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13-垃圾邮件分类2

时间:2020-06-16 12:50:49      阅读:51      评论:0      收藏:0      [点我收藏+]

标签:key   append   bsp   量化   生成   enc   als   sms   提取   

1.读取

# 1.读取数据集
def read_dataset():
    file_path = r‘D:\SMSSpamCollection.txt‘
    sms = open(file_path, encoding=‘utf-8‘)
    sms_data = []
    sms_label = []
    csv_reader = csv.reader(sms, delimiter=‘\t‘)
    for line in csv_reader:
        sms_label.append(line[0])  # 提取出标签
        sms_data.append(preprocessing(line[1]))  # 提取出特征
    sms.close()
    return sms_data, sms_label

 

 

 2.数据预处理

# 2、数据预处理
def preprocess(text):
     tokens = [word for sent in nltk.sent_tokenize(text) for word in nltk.word_tokenize(sent)]  # 分词
     stops = stopwords.words(‘english‘)  # 使用英文的停用词表
     tokens = [token for token in tokens if token not in stops]  # 去除停用词
     tokens = [token.lower() for token in tokens if len(token) >= 3]  # 大小写,短词
     wnl = WordNetLemmatizer()
     tag = nltk.pos_tag(tokens)  # 词性
     tokens = [wnl.lemmatize(token, pos=get_wordnet_pos(tag[i][1])) for i, token in enumerate(tokens)]  # 词性还原
     preprocessed_text = ‘ ‘.join(tokens)
     return preprocessed_text

3.数据划分—训练集和测试集数据划分

from sklearn.model_selection import train_test_split

x_train,x_test, y_train, y_test = train_test_split(data, target, test_size=0.2, random_state=0, stratify=y_train)

 

def split_dataset(data, label):
     x_train, x_test, y_train, y_test = train_test_split(data, label, test_size=0.2, random_state=0, stratify=label)
     return x_train, x_test, y_train, y_tes

 

4.文本特征提取

sklearn.feature_extraction.text.CountVectorizer

https://scikit-learn.org/stable/modules/generated/sklearn.feature_extraction.text.CountVectorizer.html?highlight=sklearn%20feature_extraction%20text%20tfidfvectorizer

sklearn.feature_extraction.text.TfidfVectorizer

https://scikit-learn.org/stable/modules/generated/sklearn.feature_extraction.text.TfidfVectorizer.html?highlight=sklearn%20feature_extraction%20text%20tfidfvectorizer#sklearn.feature_extraction.text.TfidfVectorizer

from sklearn.feature_extraction.text import TfidfVectorizer

tfidf2 = TfidfVectorizer()

观察邮件与向量的关系

向量还原为邮件

# 4、文本特征提取
# 把文本转化为tf-idf的特征矩阵
def tfidf_dataset(x_train,x_test):
     tfidf = TfidfVectorizer()
     X_train = tfidf.fit_transform(x_train)  
     X_test = tfidf.transform(x_test)
     return X_train, X_test, tfidf
# 向量还原成邮件
def revert_mail(x_train, X_train, model):
    s = X_train.toarray()[0]
    print("第一封邮件向量表示为:", s)
    a = np.flatnonzero(X_train.toarray()[0])  # 非零元素的位置(index)
    print("非零元素的位置:", a)
    print("向量的非零元素的值:", s[a])
    b = model.vocabulary_  # 词汇表
    key_list = []
    for key, value in b.items():
        if value in a:
            key_list.append(key)  # key非0元素对应的单词
    print("向量非零元素对应的单词:", key_list)
    print("向量化之前的邮件:", x_train[0])

5.模型选择

from sklearn.naive_bayes import GaussianNB

from sklearn.naive_bayes import MultinomialNB

说明为什么选择这个模型?

答 本次邮件数据属于概率性的数据,并不符合正态分布的特征,是不能选择高斯型分布模型,应该选择多项式分布模型

# 5、模型选择
def mnb_model(x_train, x_test, y_train, y_test):
    mnb = MultinomialNB()
    mnb.fit(x_train, y_train)
    pre = mnb.predict(x_test)
    print("总数:", len(y_test))
    print("预测正确数:", (pre == y_test).sum())
    print("预测准确率:",sum(pre == y_test) / len(y_test))
    return pre

6.模型评价:混淆矩阵,分类报告

from sklearn.metrics import confusion_matrix

confusion_matrix = confusion_matrix(y_test, y_predict)

说明混淆矩阵的含义

from sklearn.metrics import classification_report

说明准确率、精确率、召回率、F值分别代表的意义 

 

答:①混淆矩阵 confusion-matrix:

TP(True Positive):真实为0,预测为0

 

TN(True Negative):真实为1,预测为1

 

FN(False Negative):真实为0,预测为1 

 

FP(False Positive):真实为1,预测为0

 

②准确率 accuracy:代表分类器对整个样本判断正确的比重。

 

③精确率 precision:指被分类器判断正例中的正样本的比重。

 

④召回率 recall:指被预测为正例的占总的正例的比重。

 

⑤F值:准确率和召回率的加权调和平均。

# 模型评价:混淆矩阵,分类报告
def class_report(ypre_mnb, y_test):
    conf_matrix = confusion_matrix(y_test, ypre_mnb)
    print("=====================================================")
    print("混淆矩阵:\n", conf_matrix)
    c = classification_report(y_test, ypre_mnb)
    print("=====================================================")
    print("分类报告:\n", c)
    print("模型准确率:", (conf_matrix[0][0] + conf_matrix[1][1]) / np.sum(conf_matrix))
6.比较与总结
如果用CountVectorizer进行文本特征生成,与TfidfVectorizer相比,效果如何?

13-垃圾邮件分类2

标签:key   append   bsp   量化   生成   enc   als   sms   提取   

原文地址:https://www.cnblogs.com/cong1/p/13140074.html

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