‘‘‘ @author: hakuri ‘‘‘ from numpy import * import matplotlib.pyplot as plt def loadDataSet(fileName): #general function to parse tab -delimited floats dataMat = [] #assume last column is target value fr = open(fileName) for line in fr.readlines(): curLine = line.strip().split(‘\t‘) fltLine = map(float,curLine) #map all elements to float() dataMat.append(fltLine) return dataMat def distEclud(vecA, vecB): return sqrt(sum(power(vecA - vecB, 2))) #la.norm(vecA-vecB) def randCent(dataSet, k): n = shape(dataSet)[1] centroids = mat(zeros((k,n)))#create centroid mat for j in range(n):#create random cluster centers, within bounds of each dimension minJ = min(array(dataSet)[:,j]) rangeJ = float(max(array(dataSet)[:,j]) - minJ) centroids[:,j] = mat(minJ + rangeJ * random.rand(k,1)) return centroids def kMeans(dataSet, k, distMeas=distEclud, createCent=randCent): m = shape(dataSet)[0] clusterAssment = mat(zeros((m,2)))#create mat to assign data points #to a centroid, also holds SE of each point centroids = createCent(dataSet, k) clusterChanged = True while clusterChanged: clusterChanged = False for i in range(m):#for each data point assign it to the closest centroid minDist = inf; minIndex = -1 for j in range(k): distJI = distMeas(array(centroids)[j,:],array(dataSet)[i,:]) if distJI < minDist: minDist = distJI; minIndex = j if clusterAssment[i,0] != minIndex: clusterChanged = True clusterAssment[i,:] = minIndex,minDist**2 print centroids # print nonzero(array(clusterAssment)[:,0] for cent in range(k):#recalculate centroids ptsInClust = dataSet[nonzero(array(clusterAssment)[:,0]==cent)[0][0]]#get all the point in this cluster centroids[cent,:] = mean(ptsInClust, axis=0) #assign centroid to mean id=nonzero(array(clusterAssment)[:,0]==cent)[0] return centroids, clusterAssment,id def plotBestFit(dataSet,id,centroids): dataArr = array(dataSet) cent=array(centroids) n = shape(dataArr)[0] n1=shape(cent)[0] xcord1 = []; ycord1 = [] xcord2 = []; ycord2 = [] xcord3=[];ycord3=[] j=0 for i in range(n): if j in id: xcord1.append(dataArr[i,0]); ycord1.append(dataArr[i,1]) else: xcord2.append(dataArr[i,0]); ycord2.append(dataArr[i,1]) j=j+1 for k in range(n1): xcord3.append(cent[k,0]);ycord3.append(cent[k,1]) fig = plt.figure() ax = fig.add_subplot(111) ax.scatter(xcord1, ycord1, s=30, c=‘red‘, marker=‘s‘) ax.scatter(xcord2, ycord2, s=30, c=‘green‘) ax.scatter(xcord3, ycord3, s=50, c=‘black‘) plt.xlabel(‘X1‘); plt.ylabel(‘X2‘); plt.show() if __name__==‘__main__‘: dataSet=loadDataSet(‘/Users/hakuri/Desktop/testSet.txt‘) # # print randCent(dataSet,2) # print dataSet # # print kMeans(dataSet,2) a=[] b=[] a, b,id=kMeans(dataSet,2) plotBestFit(dataSet,id,a)
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【机器学习算法-python实现】K-means无监督学习实现分类,布布扣,bubuko.com
【机器学习算法-python实现】K-means无监督学习实现分类
原文:http://blog.csdn.net/buptgshengod/article/details/37662725