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关于新闻主题分类任务:
- # 数据集在虚拟机/root/data/ag_news_csv下
- - data/
- - ag_news_csv/
- classes.txt
- readme.txt
- test.csv
- train.csv
文件说明:
- "3","Wall St. Bears Claw Back Into the Black (Reuters)","Reuters - Short-sellers, Wall Street's dwindling\band of ultra-cynics, are seeing green again."
- "3","Carlyle Looks Toward Commercial Aerospace (Reuters)","Reuters - Private investment firm Carlyle Group,\which has a reputation for making well-timed and occasionally\controversial plays in the defense industry, has quietly placed\its bets on another part of the market."
- "3","Oil and Economy Cloud Stocks' Outlook (Reuters)","Reuters - Soaring crude prices plus worries\about the economy and the outlook for earnings are expected to\hang over the stock market next week during the depth of the\summer doldrums."
- "3","Iraq Halts Oil Exports from Main Southern Pipeline (Reuters)","Reuters - Authorities have halted oil export\flows from the main pipeline in southern Iraq after\intelligence showed a rebel militia could strike\infrastructure, an oil official said on Saturday."
- "3","Oil prices soar to all-time record, posing new menace to US economy (AFP)","AFP - Tearaway world oil prices, toppling records and straining wallets, present a new economic menace barely three months before the US presidential elections."
- "3","Stocks End Up, But Near Year Lows (Reuters)","Reuters - Stocks ended slightly higher on Friday\but stayed near lows for the year as oil prices surged past #36;46\a barrel, offsetting a positive outlook from computer maker\Dell Inc. (DELL.O)"
- "3","Money Funds Fell in Latest Week (AP)","AP - Assets of the nation's retail money market mutual funds fell by #36;1.17 billion in the latest week to #36;849.98 trillion, the Investment Company Institute said Thursday."
- "3","Fed minutes show dissent over inflation (USATODAY.com)","USATODAY.com - Retail sales bounced back a bit in July, and new claims for jobless benefits fell last week, the government said Thursday, indicating the economy is improving from a midsummer slump."
- "3","Safety Net (Forbes.com)","Forbes.com - After earning a PH.D. in Sociology, Danny Bazil Riley started to work as the general manager at a commercial real estate firm at an annual base salary of #36;70,000. Soon after, a financial planner stopped by his desk to drop off brochures about insurance benefits available through his employer. But, at 32, ""buying insurance was the furthest thing from my mind,"" says Riley."
- "3","Wall St. Bears Claw Back Into the Black"," NEW YORK (Reuters) - Short-sellers, Wall Street's dwindling band of ultra-cynics, are seeing green again."
- from torchtext.legacy.datasets.text_classification import _csv_iterator, _create_data_from_iterator, TextClassificationDataset
- from torchtext.utils import extract_archive
