概率论是非常多机器学习算法基础，朴素贝叶斯分类器之所以称为朴素，是由于整个形式化过程中仅仅做最原始、简单的如果。

（这个如果：问题中有非常多特征，我们简单如果一个个特征是独立的。该如果称做条件独立性，事实上往往实际问题中不是全然独立的，这时须要用到第二种方法叫做贝叶斯网络），后面利用朴素贝叶斯方法，我们应用在垃圾邮件过滤问题其中去。

贝叶斯决策理论的分类方法：

长处：数据较少仍然有效，能够处理多类别问题。

缺点：对于输入数据的准备方式较为敏感，我理解就是開始要准备每一个已经分类好的样本集

数据类型：标称型数据（nominal values provide only enough information to distiguish one object from another = 或者|=)

理论基础就是我们在数理统计课程中学到的那个贝叶斯公式这里不再复述。我们通过计算条件概率进行分类。

Python进行文本分类：

def loadDataSet():

    postingList=[['my', 'dog', 'has', 'flea', 'problems', 'help', 'please'],

                 ['maybe', 'not', 'take', 'him', 'to', 'dog', 'park', 'stupid'],

                 ['my', 'dalmation', 'is', 'so', 'cute', 'I', 'love', 'him'],

                 ['stop', 'posting', 'stupid', 'worthless', 'garbage'],

                 ['mr', 'licks', 'ate', 'my', 'steak', 'how', 'to', 'stop', 'him'],

                 ['quit', 'buying', 'worthless', 'dog', 'food', 'stupid']]

    classVec = [0,1,0,1,0,1]    #1 is abusive, 0 not

    return postingList,classVec

def createVocabList(dataSet):

    vocabSet = set([])  #create empty set

    for document in dataSet:

        vocabSet = vocabSet | set(document) #union of the two sets

    return list(vocabSet)

def setOfWords2Vec(vocabList, inputSet):

    returnVec = [0]*len(vocabList)

    for word in inputSet:

        if word in vocabList:

            returnVec[vocabList.index(word)] = 1

        else: print "the word: %s is not in my Vocabulary!" % word

    return returnVec

第一个函数loadDataSet()创建样本数据。每一个样本数据进行了分类，1为侮辱言论0 为正常言论。

下一个函数则是创建全部文档中出现不反复单词的列表。

第三个函数set转为向量。假设单词出现向量中为1，没出现为0。

def trainNB0(trainMatrix,trainCategory):

    numTrainDocs = len(trainMatrix)

    numWords = len(trainMatrix[0])

    pAbusive = sum(trainCategory)/float(numTrainDocs)

    p0Num = ones(numWords); p1Num = ones(numWords)      #change to ones()

    p0Denom = 2.0; p1Denom = 2.0                        #change to 2.0

    for i in range(numTrainDocs):

        if trainCategory[i] == 1:

            p1Num += trainMatrix[i]

            p1Denom += sum(trainMatrix[i])

        else:

            p0Num += trainMatrix[i]

            p0Denom += sum(trainMatrix[i])

    p1Vect = log(p1Num/p1Denom)          #change to log()

    p0Vect = log(p0Num/p0Denom)          #change to log()

    return p0Vect,p1Vect,pAbusive

这个函数中进行了两个优化须要注意：初始化矩阵为1。避免由于某个特性下概率为0 就导致总体概率为0 。另一个就是概率进行乘法过后数值会比較小，取log方便比較。

測试代码函数部分：

def classifyNB(vec2Classify, p0Vec, p1Vec, pClass1):

    p1 = sum(vec2Classify * p1Vec) + log(pClass1)    #element-wise mult

    p0 = sum(vec2Classify * p0Vec) + log(1.0 - pClass1)

    if p1 > p0:

        return 1

    else:

        return 0

def testingNB():

    listOPosts,listClasses = loadDataSet()

    myVocabList = createVocabList(listOPosts)

    trainMat=[]

    for postinDoc in listOPosts:

        trainMat.append(setOfWords2Vec(myVocabList, postinDoc))

    p0V,p1V,pAb = trainNB0(array(trainMat),array(listClasses))

    testEntry = ['love', 'my', 'dalmation']

    thisDoc = array(setOfWords2Vec(myVocabList, testEntry))

    print testEntry,'classified as: ',classifyNB(thisDoc,p0V,p1V,pAb)

    testEntry = ['stupid', 'garbage']

    thisDoc = array(setOfWords2Vec(myVocabList, testEntry))

    print testEntry,'classified as: ',classifyNB(thisDoc,p0V,p1V,pAb)

