I want to export python scikit-learn models into PMML.

What python package is best suited?

I read about Augustus, but I was not able to find any example using scikit-learn models.

  • You can convert Scikit-Learn models and transformers to PMML using the sklearn2pmml package. Oct 19, 2015 at 19:20
  • the jpmml-sklearn package supports from python 3.4. Is there an alternative that supports python 2.7
    – Selva
    Oct 20, 2015 at 14:13
  • JPMML-SkLearn supports Python 2.7 also, but it's not advertised at the moment. Oct 20, 2015 at 18:10

3 Answers 3


SkLearn2PMML 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.

As @user1808924 notes, it supports Python 2.7 or 3.4+. It also requires Java 1.7+

Installed via: (requires git)

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

Example of how export a classifier tree to PMML. First grow the tree:

# example tree & viz from http://scikit-learn.org/stable/modules/tree.html
from sklearn import datasets, tree
iris = datasets.load_iris()
clf = tree.DecisionTreeClassifier() 
clf = clf.fit(iris.data, iris.target)

There are two parts to an SkLearn2PMML conversion, an estimator (our clf) and a mapper (for preprocessing steps such as discretization or PCA). Our mapper is pretty basic, since we are not doing any transformations.

from sklearn_pandas import DataFrameMapper
default_mapper = DataFrameMapper([(i, None) for i in iris.feature_names + ['Species']])

from sklearn2pmml import sklearn2pmml

It is possible (though not documented) to pass mapper=None, but you will see that the predictor names get lost (returning x1 not sepal length etc.).

Let's look at the .pmml file:

<?xml version="1.0" encoding="UTF-8" standalone="yes"?>
<PMML xmlns="http://www.dmg.org/PMML-4_3" version="4.3">
        <Application name="JPMML-SkLearn" version="1.1.1"/>
        <DataField name="sepal length (cm)" optype="continuous" dataType="float"/>
        <DataField name="sepal width (cm)" optype="continuous" dataType="float"/>
        <DataField name="petal length (cm)" optype="continuous" dataType="float"/>
        <DataField name="petal width (cm)" optype="continuous" dataType="float"/>
        <DataField name="Species" optype="categorical" dataType="string">
            <Value value="setosa"/>
            <Value value="versicolor"/>
            <Value value="virginica"/>
    <TreeModel functionName="classification" splitCharacteristic="binarySplit">
            <MiningField name="Species" usageType="target"/>
            <MiningField name="sepal length (cm)"/>
            <MiningField name="sepal width (cm)"/>
            <MiningField name="petal length (cm)"/>
            <MiningField name="petal width (cm)"/>
            <OutputField name="probability_setosa" dataType="double" feature="probability" value="setosa"/>
            <OutputField name="probability_versicolor" dataType="double" feature="probability" value="versicolor"/>
            <OutputField name="probability_virginica" dataType="double" feature="probability" value="virginica"/>
        <Node id="1">
            <Node id="2" score="setosa" recordCount="50.0">
                <SimplePredicate field="petal width (cm)" operator="lessOrEqual" value="0.8"/>
                <ScoreDistribution value="setosa" recordCount="50.0"/>
                <ScoreDistribution value="versicolor" recordCount="0.0"/>
                <ScoreDistribution value="virginica" recordCount="0.0"/>
            <Node id="3">
                <SimplePredicate field="petal width (cm)" operator="greaterThan" value="0.8"/>
                <Node id="4">
                    <SimplePredicate field="petal width (cm)" operator="lessOrEqual" value="1.75"/>
                    <Node id="5">
                        <SimplePredicate field="petal length (cm)" operator="lessOrEqual" value="4.95"/>
                        <Node id="6" score="versicolor" recordCount="47.0">
                            <SimplePredicate field="petal width (cm)" operator="lessOrEqual" value="1.6500001"/>
                            <ScoreDistribution value="setosa" recordCount="0.0"/>
                            <ScoreDistribution value="versicolor" recordCount="47.0"/>
                            <ScoreDistribution value="virginica" recordCount="0.0"/>
                        <Node id="7" score="virginica" recordCount="1.0">
                            <SimplePredicate field="petal width (cm)" operator="greaterThan" value="1.6500001"/>
                            <ScoreDistribution value="setosa" recordCount="0.0"/>
                            <ScoreDistribution value="versicolor" recordCount="0.0"/>
                            <ScoreDistribution value="virginica" recordCount="1.0"/>
                    <Node id="8">
                        <SimplePredicate field="petal length (cm)" operator="greaterThan" value="4.95"/>
                        <Node id="9" score="virginica" recordCount="3.0">
                            <SimplePredicate field="petal width (cm)" operator="lessOrEqual" value="1.55"/>
                            <ScoreDistribution value="setosa" recordCount="0.0"/>
                            <ScoreDistribution value="versicolor" recordCount="0.0"/>
                            <ScoreDistribution value="virginica" recordCount="3.0"/>
                        <Node id="10">
                            <SimplePredicate field="petal width (cm)" operator="greaterThan" value="1.55"/>
                            <Node id="11" score="versicolor" recordCount="2.0">
                                <SimplePredicate field="sepal length (cm)" operator="lessOrEqual" value="6.95"/>
                                <ScoreDistribution value="setosa" recordCount="0.0"/>
                                <ScoreDistribution value="versicolor" recordCount="2.0"/>
                                <ScoreDistribution value="virginica" recordCount="0.0"/>
                            <Node id="12" score="virginica" recordCount="1.0">
                                <SimplePredicate field="sepal length (cm)" operator="greaterThan" value="6.95"/>
                                <ScoreDistribution value="setosa" recordCount="0.0"/>
                                <ScoreDistribution value="versicolor" recordCount="0.0"/>
                                <ScoreDistribution value="virginica" recordCount="1.0"/>
                <Node id="13">
                    <SimplePredicate field="petal width (cm)" operator="greaterThan" value="1.75"/>
                    <Node id="14">
                        <SimplePredicate field="petal length (cm)" operator="lessOrEqual" value="4.8500004"/>
                        <Node id="15" score="virginica" recordCount="2.0">
                            <SimplePredicate field="sepal width (cm)" operator="lessOrEqual" value="3.1"/>
                            <ScoreDistribution value="setosa" recordCount="0.0"/>
                            <ScoreDistribution value="versicolor" recordCount="0.0"/>
                            <ScoreDistribution value="virginica" recordCount="2.0"/>
                        <Node id="16" score="versicolor" recordCount="1.0">
                            <SimplePredicate field="sepal width (cm)" operator="greaterThan" value="3.1"/>
                            <ScoreDistribution value="setosa" recordCount="0.0"/>
                            <ScoreDistribution value="versicolor" recordCount="1.0"/>
                            <ScoreDistribution value="virginica" recordCount="0.0"/>
                    <Node id="17" score="virginica" recordCount="43.0">
                        <SimplePredicate field="petal length (cm)" operator="greaterThan" value="4.8500004"/>
                        <ScoreDistribution value="setosa" recordCount="0.0"/>
                        <ScoreDistribution value="versicolor" recordCount="0.0"/>
                        <ScoreDistribution value="virginica" recordCount="43.0"/>

