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local_msd_qa.py
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local_msd_qa.py
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from langchain.embeddings.huggingface import HuggingFaceEmbeddings
from langchain.vectorstores import FAISS
from langchain.document_loaders import UnstructuredFileLoader
import datetime
from docQA import ChineseTextSplitter
from typing import List, Tuple
from langchain.docstore.document import Document
import numpy as np
import os
import time
import torch
def torch_gc():
if torch.cuda.is_available():
# with torch.cuda.device(DEVICE):
torch.cuda.empty_cache()
torch.cuda.ipc_collect()
elif torch.backends.mps.is_available():
try:
from torch.mps import empty_cache
empty_cache()
except Exception as e:
print(e)
print("如果您使用的是 macOS 建议将 pytorch 版本升级至 2.0.0 或更高版本,以支持及时清理 torch 产生的内存占用。")
VS_ROOT_PATH = os.path.join(os.path.dirname(os.path.dirname(__file__)), "vector_store")
UPLOAD_ROOT_PATH = os.path.join(os.path.dirname(os.path.dirname(__file__)), "content")
# LLM streaming reponse
STREAMING = True
# 匹配后单段上下文长度
CHUNK_SIZE = 250
# LLM input history length
LLM_HISTORY_LEN = 3
# return top-k text chunk from vector store
VECTOR_SEARCH_TOP_K = 5
embedding_model_dict = {
"ernie-tiny": "nghuyong/ernie-3.0-nano-zh",
"ernie-base": "nghuyong/ernie-3.0-base-zh",
"text2vec-base": "shibing624/text2vec-base-chinese",
"text2vec": "GanymedeNil/text2vec-large-chinese",
}
# Embedding model name
EMBEDDING_MODEL = "text2vec"
# 基于上下文的prompt模版,请务必保留"{question}"和"{context}"
PROMPT_TEMPLATE = """已知信息:
{context}
根据上述已知信息,简洁和专业的来回答用户的问题。如果无法从中得到答案,请说 “根据已知信息无法回答该问题” 或 “没有提供足够的相关信息”,不允许在答案中添加编造成分,答案请使用中文。 问题是:{question}"""
def load_file(filepath):
if filepath.lower().endswith(".md"):
loader = UnstructuredFileLoader(filepath, mode="elements")
docs = loader.load()
elif filepath.lower().endswith(".pdf"):
loader = UnstructuredFileLoader(filepath)
textsplitter = ChineseTextSplitter(pdf=True)
docs = loader.load_and_split(textsplitter)
else:
loader = UnstructuredFileLoader(filepath, mode="elements")
textsplitter = ChineseTextSplitter(pdf=False)
docs = loader.load_and_split(text_splitter=textsplitter)
return docs
def generate_prompt(related_docs: List[str],
query: str,
prompt_template=PROMPT_TEMPLATE) -> str:
context = "\n".join([doc.page_content for doc in related_docs])
prompt = prompt_template.replace("{question}", query).replace("{context}", context)
return prompt
def get_docs_with_score(docs_with_score):
docs = []
for doc, score in docs_with_score:
doc.metadata["score"] = score
docs.append(doc)
return docs
def seperate_list(ls: List[int]) -> List[List[int]]:
lists = []
ls1 = [ls[0]]
for i in range(1, len(ls)):
if ls[i - 1] + 1 == ls[i]:
ls1.append(ls[i])
else:
lists.append(ls1)
ls1 = [ls[i]]
lists.append(ls1)
return lists
def similarity_search_with_score_by_vector(
self, embedding: List[float], k: int = 4,
) -> List[Tuple[Document, float]]:
scores, indices = self.index.search(np.array([embedding], dtype=np.float32), k)
docs = []
id_set = set()
store_len = len(self.index_to_docstore_id)
for j, i in enumerate(indices[0]):
if i == -1:
