def predict(self, utterance, context=list()):
# utterance
ori_word_seq = self.dataloader.tokenizer.tokenize(utterance)
# tag
# ori_tag_seq = ['O'] * len(ori_word_seq)
intents = []
word_seq, new2ori = ori_word_seq, None
batch_data = [[ori_word_seq, intents, word_seq, self.dataloader.seq_intent2id(intents)]]
pad_batch = self.dataloader.pad_batch(batch_data)
pad_batch = tuple(t.to(self.device) for t in pad_batch)
word_seq_tensor, word_mask_tensor, intent_tensor = pad_batch
# inference
intent_logits,_ = self.model(word_seq_tensor, word_mask_tensor)
# postprocess
intent = recover_intent(self.dataloader, intent_logits[0])
return intent
predict_golden = {'intent': []}
val_intent_loss = 0
model.eval()
for pad_batch, ori_batch, real_batch_size in dataloader.yield_batches(
batch_size, data_key='val'):
pad_batch = tuple(t.to(device) for t in pad_batch)
word_seq_tensor, word_mask_tensor, intent_tensor = pad_batch
with torch.no_grad():
intent_logits, intent_loss = model.forward(
word_seq_tensor, word_mask_tensor, intent_tensor)
val_intent_loss += intent_loss.item() * real_batch_size
for j in range(real_batch_size):
predicts = recover_intent(dataloader, intent_logits[j])
labels = ori_batch[j][1]
predict_golden['intent'].append({
'predict': [x for x in predicts],
'golden': [x for x in labels]
})
total = len(dataloader.data['val'])
val_intent_loss /= total
print('%d samples val' % total)
print('\t intent loss:', val_intent_loss)
writer.add_scalar('intent_loss/train',
train_intent_loss,
global_step=step)
def main():
data_urls = {
"intent_train_data.json": "http://xbot.bslience.cn/intent_train_data.json",
"intent_val_data.json": "http://xbot.bslience.cn/intent_val_data.json",
"intent_test_data.json": "http://xbot.bslience.cn/intent_test_data.json",
}
# load config
root_path = get_root_path()
config_path = os.path.join(
os.path.join(get_config_path(), "nlu"), "crosswoz_all_context_nlu_intent.json"
)
config = json.load(open(config_path))
data_path = config["data_dir"]
data_path = os.path.join(root_path, data_path)
output_dir = config["output_dir"]
output_dir = os.path.join(root_path, output_dir)
log_dir = config["log_dir"]
log_dir = os.path.join(root_path, log_dir)
device = config["DEVICE"]
# download data
for data_key, url in data_urls.items():
dst = os.path.join(os.path.join(data_path, data_key))
if not os.path.exists(dst):
download_from_url(url, dst)
# seed
set_seed(config["seed"])
# load intent vocabulary and dataloader
intent_vocab = json.load(
open(os.path.join(data_path, "intent_vocab.json"), encoding="utf-8")
)
dataloader = Dataloader(
intent_vocab=intent_vocab,
pretrained_weights=config["model"]["pretrained_weights"],
)
# load data
for data_key in ["train", "val", "test"]:
dataloader.load_data(
json.load(
open(
os.path.join(data_path, "intent_{}_data.json".format(data_key)),
encoding="utf-8",
)
),
data_key,
cut_sen_len=config["cut_sen_len"],
use_bert_tokenizer=config["use_bert_tokenizer"],
)
print("{} set size: {}".format(data_key, len(dataloader.data[data_key])))
# output and log dir
if not os.path.exists(output_dir):
os.makedirs(output_dir)
if not os.path.exists(log_dir):
os.makedirs(log_dir)
writer = SummaryWriter(log_dir)
# model
model = IntentWithBert(
config["model"], device, dataloader.intent_dim, dataloader.intent_weight
)
model.to(device)
# optimizer and scheduler
if config["model"]["finetune"]:
no_decay = ["bias", "LayerNorm.weight"]
optimizer_grouped_parameters = [
{
"params": [
p
for n, p in model.named_parameters()
if not any(nd in n for nd in no_decay) and p.requires_grad
],
"weight_decay": config["model"]["weight_decay"],
