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I'm trying to understand how feature importance is calculated for decision trees in sci-kit learn. This question has been asked before, but I am unable to reproduce the results the algorithm is providing.

For example:

from StringIO import StringIO

from sklearn.datasets import load_iris
from sklearn.tree import DecisionTreeClassifier
from sklearn.tree.export import export_graphviz
from sklearn.feature_selection import mutual_info_classif

X = [[1,0,0], [0,0,0], [0,0,1], [0,1,0]]

y = [1,0,1,1]

clf = DecisionTreeClassifier()
clf.fit(X, y)

feat_importance = clf.tree_.compute_feature_importances(normalize=False)
print("feat importance = " + str(feat_importance))

out = StringIO()
out = export_graphviz(clf, out_file='test/tree.dot')

results in feature importance:

feat importance = [0.25       0.08333333 0.04166667]

and gives the following decision tree:

decision tree

Now, this answer to a similar question suggests the importance is calculated as

formula_a

Where G is the node impurity, in this case the gini impurity. This is the impurity reduction as far as I understood it. However, for feature 1 this should be:

formula_b

This answer suggests the importance is weighted by the probability of reaching the node (which is approximated by the proportion of samples reaching that node). Again, for feature 1 this should be:

formula_c

Both formulas provide the wrong result. How is the feature importance calculated correctly?

  • The importance is also normalised if you look at the source code. The normalisation is done in such a way that the sum of the output would be equal to 1. You can also see the other details about computation there. – error Mar 8 '18 at 10:39
  • Yes, actually my example code was wrong. The calculated feature importance is computed with clf.tree_.compute_feature_importances(normalize=False). I updated my answer. – Characeae Mar 12 '18 at 19:37
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I think feature importance depends on the implementation so we need to look at the documentation of scikit-learn.

The feature importances. The higher, the more important the feature. The importance of a feature is computed as the (normalized) total reduction of the criterion brought by that feature. It is also known as the Gini importance

That reduction or weighted information gain is defined as :

The weighted impurity decrease equation is the following:

N_t / N * (impurity - N_t_R / N_t * right_impurity - N_t_L / N_t * left_impurity)

where N is the total number of samples, N_t is the number of samples at the current node, N_t_L is the number of samples in the left child, and N_t_R is the number of samples in the right child.

http://scikit-learn.org/stable/modules/generated/sklearn.tree.DecisionTreeClassifier.html#sklearn.tree.DecisionTreeClassifier

Since each feature is used once in your case, feature information must be equal to equation above.

For X[2] :

feature_importance = (4 / 4) * (0.375 - (0.75 * 0.444)) = 0.042

For X[1] :

feature_importance = (3 / 4) * (0.444 - (2/3 * 0.5)) = 0.083

For X[0] :

feature_importance = (2 / 4) * (0.5) = 0.25

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