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	# -- coding: utf-8 --
	"""
	@author:XuMing([email protected])
	@description:
	"""
	import argparse
	import hashlib
	import os
	import re
	from threading import Thread
	from typing import Union, List

	import jieba
	import torch
	from loguru import logger
	from peft import PeftModel
	from similarities import (
	EnsembleSimilarity,
	BertSimilarity,
	BM25Similarity,
	)
	from similarities.similarity import SimilarityABC
	from transformers import (
	AutoModel,
	AutoModelForCausalLM,
	AutoTokenizer,
	BloomForCausalLM,
	BloomTokenizerFast,
	LlamaTokenizer,
	LlamaForCausalLM,
	TextIteratorStreamer,
	GenerationConfig,
	AutoModelForSequenceClassification,
	)

	jieba.setLogLevel("ERROR")

	MODEL_CLASSES = {
	"bloom": (BloomForCausalLM, BloomTokenizerFast),
	"chatglm": (AutoModel, AutoTokenizer),
	"llama": (LlamaForCausalLM, LlamaTokenizer),
	"baichuan": (AutoModelForCausalLM, AutoTokenizer),
	"auto": (AutoModelForCausalLM, AutoTokenizer),
	}

	PROMPT_TEMPLATE = """Basándose en la siguiente información conocida, responda a la pregunta del usuario de forma
	concisa y profesional. Si no puede obtener una respuesta, diga «No se puede responder a la pregunta basándose en la
	información conocida» o «No se proporciona suficiente información relevante», no está permitido añadir elementos
	inventados en la respuesta, y ésta debe estar en Español.

	Contenido conocido:
	{context_str}

	Pregunta:
	{query_str}
	"""



	class SentenceSplitter:
	def __init__(self, chunk_size: int = 250, chunk_overlap: int = 50):
	self.chunk_size = chunk_size
	self.chunk_overlap = chunk_overlap

	def split_text(self, text: str) -> List[str]:
	if self._is_has_chinese(text):
	return self._split_chinese_text(text)
	else:
	return self._split_english_text(text)

	def _split_chinese_text(self, text: str) -> List[str]:
	sentence_endings = {'\n', '。', '！', '？', '；', '…'} # puntuación al final de una frase
	chunks, current_chunk = [], ''
	for word in jieba.cut(text):
	if len(current_chunk) + len(word) > self.chunk_size:
	chunks.append(current_chunk.strip())
	current_chunk = word
	else:
	current_chunk += word
	if word[-1] in sentence_endings and len(current_chunk) > self.chunk_size - self.chunk_overlap:
	chunks.append(current_chunk.strip())
	current_chunk = ''
	if current_chunk:
	chunks.append(current_chunk.strip())
	if self.chunk_overlap > 0 and len(chunks) > 1:
	chunks = self._handle_overlap(chunks)
	return chunks

	def _split_english_text(self, text: str) -> List[str]:
	# Dividir el texto inglés por frases utilizando expresiones regulares
	sentences = re.split(r'(?<=[.!?])\s+', text.replace('\n', ' '))
	chunks, current_chunk = [], ''
	for sentence in sentences:
	if len(current_chunk) + len(sentence) <= self.chunk_size or not current_chunk:
	current_chunk += (' ' if current_chunk else '') + sentence
	else:
	chunks.append(current_chunk)
	current_chunk = sentence
	if current_chunk: # Añade el último trozo
	chunks.append(current_chunk)

	if self.chunk_overlap > 0 and len(chunks) > 1:
	chunks = self._handle_overlap(chunks)

	return chunks

	def _is_has_chinese(self, text: str) -> bool:
	# comprobar si contiene caracteres chinos
	if any("\u4e00" <= ch <= "\u9fff" for ch in text):
	return True
	else:
	return False

	def _handle_overlap(self, chunks: List[str]) -> List[str]:
	# 处理块间重叠
	overlapped_chunks = []
	for i in range(len(chunks) - 1):
	chunk = chunks[i] + ' ' + chunks[i + 1][:self.chunk_overlap]
	overlapped_chunks.append(chunk.strip())
	overlapped_chunks.append(chunks[-1])
	return overlapped_chunks



