def get_retriever(self, config): dataset = Dataset.from_dict({ "id": ["0", "1"], "text": ["foo", "bar"], "title": ["Foo", "Bar"], "embeddings": [ np.ones(self.retrieval_vector_size), 2 * np.ones(self.retrieval_vector_size) ], }) dataset.add_faiss_index("embeddings", string_factory="Flat", metric_type=faiss.METRIC_INNER_PRODUCT) tokenizer = self.bart_tokenizer if config.generator.model_type == "bart" else self.t5_tokenizer with patch("transformers.retrieval_rag.load_dataset" ) as mock_load_dataset: mock_load_dataset.return_value = dataset retriever = RagRetriever( config, question_encoder_tokenizer=self.dpr_tokenizer, generator_tokenizer=tokenizer, ) return retriever
def test_rag_sequence_generate_batch(self): tokenizer = RagTokenizer.from_pretrained("facebook/rag-sequence-nq") retriever = RagRetriever.from_pretrained( "facebook/rag-sequence-nq", index_name="exact", use_dummy_dataset=True ) rag_sequence = RagSequenceForGeneration.from_pretrained("facebook/rag-sequence-nq", retriever=retriever).to( torch_device ) input_dict = tokenizer( self.test_data_questions, return_tensors="pt", padding=True, truncation=True, ) input_ids = input_dict.input_ids.to(torch_device) attention_mask = input_dict.attention_mask.to(torch_device) output_ids = rag_sequence.generate( input_ids, attention_mask=attention_mask, ) outputs = tokenizer.batch_decode(output_ids, skip_special_tokens=True) EXPECTED_OUTPUTS = [ " albert einstein", " june 22, 2018", " amplitude modulation", " tim besley ( chairman )", " june 20, 2018", " 1980", " 7.0", " 8", ] self.assertListEqual(outputs, EXPECTED_OUTPUTS)
def test_rag_sequence_generate_beam(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained("facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base" ) rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) rag_sequence = self.sequence_model rag_sequence.set_retriever(rag_retriever) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="pt" ).input_ids input_ids = input_ids.to(torch_device) output_ids = rag_sequence.generate( input_ids, decoder_start_token_id=rag_sequence.generator.config.decoder_start_token_id, num_beams=2, num_return_sequences=2, ) # sequence generate test output_text_1 = rag_decoder_tokenizer.decode(output_ids[0], skip_special_tokens=True) output_text_2 = rag_decoder_tokenizer.decode(output_ids[1], skip_special_tokens=True) # Expected outputs as given by model at integration time. EXPECTED_OUTPUT_TEXT_1 = """\"She's My Kind of Girl\" was released through Epic Records in Japan in March 1972, giving the duo a Top 10 hit. Two more singles were released in Japan, \"En Carousel\" and \"Love Has Its Ways\" Ulvaeus and Andersson persevered with their songwriting and experimented with new sounds and vocal arrangements.""" EXPECTED_OUTPUT_TEXT_2 = """In September 2018, Björn Ulvaeus revealed that the two new songs, \"I Still Have Faith In You\" and \"Don't Shut Me Down\", would be released no earlier than March 2019. The two new tracks will feature in a TV special set to air later in the year.""" self.assertEqual(output_text_1, EXPECTED_OUTPUT_TEXT_1) self.assertEqual(output_text_2, EXPECTED_OUTPUT_TEXT_2)
def test_rag_token_generate_beam(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained("facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base" ) rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) rag_token = self.token_model rag_token.set_retriever(rag_retriever) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="pt" ).input_ids input_ids = input_ids.to(torch_device) output_ids = rag_token.generate( input_ids, decoder_start_token_id=rag_token.generator.config.decoder_start_token_id, num_beams=2, num_return_sequences=2, ) # sequence generate test output_text_1 = rag_decoder_tokenizer.decode(output_ids[0], skip_special_tokens=True) output_text_2 = rag_decoder_tokenizer.decode(output_ids[1], skip_special_tokens=True) # Expected outputs as given by model at integration time. EXPECTED_OUTPUT_TEXT_1 = "\"She's My Kind of Girl" EXPECTED_OUTPUT_TEXT_2 = "\"She's My Kind of Love" self.assertEqual(output_text_1, EXPECTED_OUTPUT_TEXT_1) self.assertEqual(output_text_2, EXPECTED_OUTPUT_TEXT_2)
