391

I have data, in which I want to find number of NaN, so that if it is less than some threshold, I will drop this columns. I looked, but didn't able to find any function for this. there is value_counts, but it would be slow for me, because most of values are distinct and I want count of NaN only.

23 Answers 23

645

You can use the isna() method (or it's alias isnull() which is also compatible with older pandas versions < 0.21.0) and then sum to count the NaN values. For one column:

In [1]: s = pd.Series([1,2,3, np.nan, np.nan])

In [4]: s.isna().sum()   # or s.isnull().sum() for older pandas versions
Out[4]: 2

For several columns, it also works:

In [5]: df = pd.DataFrame({'a':[1,2,np.nan], 'b':[np.nan,1,np.nan]})

In [6]: df.isna().sum()
Out[6]:
a    1
b    2
dtype: int64
  • 24
    And if you want the total number of nans in the whole df you can use df.isnull().sum().sum() – RockJake28 May 8 '17 at 0:26
  • To get colsums, .sum(axis=0), which is the default behavior. And to get rowsums, .sum(axis=1). – smci May 28 at 7:57
  • @RockJake28 Or df.isnull().values.sum() – cs95 Jun 21 at 16:50
  • 1
    df['column_name'].isna().sum() also works if anyone is wondering. – Superdooperhero Jul 12 at 17:33
83

You could subtract the total length from the count of non-nan values:

count_nan = len(df) - df.count()

You should time it on your data. For small Series got a 3x speed up in comparison with the isnull solution.

  • 3
    Indeed, best time it. It will depend on the size of the frame I think, with a larger frame (3000 rows), using isnull is already two times faster as this. – joris Oct 8 '14 at 21:12
  • 5
    I tried it both ways in a situation where I was counting length of group for a huge groupby where the group sizes were usually <4, and joris' df.isnull().sum() was at least 20x faster. This was with 0.17.1. – Nathan Lloyd Mar 16 '16 at 16:49
  • For me, both are under 3ms average for 70,000 rows with very few na's. – Josiah Yoder Jul 2 '18 at 17:03
61

Lets assume df is a pandas DataFrame.

Then,

df.isnull().sum(axis = 0)

This will give number of NaN values in every column.

If you need, NaN values in every row,

df.isnull().sum(axis = 1)
42
dataset.isnull().sum()

this will work!

  • 1
    df.isnull().sum() will give column-wise sum of missing values. – Pradeepkumar Reddy Aug 23 at 12:55
38

Based on the most voted answer we can easily define a function that gives us a dataframe to preview the missing values and the % of missing values in each column:

def missing_values_table(df):
        mis_val = df.isnull().sum()
        mis_val_percent = 100 * df.isnull().sum() / len(df)
        mis_val_table = pd.concat([mis_val, mis_val_percent], axis=1)
        mis_val_table_ren_columns = mis_val_table.rename(
        columns = {0 : 'Missing Values', 1 : '% of Total Values'})
        mis_val_table_ren_columns = mis_val_table_ren_columns[
            mis_val_table_ren_columns.iloc[:,1] != 0].sort_values(
        '% of Total Values', ascending=False).round(1)
        print ("Your selected dataframe has " + str(df.shape[1]) + " columns.\n"      
            "There are " + str(mis_val_table_ren_columns.shape[0]) +
              " columns that have missing values.")
        return mis_val_table_ren_columns
32

Since pandas 0.14.1 my suggestion here to have a keyword argument in the value_counts method has been implemented:

import pandas as pd
df = pd.DataFrame({'a':[1,2,np.nan], 'b':[np.nan,1,np.nan]})
for col in df:
    print df[col].value_counts(dropna=False)

2     1
 1     1
NaN    1
dtype: int64
NaN    2
 1     1
dtype: int64
  • Best answer so far, it allows to also count other values types. – gaborous Feb 17 '18 at 2:46
18

if its just counting nan values in a pandas column here is a quick way

import pandas as pd
## df1 as an example data frame 
## col1 name of column for which you want to calculate the nan values
sum(pd.isnull(df1['col1']))
  • 2
    sushmit, This way is not very quick if you have a number of columns. In that case, you'd have to copy and paste/type in each column name, then re-execute the code. – Amos Long Jun 21 '18 at 12:15
16

if you are using Jupyter Notebook, How about....

