Spaces:

Dannyar608
/

Final_project

Running

App Files Files Community

Final_project / app.py

Dannyar608

Update app.py

db322cc verified 8 days ago

raw

history blame

68.5 kB

	import gradio as gr
	import pandas as pd
	import json
	import os
	import re
	from PyPDF2 import PdfReader
	from collections import defaultdict
	from typing import Dict, List, Optional, Tuple, Union
	import html
	from pathlib import Path
	import fitz # PyMuPDF for better PDF text extraction
	import pytesseract
	from PIL import Image
	import io
	import secrets
	import string
	from huggingface_hub import HfApi, HfFolder
	import torch
	from transformers import AutoTokenizer, AutoModelForCausalLM
	import time

	# ========== CONFIGURATION ==========
	PROFILES_DIR = "student_profiles"
	ALLOWED_FILE_TYPES = [".pdf", ".png", ".jpg", ".jpeg"]
	MAX_FILE_SIZE_MB = 5
	MIN_AGE = 5
	MAX_AGE = 120
	SESSION_TOKEN_LENGTH = 32
	HF_TOKEN = os.getenv("HF_TOKEN")

	# Model configuration
	MODEL_CHOICES = {
	"TinyLlama (Fastest)": "TinyLlama/TinyLlama-1.1B-Chat-v1.0",
	"Phi-2 (Balanced)": "microsoft/phi-2",
	"DeepSeek-V3 (Most Powerful)": "deepseek-ai/DeepSeek-V3"
	}
	DEFAULT_MODEL = "TinyLlama (Fastest)"

	# Initialize Hugging Face API
	if HF_TOKEN:
	hf_api = HfApi(token=HF_TOKEN)
	HfFolder.save_token(HF_TOKEN)

	# ========== OPTIMIZED MODEL LOADING ==========
	class ModelLoader:
	def __init__(self):
	self.model = None
	self.tokenizer = None
	self.loaded = False
	self.loading = False
	self.error = None
	self.current_model = None

	def load_model(self, model_name, progress=gr.Progress()):
	"""Lazy load the model with progress feedback"""
	if self.loaded and self.current_model == model_name:
	return self.model, self.tokenizer

	self.loading = True
	self.error = None
	try:
	progress(0, desc=f"Loading {model_name}...")

	# Clear previous model if any
	if self.model:
	del self.model
	del self.tokenizer
	torch.cuda.empty_cache()

	# Load tokenizer first
	self.tokenizer = AutoTokenizer.from_pretrained(
	MODEL_CHOICES[model_name],
	trust_remote_code=True
	)
	progress(0.3, desc="Loaded tokenizer...")

	# Load model with appropriate settings
	self.model = AutoModelForCausalLM.from_pretrained(
	MODEL_CHOICES[model_name],
	trust_remote_code=True,
	torch_dtype=torch.float16,
	device_map="auto" if torch.cuda.is_available() else None,
	low_cpu_mem_usage=True
	)

	progress(0.9, desc="Finalizing...")
	self.loaded = True
	self.current_model = model_name
	return self.model, self.tokenizer

	except Exception as e:
	self.error = str(e)
	print(f"Error loading model: {self.error}")
	return None, None
	finally:
	self.loading = False

	# Initialize model loader
	model_loader = ModelLoader()

	# ========== UTILITY FUNCTIONS ==========
	def generate_session_token() -> str:
	"""Generate a random session token for user identification."""
	alphabet = string.ascii_letters + string.digits
	return ''.join(secrets.choice(alphabet) for _ in range(SESSION_TOKEN_LENGTH))

	def sanitize_input(text: str) -> str:
	"""Sanitize user input to prevent XSS and injection attacks."""
	return html.escape(text.strip())

	def validate_name(name: str) -> str:
	"""Validate name input."""
	name = name.strip()
	if not name:
	raise gr.Error("Name cannot be empty")
	if len(name) > 100:
	raise gr.Error("Name is too long (max 100 characters)")
	if any(c.isdigit() for c in name):
	raise gr.Error("Name cannot contain numbers")
	return name

