import os from typing import Optional, Tuple import gradio as gr import pandas as pd from buster.completers import Completion # from embed_docs import embed_rtd_website # from rtd_scraper.scrape_rtd import scrape_rtd from embed_docs import embed_documents import cfg from cfg import setup_buster # Typehint for chatbot history ChatHistory = list[list[Optional[str], Optional[str]]] # Because this is a one-click deploy app, we will be relying on env. variables being set openai_api_key = os.getenv("OPENAI_API_KEY") # Mandatory for app to work readthedocs_url = os.getenv("READTHEDOCS_URL") # Mandatory for app to work as intended readthedocs_version = os.getenv("READTHEDOCS_VERSION") if openai_api_key is None: print( "Warning: No OPENAI_API_KEY detected. Set it with 'export OPENAI_API_KEY=sk-...'." ) if readthedocs_url is None: raise ValueError( "No READTHEDOCS_URL detected. Set it with e.g. 'export READTHEDOCS_URL=https://orion.readthedocs.io/'" ) if readthedocs_version is None: print( """ Warning: No READTHEDOCS_VERSION detected. If multiple versions of the docs exist, they will all be scraped. Set it with e.g. 'export READTHEDOCS_VERSION=en/stable' """ ) # Override to put it anywhere save_directory = "outputs/" # scrape and embed content from readthedocs website embed_documents( homepage_url=readthedocs_url, save_directory=save_directory, target_version=readthedocs_version, ) # Setup RAG agent buster = setup_buster(cfg.buster_cfg) # Setup Gradio app def add_user_question( user_question: str, chat_history: Optional[ChatHistory] = None ) -> ChatHistory: """Adds a user's question to the chat history. If no history is provided, the first element of the history will be the user conversation. """ if chat_history is None: chat_history = [] chat_history.append([user_question, None]) return chat_history def format_sources(matched_documents: pd.DataFrame) -> str: if len(matched_documents) == 0: return "" matched_documents.similarity_to_answer = ( matched_documents.similarity_to_answer * 100 ) # drop duplicate pages (by title), keep highest ranking ones matched_documents = matched_documents.sort_values( "similarity_to_answer", ascending=False ).drop_duplicates("title", keep="first") documents_answer_template: str = "📝 Here are the sources I used to answer your question:\n\n{documents}\n\n{footnote}" document_template: str = "[🔗 {document.title}]({document.url}), relevance: {document.similarity_to_answer:2.1f} %" documents = "\n".join( [ document_template.format(document=document) for _, document in matched_documents.iterrows() ] ) footnote: str = "I'm a bot 🤖 and not always perfect." return documents_answer_template.format(documents=documents, footnote=footnote) def add_sources(history, completion): if completion.answer_relevant: formatted_sources = format_sources(completion.matched_documents) history.append([None, formatted_sources]) return history def chat(chat_history: ChatHistory) -> Tuple[ChatHistory, Completion]: """Answer a user's question using retrieval augmented generation.""" # We assume that the question is the user's last interaction user_input = chat_history[-1][0] # Do retrieval + augmented generation with buster completion = buster.process_input(user_input) # Stream tokens one at a time to the user chat_history[-1][1] = "" for token in completion.answer_generator: chat_history[-1][1] += token yield chat_history, completion demo = gr.Blocks() with demo: with gr.Row(): gr.Markdown("