def test_rag_token_inference(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained("facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base" ) rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) rag_token = self.token_model rag_token.set_retriever(rag_retriever) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="pt" ).input_ids decoder_input_ids = rag_decoder_tokenizer("Linda Davis", return_tensors="pt").input_ids input_ids = input_ids.to(torch_device) decoder_input_ids = decoder_input_ids.to(torch_device) with torch.no_grad(): output = rag_token( input_ids, labels=decoder_input_ids, ) expected_shape = torch.Size([5, 5, 50264]) self.assertEqual(output.logits.shape, expected_shape) expected_doc_scores = torch.tensor([[75.0286, 74.4998, 74.0804, 74.0306, 73.9504]]).to(torch_device) _assert_tensors_equal(expected_doc_scores, output.doc_scores, atol=TOLERANCE) expected_loss = torch.tensor([36.3557]).to(torch_device) _assert_tensors_equal(expected_loss, output.loss, atol=TOLERANCE)
def test_rag_sequence_inference(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained( "facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base") rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) rag_sequence = self.sequence_model rag_sequence.set_retriever(rag_retriever) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="tf").input_ids decoder_input_ids = rag_decoder_tokenizer( "Linda Davis", return_tensors="tf").input_ids output = rag_sequence( input_ids, labels=decoder_input_ids, ) expected_shape = tf.TensorShape([5, 5, 50264]) self.assertEqual(output.logits.shape, expected_shape) expected_doc_scores = tf.convert_to_tensor( [[75.0286, 74.4998, 74.0804, 74.0306, 73.9504]]) expected_loss = tf.convert_to_tensor([36.7368]) tf.debugging.assert_near(output.loss, expected_loss, atol=1e-3) tf.debugging.assert_near(output.doc_scores, expected_doc_scores, atol=1e-3)
def test_rag_token_generate_batch(self): # NOTE: gold labels comes from num_beam=4, so this is effectively beam-search test tokenizer = RagTokenizer.from_pretrained("facebook/rag-token-nq") retriever = RagRetriever.from_pretrained("facebook/rag-token-nq", index_name="exact", use_dummy_dataset=True) rag_token = TFRagTokenForGeneration.from_pretrained( "facebook/rag-token-nq", retriever=retriever) input_dict = tokenizer( self.test_data_questions, return_tensors="tf", padding=True, truncation=True, ) input_ids = input_dict.input_ids attention_mask = input_dict.attention_mask output_ids = rag_token.generate( input_ids, attention_mask=attention_mask, ) outputs = tokenizer.batch_decode(output_ids, skip_special_tokens=True) EXPECTED_OUTPUTS = [ " albert einstein", " september 22, 2017", " amplitude modulation", " stefan persson", " april 20, 2018", " the 1970s", " 7.1. 2", " 13", ] self.assertListEqual(outputs, EXPECTED_OUTPUTS)
def test_rag_sequence_generate_beam(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained("facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base" ) rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) rag_token = self.sequence_model rag_token.set_retriever(rag_retriever) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="pt" ).input_ids input_ids = input_ids.to(torch_device) output_ids = rag_token.generate( input_ids, decoder_start_token_id=rag_token.generator.config.decoder_start_token_id, num_beams=2, num_return_sequences=2, ) # sequence generate test output_text_1 = rag_decoder_tokenizer.decode(output_ids[0], skip_special_tokens=True) output_text_2 = rag_decoder_tokenizer.decode(output_ids[1], skip_special_tokens=True) # Expected outputs as given by model at integration time. EXPECTED_OUTPUT_TEXT_1 = """ ABBA / small label like Playboy Records did not have the distribution resources to meet the demand for the single from retailers and radio programmers. The