	def validate_age(age: Union[int, float, str]) -> int:
	"""Validate and convert age input."""
	try:
	age_int = int(age)
	if not MIN_AGE <= age_int <= MAX_AGE:
	raise gr.Error(f"Age must be between {MIN_AGE} and {MAX_AGE}")
	return age_int
	except (ValueError, TypeError):
	raise gr.Error("Please enter a valid age number")

	def validate_file(file_obj) -> None:
	"""Validate uploaded file."""
	if not file_obj:
	raise gr.Error("No file uploaded")

	file_ext = os.path.splitext(file_obj.name)[1].lower()
	if file_ext not in ALLOWED_FILE_TYPES:
	raise gr.Error(f"Invalid file type. Allowed: {', '.join(ALLOWED_FILE_TYPES)}")

	file_size = os.path.getsize(file_obj.name) / (1024 * 1024) # MB
	if file_size > MAX_FILE_SIZE_MB:
	raise gr.Error(f"File too large. Max size: {MAX_FILE_SIZE_MB}MB")

	# ========== TEXT EXTRACTION FUNCTIONS ==========
	def extract_text_from_file(file_path: str, file_ext: str) -> str:
	"""Enhanced text extraction with better error handling and fallbacks."""
	text = ""

	try:
	if file_ext == '.pdf':
	# First try PyMuPDF for better text extraction
	try:
	doc = fitz.open(file_path)
	for page in doc:
	text += page.get_text("text") + '\n'
	if not text.strip():
	raise ValueError("PyMuPDF returned empty text")
	except Exception as e:
	print(f"PyMuPDF failed, trying OCR fallback: {str(e)}")
	text = extract_text_from_pdf_with_ocr(file_path)

	elif file_ext in ['.png', '.jpg', '.jpeg']:
	text = extract_text_with_ocr(file_path)

	# Clean up the extracted text
	text = clean_extracted_text(text)

	if not text.strip():
	raise ValueError("No text could be extracted from the file")

	return text

	except Exception as e:
	raise gr.Error(f"Text extraction error: {str(e)}")

	def extract_text_from_pdf_with_ocr(file_path: str) -> str:
	"""Fallback PDF text extraction using OCR."""
	text = ""
	try:
	doc = fitz.open(file_path)
	for page in doc:
	pix = page.get_pixmap()
	img = Image.open(io.BytesIO(pix.tobytes()))
	text += pytesseract.image_to_string(img) + '\n'
	except Exception as e:
	raise ValueError(f"PDF OCR failed: {str(e)}")
	return text

	def extract_text_with_ocr(file_path: str) -> str:
	"""Extract text from image files using OCR with preprocessing."""
	try:
	image = Image.open(file_path)

	# Preprocess image for better OCR results
	image = image.convert('L') # Convert to grayscale
	image = image.point(lambda x: 0 if x < 128 else 255, '1') # Thresholding

	# Custom Tesseract configuration
	custom_config = r'--oem 3 --psm 6'
	text = pytesseract.image_to_string(image, config=custom_config)
	return text
	except Exception as e:
	raise ValueError(f"OCR processing failed: {str(e)}")

	def clean_extracted_text(text: str) -> str:
	"""Clean and normalize the extracted text."""
	# Remove multiple spaces and newlines
	text = re.sub(r'\s+', ' ', text).strip()

	# Fix common OCR errors
	replacements = {
	'\|': 'I',
	'‘': "'",
	'’': "'",
	'“': '"',
	'”': '"',
	'ﬁ': 'fi',
	'ﬂ': 'fl'
	}

	for wrong, right in replacements.items():
	text = text.replace(wrong, right)

	return text

	def remove_sensitive_info(text: str) -> str:
	"""Remove potentially sensitive information from transcript text."""
	# Remove social security numbers
	text = re.sub(r'\b\d{3}-\d{2}-\d{4}\b', '[REDACTED]', text)
	# Remove student IDs (assuming 6-9 digit numbers)
	text = re.sub(r'\b\d{6,9}\b', '[ID]', text)
	# Remove email addresses
	text = re.sub(r'\b[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\.[A-Z\|a-z]{2,}\b', '[EMAIL]', text)
	return text

	# ========== TRANSCRIPT PARSING ==========
	def parse_transcript_with_ai(text: str, progress=gr.Progress()) -> Dict:
	"""Use AI model to parse transcript text with progress feedback"""
	model, tokenizer = model_loader.load_model(model_loader.current_model or DEFAULT_MODEL, progress)
	if model is None or tokenizer is None:
	raise gr.Error(f"Model failed to load. {model_loader.error or 'Please try loading a model first.'}")

	# Pre-process the text
	text = remove_sensitive_info(text[:15000]) # Limit input size

	prompt = f"""
	Analyze this academic transcript and extract structured information:
	- Current grade level
	- Weighted GPA (if available)
	- Unweighted GPA (if available)
	- List of all courses with:
	* Course code
	* Course name
	* Grade received
	* Credits earned
	* Year/semester taken
	* Grade level when taken
	Return the data in JSON format.

