column_name = ["label"] column_name.extend(["pixel%d" % i for i in range(32 * 32 * 3)]) dataset = pd.read_csv('cifar_train.csv') #dataset = pd.read_csv('heart.csv') #dataset = pd.read_csv('iris.csuv') #sns.pairplot(dataset.iloc[:, 1:6]) #plt.show() #print(dataset.head()) #shuffled_data = dataset.sample(frac=1) #dataset=shuffled_data #index=[0,1,2,3,4,5,6,7,8,9,10,11,12,13] #dataset.columns=index dataset2=pd.read_csv('test.csv') #X = dataset.iloc[:, :30].values #y = dataset.iloc[:,30].values mm = MinMaxScaler() from sklearn.model_selection import train_test_split #X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.4, random_state=0) X_train =dataset.iloc[:,1:].values X_test = dataset2.iloc[:,1:].values y_train = dataset.iloc[:,0].values y_test = dataset2.iloc[:,0].values print(y_train) # 进行独热编码 def one_hot_encode_object_array(arr): # 去重获取全部的类别 uniques, ids = np.unique(arr, return_inverse=True) # 返回热编码的结果 return tf.keras.utils.to_categorical(ids, len(uniques)) #train_y_ohe=y_train #test_y_ohe=y_test # 训练集热编码 train_y_ohe = one_hot_encode_object_array(y_train) # 测试集热编码 test_y_ohe = one_hot_encode_object_array(y_test) # 利用sequential方式构建模型 from keras import backend as K def swish(x, beta=1.0): return x * K.sigmoid(beta * x) from keras import regularizers model = tf.keras.models.Sequential([ # 隐藏层1,激活函数是relu,输入大小有input_shape指定 tf.keras.layers.InputLayer(input_shape=(3072,)), # lambda(hanshu, output_shape=None, mask=None, arguments=None), #tf.keras.layers.Lambda(hanshu, output_shape=None, mask=None, arguments=None), tf.keras.layers.Dense(500, activation="relu"), # 隐藏层2,激活函数是relu tf.keras.layers.Dense(500, activation="relu"), # 输出层 tf.keras.layers.Dense(10, activation="softmax") ])

时间: 2024-04-18 18:28:26 浏览: 12
你的代码中存在一些问题: 1. 你导入的库 `Keras` 和 `backend` 应该是 `tensorflow.keras` 和 `tensorflow.keras.backend`。以你需要将代码中的 `ker` 和 `backend` 替换为 `tensorflow` 和 `tensorflow.keras.backend`。 2. 你在模型中使用的激活函数 `swish` 并没有定义。你可以在使用之前定义一个 `swish` 函数,可以参考以下示例: ```python def swish(x, beta=1.0): return x * tf.sigmoid(beta * x) ``` 3. 在创建模型时,你使用了 `tf.keras.models.Sequential`,但是你导入的是 `keras` 库而不是 `tensorflow.keras` 库。所以你需要将代码中的 `keras.models.Sequential` 替换为 `tensorflow.keras.models.Sequential`。 4. 在模型的第一层之前,你可以添加一个 `tf.keras.layers.InputLayer` 来指定输入的形状。你可以将其添加到模型定义的开头,如下所示: ```python model = tf.keras.models.Sequential([ tf.keras.layers.InputLayer(input_shape=(3072,)), ... ]) ``` 根据上述修改,你的模型定义应该如下所示: ```python import tensorflow as tf def swish(x, beta=1.0): return x * tf.sigmoid(beta * x) model = tf.keras.models.Sequential([ tf.keras.layers.InputLayer(input_shape=(3072,)), tf.keras.layers.Dense(500, activation="relu"), tf.keras.layers.Dense(500, activation="relu"), tf.keras.layers.Dense(10, activation="softmax") ]) ``` 请注意,我只修改了与模型定义相关的部分。如果你的代码中还有其他问题,你需要继续检查并做出相应的修改。

