import asyncio import datetime import http.client import json import os import traceback import openai import dotenv import requests from celery import Celery from celery.result import AsyncResult from flask import Flask, request, render_template, send_from_directory, jsonify, Response from langchain import FAISS from langchain import VectorDBQA, HuggingFaceHub, Cohere, OpenAI from langchain.chains import LLMChain, ConversationalRetrievalChain from langchain.chains.conversational_retrieval.prompts import CONDENSE_QUESTION_PROMPT from langchain.chains.question_answering import load_qa_chain from langchain.chat_models import ChatOpenAI from langchain.embeddings import OpenAIEmbeddings, HuggingFaceHubEmbeddings, CohereEmbeddings, \ HuggingFaceInstructEmbeddings from langchain.prompts import PromptTemplate from langchain.prompts.chat import ( ChatPromptTemplate, SystemMessagePromptTemplate, HumanMessagePromptTemplate, AIMessagePromptTemplate, ) from pymongo import MongoClient from werkzeug.utils import secure_filename from langchain.llms import GPT4All from core.settings import settings from error import bad_request from worker import ingest_worker # os.environ["LANGCHAIN_HANDLER"] = "langchain" if settings.LLM_NAME == "manifest": from manifest import Manifest from langchain.llms.manifest import ManifestWrapper manifest = Manifest( client_name="huggingface", client_connection="http://127.0.0.1:5000" ) # Redirect PosixPath to WindowsPath on Windows import platform if platform.system() == "Windows": import pathlib temp = pathlib.PosixPath pathlib.PosixPath = pathlib.WindowsPath # loading the .env file dotenv.load_dotenv() # load the prompts with open("prompts/combine_prompt.txt", "r") as f: template = f.read() with open("prompts/combine_prompt_hist.txt", "r") as f: template_hist = f.read() with open("prompts/question_prompt.txt", "r") as f: template_quest = f.read() with open("prompts/chat_combine_prompt.txt", "r") as f: chat_combine_template = f.read() with open("prompts/chat_reduce_prompt.txt", "r") as f: chat_reduce_template = f.read() if settings.API_KEY is not None: api_key_set = True else: api_key_set = False if settings.EMBEDDINGS_KEY is not None: embeddings_key_set = True else: embeddings_key_set = False app = Flask(__name__) app.config['UPLOAD_FOLDER'] = UPLOAD_FOLDER = "inputs" app.config['CELERY_BROKER_URL'] = settings.CELERY_BROKER_URL app.config['CELERY_RESULT_BACKEND'] = settings.CELERY_RESULT_BACKEND app.config['MONGO_URI'] = settings.MONGO_URI celery = Celery() celery.config_from_object('celeryconfig') mongo = MongoClient(app.config['MONGO_URI']) db = mongo["docsgpt"] vectors_collection = db["vectors"] async def async_generate(chain, question, chat_history): result = await chain.arun({"question": question, "chat_history": chat_history}) return result def run_async_chain(chain, question, chat_history): loop = asyncio.new_event_loop() asyncio.set_event_loop(loop) result = {} try: answer = loop.run_until_complete(async_generate(chain, question, chat_history)) finally: loop.close() result["answer"] = answer return result def get_vectorstore(data): if "active_docs" in data: if data["active_docs"].split("/")[0] == "local": if data["active_docs"].split("/")[1] == "default": vectorstore = "" else: vectorstore = "indexes/" + data["active_docs"] else: vectorstore = "vectors/" + data["active_docs"] if data['active_docs'] == "default": vectorstore = "" else: vectorstore = "" return vectorstore def get_docsearch(vectorstore, embeddings_key): if settings.EMBEDDINGS_NAME == "openai_text-embedding-ada-002": docsearch = FAISS.load_local(vectorstore, OpenAIEmbeddings(openai_api_key=embeddings_key)) elif settings.EMBEDDINGS_NAME == "huggingface_sentence-transformers/all-mpnet-base-v2": docsearch = FAISS.load_local(vectorstore, HuggingFaceHubEmbeddings()) elif settings.EMBEDDINGS_NAME == "huggingface_hkunlp/instructor-large": docsearch = FAISS.load_local(vectorstore, HuggingFaceInstructEmbeddings()) elif settings.EMBEDDINGS_NAME == "cohere_medium": docsearch = FAISS.load_local(vectorstore, CohereEmbeddings(cohere_api_key=embeddings_key)) return docsearch @celery.task(bind=True) def ingest(self, directory, formats, name_job, filename, user): resp = ingest_worker(self, directory, formats, name_job, filename, user) return resp @app.route("/") def home(): return render_template("index.html", api_key_set=api_key_set, llm_choice=settings.LLM_NAME, embeddings_choice=settings.EMBEDDINGS_NAME) def complete_stream(question, docsearch, chat_history, api_key): openai.api_key = api_key llm = ChatOpenAI(openai_api_key=api_key) docs = docsearch.similarity_search(question, k=2) # join all page_content together with a newline docs_together = "\n".join([doc.page_content for doc in docs]) p_chat_combine = chat_combine_template.replace("{summaries}", docs_together) messages_combine = [{"role": "system", "content": p_chat_combine}] if len(chat_history) > 1: tokens_current_history = 0 # count tokens in history chat_history.reverse() for i in chat_history: if "prompt" in i and "response" in i: tokens_batch = llm.get_num_tokens(i["prompt"]) + llm.get_num_tokens(i["response"]) if tokens_current_history + tokens_batch < settings.TOKENS_MAX_HISTORY: tokens_current_history += tokens_batch messages_combine.append({"role": "user", "content": i["prompt"]}) messages_combine.append({"role": "system", "content": i["response"]}) messages_combine.append({"role": "user", "content": question}) completion = openai.ChatCompletion.create(model="gpt-3.5-turbo", messages=messages_combine, stream=True, max_tokens=500, temperature=0) for line in completion: if 'content' in line['choices'][0]['delta']: # check if the delta contains content data = json.dumps({"answer": str(line['choices'][0]['delta']['content'])}) yield f"data: {data}\n\n" # send data.type = "end" to indicate that the stream has ended as json data = json.dumps({"type": "end"}) yield f"data: {data}\n\n" @app.route("/stream", methods=['POST', 'GET']) def stream(): # get parameter from url question question = request.args.get('question') history = request.args.get('history') # history to json object from string history = json.loads(history) # check if active_docs is set if not api_key_set: api_key = request.args.get("api_key") else: api_key = settings.API_KEY if not embeddings_key_set: embeddings_key = request.args.get("embeddings_key") else: embeddings_key = settings.EMBEDDINGS_KEY if "active_docs" in request.args: vectorstore = get_vectorstore({"active_docs": request.args.get("active_docs")}) else: vectorstore = "" docsearch = get_docsearch(vectorstore, embeddings_key) #question = "Hi" return Response(complete_stream(question, docsearch, chat_history= history, api_key=api_key), mimetype='text/event-stream') @app.route("/api/answer", methods=["POST"]) def api_answer(): data = request.get_json() question = data["question"] history = data["history"] print('-' * 5) if not api_key_set: api_key = data["api_key"] else: api_key = settings.API_KEY if not embeddings_key_set: embeddings_key = data["embeddings_key"] else: embeddings_key = settings.EMBEDDINGS_KEY # use try and except to check for exception try: # check if the vectorstore is set vectorstore = get_vectorstore(data) # loading the index and the store and the prompt template # Note if you have used other embeddings than OpenAI, you need to change the embeddings docsearch = get_docsearch(vectorstore, embeddings_key) q_prompt = PromptTemplate(input_variables=["context", "question"], template=template_quest, template_format="jinja2") if settings.LLM_NAME == "openai_chat": llm = ChatOpenAI(openai_api_key=api_key) # optional parameter: model_name="gpt-4" messages_combine = [SystemMessagePromptTemplate.from_template(chat_combine_template)] if history: tokens_current_history = 0 #count tokens in history history.reverse() for i in history: if "prompt" in i and "response" in i: tokens_batch = llm.get_num_tokens(i["prompt"]) + llm.get_num_tokens(i["response"]) if tokens_current_history + tokens_batch < settings.TOKENS_MAX_HISTORY: tokens_current_history += tokens_batch messages_combine.append(HumanMessagePromptTemplate.from_template(i["prompt"])) messages_combine.append(AIMessagePromptTemplate.from_template(i["response"])) messages_combine.append(HumanMessagePromptTemplate.from_template("{question}")) import sys print(messages_combine, file=sys.stderr) p_chat_combine = ChatPromptTemplate.from_messages(messages_combine) elif settings.LLM_NAME == "openai": llm = OpenAI(openai_api_key=api_key, temperature=0) elif settings.LLM_NAME == "manifest": llm = ManifestWrapper(client=manifest, llm_kwargs={"temperature": 