name lookup time. See the comments.

It seems that checking if it's equal to itself (`x != x`) is the fastest.

``````import pandas as pd
import numpy as np
import math

x = float('nan')

%timeit x != x
44.8 ns ± 0.152 ns per loop (mean ± std. dev. of 7 runs, 10000000 loops each)

%timeit math.isnan(x)
94.2 ns ± 0.955 ns per loop (mean ± std. dev. of 7 runs, 10000000 loops each)

%timeit pd.isna(x)
281 ns ± 5.48 ns per loop (mean ± std. dev. of 7 runs, 1000000 loops each)

%timeit np.isnan(x)
1.38 µs ± 15.7 ns per loop (mean ± std. dev. of 7 runs, 1000000 loops each)
``````
• It's worthwhile noting that this works even if infinities are in question. That is, if `z = float('inf')`, `z != z` evaluates to false. Commented Oct 30, 2020 at 19:05
• in my computer `z=float('inf')` and then `z==z` give True. `x=float('nan')` and then `x==x` give False. Commented Dec 10, 2020 at 13:40
• In most (if not all) cases, these speed differences will only be relevant, if repeated numerous times. Then you'll be using `numpy` or another tensor library, anyway.
– rvf
Commented Jan 4, 2022 at 10:58
• This is a bad comparison. At this scale (nanoseconds) name and attribute lookup time are significant. If you use only local names, the difference between `x != x` and `math.isnan(x)` disappears; they're both about 35 ns on my system. You can use `%timeit` in cell mode to check: 1) `%%timeit x = float('nan')` <newline> `x != x` 2) `%%timeit x = float('nan'); from math import isnan` <newline> `isnan(x)` Commented Apr 2, 2023 at 18:29
• Careful: These timings only represent checking a pre-existing variable and do not generalise well. A function such as `math.isnan` will compete very differently when a function is actually required and `x != x` would need wrapping in a `lambda`. A `numpy` functionality such as `numpy.isnan` will compete very differently when applied to a `numpy` array where `x != x` would require iteration. Commented Apr 3, 2023 at 14:23

here is an answer working with:

• NaN implementations respecting IEEE 754 standard
• ie: python's NaN: `float('nan')`, `numpy.nan`...
• any other objects: string or whatever (does not raise exceptions if encountered)

A NaN implemented following the standard, is the only value for which the inequality comparison with itself should return True:

``````def is_nan(x):
return (x != x)
``````

And some examples:

``````import numpy as np
values = [float('nan'), np.nan, 55, "string", lambda x : x]
for value in values:
print(f"{repr(value):<8} : {is_nan(value)}")
``````

Output:

``````nan      : True
nan      : True
55       : False
'string' : False
<function <lambda> at 0x000000000927BF28> : False
``````
• The series I'm checking is strings with missing values are 'nans' (???) so this solution works where others failed. Commented Nov 3, 2018 at 22:49
• `numpy.nan` is a regular Python `float` object, just like the kind returned by `float('nan')`. Most NaNs you encounter in NumPy will not be the `numpy.nan` object. Commented Apr 14, 2020 at 7:13
• `numpy.nan` defines its NaN value on its own in the underlying library in C. It does not wrap python's NaN. But now, they both comply with IEEE 754 standard as they rely on C99 API.
– x0s
Commented Apr 22, 2020 at 7:59
• @user2357112supportsMonica: Python and numpy NaN actually don't behave the same way: `float('nan') is float('nan')` (non-unique) and `np.nan is np.nan` (unique)
– x0s
Commented Apr 22, 2020 at 8:07
• @x0s: That has nothing to do with NumPy. `np.nan` is a specific object, while each `float('nan')` call produces a new object. If you did `nan = float('nan')`, then you'd get `nan is nan` too. If you constructed an actual NumPy NaN with something like `np.float64('nan')`, then you'd get `np.float64('nan') is not np.float64('nan')` too. Commented Apr 22, 2020 at 10:09

I actually just ran into this, but for me it was checking for nan, -inf, or inf. I just used

``````if float('-inf') < float(num) < float('inf'):
``````

This is true for numbers, false for nan and both inf, and will raise an exception for things like strings or other types (which is probably a good thing). Also this does not require importing any libraries like math or numpy (numpy is so damn big it doubles the size of any compiled application).

• `math.isfinite` was not introduced until Python 3.2, so given the answer from @DaveTheScientist was posted in 2012 it was not exactly "reinvent[ing] the wheel" - solution still stands for those working with Python 2. Commented Nov 22, 2016 at 17:09
• This can be useful for people who need to check for NaN in a `pd.eval` expression. For example `pd.eval(float('-inf') < float('nan') < float('inf'))` will return `False` Commented May 25, 2021 at 15:33

math.isnan()

or compare the number to itself. NaN is always != NaN, otherwise (e.g. if it is a number) the comparison should succeed.