The first split (Node 1) is on petal width at 0.8. Node 2 (petal width <= 0.8) captures all of the setosa, with nothing else.

You can compare the pmml output to the graphviz output:

from sklearn.externals.six import StringIO
import pydotplus # this might be pydot for python 2.7
dot_data = StringIO() 
                     filled=True, rounded=True,  
graph = pydotplus.graph_from_dot_data(dot_data.getvalue())
# for in-line display, you can also do:
# from IPython.display import Image  
# Image(graph.create_png())  

enter image description here

  • Is there a way to preserve the predictor names when not using a mapper? I really need to know them on the evaluator side, but constructing a mapper just for this is too much of an overkill. Dec 14, 2016 at 14:54
  • @K I couldn't figure out how to preserve the predictor names without a mapper. You could try posting the question.
    – C8H10N4O2
    Dec 15, 2016 at 13:53
  • 7
    the answer appears to be obsolete: sklearn2pmml now uses PMMLPipeline.
    – sds
    Jan 18, 2017 at 17:45

Feel free to try Nyoka. Exports SKL models and then some.


Nyoka is a python library having support for Scikit-learn, XGBoost, LightGBM, Keras and Statsmodels.

Besides about 500 Python classes which each cover a PMML tag and all constructor parameters/attributes as defined in the standard, Nyoka also provides an increasing number of convenience classes and functions that make the Data Scientist’s life easier for example by reading or writing any PMML file in one line of code from within your favorite Python environment.

It can be installed from PyPi using :

pip install nyoka

Example code

Example 1

import pandas as pd
from sklearn import datasets
from sklearn.pipeline import Pipeline
from sklearn.preprocessing import StandardScaler, Imputer
from sklearn_pandas import DataFrameMapper
from sklearn.ensemble import RandomForestClassifier

iris = datasets.load_iris()
irisd = pd.DataFrame(iris.data, columns=iris.feature_names)
irisd['Species'] = iris.target

features = irisd.columns.drop('Species')
target = 'Species'

pipeline_obj = Pipeline([
    ("mapping", DataFrameMapper([
    (['sepal length (cm)', 'sepal width (cm)'], StandardScaler()) , 
    (['petal length (cm)', 'petal width (cm)'], Imputer())
    ("rfc", RandomForestClassifier(n_estimators = 100))

pipeline_obj.fit(irisd[features], irisd[target])

from nyoka import skl_to_pmml

skl_to_pmml(pipeline_obj, features, target, "rf_pmml.pmml")

Example 2

from keras import applications
from keras.layers import Flatten, Dense
from keras.models import Model

model = applications.MobileNet(weights='imagenet', include_top=False,input_shape = (224, 224,3))

x = model.output
x = Flatten()(x)
x = Dense(1024, activation="relu")(x)
predictions = Dense(2, activation=activType)(x)
model_final = Model(inputs =model.input, outputs = predictions,name='predictions')

from nyoka import KerasToPmml
cnn_pmml = KerasToPmml(model_final,dataSet='image',predictedClasses=['cats','dogs'])

cnn_pmml.export(open('2classMBNet.pmml', "w"), 0)

More examples can be found in Nyoka's Github Page .

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