foursome decided to record their first album together in late 1972, and sessions began on 26 September 1972. The women shared lead vocals on "Nina, Pretty Ballerina" that day.""" EXPECTED_OUTPUT_TEXT_2 = """ ABBA / small label like Playboy Records did not have the distribution resources to meet the demand for the single from retailers and radio programmers. The foursome decided to record their first album together in late 1972, and sessions began on 26 September 1972. The women shared lead vocals on "Nina, Pretty Ballerina" (a top ten hit in Austria)""" self.assertEqual(output_text_1, EXPECTED_OUTPUT_TEXT_1) self.assertEqual(output_text_2, EXPECTED_OUTPUT_TEXT_2)
def test_rag_token_inference_nq_checkpoint(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained("facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base" ) rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) rag_token = self.token_model_nq_checkpoint(retriever=rag_retriever) # check that outputs after saving and loading are equal with tempfile.TemporaryDirectory() as tmpdirname: rag_token.save_pretrained(tmpdirname) rag_token = TFRagTokenForGeneration.from_pretrained(tmpdirname, retriever=rag_retriever) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="tf" ).input_ids decoder_input_ids = rag_decoder_tokenizer("Linda Davis", return_tensors="tf").input_ids output = rag_token( input_ids, labels=decoder_input_ids, ) expected_shape = tf.TensorShape([5, 5, 50265]) self.assertEqual(output.logits.shape, expected_shape) expected_doc_scores = tf.convert_to_tensor([[62.9402, 62.7107, 62.2382, 62.1194, 61.8578]]) expected_loss = tf.convert_to_tensor([32.521812]) tf.debugging.assert_near(output.loss, expected_loss, atol=1e-3) tf.debugging.assert_near(output.doc_scores, expected_doc_scores, atol=1e-3)
def test_rag_sequence_from_pretrained(self): rag_config = self.get_rag_config() rag_decoder_tokenizer = BartTokenizer.from_pretrained( "facebook/bart-large-cnn") rag_question_encoder_tokenizer = DPRQuestionEncoderTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base") rag_retriever = RagRetriever( rag_config, question_encoder_tokenizer=rag_question_encoder_tokenizer, generator_tokenizer=rag_decoder_tokenizer, ) input_ids = rag_question_encoder_tokenizer( "who sings does he love me with reba", return_tensors="pt").input_ids decoder_input_ids = rag_decoder_tokenizer( "Linda Davis", return_tensors="pt").input_ids input_ids = input_ids.to(torch_device) decoder_input_ids = decoder_input_ids.to(torch_device) with tempfile.TemporaryDirectory() as tmp_dirname: rag_sequence = RagSequenceForGeneration.from_pretrained_question_encoder_generator( "facebook/dpr-question_encoder-single-nq-base", "facebook/bart-large-cnn", retriever=rag_retriever, config=rag_config, ).to(torch_device) # check that the from pretrained methods work rag_sequence.save_pretrained(tmp_dirname) rag_sequence.from_pretrained(tmp_dirname, retriever=rag_retriever) rag_sequence.to(torch_device) with torch.no_grad(): output = rag_sequence( input_ids, labels=decoder_input_ids, ) loss_pretrained = output.loss del rag_sequence question_encoder = AutoModel.from_pretrained( "facebook/dpr-question_encoder-single-nq-base") generator = AutoModelForSeq2SeqLM.from_pretrained( "facebook/bart-large-cnn") rag_sequence = RagSequenceForGeneration( config=rag_config, question_encoder=question_encoder, generator=generator, retriever=rag_retriever) rag_sequence.to(torch_device) with torch.no_grad(): output = rag_sequence( input_ids, labels=decoder_input_ids, ) loss_init = output.loss self.assertAlmostEqual(loss_pretrained.item(), loss_init.item(), places=4)