# This happens when not enough docs are returned.
continue
_id = self.index_to_docstore_id[i]
doc = self.docstore.search(_id)
id_set.add(i)
docs_len = len(doc.page_content)
for k in range(1, max(i, store_len-i)):
break_flag = False
for l in [i + k, i - k]:
if 0 <= l < len(self.index_to_docstore_id):
_id0 = self.index_to_docstore_id[l]
doc0 = self.docstore.search(_id0)
if docs_len + len(doc0.page_content) > self.chunk_size:
break_flag=True
break
elif doc0.metadata["source"] == doc.metadata["source"]:
docs_len += len(doc0.page_content)
id_set.add(l)
if break_flag:
break
id_list = sorted(list(id_set))
id_lists = seperate_list(id_list)
for id_seq in id_lists:
for id in id_seq:
if id == id_seq[0]:
_id = self.index_to_docstore_id[id]
doc = self.docstore.search(_id)
else:
_id0 = self.index_to_docstore_id[id]
doc0 = self.docstore.search(_id0)
doc.page_content += doc0.page_content
if not isinstance(doc, Document):
raise ValueError(f"Could not find document for id {_id}, got {doc}")
docs.append((doc, scores[0][j]))
torch_gc()
return docs
class LocalDocQA:
embeddings: object = None
top_k: int = VECTOR_SEARCH_TOP_K
chunk_size: int = CHUNK_SIZE
def init_cfg(self,
embedding_model: str = EMBEDDING_MODEL,
embedding_device='cpu',
top_k=VECTOR_SEARCH_TOP_K,
):
self.embeddings = HuggingFaceEmbeddings(model_name=embedding_model_dict[embedding_model])
# ,
# model_kwargs={'device': embedding_device})
self.top_k = top_k
def init_knowledge_vector_store(self,
filepath: str or List[str],
vs_path: str or os.PathLike = None):
loaded_files = []
if isinstance(filepath, str):
if not os.path.exists(filepath):
print("路径不存在")
return None
elif os.path.isfile(filepath):
file = os.path.split(filepath)[-1]
try:
docs = load_file(filepath)
print(f"{file} 已成功加载")
loaded_files.append(filepath)
except Exception as e:
print(e)
print(f"{file} 未能成功加载")
return None
elif os.path.isdir(filepath):
docs = []
for file in os.listdir(filepath):
fullfilepath = os.path.join(filepath, file)
try:
docs += load_file(fullfilepath)
print(f"{file} 已成功加载")
loaded_files.append(fullfilepath)
except Exception as e:
print(e)
print(f"{file} 未能成功加载")
else:
docs = []
for file in filepath:
try:
docs += load_file(file)
print(f"{file} 已成功加载")
loaded_files.append(file)
except Exception as e:
print(e)
print(f"{file} 未能成功加载")
if len(docs) > 0:
start=time.time()
if vs_path and os.path.isdir(vs_path):
vector_store = FAISS.load_local(vs_path, self.embeddings)
vector_store.add_documents(docs)
torch_gc()
else:
if not vs_path:
vs_path = os.path.join(VS_ROOT_PATH,
f"""{os.path.splitext(file)[0]}_FAISS_{datetime.datetime.now().strftime("%Y%m%d_%H%M%S")}""")
vector_store = FAISS.from_documents(docs, self.embeddings)
torch_gc()
vector_store.save_local(vs_path)
# 记录程序结束时间
end = time.time()
# 计算程序运行时间并输出结果
run_time = end - start
print("程序运行时间为:%.6f秒" % run_time)
return vs_path, loaded_files
else:
print("文件均未成功加载,请检查依赖包或替换为其他文件再次上传。")
return None, loaded_files
def get_knowledge_based_answer(self,
query,
vs_path,
chat_history=[],
streaming: bool = STREAMING):
vector_store = FAISS.load_local(vs_path, self.embeddings)
FAISS.similarity_search_with_score_by_vector = similarity_search_with_score_by_vector
vector_store.chunk_size = self.chunk_size
related_docs_with_score = vector_store.similarity_search_with_score(query,
k=self.top_k)
related_docs = get_docs_with_score(related_docs_with_score)
torch_gc()
return query,related_docs[0].page_content
# yield related_docs
# torch_gc()
# prompt = generate_prompt(related_docs, query)
# if streaming:
# for result, history in self.llm._stream_call(prompt=prompt,
# history=chat_history):
# history[-1][0] = query
# response = {"query": query,
# "result": result,
# "source_documents": related_docs}
# yield response, history
# else:
# for result, history in self.llm._call(prompt=prompt,
# history=chat_history,
# streaming=streaming):
# torch_gc()
# history[-1][0] = query
# response = {"query": query,
# "result": result,
# "source_documents": related_docs}
# yield response, history
# torch_gc()
if __name__ == "__main__":
local_doc_qa = LocalDocQA()
local_doc_qa.init_cfg(
embedding_model=EMBEDDING_MODEL,
embedding_device='cpu',
top_k=VECTOR_SEARCH_TOP_K)
# vs_path, _ = local_doc_qa.init_knowledge_vector_store('./MSD/disease_info.txt','docbase/MSD')
# print(vs_path)
# query = "患者的提问是关于胸腔积液的诊断方法,询问是否仅通过X光可以做出诊断。胸腔积液的全称是胸腔积液(pleural effusion)。"
query = "慢阻肺可以喝酒吗?"
last_print_len = 0
ret=local_doc_qa.get_knowledge_based_answer(query=query, vs_path='./docbase/MSD',
chat_history=[],
streaming=True)[0].page_content