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print("正在抓取...") for stk in stocks.symbol: url = "http://vip.stock.finance.sina.com.cn/corp/go.php/vCI_CorpManager/stockid/%s.phtml" % stk html = requests.get(url, headers=headers) html.encoding = 'gb18030' tree = etree.HTML(html.text) name_list = tree.xpath(name_xpath) job_list = tree.xpath(job_xpath) start_list = tree.xpath(start_xpath) end_list = tree.xpath(end_xpath) stock_list = [stk] * len(name_list) name_list = [name.text for name in name_list] job_list = [job.text for job in job_list] start_list = [start.text for start in start_list] end_list = [end.text for end in end_list] all_name.extend(name_list) all_job.extend(job_list) all_start.extend(start_list) all_end.extend(end_list) all_stock.extend(stock_list)

这段代码使用循环遍历...最后将name_list、job_list、start_list、end_list和stock_list中的元素分别添加到all_name、all_job、all_start、all_end和all_stock列表中。这样就完成了对所有股票经理信息的抓取和提取。

def evaluate(self, datloader_Test): Image_Feature_ALL = [] Image_Name = [] Sketch_Feature_ALL = [] Sketch_Name = [] start_time = time.time() self.eval() for i_batch, sampled_batch in enumerate(datloader_Test): sketch_feature, positive_feature = self.test_forward(sampled_batch) Sketch_Feature_ALL.extend(sketch_feature) #草图特征 模型的 Sketch_Name.extend(sampled_batch['sketch_path']) #草图名 for i_num, positive_name in enumerate(sampled_batch['positive_path']): #遍历正例图像 if positive_name not in Image_Name: Image_Name.append(positive_name) Image_Feature_ALL.append(positive_feature[i_num]) rank = torch.zeros(len(Sketch_Name)) Image_Feature_ALL = torch.stack(Image_Feature_ALL) Image_Feature_ALL = Image_Feature_ALL.view(Image_Feature_ALL.size(0), -1) for num, sketch_feature in enumerate(Sketch_Feature_ALL): s_name = Sketch_Name[num] sketch_query_name = os.path.basename(s_name) # 提取草图路径中的文件名作为查询名称 position_query = -1 for i, image_name in enumerate(Image_Name): if sketch_query_name in os.path.basename(image_name): # 提取图像路径中的文件名进行匹配 position_query = i break if position_query != -1: sketch_feature = sketch_feature.view(1, -1) distance = F.pairwise_distance(sketch_feature, Image_Feature_ALL) target_distance = F.pairwise_distance(sketch_feature, Image_Feature_ALL[position_query].view(1, -1)) rank[num] = distance.le(target_distance).sum() top1 = rank.le(1).sum().item() / rank.shape[0] top10 = rank.le(10).sum().item() / rank.shape[0] print('Time to Evaluate: {}'.format(time.time() - start_time)) return top1, top10

这是一个evaluate函数的更新版本。在这个版本中,函数接受一个datloader_Test参数,该参数是一个数据加载器,用于加载测试数据集。 首先,函数初始化一些变量,包括用于存储图像特征、图像名称、草图特征和草图名称...

def emd_processing(input_folder, output_file): # 获取文件夹及其子文件夹中的所有 CSV 文件路径 csv_files = [] for root, dirs, files in os.walk(input_folder): for file in files: if file.endswith(".csv"): csv_files.append(os.path.join(root, file)) # 创建一个字典,用于存储每个列的处理结果 processed_data = {} # 遍历所有 CSV 文件 for file_path in csv_files: # 读取 CSV 文件 df = pd.read_csv(file_path) # 获取第一列数据 column_data = df.iloc[:, 0] # 对第一列进行 EMD 分解处理 emd = EMD() imfs = emd(column_data) # 将分解后的 IMF 数据存储到字典中 for i, imf in enumerate(imfs): new_column_name = f"IMF{i+1}" if new_column_name not in processed_data: processed_data[new_column_name] = [] processed_data[new_column_name].extend(imf) # 将处理后的数据写入新的 CSV 文件的每一列 df_output = pd.DataFrame(processed_data) df_output.to_csv(output_file, index=False) # 设置输入和输出路径 input_folder = currentPath output_file = currentPath # 调用 emd_processing 函数处理数据 emd_processing(input_folder, output_file)

然后,在下一行中,你尝试调用 emd(column_data) 来对 column_data 进行处理。 然而,根据你提供的代码,emd() 函数并没有在你的代码中定义。因此,当你尝试调用 emd(column_data) 时,会出现 KeyError: -...

