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Test_TutorAI_We

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Chia Woon Yap

Update app.py

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	# -- coding: utf-8 --
	"""App

	Automatically generated by Colab.

	Original file is located at
	https://colab.research.google.com/drive/1TdjbTSA8V5GUProQ3Bd-uYmTLXSInoWf
	"""

	import gradio as gr
	import numpy as np
	from transformers import pipeline
	import os
	import time
	import groq
	import uuid # For generating unique filenames

	# Updated imports to address LangChain deprecation warnings:
	from langchain_groq import ChatGroq
	from langchain.schema import HumanMessage
	from langchain.text_splitter import RecursiveCharacterTextSplitter
	from langchain_community.vectorstores import Chroma
	from langchain_community.embeddings import HuggingFaceEmbeddings
	from langchain.docstore.document import Document

	# Importing chardet (make sure to add chardet to your requirements.txt)
	import chardet

	import fitz # PyMuPDF for PDFs
	import docx # python-docx for Word files
	import gtts # Google Text-to-Speech library
	from pptx import Presentation # python-pptx for PowerPoint files
	import re

	# Initialize Whisper model for speech-to-text
	transcriber = pipeline("automatic-speech-recognition", model="openai/whisper-base.en")

	# Set API Key (Ensure it's stored securely in an environment variable)
	groq.api_key = os.getenv("GROQ_API_KEY") # Replace with a valid API key

	# Initialize Chat Model
	chat_model = ChatGroq(model_name="llama-3.1-8b-instant", api_key=groq.api_key) #llama-3.3-70b-versatile

	# Initialize Embeddings and chromaDB
	embedding_model = HuggingFaceEmbeddings()
	vectorstore = Chroma(embedding_function=embedding_model)

	# Short-term memory for the LLM
	chat_memory = []

	# Prompt for quiz generation with added remark
	quiz_prompt = """
	You are an AI assistant specialized in education and assessment creation. Given an uploaded document or text, generate a quiz with a mix of multiple-choice questions (MCQs) and fill-in-the-blank questions. The quiz should be directly based on the key concepts, facts, and details from the provided material.
	Remove all unnecessary formatting generated by the LLM, including <think> tags, asterisks, markdown formatting, and any bold or italic text, as well as **, ###, ##, and # tags.
	For each question:
	- Provide 4 answer choices (for MCQs), with only one correct answer.
	- Ensure fill-in-the-blank questions focus on key terms, phrases, or concepts from the document.
	- Include an answer key for all questions.
	- Ensure questions vary in difficulty and encourage comprehension rather than memorization.
	- Additionally, implement an instant feedback mechanism:
	- When a user selects an answer, indicate whether it is correct or incorrect.
	- If incorrect, provide a brief explanation from the document to guide learning.
	- Ensure responses are concise and educational to enhance understanding.
	Output Example:
	1. Fill in the blank: The LLM Agent framework has a central decision-making unit called the _______________________.
	Answer: Agent Core
	Feedback: The Agent Core is the central component of the LLM Agent framework, responsible for managing goals, tool instructions, planning modules, memory integration, and agent persona.
	2. What is the main limitation of LLM-based applications?
	a) Limited token capacity
	b) Lack of domain expertise
	c) Prone to hallucination
	d) All of the above
	Answer: d) All of the above
	Feedback: LLM-based applications have several limitations, including limited token capacity, lack of domain expertise, and being prone to hallucination, among others.
	"""

	# Function to clean AI response by removing unwanted formatting
	def clean_response(response):
	"""Removes <think> tags, asterisks, and markdown formatting."""
	cleaned_text = re.sub(r"<think>.*?</think>", "", response, flags=re.DOTALL)
	cleaned_text = re.sub(r"(\\\|\*)", "", cleaned_text)
	cleaned_text = re.sub(r"^#+\s*", "", cleaned_text, flags=re.MULTILINE)
	cleaned_text = re.sub(r"\\", "", cleaned_text)
	return cleaned_text.strip()

	# Function to generate quiz based on content
	def generate_quiz(content):
	prompt = f"{quiz_prompt}\n\nDocument content:\n{content}"
	response = chat_model([HumanMessage(content=prompt)])
	cleaned_response = clean_response(response.content)
	return cleaned_response

	# Function to retrieve relevant documents from vectorstore based on user query
	def retrieve_documents(query):
	results = vectorstore.similarity_search(query, k=3)
	return [doc.page_content for doc in results]

	# Function to handle chatbot interactions with short-term memory
	def chat_with_groq(user_input):
	try:
	# Retrieve relevant documents for additional context
	relevant_docs = retrieve_documents(user_input)
	context = "\n".join(relevant_docs) if relevant_docs else "No relevant documents found."