	Transcript Text:
	{text}
	"""

	try:
	progress(0.1, desc="Processing transcript...")

	# Tokenize and generate response
	inputs = tokenizer(prompt, return_tensors="pt").to(model.device)
	progress(0.4)

	outputs = model.generate(
	**inputs,
	max_new_tokens=1500, # Reduced from original
	temperature=0.1,
	do_sample=True
	)
	progress(0.8)

	# Decode the response
	response = tokenizer.decode(outputs[0], skip_special_tokens=True)

	# Extract JSON from response
	json_str = response.split('```json')[1].split('```')[0].strip() if '```json' in response else response

	# Parse and validate
	parsed_data = json.loads(json_str)
	progress(1.0)

	return validate_parsed_data(parsed_data)

	except torch.cuda.OutOfMemoryError:
	raise gr.Error("The model ran out of memory. Try with a smaller transcript or use a smaller model.")
	except Exception as e:
	raise gr.Error(f"Error processing transcript: {str(e)}")

	def validate_parsed_data(data: Dict) -> Dict:
	"""Validate and clean the parsed data structure."""
	if not isinstance(data, dict):
	raise ValueError("Invalid data format")

	# Set default structure if missing
	if 'grade_level' not in data:
	data['grade_level'] = 'Unknown'

	if 'gpa' not in data:
	data['gpa'] = {'weighted': 'N/A', 'unweighted': 'N/A'}

	if 'courses' not in data:
	data['courses'] = []

	# Clean course data
	for course in data['courses']:
	if 'grade' in course:
	course['grade'] = course['grade'].upper().strip()

	# Ensure numeric credits are strings
	if 'credits' in course and isinstance(course['credits'], (int, float)):
	course['credits'] = str(course['credits'])

	return data

	def format_transcript_output(data: Dict) -> str:
	"""Format the parsed data into human-readable text."""
	output = []
	output.append(f"Student Transcript Summary\n{'='*40}")
	output.append(f"Current Grade Level: {data.get('grade_level', 'Unknown')}")

	if 'gpa' in data:
	output.append(f"\nGPA:")
	output.append(f"- Weighted: {data['gpa'].get('weighted', 'N/A')}")
	output.append(f"- Unweighted: {data['gpa'].get('unweighted', 'N/A')}")

	if 'courses' in data:
	output.append("\nCourse History:\n" + '='*40)

	# Group courses by grade level
	courses_by_grade = defaultdict(list)
	for course in data['courses']:
	grade_level = course.get('grade_level', 'Unknown')
	courses_by_grade[grade_level].append(course)

	# Sort grades numerically
	for grade in sorted(courses_by_grade.keys(), key=lambda x: int(x) if x.isdigit() else x):
	output.append(f"\nGrade {grade}:\n{'-'*30}")
	for course in courses_by_grade[grade]:
	course_str = f"- {course.get('code', '')} {course.get('name', 'Unnamed course')}"
	if 'grade' in course:
	course_str += f" (Grade: {course['grade']})"
	if 'credits' in course:
	course_str += f" \| Credits: {course['credits']}"
	if 'year' in course:
	course_str += f" \| Year: {course['year']}"
	output.append(course_str)

	return '\n'.join(output)

	def parse_transcript(file_obj, progress=gr.Progress()) -> Tuple[str, Optional[Dict]]:
	"""Main function to parse transcript files."""
	try:
	if not file_obj:
	raise ValueError("Please upload a file first")

	validate_file(file_obj)
	file_ext = os.path.splitext(file_obj.name)[1].lower()