- from torchtext.vocab import build_vocab_from_iterator, Vocab
- # 从本地加载数据的方式,本地数据在虚拟机/root/data/ag_news_csv中
- # 定义加载函数
- def setup_datasets(ngrams=2, vocab_train=None, vocab_test=None, include_unk=False):
-
- train_csv_path = 'data/ag_news_csv/train.csv'
- test_csv_path = 'data/ag_news_csv/test.csv'
-
- if vocab_train is None:
- vocab_train = build_vocab_from_iterator(_csv_iterator(train_csv_path, ngrams))
- else:
- if not isinstance(vocab, Vocab):
- raise TypeError("Passed vocabulary is not of type Vocab")
-
- if vocab_test is None:
- vocab_test = build_vocab_from_iterator(_csv_iterator(test_csv_path, ngrams))
- else:
- if not isinstance(vocab, Vocab):
- raise TypeError("Passed vocabulary is not of type Vocab")
-
- train_data, train_labels = _create_data_from_iterator(
- vocab_train, _csv_iterator(train_csv_path, ngrams, yield_cls=True), include_unk)
- test_data, test_labels = _create_data_from_iterator(
- vocab_test, _csv_iterator(test_csv_path, ngrams, yield_cls=True), include_unk)
-
- if len(train_labels ^ test_labels) > 0:
- raise ValueError("Training and test labels don't match")
- return (TextClassificationDataset(vocab_train, train_data, train_labels),
- TextClassificationDataset(vocab_test, test_data, test_labels))
-
-
- # 调用函数, 加载本地数据
- train_dataset, test_dataset = setup_datasets()
- print("train_dataset", train_dataset)
整个案例的实现可分为以下五个步骤
- # 导入必备的torch模型构建工具
- import torch.nn as nn
- import torch.nn.functional as F
-
- # 指定BATCH_SIZE的大小
- BATCH_SIZE = 16
-
- # 进行可用设备检测, 有GPU的话将优先使用GPU
- device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
-
- class TextSentiment(nn.Module):
- """文本分类模型"""
- def __init__(self, vocab_size, embed_dim, num_class):
- """
- description: 类的初始化函数
- :param vocab_size: 整个语料包含的不同词汇总数
- :param embed_dim: 指定词嵌入的维度
- :param num_class: 文本分类的类别总数
- """
- super().__init__()
- # 实例化embedding层, sparse=True代表每次对该层求解梯度时, 只更新部分权重.
- self.embedding = nn.Embedding(vocab_size, embed_dim, sparse=True)
- # 实例化线性层, 参数分别是embed_dim和num_class.
- self.fc = nn.Linear(embed_dim, num_class)
- # 为各层初始化权重
- self.init_weights()
-
- def init_weights(self):
- """初始化权重函数"""
- # 指定初始权重的取值范围数
- initrange = 0.5
- # 各层的权重参数都是初始化为均匀分布
- self.embedding.weight.data.uniform_(-initrange, initrange)
- self.fc.weight.data.uniform_(-initrange, initrange)
- # 偏置初始化为0
- self.fc.bias.data.zero_()
-
- def forward(self, text):
- """
- :param text: 文本数值映射后的结果
- :return: 与类别数尺寸相同的张量, 用以判断文本类别
- """
- # 获得embedding的结果embedded
- # >>> embedded.shape
- # (m, 32) 其中m是BATCH_SIZE大小的数据中词汇总数
- embedded = self.embedding(text)
- # 接下来我们需要将(m, 32)转化成(BATCH_SIZE, 32)
- # 以便通过fc层后能计算相应的损失
- # 首先, 我们已知m的值远大于BATCH_SIZE=16,
- # 用m整除BATCH_SIZE, 获得m中共包含c个BATCH_SIZE
- c = embedded.size(0) // BATCH_SIZE
- # 之后再从embedded中取c*BATCH_SIZE个向量得到新的embedded
- # 这个新的embedded中的向量个数可以整除BATCH_SIZE
- embedded = embedded[:BATCH_SIZE*c]
- # 因为我们想利用平均池化的方法求embedded中指定行数的列的平均数,
- # 但平均池化方法是作用在行上的, 并且需要3维输入