代码解释: X_i, y_i = convert_data(data, label) X.extend(X_i)

这段代码的含义是将数据集中的每一个样本数据(data)和标签(label)分别转换成特征向量(X_i)和标签向量(y_i),然后将这些特征向量和标签向量分别加入到列表X和列表y中。 具体来说,convert_data函数是一个...

def evaluate(self, datloader_Test): Image_Feature_ALL = [] Image_Name = [] Sketch_Feature_ALL = [] Sketch_Name = [] start_time = time.time() self.eval() for i_batch, sanpled_batch in enumerate(datloader_Test): sketch_feature, positive_feature= self.test_forward(sanpled_batch) Sketch_Feature_ALL.extend(sketch_feature) Sketch_Name.extend(sanpled_batch['sketch_path']) for i_num, positive_name in enumerate(sanpled_batch['positive_path']): if positive_name not in Image_Name: Image_Name.append(sanpled_batch['positive_path'][i_num]) Image_Feature_ALL.append(positive_feature[i_num]) rank = torch.zeros(len(Sketch_Name)) Image_Feature_ALL = torch.stack(Image_Feature_ALL) for num, sketch_feature in enumerate(Sketch_Feature_ALL): s_name = Sketch_Name[num] sketch_query_name = '_'.join(s_name.split('/')[-1].split('_')[:-1]) position_query = Image_Name.index(sketch_query_name) distance = F.pairwise_distance(sketch_feature.unsqueeze(0), Image_Feature_ALL) target_distance = F.pairwise_distance(sketch_feature.unsqueeze(0), Image_Feature_ALL[position_query].unsqueeze(0)) rank[num] = distance.le(target_distance).sum() top1 = rank.le(1).sum().numpy() / rank.shape[0] top10 = rank.le(10).sum().numpy() / rank.shape[0] print('Time to EValuate:{}'.format(time.time() - start_time)) return top1, top10

这段代码是一个evaluate函数,用于评估模型在测试数据集上的性能。函数接受一个datloader_Test参数,该参数是一个数据加载器,用于加载测试数据集。 函数首先初始化一些变量,包括用于存储图像特征、图像名称、素描...

import requests from bs4 import BeautifulSoup import pandas as pd get_house_info (url) eaders = { 'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/58.0.3029.110 Safari/537.3'} response = requests.get(url, headers=headers) soup = BeautifulSoup(response.text, 'html.parser') house_list = soup.find_all('li', class_='clear') house_info_list :list[dict[str,int]]= [] for i,house in enumerate(house_list,start=1): info = {} info['id'] = i info['title'] = house.find('div', class_='title').text.strip() info['positionInfo'] = house.find('div', class_='positionInfo').text.strip() info['address'] = house.find('div', class_='address').text.strip() info['followInfo'] = house.find('div', class_='followInfo').text.strip() info['flood'] = house.find('div', class_='flood').text.strip() info['priceInfo'] = house.find('div', class_='priceInfo').text.strip() house_info_list.append(info) return house_info_list save_to_excel(house_info_list, file_name) df = pd.DataFrame(house_info_list) df.to_excel(file_name, index=False) if __name__ == '__main__': url = 'https://nj.lianjia.com/ershoufang/' #修改链接为当地链接 house_info_list = [] for i in range(1, 21): # 收集20页的数据,大约400条 page_url = f'{url}pg{i}/' house_info_list.extend(get_house_info(page_url)) save_to_excel(house_info_list, 'house.xlsx') 怎么修改return_info_house的错误

for i in range(1, 21): # 收集20页的数据,大约400条 page_url = f'{url}pg{i}/' house_info_list.extend(get_house_info(page_url)) save_to_excel(house_info_list, 'house.xlsx') 注意缩进,并且需要...

for i in range(1, num_news + 1): url = f'{base_url}index_{i}.htm' response = requests.get(url) soup = BeautifulSoup(response.text, 'html.parser') news_title = soup.select_one('.item .linkto').text news_url = soup.select_one('.item .linkto')['href'] for module in modules: news_data = get_news_data(module, num_news) all_news_data.extend(news_data) AttributeError: 'NoneType' object has no attribute 'text'

