Package | |
Meta | |
Documentation | |
Testing |
Feature-engine is a Python library with multiple transformers to engineer and select features for use in machine learning models. Feature-engine's transformers follow Scikit-learn's functionality with fit() and transform() methods to learn the transforming parameters from the data and then transform it.
-
Feature-engine: A new open-source Python package for feature engineering
-
Practical Code Implementations of Feature Engineering for Machine Learning with Python
We want to share Feature-engine with more people. It'd help us loads if you tell us how you discovered us.
Then we'd know what we are doing right and which channels to use to share the love.
Please share your story by answering 1 quick question at this link . 😃
- Missing Data Imputation
- Categorical Encoding
- Discretisation
- Outlier Capping or Removal
- Variable Transformation
- Variable Creation
- Variable Selection
- Datetime Features
- Time Series
- Preprocessing
- Scikit-learn Wrappers
- MeanMedianImputer
- ArbitraryNumberImputer
- RandomSampleImputer
- EndTailImputer
- CategoricalImputer
- AddMissingIndicator
- DropMissingData
- OneHotEncoder
- OrdinalEncoder
- CountFrequencyEncoder
- MeanEncoder
- WoEEncoder
- RareLabelEncoder
- DecisionTreeEncoder
- StringSimilarityEncoder
- EqualFrequencyDiscretiser
- EqualWidthDiscretiser
- GeometricWidthDiscretiser
- DecisionTreeDiscretiser
- ArbitraryDiscreriser
- Winsorizer
- ArbitraryOutlierCapper
- OutlierTrimmer
- LogTransformer
- LogCpTransformer
- ReciprocalTransformer
- ArcsinTransformer
- PowerTransformer
- BoxCoxTransformer
- YeoJohnsonTransformer
- MathFeatures
- RelativeFeatures
- CyclicalFeatures
- DecisionTreeFeatures()
- DropFeatures
- DropConstantFeatures
- DropDuplicateFeatures
- DropCorrelatedFeatures
- SmartCorrelationSelection
- ShuffleFeaturesSelector
- SelectBySingleFeaturePerformance
- SelectByTargetMeanPerformance
- RecursiveFeatureElimination
- RecursiveFeatureAddition
- DropHighPSIFeatures
- SelectByInformationValue
- ProbeFeatureSelection
- DatetimeFeatures
- DatetimeSubtraction
- LagFeatures
- WindowFeatures
- ExpandingWindowFeatures
- Pipeline
- make_pipeline
- MatchCategories
- MatchVariables
- SklearnTransformerWrapper
From PyPI using pip:
pip install feature_engine
From Anaconda:
conda install -c conda-forge feature_engine
Or simply clone it:
git clone https://github.com/feature-engine/feature_engine.git
>>> import pandas as pd
>>> from feature_engine.encoding import RareLabelEncoder
>>> data = {'var_A': ['A'] * 10 + ['B'] * 10 + ['C'] * 2 + ['D'] * 1}
>>> data = pd.DataFrame(data)
>>> data['var_A'].value_counts()
Out[1]:
A 10
B 10
C 2
D 1
Name: var_A, dtype: int64
>>> rare_encoder = RareLabelEncoder(tol=0.10, n_categories=3)
>>> data_encoded = rare_encoder.fit_transform(data)
>>> data_encoded['var_A'].value_counts()
Out[2]:
A 10
B 10
Rare 3
Name: var_A, dtype: int64
Find more examples in our Jupyter Notebook Gallery or in the documentation.
Details about how to contribute can be found in the Contribute Page
Briefly:
- Fork the repo
- Clone your fork into your local computer:
git clone https://github.com/<YOURUSERNAME>/feature_engine.git
- navigate into the repo folder
cd feature_engine
- Install Feature-engine as a developer:
pip install -e .
- Optional: Create and activate a virtual environment with any tool of choice
- Install Feature-engine dependencies:
pip install -r requirements.txt
and
pip install -r test_requirements.txt
- Create a feature branch with a meaningful name for your feature:
git checkout -b myfeaturebranch
- Develop your feature, tests and documentation
- Make sure the tests pass
- Make a PR
Thank you!!
Feature-engine documentation is built using Sphinx and is hosted on Read the Docs.
To build the documentation make sure you have the dependencies installed: from the root directory:
pip install -r docs/requirements.txt
Now you can build the docs using:
sphinx-build -b html docs build
The content of this repository is licensed under a BSD 3-Clause license.
Sponsor us and support further our mission to democratize machine learning and programming tools through open-source software.