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| from dataclasses import dataclass, field | |
| import logging | |
| from flask import Flask, request, jsonify | |
| import transformers | |
| import torch | |
| from datasets import load_from_disk | |
| from multi_token.model_utils import MultiTaskType | |
| from multi_token.training import ModelArguments | |
| from multi_token.inference import load_trained_lora_model | |
| from multi_token.data_tools import encode_chat | |
| import evaluate | |
| import random | |
| import bert_score | |
| from tqdm import tqdm | |
| from rouge_score import rouge_scorer | |
| from nltk.translate.bleu_score import sentence_bleu | |
| from nltk.translate.meteor_score import meteor_score as meteor_scorer | |
| from nltk.tokenize import wordpunct_tokenize | |
| import json | |
| from bert_score import score | |
| from tqdm.auto import tqdm | |
| import yaml | |
| scorer = rouge_scorer.RougeScorer(['rougeL'], use_stemmer=True) | |
| PRETRAIN_PHRASES_OLD = [ | |
| "Describe the audio in detail" | |
| ] | |
| PRETRAIN_PHRASES = [ | |
| # "What is happening in the given music <sound>?", | |
| # "Describe the sound. <sound>", | |
| # "Describe the music. <sound>", | |
| # "<sound> Provide a description of the music.", | |
| # "<sound> Provide a description of the sound.", | |
| # "Can you interpret <sound>?", | |
| # "Please explain what's happening in <sound>", | |
| # "What does <sound> represent?", | |
| # "Could you describe <sound> for me?", | |
| # "What's the content of <sound>?", | |
| # "Can you depict <sound>?", | |
| # "What is <sound>?", | |
| # "In the music clip, <sound>, what is happening?", | |
| # "Provide a description of the music. <sound>", | |
| # "Provide a description of the sound. <sound>", | |
| # "Provide a caption for the sound. <sound>", | |
| "Provide a caption for the music. <sound>", | |
| ] | |
| random.seed(1234) | |
| class ServeArguments(ModelArguments): | |
| port: int = field(default=8080) | |
| host: str = field(default="0.0.0.0") | |
| load_bits: int = field(default=16) | |
| max_new_tokens: int = field(default=128) | |
| temperature: float = field(default=0.01) | |
| def generate(input_json): | |
| encoded_dict = encode_chat(input_json, tokenizer, model.modalities) | |
| with torch.inference_mode(): | |
| output_ids = model.generate( | |
| input_ids=encoded_dict["input_ids"].unsqueeze(0).to(model.device), | |
| max_new_tokens=serve_args.max_new_tokens, | |
| use_cache=True, | |
| do_sample=True, | |
| temperature=serve_args.temperature, | |
| modality_inputs={ | |
| m.name: [encoded_dict[m.name]] for m in model.modalities | |
| }, | |
| ) | |
| outputs = tokenizer.decode( | |
| output_ids[0, encoded_dict["input_ids"].shape[0]:], | |
| skip_special_tokens=True, | |
| ).strip() | |
| return {"output": outputs} | |
| def evaluate(candidates, mult_reference): | |
| rouge_score, bleu_score, bleu4_score, meteor_score = 0, 0, 0, 0 | |
| for ref, cand in tqdm(zip(mult_reference, candidates), total=len(mult_reference)): | |
| rouge_score += scorer.score(ref, cand)['rougeL'].recall | |
| cand_split = wordpunct_tokenize(cand) | |
| ref_split = wordpunct_tokenize(ref) | |
| bleu4_score += sentence_bleu([ref], cand, weights=(0.0, 0.0, 0.0, 1.0)) | |
| bleu_score += sentence_bleu([ref], cand) | |
| meteor_score += meteor_scorer([ref_split], cand_split) | |
| rouge_score, bleu_score, bleu4_score, meteor_score = rouge_score / (len(candidates)), bleu_score / (len(candidates)), bleu4_score / (len(candidates)), meteor_score / (len(candidates)) | |
| P, R, F1 = score(candidates, mult_reference, lang="en", verbose=True) | |
| bert_score = R.mean().item() | |
| #print(f"Model: {model_name}") | |
| print(f"BLEU Score: {bleu_score}") | |
| print(f"BLEU-4 Score: {bleu4_score}") | |
| print(f"METEOR Score: {meteor_score}") | |
| print(f"ROUGE Score: {rouge_score}") | |
| print(f"BERT Score: {bert_score}") | |
| if __name__ == "__main__": | |
| logging.getLogger().setLevel(logging.INFO) | |
| parser = transformers.HfArgumentParser((ServeArguments,)) | |
| serve_args, _ = parser.parse_args_into_dataclasses(return_remaining_strings=True) | |
| dataset_path = "/data/musiccaps/musiccaps_val" | |
| ds = load_from_disk(dataset_path) | |
| shuffled_ds = ds.shuffle(seed=1234) | |
| model, tokenizer = load_trained_lora_model( | |
| model_name_or_path=serve_args.model_name_or_path, | |
| model_lora_path=serve_args.model_lora_path, | |
| load_bits=serve_args.load_bits, | |
| use_multi_task=MultiTaskType(serve_args.use_multi_task), | |
| tasks_config=serve_args.tasks_config | |
| ) | |
| predictions = [] | |
| references = [] | |
| content_phrase = random.choice(PRETRAIN_PHRASES) | |
| # for data_point_id in range(len(ds)): | |
| print("len(ds)", len(ds)) | |
| for data_point in tqdm(ds): | |
| print(data_point["audio"]) | |
| # data_point = ds[data_point_id] | |
| input_json = {"messages": [{"role": "user", "content": content_phrase}], "sounds": [data_point["audio"]]} | |
| output_json = generate(input_json) | |
| print("Prediction ", output_json["output"]) | |
| print("Reference ", data_point["caption"]) | |
| print() | |
| print() | |
| predictions.append(output_json["output"]) | |
| references.append(data_point["caption"]) | |
| pairs = {"predictions": predictions, "references": references} | |
| evaluate(predictions, references) | |
| with open('/experiments/captioning/mert_tasks_separate_backbone_train_001_ft/checkpoint_1985_test/musiccaps_val_fixed_prompt.yaml', 'w') as file: | |
| yaml.dump(pairs, file, default_flow_style=False) | |