def mymodel_test(logger, test_dataloader, the_time=my_time):
config = ElectraConfig.from_pretrained(args.mymodel_config_dir)
embedding = ElectraModel(config=config)
model = EmtClassifyModel(config=config, args=args)
output_model_file = os.path.join(args.mymodel_save_dir, 'embedding/')
model_state_dict = torch.load(
os.path.join(output_model_file, the_time + 'pytorch_model.bin'))
embedding.load_state_dict(model_state_dict)
model.load(os.path.join(args.mymodel_save_dir, the_time + "mymodel.bin"))
if args.fp16:
embedding.half()
model.half()
embedding.to(device)
model.to(device)
embedding.eval()
model.eval()
acc_records = []
eval_loss, eval_accuracy = 0, 0
nb_eval_steps = 0
for step, batch in enumerate(test_dataloader):
batch = tuple(t.to(device) for t in batch)
b_input_ids, b_labels = batch
b_input_ids = b_input_ids.squeeze(1).long()
with torch.no_grad():
text_embedding = embedding(input_ids=b_input_ids)
tmp_eval_accuracy = model.test(text_embedding, b_labels)
eval_accuracy += tmp_eval_accuracy
nb_eval_steps += 1
try:
logger.info('准确率为:{:.2f}%'.format(100 * eval_accuracy / nb_eval_steps))
acc_records.append(eval_accuracy / nb_eval_steps)
except ZeroDivisionError:
logger.info("错误!请降低batch大小")
return acc_records
def mymodel_pred(logger, text, the_time=my_time):
config = ElectraConfig.from_pretrained(args.mymodel_config_dir)
embedding = ElectraModel(config=config)
model = EmtClassifyModel(config=config, args=args)
output_model_file = os.path.join(args.mymodel_save_dir, 'embedding/')
model_state_dict = torch.load(
os.path.join(output_model_file, the_time + 'pytorch_model.bin'))
embedding.load_state_dict(model_state_dict)
output_model_file = os.path.join(args.mymodel_save_dir,
the_time + "mymodel.bin")
model_state_dict = torch.load(output_model_file)
model.load_state_dict(model_state_dict)
if args.fp16:
embedding.half()
model.half()
embedding.to(device)
model.to(device)
embedding.eval()
model.eval()
tokenizer = ElectraTokenizer.from_pretrained(args.vocab_dir)
input_ids, _, _ = text2ids(tokenizer, text, args.max_sent_len)
input_ids = torch.Tensor(input_ids).to(device=device)
input_ids = input_ids.squeeze(1).long()
with torch.no_grad():
text_embedding = embedding(input_ids=input_ids)
pred = model.get_guess(text_embedding)
print(args.label2emt[label_from_output(pred[0].to('cpu')).item()])
return
def mymodel_cal(logger, test_dataloader, the_time=my_time):
config = ElectraConfig.from_pretrained(args.mymodel_config_dir)
embedding = ElectraModel(config=config)
model = RelClassifyModel(config=config, args=args)
output_model_file = os.path.join(args.mymodel_save_dir, 'embedding/')
model_state_dict = torch.load(
os.path.join(output_model_file, the_time + 'pytorch_model.bin'))
embedding.load_state_dict(model_state_dict)
output_model_file = os.path.join(args.mymodel_save_dir,
the_time + "mymodel.bin")
model_state_dict = torch.load(output_model_file)
model.load_state_dict(model_state_dict)
if args.fp16:
embedding.half()
model.half()
embedding.to(device)
model.to(device)
embedding.eval()
model.eval()
target_size = len(args.rel2label)
result = np.zeros([target_size, target_size])
for step, batch in enumerate(test_dataloader):
batch = tuple(t.to(device) for t in batch)
b_input_ids1, b_input_ids2, b_labels = batch
b_input_ids1 = b_input_ids1.squeeze(1).long()
b_input_ids2 = b_input_ids2.squeeze(1).long()
with torch.no_grad():
text_embedding1 = embedding(input_ids=b_input_ids1)
text_embedding2 = embedding(input_ids=b_input_ids2,
token_type_ids=torch.ones(
b_input_ids2.size(),
dtype=torch.long,
device=device))
pred = model.get_guess(text_embedding1, text_embedding2)
size = pred.size()[0]
for i in range(size):
try:
result[b_labels[i], label_from_output(pred[i])] += 1
except:
continue
print(result)
return result
def mymodel_train(args, logger, train_dataloader, validation_dataloader):
config = ElectraConfig.from_pretrained(args.mymodel_config_dir)
embedding = ElectraModel(config=config)
model = NerModel(config=config)
try:
output_model_file = os.path.join(args.mymodel_save_dir, 'embedding/')
model_state_dict = torch.load(
os.path.join(output_model_file, 'pytorch_model.bin'))
embedding.load_state_dict(model_state_dict)
except OSError:
embedding.from_pretrained(os.path.join(args.pretrained_model_dir,
'pytorch_model.bin'),