def main(): global args, best_acc1 args = parser.parse_args() ######################################################################################### # Create options ######################################################################################### options = { 'vqa': { 'trainsplit': args.vqa_trainsplit }, 'logs': { 'dir_logs': args.dir_logs }, 'model': { 'arch': args.arch, 'seq2vec': { 'type': args.st_type, 'dropout': args.st_dropout, 'fixed_emb': args.st_fixed_emb } }, 'optim': { 'lr': args.learning_rate, 'batch_size': args.batch_size, 'epochs': args.epochs } } if args.path_opt is not None: with open(args.path_opt, 'r') as handle: options_yaml = yaml.load(handle) options = utils.update_values(options, options_yaml) print('## args') pprint(vars(args)) print('## options') pprint(options) if args.help_opt: return # Set datasets options if 'vgenome' not in options: options['vgenome'] = None ######################################################################################### # Create needed datasets ######################################################################################### trainset = datasets.factory_VQA(options['vqa']['trainsplit'], options['vqa'], options['coco'], options['vgenome']) train_loader = trainset.data_loader( batch_size=options['optim']['batch_size'], num_workers=args.workers, shuffle=True) if options['vqa']['trainsplit'] == 'train': valset = datasets.factory_VQA('val', options['vqa'], options['coco']) val_loader = valset.data_loader(batch_size=2, num_workers=args.workers) if options['vqa']['trainsplit'] == 'trainval' or args.evaluate: testset = datasets.factory_VQA('test', options['vqa'], options['coco']) test_loader = testset.data_loader( batch_size=options['optim']['batch_size'], num_workers=args.workers) ######################################################################################### # Create model, criterion and optimizer ######################################################################################### config = RagConfig.from_pretrained("facebook/rag-token-nq") config.index_name = "legacy" config.use_dummy_dataset = False config.question_encoder.return_dict = True config.n_docs = 10 # config.n_docs = 15 # import pdb; # pdb.set_trace () if not args.evaluate and not args.resume: tokenizer = RagTokenizer.from_pretrained("facebook/rag-token-base", config=config) retriever = RagRetriever.from_pretrained("facebook/rag-token-base", config=config) model = RagTokenForGeneration.from_pretrained( "facebook/rag-token-base", retriever=retriever, config=config) else: tokenizer = RagTokenizer.from_pretrained(os.path.join( options['logs']['dir_logs'], "epoch_{}".format(args.start_epoch)), config=config) retriever = RagRetriever.from_pretrained(os.path.join( options['logs']['dir_logs'], "epoch_{}".format(args.start_epoch)), config=config) model = RagTokenForGeneration.from_pretrained(os.path.join( options['logs']['dir_logs'], "epoch_{}".format(args.start_epoch)), retriever=retriever, config=config) model.cuda() criterion = criterions.factory(options['vqa'], cuda=True) 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) ], "weight_decay": 0.0, }, { "params": [ p for n, p in model.named_parameters() if any(nd in n for nd in no_decay) ], "weight_decay": 0.0, }, ] optimizer = AdamW(optimizer_grouped_parameters, lr=options['optim']['lr'], eps=1e-8) # optimizer = torch.optim.SGD(optimizer_grouped_parameters, lr=options['optim']['lr'], momentum=0.9) ######################################################################################### # args.resume: resume from a checkpoint OR create logs directory ######################################################################################### exp_logger = None # Or create logs directory # os.system('mkdir -p ' + options['logs']['dir_logs']) path_new_opt = os.path.join(options['logs']['dir_logs'], os.path.basename(args.path_opt)) path_args = os.path.join(options['logs']['dir_logs'], 'args.yaml') with open(path_new_opt, 'w') as f: yaml.dump(options, f, default_flow_style=False) with open(path_args, 'w') as f: yaml.dump(vars(args), f, default_flow_style=False) if exp_logger is None: # Set loggers exp_name = os.path.basename( options['logs']['dir_logs']) # add timestamp exp_logger = logger.Experiment(exp_name, options) exp_logger.add_meters('train', make_meters()) exp_logger.add_meters('test', make_meters()) if