I plotted my sklearn decision tree using the plot_tree function. The nodes have the following structure:
But I don't understand what does the value = [2417, 1059]
mean. In other nodes there are other values. Thanks for explaining.
I plotted my sklearn decision tree using the plot_tree function. The nodes have the following structure:
But I don't understand what does the value = [2417, 1059]
mean. In other nodes there are other values. Thanks for explaining.
DecisionTreeClassifier
:value in a DecisionTreeClassifier
is the class split in each node's samples.
Keep in mind it might also be weighted if you weighted your classes on the call to fit()
.
For example:
cw={0: 0.6495288248337029, 1: 2.1719184430027805}
Taking the true node, your true class split is calculated as:
>>> [3819.229 / cw[0], 1216.274 / cw[1]]
[5880, 560]
And if it's not clear, your criterion is calculated on the weighted split:
>>> a, b = 3819.229, 1216.274
>>> ab = a + b
>>> (-(a / ab)*math.log2(a / ab)) - ((b / ab)*math.log2(b / ab))
0.7975914228753467
DecisionTreeRegressor
:value in a DecisionTreeRegressor
is the value that the tree would predict for a new example falling in that node. If your criterion is MSE, you'll find that value is an average measure of the samples in that node.
For example:
*(Data: Seaborn's "dots" example set.)
A depth-1 regressor tree fitted on coherence to predict firing_rate. It's not a very useful tree, but it illustrates the idea.
Taking the true node, value is calculated as:
>>> value = data[data.coherence <= 19.2].firing_rate.mean()
>>> value
40.48326118418657
squared_error for that node is:
>>> ((data[data.coherence <= 19.2].firing_rate - value)**2).mean()
134.6504380931471
They are indicating you the number of sample by class that you have in the step.
For example, your picture show that before splitting for "hops<=5" you have 2417 samples of class 0 and 1059 samples of the class 1.
Realize that if you sum this two values, you will obtain the same number (3476) as the parameter "samples".
If the tree works, you will observe how the data is splitting better in every step. For final leaf you will see that you have clear values like [300, 2]
. Then you can say that all this sample are class 0.
DecisionTreeRegressor
, esp. for internal nodes?