应用部分：使用朴素贝叶斯过滤垃圾邮件，使用到交叉验证。

数据准备会有spam目录以下所有是标记的垃圾邮件。ham下是正常邮件。

def textParse(bigString):    #input is big string, #output is word list

    import re

    listOfTokens = re.split(r'\W*', bigString)

    return [tok.lower() for tok in listOfTokens if len(tok) > 2]

def spamTest():

    docList=[]; classList = []; fullText =[]

    for i in range(1,26):

        wordList = textParse(open('email/spam/%d.txt' % i).read())

        docList.append(wordList)

        fullText.extend(wordList)

        classList.append(1)

        wordList = textParse(open('email/ham/%d.txt' % i).read())

        docList.append(wordList)

        fullText.extend(wordList)

        classList.append(0)

    vocabList = createVocabList(docList)#create vocabulary

    trainingSet = range(50); testSet=[]           #create test set

    for i in range(10):

        randIndex = int(random.uniform(0,len(trainingSet)))

        testSet.append(trainingSet[randIndex])

        del(trainingSet[randIndex])

    trainMat=[]; trainClasses = []

    for docIndex in trainingSet:#train the classifier (get probs) trainNB0

        trainMat.append(bagOfWords2VecMN(vocabList, docList[docIndex]))

        trainClasses.append(classList[docIndex])

    p0V,p1V,pSpam = trainNB0(array(trainMat),array(trainClasses))

    errorCount = 0

    for docIndex in testSet:        #classify the remaining items

        wordVector = bagOfWords2VecMN(vocabList, docList[docIndex])

        if classifyNB(array(wordVector),p0V,p1V,pSpam) != classList[docIndex]:

            errorCount += 1

            print "classification error",docList[docIndex]

    print 'the error rate is: ',float(errorCount)/len(testSet)

    #return vocabList,fullText

textParse 接受字符串进行解析为字符串列表。

spamTest 在50封邮件中选取10篇邮件随机选择为測试集交叉验证。

全部代码汇总在一个bayes.py文件里：

from numpy import *

def loadDataSet():

    postingList=[['my', 'dog', 'has', 'flea', 'problems', 'help', 'please'],

                 ['maybe', 'not', 'take', 'him', 'to', 'dog', 'park', 'stupid'],

                 ['my', 'dalmation', 'is', 'so', 'cute', 'I', 'love', 'him'],

                 ['stop', 'posting', 'stupid', 'worthless', 'garbage'],

                 ['mr', 'licks', 'ate', 'my', 'steak', 'how', 'to', 'stop', 'him'],

                 ['quit', 'buying', 'worthless', 'dog', 'food', 'stupid']]

    classVec = [0,1,0,1,0,1]    #1 is abusive, 0 not

    return postingList,classVec

def createVocabList(dataSet):

    vocabSet = set([])  #create empty set

    for document in dataSet:

        vocabSet = vocabSet | set(document) #union of the two sets

    return list(vocabSet)

def setOfWords2Vec(vocabList, inputSet):

    returnVec = [0]*len(vocabList)

    for word in inputSet:

        if word in vocabList:

            returnVec[vocabList.index(word)] = 1

        else: print "the word: %s is not in my Vocabulary!" % word

    return returnVec

def trainNB0(trainMatrix,trainCategory):

    numTrainDocs = len(trainMatrix)

    numWords = len(trainMatrix[0])

    pAbusive = sum(trainCategory)/float(numTrainDocs)

