I have a multi-index dataframe and I am trying to count the consecutive winners The problem is there are some 'NaN' values interspersed within the column values, that I would like to skip when trying to count consecutive winners

                   week_1  week_2  week_3  week_4  week_5  week_6  \
2000 Arizona Cardinals   loser  winner   loser   loser  winner   loser   
     Atlanta Falcons     winner  loser  winner   loser   loser   loser   
     Baltimore Ravens    winner  NaN   winner  winner  winner  winner   
     Buffalo Bills       NaN     winner   loser   loser   loser  winner   
     Carolina Panthers   loser  winner   loser   loser  winner   loser 

I can use df3 = df.shift(-1, axis =1).isin(['winner']) to make the comparisons, but this is not going to skip the NaN values.

So something like this:

Baltimore Ravens    winner  NaN   winner

which should count for as consecutive values will be skipped.

  • 2
    Easiest approach might be to go by row and drop NaN values. What is your ultimate goal though? Are you counting longest streak for each team and year? – busybear Sep 5 at 23:22
  • Ultimate goal is conditional probabilities: Give two consecutive wins, prob of winning or losing etc for various wins and losses. It's going to be part of a Markov chain model for all 17 weeks. – MasayoMusic Sep 5 at 23:35
  • Is the fact that there was a bye week a variable in your algorithm? If not, it's probably easiest to just make it 16 weeks and throw out all bye weeks. Otherwise.you'd have to encode the NaN as something anyway. – busybear Sep 5 at 23:45
  • I can just make a copy of the df so that I can retain the bye week portion for the analysis I want to do with the bye-week. How would you propose making it just 16 weeks and getting rid of the 'NAN' values? That should work! This is a multindex df so, df[df_location].head() doesn't seem to be working I also just tried : df.loc[df.notnull()]. That comes back with an error as well. – MasayoMusic Sep 6 at 0:35

In order to drop your NaN values and shift values, you can use apply along axis 1 and dropna. You have to do a little bit of finagling though to shift the values:

no_bye = df.apply(lambda x: x.dropna().reset_index(drop=True), axis=1)
no_bye.columns = ['game_' + str(n+1) for n in range(16)]
  • Sorry for the late reply. I am testing out the code now. I am a little confused about the .reset_index(drop = True) portion. So the apply function is applied horizontally, dropping any nan values within each row. So are the columns considered the index in this case? – MasayoMusic Sep 12 at 23:00
  • 1
    Yes index is columns in this case. You need to reset the index to remove the original columns: 'week_1', 'week_2'.... Otherwise when apply puts the columns back together they'll still be in the original weeks. This essentially scoots the values forward after dropping nan values. – busybear Sep 12 at 23:28

I tried to figure out a vectorized solution, but didn't manage.
This may be easily solved by a simple python loop over each row:

def find_wins(x):
    mw = 0
    c = 0
    for e in x.dropna():
        c = c + 1 if e == 'winner' else 0
        mw = max(mw, c)
    return mw

res = df.apply(find_wins, axis=1)

with df your original dataframe, this returns the following res Series:

2000  Arizona Cardinals    1
      Atlanta Falcons      1
      Baltimore Ravens     5
      Buffalo Bills        1
      Carolina Panthers    1
dtype: int64

where each element is maximum numbers of consecutive wins (nan skipped).

The point here is just do use x.dropna() to drop the nan values before looping on each row and count the consecutive 'winner'.

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