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document-qa / document_qa_engine.py

lfoppiano

improve answer length with mistral, avoid changing model after selection

b2f5314 9 months ago

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	import copy
	import os
	from pathlib import Path
	from typing import Union, Any

	from grobid_client.grobid_client import GrobidClient
	from langchain.chains import create_extraction_chain
	from langchain.chains.question_answering import load_qa_chain
	from langchain.prompts import SystemMessagePromptTemplate, HumanMessagePromptTemplate, ChatPromptTemplate
	from langchain.retrievers import MultiQueryRetriever
	from langchain.text_splitter import RecursiveCharacterTextSplitter
	from langchain.vectorstores import Chroma
	from tqdm import tqdm

	from grobid_processors import GrobidProcessor


	class DocumentQAEngine:
	llm = None
	qa_chain_type = None
	embedding_function = None
	embeddings_dict = {}
	embeddings_map_from_md5 = {}
	embeddings_map_to_md5 = {}

	def __init__(self, llm, embedding_function, qa_chain_type="stuff", embeddings_root_path=None, grobid_url=None):
	self.embedding_function = embedding_function
	self.llm = llm
	self.chain = load_qa_chain(llm, chain_type=qa_chain_type)

	if embeddings_root_path is not None:
	self.embeddings_root_path = embeddings_root_path
	if not os.path.exists(embeddings_root_path):
	os.makedirs(embeddings_root_path)
	else:
	self.load_embeddings(self.embeddings_root_path)

	if grobid_url:
	self.grobid_url = grobid_url
	grobid_client = GrobidClient(
	grobid_server=self.grobid_url,
	batch_size=1000,
	coordinates=["p"],
	sleep_time=5,
	timeout=60,
	check_server=True
	)
	self.grobid_processor = GrobidProcessor(grobid_client)

	def load_embeddings(self, embeddings_root_path: Union[str, Path]) -> None:
	"""
	Load the embeddings assuming they are all persisted and stored in a single directory.
	The root path of the embeddings containing one data store for each document in each subdirectory
	"""

	embeddings_directories = [f for f in os.scandir(embeddings_root_path) if f.is_dir()]

	if len(embeddings_directories) == 0:
	print("No available embeddings")
	return

	for embedding_document_dir in embeddings_directories:
	self.embeddings_dict[embedding_document_dir.name] = Chroma(persist_directory=embedding_document_dir.path,
	embedding_function=self.embedding_function)

	filename_list = list(Path(embedding_document_dir).glob('*.storage_filename'))
	if filename_list:
	filenam = filename_list[0].name.replace(".storage_filename", "")
	self.embeddings_map_from_md5[embedding_document_dir.name] = filenam
	self.embeddings_map_to_md5[filenam] = embedding_document_dir.name

	print("Embedding loaded: ", len(self.embeddings_dict.keys()))

	def get_loaded_embeddings_ids(self):
	return list(self.embeddings_dict.keys())

	def get_md5_from_filename(self, filename):
	return self.embeddings_map_to_md5[filename]

	def get_filename_from_md5(self, md5):
	return self.embeddings_map_from_md5[md5]

	def query_document(self, query: str, doc_id, output_parser=None, context_size=4, extraction_schema=None,
	verbose=False) -> (
	Any, str):
	# self.load_embeddings(self.embeddings_root_path)

	if verbose:
	print(query)

	response = self._run_query(doc_id, query, context_size=context_size)
	response = response['output_text'] if 'output_text' in response else response

	if verbose:
	print(doc_id, "->", response)

	if output_parser:
	try:
	return self._parse_json(response, output_parser), response
	except Exception as oe:
	print("Failing to parse the response", oe)
	return None, response
	elif extraction_schema:
	try:
	chain = create_extraction_chain(extraction_schema, self.llm)
	parsed = chain.run(response)
	return parsed, response
	except Exception as oe:
	print("Failing to parse the response", oe)
	return None, response
	else:
	return None, response

	def query_storage(self, query: str, doc_id, context_size=4):
	documents = self._get_context(doc_id, query, context_size)

	context_as_text = [doc.page_content for doc in documents]
	return context_as_text

	def _parse_json(self, response, output_parser):
	system_message = "You are an useful assistant expert in materials science, physics, and chemistry " \
	"that can process text and transform it to JSON."
	human_message = """Transform the text between three double quotes in JSON.\n\n\n\n
	{format_instructions}\n\nText: \"\"\"{text}\"\"\""""

	system_message_prompt = SystemMessagePromptTemplate.from_template(system_message)
	human_message_prompt = HumanMessagePromptTemplate.from_template(human_message)

	prompt_template = ChatPromptTemplate.from_messages([system_message_prompt, human_message_prompt])