这个错误是由于在news_title =... print("No element found for selector '.item .linkto'") 这样的话,如果没有找到符合选择器的元素,它将会打印一条消息,告诉你这个问题,并且不会抛出AttributeError异常。

作用 for path in temp_data_path: file_name_list = os.listdir(path) file_path_list = [os.path.join(path, i) for i in file_name_list if i.endswith(".txt")] self.total_file_

这个代码片段是一个for循环,用于遍历temp_data_path列表中的所有路径。在循环体内,使用os.listdir()函数获取当前路径下的所有文件名称,并使用列表解析式将所有以".txt"结尾的文件路径拼接成一个新的列表file_path...

import pandas as pd import pyecharts.options as opts from pyecharts.charts import Bar, Line from pyecharts.render import make_snapshot from snapshot_selenium import snapshot as driver x_data = ["1月", "2月", "3月", "4月", "5月", "6月", "7月", "8月", "9月", "10月", "11月", "12月"] # 导入数据 df = pd.read_csv('E:/pythonProject1/第8章实验数据/beijing_AQI_2018.csv') attr = df['Date'].tolist() v1 = df['AQI'].tolist() v2=df['PM'].tolist() # 对AQI进行求平均值 data={'Date':pd.to_datetime(attr),'AQI':v1} df1 = pd.DataFrame(data) total=df1['AQI'].groupby([df1['Date'].dt.strftime('%m')]).mean() d1=total.tolist() y1=[] for i in d1: y1.append(int(i)) # print(d1) # print(y1) # 对PM2.5求平均值 data1={'Date':pd.to_datetime(attr),'PM':v2} df2 = pd.DataFrame(data1) total1=df2['PM'].groupby([df2['Date'].dt.strftime('%m')]).mean() d2=total1.tolist() y2=[] for i in d2: y2.append(int(i)) # print(d2) bar = ( Bar() .add_xaxis(xaxis_data=x_data) .add_yaxis( series_name="PM2.5", y_axis=y2, label_opts=opts.LabelOpts(is_show=False), color="#5793f3" ) .extend_axis( yaxis=opts.AxisOpts( name="平均浓度", type_="value", min_=0, max_=150, interval=30, axislabel_opts=opts.LabelOpts(formatter="{value}"), ) ) .set_global_opts( tooltip_opts=opts.TooltipOpts( is_show=True, trigger="axis", axis_pointer_type="cross" ), xaxis_opts=opts.AxisOpts( type_="category", axispointer_opts=opts.AxisPointerOpts(is_show=True, type_="shadow"), ), ) ) line = ( Line() .add_xaxis(xaxis_data=x_data) .add_yaxis( series_name="AQI", yaxis_index=1, y_axis=y1, label_opts=opts.LabelOpts(is_show=False), color='rgb(192,0, 0,0.2)' ) ) bar.overlap(line).render("five.html") bar.options.update(backgroundColor="#F7F7F7")

这段代码的功能是读取一个 csv 文件,分别计算 AQI 和 PM2.5 的每月平均值,并将它们分别用柱状图和折线图展示在同一个图表中。其中,柱状图表示 PM2.5,折线图表示 AQI,两者共用 x 轴(月份),而 y 轴分别是 PM...

给下面程序每行都加上注释df_column = [column for column in emit_mat] for item in original: if item not in df_column: emit_mat[item] = list_column #处理BMSE single = [] for word in list_all: word_tag = get_tag(word) single.extend(word_tag) BMES.append(single) print("BMES:", BMES) item = single.copy() first = item[0] init_mat[first] += 1 for i in range(len(item) - 1): i1 = item[i] i2 = item[i + 1] trans_mat[i1][i2] += 1 for i, j in zip(item, original): emit_mat.loc[i, j] += 1

df_column = [column for column in emit_mat] # 对于original中的每一个元素 for item in original: # 如果该元素不在emit_mat的列中,将其添加到emit_mat中 if item not in df_column: emit_mat[item] = list_...

