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I am trying to convert categorical data into binary to be able to classify with an algorithm like logistic regression. I thought of using OneHotEncoder from 'sklearn.preprocessing' module but the problem is the dataframe entries are A, B pairs of arrays with different lengths, each row has pair of same-length arrays not equal to array lengths in other rows. OneHotEncoder does not accept dataframe like mine

In [34]: data.index

Out[34]: Index([train1, train2, train3, ..., train7829, train7830, train7831], dtype=object)

In [35]:  data.columns

Out[35]:  Index([A, B], dtype=object)

SampleID                      A                                B
train1      [2092.0, 1143.0, 390.0, ...]          [5651.0, 4449.0, 4012.0...]
train2      [3158.0, 3158.0, 3684.0, 3684.0....]  [2.0, 4.0, 2.0, 1.0...]
train3      [1699.0, 1808.0 ,...]                 [0.0, 1.0...]

So, I want to highlight again that each A and B pair has the same length but the length is variable across different pairs. Dataframe contains numerical, categorical and binary values. I have another csv file with the information about every entry type. I read the file filter out categorical entries in both columns like this:

info=data_io.read_train_info()
col1=info.columns[0]
col2=info.columns[1]
info=info[(info[col1]=='Categorical')&(info[col2]=='Categorical')]

Then I use info.index to filter my training dataframe

filtered = data.loc[info.index]

Than I wrote an utility function to change dimensions of each array so that I can encode them later

def setDim(df):
    for item in x[x.columns[0]].index:
        df[df.columns[0]][item].shape=(1,df[df.columns[0]][item].shape[0])
        df[df.columns[1]][item].shape=(1,df[df.columns[1]][item].shape[0])

setDim(filtered)

Then I thought to combine each pair of arrays into 2-row matrix so that I can pass it to encoder then to separate them again after encoding, like this:

import numpy as np
from sklearn.preprocessing import OneHotEncoder

def makeSparse(df):
   enc = OneHotEncoder()
   for i in df.index:
     cd=np.append(df['A'][i],df['B'][i],axis=0)
     a=enc.fit_transform(cd)
     df['A'][i] = a[0,:]
     df['B'][i] = a[1,:]

makeSparse(filtered)

After all these steps get a sparse dataframe. My questions are:

  1. is this a right way to encode this dataframe?(I highly doubt it)
  2. if no, then what alternatives do you offer?
    Thanks a lot for your time helping me.
|improve this question
  • The answer to (1) strongly depends on what the rows actually represent. In any case, the scikit-learn convention is that one column represents one feature, and each feature must be present in each sample. – Fred Foo Jun 27 '13 at 18:05
  • I see, let me elaborate on that. Each pair of A and B vectors have the same number of features but they are not the same across the other pairs. Each row has different features. So if the features are not the same across the rows, encoding cannot be applied, right? – David Kartashyan Jun 28 '13 at 5:39
  • If you want to learn from data, you need consistent features throughout your set. You'll have to "fill in" (impute) the other features, but then the columns have to be consistent. – Fred Foo Jun 28 '13 at 10:24
  • @larsmans my dataframe contains observations from different kind of experiments. It's a cause-effect relationship with one column being cause the other effect or vice-versa. How to deal with this heterogeneous dataset? Can encoding be applied after the transformation suggested by Jeff below? – David Kartashyan Jun 28 '13 at 16:01
  • I'm sorry, but that's still too fuzzy. May I make a guess: is each row a set of integers that denote that some event occurred, while all events not listed did not occur? – Fred Foo Jun 28 '13 at 21:10
1

This is a nice way to transform your data to a better repr to deal with; uses some neat apply tricks

In [72]: df
Out[72]: 
                               A                  B
train1         [2092, 1143, 390]  [5651, 449, 4012]
train2  [3158, 3158, 3684, 3684]       [2, 4, 2, 1]
train3              [1699, 1808]             [0, 1]

In [73]: concat(dict([ (x[0],x[1].apply(lambda y: Series(y))) for x in df.iterrows() ]))
Out[73]: 
             0     1     2     3
train1 A  2092  1143   390   NaN
       B  5651   449  4012   NaN
train2 A  3158  3158  3684  3684
       B     2     4     2     1
train3 A  1699  1808   NaN   NaN
       B     0     1   NaN   NaN
|improve this answer
  • This is really neat, thanks! The question remains: can the OneHotEncoder be applied to this transformed dataframe? – David Kartashyan Jun 28 '13 at 5:42

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