},
{
"params": [
p
for n, p in model.named_parameters()
if any(nd in n for nd in no_decay) and p.requires_grad
],
"weight_decay": 0.0,
},
]
optimizer = AdamW(
optimizer_grouped_parameters,
lr=config["model"]["learning_rate"],
eps=config["model"]["adam_epsilon"],
)
scheduler = get_linear_schedule_with_warmup(
optimizer,
num_warmup_steps=config["model"]["warmup_steps"],
num_training_steps=config["model"]["max_step"],
)
else:
for n, p in model.named_parameters():
if "bert_policy" in n:
p.requires_grad = False
optimizer = torch.optim.Adam(
filter(lambda p: p.requires_grad, model.parameters()),
lr=config["model"]["learning_rate"],
)
max_step = config["model"]["max_step"]
check_step = config["model"]["check_step"]
batch_size = config["model"]["batch_size"]
model.zero_grad()
train_intent_loss = 0
best_val_f1 = 0.0
writer.add_text("config", json.dumps(config))
for step in range(1, max_step + 1):
model.train()
batched_data = dataloader.get_train_batch(batch_size)
batched_data = tuple(t.to(device) for t in batched_data)
word_seq_tensor, word_mask_tensor, intent_tensor = batched_data
intent_logits, intent_loss = model.forward(
word_seq_tensor, word_mask_tensor, intent_tensor
)
train_intent_loss += intent_loss.item()
loss = intent_loss
loss.backward()
torch.nn.utils.clip_grad_norm_(model.parameters(), 1.0)
optimizer.step()
if config["model"]["finetune"]:
scheduler.step() # Update learning rate schedule
model.zero_grad()
if step % check_step == 0:
train_intent_loss = train_intent_loss / check_step
print("[%d|%d] step" % (step, max_step))
print("\t intent loss:", train_intent_loss)
predict_golden = {"intent": []}
val_intent_loss = 0
model.eval()
for pad_batch, ori_batch, real_batch_size in dataloader.yield_batches(
batch_size, data_key="val"
):
pad_batch = tuple(t.to(device) for t in pad_batch)
word_seq_tensor, word_mask_tensor, intent_tensor = pad_batch
with torch.no_grad():
intent_logits, intent_loss = model.forward(
word_seq_tensor, word_mask_tensor, intent_tensor
)
val_intent_loss += intent_loss.item() * real_batch_size
for j in range(real_batch_size):
predicts = recover_intent(dataloader, intent_logits[j])
labels = ori_batch[j][1]
predict_golden["intent"].append(
{
"predict": [x for x in predicts],
"golden": [x for x in labels],
}
)
total = len(dataloader.data["val"])
val_intent_loss /= total
print("%d samples val" % total)
print("\t intent loss:", val_intent_loss)
writer.add_scalar("intent_loss/train", train_intent_loss, global_step=step)
writer.add_scalar("intent_loss/val", val_intent_loss, global_step=step)
for x in ["intent"]:
precision, recall, F1 = calculate_f1(predict_golden[x])
print("-" * 20 + x + "-" * 20)
print("\t Precision: %.2f" % (100 * precision))
print("\t Recall: %.2f" % (100 * recall))
print("\t F1: %.2f" % (100 * F1))
writer.add_scalar(
"val_{}/precision".format(x), precision, global_step=step
)
writer.add_scalar("val_{}/recall".format(x), recall, global_step=step)
writer.add_scalar("val_{}/F1".format(x), F1, global_step=step)
if F1 > best_val_f1:
best_val_f1 = F1
torch.save(
model.state_dict(),
os.path.join(output_dir, "pytorch-intent-with-bert_policy.pt"),
)
print("best val F1 %.4f" % best_val_f1)
print("save on", output_dir)
train_intent_loss = 0
writer.add_text("val intent F1", "%.2f" % (100 * best_val_f1))
writer.close()
model_path = os.path.join(output_dir, "pytorch-intent-with-bert_policy.pt") ##存放模型
zip_path = config["zipped_model_path"]
zip_path = os.path.join(root_path, zip_path)
print("zip model to", zip_path)
with zipfile.ZipFile(zip_path, "w", zipfile.ZIP_DEFLATED) as zf: ##存放压缩模型
zf.write(model_path)