0.001, "max_tokens": 2048}) elif settings.LLM_NAME == "huggingface": llm = HuggingFaceHub(repo_id="bigscience/bloom", huggingfacehub_api_token=api_key) elif settings.LLM_NAME == "cohere": llm = Cohere(model="command-xlarge-nightly", cohere_api_key=api_key) elif settings.LLM_NAME == "gpt4all": llm = GPT4All(model=settings.MODEL_PATH) else: raise ValueError("unknown LLM model") if settings.LLM_NAME == "openai_chat": question_generator = LLMChain(llm=llm, prompt=CONDENSE_QUESTION_PROMPT) doc_chain = load_qa_chain(llm, chain_type="map_reduce", combine_prompt=p_chat_combine) chain = ConversationalRetrievalChain( retriever=docsearch.as_retriever(k=2), question_generator=question_generator, combine_docs_chain=doc_chain, ) chat_history = [] # result = chain({"question": question, "chat_history": chat_history}) # generate async with async generate method result = run_async_chain(chain, question, chat_history) elif settings.LLM_NAME == "gpt4all": question_generator = LLMChain(llm=llm, prompt=CONDENSE_QUESTION_PROMPT) doc_chain = load_qa_chain(llm, chain_type="map_reduce", combine_prompt=p_chat_combine) chain = ConversationalRetrievalChain( retriever=docsearch.as_retriever(k=2), question_generator=question_generator, combine_docs_chain=doc_chain, ) chat_history = [] # result = chain({"question": question, "chat_history": chat_history}) # generate async with async generate method result = run_async_chain(chain, question, chat_history) else: qa_chain = load_qa_chain(llm=llm, chain_type="map_reduce", combine_prompt=chat_combine_template, question_prompt=q_prompt) chain = VectorDBQA(combine_documents_chain=qa_chain, vectorstore=docsearch, k=3) result = chain({"query": question}) print(result) # some formatting for the frontend if "result" in result: result['answer'] = result['result'] result['answer'] = result['answer'].replace("\\n", "\n") try: result['answer'] = result['answer'].split("SOURCES:")[0] except Exception: pass # mock result # result = { # "answer": "The answer is 42", # "sources": ["https://en.wikipedia.org/wiki/42_(number)", "https://en.wikipedia.org/wiki/42_(number)"] # } return result except Exception as e: # print whole traceback traceback.print_exc() print(str(e)) return bad_request(500, str(e)) @app.route("/api/docs_check", methods=["POST"]) def check_docs(): # check if docs exist in a vectorstore folder data = request.get_json() # split docs on / and take first part if data["docs"].split("/")[0] == "local": return {"status": 'exists'} vectorstore = "vectors/" + data["docs"] base_path = 'https://raw.githubusercontent.com/arc53/DocsHUB/main/' if os.path.exists(vectorstore) or data["docs"] == "default": return {"status": 'exists'} else: r = requests.get(base_path + vectorstore + "index.faiss") if r.status_code != 200: return {"status": 'null'} else: if not os.path.exists(vectorstore): os.makedirs(vectorstore) with open(vectorstore + "index.faiss", "wb") as f: f.write(r.content) # download the store r = requests.get(base_path + vectorstore + "index.pkl") with open(vectorstore + "index.pkl", "wb") as f: f.write(r.content) return {"status": 'loaded'} @app.route("/api/feedback", methods=["POST"]) def api_feedback(): data = request.get_json() question = data["question"] answer = data["answer"] feedback = data["feedback"] print('-' * 5) print("Question: " + question) print("Answer: " + answer) print("Feedback: " + feedback) print('-' * 5) response = requests.post( url="https://86x89umx77.execute-api.eu-west-2.amazonaws.com/docsgpt-feedback", headers={ "Content-Type": "application/json; charset=utf-8", }, data=json.dumps({ "answer": answer, "question": question, "feedback": feedback }) ) return {"status": http.client.responses.get(response.status_code, 'ok')} @app.route('/api/combine', methods=['GET']) def combined_json(): user = 'local' """Provide json file with combined available indexes.""" # get json from https://d3dg1063dc54p9.cloudfront.net/combined.json data = [{ "name": 'default', "language": 'default', "version": '', "description": 'default', "fullName": 'default', "date": 'default', "docLink": 'default', "model": settings.EMBEDDINGS_NAME, "location": "local" }] # structure: name, language, version, description, fullName, date, docLink # append data from vectors_collection for index in