优化代码:def crossSol(model): sol_list=copy.deepcopy(model.sol_list) model.sol_list=[] while True: f1_index = random.randint(0, len(sol_list) - 1) f2_index = random.randint(0, len(sol_list) - 1) if f1_index!=f2_index: f1 = copy.deepcopy(sol_list[f1_index]) f2 = copy.deepcopy(sol_list[f2_index]) if random.random() <= model.pc: cro1_index=int(random.randint(0,len(model.demand_id_list)-1)) cro2_index=int(random.randint(cro1_index,len(model.demand_id_list)-1)) new_c1_f = [] new_c1_m=f1.node_id_list[cro1_index:cro2_index+1] new_c1_b = [] new_c2_f = [] new_c2_m=f2.node_id_list[cro1_index:cro2_index+1] new_c2_b = [] for index in range(len(model.demand_id_list)):#遍历长度 if len(new_c1_f)<cro1_index: if f2.node_id_list[index] not in new_c1_m: new_c1_f.append(f2.node_id_list[index]) else: if f2.node_id_list[index] not in new_c1_m: new_c1_b.append(f2.node_id_list[index]) for index in range(len(model.demand_id_list)): if len(new_c2_f)<cro1_index: if f1.node_id_list[index] not in new_c2_m: new_c2_f.append(f1.node_id_list[index]) else: if f1.node_id_list[index] not in new_c2_m: new_c2_b.append(f1.node_id_list[index]) new_c1=copy.deepcopy(new_c1_f) new_c1.extend(new_c1_m) new_c1.extend(new_c1_b) f1.nodes_seq=new_c1 new_c2=copy.deepcopy(new_c2_f) new_c2.extend(new_c2_m) new_c2.extend(new_c2_b) f2.nodes_seq=new_c2 model.sol_list.append(copy.deepcopy(f1)) model.sol_list.append(copy.deepcopy(f2)) else: model.sol_list.append(copy.deepcopy(f1)) model.sol_list.append(copy.deepcopy(f2)) if len(model.sol_list)>model.popsize: break

new_c1_f = [node for node in f2.node_id_list[:cro1_index] if node not in new_c1_m] new_c1_b = [node for node in f2.node_id_list[cro2_index+1:] if node not in new_c1_m] new_c2_f = [node for node in ...

for ori_item_name, ori_item_price in origin_item_price: ori_item_price = xor_float_r2(ori_item_price) if ori_item_price <= 0: break # 数据格式为("*饲料*猪饲料120g", (['12.3', '11.92'], ['asx...', 'sxc...'])) match_res = True for inv_item_name, (matched_item_prices, matched_invoice_indexes) in item_name_map.items(): if double_in(ignore_brackets(ori_item_name), ignore_brackets(inv_item_name)): if ori_item_price in matched_item_prices: match_res = True break meta_ori.append(str((ori_item_name, ori_item_price)).replace("'", '')) meta_inv.append(str((inv_item_name, matched_item_prices)).replace("'", '')) for index in matched_invoice_indexes: inv_info = details[index] err_msg_temp.append(f"发票号码{inv_info['发票号码']}") err_img_temp.append(images[index]) match_res = False if not match_res: err_msg.extend(err_msg_temp) err_img.extend(err_img_temp)优化这段代码

for ori_item_name, ori_item_price in origin_item_price: ori_item_price = xor_float_r2(ori_item_price) if ori_item_price > 0: match_res = True err_msg_temp = [] err_img_temp = [] for inv_item_...

