# Find integer index of rows with NaN in pandas dataframe

I have a pandas DataFrame like this:

``````                    a         b
2011-01-01 00:00:00 1.883381  -0.416629
2011-01-01 01:00:00 0.149948  -1.782170
2011-01-01 02:00:00 -0.407604 0.314168
2011-01-01 03:00:00 1.452354  NaN
2011-01-01 04:00:00 -1.224869 -0.947457
2011-01-01 05:00:00 0.498326  0.070416
2011-01-01 06:00:00 0.401665  NaN
2011-01-01 07:00:00 -0.019766 0.533641
2011-01-01 08:00:00 -1.101303 -1.408561
2011-01-01 09:00:00 1.671795  -0.764629
``````

Is there an efficient way to find the "integer" index of rows with NaNs? In this case the desired output should be `[3, 6]`.

• If you just want to select the rows with nan, you can do `df[np.isnan(df['b'])]` Dec 24, 2012 at 3:38
• Following up from @lazy1 - instead of using `numpy`'s `isnan` you can also use `df['b'].isnull()` Mar 31, 2015 at 20:42

Here is a simpler solution:

`inds = pd.isnull(df).any(1).nonzero()[0]`

``````In [9]: df
Out[9]:
0         1
0  0.450319  0.062595
1 -0.673058  0.156073
2 -0.871179 -0.118575
3  0.594188       NaN
4 -1.017903 -0.484744
5  0.860375  0.239265
6 -0.640070       NaN
7 -0.535802  1.632932
8  0.876523 -0.153634
9 -0.686914  0.131185

In [10]: pd.isnull(df).any(1).nonzero()[0]
Out[10]: array([3, 6])
``````
• I ended up using this: `np.where(df['b'].notnull())[0]`
– user1642513
Dec 25, 2012 at 19:16
• You could probably simplify this further: `r, _ = np.where(df.isna())`
– cs95
Jan 22, 2019 at 4:50
• add `.to_numpy()` to convert in numpy array first - `pd.isnull(df).any(1).to_numpy().nonzero()` Nov 6, 2019 at 7:21
• AttributeError: 'Series' object has no attribute 'nonzero' Jul 18, 2021 at 15:17
• for pandas version 0.25 and on use pd.isnull(df).any(1).to_numpy().nonzero() as 7bStan mentioned. This will fix Joe Huang's problem.
– wueb
Nov 16, 2022 at 7:40

For DataFrame `df`:

``````import numpy as np
index = df['b'].index[df['b'].apply(np.isnan)]
``````

will give you back the `MultiIndex` that you can use to index back into `df`, e.g.:

``````df['a'].ix[index[0]]
>>> 1.452354
``````

For the integer index:

``````df_index = df.index.values.tolist()
[df_index.index(i) for i in index]
>>> [3, 6]
``````
• As intuitive as `ix` sounds, for some reasons it sounds like it has been deprecated in favour of `iloc` Apr 16, 2018 at 13:36

One line solution. However it works for one column only.

``````df.loc[pandas.isna(df["b"]), :].index
``````
• This is what I was looking for. I made it into a list by wrapping it in a `list(...)` just like this:`list(df.loc[pandas.isna(df["b"]), :].index)` Jul 2, 2020 at 17:50

And just in case, if you want to find the coordinates of 'nan' for all the columns instead (supposing they are all numericals), here you go:

``````df = pd.DataFrame([[0,1,3,4,np.nan,2],[3,5,6,np.nan,3,3]])

df
0  1  2    3    4  5
0  0  1  3  4.0  NaN  2
1  3  5  6  NaN  3.0  3

np.where(np.asanyarray(np.isnan(df)))
(array([0, 1]), array([4, 3]))
``````

Don't know if this is too late but you can use np.where to find the indices of non values as such:

``````indices = list(np.where(df['b'].isna()[0]))
``````

in the case you have datetime index and you want to have the values:

``````df.loc[pd.isnull(df).any(1), :].index.values
``````

Here are tests for a few methods:

``````%timeit np.where(np.isnan(df['b']))[0]
%timeit pd.isnull(df['b']).nonzero()[0]
%timeit np.where(df['b'].isna())[0]
%timeit df.loc[pd.isna(df['b']), :].index
``````

And their corresponding timings:

``````333 µs ± 9.95 µs per loop (mean ± std. dev. of 7 runs, 1000 loops each)
280 µs ± 220 ns per loop (mean ± std. dev. of 7 runs, 1000 loops each)
313 µs ± 128 ns per loop (mean ± std. dev. of 7 runs, 1000 loops each)
6.84 ms ± 1.59 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)
``````

It would appear that `pd.isnull(df['DRGWeight']).nonzero()[0]` wins the day in terms of timing, but that any of the top three methods have comparable performance.

Another simple solution is `list(np.where(df['b'].isnull())[0])`

This will give you the index values for nan in every column:

``````df.loc[pd.isna(df).any(1), :].index
``````
• This creates a new data frame with all rows containing Nan values, the returns its index Mar 21, 2022 at 1:05

Here is another simpler take:

``````df = pd.DataFrame([[0,1,3,4,np.nan,2],[3,5,6,np.nan,3,3]])

inds = np.asarray(df.isnull()).nonzero()

(array([0, 1], dtype=int64), array([4, 3], dtype=int64))
``````

I was looking for all indexes of rows with NaN values.
My working solution:

``````def get_nan_indexes(data_frame):
indexes = []
print(data_frame)
for column in data_frame:
index = data_frame[column].index[data_frame[column].apply(np.isnan)]
if len(index):
indexes.append(index[0])
df_index = data_frame.index.values.tolist()
return [df_index.index(i) for i in set(indexes)]
``````

Let the dataframe be named df and the column of interest(i.e. the column in which we are trying to find nulls) is 'b'. Then the following snippet gives the desired index of null in the dataframe:

``````   for i in range(df.shape[0]):
if df['b'].isnull().iloc[i]:
print(i)
``````
``````    index_nan = []
for index, bool_v in df["b"].iteritems().isna():
if bool_v == True:
index_nan.append(index)
print(index_nan)
``````

The quick and fast solution to the question is:

``````# Find the integer index of nulls
nan_idx = np.where(df['column_name'].isnull())[0]

# Find actual index of the nan's
nan_idx = df.iloc[nan_idx].index
``````

Easy solution:

``````# Find the index of nulls

indx = df[df.isnull()].index

# Find the index of nulls of a column or a group of columns

indx_A = df[df['A'].isnull()].index

col_list = ['A','B','C']

indx_col_list = df[df[col_list].isnull()].index
``````

A `DataFrame` object has a built in function `isna()` these days, which means you could also solve it as follows:

In case one NaN value is sufficient to return the index:

``````index_na = df.index[df.isna().any(1)]
``````

In case all of them have to be NaN:

``````index_na = df.index[df.isna().all(1)]
``````

To return the numeric index for the first case:

``````index_na_num = np.where(df.isna().any(1)[0])
``````