config=config)
print("PretrainedEmbeddingNotFound")
try:
output_model_file = os.path.join(args.mymodel_save_dir, "mymodel.bin")
model_state_dict = torch.load(output_model_file)
model.load_state_dict(model_state_dict)
except OSError:
print("PretrainedMyModelNotFound")
if args.fp16:
embedding.half()
model.half()
embedding.to(device)
model.to(device)
param_optimizer1 = list(embedding.named_parameters())
param_optimizer2 = list(model.named_parameters())
optimizer_grouped_parameters1 = [
{
'params': [
p for n, p in param_optimizer1
if any(nd in n for nd in ['embeddings'])
],
'weight_decay_rate':
args.weight_decay,
'lr':
args.embeddings_lr
},
{
'params': [
p for n, p in param_optimizer1
if not any(nd in n for nd in ['embeddings'])
],
'lr':
args.encoder_lr
},
]
optimizer_grouped_parameters2 = [
{
'params': [
p for n, p in param_optimizer2
if any(nd in n for nd in ['encoder'])
],
'lr':
args.encoder_lr
},
{
'params': [
p for n, p in param_optimizer2
if not any(nd in n for nd in ['encoder'])
],
'lr':
args.learning_rate
},
]
optimizer1 = Ranger(optimizer_grouped_parameters1)
optimizer2 = Ranger(optimizer_grouped_parameters2)
epochs = args.train_epochs
bio_records = []
train_loss_set = []
acc_records = []
embedding.train()
model.train()
for _ in trange(epochs, desc='Epochs'):
tr_loss = 0
eval_loss, eval_accuracy = 0, 0
nb_tr_steps = 0
nb_eval_steps = 0
tmp_loss = []
for step, batch in enumerate(train_dataloader):
batch = tuple(t.to(device) for t in batch)
b_input_ids, b_input_mask, b_labels = batch
optimizer1.zero_grad()
optimizer2.zero_grad()
text_embedding = embedding(input_ids=b_input_ids.squeeze(1).long(),
attention_mask=b_input_mask)
loss, tmp_eval_accuracy = model(text_embedding, b_labels,
b_input_mask.squeeze(1))
loss.backward()
optimizer1.step()
optimizer2.step()
torch.cuda.empty_cache()
tr_loss += loss.item()
nb_tr_steps += 1
eval_accuracy += tmp_eval_accuracy
nb_eval_steps += 1
tmp_loss.append(loss.item())
adjust_learning_rate(optimizer1, 0.9)
adjust_learning_rate(optimizer2, 0.9)
try:
train_loss_set.append(tr_loss / nb_tr_steps)
logger.info('mymodel训练损失:{:.2f},准确率为:{:.2f}%'.format(
tr_loss / nb_tr_steps, 100 * eval_accuracy / nb_eval_steps))
acc_records.append(eval_accuracy / nb_eval_steps)
bio_records.append(np.mean(train_loss_set))
except ZeroDivisionError:
logger.info("错误!请降低batch大小")
embedding_to_save = embedding.module if hasattr(
embedding, 'module') else embedding
torch.save(
embedding_to_save.state_dict(),
os.path.join(os.path.join(args.mymodel_save_dir, 'embedding/'),
'pytorch_model.bin'))
model_to_save = model.module if hasattr(model, 'module') else model
torch.save(model_to_save.state_dict(),
os.path.join(args.mymodel_save_dir, "mymodel.bin"))
return embedding, model
except FileNotFoundError:
args = set_args('config/event_extraction_args.txt')
logger = get_logger()
set_environ()
if args.local_rank == -1 or args.no_cuda:
device = torch.device("cuda" if torch.cuda.is_available() and not args.no_cuda else "cpu")
n_gpu = torch.cuda.device_count()
else:
torch.cuda.set_device(args.local_rank)
device = torch.device("cuda", args.local_rank)
n_gpu = 1
torch.distributed.init_process_group(backend='nccl')
tokenizer = ElectraTokenizer.from_pretrained(args.vocab_dir)
# 初始化网络
text_classify_config = ElectraConfig.from_pretrained(args.text_classify_model_config_dir)
text_classify_embedding = ElectraModel(config=text_classify_config)
text_classify_model = TextClassifyModel(config=text_classify_config)
output_model_file = os.path.join(args.text_classify_model_save_dir, 'embedding/')
model_state_dict = torch.load(os.path.join(output_model_file, 'pytorch_model.bin'))
text_classify_embedding.load_state_dict(model_state_dict)
output_model_file = os.path.join(args.text_classify_model_save_dir, "mymodel.bin")
model_state_dict = torch.load(output_model_file)
text_classify_model.load_state_dict(model_state_dict)
sent_ner_config = ElectraConfig.from_pretrained(args.sent_ner_model_config_dir)
sent_ner_embedding = ElectraModel(config=sent_ner_config)
sent_ner_model = NerModel(config=sent_ner_config)
output_model_file = os.path.join(args.sent_ner_model_save_dir, 'embedding/')
model_state_dict = torch.load(os.path.join(output_model_file, 'pytorch_model.bin'))
sent_ner_embedding.load_state_dict(model_state_dict)