• For people stuck with python <= 2.5. Nan != Nan did not work reliably. Used numpy instead.
– Bear
Commented Jan 18, 2010 at 7:06

Well I entered this post, because i've had some issues with the function:

``````math.isnan()
``````

There are problem when you run this code:

``````a = "hello"
math.isnan(a)
``````

It raises exception. My solution for that is to make another check:

``````def is_nan(x):
return isinstance(x, float) and math.isnan(x)
``````
• It was probably downvoted because isnan() takes a float, not a string. There's nothing wrong with the function, and the problems are only in his attempted use of it. (For that particular use case his solution is valid, but it's not an answer to this question.) Commented Jul 7, 2013 at 14:12
• Be careful with checking for types in this way. This will not work e.g. for numpy.float32 NaN's. Better to use a try/except construction: `def is_nan(x): try: return math.isnan(x) except: return False`
– Rob
Commented Mar 24, 2014 at 10:25
• NaN does not mean that a value is not a valid number. It is part of IEEE floating point representation to specify that a particular result is undefined. e.g. 0 / 0. Therefore asking if "hello" is nan is meaningless. Commented Jul 17, 2015 at 8:50
• this is better because NaN can land in any list of strings,ints or floats, so useful check Commented Mar 11, 2016 at 8:41
• I had to implement exactly this for handling string columns in pandas. Commented Jun 4, 2020 at 19:09

Another method if you're stuck on <2.6, you don't have numpy, and you don't have IEEE 754 support:

``````def isNaN(x):
return str(x) == str(1e400*0)
``````

With python < 2.6 I ended up with

``````def isNaN(x):
return str(float(x)).lower() == 'nan'
``````

This works for me with python 2.5.1 on a Solaris 5.9 box and with python 2.6.5 on Ubuntu 10

• This isn't too portable, as Windows sometimes calls this `-1.#IND` Commented Feb 1, 2012 at 12:54

Comparison `pd.isna`, `math.isnan` and `np.isnan` and their flexibility dealing with different type of objects.

The table below shows if the type of object can be checked with the given method:

``````
+------------+-----+---------+------+--------+------+
|   Method   | NaN | numeric | None | string | list |
+------------+-----+---------+------+--------+------+
| pd.isna    | yes | yes     | yes  | yes    | yes  |
| math.isnan | yes | yes     | no   | no     | no   |
| np.isnan   | yes | yes     | no   | no     | yes  | <-- # will error on mixed type list
+------------+-----+---------+------+--------+------+

``````

`pd.isna`

The most flexible method to check for different types of missing values.

None of the answers cover the flexibility of `pd.isna`. While `math.isnan` and `np.isnan` will return `True` for `NaN` values, you cannot check for different type of objects like `None` or strings. Both methods will return an error, so checking a list with mixed types will be cumbersom. This while `pd.isna` is flexible and will return the correct boolean for different kind of types:

``````In [1]: import pandas as pd

In [2]: import numpy as np

In [3]: missing_values = [3, None, np.NaN, pd.NA, pd.NaT, '10']

In [4]: pd.isna(missing_values)
Out[4]: array([False,  True,  True,  True,  True, False])
``````
• This!!!! I came here trying to figure out how to check for both NaN and None, which depending on user input excel sheets I could get either. If it weren't for those pesky users this would be easy! Commented Mar 23, 2023 at 10:22

I am receiving the data from a web-service that sends `NaN` as a string `'Nan'`. But there could be other sorts of string in my data as well, so a simple `float(value)` could throw an exception. I used the following variant of the accepted answer:

``````def isnan(value):
try:
import math
return math.isnan(float(value))
except:
return False
``````

Requirement:

``````isnan('hello') == False
isnan('NaN') == True
isnan(100) == False
isnan(float('nan')) = True
``````
• or `try: int(value)`
– chwi
Commented Jul 6, 2016 at 14:00
• @chwi so what does your suggestion tell about `value` being `NaN` or not? Commented Jul 6, 2016 at 15:39
• Well, being "not a number", anything that can not be casted to an int I guess is in fact not a number, and the try statement will fail? Try, return true, except return false.
– chwi
Commented Jul 7, 2016 at 9:29
• @chwi Well, taking "not a number" literally, you are right, but that's not the point here. In fact, I am looking exactly for what the semantics of `NaN` is (like in python what you could get from `float('inf') * 0`), and thus although the string 'Hello' is not a number, but it is also not `NaN` because `NaN` is still a numeric value! Commented Jul 7, 2016 at 11:19
• @chwi: You are correct, if exception handling is for specific exception. But in this answer, generic exception have been handled. So no need to check `int(value)` For all exception, `False` will be written. Commented Jan 15, 2020 at 11:53