- # 因此我们对新的embedded进行转置并拓展维度
- embedded = embedded.transpose(1, 0).unsqueeze(0)
- # 然后就是调用平均池化的方法, 并且核的大小为c
- # 即取每c的元素计算一次均值作为结果
- embedded = F.avg_pool1d(embedded, kernel_size=c)
- # 最后,还需要减去新增的维度, 然后转置回去输送给fc层
- return self.fc(embedded[0].transpose(1, 0))
- # 获得整个语料包含的不同词汇总数
- VOCAB_SIZE = len(train_dataset.get_vocab())
- # 指定词嵌入维度
- EMBED_DIM = 32
- # 获得类别总数
- NUN_CLASS = len(train_dataset.get_labels())
- # 实例化模型
- model = TextSentiment(VOCAB_SIZE, EMBED_DIM, NUN_CLASS).to(device)
- def generate_batch(batch):
- """
- description: 生成batch数据函数
- :param batch: 由样本张量和对应标签的元组组成的batch_size大小的列表
- 形如:
- [(label1, sample1), (lable2, sample2), ..., (labelN, sampleN)]
- return: 样本张量和标签各自的列表形式(张量)
- 形如:
- text = tensor([sample1, sample2, ..., sampleN])
- label = tensor([label1, label2, ..., labelN])
- """
- # 从batch中获得标签张量
- label = torch.tensor([entry[0] for entry in batch])
- # 从batch中获得样本张量
- text = [entry[1] for entry in batch]
- text = torch.cat(text)
- # 返回结果
- return text, label
- # 假设一个输入:
- batch = [(1, torch.tensor([3, 23, 2, 8])), (0, torch.tensor([3, 45, 21, 6]))]
- res = generate_batch(batch)
- print(res)
- # 对应输入的两条数据进行了相应的拼接
- (tensor([ 3, 23, 2, 8, 3, 45, 21, 6]), tensor([1, 0]))
- # 导入torch中的数据加载器方法
- from torch.utils.data import DataLoader
-
- def train(train_data):
- """模型训练函数"""
- # 初始化训练损失和准确率为0
- train_loss = 0
- train_acc = 0
-
- # 使用数据加载器生成BATCH_SIZE大小的数据进行批次训练
- # data就是N多个generate_batch函数处理后的BATCH_SIZE大小的数据生成器
- data = DataLoader(train_data, batch_size=BATCH_SIZE, shuffle=True,
- collate_fn=generate_batch)
-
- # 对data进行循环遍历, 使用每个batch的数据进行参数更新
- for i, (text, cls) in enumerate(data):
- # 设置优化器初始梯度为0
- optimizer.zero_grad()
- # 模型输入一个批次数据, 获得输出
- output = model(text)
- # 根据真实标签与模型输出计算损失
- loss = criterion(output, cls)
- # 将该批次的损失加到总损失中
- train_loss += loss.item()
- # 误差反向传播
- loss.backward()
- # 参数进行更新
- optimizer.step()
- # 将该批次的准确率加到总准确率中
- train_acc += (output.argmax(1) == cls).sum().item()
-
- # 调整优化器学习率
- scheduler.step()
-
- # 返回本轮训练的平均损失和平均准确率
- return train_loss / len(train_data), train_acc / len(train_data)
-
- def valid(valid_data):
- """模型验证函数"""
- # 初始化验证损失和准确率为0
- loss = 0
- acc = 0
-
- # 和训练相同, 使用DataLoader获得训练数据生成器
- data = DataLoader(valid_data, batch_size=BATCH_SIZE, collate_fn=generate_batch)
- # 按批次取出数据验证
- for text, cls in data:
- # 验证阶段, 不再求解梯度
- with torch.no_grad():
- # 使用模型获得输出
- output = model(text)
- # 计算损失
- loss = criterion(output, cls)
- # 将损失和准确率加到总损失和准确率中
- loss += loss.item()
- acc += (output.argmax(1) == cls).sum().item()
-
- # 返回本轮验证的平均损失和平均准确率
- return loss / len(valid_data), acc / len(valid_data)
- # 导入时间工具包
- import time
-
- # 导入数据随机划分方法工具
- from torch.utils.data.dataset import random_split
-
- # 指定训练轮数
- N_EPOCHS = 10
-
- # 定义初始的验证损失
- min_valid_loss = float('inf')
-
- # 选择损失函数, 这里选择预定义的交叉熵损失函数
- criterion = torch.nn.CrossEntropyLoss().to(device)
- # 选择随机梯度下降优化器