options['vqa']['trainsplit'] == 'train': exp_logger.add_meters('val', make_meters()) exp_logger.info['model_params'] = utils.params_count(model) print('Model has {} parameters'.format( exp_logger.info['model_params'])) ######################################################################################### # args.evaluate: on valset OR/AND on testset ######################################################################################### if args.evaluate: path_logger_json = os.path.join(options['logs']['dir_logs'], 'logger.json') if options['vqa']['trainsplit'] == 'train': acc1, val_results = engine.validate(val_loader, model, retriever, tokenizer, criterion, exp_logger, args.start_epoch, 100) # save results and compute OpenEnd accuracy exp_logger.to_json(path_logger_json) save_results(val_results, args.start_epoch, valset.split_name(), options['logs']['dir_logs'], options['vqa']['dir']) return else: for epoch in range(args.start_epoch + 1, options['optim']['epochs']): engine.train(train_loader, model, retriever, tokenizer, criterion, optimizer, exp_logger, epoch, args.print_freq) # remember best prec@1 and save checkpoint is_best = True best_accs1 = -1 save_checkpoint( { 'epoch': epoch, 'arch': options['model']['arch'], 'best_acc1': best_acc1, 'exp_logger': exp_logger }, model, tokenizer, retriever, options['logs']['dir_logs'], args.save_model, True)
def main(args): model_kwargs = {} if args.model_type is None: args.model_type = infer_model_type(args.model_name_or_path) assert args.model_type is not None if args.model_type.startswith("rag"): model_class = RagTokenForGeneration if args.model_type == "rag_token" else RagSequenceForGeneration model_kwargs["n_docs"] = args.n_docs if args.index_name is not None: model_kwargs["index_name"] = args.index_name if args.index_path is not None: model_kwargs["index_path"] = args.index_path else: model_class = BartForConditionalGeneration checkpoints = ([ f.path for f in os.scandir(args.model_name_or_path) if f.is_dir() ] if args.eval_all_checkpoints else [args.model_name_or_path]) logger.info("Evaluate the following checkpoints: %s", checkpoints) score_fn = get_scores if args.eval_mode == "e2e" else get_precision_at_k evaluate_batch_fn = evaluate_batch_e2e if args.eval_mode == "e2e" else evaluate_batch_retrieval for checkpoint in checkpoints: if os.path.exists(args.predictions_path) and (not args.recalculate): logger.info( "Calculating metrics based on an existing predictions file: {}" .format(args.predictions_path)) score_fn(args, args.predictions_path, args.gold_data_path) continue logger.info("***** Running evaluation for {} *****".format(checkpoint)) logger.info(" Batch size = %d", args.eval_batch_size) logger.info(" Predictions will be stored under {}".format( args.predictions_path)) if args.model_type.startswith("rag"): retriever = RagRetriever.from_pretrained(checkpoint, **model_kwargs) model = model_class.from_pretrained(checkpoint, retriever=retriever, **model_kwargs) model.retriever.init_retrieval() else: model = model_class.from_pretrained(checkpoint, **model_kwargs) model.to(args.device) with open(args.evaluation_set, "r") as eval_file, open(args.predictions_path, "w") as preds_file: questions = [] for line in tqdm(eval_file): questions.append(line.strip()) if len(questions) == args.eval_batch_size: answers = evaluate_batch_fn(args, model, questions) preds_file.write("\n".join(answers) + "\n") preds_file.flush() questions = [] if len(questions) > 0: answers = evaluate_batch_fn(args, model, questions) preds_file.write("\n".join(answers)) preds_file.flush() score_fn(args, args.predictions_path, args.gold_data_path)