	# Construct proper prompting with conversation history
	system_prompt = "You are a helpful AI assistant. Answer questions accurately and concisely."
	conversation_history = "\n".join(chat_memory[-10:]) # Keep the last 10 exchanges
	prompt = f"{system_prompt}\n\nConversation History:\n{conversation_history}\n\nUser Input: {user_input}\n\nContext:\n{context}"

	# Call the chat model
	response = chat_model([HumanMessage(content=prompt)])

	# Clean response to remove any unwanted formatting
	cleaned_response_text = clean_response(response.content)

	# Append conversation history
	chat_memory.append(f"User: {user_input}")
	chat_memory.append(f"AI: {cleaned_response_text}")

	# Convert response to speech
	audio_file = speech_playback(cleaned_response_text)

	return cleaned_response_text, audio_file
	except Exception as e:
	return f"Error: {str(e)}", None

	# Function to play response as speech using gTTS
	def speech_playback(text):
	try:
	# Generate a unique filename for each audio file
	unique_id = str(uuid.uuid4())
	audio_file = f"output_audio_{unique_id}.mp3"

	# Convert text to speech
	tts = gtts.gTTS(text, lang='en')
	tts.save(audio_file)

	# Return the path to the audio file
	return audio_file
	except Exception as e:
	print(f"Error in speech_playback: {e}")
	return None

	# Function to detect encoding safely
	def detect_encoding(file_path):
	try:
	with open(file_path, "rb") as f:
	raw_data = f.read(4096)
	detected = chardet.detect(raw_data)
	encoding = detected["encoding"]
	return encoding if encoding else "utf-8"
	except Exception:
	return "utf-8"

	# Function to extract text from PDF
	def extract_text_from_pdf(pdf_path):
	try:
	doc = fitz.open(pdf_path)
	text = "\n".join([page.get_text("text") for page in doc])
	return text if text.strip() else "No extractable text found."
	except Exception as e:
	return f"Error extracting text from PDF: {str(e)}"

	# Function to extract text from Word files (.docx)
	def extract_text_from_docx(docx_path):
	try:
	doc = docx.Document(docx_path)
	text = "\n".join([para.text for para in doc.paragraphs])
	return text if text.strip() else "No extractable text found."
	except Exception as e:
	return f"Error extracting text from Word document: {str(e)}"

	# Function to extract text from PowerPoint files (.pptx)
	def extract_text_from_pptx(pptx_path):
	try:
	presentation = Presentation(pptx_path)
	text = ""
	for slide in presentation.slides:
	for shape in slide.shapes:
	if hasattr(shape, "text"):
	text += shape.text + "\n"
	return text if text.strip() else "No extractable text found."
	except Exception as e:
	return f"Error extracting text from PowerPoint: {str(e)}"

	# Function to process documents safely
	#def process_document(file):
	# try:
	# file_extension = os.path.splitext(file.name)[-1].lower()
	# if file_extension in [".png", ".jpg", ".jpeg"]:
	# return "Error: Images cannot be processed for text extraction."
	# if file_extension == ".pdf":
	# content = extract_text_from_pdf(file.name)
	# elif file_extension == ".docx":
	# content = extract_text_from_docx(file.name)
	# elif file_extension == ".pptx":
	# content = extract_text_from_pptx(file.name)
	# else:
	# encoding = detect_encoding(file.name)
	# with open(file.name, "r", encoding=encoding, errors="replace") as f:
	# content = f.read()
	# text_splitter = RecursiveCharacterTextSplitter(chunk_size=500, chunk_overlap=50)
	# documents = [Document(page_content=chunk) for chunk in text_splitter.split_text(content)]
	# vectorstore.add_documents(documents)
	# quiz = generate_quiz(content)
	# return f"Document processed successfully (File Type: {file_extension}). Quiz generated:\n{quiz}"
	# except Exception as e:
	# return f"Error processing document: {str(e)}"

	def process_document(file):
	try:
	if not file or not hasattr(file, "name") or not isinstance(file.name, str):
	return "Error: Invalid file uploaded."

