21

The main goals are as follows:

  1. Apply StandardScaler to continuous variables

  2. Apply LabelEncoder and OnehotEncoder to categorical variables

The continuous variables need to be scaled, but at the same time, a couple of categorical variables are also of integer type. Applying StandardScaler would result in undesired effects.

On the flip side, the StandardScaler would scale the integer based categorical variables, which is also not what we want.

Since continuous variables and categorical ones are mixed in a single Pandas DataFrame, what's the recommended workflow to approach this kind of problem?

The best example to illustrate my point is the Kaggle Bike Sharing Demand dataset, where season and weather are integer categorical variables

6
  • 1
    As StandardScalar works column-wise, I dont think it will do anything to the one-hot encoded variables. Have you tried doing the above for that single Dataframe? Have you found the behaviour you seemed to be having trouble with? Apr 22, 2017 at 6:08
  • One-hot-encoded variables are just the same as ones of integer type. If you have them concatenated together, why would you expect them doing things any differently? If they do behave the same way, what do you think would happen if there is a variable that's not categorical but numeric and has a value of either 1 or 0, and then use the scaler on it?
    – James Wong
    Apr 22, 2017 at 8:54
  • 2
    I tried, apparently it did scale everything regardless of what values they assumed. Could you please apply StandardScaler().fit_transform(df) on that Bike dataset and tell me otherwise?
    – James Wong
    Apr 22, 2017 at 10:56
  • 2
    Oh Sorry, I was confused between MinMaxScaler and StandardScaler. MinMaxScaler wont change the 1, 0, but StandardScaler would (zero mean and unit variance). Sorry again. Apr 22, 2017 at 14:54
  • You can use scikit-learn.org/stable/auto_examples/… as an example to union the different features. Apr 22, 2017 at 15:14

2 Answers 2

27

Check out the sklearn_pandas.DataFrameMapper meta-transformer. Use it as the first step in your pipeline to perform column-wise data engineering operations:

mapper = DataFrameMapper(
  [(continuous_col, StandardScaler()) for continuous_col in continuous_cols] +
  [(categorical_col, LabelBinarizer()) for categorical_col in categorical_cols]
)
pipeline = Pipeline(
  [("mapper", mapper),
  ("estimator", estimator)]
)
pipeline.fit_transform(df, df["y"])

Also, you should be using sklearn.preprocessing.LabelBinarizer instead of a list of [LabelEncoder(), OneHotEncoder()].

4
  • 2
    sklearn_pandas.DataFrameMapper is awesome and definitely worth checking out. Thank you for letting me know it. But according to the documentation,LabelBinarizer should be used in the situation where you have a target variable with multiple values, as opposed to multiple variables each having a set of different values, right? Don't know if I get it across or not.
    – James Wong
    Apr 22, 2017 at 8:44
  • The LabelBinarizer is the right choice for encoding string columns - it will first translate strings to integers, and then binarizes those integers to bit vectors. It does it all in one go. No need to divide this "workflow" between two transformer steps (ie. LabelEncoder plus OneHotEncoder). Just give it a try with real data, and you'll love it. Apr 22, 2017 at 9:40
  • what exactly does "estimator" mean here?
    – tbone
    Oct 20, 2019 at 15:39
  • 1
    @tbone In the context of Scikit-Learn pipelines, the last step of a pipeline aka "final_estimator" is some sort of model - a regressor or a classifier Oct 20, 2019 at 16:07
4

Checkout the ColumnTransformer in scikit-learn

from sklearn.compose import ColumnTransformer
from sklearn.preprocessing import StandardScaler,LabelBinarizer

numeric_columns=list(X.select_dtypes('float64').columns)
categorical_columns=list(X.select_dtypes('int64').columns)

pipeline=ColumnTransformer([
    ('num',StandardScaler(),numeric_columns),
    ('cat',LabelBinarizer(),categorical_columns),
])

new_X=pipeline.fit_transform(X)

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