 %%timeit
 df.isnull().any().any()

or

 %timeit 
 df.isnull().values.sum()

or, are there anywhere NaNs in the data, if yes, where?

 df.isnull().any()
8

You can use value_counts method and print values of np.nan

s.value_counts(dropna = False)[np.nan]
  • Nice! This one is the most useful if you want to count both NaNs and non-NaNs. s.value_counts(dropna = False) – icemtel Sep 5 at 8:36
8
import numpy as np
import pandas as pd

raw_data = {'first_name': ['Jason', np.nan, 'Tina', 'Jake', 'Amy'], 
        'last_name': ['Miller', np.nan, np.nan, 'Milner', 'Cooze'], 
        'age': [22, np.nan, 23, 24, 25], 
        'sex': ['m', np.nan, 'f', 'm', 'f'], 
        'Test1_Score': [4, np.nan, 0, 0, 0],
        'Test2_Score': [25, np.nan, np.nan, 0, 0]}
results = pd.DataFrame(raw_data, columns = ['first_name', 'last_name', 'age', 'sex', 'Test1_Score', 'Test2_Score'])

results 
'''
  first_name last_name   age  sex  Test1_Score  Test2_Score
0      Jason    Miller  22.0    m          4.0         25.0
1        NaN       NaN   NaN  NaN          NaN          NaN
2       Tina       NaN  23.0    f          0.0          NaN
3       Jake    Milner  24.0    m          0.0          0.0
4        Amy     Cooze  25.0    f          0.0          0.0
'''

You can use following function, which will give you output in Dataframe

  • Zero Values
  • Missing Values
  • % of Total Values
  • Total Zero Missing Values
  • % Total Zero Missing Values
  • Data Type

Just copy and paste following function and call it by passing your pandas Dataframe

def missing_zero_values_table(df):
        zero_val = (df == 0.00).astype(int).sum(axis=0)
        mis_val = df.isnull().sum()
        mis_val_percent = 100 * df.isnull().sum() / len(df)
        mz_table = pd.concat([zero_val, mis_val, mis_val_percent], axis=1)
        mz_table = mz_table.rename(
        columns = {0 : 'Zero Values', 1 : 'Missing Values', 2 : '% of Total Values'})
        mz_table['Total Zero Missing Values'] = mz_table['Zero Values'] + mz_table['Missing Values']
        mz_table['% Total Zero Missing Values'] = 100 * mz_table['Total Zero Missing Values'] / len(df)
        mz_table['Data Type'] = df.dtypes
        mz_table = mz_table[
            mz_table.iloc[:,1] != 0].sort_values(
        '% of Total Values', ascending=False).round(1)
        print ("Your selected dataframe has " + str(df.shape[1]) + " columns and " + str(df.shape[0]) + " Rows.\n"      
            "There are " + str(mz_table.shape[0]) +
              " columns that have missing values.")
#         mz_table.to_excel('D:/sampledata/missing_and_zero_values.xlsx', freeze_panes=(1,0), index = False)
        return mz_table

missing_zero_values_table(results)

Output

Your selected dataframe has 6 columns and 5 Rows.
There are 6 columns that have missing values.

             Zero Values  Missing Values  % of Total Values  Total Zero Missing Values  % Total Zero Missing Values Data Type
last_name              0               2               40.0                          2                         40.0    object
Test2_Score            2               2               40.0                          4                         80.0   float64
first_name             0               1               20.0                          1                         20.0    object
age                    0               1               20.0                          1                         20.0   float64
sex                    0               1               20.0                          1                         20.0    object
Test1_Score            3               1               20.0                          4                         80.0   float64

If you want to keep it simple then you can use following function to get missing values in %

def missing(dff):
    print (round((dff.isnull().sum() * 100/ len(dff)),2).sort_values(ascending=False))


missing(results)
'''
Test2_Score    40.0
last_name      40.0
Test1_Score    20.0
sex            20.0
age            20.0
first_name     20.0
dtype: float64
'''
7

To count zeroes:

df[df == 0].count(axis=0)

To count NaN:

df.isnull().sum()

or

df.isna().sum()
4
df1.isnull().sum()

This will do the trick.