	file_extension = os.path.splitext(file.name)[-1].lower()

	if file_extension in [".png", ".jpg", ".jpeg"]:
	return "Error: Images cannot be processed for text extraction."

	if file_extension == ".pdf":
	content = extract_text_from_pdf(file.name)
	elif file_extension == ".docx":
	content = extract_text_from_docx(file.name)
	elif file_extension == ".pptx":
	content = extract_text_from_pptx(file.name)
	else:
	encoding = detect_encoding(file.name)
	with open(file.name, "r", encoding=encoding, errors="replace") as f:
	content = f.read()

	text_splitter = RecursiveCharacterTextSplitter(chunk_size=500, chunk_overlap=50)
	documents = [Document(page_content=chunk) for chunk in text_splitter.split_text(content)]
	vectorstore.add_documents(documents)
	quiz = generate_quiz(content)
	return f"Document processed successfully (File Type: {file_extension}). Quiz generated:\n{quiz}"

	except Exception as e:
	return f"Error processing document: {str(e)}"



	# Function to handle speech-to-text conversion
	def transcribe_audio(audio):
	sr, y = audio
	if y.ndim > 1:
	y = y.mean(axis=1)
	y = y.astype(np.float32)
	y /= np.max(np.abs(y))
	return transcriber({"sampling_rate": sr, "raw": y})["text"]

	# Your cleanup function
	def cleanup_old_files(directory=".", age_limit=60):
	"""Delete files older than `age_limit` seconds."""
	current_time = time.time()
	for filename in os.listdir(directory):
	file_path = os.path.join(directory, filename)
	if os.path.isfile(file_path) and filename.startswith("output_audio_"):
	file_age = current_time - os.path.getmtime(file_path)
	if file_age > age_limit:
	os.remove(file_path)


	# Gradio UI with Video Clip
	with gr.Blocks() as demo:
	gr.HTML("<h2 style='text-align: center;'>AI Tutor - We.</h2>")

	# Align image and video side by side
	with gr.Row():
	with gr.Column(scale=1): # Adjust scale to control width ratio
	gr.HTML("""
	<div style="text-align: center; margin-bottom: 20px;">
	<img src="https://img.freepik.com/premium-photo/little-girl-is-seen-sitting-front-laptop-computer-engaged-with-nearby-robot-robot-assistant-helping-child-with-homework-ai-generated_585735-12266.jpg"
	style="width: 100%; height: auto; border-radius: 10px; box-shadow: 0 4px 8px rgba(0,0,0,0.2);" />
	</div>
	""")

	#with gr.Column(scale=1): # Adjust scale for equal width
	gr.Video("https://github.com/lesterchia1/AI_tutor/raw/main/We%20not%20me%20video.mp4", label="Introduction Video")


	# Add other UI elements below
	with gr.Row():
	with gr.Column():
	audio_input = gr.Audio(type="numpy", label="Record Audio")
	transcription_output = gr.Textbox(label="Transcription")
	user_input = gr.Textbox(label="Ask a question")
	chat_output = gr.Textbox(label="Response")
	audio_output = gr.Audio(label="Audio Playback")
	submit_btn = gr.Button("Ask")
	with gr.Column():
	file_upload = gr.File(label="Upload a document")
	process_status = gr.Textbox(label="Processing Status")

	# Define button actions
	submit_btn.click(chat_with_groq, inputs=user_input, outputs=[chat_output, audio_output])
	audio_input.change(transcribe_audio, inputs=audio_input, outputs=transcription_output)
	transcription_output.change(fn=lambda x: x, inputs=transcription_output, outputs=user_input)
	file_upload.change(process_document, inputs=file_upload, outputs=process_status)

	# Add cleanup function to be triggered periodically (e.g., every time a button is clicked or after certain actions)
	#demo.load(lambda: cleanup_old_files(directory="./", age_limit=60), inputs=[], outputs=[])
	demo.load(lambda: [], inputs=[], outputs=[])


	demo.launch()