	# Extract text from file
	text = extract_text_from_file(file_obj.name, file_ext)

	# Use AI for parsing
	parsed_data = parse_transcript_with_ai(text, progress)

	# Format output text
	output_text = format_transcript_output(parsed_data)

	# Prepare the data structure for saving
	transcript_data = {
	"grade_level": parsed_data.get('grade_level', 'Unknown'),
	"gpa": parsed_data.get('gpa', {}),
	"courses": defaultdict(list)
	}

	# Organize courses by grade level
	for course in parsed_data.get('courses', []):
	grade_level = course.get('grade_level', 'Unknown')
	transcript_data["courses"][grade_level].append(course)

	return output_text, transcript_data

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

	# ========== LEARNING STYLE QUIZ ==========
	class LearningStyleQuiz:
	def __init__(self):
	self.questions = [
	"When you study for a test, you prefer to:",
	"When you need directions to a new place, you prefer:",
	"When you learn a new skill, you prefer to:",
	"When you're trying to concentrate, you:",
	"When you meet new people, you remember them by:",
	"When you're assembling furniture or a gadget, you:",
	"When choosing a restaurant, you rely most on:",
	"When you're in a waiting room, you typically:",
	"When giving someone instructions, you tend to:",
	"When you're trying to recall information, you:",
	"When you're at a museum or exhibit, you:",
	"When you're learning a new language, you prefer:",
	"When you're taking notes in class, you:",
	"When you're explaining something complex, you:",
	"When you're at a party, you enjoy:",
	"When you're trying to remember a phone number, you:",
	"When you're relaxing, you prefer to:",
	"When you're learning to use new software, you:",
	"When you're giving a presentation, you rely on:",
	"When you're solving a difficult problem, you:"
	]

	self.options = [
	["Read the textbook (Reading/Writing)", "Listen to lectures (Auditory)", "Use diagrams/charts (Visual)", "Practice problems (Kinesthetic)"],
	["Look at a map (Visual)", "Have someone tell you (Auditory)", "Write down directions (Reading/Writing)", "Try walking/driving there (Kinesthetic)"],
	["Read instructions (Reading/Writing)", "Have someone show you (Visual)", "Listen to explanations (Auditory)", "Try it yourself (Kinesthetic)"],
	["Need quiet (Reading/Writing)", "Need background noise (Auditory)", "Need to move around (Kinesthetic)", "Need visual stimulation (Visual)"],
	["Their face (Visual)", "Their name (Auditory)", "What you talked about (Reading/Writing)", "What you did together (Kinesthetic)"],
	["Read the instructions carefully (Reading/Writing)", "Look at the diagrams (Visual)", "Ask someone to explain (Auditory)", "Start putting pieces together (Kinesthetic)"],
	["Online photos of the food (Visual)", "Recommendations from friends (Auditory)", "Reading the menu online (Reading/Writing)", "Remembering how it felt to eat there (Kinesthetic)"],
	["Read magazines (Reading/Writing)", "Listen to music (Auditory)", "Watch TV (Visual)", "Fidget or move around (Kinesthetic)"],
	["Write them down (Reading/Writing)", "Explain verbally (Auditory)", "Demonstrate (Visual)", "Guide them physically (Kinesthetic)"],
	["See written words in your mind (Visual)", "Hear the information in your head (Auditory)", "Write it down to remember (Reading/Writing)", "Associate it with physical actions (Kinesthetic)"],
	["Read all the descriptions (Reading/Writing)", "Listen to audio guides (Auditory)", "Look at the displays (Visual)", "Touch interactive exhibits (Kinesthetic)"],
	["Study grammar rules (Reading/Writing)", "Listen to native speakers (Auditory)", "Use flashcards with images (Visual)", "Practice conversations (Kinesthetic)"],
	["Write detailed paragraphs (Reading/Writing)", "Record the lecture (Auditory)", "Draw diagrams and charts (Visual)", "Doodle while listening (Kinesthetic)"],
	["Write detailed steps (Reading/Writing)", "Explain verbally with examples (Auditory)", "Draw diagrams (Visual)", "Use physical objects to demonstrate (Kinesthetic)"],
	["Conversations with people (Auditory)", "Watching others or the environment (Visual)", "Writing notes or texting (Reading/Writing)", "Dancing or physical activities (Kinesthetic)"],
	["See the numbers in your head (Visual)", "Say them aloud (Auditory)", "Write them down (Reading/Writing)", "Dial them on a keypad (Kinesthetic)"],
	["Read a book (Reading/Writing)", "Listen to music (Auditory)", "Watch TV/movies (Visual)", "Do something physical (Kinesthetic)"],
	["Read the manual (Reading/Writing)", "Ask someone to show you (Visual)", "Call tech support (Auditory)", "Experiment with the software (Kinesthetic)"],
	["Detailed notes (Reading/Writing)", "Verbal explanations (Auditory)", "Visual slides (Visual)", "Physical demonstrations (Kinesthetic)"],
	["Write out possible solutions (Reading/Writing)", "Talk through it with someone (Auditory)", "Draw diagrams (Visual)", "Build a model or prototype (Kinesthetic)"]
	]