3

Here is the code for counting Null values column wise :

df.isna().sum()
3

There is a nice Dzone article from July 2017 which details various ways of summarising NaN values. Check it out here.

The article I have cited provides additional value by: (1) Showing a way to count and display NaN counts for every column so that one can easily decide whether or not to discard those columns and (2) Demonstrating a way to select those rows in specific which have NaNs so that they may be selectively discarded or imputed.

Here's a quick example to demonstrate the utility of the approach - with only a few columns perhaps its usefulness is not obvious but I found it to be of help for larger data-frames.

import pandas as pd
import numpy as np

# example DataFrame
df = pd.DataFrame({'a':[1,2,np.nan], 'b':[np.nan,1,np.nan]})

# Check whether there are null values in columns
null_columns = df.columns[df.isnull().any()]
print(df[null_columns].isnull().sum())

# One can follow along further per the cited article
3

One other simple option not suggested yet, to just count NaNs, would be adding in the shape to return the number of rows with NaN.

df[df['col_name'].isnull()]['col_name'].shape
2

df.isnull().sum() will give the column-wise sum of missing values.

If you want to know the sum of missing values in a particular column then following code will work df.column.isnull().sum()

1

based to the answer that was given and some improvements this is my approach

def PercentageMissin(Dataset):
    """this function will return the percentage of missing values in a dataset """
    if isinstance(Dataset,pd.DataFrame):
        adict={} #a dictionary conatin keys columns names and values percentage of missin value in the columns
        for col in Dataset.columns:
            adict[col]=(np.count_nonzero(Dataset[col].isnull())*100)/len(Dataset[col])
        return pd.DataFrame(adict,index=['% of missing'],columns=adict.keys())
    else:
        raise TypeError("can only be used with panda dataframe")
  • I prefer df.apply(lambda x: x.value_counts(dropna=False)[np.nan]/x.size*100) – K.-Michael Aye Apr 7 '18 at 17:47
1

In case you need to get the non-NA (non-None) and NA (None) counts across different groups pulled out by groupby:

gdf = df.groupby(['ColumnToGroupBy'])

def countna(x):
    return (x.isna()).sum()

gdf.agg(['count', countna, 'size'])

This returns the counts of non-NA, NA and total number of entries per group.

0

Used the solution proposed by @sushmit in my code.

A possible variation of the same can also be

colNullCnt = []
for z in range(len(df1.cols)):
    colNullCnt.append([df1.cols[z], sum(pd.isnull(trainPd[df1.cols[z]]))])

Advantage of this is that it returns the result for each of the columns in the df henceforth.

0
import pandas as pd
import numpy as np

# example DataFrame
df = pd.DataFrame({'a':[1,2,np.nan], 'b':[np.nan,1,np.nan]})

# count the NaNs in a column
num_nan_a = df.loc[ (pd.isna(df['a'])) , 'a' ].shape[0]
num_nan_b = df.loc[ (pd.isna(df['b'])) , 'b' ].shape[0]

# summarize the num_nan_b
print(df)
print(' ')
print(f"There are {num_nan_a} NaNs in column a")
print(f"There are {num_nan_b} NaNs in column b")

Gives as output:

     a    b
0  1.0  NaN
1  2.0  1.0
2  NaN  NaN

There are 1 NaNs in column a
There are 2 NaNs in column b
0

Suppose you want to get the number of missing values(NaN) in a column(series) known as price in a dataframe called reviews

#import the dataframe
import pandas as pd

reviews = pd.read_csv("../input/wine-reviews/winemag-data-130k-v2.csv", index_col=0)

To get the missing values, with n_missing_prices as the variable, simple do

n_missing_prices = sum(reviews.price.isnull())
print(n_missing_prices)

sum is the key method here, was trying to use count before i realized sum is the right method to use in this context

0

Please use below for particular column count

dataframe.columnName.isnull().sum()
0

https://pandas.pydata.org/pandas-docs/stable/generated/pandas.Series.count.html#pandas.Series.count

pandas.Series.count
Series.count(level=None)[source]

Return number of non-NA/null observations in the Series

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