/sklearn2pmml

Python library for converting Scikit-Learn pipelines to PMML

Primary LanguagePythonGNU Affero General Public License v3.0AGPL-3.0

SkLearn2PMML

Python library for converting Scikit-Learn pipelines to PMML.

Features

This library is a thin wrapper around the JPMML-SkLearn command-line application. For a list of supported Scikit-Learn Estimator and Transformer types, please refer to the documentation of the JPMML-SkLearn project.

Prerequisites

  • Python 2.7, 3.4 or newer.
  • Java 1.7 or newer. The Java executable must be available on system path.

Installation

Installing the latest version from GitHub:

pip install --user git+https://github.com/jpmml/sklearn2pmml.git

Usage

A typical workflow can be summarized as follows:

  1. Create a sklearn2pmml.PMMLPipeline object, and populate it with pipeline steps as usual. Class sklearn2pmml.PMMLPipeline extends class sklearn.pipeline.Pipeline with the following functionality:
  • If the Pipeline.fit(X, y) method is invoked with pandas.DataFrame or pandas.Series object as an X argument, then its column names are used as feature names. Otherwise, feature names default to "x1", "x2", .., "x{number_of_features}".
  • If the Pipeline.fit(X, y) method is invoked with pandas.Series object as an y argument, then its name is used as the target name (for supervised models). Otherwise, the target name defaults to "y".
  1. Fit and validate the pipeline as usual.
  2. Convert the fitted sklearn2pmml.PMMLPipeline object to PMML document by invoking utility method sklearn2pmml.sklearn2pmml(pipeline, pmml_destination_path).

Developing a simple decision tree model for the classification of iris species:

import pandas

iris_df = pandas.read_csv("Iris.csv")

from sklearn2pmml import PMMLPipeline
from sklearn.tree import DecisionTreeClassifier

iris_pipeline = PMMLPipeline([
	("classifier", DecisionTreeClassifier())
])
iris_pipeline.fit(iris_df[iris_df.columns.difference(["Species"])], iris_df["Species"])

from sklearn2pmml import sklearn2pmml

sklearn2pmml(iris_pipeline, "DecisionTreeIris.pmml", with_repr = True)

Developing a more elaborate logistic regression model for the same:

import pandas

iris_df = pandas.read_csv("Iris.csv")

from sklearn2pmml import PMMLPipeline
from sklearn2pmml.decoration import ContinuousDomain
from sklearn_pandas import DataFrameMapper
from sklearn.decomposition import PCA
from sklearn.feature_selection import SelectKBest
from sklearn.preprocessing import Imputer
from sklearn.linear_model import LogisticRegression

iris_pipeline = PMMLPipeline([
	("mapper", DataFrameMapper([
		(["Sepal.Length", "Sepal.Width", "Petal.Length", "Petal.Width"], [ContinuousDomain(), Imputer()])
	])),
	("pca", PCA(n_components = 3)),
	("selector", SelectKBest(k = 2)),
	("classifier", LogisticRegression())
])
iris_pipeline.fit(iris_df, iris_df["Species"])

from sklearn2pmml import sklearn2pmml

sklearn2pmml(iris_pipeline, "LogisticRegressionIris.pmml", with_repr = True)

De-installation

Uninstalling:

pip uninstall sklearn2pmml

License

SkLearn2PMML is licensed under the GNU Affero General Public License (AGPL) version 3.0. Other licenses are available on request.

Additional information

Please contact info@openscoring.io