I have two problems with understanding the result of decision tree from scikit-learn. For example, this is one of my decision trees:

enter image description here My question is that how I can use the tree?

The first question is that: if a sample satisfied the condition, then it goes to the LEFT branch (if exists), otherwise it goes RIGHT. In my case, if a sample with X[7] > 63521.3984. Then the sample will go to the green box. Correct?

The second question is that: when a sample reaches the leaf node, how can I know which category it belongs? In this example, I have three categories to classify. In the red box, there are 91, 212, and 113 samples are satisfied the condition, respectively. But how can I decide the category? I know there is a function clf.predict(sample) to tell the category. Can I do that from the graph??? Many thanks.

  • 1
    Out of curiosity, how did you plot the decision tree? – Matt May 11 '14 at 8:52
  • 4
    First export the tree to the JSON format (see this link ) and then plot the tree using d3.js. Or you can directly use the embedded function: tree.export_graphviz(clf, out_file=your_out_file, feature_names=your_feature_names) Hope it works, @Matt – Student Jack May 12 '14 at 0:01
up vote 22 down vote accepted

The value line in each box is telling you how many samples at that node fall into each category, in order. That's why, in each box, the numbers in value add up to the number shown in sample. For instance, in your red box, 91+212+113=416. So this means if you reach this node, there were 91 data points in category 1, 212 in category 2, and 113 in category 3.

If you were going to predict the outcome for a new data point that reached that leaf in the decision tree, you would predict category 2, because that is the most common category for samples at that node.

  • I was interested in knowing which value belongs to which class. DecisionTreeClassifier.classes holds this information. – ezdazuzena May 14 '14 at 10:42
  • (Useful answer. To clarify using python indexing though: a sample landing in the red box would be predicted (count 212) as category 1, rather than category 0 (91) or category 2 (113) :-) ) – charles.fox Jun 1 '17 at 12:46

First question: Yes, your logic is correct. The left node is True and the right node is False. This is counter-intuitive; true will generally mean a smaller value.

Second question: This problem is best resolved by visualizing the tree as a graph with pydotplus. The 'class_names' attribute of tree.export_graphviz() will add a class declaration to the majority class of each node. Code is executed in iPython.

from sklearn.datasets import load_iris  
from sklearn import tree  
iris = load_iris()  
clf2 = tree.DecisionTreeClassifier()  
clf2 = clf2.fit(iris.data, iris.target)  

with open("iris.dot", 'w') as f:  
    f = tree.export_graphviz(clf, out_file=f)  

import os  
os.unlink('iris.dot')  

import pydotplus  
dot_data = tree.export_graphviz(clf2, out_file=None)  
graph2 = pydotplus.graph_from_dot_data(dot_data)  
graph2.write_pdf("iris.pdf")  

from IPython.display import Image  
dot_data = tree.export_graphviz(clf2, out_file=None,  
                     feature_names=iris.feature_names,  
                     class_names=iris.target_names,  
                     filled=True, rounded=True,  # leaves_parallel=True, 
                     special_characters=True)  
graph2 = pydotplus.graph_from_dot_data(dot_data)

## Color of nodes
nodes = graph2.get_node_list()

for node in nodes:
    if node.get_label():
        values = [int(ii) for ii in node.get_label().split('value = [')[1].split(']')[0].split(',')];
        color = {0: [255,255,224], 1: [255,224,255], 2: [224,255,255],}
        values = color[values.index(max(values))]; # print(values)
        color = '#{:02x}{:02x}{:02x}'.format(values[0], values[1], values[2]); # print(color)
        node.set_fillcolor(color )
#

Image(graph2.create_png() ) 

enter image description here

As for determining the class at the leaf, your example doesn't have leaves with a single class, as the iris data set does. This is common and may require over-fitting the model to attain such an outcome. A discrete distribution of classes is best result for many cross-validated models.

Enjoy the code!

According to the book "Learning scikit-learn: Machine Learning in Python", The decision tree represents a series of decisions based on the training data.

!(http://i.imgur.com/vM9fJLy.png)

To classify an instance, we should answer the question at each node. For example, Is sex<=0.5? (are we talking about a woman?). If the answer is yes, you go to the left child node in the tree; otherwise you go to the right child node. You keep answering questions (was she in the third class?, was she in the first class?, and was she below 13 years old?), until you reach a leaf. When you are there, the prediction corresponds to the target class that has most instances.

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