""" This example runs a BiLSTM after the word embedding lookup. The output of the BiLSTM is than pooled, for example with max-pooling (which gives a system like InferSent) or with mean-pooling. Note, you can also pass BERT embeddings to the BiLSTM. """ import torch from torch.utils.data import DataLoader import math from sentence_transformers import models, losses, util from sentence_transformers import LoggingHandler, SentenceTransformer from sentence_transformers.evaluation import EmbeddingSimilarityEvaluator from sentence_transformers.readers import * import logging from datetime import datetime import os import csv import gzip #### Just some code to print debug information to stdout logging.basicConfig(format='%(asctime)s - %(message)s', datefmt='%Y-%m-%d %H:%M:%S', level=logging.INFO, handlers=[LoggingHandler()]) #### /print debug information to stdout # Read the dataset batch_size = 32 model_save_path = 'output/training_stsbenchmark_bilstm-'+datetime.now().strftime("%Y-%m-%d_%H-%M-%S") #Check if dataset exsist. If not, download and extract it sts_dataset_path = 'datasets/stsbenchmark.tsv.gz' if not os.path.exists(sts_dataset_path): util.http_get('https://sbert.net/datasets/stsbenchmark.tsv.gz', sts_dataset_path) logging.info("Read STSbenchmark train dataset") train_samples = [] dev_samples = [] test_samples = [] with gzip.open(sts_dataset_path, 'rt', encoding='utf8') as fIn: reader = csv.DictReader(fIn, delimiter='\t', quoting=csv.QUOTE_NONE) for row in reader: score = float(row['score']) / 5.0 # Normalize score to range 0 ... 1 inp_example = InputExample(texts=[row['sentence1'], row['sentence2']], label=score) if row['split'] == 'dev': dev_samples.append(inp_example) elif row['split'] == 'test': test_samples.append(inp_example) else: train_samples.append(inp_example) # Map tokens to traditional word embeddings like GloVe word_embedding_model = models.WordEmbeddings.from_text_file('glove.6B.300d.txt.gz') lstm = models.LSTM(word_embedding_dimension=word_embedding_model.get_word_embedding_dimension(), hidden_dim=1024) # Apply mean pooling to get one fixed sized sentence vector pooling_model = models.Pooling(lstm.get_word_embedding_dimension(), pooling_mode_mean_tokens=False, pooling_mode_cls_token=False, pooling_mode_max_tokens=True) model = SentenceTransformer(modules=[word_embedding_model, lstm, pooling_model]) # Convert the dataset to a DataLoader ready for training logging.info("Read STSbenchmark train dataset") train_dataloader = DataLoader(train_samples, shuffle=True, batch_size=batch_size) train_loss = losses.CosineSimilarityLoss(model=model) logging.info("Read STSbenchmark dev dataset") evaluator = EmbeddingSimilarityEvaluator.from_input_examples(dev_samples, name='sts-dev') # Configure the training num_epochs = 10 warmup_steps = math.ceil(len(train_dataloader) * num_epochs * 0.1) #10% of train data for warm-up logging.info("Warmup-steps: {}".format(warmup_steps)) # Train the model model.fit(train_objectives=[(train_dataloader, train_loss)], evaluator=evaluator, epochs=num_epochs, warmup_steps=warmup_steps, output_path=model_save_path ) ############################################################################## # # Load the stored model and evaluate its performance on STS benchmark dataset # ############################################################################## model = SentenceTransformer(model_save_path) test_evaluator = EmbeddingSimilarityEvaluator.from_input_examples(test_samples, name='sts-test') model.evaluate(evaluator)