	results = self.llm(
	prompt_template.format_prompt(
	text=response,
	format_instructions=output_parser.get_format_instructions()
	).to_messages()
	)
	parsed_output = output_parser.parse(results.content)

	return parsed_output

	def _run_query(self, doc_id, query, context_size=4):
	relevant_documents = self._get_context(doc_id, query, context_size)
	return self.chain.run(input_documents=relevant_documents, question=query)
	# return self.chain({"input_documents": relevant_documents, "question": prompt_chat_template}, return_only_outputs=True)

	def _get_context(self, doc_id, query, context_size=4):
	db = self.embeddings_dict[doc_id]
	retriever = db.as_retriever(search_kwargs={"k": context_size})
	relevant_documents = retriever.get_relevant_documents(query)
	return relevant_documents

	def get_all_context_by_document(self, doc_id):
	db = self.embeddings_dict[doc_id]
	docs = db.get()
	return docs['documents']

	def _get_context_multiquery(self, doc_id, query, context_size=4):
	db = self.embeddings_dict[doc_id].as_retriever(search_kwargs={"k": context_size})
	multi_query_retriever = MultiQueryRetriever.from_llm(retriever=db, llm=self.llm)
	relevant_documents = multi_query_retriever.get_relevant_documents(query)
	return relevant_documents

	def get_text_from_document(self, pdf_file_path, chunk_size=-1, perc_overlap=0.1, verbose=False):
	if verbose:
	print("File", pdf_file_path)
	filename = Path(pdf_file_path).stem
	structure = self.grobid_processor.process_structure(pdf_file_path)

	biblio = structure['biblio']
	biblio['filename'] = filename.replace(" ", "_")

	if verbose:
	print("Generating embeddings for:", hash, ", filename: ", filename)

	texts = []
	metadatas = []
	ids = []
	if chunk_size < 0:
	for passage in structure['passages']:
	biblio_copy = copy.copy(biblio)
	if len(str.strip(passage['text'])) > 0:
	texts.append(passage['text'])

	biblio_copy['type'] = passage['type']
	biblio_copy['section'] = passage['section']
	biblio_copy['subSection'] = passage['subSection']
	metadatas.append(biblio_copy)

	ids.append(passage['passage_id'])
	else:
	document_text = " ".join([passage['text'] for passage in structure['passages']])
	# text_splitter = CharacterTextSplitter.from_tiktoken_encoder(
	text_splitter = RecursiveCharacterTextSplitter.from_tiktoken_encoder(
	chunk_size=chunk_size,
	chunk_overlap=chunk_size * perc_overlap
	)
	texts = text_splitter.split_text(document_text)
	metadatas = [biblio for _ in range(len(texts))]
	ids = [id for id, t in enumerate(texts)]

	return texts, metadatas, ids

	def create_memory_embeddings(self, pdf_path, doc_id=None, chunk_size=500, perc_overlap=0.1):
	texts, metadata, ids = self.get_text_from_document(pdf_path, chunk_size=chunk_size, perc_overlap=perc_overlap)
	if doc_id:
	hash = doc_id
	else:
	hash = metadata[0]['hash']

	self.embeddings_dict[hash] = Chroma.from_texts(texts, embedding=self.embedding_function, metadatas=metadata)
	self.embeddings_root_path = None

	return hash

	def create_embeddings(self, pdfs_dir_path: Path):
	input_files = []
	for root, dirs, files in os.walk(pdfs_dir_path, followlinks=False):
	for file_ in files:
	if not (file_.lower().endswith(".pdf")):
	continue
	input_files.append(os.path.join(root, file_))

	for input_file in tqdm(input_files, total=len(input_files), unit='document',
	desc="Grobid + embeddings processing"):

	md5 = self.calculate_md5(input_file)
	data_path = os.path.join(self.embeddings_root_path, md5)

	if os.path.exists(data_path):
	print(data_path, "exists. Skipping it ")
	continue

	texts, metadata, ids = self.get_text_from_document(input_file, chunk_size=500, perc_overlap=0.1)
	filename = metadata[0]['filename']

	vector_db_document = Chroma.from_texts(texts,
	metadatas=metadata,
	embedding=self.embedding_function,
	persist_directory=data_path)
	vector_db_document.persist()

	with open(os.path.join(data_path, filename + ".storage_filename"), 'w') as fo:
	fo.write("")

	@staticmethod
	def calculate_md5(input_file: Union[Path, str]):
	import hashlib
	md5_hash = hashlib.md5()
	with open(input_file, 'rb') as fi:
	md5_hash.update(fi.read())
	return md5_hash.hexdigest().upper()