0

Given a df

elapse data datx
0,4,0
2,0,4
4,3,2
6,3,1
14,3,0
16,1,1
18,3,1
20,2,0
22,4,1
24,0,4

There are missing number in the columns elapse. Specifically the value 8,10,12.

I would like to create and append the value 8,10,12 onto the column elapse, and assign np.nan at the other columns (i.e., data, and datx)

Which will result as below

0.00000,4.00000,0.00000
2.00000,0.00000,4.00000
4.00000,3.00000,2.00000
6.00000,3.00000,1.00000
8.00000,nan,nan
10.00000,nan,nan
12.00000,nan,nan
14.00000,3.00000,0.00000
16.00000,1.00000,1.00000
18.00000,3.00000,1.00000
20.00000,2.00000,0.00000
22.00000,4.00000,1.00000
24.00000,0.00000,4.00000

The following code should do the job

import pandas as pd
import numpy as np

np.random.seed(0)

arr=np.concatenate([np.arange(0,8,2),np.arange(14,26,2)])
df=pd.DataFrame({'elapse': arr, 'data': np.random.randint(5,size=(len(arr))),
'datx': np.random.randint(5,size=(len(arr)))}, columns=['elapse', 'data','datx'])

g=df['elapse'].diff()
hh=g.idxmax()
interval_val=g.min()
missval_start=df.loc[hh-1,'elapse']+g.min()
missval_end=df.loc[hh+1,'elapse']-g.min()
new_val=np.arange(missval_start,missval_end,interval_val)
df_new=pd.DataFrame(new_val,columns=['elapse'])
df_new[['data','datx']]=np.nan

df=pd.concat([df,df_new])
df=df.sort_values('elapse')

But, I curious if other may have better suggestion than mine. This is because, in real case, the number of missing value is huge. Hence, I am more than happy for for more compact and efficient suggestion

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2 Answers 2

Reset to default
1

You can use reindex method:

df = df.set_index('elapse').reindex(range(df['elapse'].min(), df['elapse'].max()+1, 2)).reset_index()

Output:

    elapse  data  datx
0        0   4.0   0.0
1        2   0.0   4.0
2        4   3.0   2.0
3        6   3.0   1.0
4        8   NaN   NaN
5       10   NaN   NaN
6       12   NaN   NaN
7       14   3.0   0.0
8       16   1.0   1.0
9       18   3.0   1.0
10      20   2.0   0.0
11      22   4.0   1.0
12      24   0.0   4.0
3
  • Hi @enke, the proposed suggestion does not work if I change arr=np.concatenate([np.arange(0,2520,intervalval),np.arange(3610,6130,intervalval)]).
    – mpx
    Jan 9, 2022 at 13:32
  • @rpb what's the problem? what's intervalval here?
    – user7864386
    Jan 9, 2022 at 13:52
  • Sorry for the lack of info provide. If intervalval=120, and arr=np.concatenate([np.arange(0,2520,intervalval),np.arange(3610,6130,intervalval)]). Existing value between 3610,6130 are all assigned as np.nan.
    – mpx
    Jan 9, 2022 at 14:05
1

You can simply create a new DataFarme with the new index:

df = pd.DataFrame.from_dict({
    'data': {0: 4, 2: 0, 4: 3, 6: 3, 14: 3, 16: 1, 18: 3, 20: 2, 22: 4, 24: 0},
    'datx': {0: 0, 2: 4, 4: 2, 6: 1, 14: 0, 16: 1, 18: 1, 20: 0, 22: 1, 24: 4}
})

result = pd.DataFrame(index=np.arange(0, 25, 2), data=df)
print(result)

#     data  datx
# 0    4.0   0.0
# 2    0.0   4.0
# 4    3.0   2.0
# 6    3.0   1.0
# 8    NaN   NaN
# 10   NaN   NaN
# 12   NaN   NaN
# 14   3.0   0.0
# 16   1.0   1.0
# 18   3.0   1.0
# 20   2.0   0.0
# 22   4.0   1.0
# 24   0.0   4.0
1
  • Hi @hilberts, thanks for the suggestion, however, your suggestion does not work if I change arr=np.concatenate([np.arange(0,2520,intervalval),np.arange(3610,6130,intervalval)])
    – mpx
    Jan 9, 2022 at 13:33

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