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I'm trying to extract the feature importances of a random forest object I have trained using PySpark. However, I do not see an example of doing this anywhere in the documentation, nor is it a method of RandomForestModel.

How can I extract feature importances from a RandomForestModel regressor or classifier in PySpark?

Here's the sample code provided in the documentation to get us started; however, there is no mention of feature importances in it.

from pyspark.mllib.tree import RandomForest
from pyspark.mllib.util import MLUtils

# Load and parse the data file into an RDD of LabeledPoint.
data = MLUtils.loadLibSVMFile(sc, 'data/mllib/sample_libsvm_data.txt')
# Split the data into training and test sets (30% held out for testing)
(trainingData, testData) = data.randomSplit([0.7, 0.3])

# Train a RandomForest model.
#  Empty categoricalFeaturesInfo indicates all features are continuous.
#  Note: Use larger numTrees in practice.
#  Setting featureSubsetStrategy="auto" lets the algorithm choose.
model = RandomForest.trainClassifier(trainingData, numClasses=2, categoricalFeaturesInfo={},
                                     numTrees=3, featureSubsetStrategy="auto",
                                     impurity='gini', maxDepth=4, maxBins=32)

I don't see a model.__featureImportances_ attribute available -- where can I find this?

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  • Does anyone have an update on this question? Is there now a PySpark implementation that achieves model.__featureImportances_ ?
    – Pablo O
    Nov 16, 2016 at 22:49
  • 1
    @PabloO I have posted an answer with the update
    – titiro89
    Jun 24, 2017 at 15:49

5 Answers 5

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UPDATE for version > 2.0.0

From the version 2.0.0, as you can see here, FeatureImportances is available for Random Forest.

In fact, you can find here that:

The DataFrame API supports two major tree ensemble algorithms: Random Forests and Gradient-Boosted Trees (GBTs). Both use spark.ml decision trees as their base models.

Users can find more information about ensemble algorithms in the MLlib Ensemble guide. In this section, we demonstrate the DataFrame API for ensembles.

The main differences between this API and the original MLlib ensembles API are:

  • support for DataFrames and ML Pipelines
  • separation of classification vs. regression
  • use of DataFrame metadata to distinguish continuous and categorical features
  • more functionality for random forests: estimates of feature importance, as well as the predicted probability of each class (a.k.a. class conditional probabilities) for classification.

If you want to have Feature Importance values, you have to work with ml package, not mllib, and use dataframes.

Below there is an example that you can find here:

# IMPORT
>>> import numpy
>>> from numpy import allclose
>>> from pyspark.ml.linalg import Vectors
>>> from pyspark.ml.feature import StringIndexer
>>> from pyspark.ml.classification import RandomForestClassifier

# PREPARE DATA
>>> df = spark.createDataFrame([
...     (1.0, Vectors.dense(1.0)),
...     (0.0, Vectors.sparse(1, [], []))], ["label", "features"])
>>> stringIndexer = StringIndexer(inputCol="label", outputCol="indexed")
>>> si_model = stringIndexer.fit(df)
>>> td = si_model.transform(df)

# BUILD THE MODEL
>>> rf = RandomForestClassifier(numTrees=3, maxDepth=2, labelCol="indexed", seed=42)
>>> model = rf.fit(td)

# FEATURE IMPORTANCES
>>> model.featureImportances
SparseVector(1, {0: 1.0}) 
1
6
+25

I have to disappoint you, but feature importances in MLlib implementation of RandomForest are just not calculated, so you cannot get them from anywhere except by by implementing their calculation on your own.

Here's how to find it out:

You call a function RandomForest.trainClassifier deinfed here https://github.com/apache/spark/blob/branch-1.3/python/pyspark/mllib/tree.py

It calls for callMLlibFunc("trainRandomForestModel", ...), which is a call to Scala function RandomForest.trainClassifier or RandomForest.trainRegressor (depending on the algo), which return you RandomForestModel object.

This object is described in https://github.com/apache/spark/blob/branch-1.3/mllib/src/main/scala/org/apache/spark/mllib/tree/model/treeEnsembleModels.scala and is extending TreeEnsembleModel defined in the same source file. And unfortunately this class stores only algorithm (regression or classification), trees themselves, relative weights of the trees and combining strategy (sum, avg, vote). It does not store feature importances, unfortunately, and does not even calculate them (see https://github.com/apache/spark/blob/branch-1.3/mllib/src/main/scala/org/apache/spark/mllib/tree/RandomForest.scala for the calculation algorithm)

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  • 1
    If you go with contribution to the MLlib by implementing the feature yourself, you can take the sklearn implementation.github.com/scikit-learn/scikit-learn/blob/master/sklearn/… - method feature_importances_ collects feature importances for the underlying trees and groups them together by just calculating an average. The code from here - github.com/scikit-learn/scikit-learn/blob/… - method compute_feature_importances is used to estimate feature importance for a single tree
    – 0x0FFF
    Mar 14, 2015 at 13:10
  • Thanks -- yes, we're trying something similar, but since we have only the tree debug output (not the decrease in impurity from each feature split), we can only take a rough estimate of importance. Is there a way to get the decrease in impurity from each MLLib tree split?
    – Bryan
    Mar 17, 2015 at 19:02
  • The only thing you can do here is to contribute to MLlib by porting the code that would estimate feature importance for a decision tree to Scala and pushing this patch to the MLlib code. Without this your estimation would be only rough as you have mentioned.
    – 0x0FFF
    Mar 20, 2015 at 7:40
3

Feature importance is now implemented in Spark 1.5. See resolved JIRA issue. You can get a Vector of feature importances with:

val importances: Vector = model.featureImportances
2
  • This is actually only in the Scala side, not yet in PySpark. Maybe the next version.
    – j_houg
    Nov 20, 2015 at 21:46
  • 1
    Besides, it only exists in the ML implementation and not in MLlib
    – Pop
    Feb 2, 2016 at 9:12
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I believe that this now works. You can call:

from pyspark.ml.classification import RandomForestClassifier
rf = RandomForestClassifier()
model = rf.fit(data)
print model.featureImportances

Running fit on a RandomForestClassifier returns a RandomForestClassificationModel which has the desired featureImportances calculated. I hope that this helps : )

2

It seems that there is a straightforward way to do this in Spark ML now. See https://kb.databricks.com/machine-learning/extract-feature-info.html

This is the key code:

pipeline = Pipeline(stages=[indexer, assembler, decision_tree)
DTmodel = pipeline.fit(train)
va = dtModel.stages[-2]
tree = DTmodel.stages[-1]

display(tree) #visualize the decision tree model
print(tree.toDebugString) #print the nodes of the decision tree model

list(zip(va.getInputCols(), tree.featureImportances))

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