vectors_collection.find({'user': user}): data.append({ "name": index['name'], "language": index['language'], "version": '', "description": index['name'], "fullName": index['name'], "date": index['date'], "docLink": index['location'], "model": settings.EMBEDDINGS_NAME, "location": "local" }) data_remote = requests.get("https://d3dg1063dc54p9.cloudfront.net/combined.json").json() for index in data_remote: index['location'] = "remote" data.append(index) return jsonify(data) @app.route('/api/upload', methods=['POST']) def upload_file(): """Upload a file to get vectorized and indexed.""" if 'user' not in request.form: return {"status": 'no user'} user = secure_filename(request.form['user']) if 'name' not in request.form: return {"status": 'no name'} job_name = secure_filename(request.form['name']) # check if the post request has the file part if 'file' not in request.files: print('No file part') return {"status": 'no file'} file = request.files['file'] if file.filename == '': return {"status": 'no file name'} if file: filename = secure_filename(file.filename) # save dir save_dir = os.path.join(app.config['UPLOAD_FOLDER'], user, job_name) # create dir if not exists if not os.path.exists(save_dir): os.makedirs(save_dir) file.save(os.path.join(save_dir, filename)) task = ingest.delay('temp', [".rst", ".md", ".pdf", ".txt"], job_name, filename, user) # task id task_id = task.id return {"status": 'ok', "task_id": task_id} else: return {"status": 'error'} @app.route('/api/task_status', methods=['GET']) def task_status(): """Get celery job status.""" task_id = request.args.get('task_id') task = AsyncResult(task_id) task_meta = task.info return {"status": task.status, "result": task_meta} ### Backgound task api @app.route('/api/upload_index', methods=['POST']) def upload_index_files(): """Upload two files(index.faiss, index.pkl) to the user's folder.""" if 'user' not in request.form: return {"status": 'no user'} user = secure_filename(request.form['user']) if 'name' not in request.form: return {"status": 'no name'} job_name = secure_filename(request.form['name']) if 'file_faiss' not in request.files: print('No file part') return {"status": 'no file'} file_faiss = request.files['file_faiss'] if file_faiss.filename == '': return {"status": 'no file name'} if 'file_pkl' not in request.files: print('No file part') return {"status": 'no file'} file_pkl = request.files['file_pkl'] if file_pkl.filename == '': return {"status": 'no file name'} # saves index files save_dir = os.path.join('indexes', user, job_name) if not os.path.exists(save_dir): os.makedirs(save_dir) file_faiss.save(os.path.join(save_dir, 'index.faiss')) file_pkl.save(os.path.join(save_dir, 'index.pkl')) # create entry in vectors_collection vectors_collection.insert_one({ "user": user, "name": job_name, "language": job_name, "location": save_dir, "date": datetime.datetime.now().strftime("%d/%m/%Y %H:%M:%S"), "model": settings.EMBEDDINGS_NAME, "type": "local" }) return {"status": 'ok'} @app.route('/api/download', methods=['get']) def download_file(): user = secure_filename(request.args.get('user')) job_name = secure_filename(request.args.get('name')) filename = secure_filename(request.args.get('file')) save_dir = os.path.join(app.config['UPLOAD_FOLDER'], user, job_name) return send_from_directory(save_dir, filename, as_attachment=True) @app.route('/api/delete_old', methods=['get']) def delete_old(): """Delete old indexes.""" import shutil path = request.args.get('path') dirs = path.split('/') dirs_clean = [] for i in range(1, len(dirs)): dirs_clean.append(secure_filename(dirs[i])) # check that path strats with indexes or vectors if dirs[0] not in ['indexes', 'vectors']: return {"status": 'error'} path_clean = '/'.join(dirs) vectors_collection.delete_one({'location': path}) try: shutil.rmtree(path_clean) except FileNotFoundError: pass return {"status": 'ok'} # handling CORS @app.after_request def after_request(response): response.headers.add('Access-Control-Allow-Origin', '*') response.headers.add('Access-Control-Allow-Headers', 'Content-Type,Authorization') response.headers.add('Access-Control-Allow-Methods', 'GET,PUT,POST,DELETE,OPTIONS') response.headers.add('Access-Control-Allow-Credentials', 'true') return response if __name__ == "__main__": app.run(debug=True, port=5001)