import gradio as gr
from sentence_transformers import SentenceTransformer
import chromadb
import pandas as pd
import os
import csv
import json
from pathlib import Path
from llama_index.llms.anyscale import Anyscale

# Load the sentence transformer model for embedding text
model = SentenceTransformer('all-MiniLM-L6-v2')

# Initialize the ChromaDB client for managing the vector database
chroma_client = chromadb.Client()

# Function to build the vector database from a CSV file
def build_database():
    # Read the CSV file containing document data
    df = pd.read_csv('vector_store.csv')
    
    # Name of the collection to store the data
    collection_name = 'Dataset-10k-companies'
    
    # Uncomment the line below to delete the existing collection if needed
    # chroma_client.delete_collection(name=collection_name)
    
    # Create a new collection in ChromaDB
    collection = chroma_client.create_collection(name=collection_name)
    
    # Add data from the DataFrame to the collection
    collection.add(
        documents=df['documents'].tolist(),
        ids=df['ids'].tolist(),
        metadatas=df['metadatas'].apply(eval).tolist(),
        embeddings=df['embeddings'].apply(lambda x: eval(x.replace(',,', ','))).tolist()
    )
    
    return collection

# Build the database when the app starts
collection = build_database()

# Access the Anyscale API key from environment variables
anyscale_api_key = os.environ.get('anyscale_api_key')

# Instantiate the Anyscale client for using the Llama language model
client = Anyscale(api_key=anyscale_api_key, model="meta-llama/Llama-2-70b-chat-hf")

# Function to get relevant chunks from the database based on the query
def get_relevant_chunks(query, collection, top_n=3):
    # Encode the query into an embedding
    query_embedding = model.encode(query).tolist()
    
    # Query the collection to get the top_n most relevant results
    results = collection.query(query_embeddings=[query_embedding], n_results=top_n)
    
    relevant_chunks = []
    # Extract relevant chunks and their metadata
    for i in range(len(results['documents'][0])):
        chunk = results['documents'][0][i]
        source = results['metadatas'][0][i]['source']
        page = results['metadatas'][0][i]['page']
        relevant_chunks.append((chunk, source, page))
    
    return relevant_chunks

# System message template for the LLM to provide structured responses
qna_system_message = """
You are an assistant to Finsights analysts. Your task is to provide relevant information about the financial performance of the companies followed by Finsights.

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 the 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 Finsights, respond with: "I am an assistant for Finsight Docs. I can only help you with questions related to Finsights."

Adhere to the following guidelines:
- Your response should only address 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, respond with: "I don't know."
- 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 only the links provided in the sources section of the context. You are prohibited from providing other links/sources.

Here is an example of how to structure your response:

Answer:
[Answer]

Source:
[Source]
"""

# User message template for passing context and question to the LLM
qna_user_message_template = """
###Context
Here are some documents and their source links that are relevant to the question mentioned below.
{context}

###Question
{question}
"""

# Function to get a response from the LLM with retries
def get_llm_response(prompt, max_attempts=3):
    full_response = ""
    for attempt in range(max_attempts):
        try:
            # Generate a response from the LLM
            response = client.complete(prompt, max_tokens=1000)  # Increase max_tokens if possible
            chunk = response.text.strip()
            full_response += chunk
            if chunk.endswith((".", "!", "?")):  # Check if the response seems complete
                break
            else:
                # Continue the prompt from where it left off
                prompt = "Please continue from where you left off:\n" + chunk[-100:]  # Use the last 100 chars as context
        except Exception as e:
            print(f"Attempt {attempt + 1} failed with error: {e}")
    return full_response

# Prediction function to handle user queries
def predict(company, user_query):
    try:
        # Modify the query to include the company name
        modified_query = f"{user_query} for {company}"
        
        # Get relevant chunks from the database
        relevant_chunks = get_relevant_chunks(modified_query, collection)
        
        # Prepare the context string from the relevant chunks
        context = ""
        for chunk, source, page in relevant_chunks:
            context += chunk + "\n"
            context += f"###Source {source}, Page {page}\n"

        # Prepare the user message with context and question
        user_message = qna_user_message_template.format(context=context, question=user_query)

        # Craft the prompt for the Llama model
        prompt = f"{qna_system_message}\n\n{qna_user_message_template.format(context=context, question=user_query)}"

        # Generate the response using the Llama model through Anyscale
        answer = get_llm_response(prompt)

        # Log the interaction for future reference
        log_interaction(company, user_query, context, answer)
        
        return answer
    except Exception as e:
        return f"An error occurred: {str(e)}"

# Function to log interactions in a JSON lines file
def log_interaction(company, user_query, context, answer):
    log_file = Path("interaction_log.jsonl")
    with log_file.open("a") as f:
        json.dump({
            'company': company,
            'user_query': user_query,
            'context': context,
            'answer': answer
        }, f)
        f.write("\n")

# Create Gradio interface for user interaction
company_list = ["MSFT", "AWS", "Meta", "Google", "IBM"]
iface = gr.Interface(
    fn=predict,
    inputs=[
        gr.Radio(company_list, label="Select Company"),
        gr.Textbox(lines=2, placeholder="Enter your query here...", label="User Query")
    ],
    outputs=gr.Textbox(label="Generated Answer"),
    title="Company Reports Q&A",
    description="Query the vector database and get an LLM response based on the documents in the collection."
)

# Launch the Gradio interface
iface.launch()