# coding=utf-8 import paddlepalm as palm import json from paddlepalm.distribute import gpu_dev_count if __name__ == '__main__': # configs max_seqlen = 256 batch_size = 16 num_epochs = 6 print_steps = 5 num_classes = 26 vocab_path = './pretrain/ERNIE-v2-en-base/vocab.txt' predict_file = './data/atis/atis_intent/test.tsv' save_path = './outputs/' pred_output = './outputs/predict-intent/' save_type = 'ckpt' random_seed = 0 config = json.load(open('./pretrain/ERNIE-v2-en-base/ernie_config.json')) input_dim = config['hidden_size'] # ----------------------- for prediction ----------------------- # step 1-1: create readers for prediction print('prepare to predict...') predict_cls_reader = palm.reader.ClassifyReader(vocab_path, max_seqlen, seed=random_seed, phase='predict') # step 1-2: load the training data predict_cls_reader.load_data(predict_file, batch_size) # step 2: create a backbone of the model to extract text features pred_ernie = palm.backbone.ERNIE.from_config(config, phase='predict') # step 3: register the backbone in reader predict_cls_reader.register_with(pred_ernie) # step 4: create the task output head cls_pred_head = palm.head.Classify(num_classes, input_dim, phase='predict') # step 5-1: create a task trainer trainer = palm.Trainer("intent") # step 5-2: build forward graph with backbone and task head trainer.build_predict_forward(pred_ernie, cls_pred_head) # step 6: load checkpoint pred_model_path = './outputs/ckpt.step4641' trainer.load_ckpt(pred_model_path) # step 7: fit prepared reader and data trainer.fit_reader(predict_cls_reader, phase='predict') # step 8: predict print('predicting..') trainer.predict(print_steps=print_steps, output_dir=pred_output)