	class Rag:
	def __init__(
	self,
	similarity_model: SimilarityABC = None,
	generate_model_type: str = "auto",
	generate_model_name_or_path: str = "LenguajeNaturalAI/leniachat-qwen2-1.5B-v0",
	lora_model_name_or_path: str = None,
	corpus_files: Union[str, List[str]] = None,
	save_corpus_emb_dir: str = "corpus_embs/",
	device: str = None,
	int8: bool = False,
	int4: bool = False,
	chunk_size: int = 250,
	chunk_overlap: int = 0,
	rerank_model_name_or_path: str = None,
	enable_history: bool = False,
	num_expand_context_chunk: int = 2,
	similarity_top_k: int = 10,
	rerank_top_k: int = 3,
	):
	"""
	Init RAG model.
	:param similarity_model: similarity model, default None, if set, will use it instead of EnsembleSimilarity
	:param generate_model_type: generate model type
	:param generate_model_name_or_path: generate model name or path
	:param lora_model_name_or_path: lora model name or path
	:param corpus_files: corpus files
	:param save_corpus_emb_dir: save corpus embeddings dir, default ./corpus_embs/
	:param device: device, default None, auto select gpu or cpu
	:param int8: use int8 quantization, default False
	:param int4: use int4 quantization, default False
	:param chunk_size: chunk size, default 250
	:param chunk_overlap: chunk overlap, default 0, can not set to > 0 if num_expand_context_chunk > 0
	:param rerank_model_name_or_path: rerank model name or path, default 'BAAI/bge-reranker-base'
	:param enable_history: enable history, default False
	:param num_expand_context_chunk: num expand context chunk, default 2, if set to 0, will not expand context chunk
	:param similarity_top_k: similarity_top_k, default 5, similarity model search k corpus chunks
	:param rerank_top_k: rerank_top_k, default 3, rerank model search k corpus chunks
	"""
	if torch.cuda.is_available():
	default_device = torch.device(0)
	elif torch.backends.mps.is_available():
	default_device = torch.device('cpu')
	else:
	default_device = torch.device('cpu')
	self.device = device or default_device
	if num_expand_context_chunk > 0 and chunk_overlap > 0:
	logger.warning(f" 'num_expand_context_chunk' and 'chunk_overlap' cannot both be greater than zero. "
	f" 'chunk_overlap' has been set to zero by default.")
	chunk_overlap = 0
	self.text_splitter = SentenceSplitter(chunk_size, chunk_overlap)
	if similarity_model is not None:
	self.sim_model = similarity_model
	else:
	m1 = BertSimilarity(model_name_or_path="shibing624/text2vec-base-multilingual", device=self.device)
	m2 = BM25Similarity()
	default_sim_model = EnsembleSimilarity(similarities=[m1, m2], weights=[0.5, 0.5], c=2)
	self.sim_model = default_sim_model
	self.gen_model, self.tokenizer = self._init_gen_model(
	generate_model_type,
	generate_model_name_or_path,
	peft_name=lora_model_name_or_path,
	int8=int8,
	int4=int4,
	)
	self.history = []
	self.corpus_files = corpus_files
	if corpus_files:
	self.add_corpus(corpus_files)
	self.save_corpus_emb_dir = save_corpus_emb_dir
	if rerank_model_name_or_path is None:
	rerank_model_name_or_path = "BAAI/bge-reranker-base"
	if rerank_model_name_or_path:
	self.rerank_tokenizer = AutoTokenizer.from_pretrained(rerank_model_name_or_path)
	self.rerank_model = AutoModelForSequenceClassification.from_pretrained(rerank_model_name_or_path)
	self.rerank_model.to(self.device)
	self.rerank_model.eval()
	else:
	self.rerank_model = None
	self.rerank_tokenizer = None
	self.enable_history = enable_history
	self.similarity_top_k = similarity_top_k
	self.num_expand_context_chunk = num_expand_context_chunk
	self.rerank_top_k = rerank_top_k

	def __str__(self):
	return f"Similarity model: {self.sim_model}, Generate model: {self.gen_model}"