	self.learning_styles = {
	"Visual": {
	"description": "Visual learners prefer using images, diagrams, and spatial understanding.",
	"tips": [
	"Use color coding in your notes",
	"Create mind maps and diagrams",
	"Watch educational videos",
	"Use flashcards with images",
	"Highlight important information in different colors"
	],
	"careers": [
	"Graphic Designer", "Architect", "Photographer",
	"Engineer", "Surgeon", "Pilot"
	]
	},
	"Auditory": {
	"description": "Auditory learners learn best through listening and speaking.",
	"tips": [
	"Record lectures and listen to them",
	"Participate in study groups",
	"Explain concepts out loud to yourself",
	"Use rhymes or songs to remember information",
	"Listen to educational podcasts"
	],
	"careers": [
	"Musician", "Journalist", "Lawyer",
	"Psychologist", "Teacher", "Customer Service"
	]
	},
	"Reading/Writing": {
	"description": "These learners prefer information displayed as words.",
	"tips": [
	"Write detailed notes",
	"Create summaries in your own words",
	"Read textbooks and articles",
	"Make lists to organize information",
	"Rewrite your notes to reinforce learning"
	],
	"careers": [
	"Writer", "Researcher", "Editor",
	"Accountant", "Programmer", "Historian"
	]
	},
	"Kinesthetic": {
	"description": "Kinesthetic learners learn through movement and hands-on activities.",
	"tips": [
	"Use hands-on activities",
	"Take frequent movement breaks",
	"Create physical models",
	"Associate information with physical actions",
	"Study while walking or pacing"
	],
	"careers": [
	"Athlete", "Chef", "Mechanic",
	"Dancer", "Physical Therapist", "Carpenter"
	]
	}
	}

	def evaluate_quiz(self, *answers) -> str:
	"""Evaluate quiz answers and generate enhanced results."""
	answers = list(answers) # Convert tuple to list
	if len(answers) != len(self.questions):
	raise gr.Error("Not all questions were answered")

	scores = {style: 0 for style in self.learning_styles}

	for i, answer in enumerate(answers):
	if not answer:
	continue # Skip unanswered questions

	for j, style in enumerate(self.learning_styles):
	if answer == self.options[i][j]:
	scores[style] += 1
	break

	total_answered = sum(1 for ans in answers if ans)
	if total_answered == 0:
	raise gr.Error("No answers provided")

	percentages = {style: (score/total_answered)*100 for style, score in scores.items()}
	sorted_styles = sorted(scores.items(), key=lambda x: x[1], reverse=True)

	# Generate enhanced results report
	result = "## Your Learning Style Results\n\n"
	result += "### Scores:\n"
	for style, score in sorted_styles:
	result += f"- {style}: {score}/{total_answered} ({percentages[style]:.1f}%)\n"

	max_score = max(scores.values())
	primary_styles = [style for style, score in scores.items() if score == max_score]

	result += "\n### Analysis:\n"
	if len(primary_styles) == 1:
	primary_style = primary_styles[0]
	style_info = self.learning_styles[primary_style]

	result += f"Your primary learning style is {primary_style}\n\n"
	result += f"{primary_style} Characteristics:\n"
	result += f"{style_info['description']}\n\n"

	result += "Recommended Study Strategies:\n"
	for tip in style_info['tips']:
	result += f"- {tip}\n"

	result += "\nPotential Career Paths:\n"
	for career in style_info['careers'][:6]:
	result += f"- {career}\n"