- optimizer = torch.optim.SGD(model.parameters(), lr=4.0)
- # 选择优化器步长调节方法StepLR, 用来衰减学习率
- scheduler = torch.optim.lr_scheduler.StepLR(optimizer, 1, gamma=0.9)
-
- # 从train_dataset取出0.95作为训练集, 先取其长度
- train_len = int(len(train_dataset) * 0.95)
-
- # 然后使用random_split进行乱序划分, 得到对应的训练集和验证集
- sub_train_, sub_valid_ = \
- random_split(train_dataset, [train_len, len(train_dataset) - train_len])
-
- # 开始每一轮训练
- for epoch in range(N_EPOCHS):
- # 记录概论训练的开始时间
- start_time = time.time()
- # 调用train和valid函数得到训练和验证的平均损失, 平均准确率
- train_loss, train_acc = train(sub_train_)
- valid_loss, valid_acc = valid(sub_valid_)
-
- # 计算训练和验证的总耗时(秒)
- secs = int(time.time() - start_time)
- # 用分钟和秒表示
- mins = secs / 60
- secs = secs % 60
-
- # 打印训练和验证耗时,平均损失,平均准确率
- print('Epoch: %d' %(epoch + 1), " | time in %d minutes, %d seconds" %(mins, secs))
- print(f'\tLoss: {train_loss:.4f}(train)\t|\tAcc: {train_acc * 100:.1f}%(train)')
- print(f'\tLoss: {valid_loss:.4f}(valid)\t|\tAcc: {valid_acc * 100:.1f}%(valid)')
- 120000lines [00:06, 17834.17lines/s]
- 120000lines [00:11, 10071.77lines/s]
- 7600lines [00:00, 10432.95lines/s]
-
- Epoch: 1 | time in 0 minutes, 36 seconds
- Loss: 0.0592(train) | Acc: 63.9%(train)
- Loss: 0.0005(valid) | Acc: 69.2%(valid)
- Epoch: 2 | time in 0 minutes, 37 seconds
- Loss: 0.0507(train) | Acc: 71.3%(train)
- Loss: 0.0005(valid) | Acc: 70.7%(valid)
- Epoch: 3 | time in 0 minutes, 36 seconds
- Loss: 0.0484(train) | Acc: 72.8%(train)
- Loss: 0.0005(valid) | Acc: 71.4%(valid)
- Epoch: 4 | time in 0 minutes, 36 seconds
- Loss: 0.0474(train) | Acc: 73.4%(train)
- Loss: 0.0004(valid) | Acc: 72.0%(valid)
- Epoch: 5 | time in 0 minutes, 36 seconds
- Loss: 0.0455(train) | Acc: 74.8%(train)
- Loss: 0.0004(valid) | Acc: 72.5%(valid)
- Epoch: 6 | time in 0 minutes, 36 seconds
- Loss: 0.0451(train) | Acc: 74.9%(train)
- Loss: 0.0004(valid) | Acc: 72.3%(valid)
- Epoch: 7 | time in 0 minutes, 36 seconds
- Loss: 0.0446(train) | Acc: 75.3%(train)
- Loss: 0.0004(valid) | Acc: 72.0%(valid)
- Epoch: 8 | time in 0 minutes, 36 seconds
- Loss: 0.0437(train) | Acc: 75.9%(train)
- Loss: 0.0004(valid) | Acc: 71.4%(valid)
- Epoch: 9 | time in 0 minutes, 36 seconds
- Loss: 0.0431(train) | Acc: 76.2%(train)
- Loss: 0.0004(valid) | Acc: 72.7%(valid)
- Epoch: 10 | time in 0 minutes, 36 seconds
- Loss: 0.0426(train) | Acc: 76.6%(train)
- Loss: 0.0004(valid) | Acc: 72.6%(valid)
- # 打印从模型的状态字典中获得的Embedding矩阵
- print(model.state_dict()['embedding.weight'])
- tensor([[ 0.4401, -0.4177, -0.4161, ..., 0.2497, -0.4657, -0.1861],
- [-0.2574, -0.1952, 0.1443, ..., -0.4687, -0.0742, 0.2606],
- [-0.1926, -0.1153, -0.0167, ..., -0.0954, 0.0134, -0.0632],
- ...,
- [-0.0780, -0.2331, -0.3656, ..., -0.1899, 0.4083, 0.3002],
- [-0.0696, 0.4396, -0.1350, ..., 0.1019, 0.2792, -0.4749],
- [-0.2978, 0.1872, -0.1994, ..., 0.3435, 0.4729, -0.2608]])
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