	def _init_gen_model(
	self,
	gen_model_type: str,
	gen_model_name_or_path: str,
	peft_name: str = None,
	int8: bool = False,
	int4: bool = False,
	):
	"""Init generate model."""
	if int8 or int4:
	device_map = None
	else:
	device_map = "auto"
	model_class, tokenizer_class = MODEL_CLASSES[gen_model_type]
	tokenizer = tokenizer_class.from_pretrained(gen_model_name_or_path, trust_remote_code=True)
	model = model_class.from_pretrained(
	gen_model_name_or_path,
	load_in_8bit=int8 if gen_model_type not in ['baichuan', 'chatglm'] else False,
	load_in_4bit=int4 if gen_model_type not in ['baichuan', 'chatglm'] else False,
	torch_dtype="auto",
	device_map=device_map,
	trust_remote_code=True,
	)
	if self.device == torch.device('cpu'):
	model.float()
	if gen_model_type in ['baichuan', 'chatglm']:
	if int4:
	model = model.quantize(4).cuda()
	elif int8:
	model = model.quantize(8).cuda()
	try:
	model.generation_config = GenerationConfig.from_pretrained(gen_model_name_or_path, trust_remote_code=True)
	except Exception as e:
	logger.warning(f"Failed to load generation config from {gen_model_name_or_path}, {e}")
	if peft_name:
	model = PeftModel.from_pretrained(
	model,
	peft_name,
	torch_dtype="auto",
	)
	logger.info(f"Loaded peft model from {peft_name}")
	model.eval()
	return model, tokenizer

	def _get_chat_input(self):
	messages = []
	for conv in self.history:
	if conv and len(conv) > 0 and conv[0]:
	messages.append({'role': 'user', 'content': conv[0]})
	if conv and len(conv) > 1 and conv[1]:
	messages.append({'role': 'assistant', 'content': conv[1]})
	input_ids = self.tokenizer.apply_chat_template(
	conversation=messages,
	tokenize=True,
	add_generation_prompt=True,
	return_tensors='pt'
	)
	return input_ids.to(self.gen_model.device)

	@torch.inference_mode()
	def stream_generate_answer(
	self,
	max_new_tokens=512,
	temperature=0.7,
	repetition_penalty=1.0,
	context_len=2048
	):
	streamer = TextIteratorStreamer(self.tokenizer, timeout=60.0, skip_prompt=True, skip_special_tokens=True)
	input_ids = self._get_chat_input()
	max_src_len = context_len - max_new_tokens - 8
	input_ids = input_ids[-max_src_len:]
	generation_kwargs = dict(
	input_ids=input_ids,
	max_new_tokens=max_new_tokens,
	temperature=temperature,
	do_sample=True,
	repetition_penalty=repetition_penalty,
	streamer=streamer,
	)
	thread = Thread(target=self.gen_model.generate, kwargs=generation_kwargs)
	thread.start()

	yield from streamer

	def add_corpus(self, files: Union[str, List[str]]):
	"""Load document files."""
	if isinstance(files, str):
	files = [files]
	for doc_file in files:
	if doc_file.endswith('.pdf'):
	corpus = self.extract_text_from_pdf(doc_file)
	elif doc_file.endswith('.docx'):
	corpus = self.extract_text_from_docx(doc_file)
	elif doc_file.endswith('.md'):
	corpus = self.extract_text_from_markdown(doc_file)
	else:
	corpus = self.extract_text_from_txt(doc_file)
	full_text = '\n'.join(corpus)
	chunks = self.text_splitter.split_text(full_text)
	self.sim_model.add_corpus(chunks)
	self.corpus_files = files
	logger.debug(f"files: {files}, corpus size: {len(self.sim_model.corpus)}, top3: "
	f"{list(self.sim_model.corpus.values())[:3]}")

	@staticmethod
	def get_file_hash(fpaths):
	hasher = hashlib.md5()
	target_file_data = bytes()
	if isinstance(fpaths, str):
	fpaths = [fpaths]
	for fpath in fpaths:
	with open(fpath, 'rb') as file:
	chunk = file.read(1024 * 1024) # read only first 1MB
	hasher.update(chunk)
	target_file_data += chunk

	hash_name = hasher.hexdigest()[:32]
	return hash_name

	@staticmethod
	def extract_text_from_pdf(file_path: str):
	"""Extract text content from a PDF file."""
	import PyPDF2
	contents = []
	with open(file_path, 'rb') as f:
	pdf_reader = PyPDF2.PdfReader(f)
	for page in pdf_reader.pages:
	page_text = page.extract_text().strip()
	raw_text = [text.strip() for text in page_text.splitlines() if text.strip()]
	new_text = ''
	for text in raw_text:
	new_text += text
	if text[-1] in ['.', '!', '?', '。', '！', '？', '…', ';', '；', ':', '：', '”', '’', '）', '】', '》', '」',
	'』', '〕', '〉', '》', '〗', '〞', '〟', '»', '"', "'", ')', ']', '}']:
	contents.append(new_text)
	new_text = ''
	if new_text:
	contents.append(new_text)
	return contents