from transformers import RagTokenizer, RagRetriever, RagTokenForGeneration, AutoTokenizer model = RagTokenForGeneration.from_pretrained_question_encoder_generator( "facebook/dpr-question_encoder-single-nq-base", "facebook/bart-large") question_encoder_tokenizer = AutoTokenizer.from_pretrained( "facebook/dpr-question_encoder-single-nq-base") generator_tokenizer = AutoTokenizer.from_pretrained("facebook/bart-large") tokenizer = RagTokenizer(question_encoder_tokenizer, generator_tokenizer) model.config.use_dummy_dataset = True model.config.index_name = "exact" retriever = RagRetriever(model.config, question_encoder_tokenizer, generator_tokenizer) model.save_pretrained("./") tokenizer.save_pretrained("./") retriever.save_pretrained("./")
from transformers import RagTokenizer, RagRetriever, RagSequenceForGeneration tokenizer = RagTokenizer.from_pretrained("facebook/rag-sequence-nq") retriever = RagRetriever.from_pretrained("facebook/rag-sequence-nq", dataset="wiki_dpr", index_name='compressed') model = RagSequenceForGeneration.from_pretrained("facebook/rag-sequence-nq", retriever=retriever) input_dict = tokenizer.prepare_seq2seq_batch( "how many countries are in europe", return_tensors="pt") generated = model.generate(input_ids=input_dict["input_ids"]) print(tokenizer.batch_decode(generated, skip_special_tokens=True)[0])
from transformers import RagTokenizer, RagRetriever, RagSequenceForGeneration, RagTokenForGeneration, BartForConditionalGeneration, RagConfig, DPRQuestionEncoder import torch from transformers.models.auto import AutoModel config = RagConfig.from_pretrained ("facebook/rag-token-nq") config.index_name = "legacy" config.use_dummy_dataset = False config.question_encoder.return_dict = True print("==> load tokenizer") tokenizer = RagTokenizer.from_pretrained("facebook/rag-token-nq") print("==> load retriever") retriever = RagRetriever.from_pretrained("facebook/rag-token-nq", config=config) print("dataset info") print(dir(retriever.index)) print("==> load generator") # question encoder # question_encoder = DPRQuestionEncoder.from_pretrained('facebook/dpr-question_encoder-single-nq-base') # generator = BartForConditionalGeneration.from_pretrained('facebook/bart-large') # config = RagConfig.from_question_encoder_generator_configs(question_encoder.config, generator.config) # model = RagTokenForGeneration(config, question_encoder=question_encoder,generator=generator, retriever=retriever) model = RagTokenForGeneration.from_pretrained("facebook/rag-token-nq", retriever=retriever) # input_dict = tokenizer.prepare_seq2seq_batch("USA president in 1999?", return_tensors="pt") input_dict = tokenizer.prepare_seq2seq_batch("What kind of vehicle uses fire hydrant?", return_tensors="pt") # input_dict = tokenizer.prepare_seq2seq_batch("what phylum does cat belong to?", return_tensors="pt") print(input_dict.keys()) # dict_keys(['input_ids', 'token_type_ids', 'attention_mask', 'labels']) input_ids = input_dict['input_ids'] print("==> encode") question_hidden_states = model.question_encoder(input_ids)[0]
k: v.to(args.device) for k, v in input_batch.items() } logits = model(**input_batch) logits = logits[0] attention = input_batch["attention_mask"] argmax = [ l[a == 1].softmax(1).max(1) for l, a in zip(logits, attention) ] preds = [idx[val >= args.thresh] for val, idx in argmax] if __name__ == "__main__": tokenizer = RagTokenizer.from_pretrained("facebook/rag-sequence-base") trainset = RAGEDataset(args, tokenizer) retriever = RagRetriever.from_pretrained("facebook/rag-sequence-base") model = RagTokenForGeneration.from_pretrained("facebook/rag-sequence-base", retriever=retriever) lit_rage = LitRage(args, trainset, model) trainloader = DataLoader( trainset, batch_size=args.batch_size, num_workers=args.num_workers, shuffle=True, collate_fn=trainset.collate, ) checkpoint = ModelCheckpoint( filepath=os.path.join(args.output, "{epoch:02d}-{global_step:02d}-{val_loss:.2f}"),
