7
import pandas as pd
df = pd.read_csv('https://query.data.world/s/Hfu_PsEuD1Z_yJHmGaxWTxvkz7W_b0')
percent= 100*(len(df.loc[:,df.isnull().sum(axis=0)>=1 ].index) / len(df.index))
print(round(percent,2))

input is https://query.data.world/s/Hfu_PsEuD1Z_yJHmGaxWTxvkz7W_b0

and the output should be

Ord_id                 0.00
Prod_id                0.00
Ship_id                0.00
Cust_id                0.00
Sales                  0.24
Discount               0.65
Order_Quantity         0.65
Profit                 0.65
Shipping_Cost          0.65
Product_Base_Margin    1.30
dtype: float64
  • You need to iterate over the columns, printing once per column. You haven't written a loop to do that. Where are you stuck? – Prune Jun 27 '18 at 20:37
  • Related stackoverflow.com/questions/26266362/… – user3483203 Jun 27 '18 at 20:38
  • Also @Prune iteration is the last thing he should be doing in pandas – user3483203 Jun 27 '18 at 20:38
  • @user3483203 Good point -- should be building a vector of results. – Prune Jun 27 '18 at 20:40
12

How about this? I think I actually found something similar on here once before, but I'm not seeing it now...

percent_missing = df.isnull().sum() * 100 / len(df)
missing_value_df = pd.DataFrame({'column_name': df.columns,
                                 'percent_missing': percent_missing})

And if you want the missing percentages sorted, follow the above with:

missing_value_df.sort_values('percent_missing', inplace=True)

As mentioned in the comments, you may also be able to get by with just the first line in my code above, i.e.:

percent_missing = df.isnull().sum() * 100 / len(df)
  • I don't think you need the first line and the last line. The middle line produces the result he wants – user3483203 Jun 27 '18 at 20:39
  • I don't know, the output he shows looks like a copied and pasted pandas dataframe itself, thus I'm building a dataframe from the existing one's columns and their percent missing. But we'll see what the OP says. – Engineero Jun 27 '18 at 20:40
  • its not printing the dtype float 64 at the last – Shaswata Jun 27 '18 at 20:45
  • @Shaswata yeah, looks like you can get the output from just doing the df.isnull().sum()... after all. Added that to my answer as it was pointed out in the comments. – Engineero Jun 27 '18 at 20:49
9

Update let's use mean with isnull:

df.isnull().mean() * 100

Output:

Ord_id                 0.000000
Prod_id                0.000000
Ship_id                0.000000
Cust_id                0.000000
Sales                  0.238124
Discount               0.654840
Order_Quantity         0.654840
Profit                 0.654840
Shipping_Cost          0.654840
Product_Base_Margin    1.297774
dtype: float64

IIUC:

df.isnull().sum() / df.shape[0] * 100.00

Output:

Ord_id                 0.000000
Prod_id                0.000000
Ship_id                0.000000
Cust_id                0.000000
Sales                  0.238124
Discount               0.654840
Order_Quantity         0.654840
Profit                 0.654840
Shipping_Cost          0.654840
Product_Base_Margin    1.297774
dtype: float64
4

To cover all missing values and round the results:

((df.isnull() | df.isna()).sum() * 100 / df.index.size).round(2)

The output:

Out[556]: 
Ord_id                 0.00
Prod_id                0.00
Ship_id                0.00
Cust_id                0.00
Sales                  0.24
Discount               0.65
Order_Quantity         0.65
Profit                 0.65
Shipping_Cost          0.65
Product_Base_Margin    1.30
dtype: float64
  • isnull and isna are aliases, as far as I can tell – IanS Jun 28 '18 at 14:57
  • @IanS, yes, at the moment. But in case if they are interchangeable, one of them could be somehow extended in future versions or one of them could be removed. So, in one case we have an advanced action, in 2nd case we have a potential indicating point showing which function is actual. – RomanPerekhrest Jun 28 '18 at 16:44
0
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
0

The solution you're looking for is :

round(df.isnull().mean()*100,2) 

This will round up the percentage upto 2 decimal places

Another way to do this is

round((df.isnull().sum()*100)/len(df),2)

but this is not efficient as using mean() is.

-1
# Why this chord is not running it shows error 

  File "<tokenize>", line 19
    return mis_val_table_ren_columns
    ^
IndentationError: unindent does not match any outer indentation level
# check number & percentage of missing value in the columns
def missing_values_table(df):
        mis_val = df.isnull().sum() #total missing values
        mis_val_percent = 100 * df.isnull().sum() / len(df) #percentage of missing values
        mis_val_table = pd.concat([mis_val, mis_val_percent], axis=1) #make a table with the results
        mis_val_table_ren_columns = mis_val_table.rename(
        columns = {0 : 'Missing Values', 1 : '% of Total Values'}) #rename the columns
     # sort the table by percentage of missing value
        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 same summary information
        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 the dataframe with missing information
    return mis_val_table_ren_columns

 # missing values statistics
    missing_values = missing_values_table(data_df)
    missing_values.head()

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