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Python实现的knn算法示例-创新互联

本文实例讲述了Python实现的knn算法。分享给大家供大家参考,具体如下:

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代码参考机器学习实战那本书:

机器学习实战 (Peter Harrington著) 中文版

机器学习实战 (Peter Harrington著) 英文原版[附源代码]

有兴趣你们可以去了解下

具体代码:

# -*- coding:utf-8 -*-
#! python2
'''''
@author:zhoumeixu
createdate:2015年8月27日
'''
#np.zeros((4,2))
#np.zeros(8).reshape(4,2)
#x=np.array([[1.0,1.1],[1.0,1.0],[0,0],[0,0.1]]) np.zeros_like(x)
# 最值和排序:最值有np.max(),np.min() 他们都有axis和out(输出)参数,
# 而通过np.argmax(), np.argmin()可以得到取得大或最小值时的 下标。
# 排序通过np.sort(), 而np.argsort()得到的是排序后的数据原来位置的下标
# 简单实现knn算法的基本思路
import numpy as np
import operator #运算符操作包
from _ctypes import Array
from statsmodels.sandbox.regression.kernridgeregress_class import plt_closeall
def createDataSet():
 group=np.array([[1.0,1.1],[1.0,1.0],[0,0],[0,0.1]])
 labels=['A','A','B','B']
 return group ,labels
group,labels=createDataSet()
def classify0(inx,dataSet,labels,k):
 dataSetSize=dataSet.shape[0]
 diffMat=np.tile(inx,(dataSetSize,1))-dataSet
 sqDiffMat=diffMat**2
 sqDistances=sqDiffMat.sum(axis=1)
 distances=sqDistances**0.5   #计算距离 python中会自动广播的形式
 sortedDistIndicies=distances.argsort() #排序,得到原来数据的在原来所在的下标
 classCount={}
 for i in range(k):
  voteIlabel=labels[sortedDistIndicies[i]] # 计算距离最近的值所在label标签
  classCount[voteIlabel]=classCount.get(voteIlabel,0)+1 # 计算距离最近的值所在label标签,对前k哥最近数据进行累加
 sortedClassCount=sorted(classCount.iteritems(),key=operator.itemgetter(1),reverse=True) #排序得到距离k个最近的数所在的标签
 return sortedClassCount[0][0]
if __name__=='__main__':
 print(classify0([0,0],group,labels,4))
# 利用knn算法改进约会网站的配对效果
def file2matrix(filename):
 fr=open(filename)
 arrayOLines=fr.readlines()
 numberOfLines=len(arrayOLines)
 returnMat=np.zeros((numberOfLines,3))
 classLabelVector=[]
 index=0
 for line in arrayOLines:
  line=line.strip()
  listFromLine=line.split('\t')
  returnMat[index,:]=listFromLine[0:3]
  classLabelVector.append(int(listFromLine[-1]))
  index+=1
 return returnMat ,classLabelVector #生成训练数据的array和目标array
path=u'D:\\Users\\zhoumeixu204\\Desktop\\python语言机器学习\\机器学习实战代码 python\\机器学习实战代码\\machinelearninginaction\\Ch02\\'
datingDataMat,datingLabels=file2matrix(path+'datingTestSet2.txt')
import matplotlib
import matplotlib.pyplot as plt
fig=plt.figure()
ax=fig.add_subplot(111)
ax.scatter(datingDataMat[:,1],datingDataMat[:,2])
plt.show()
ax.scatter(datingDataMat[:,1],datingDataMat[:,2],15.0*np.array(datingLabels),15*np.array(datingDataMat[:,2]))
plt.show()  #生成训练数据的array和目标array
def autoNorm(dataset):
 minVals=dataset.min(0)
 maxVals=dataset.max(0)
 ranges=maxVals-minVals
 normeDataSet=np.zeros(np.shape(dataset))
 m=dataset.shape[0]
 normDataSet=dataset-np.tile(minVals,(m,1))
 normDataSet=normDataSet/np.tile(ranges,(m,1))
 return normDataSet ,ranges,minVals
normMat,ranges,minVals=autoNorm(datingDataMat)
def datingClassTest():
 hoRatio=0.1
 datingDataMat,datingLabels=file2matrix(path+'datingTestSet2.txt')
 normMat,ranges,minVals=autoNorm(datingDataMat)
 m=normMat.shape[0]
 numTestVecs=int(m*hoRatio)
 errorCount=0.0
 for i in range(numTestVecs):
  classifierResult=classify0(normMat[i,:], normMat[numTestVecs:m,:], datingLabels[numTestVecs:m],3)
  print "the classifier came back with :%d,the real answer is :%d"\
     %(classifierResult,datingLabels[i])
  if classifierResult!=datingLabels[i]:
   errorCount+=1.0
 print "the total error rare is :%f"%(errorCount/float(numTestVecs)) #利用knn算法测试错误率
if __name__=='__main__':
 datingClassTest()
#利用构建好的模型进行预测
def classifyPerson():
 resultList=['not at all','in same doses','in large d oses']
 percentTats=float(raw_input("percentage if time spent playin cideo games:"))
 ffMiles=float(raw_input("frequnet fliter miles earned per year:"))
 iceCream=float(raw_input("liters of ice cream consumed per year:"))
 datingDataMat,datingLabels=file2matrix(path+'datingTestSet2.txt')
 normMat,ranges,minVals=autoNorm(datingDataMat)
 inArr=np.array([ffMiles,percentTats,iceCream])
 classifierResult=classify0((inArr-minVals)/ranges,normMat,datingLabels,3)
 print("you will probably like the person:",resultList[classifierResult-1])
if __name__!='__main__':
 classifyPerson()
#利用knn算法进行手写识别系统验证
path=u'D:\\Users\\zhoumeixu204\\Desktop\\python语言机器学习\\机器学习实战代码 python\\机器学习实战代码\\machinelearninginaction\\Ch02\\'
def img2vector(filename):
 returnVect=np.zeros((1,1024))
 fr=open(filename)
 for i in range(32):
  lineStr=fr.readline()
  for j in range(32):
   returnVect[0,32*i+j]=int(lineStr[j])
 return returnVect
testVector=img2vector(path+'testDigits\\0_13.txt')
print(testVector[0,0:31])
import os
def handwritingClassTest():
 hwLabels=[]
 trainingFileList=os.listdir(path+'trainingDigits')
 m=len(trainingFileList)
 trainingMat=np.zeros((m,1024))
 for i in range(m):
  fileNameStr=trainingFileList[i]
  fileStr=fileNameStr.split('.')[0]
  classNumStr=int(fileStr.split('_')[0])
  hwLabels.append(classNumStr)
  trainingMat[i,:]=img2vector(path+'trainingDigits\\'+fileNameStr)
 testFileList=os.listdir(path+'testDigits')
 errorCount=0.0
 mTest=len(testFileList)
 for j in range(mTest):
  fileNameStr=testFileList[j]
  fileStr=fileNameStr.split('.')[0]
  classNumStr=int(fileNameStr.split('_')[0])
  classNumStr=int(fileStr.split('_')[0])
  vectorUnderTest=img2vector(path+'testDigits\\'+fileNameStr)
  classifierResult=classify0(vectorUnderTest,trainingMat,hwLabels,3)
  print("the classifier canme back with:%d,the real answer is :%d"%(classifierResult,classNumStr))
  if classifierResult!=classNumStr:
   errorCount+=1.0
 print("\nthe total number of errors is :%d"%errorCount)
 print("\n the total error rate is :%f"%(errorCount/float(mTest)))
if __name__=='__main__':
 handwritingClassTest()


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