第十一章
# 代码11-5 def page199(i): #自定义统计函数 j = i[['fullURL','pageTitle']][(i['fullURLId'].str.contains('199')) & (i['fullURL'].str.contains('\?'))] j['pageTitle'].fillna('空',inplace=True) j['type'] = '其他' # 添加空列 j['type'][j['pageTitle'].str.contains('法律快车-律师助手')]= '法律快车-律师助手' j['type'][j['pageTitle'].str.contains('咨询发布成功')]= '咨询发布成功' j['type'][j['pageTitle'].str.contains('免费发布法律咨询' )] = '免费发布法律咨询' j['type'][j['pageTitle'].str.contains('法律快搜')] = '快搜' j['type'][j['pageTitle'].str.contains('法律快车法律经验')] = '法律快车法律经验' j['type'][j['pageTitle'].str.contains('法律快车法律咨询')] = '法律快车法律咨询' j['type'][(j['pageTitle'].str.contains('_法律快车')) | (j['pageTitle'].str.contains('-法律快车'))] = '法律快车' j['type'][j['pageTitle'].str.contains('空')] = '空' return j # 注意:获取一次sql对象就需要重新访问一下数据库 #engine = create_engine('mysql+pymysql://root:123456@127.0.0.1:3306/test?charset=utf8') sql = pd.read_sql('all_gzdata', engine.connect(), chunksize = 10000)# 分块读取数据库信息 #sql = pd.read_sql_query('select * from all_gzdata limit 10000', con=engine) counts4 = [page199(i) for i in sql] # 逐块统计 counts4 = pd.concat(counts4) d1 = counts4['type'].value_counts() print(d1) d2 = counts4[counts4['type']=='其他'] print(d2) # 求各个部分的占比并保存数据 df1_ = pd.DataFrame(d1) df1_['perc'] = df1_['type']/df1_['type'].sum()*100 df1_.sort_values(by='type',ascending=False,inplace=True) print(df1_)
# 代码11-6 def xiaguang(i): #自定义统计函数 j = i.loc[(i['fullURL'].str.contains('\.html'))==False, ['fullURL','fullURLId','pageTitle']] return j # 注意获取一次sql对象就需要重新访问一下数据库 engine = create_engine('mysql+pymysql://root:123456@127.0.0.1:3306/yu?charset=utf8') sql = pd.read_sql('all_gzdata', engine.connect(), chunksize = 10000)# 分块读取数据库信息 counts5 = [xiaguang(i) for i in sql] counts5 = pd.concat(counts5) xg1 = counts5['fullURLId'].value_counts() print(xg1) # 求各个部分的占比 xg_ = pd.DataFrame(xg1) xg_.reset_index(inplace=True) xg_.columns= ['index', 'num'] xg_['perc'] = xg_['num']/xg_['num'].sum()*100 xg_.sort_values(by='num',ascending=False,inplace=True) xg_['type'] = xg_['index'].str.extract('(\d{3})') #提取前三个数字作为类别id xgs_ = xg_[['type', 'num']].groupby('type').sum() #按类别合并 xgs_.sort_values(by='num', ascending=False,inplace=True) #降序排列 xgs_['percentage'] = xgs_['num']/xgs_['num'].sum()*100 print(xgs_.round(4))
# 代码11-7 # 分析网页点击次数 # 统计点击次数 engine = create_engine('mysql+pymysql://root:123456@127.0.0.1:3306/yu?charset=utf8') sql = pd.read_sql('all_gzdata', engine.connect(), chunksize = 10000)# 分块读取数据库信息 counts1 = [i['realIP'].value_counts() for i in sql] # 分块统计各个IP的出现次数 counts1 = pd.concat(counts1).groupby(level=0).sum() # 合并统计结果,level=0表示按照index分组 