	@staticmethod
	def extract_text_from_txt(file_path: str):
	"""Extract text content from a TXT file."""
	with open(file_path, 'r', encoding='utf-8') as f:
	contents = [text.strip() for text in f.readlines() if text.strip()]
	return contents

	@staticmethod
	def extract_text_from_docx(file_path: str):
	"""Extract text content from a DOCX file."""
	import docx
	document = docx.Document(file_path)
	contents = [paragraph.text.strip() for paragraph in document.paragraphs if paragraph.text.strip()]
	return contents

	@staticmethod
	def extract_text_from_markdown(file_path: str):
	"""Extract text content from a Markdown file."""
	import markdown
	from bs4 import BeautifulSoup
	with open(file_path, 'r', encoding='utf-8') as f:
	markdown_text = f.read()
	html = markdown.markdown(markdown_text)
	soup = BeautifulSoup(html, 'html.parser')
	contents = [text.strip() for text in soup.get_text().splitlines() if text.strip()]
	return contents

	@staticmethod
	def _add_source_numbers(lst):
	"""Add source numbers to a list of strings."""
	return [f'[{idx + 1}]\t "{item}"' for idx, item in enumerate(lst)]

	def _get_reranker_score(self, query: str, reference_results: List[str]):
	"""Get reranker score."""
	pairs = []
	for reference in reference_results:
	pairs.append([query, reference])
	with torch.no_grad():
	inputs = self.rerank_tokenizer(pairs, padding=True, truncation=True, return_tensors='pt', max_length=512)
	inputs_on_device = {k: v.to(self.rerank_model.device) for k, v in inputs.items()}
	scores = self.rerank_model(**inputs_on_device, return_dict=True).logits.view(-1, ).float()

	return scores

	def get_reference_results(self, query: str):
	"""
	Get reference results.
	1. Similarity model get similar chunks
	2. Rerank similar chunks
	3. Expand reference context chunk
	:param query:
	:return:
	"""
	reference_results = []
	sim_contents = self.sim_model.most_similar(query, topn=self.similarity_top_k)
	# Get reference results from corpus
	hit_chunk_dict = dict()
	for c in sim_contents:
	for id_score_dict in c:
	corpus_id = id_score_dict['corpus_id']
	hit_chunk = id_score_dict["corpus_doc"]
	reference_results.append(hit_chunk)
	hit_chunk_dict[corpus_id] = hit_chunk

	if reference_results:
	if self.rerank_model is not None:
	# Rerank reference results
	rerank_scores = self._get_reranker_score(query, reference_results)
	logger.debug(f"rerank_scores: {rerank_scores}")
	# Get rerank top k chunks
	reference_results = [reference for reference, score in sorted(
	zip(reference_results, rerank_scores), key=lambda x: x[1], reverse=True)][:self.rerank_top_k]
	hit_chunk_dict = {corpus_id: hit_chunk for corpus_id, hit_chunk in hit_chunk_dict.items() if
	hit_chunk in reference_results}
	# Expand reference context chunk
	if self.num_expand_context_chunk > 0:
	new_reference_results = []
	for corpus_id, hit_chunk in hit_chunk_dict.items():
	expanded_reference = self.sim_model.corpus.get(corpus_id - 1, '') + hit_chunk
	for i in range(self.num_expand_context_chunk):
	expanded_reference += self.sim_model.corpus.get(corpus_id + i + 1, '')
	new_reference_results.append(expanded_reference)
	reference_results = new_reference_results
	return reference_results

