# Import the necessary Libraries from warnings import filterwarnings filterwarnings('ignore') import os import uuid import json import gradio as gr import pandas as pd from huggingface_hub import CommitScheduler from pathlib import Path from langchain.embeddings import SentenceTransformerEmbeddings from langchain.vectorstores import Chroma from langchain.llms import OpenAI # Create Client import os os.environ['OPENAI_API_KEY'] = "gl-U2FsdGVkX1+0bNWD6YsVLZUYsn0m1WfLxUzrP0xUFbtWFAfk9Z1Cz+mD8u1yqKtV"; # e.g. gl-U2FsdGVkX19oG1mRO+LGAiNeC7nAeU8M65G4I6bfcdI7+9GUEjFFbplKq48J83by os.environ["OPENAI_BASE_URL"] = "https://aibe.mygreatlearning.com/openai/v1" # e.g. "https://aibe.mygreatlearning.com/openai/v1"; llm_client = OpenAI() # Define the embedding model and the vectorstore embedding_model = SentenceTransformerEmbeddings(model_name='thenlper/gte-large') vectorstore_persisted = Chroma( collection_name='10k_reports', persist_directory='10k_reports_db', embedding_function=embedding_model ) # Load the persisted vectorDB vectorstore_persisted.load() # ## # # Prepare the logging functionality log_file = Path("logs/") / f"data_{uuid.uuid4()}.json" log_folder = log_file.parent scheduler = CommitScheduler( repo_id="eric-green-rag-financial-analyst", repo_type="dataset", folder_path=log_folder, path_in_repo="data", every=2 ) # Define the Q&A system message # Create a system message for the LLM qna_system_message = """ You are an assistant to a tech industry financial analyst. Your task is to provide relevant information about a set of companies AWS, Google, IBM, Meta, Microsoft. User input will include the necessary context for you to answer their questions. This context will begin with the token: ###Context. The context contains references to specific portions of documents relevant to the user's query, along with source links. The source for a context will begin with the token ###Source. When crafting your response: 1. Select only context relevant to answer the question. 2. Include the source links in your response. 3. User questions will begin with the token: ###Question. 4. If the question is irrelevant to financial report information for the 5 companies, respond with "I am unable to locate relevent information. I answer questions related to the financial performance of AWS, Google, IBM, Meta and Microsoft." Please adhere to the following guidelines: - Your response should only be about the question asked and nothing else. - Answer only using the context provided. - Do not mention anything about the context in your final answer. - If the answer is not found in the context, it is very very important for you to respond with "I am unable to locate a relevent answer." - Always quote the source when you use the context. Cite the relevant source at the end of your response under the section - Source: - Do not make up sources. Use the links provided in the sources section of the context and nothing else. You are prohibited from providing other links/sources. Here is an example of how to structure your response: Answer: [Answer] Source: [Source] """ # Define the user message template # Create a message template qna_user_message_template = """ ###Context {context} ###Question {question} """ # Define the llm_query function that runs when 'Submit' is clicked or when a API request is made def llm_query(user_input,company): filter = "dataset/"+company+"-10-k-2023.pdf" relevant_document_chunks = vectorstore_persisted.similarity_search(user_input, k=5, filter={"source":filter}) # 1 - Create context_for_query context_list = [d.page_content + "\n ###Source: " + str(d.metadata['page']) + "\n\n " for d in relevant_document_chunks] context_for_query = ". ".join(context_list) # 2 - Create messages prompt = [ {'role':'system', 'content': qna_system_message}, {'role': 'user', 'content': qna_user_message_template.format( context=context_for_query, question=user_input ) } ] # Get response from the LLM try: response = llm_client.chat.completions.create( model=model_name, messages=prompt, temperature=0 ) prediction = response.choices[0].message.content.strip() except Exception as e: prediction = f'Sorry, I encountered the following error: \n {e}' print(prediction) # While the prediction is made, log both the inputs and outputs to a local log file # While writing to the log file, ensure that the commit scheduler is locked to avoid parallel # access with scheduler.lock: with log_file.open("a") as f: f.write(json.dumps( { 'user_input': user_input, 'retrieved_context': context_for_query, 'model_response': prediction } )) f.write("\n") return prediction # Set-up the Gradio UI company = gr.Radio(Label='Company:', choices=["aws", "google", "ibm", "meta", "microsoft"]) # Create a radio button for company selection textbox = gr.Textbox(Label='Question:') # Create a textbox for user input # Create Gradio interface # For the inputs parameter of Interface provide [textbox,company] with outputs parameter of Interface provide prediction demo = gr.Interface(fn=llm_query, inputs=[textbox, company], outputs="text") demo.queue() demo.launch()