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怎么使用pytorch框架

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中文新闻情感分类 Bert-Pytorch-transformers

使用pytorch框架以及transformers包,以及Bert的中文预训练模型

文件目录

data

Train_DataSet.csv

Train_DataSet_Label.csv

main.py

NewsData.py

#main.py

from transformers import BertTokenizer

from transformers import BertForSequenceClassification

from transformers import BertConfig

from transformers import BertPreTrainedModel

import torch

import torch.nn as nn

from transformers import BertModel

import time

import argparse

from NewsData import NewsData

import os

def get_train_args():

parser=argparse.ArgumentParser()

parser.add_argument('--batch_size',type=int,default=10,help = '每批数据的数量')

parser.add_argument('--nepoch',type=int,default=3,help = '训练的轮次')

parser.add_argument('--lr',type=float,default=0.001,help = '学习率')

parser.add_argument('--gpu',type=bool,default=True,help = '是否使用gpu')

parser.add_argument('--num_workers',type=int,default=2,help='dataloader使用的线程数量')

parser.add_argument('--num_labels',type=int,default=3,help='分类类数')

parser.add_argument('--data_path',type=str,default='./data',help='数据路径')

opt=parser.parse_args()

print(opt)

return opt

def get_model(opt):

#类方法.from_pretrained()获取预训练模型,num_labels是分类的类数

model = BertForSequenceClassification.from_pretrained('bert-base-chinese',num_labels=opt.num_labels)

return model

def get_data(opt):

#NewsData继承于pytorch的Dataset类

trainset = NewsData(opt.data_path,is_train = 1)

trainloader=torch.utils.data.DataLoader(trainset,batch_size=opt.batch_size,shuffle=True,num_workers=opt.num_workers)

testset = NewsData(opt.data_path,is_train = 0)

testloader=torch.utils.data.DataLoader(testset,batch_size=opt.batch_size,shuffle=False,num_workers=opt.num_workers)

return trainloader,testloader

def train(epoch,model,trainloader,testloader,optimizer,opt):

print('\ntrain-Epoch: %d' % (epoch+1))

model.train()

start_time = time.time()

print_step = int(len(trainloader)/10)

for batch_idx,(sue,label,posi) in enumerate(trainloader):

if opt.gpu:

sue = sue.cuda()

posi = posi.cuda()

label = label.unsqueeze(1).cuda()

optimizer.zero_grad()

#输入参数为词列表、位置列表、标签

outputs = model(sue, position_ids=posi,labels = label)

loss, logits = outputs[0],outputs[1]

loss.backward()

optimizer.step()

if batch_idx % print_step == 0:

print("Epoch:%d [%d|%d] loss:%f" %(epoch+1,batch_idx,len(trainloader),loss.mean()))

print("time:%.3f" % (time.time() - start_time))

def test(epoch,model,trainloader,testloader,opt):

print('\ntest-Epoch: %d' % (epoch+1))

model.eval()

total=0

correct=0

with torch.no_grad():

for batch_idx,(sue,label,posi) in enumerate(testloader):

if opt.gpu:

sue = sue.cuda()

posi = posi.cuda()

labels = label.unsqueeze(1).cuda()

label = label.cuda()

else:

labels = label.unsqueeze(1)

outputs = model(sue, labels=labels)

loss, logits = outputs[:2]

_,predicted=torch.max(logits.data,1)

total+=sue.size(0)

correct+=predicted.data.eq(label.data).cpu().sum()

s = ("Acc:%.3f" %((1.0*correct.numpy())/total))

print(s)

if __name__=='__main__':

opt = get_train_args()

model = get_model(opt)

trainloader,testloader = get_data(opt)

if opt.gpu:

model.cuda()

optimizer=torch.optim.SGD(model.parameters(),lr=opt.lr,momentum=0.9)

if not os.path.exists('./model.pth'):

for epoch in range(opt.nepoch):

train(epoch,model,trainloader,testloader,optimizer,opt)

test(epoch,model,trainloader,testloader,opt)

torch.save(model.state_dict(),'./model.pth')

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model.load_state_dict(torch.load('model.pth'))

print('模型存在,直接test')

test(0,model,trainloader,testloader,opt)

#NewsData.py

from transformers import BertTokenizer

from transformers import BertForSequenceClassification

from transformers import BertConfig

from transformers import BertPreTrainedModel

import torch

import torch.nn as nn

from transformers import BertModel

import time

import argparse

class NewsData(torch.utils.data.Dataset):

def __init__(self,root,is_train = 1):

self.tokenizer = BertTokenizer.from_pretrained('bert-base-chinese')

self.data_num = 7346

self.x_list = []

self.y_list = []

self.posi = []

with open(root + '/Train_DataSet.csv',encoding='UTF-8') as f:

for i in range(self.data_num+1):

line = f.readline()[:-1] + '这是一个中性的数据'

data_one_str = line.split(',')[len(line.split(','))-2]

data_two_str = line.split(',')[len(line.split(','))-1]

if len(data_one_str) < 6:

z = len(data_one_str)

data_one_str = data_one_str + ',' + data_two_str[0:min(200,len(data_two_str))]

else:

data_one_str = data_one_str

if i==0:

continue

word_l = self.tokenizer.encode(data_one_str, add_special_tokens=False)

if len(word_l)<100:

while(len(word_l)!=100):

word_l.append(0)

else:

word_l = word_l[0:100]

word_l.append(102)

l = word_l

word_l = [101]

word_l.extend(l)

self.x_list.append(torch.tensor(word_l))

self.posi.append(torch.tensor([i for i in range(102)]))

with open(root + '/Train_DataSet_Label.csv',encoding='UTF-8') as f:

for i in range(self.data_num+1):

#print(i)

label_one = f.readline()[-2]

if i==0:

continue

label_one = int(label_one)

self.y_list.append(torch.tensor(label_one))

#训练集或者是测试集

if is_train == 1:

self.x_list = self.x_list[0:6000]

self.y_list = self.y_list[0:6000]

self.posi = self.posi[0:6000]

else:

self.x_list = self.x_list[6000:]

self.y_list = self.y_list[6000:]

self.posi = self.posi[6000:]

self.len = len(self.x_list)

def __getitem__(self, index):

return self.x_list[index], self.y_list[index],self.posi[index]

def __len__(self):

return self.len

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