def main( rag_example_args: "RagExampleArguments", processing_args: "ProcessingArguments", index_hnsw_args: "IndexHnswArguments", ): ###################################### logger.info("Step 1 - Create the dataset") ###################################### # The dataset needed for RAG must have three columns: # - title (string): title of the document # - text (string): text of a passage of the document # - embeddings (array of dimension d): DPR representation of the passage # Let's say you have documents in tab-separated csv files with columns "title" and "text" assert os.path.isfile( rag_example_args.csv_path), "Please provide a valid path to a csv file" # You can load a Dataset object this way dataset = load_dataset("csv", data_files=[rag_example_args.csv_path], split="train", delimiter="\t", column_names=["title", "text"]) # More info about loading csv files in the documentation: https://huggingface.co/docs/datasets/loading_datasets.html?highlight=csv#csv-files # Then split the documents into passages of 100 words dataset = dataset.map(split_documents, batched=True, num_proc=processing_args.num_proc) # And compute the embeddings ctx_encoder = DPRContextEncoder.from_pretrained( rag_example_args.dpr_ctx_encoder_model_name).to(device=device) ctx_tokenizer = DPRContextEncoderTokenizerFast.from_pretrained( rag_example_args.dpr_ctx_encoder_model_name) dataset = dataset.map( partial(embed, ctx_encoder=ctx_encoder, ctx_tokenizer=ctx_tokenizer), batched=True, batch_size=processing_args.batch_size, ) # And finally save your dataset passages_path = os.path.join(rag_example_args.output_dir, "my_knowledge_dataset") dataset.save_to_disk(passages_path) # from datasets import load_from_disk # dataset = load_from_disk(passages_path) # to reload the dataset ###################################### logger.info("Step 2 - Index the dataset") ###################################### # Let's use the Faiss implementation of HNSW for fast approximate nearest neighbor search index = faiss.IndexHNSWFlat(index_hnsw_args.d, index_hnsw_args.m, faiss.METRIC_INNER_PRODUCT) dataset.add_faiss_index("embeddings", custom_index=index) # And save the index index_path = os.path.join(rag_example_args.output_dir, "my_knowledge_dataset_hnsw_index.faiss") dataset.get_index("embeddings").save(index_path) # dataset.load_faiss_index("embeddings", index_path) # to reload the index ###################################### logger.info("Step 3 - Load RAG") ###################################### # Easy way to load the model retriever = RagRetriever.from_pretrained(rag_example_args.rag_model_name, index_name="custom", indexed_dataset=dataset) model = RagSequenceForGeneration.from_pretrained( rag_example_args.rag_model_name, retriever=retriever) tokenizer = RagTokenizer.from_pretrained(rag_example_args.rag_model_name) # For distributed fine-tuning you'll need to provide the paths instead, as the dataset and the index are loaded separately. # retriever = RagRetriever.from_pretrained(rag_model_name, index_name="custom", passages_path=passages_path, index_path=index_path) ###################################### logger.info("Step 4 - Have fun") ###################################### question = rag_example_args.question or "What does Moses' rod turn into ?" input_ids = tokenizer.question_encoder(question, return_tensors="pt")["input_ids"] generated = model.generate(input_ids) generated_string = tokenizer.batch_decode(generated, skip_special_tokens=True)[0] logger.info("Q: " + question) logger.info("A: " + generated_string)
from transformers import RagTokenizer, RagRetriever, RagSequenceForGeneration, RagConfig tokenizer = RagTokenizer.from_pretrained("facebook/rag-sequence-nq") retriever = RagRetriever.from_pretrained("facebook/rag-sequence-nq", index_name="exact", use_dummy_dataset=True) model = RagSequenceForGeneration.from_pretrained( "facebook/rag-sequence-nq", retriever=retriever).to("cuda:0") model.add_tokens() model.config.n_docs = 6 retriever.config.n_docs = 6 model.config.n_docs_splits = 3 retriever.config.n_docs_splits = 3 model.skip_ec = True model.skip_ec = True input_dict = tokenizer.prepare_seq2seq_batch("am i a cool person", return_tensors="pt").to("cuda:0") generated = model.generate(**input_dict, extra_context=["Cats are cool animals!"], num_beams=4) print(tokenizer.batch_decode(generated, skip_special_tokens=True)[0]) # should give 54 => google says either 44 or 51