Yes, you are right that there isn't a complete support for tracking the feature_names in sklearn
as of now. Initially, it was decide to keep it as generic at the level of numpy
array. Latest progress on the feature names addition to sklearn estimators can be tracked here.
Anyhow, we can create wrappers to get the feature names of the ColumnTransformer
. I am not sure whether it can capture all the possible types of ColumnTransformers
. But at-least, it can solve your problem.
Notes
The order of the columns in the transformed feature matrix follows the order of how the columns are specified in the transformers list. Columns of the original feature matrix that are not specified are dropped from the resulting transformed feature matrix, unless specified in the passthrough keyword. Those columns specified with passthrough are added at the right to the output of the transformers.
Try this!
import pandas as pd
import numpy as np
from sklearn.compose import ColumnTransformer
from sklearn.pipeline import make_pipeline, Pipeline
from sklearn.impute import SimpleImputer
from sklearn.preprocessing import StandardScaler, OneHotEncoder, MinMaxScaler
from sklearn.feature_extraction.text import _VectorizerMixin
from sklearn.feature_selection._base import SelectorMixin
from sklearn.feature_selection import SelectKBest
from sklearn.feature_extraction.text import CountVectorizer
train = pd.DataFrame({'age': [23,12, 12, np.nan],
'Gender': ['M','F', np.nan, 'F'],
'income': ['high','low','low','medium'],
'sales': [10000, 100020, 110000, 100],
'foo' : [1,0,0,1],
'text': ['I will test this',
'need to write more sentence',
'want to keep it simple',
'hope you got that these sentences are junk'],
'y': [0,1,1,1]})
numeric_columns = ['age']
cat_columns = ['Gender','income']
numeric_pipeline = make_pipeline(SimpleImputer(strategy='median'), StandardScaler())
cat_pipeline = make_pipeline(SimpleImputer(strategy='most_frequent'), OneHotEncoder())
text_pipeline = make_pipeline(CountVectorizer(), SelectKBest(k=5))
transformers = [
('num', numeric_pipeline, numeric_columns),
('cat', cat_pipeline, cat_columns),
('text', text_pipeline, 'text'),
('simple_transformer', MinMaxScaler(), ['sales']),
]
combined_pipe = ColumnTransformer(
transformers, remainder='passthrough')
transformed_data = combined_pipe.fit_transform(
train.drop('y',1), train['y'])
def get_feature_out(estimator, feature_in):
if hasattr(estimator,'get_feature_names'):
if isinstance(estimator, _VectorizerMixin):
# handling all vectorizers
return [f'vec_{f}'
for f in estimator.get_feature_names()]
else:
return estimator.get_feature_names(feature_in)
elif isinstance(estimator, SelectorMixin):
return np.array(feature_in)[estimator.get_support()]
else:
return feature_in
def get_ct_feature_names(ct):
# handles all estimators, pipelines inside ColumnTransfomer
# doesn't work when remainder =='passthrough'
# which requires the input column names.
output_features = []
for name, estimator, features in ct.transformers_:
if name!='remainder':
if isinstance(estimator, Pipeline):
current_features = features
for step in estimator:
current_features = get_feature_out(step, current_features)
features_out = current_features
else:
features_out = get_feature_out(estimator, features)
output_features.extend(features_out)
elif estimator=='passthrough':
output_features.extend(ct._feature_names_in[features])
return output_features
pd.DataFrame(transformed_data,
columns=get_ct_feature_names(combined_pipe))