All the methods to tell if the variable is NaN or None:

None type

``````In [1]: from numpy import math

In [2]: a = None
In [3]: not a
Out[3]: True

In [4]: len(a or ()) == 0
Out[4]: True

In [5]: a == None
Out[5]: True

In [6]: a is None
Out[6]: True

In [7]: a != a
Out[7]: False

In [9]: math.isnan(a)
Traceback (most recent call last):
File "<ipython-input-9-6d4d8c26d370>", line 1, in <module>
math.isnan(a)
TypeError: a float is required

In [10]: len(a) == 0
Traceback (most recent call last):
File "<ipython-input-10-65b72372873e>", line 1, in <module>
len(a) == 0
TypeError: object of type 'NoneType' has no len()
``````

NaN type

``````In [11]: b = float('nan')
In [12]: b
Out[12]: nan

In [13]: not b
Out[13]: False

In [14]: b != b
Out[14]: True

In [15]: math.isnan(b)
Out[15]: True
``````

In Python 3.6 checking on a string value x math.isnan(x) and np.isnan(x) raises an error. So I can't check if the given value is NaN or not if I don't know beforehand it's a number. The following seems to solve this issue

``````if str(x)=='nan' and type(x)!='str':
print ('NaN')
else:
print ('non NaN')
``````

How to remove NaN (float) item(s) from a list of mixed data types

If you have mixed types in an iterable, here is a solution that does not use numpy:

``````from math import isnan

Z = ['a','b', float('NaN'), 'd', float('1.1024')]

[x for x in Z if not (
type(x) == float # let's drop all float values…
and isnan(x) # … but only if they are nan
)]
``````
`['a', 'b', 'd', 1.1024]`

Short-circuit evaluation means that `isnan` will not be called on values that are not of type 'float', as `False and (…)` quickly evaluates to `False` without having to evaluate the right-hand side.

For nan of type float

``````>>> import pandas as pd
>>> value = float(nan)
>>> type(value)
>>> <class 'float'>
>>> pd.isnull(value)
True
>>>
>>> value = 'nan'
>>> type(value)
>>> <class 'str'>
>>> pd.isnull(value)
False
``````

If you want to check for values that are not NaN, then negate whatever is used to flag NaNs; pandas has its own dedicated function for flagging non-NaN values.

``````lst = [1, 2, float('nan')]

m1 = [e == e for e in lst]              # [True, True, False]

m2 = [not math.isnan(e) for e in lst]   # [True, True, False]

m3 = ~np.isnan(lst)                     # array([ True,  True, False])

m4 = pd.notna(lst)                      # array([ True,  True, False])
``````

This is especially useful if you want to filter values that are not NaN. For ndarray/Series objects, `==` is vectorized, so it can be used as well.

``````s = pd.Series(lst)
arr = np.array(lst)

x = s[s.notna()]
y = s[s==s]                             # `==` is vectorized
z = arr[~np.isnan(arr)]                 # array([1., 2.])

assert (x == y).all() and (x == z).all()
``````

To filter out both empty strings (`''`), None and `NaN` values in the 'num_specimen_seen' column, we can use the `pd.notna()` function from pandas.

``````import pandas as pd
import numpy as np

df = pd.DataFrame({
'num_specimen_seen': [10, 2, 1, '', 34, 'aw', np.NaN, 5, '43', np.nan, 'ed', None, '']
})

for idx, row in df.iterrows():
if pd.notna(row['num_specimen_seen']) and row['num_specimen_seen'] != '':
print(idx, row['num_specimen_seen'])
``````

This code will skip both `NaN` and empty strings in the 'num_specimen_seen' column when iterating over the DataFrame.

for strings in panda take pd.isnull:

``````if not pd.isnull(atext):
for word in nltk.word_tokenize(atext):
``````

the function as feature extraction for NLTK

``````def act_features(atext):
features = {}
if not pd.isnull(atext):
for word in nltk.word_tokenize(atext):
if word not in default_stopwords:
features['cont({})'.format(word.lower())]=True
return features
``````
• What for this reduction? Commented Aug 7, 2018 at 13:36
• isnull returns true for not just NaN values.
– user3064538
Commented Apr 20, 2020 at 13:51