- 🍨 本文为🔗365天深度学习训练营 中的学习记录博客
- 🍖 原作者:K同学啊# 前言
前言
前面学习了相关自然语言编码,这周进行相关实战
导入依赖库和设置设备
import torch
import torch.nn as nn
import torchvision
from torchvision import transforms, datasets
import os, PIL, pathlib, warnings
warnings.filterwarnings("ignore") # 忽略警告
# win10
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
这段代码导入了必要的库并设置了设备(GPU或CPU)。
数据预处理和词汇表构建
from torchtext.data.utils import get_tokenizer
from torchtext.vocab import build_vocab_from_iterator
from torchtext.datasets import AG_NEWS
train_iter = AG_NEWS(split='train')
tokenizer = get_tokenizer('basic_english') # 返回分词器函数
def yield_tokens(data_iter):
for _, text in data_iter:
yield tokenizer(text)
vocab = build_vocab_from_iterator(yield_tokens(train_iter), specials=["<unk>"])
vocab.set_default_index(vocab["<unk>"]) # 设置默认索引,如果找不到单词,则会选择默认索引
这里使用torchtext库加载AG_NEWS数据集,定义了一个分词器并构建了词汇表。
数据处理管道
text_pipeline = lambda x: vocab(tokenizer(x))
label_pipeline = lambda x: int(x) - 1
text_pipeline('here is the an example')
定义了两个数据处理管道:text_pipeline用于将文本转化为词汇表中的索引序列,label_pipeline用于将标签转化为整数索引。
定义数据加载器
from torch.utils.data import DataLoader
def collate_batch(batch):
label_list, text_list, offsets = [], [], [0]
for (_label, _text) in batch:
label_list.append(label_pipeline(_label))
processed_text = torch.tensor(text_pipeline(_text), dtype=torch.int64)
text_list.append(processed_text)
offsets.append(processed_text.size(0))
label_list = torch.tensor(label_list, dtype=torch.int64)
text_list = torch.cat(text_list)
offsets = torch.tensor(offsets[:-1]).cumsum(dim=0) # 返回维度dim中输入元素的累计和
return label_list.to(device), text_list.to(device), offsets.to(device)
dataloader = DataLoader(train_iter, batch_size=8, shuffle=False, collate_fn=collate_batch)
定义了一个collate_batch函数用于将一个批次的数据整合在一起,并创建了一个数据加载器。
定义模型
from torch import nn
class TextClassificationModel(nn.Module):
def __init__(self, vocab_size, embed_dim, num_class):
super(TextClassificationModel, self).__init__()
self.embedding = nn.EmbeddingBag(vocab_size, embed_dim, sparse=False)
self.fc = nn.Linear(embed_dim, num_class)
self.init_weights()
def init_weights(self):
initrange = 0.5
self.embedding.weight.data.uniform_(-initrange, initrange)
self.fc.weight.data.uniform_(-initrange, initrange)
self.fc.bias.data.zero_()
def forward(self, text, offsets):
embedded = self.embedding(text, offsets)
return self.fc(embedded)
num_class = len(set([label for (label, text) in train_iter]))
vocab_size = len(vocab)
em_size = 64
model = TextClassificationModel(vocab_size, em_size, num_class).to(device)
定义了一个文本分类模型TextClassificationModel,包括初始化函数、权重初始化和前向传播函数。模型由一个嵌入层和一个线性层组成。
训练和评估函数
import time
def train(dataloader):
model.train() # 切换为训练模式
total_acc, train_loss, total_count = 0, 0, 0
log_interval = 500
start_time = time.time()
for idx, (label, text, offsets) in enumerate(dataloader):
predicted_label = model(text, offsets)
optimizer.zero_grad() # grad属性归零
loss = criterion(predicted_label, label) # 计算网络输出和真实值之间的差距,label为真实值
loss.backward() # 反向传播
optimizer.step() # 每一步自动更新
total_acc += (predicted_label.argmax(1) == label).sum().item()
train_loss += loss.item()
total_count += label.size(0)
if idx % log_interval == 0 and idx > 0:
elapsed = time.time() - start_time
print('| epoch {:1d} | {:4d}/{:4d} batches '
'| train_acc {:4.3f} train_loss {:4.5f}'.format(epoch, idx, len(dataloader),
total_acc / total_count, train_loss / total_count))
total_acc, train_loss, total_count = 0, 0, 0
start_time = time.time()
def evaluate(dataloader):
model.eval() # 切换为测试模式
total_acc, train_loss, total_count = 0, 0, 0
with torch.no_grad():
for idx, (label, text, offsets) in enumerate(dataloader):
predicted_label = model(text, offsets)
loss = criterion(predicted_label, label) # 计算loss值
total_acc += (predicted_label.argmax(1) == label).sum().item()
train_loss += loss.item()
total_count += label.size(0)
return total_acc / total_count, train_loss / total_count
定义了训练和评估函数,用于训练模型和评估模型性能。
数据集分割和数据加载器创建
from torch.utils.data.dataset import random_split
from torchtext.data.functional import to_map_style_dataset
EPOCHS = 10 # epoch
LR = 5 # 学习率
BATCH_SIZE = 64 # batch size for training
criterion = torch.nn.CrossEntropyLoss()
optimizer = torch.optim.SGD(model.parameters(), lr=LR)
scheduler = torch.optim.lr_scheduler.StepLR(optimizer, 1.0, gamma=0.1)
total_accu = None
train_iter, test_iter = AG_NEWS() # 加载数据
train_dataset = to_map_style_dataset(train_iter)
test_dataset = to_map_style_dataset(test_iter)
num_train = int(len(train_dataset) * 0.95)
split_train_, split_valid_ = random_split(train_dataset,
[num_train, len(train_dataset) - num_train])
train_dataloader = DataLoader(split_train_, batch_size=BATCH_SIZE,
shuffle=True, collate_fn=collate_batch)
valid_dataloader = DataLoader(split_valid_, batch_size=BATCH_SIZE,
shuffle=True, collate_fn=collate_batch)
test_dataloader = DataLoader(test_dataset, batch_size=BATCH_SIZE,
shuffle=True, collate_fn=collate_batch)
加载数据集并将其转换为适用于随机访问的数据集,分割训练集和验证集,并创建相应的数据加载器。
训练和验证模型
for epoch in range(1, EPOCHS + 1):
epoch_start_time = time.time()
train(train_dataloader)
val_acc, val_loss = evaluate(valid_dataloader)
if total_accu is not None and total_accu > val_acc:
scheduler.step()
else:
total_accu = val_acc
print('-' * 69)
print('| epoch {:1d} | time: {:4.2f}s | '
'valid_acc {:4.3f} valid_loss {:4.3f}'.format(epoch,
time.time() - epoch_start_time,
val_acc, val_loss))
print('-' * 69)
进行训练和验证,在每个epoch结束时打印验证准确率和损失,并根据验证结果调整学习率。
测试模型
print('Checking the results of test dataset.')
test_acc, test_loss = evaluate(test_dataloader)
print('test accuracy {:8.3f}'.format(test_acc))
在测试集上评估模型性能并打印测试准确率。
结果
总结
这个案例实现了一个完整的文本分类流程,从数据预处理、模型定义到训练和评估。使用torchtext加载数据,并利用PyTorch构建和训练深度学习模型,实现了对AG_NEWS数据集的文本分类任务,达到了90.1%的精度。
