# 首先需要加入以下的路径到环境变量,因为当前只对内部测试开放,所以需要手动申明一下路径 import torch.cuda from fastNLP.core.utils import cache_results from torch.optim import SGD from torch.optim.lr_scheduler import CosineAnnealingLR from fastNLP.core.trainer import Trainer from fastNLP import CrossEntropyLoss, AccuracyMetric from fastNLP.embeddings import StaticEmbedding from reproduction.text_classification.model.dpcnn import DPCNN from fastNLP.core.sampler import BucketSampler from fastNLP.core import LRScheduler from fastNLP.core.const import Const as C from fastNLP.core.vocabulary import VocabularyOption from utils.util_init import set_rng_seeds from fastNLP import logger import os from fastNLP.io import YelpFullPipe, YelpPolarityPipe os.environ["CUDA_DEVICE_ORDER"] = "PCI_BUS_ID" # hyper logger.add_file('log', 'INFO') class Config(): seed = 12345 model_dir_or_name = "dpcnn-yelp-f" embedding_grad = True train_epoch = 30 batch_size = 100 task = "yelp_f" #datadir = 'workdir/datasets/SST' # datadir = 'workdir/datasets/yelp_polarity' datadir = 'workdir/datasets/yelp_full' #datafile = {"train": "train.txt", "dev": "dev.txt", "test": "test.txt"} datafile = {"train": "train.csv", "test": "test.csv"} lr = 1e-3 src_vocab_op = VocabularyOption(max_size=100000) embed_dropout = 0.3 cls_dropout = 0.1 weight_decay = 1e-5 def __init__(self): self.datadir = os.path.join(os.environ['HOME'], self.datadir) self.datapath = {k: os.path.join(self.datadir, v) for k, v in self.datafile.items()} ops = Config() set_rng_seeds(ops.seed) logger.info('RNG SEED %d'%ops.seed) # 1.task相关信息:利用dataloader载入dataInfo @cache_results(ops.model_dir_or_name+'-data-cache') def load_data(): datainfo = YelpFullPipe(lower=True, tokenizer='raw').process_from_file(ops.datapath) for ds in datainfo.datasets.values(): ds.apply_field(len, C.INPUT, C.INPUT_LEN) ds.set_input(C.INPUT, C.INPUT_LEN) ds.set_target(C.TARGET) return datainfo datainfo = load_data() embedding = StaticEmbedding( datainfo.vocabs['words'], model_dir_or_name='en-glove-6b-100d', requires_grad=ops.embedding_grad, normalize=False) embedding.embedding.weight.data /= embedding.embedding.weight.data.std() print(embedding.embedding.weight.data.mean(), embedding.embedding.weight.data.std()) # 2.或直接复用fastNLP的模型 # datainfo.datasets['train'] = datainfo.datasets['train'][:1000] # for debug purpose # datainfo.datasets['test'] = datainfo.datasets['test'][:1000] logger.info(datainfo) model = DPCNN(init_embed=embedding, num_cls=len(datainfo.vocabs[C.TARGET]), embed_dropout=ops.embed_dropout, cls_dropout=ops.cls_dropout) # print(model) # 3. 声明loss,metric,optimizer loss = CrossEntropyLoss(pred=C.OUTPUT, target=C.TARGET) metric = AccuracyMetric(pred=C.OUTPUT, target=C.TARGET) optimizer = SGD([param for param in model.parameters() if param.requires_grad == True], lr=ops.lr, momentum=0.9, weight_decay=ops.weight_decay) callbacks = [] callbacks.append(LRScheduler(CosineAnnealingLR(optimizer, 5))) device = 'cuda:0' if torch.cuda.is_available() else 'cpu' # print(device) logger.info(device) # 4.定义train方法 # normal trainer trainer = Trainer(datainfo.datasets['train'], model, optimizer=optimizer, loss=loss, sampler=BucketSampler(num_buckets=50, batch_size=ops.batch_size), metrics=[metric], use_tqdm=False, save_path='save', dev_data=datainfo.datasets['test'], device=device, check_code_level=-1, batch_size=ops.batch_size, callbacks=callbacks, n_epochs=ops.train_epoch, num_workers=4) # distributed trainer # trainer = DistTrainer(datainfo.datasets['train'], model, optimizer=optimizer, loss=loss, # metrics=[metric], # dev_data=datainfo.datasets['test'], device='cuda', # batch_size_per_gpu=ops.batch_size, callbacks_all=callbacks, # n_epochs=ops.train_epoch, num_workers=4) if __name__ == "__main__": print(trainer.train())