	def predict_stream(
	self,
	query: str,
	max_length: int = 512,
	context_len: int = 2048,
	temperature: float = 0.7,
	):
	"""Generate predictions stream."""
	stop_str = self.tokenizer.eos_token if self.tokenizer.eos_token else "</s>"
	if not self.enable_history:
	self.history = []
	if self.sim_model.corpus:
	reference_results = self.get_reference_results(query)
	if reference_results:
	reference_results = self._add_source_numbers(reference_results)
	context_str = '\n'.join(reference_results)[:(context_len - len(PROMPT_TEMPLATE))]
	else:
	context_str = ''
	prompt = PROMPT_TEMPLATE.format(context_str=context_str, query_str=query)
	else:
	prompt = query
	logger.debug(f"prompt: {prompt}")
	self.history.append([prompt, ''])
	response = ""
	for new_text in self.stream_generate_answer(
	max_new_tokens=max_length,
	temperature=temperature,
	context_len=context_len,
	):
	if new_text != stop_str:
	response += new_text
	yield response

	def predict(
	self,
	query: str,
	max_length: int = 512,
	context_len: int = 2048,
	temperature: float = 0.7,
	):
	"""Query from corpus."""
	reference_results = []
	if not self.enable_history:
	self.history = []
	if self.sim_model.corpus:
	reference_results = self.get_reference_results(query)
	if reference_results:
	reference_results = self._add_source_numbers(reference_results)
	context_str = '\n'.join(reference_results)[:(context_len - len(PROMPT_TEMPLATE))]
	else:
	context_str = ''
	prompt = PROMPT_TEMPLATE.format(context_str=context_str, query_str=query)
	else:
	prompt = query
	logger.debug(f"prompt: {prompt}")
	self.history.append([prompt, ''])
	response = ""
	for new_text in self.stream_generate_answer(
	max_new_tokens=max_length,
	temperature=temperature,
	context_len=context_len,
	):
	response += new_text
	response = response.strip()
	self.history[-1][1] = response
	return response, reference_results

	def query(self, query: str, **kwargs):
	return self.predict(query, **kwargs)

	def save_corpus_emb(self):
	dir_name = self.get_file_hash(self.corpus_files)
	save_dir = os.path.join(self.save_corpus_emb_dir, dir_name)
	if hasattr(self.sim_model, 'save_corpus_embeddings'):
	self.sim_model.save_corpus_embeddings(save_dir)
	logger.debug(f"Saving corpus embeddings to {save_dir}")
	return save_dir

	def load_corpus_emb(self, emb_dir: str):
	if hasattr(self.sim_model, 'load_corpus_embeddings'):
	logger.debug(f"Loading corpus embeddings from {emb_dir}")
	self.sim_model.load_corpus_embeddings(emb_dir)


	if __name__ == "__main__":
	parser = argparse.ArgumentParser()
	parser.add_argument("--sim_model_name", type=str, default="shibing624/text2vec-base-multilingual")
	parser.add_argument("--gen_model_type", type=str, default="auto")
	parser.add_argument("--gen_model_name", type=str, default="LenguajeNaturalAI/leniachat-qwen2-1.5B-v0")
	parser.add_argument("--lora_model", type=str, default=None)
	parser.add_argument("--rerank_model_name", type=str, default="")
	parser.add_argument("--corpus_files", type=str, default="data/sample.pdf")
	parser.add_argument("--device", type=str, default=None)
	parser.add_argument("--int4", action='store_true', help="use int4 quantization")
	parser.add_argument("--int8", action='store_true', help="use int8 quantization")
	parser.add_argument("--chunk_size", type=int, default=220)
	parser.add_argument("--chunk_overlap", type=int, default=0)
	parser.add_argument("--num_expand_context_chunk", type=int, default=1)
	args = parser.parse_args()
	print(args)
	sim_model = BertSimilarity(model_name_or_path=args.sim_model_name, device=args.device)
	m = Rag(
	similarity_model=sim_model,
	generate_model_type=args.gen_model_type,
	generate_model_name_or_path=args.gen_model_name,
	lora_model_name_or_path=args.lora_model,
	device=args.device,
	int4=args.int4,
	int8=args.int8,
	chunk_size=args.chunk_size,
	chunk_overlap=args.chunk_overlap,
	corpus_files=args.corpus_files.split(','),
	num_expand_context_chunk=args.num_expand_context_chunk,
	rerank_model_name_or_path=args.rerank_model_name,
	)