    p0Num = ones(numWords); p1Num = ones(numWords)      #change to ones()

    p0Denom = 2.0; p1Denom = 2.0                        #change to 2.0

    for i in range(numTrainDocs):

        if trainCategory[i] == 1:

            p1Num += trainMatrix[i]

            p1Denom += sum(trainMatrix[i])

        else:

            p0Num += trainMatrix[i]

            p0Denom += sum(trainMatrix[i])

    p1Vect = log(p1Num/p1Denom)          #change to log()

    p0Vect = log(p0Num/p0Denom)          #change to log()

    return p0Vect,p1Vect,pAbusive

def classifyNB(vec2Classify, p0Vec, p1Vec, pClass1):

    p1 = sum(vec2Classify * p1Vec) + log(pClass1)    #element-wise mult

    p0 = sum(vec2Classify * p0Vec) + log(1.0 - pClass1)

    if p1 > p0:

        return 1

    else:

        return 0

def testingNB():

    listOPosts,listClasses = loadDataSet()

    myVocabList = createVocabList(listOPosts)

    trainMat=[]

    for postinDoc in listOPosts:

        trainMat.append(setOfWords2Vec(myVocabList, postinDoc))

    p0V,p1V,pAb = trainNB0(array(trainMat),array(listClasses))

    testEntry = ['love', 'my', 'dalmation']

    thisDoc = array(setOfWords2Vec(myVocabList, testEntry))

    print testEntry,'classified as: ',classifyNB(thisDoc,p0V,p1V,pAb)

    testEntry = ['stupid', 'garbage']

    thisDoc = array(setOfWords2Vec(myVocabList, testEntry))

    print testEntry,'classified as: ',classifyNB(thisDoc,p0V,p1V,pAb)

def bagOfWords2VecMN(vocabList, inputSet):

    returnVec = [0]*len(vocabList)

    for word in inputSet:

        if word in vocabList:

            returnVec[vocabList.index(word)] += 1

    return returnVec

def textParse(bigString):    #input is big string, #output is word list

    import re

    listOfTokens = re.split(r'\W*', bigString)

    return [tok.lower() for tok in listOfTokens if len(tok) > 2]

def spamTest():

    docList=[]; classList = []; fullText =[]

    for i in range(1,26):

        wordList = textParse(open('email/spam/%d.txt' % i).read())

        docList.append(wordList)

        fullText.extend(wordList)

        classList.append(1)

        wordList = textParse(open('email/ham/%d.txt' % i).read())

        docList.append(wordList)

        fullText.extend(wordList)

        classList.append(0)

    vocabList = createVocabList(docList)#create vocabulary

    trainingSet = range(50); testSet=[]           #create test set

    for i in range(10):

        randIndex = int(random.uniform(0,len(trainingSet)))

        testSet.append(trainingSet[randIndex])

        del(trainingSet[randIndex])

    trainMat=[]; trainClasses = []

    for docIndex in trainingSet:#train the classifier (get probs) trainNB0

        trainMat.append(bagOfWords2VecMN(vocabList, docList[docIndex]))

        trainClasses.append(classList[docIndex])

    p0V,p1V,pSpam = trainNB0(array(trainMat),array(trainClasses))

    errorCount = 0

    for docIndex in testSet:        #classify the remaining items

        wordVector = bagOfWords2VecMN(vocabList, docList[docIndex])

        if classifyNB(array(wordVector),p0V,p1V,pSpam) != classList[docIndex]:

            errorCount += 1

            print "classification error",docList[docIndex]

    print 'the error rate is: ',float(errorCount)/len(testSet)

    #return vocabList,fullText

if __name__ == "__main__":

    listOPosts,listClasses = loadDataSet()

    myVocabList = createVocabList(listOPosts)

    print myVocabList

    trainMat = []

    for postinDoc in listOPosts:

        trainMat.append(setOfWords2Vec(myVocabList, postinDoc))

    p0V,p1V,pAb = trainNB0(trainMat, listClasses)

    testingNB()

    spamTest()