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| # coding=utf-8 | |
| # Copyright 2024 The GTE Team Authors and Alibaba Group. | |
| # Licensed under the Apache License, Version 2.0 (the "License"); | |
| from collections import defaultdict | |
| from typing import Dict, List, Tuple | |
| import numpy as np | |
| import torch | |
| from transformers import AutoModelForTokenClassification, AutoTokenizer | |
| from transformers.utils import is_torch_npu_available | |
| class GTEEmbeddidng(torch.nn.Module): | |
| def __init__(self, | |
| model_name: str = None, | |
| normalized: bool = True, | |
| use_fp16: bool = True, | |
| device: str = None | |
| ): | |
| super().__init__() | |
| self.normalized = normalized | |
| if device: | |
| self.device = torch.device(device) | |
| else: | |
| if torch.cuda.is_available(): | |
| self.device = torch.device("cuda") | |
| elif torch.backends.mps.is_available(): | |
| self.device = torch.device("mps") | |
| elif is_torch_npu_available(): | |
| self.device = torch.device("npu") | |
| else: | |
| self.device = torch.device("cpu") | |
| use_fp16 = False | |
| self.use_fp16 = use_fp16 | |
| self.tokenizer = AutoTokenizer.from_pretrained(model_name) | |
| self.model = AutoModelForTokenClassification.from_pretrained( | |
| model_name, trust_remote_code=True, torch_dtype=torch.float16 if self.use_fp16 else None | |
| ) | |
| self.vocab_size = self.model.config.vocab_size | |
| self.model.to(self.device) | |
| def _process_token_weights(self, token_weights: np.ndarray, input_ids: list): | |
| # conver to dict | |
| result = defaultdict(int) | |
| unused_tokens = set([self.tokenizer.cls_token_id, self.tokenizer.eos_token_id, self.tokenizer.pad_token_id, | |
| self.tokenizer.unk_token_id]) | |
| # token_weights = np.ceil(token_weights * 100) | |
| for w, idx in zip(token_weights, input_ids): | |
| if idx not in unused_tokens and w > 0: | |
| token = self.tokenizer.decode([int(idx)]) | |
| if w > result[token]: | |
| result[token] = w | |
| return result | |
| def encode(self, | |
| texts: None, | |
| dimension: int = None, | |
| max_length: int = 8192, | |
| batch_size: int = 16, | |
| return_dense: bool = True, | |
| return_sparse: bool = False): | |
| if dimension is None: | |
| dimension = self.model.config.hidden_size | |
| if isinstance(texts, str): | |
| texts = [texts] | |
| num_texts = len(texts) | |
| all_dense_vecs = [] | |
| all_token_weights = [] | |
| for n, i in enumerate(range(0, num_texts, batch_size)): | |
| batch = texts[i: i + batch_size] | |
| resulst = self._encode(batch, dimension, max_length, batch_size, return_dense, return_sparse) | |
| if return_dense: | |
| all_dense_vecs.append(resulst['dense_embeddings']) | |
| if return_sparse: | |
| all_token_weights.extend(resulst['token_weights']) | |
| all_dense_vecs = torch.cat(all_dense_vecs, dim=0) | |
| return { | |
| "dense_embeddings": all_dense_vecs, | |
| "token_weights": all_token_weights | |
| } | |
| def _encode(self, | |
| texts: Dict[str, torch.Tensor] = None, | |
| dimension: int = None, | |
| max_length: int = 1024, | |
| batch_size: int = 16, | |
| return_dense: bool = True, | |
| return_sparse: bool = False): | |
| text_input = self.tokenizer(texts, padding=True, truncation=True, return_tensors='pt', max_length=max_length) | |
| text_input = {k: v.to(self.model.device) for k,v in text_input.items()} | |
| model_out = self.model(**text_input, return_dict=True) | |
| output = {} | |
| if return_dense: | |
| dense_vecs = model_out.last_hidden_state[:, 0, :dimension] | |
| if self.normalized: | |
| dense_vecs = torch.nn.functional.normalize(dense_vecs, dim=-1) | |
| output['dense_embeddings'] = dense_vecs | |
| if return_sparse: | |
| token_weights = torch.relu(model_out.logits).squeeze(-1) | |
| token_weights = list(map(self._process_token_weights, token_weights.detach().cpu().numpy().tolist(), | |
| text_input['input_ids'].cpu().numpy().tolist())) | |
| output['token_weights'] = token_weights | |
| return output | |
| def _compute_sparse_scores(self, embs1, embs2): | |
| scores = 0 | |
| for token, weight in embs1.items(): | |
| if token in embs2: | |
| scores += weight * embs2[token] | |
| return scores | |
| def compute_sparse_scores(self, embs1, embs2): | |
| scores = [self._compute_sparse_scores(emb1, emb2) for emb1, emb2 in zip(embs1, embs2)] | |
| return np.array(scores) | |
| def compute_dense_scores(self, embs1, embs2): | |
| scores = torch.sum(embs1*embs2, dim=-1).cpu().detach().numpy() | |
| return scores | |
| def compute_scores(self, | |
| text_pairs: List[Tuple[str, str]], | |
| dimension: int = None, | |
| max_length: int = 1024, | |
| batch_size: int = 16, | |
| dense_weight=1.0, | |
| sparse_weight=0.1): | |
| text1_list = [text_pair[0] for text_pair in text_pairs] | |
| text2_list = [text_pair[1] for text_pair in text_pairs] | |
| embs1 = self.encode(text1_list, dimension, max_length, batch_size, return_dense=True, return_sparse=True) | |
| embs2 = self.encode(text2_list, dimension, max_length, batch_size, return_dense=True, return_sparse=True) | |
| scores = self.compute_dense_scores(embs1['dense_embeddings'], embs2['dense_embeddings']) * dense_weight + \ | |
| self.compute_sparse_scores(embs1['token_weights'], embs2['token_weights']) * sparse_weight | |
| scores = scores.tolist() | |
| return scores | |
| if __name__ == '__main__': | |
| gte = GTEEmbeddidng('Alibaba-NLP/gte-multilingual-base') | |
| docs = [ | |
| "黑龙江离俄罗斯很近", | |
| "哈尔滨是中国黑龙江省的省会,位于中国东北", | |
| "you are the hero" | |
| ] | |
| print('docs', docs) | |
| embs = gte.encode(docs, return_dense=True,return_sparse=True) | |
| print('dense vecs', embs['dense_embeddings']) | |
| print('sparse vecs', embs['token_weights']) | |