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- from fastNLP.core.loss import Loss
- from fastNLP.core.optimizer import Optimizer
- from fastNLP.core.predictor import ClassificationInfer
- from fastNLP.core.preprocess import ClassPreprocess
- from fastNLP.core.trainer import ClassificationTrainer
- from fastNLP.loader.dataset_loader import ClassDataSetLoader
- from fastNLP.models.base_model import BaseModel
- from fastNLP.modules import aggregator
- from fastNLP.modules import decoder
- from fastNLP.modules import encoder
-
-
- class ClassificationModel(BaseModel):
- """
- Simple text classification model based on CNN.
- """
-
- def __init__(self, num_classes, vocab_size):
- super(ClassificationModel, self).__init__()
-
- self.emb = encoder.Embedding(nums=vocab_size, dims=300)
- self.enc = encoder.Conv(
- in_channels=300, out_channels=100, kernel_size=3)
- self.agg = aggregator.MaxPool()
- self.dec = decoder.MLP(size_layer=[100, num_classes])
-
- def forward(self, x):
- x = self.emb(x) # [N,L] -> [N,L,C]
- x = self.enc(x) # [N,L,C_in] -> [N,L,C_out]
- x = self.agg(x) # [N,L,C] -> [N,C]
- x = self.dec(x) # [N,C] -> [N, N_class]
- return x
-
-
- data_dir = 'save/' # directory to save data and model
- train_path = './data_for_tests/text_classify.txt' # training set file
-
- # load dataset
- ds_loader = ClassDataSetLoader()
- data = ds_loader.load()
-
- # pre-process dataset
- pre = ClassPreprocess()
- train_set, dev_set = pre.run(data, train_dev_split=0.3, pickle_path=data_dir)
- n_classes, vocab_size = pre.num_classes, pre.vocab_size
-
- # construct model
- model_args = {
- 'num_classes': n_classes,
- 'vocab_size': vocab_size
- }
- model = ClassificationModel(num_classes=n_classes, vocab_size=vocab_size)
-
- # construct trainer
- train_args = {
- "epochs": 3,
- "batch_size": 16,
- "pickle_path": data_dir,
- "validate": False,
- "save_best_dev": False,
- "model_saved_path": None,
- "use_cuda": True,
- "loss": Loss("cross_entropy"),
- "optimizer": Optimizer("Adam", lr=0.001)
- }
- trainer = ClassificationTrainer(**train_args)
-
- # start training
- trainer.train(model, train_data=train_set, dev_data=dev_set)
-
- # predict using model
- data_infer = [x[0] for x in data]
- infer = ClassificationInfer(data_dir)
- labels_pred = infer.predict(model.cpu(), data_infer)
- print(labels_pred)
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