print(counts1) counts1_ = pd.DataFrame(counts1) counts1_ counts1['realIP'] = counts1.index.tolist() counts1_[1]=1 # 添加1列全为1 hit_count = counts1_.groupby('realIP').sum() # 统计各个“不同点击次数”分别出现的次数 # 也可以使用counts1_['realIP'].value_counts()功能 hit_count.columns=['用户数'] hit_count.index.name = '点击次数' # 统计1~7次、7次以上的用户人数 hit_count.sort_index(inplace = True) hit_count_7 = hit_count.iloc[:7,:] time = hit_count.iloc[7:,0].sum() # 统计点击次数7次以上的用户数 hit_count_7 = hit_count_7.append([{'用户数':time}], ignore_index=True) hit_count_7.index = ['1','2','3','4','5','6','7','7次以上'] hit_count_7['用户比例'] = hit_count_7['用户数'] / hit_count_7['用户数'].sum() print(hit_count_7)
# -*- coding: utf-8 -*- # 代码11-14 import pandas as pd # 利用训练集数据构建模型 UI_matrix_tr = pd.DataFrame(0,index=IP_tr,columns=url_tr) # 求用户-物品矩阵 for i in data_tr.index: UI_matrix_tr.loc[data_tr.loc[i,'realIP'],data_tr.loc[i,'fullURL']] = 1 sum(UI_matrix_tr.sum(axis=1)) # 求物品相似度矩阵(因计算量较大,需要耗费的时间较久) Item_matrix_tr = pd.DataFrame(0,index=url_tr,columns=url_tr) for i in Item_matrix_tr.index: for j in Item_matrix_tr.index: a = sum(UI_matrix_tr.loc[:,[i,j]].sum(axis=1)==2) b = sum(UI_matrix_tr.loc[:,[i,j]].sum(axis=1)!=0) Item_matrix_tr.loc[i,j] = a/b # 将物品相似度矩阵对角线处理为零 for i in Item_matrix_tr.index6555 Item_matrix_tr.loc[i,i]=0 # 利用测试集数据对模型评价 IP_te = data_te.iloc[:,0] url_te = data_te.iloc[:,1] IP_te = list(set(IP_te)) url_te = list(set(url_te)) # 测试集数据用户物品矩阵 UI_matrix_te = pd.DataFrame(0,index=IP_te,columns=url_te) for i in data_te.index: UI_matrix_te.loc[data_te.loc[i,'realIP'],data_te.loc[i,'fullURL']] = 1 # 对测试集IP进行推荐 Res = pd.DataFrame('NaN',index=data_te.index, columns=['IP','已浏览网址','推荐网址','T/F']) Res.loc[:,'IP']=list(data_te.iloc[:,0]) Res.loc[:,'已浏览网址']=list(data_te.iloc[:,1]) # 开始推荐 for i in Res.index: if Res.loc[i,'已浏览网址'] in list(Item_matrix_tr.index): Res.loc[i,'推荐网址'] = Item_matrix_tr.loc[Res.loc[i,'已浏览网址'], :].argmax() if Res.loc[i,'推荐网址'] in url_te: Res.loc[i,'T/F']=UI_matrix_te.loc[Res.loc[i,'IP'], Res.loc[i,'推荐网址']]==1 else: Res.loc[i,'T/F'] = False # 保存推荐结果 Res.to_csv('./Res.csv',index=False,encoding='utf8')
# -*- coding: utf-8 -*- # 代码11-15 import pandas as pd # 读取保存的推荐结果 Res = pd.read_csv('./Res.csv',keep_default_na=False, encoding='utf8') # 计算推荐准确率 Pre = round(sum(Res.loc[:,'T/F']=='True') / (len(Res.index)-sum(Res.loc[:,'T/F']=='NaN')), 3) print(Pre) # 计算推荐召回率 Rec = round(sum(Res.loc[:,'T/F']=='True') / (sum(Res.loc[:,'T/F']=='True')+sum(Res.loc[:,'T/F']=='NaN')), 3) print(Rec) # 计算F1指标 F1 = round(2*Pre*Rec/(Pre+Rec),3) print(F1)
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