class NLayerDiscriminator(nn.Module): def init(self, input_nc=3, ndf=64, n_layers=3, norm_layer=nn.BatchNorm2d, use_sigmoid=False, use_parallel=True): super(NLayerDiscriminator, self).init() self.use_parallel = use_parallel if type(norm_layer) == functools.partial: use_bias = norm_layer.func == nn.InstanceNorm2d else: use_bias = norm_layer == nn.InstanceNorm2d self.conv1 = nn.Conv2d(input_nc, ndf, kernel_size=3, padding=1) self.conv_offset1 = nn.Conv2d(ndf, 18, kernel_size=3, stride=1, padding=1) init_offset1 = torch.Tensor(np.zeros([18, ndf, 3, 3])) self.conv_offset1.weight = torch.nn.Parameter(init_offset1) # 初始化为0 self.conv_mask1 = nn.Conv2d(ndf, 9, kernel_size=3, stride=1, padding=1) init_mask1 = torch.Tensor(np.zeros([9, ndf, 3, 3]) + np.array([0.5])) self.conv_mask1.weight = torch.nn.Parameter(init_mask1) # 初始化为0.5 kw = 4 padw = int(np.ceil((kw-1)/2)) nf_mult = 1 for n in range(1, n_layers): nf_mult_prev = nf_mult nf_mult = min(2n, 8) self.sequence2 = [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=2, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] nf_mult_prev = nf_mult nf_mult = min(2n_layers, 8) self.sequence2 += [ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=1, padding=padw, bias=use_bias), norm_layer(ndf * nf_mult), nn.LeakyReLU(0.2, True) ] self.sequence2 += [nn.Conv2d(ndf * nf_mult, 1, kernel_size=kw, stride=1, padding=padw)] if use_sigmoid: self.sequence2 += [nn.Sigmoid()] def forward(self, input): input = self.conv1(input) offset1 = self.conv_offset1(input) mask1 = torch.sigmoid(self.conv_mask1(input)) sequence1 = [ torchvision.ops.deform_conv2d(input=input, offset=offset1, weight=self.conv1.weight, mask=mask1, padding=(1, 1)) ] sequence2 = sequence1 + self.sequence2 self.model = nn.Sequential(*sequence2) nn.LeakyReLU(0.2, True) return self.model(input),上述代码中出现错误:RuntimeError: Expected weight_c.size(1) * n_weight_grps == input_c.size(1) to be true, but got false. (Could this error message be improved? If so, please report an enhancement request to PyTorch.),请问如何解决,给出修改后的代码

for n in range(1, n_layers): nf_mult_prev = nf_mult nf_mult = min(2**n, 8) self.sequence2.extend([ nn.Conv2d(ndf * nf_mult_prev, ndf * nf_mult, kernel_size=kw, stride=2, padding=padw, bias=use_...

board_aug = [] color_aug = [] last_move_aug = [] pi_aug = [] z_aug = [] for i in range(len(board_list)): new_board, new_color, new_last_move, new_pi, new_z = \ data_augmentation(board_list[i], color_list[i], last_move_list[i], pi_list[i], z_list[i]) board_aug.extend(new_board) color_aug.extend(new_color) last_move_aug.extend(new_last_move) pi_aug.extend(new_pi) z_aug.extend(new_z) board_list.extend(board_aug) color_list.extend(color_aug) last_move_list.extend(last_move_aug) pi_list.extend(pi_aug) z_list.extend(z_aug)

这段代码的作用是对给定的五个列表进行数据增强,然后将增强后的数据添加到原始列表中。具体来说,它对每个棋盘、棋子颜色、上一步落子位置、策略和胜负结果进行数据增强,得到一批新的增强数据,并将它们添加到原始...

import os from openpyxl import load_workbook, Workbook def get_all_worksheet_names(path): worksheet_names = [] for root, dirs, files in os.walk(path): for file in files: if file.endswith('.xlsx'): file_path = os.path.join(root, file) wb = load_workbook(filename=file_path, read_only=True) worksheet_names.extend(wb.sheetnames) return worksheet_names def write_worksheet_names_to_excel(worksheet_names, output_file): wb = Workbook() ws = wb.active for i, name in enumerate(worksheet_names): ws.cell(row=i+1, column=1, value=name) wb.save(output_file) if __name__ == '__main__': path = r'\\pcq-smt-ftp01\smt$\CQ SMT-單板測試課\2.生產組\點檢表\新增資料夾' worksheet_names = get_all_worksheet_names(path) output_file = r'\\pcq-smt-ftp01\smt$\CQ SMT-單板測試課\2.生產組\點檢表\點檢明細\output.xlsx' write_worksheet_names_to_excel(worksheet_names, output_file)在這個代碼中將文件的名字也一起寫入相應數據的前面

for i, (file, name) in enumerate(worksheet_names): ws.cell(row=i+1, column=1, value=file) ws.cell(row=i+1, column=2, value=name) wb.save(output_file) 这里使用了 enumerate() 函数来获取 ...

job_res = [] for page in range(1, 21): url = job_url.format(_page=page) job_res.extend(job_request(url))

这是一个Python代码片段,其中使用了一个空列表job_res和一个for循环来遍历1到20的页数,然后使用.format()方法将页数插入到job_url中,生成每一页的URL,最后使用extend()方法将每一页的职位请求结果添加到job_res...

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