pi表示在信息熵部分中有介绍,如下图中介绍
选择最小的那个0.3
#整个c4.5决策树的所有算法:
import numpy as np
import operator
def creatDataSet():
"""
outlook-> 0:sunny | 1:overcast | 2:rain
temperature-> 0:hot | 1:mild | 2:cool
humidity-> 0:high | 1:normal
windy-> 0:false | 1:true
"""
dataSet = np.array([[0, 0, 0, 0, ‘N‘],
[0, 0, 0, 1, ‘N‘],
[1, 0, 0, 0, ‘Y‘],
[2, 1, 0, 0, ‘Y‘],
[2, 2, 1, 0, ‘Y‘],
[2, 2, 1, 1, ‘N‘],
[1, 2, 1, 1, ‘Y‘]])
labels = np.array([‘outlook‘, ‘temperature‘, ‘humidity‘, ‘windy‘])
return dataSet, labels
def createTestSet():
"""
outlook-> 0:sunny | 1:overcast | 2:rain
temperature-> 0:hot | 1:mild | 2:cool
humidity-> 0:high | 1:normal
windy-> 0:false | 1:true
"""
testSet = np.array([[0, 1, 0, 0],
[0, 2, 1, 0],
[2, 1, 1, 0],
[0, 1, 1, 1],
[1, 1, 0, 1],
[1, 0, 1, 0],
[2, 1, 0, 1]])
return testSet
def dataset_entropy(dataset):
"""
计算数据集的信息熵
"""
classLabel=dataset[:,-1]
labelCount={}
for i in range(classLabel.size):
label=classLabel[i]
labelCount[label]=labelCount.get(label,0)+1 #将所有的类别都计算出来了
#熵值(第一步)
cnt=0
for k,v in labelCount.items():
cnt += -v/classLabel.size*np.log2(v/classLabel.size)
return cnt
#接下来切分,然后算最优属性
def splitDataSet(dataset,featureIndex,value):
subdataset=[]
#迭代所有的样本
for example in dataset:
if example[featureIndex]==value:
subdataset.append(example)
return np.delete(subdataset,featureIndex,axis=1)
def classLabelPi(dataset):
#多叉树
classLabel=dataset[:,-1]
labelCount={}
for i in range(classLabel.size):
label=classLabel[i]
labelCount[label]=labelCount.get(label,0)+1
valueList=list(labelCount.values())
sum=np.sum(valueList)
pi=0
for i in valueList:
pi+=(i/sum)**2
return pi
def chooseBestFeature(dataset,labels):
"""
选择最优特征,但是特征是不包括名称的。
如何选择最优特征:增益率最小
"""
#特征的个数
featureNum=labels.size
baseEntropy=dataset_entropy(dataset)
#设置最大增益值
maxRatio,bestFeatureIndex=0,None
#样本总数
n=dataset.shape[0]
#最小基尼值
minGini=1
for i in range(featureNum):
#指定特征的条件熵
featureEntropy=0
gini=0
#返回所有子集
featureList=dataset[:,i]
featureValues=set(featureList)
for value in featureValues:
subDataSet=splitDataSet(dataset,i,value)
pi=subDataSet.shape[0]/n
gini+=pi*(1-classLabelPi(subDataSet))
if minGini > gini:
minGini=gini
bestFeatureIndex=i
return bestFeatureIndex #最佳增益
def mayorClass(classList):
labelCount={}
for i in range(classList.size):
label=classList[i]
labelCount[label]=labelCount.get(label,0)+1
sortedLabel=sorted(labelCount.items(),key=operator.itemgetter(1),reverse=True)
return sortedLabel[0][0]
def createTree(dataset,labels):
"""
参考hunt算法那张图片
"""
classList=dataset[:,-1]
if len(set(dataset[:,-1]))==1:
return dataset[:,-1][0] #返回类别
if labels.size==0 or len(dataset[0])==1: #条件熵最少的一定是类别最多的
#条件熵算不下去的时候,
return mayorClass(classList)
bestFeatureIndex=chooseBestFeature(dataset,labels)
bestFeature=labels[bestFeatureIndex]
dtree={bestFeature:{}} #用代码表示这棵树
featureList=dataset[:,bestFeatureIndex]
featureValues=set(featureList)
for value in featureValues:
subdataset=splitDataSet(dataset,bestFeatureIndex,value)
sublabels=np.delete(labels,bestFeatureIndex)
dtree[bestFeature][value]=createTree(subdataset,sublabels) #将原始的labels干掉一列
return dtree
def predict(tree,labels,testData):
#分类,预测
rootName=list(tree.keys())[0]
rootValue=tree[rootName]
featureIndex =list(labels).index(rootName)
classLabel=None
for key in rootValue.keys():
if testData[featureIndex]==int(key):
if type(rootValue[key]).__name__=="dict":
classLabel=predict(rootValue[key],labels,testData) #递归
else:
classLabel=rootValue[key]
return classLabel
def predictAll(tree,labels,testSet):
classLabels=[]
for i in testSet:
classLabels.append(predict(tree,labels,i))
return classLabels
if __name__ == "__main__":
dataset,labels=creatDataSet()
# print(dataset_entropy(dataset)
# s=splitDataSet(dataset,0)
# for item in s:
# print(item)
tree=createTree(dataset,labels)
testSet=createTestSet()
print(predictAll(tree,labels,testSet))
····························································
输出:
[‘N‘, ‘N‘, ‘Y‘, ‘N‘, ‘Y‘, ‘Y‘, ‘N‘]
原文:https://www.cnblogs.com/zhjblogs/p/14723439.html