9

The sklearn DecisionTreeClassifier has a attribute called "splitter" , it is set to "best" by default, what does setting it to "best" or "random" do? I couldn't find enough information from the official documentation.

8

There is 2 things to consider, the criterion and the splitter. During all the explaination, I'll use the wine dataset example:

Criterion:

It is used to evaluate the feature importance. The default one is gini but you can also use entropy. Based on this, the model will define the importance of each feature for the classification.

Example:

The wine dataset using a "gini" criterion has a feature importance of:

                             alcohol -> 0.04727507393151268
                          malic_acid -> 0.0
                                 ash -> 0.0
                   alcalinity_of_ash -> 0.0
                           magnesium -> 0.0329784450464887
                       total_phenols -> 0.0
                          flavanoids -> 0.1414466773122087
                nonflavanoid_phenols -> 0.0
                     proanthocyanins -> 0.0
                     color_intensity -> 0.0
                                 hue -> 0.08378677906228588
        od280/od315_of_diluted_wines -> 0.3120425747831769
                             proline -> 0.38247044986432716

The wine dataset using a "entropy" criterion has a feature importance of:

                             alcohol -> 0.014123729330936566
                          malic_acid -> 0.0
                                 ash -> 0.0
                   alcalinity_of_ash -> 0.02525179137252771
                           magnesium -> 0.0
                       total_phenols -> 0.0
                          flavanoids -> 0.4128453371544815
                nonflavanoid_phenols -> 0.0
                     proanthocyanins -> 0.0
                     color_intensity -> 0.22278576133186542
                                 hue -> 0.011635633063349873
        od280/od315_of_diluted_wines -> 0.0
                             proline -> 0.31335774774683883

Results varies with the random_state so I think that only a subset of the dataset is used to compute it.

Splitter:

The splitter is used to decide which feature and which threshold is used.

  • Using best, the model if taking the feature with the highest importance
  • Using random, the model if taking the feature randomly but with the same distribution (in gini, proline have an importance of 38% so it will be taken in 38% of cases)

Example:

After training 1000 DecisionTreeClassifier with criterion="gini", splitter="best" and here is the distribution of the "feature number" used at the first split and the 'threshold'

feature selection distribution

It always choses the feature 12 (=proline) with a threshold of 755. This is the head of one of the model trained:

enter image description here

By doing the same with splitter= "random", the result is:

enter image description here

The threshold is more variant due to the use of different features, here is the result by filtering model having the feature 12 as first split:

enter image description here

We can see that the model is also taking randomply the thresholdto split. By looking at the distribution of the feature 12 in regards of classes, we have:

enter image description here

The red line being the threshold used when splitter="best". Now, using random, the model will randomly select a threshold value (I think normally distributed with a mean/stdev of the feature but I'm not sure) leading the a distribution centered in the green light and with min max in blue (done with 1353 randomly trained model wtarting with feature 12 for the split)

enter image description here

Code to reproduce:

from sklearn import datasets
from sklearn.tree import DecisionTreeClassifier, plot_tree, _tree
import numpy as np
import matplotlib.pyplot as plt

wine = datasets.load_wine()

# Feature importance

clf = DecisionTreeClassifier(criterion="gini", splitter='best', random_state=42)
clf = clf.fit(wine.data, wine.target)

for name, val in zip(wine.feature_names, clf.feature_importances_):
    print(f"{name:>40} -> {val}")

print("")
clf = DecisionTreeClassifier(criterion="entropy", splitter='best', random_state=42)
clf = clf.fit(wine.data, wine.target)

for name, val in zip(wine.feature_names, clf.feature_importances_):
    print(f"{name:>40} -> {val}")

# Feature selected first and threshold

features = []
tresholds = []
for random in range(1000):
    clf = DecisionTreeClassifier(criterion="gini", splitter='best', random_state=random)
    clf = clf.fit(wine.data, wine.target)
    features.append(clf.tree_.feature[0])
    tresholds.append(clf.tree_.threshold[0])

# plot distribution
fig, (ax, ax2) = plt.subplots(1, 2, figsize=(20, 5))
ax.hist(features, bins=np.arange(14)-0.5)
ax2.hist(tresholds)
ax.set_title("Number of the first used for split")
ax2.set_title("Value of the threshold")
plt.show()

# plot model
plt.figure(figsize=(20, 12))
plot_tree(clf) 
plt.show()

# plot filtered result
threshold_filtered = [val for feat, val in zip(features, tresholds) if feat==12]
fig, ax = plt.subplots(1, 1, figsize=(20, 10))
ax.hist(threshold_filtered)
ax.set_title("Number of the first used for split")
plt.show()

feature_number = 12
X1, X2, X3 = wine.data[wine.target==0][:, feature_number], wine.data[wine.target==1][:, feature_number], wine.data[wine.target==2][:, feature_number]

fig, ax = plt.subplots()
ax.set_title(f'feature {feature_number} - distribution')
ax.boxplot([X1, X2, X3])
ax.hlines(755, 0.5, 3.5, colors="r", linestyles="dashed")
ax.hlines(min(threshold_filtered), 0.5, 3.5, colors="b", linestyles="dashed")
ax.hlines(max(threshold_filtered), 0.5, 3.5, colors="b", linestyles="dashed")
ax.hlines(sum(threshold_filtered)/len(threshold_filtered), 0.5, 3.5, colors="g", linestyles="dashed")
plt.xlabel("Class")
plt.show()
7
  • So If I choose "random",the Gini impurity or the Information gain will not be calculated? because calculating them and using "random" doesn't make any sense,Am I right? – Vijayabhaskar J Oct 16 '17 at 2:19
  • I guess it will be calculated afterward but not used to select the best feature. – Nicolas M. Oct 16 '17 at 8:07
  • This answer seems to be wrong. The random splitter goes through all features. For every feature it tests only at one random split between min and max of that feature. – John Jul 23 '20 at 1:55
  • You are right, I maybe mixed up between criterion and splitter. I'll investigate and edit the answer this week end. – Nicolas M. Jul 24 '20 at 15:20
  • @John, I've completely restarted the explanation with more details and I hope this is now clearer and with less mistakes (the only points I don't get is exactly how the threshold value is selected in random. Some approximation were due to lack of knowledge (I wrote this answer less than a year after starting the Data Science) – Nicolas M. Jul 25 '20 at 12:15
3

The "Random" setting selects a feature at random, then splits it at random and calculates the gini. It repeats this a number of times, comparing all the splits and then takes the best one.

This has a few advantages:

  1. It's less computation intensive than calculating the optimal split of every feature at every leaf.
  2. It should be less prone to overfitting.
  3. The additional randomness is useful if your decision tree is a component of an ensemble method.
1
  • This seems to be wrong. The random splitter goes through all features. For every feature it tests only at one random split between min and max of that feature. – John Jul 23 '20 at 1:54
1

Short ans:

RandomSplitter initiates a **random split on each chosen feature**, whereas BestSplitter goes through **all possible splits on each chosen feature**.


Longer explanation:

This is clear when you go thru _splitter.pyx.

  • RandomSplitter calculates improvement only on threshold that is randomly initiated (ref. lines 761 and 801). BestSplitter goes through all possible splits in a while loop (ref. lines 436 (which is where loop starts) and 462). [Note: Lines are in relation to version 0.21.2.]
  • As opposed to earlier responses from 15 Oct 2017 and 1 Feb 2018, RandomSplitter and BestSplitter both loop through all relevant features. This is also evident in _splitter.pyx.

    Your Answer

    By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

    Not the answer you're looking for? Browse other questions tagged or ask your own question.