	# Add complementary strategies
	complementary = [s for s in sorted_styles if s[0] != primary_style][0][0]
	result += f"\nYou might also benefit from some {complementary} strategies:\n"
	for tip in self.learning_styles[complementary]['tips'][:3]:
	result += f"- {tip}\n"
	else:
	result += "You have multiple strong learning styles:\n"
	for style in primary_styles:
	result += f"- {style}\n"

	result += "\nCombined Learning Strategies:\n"
	result += "You may benefit from combining different learning approaches:\n"
	for style in primary_styles:
	result += f"\n{style} techniques:\n"
	for tip in self.learning_styles[style]['tips'][:2]:
	result += f"- {tip}\n"

	result += f"\n{style} career suggestions:\n"
	for career in self.learning_styles[style]['careers'][:3]:
	result += f"- {career}\n"

	return result

	# Initialize quiz instance
	learning_style_quiz = LearningStyleQuiz()

	# ========== PROFILE MANAGEMENT ==========
	class ProfileManager:
	def __init__(self):
	self.profiles_dir = Path(PROFILES_DIR)
	self.profiles_dir.mkdir(exist_ok=True, parents=True)
	self.current_session = None

	def set_session(self, session_token: str) -> None:
	"""Set the current session token."""
	self.current_session = session_token

	def get_profile_path(self, name: str) -> Path:
	"""Get profile path with session token if available."""
	if self.current_session:
	return self.profiles_dir / f"{name.replace(' ', '_')}_{self.current_session}_profile.json"
	return self.profiles_dir / f"{name.replace(' ', '_')}_profile.json"

	def save_profile(self, name: str, age: Union[int, str], interests: str,
	transcript: Dict, learning_style: str,
	movie: str, movie_reason: str, show: str, show_reason: str,
	book: str, book_reason: str, character: str, character_reason: str,
	blog: str) -> str:
	"""Save student profile with validation."""
	try:
	# Validate required fields
	name = validate_name(name)
	age = validate_age(age)
	interests = sanitize_input(interests)

	# Prepare favorites data
	favorites = {
	"movie": sanitize_input(movie),
	"movie_reason": sanitize_input(movie_reason),
	"show": sanitize_input(show),
	"show_reason": sanitize_input(show_reason),
	"book": sanitize_input(book),
	"book_reason": sanitize_input(book_reason),
	"character": sanitize_input(character),
	"character_reason": sanitize_input(character_reason)
	}

	# Prepare full profile data
	data = {
	"name": name,
	"age": age,
	"interests": interests,
	"transcript": transcript if transcript else {},
	"learning_style": learning_style if learning_style else "Not assessed",
	"favorites": favorites,
	"blog": sanitize_input(blog) if blog else "",
	"session_token": self.current_session
	}

	# Save to JSON file
	filepath = self.get_profile_path(name)

	with open(filepath, "w", encoding='utf-8') as f:
	json.dump(data, f, indent=2, ensure_ascii=False)

	# Upload to HF Hub if token is available
	if HF_TOKEN:
	try:
	hf_api.upload_file(
	path_or_fileobj=filepath,
	path_in_repo=f"profiles/{filepath.name}",
	repo_id="your-username/student-learning-assistant",
	repo_type="dataset"
	)
	except Exception as e:
	print(f"Failed to upload to HF Hub: {str(e)}")

	return self._generate_profile_summary(data)

	except Exception as e:
	raise gr.Error(f"Error saving profile: {str(e)}")

	def load_profile(self, name: str = None, session_token: str = None) -> Dict:
	"""Load profile by name or return the first one found."""
	try:
	if session_token:
	profile_pattern = f"*{session_token}_profile.json"
	else:
	profile_pattern = "*.json"

	profiles = list(self.profiles_dir.glob(profile_pattern))
	if not profiles:
	return {}

	if name:
	# Find profile by name
	name = name.replace(" ", "_")
	if session_token:
	profile_file = self.profiles_dir / f"{name}_{session_token}_profile.json"
	else:
	profile_file = self.profiles_dir / f"{name}_profile.json"

	if not profile_file.exists():
	# Try loading from HF Hub
	if HF_TOKEN:
	try:
	hf_api.download_file(
	path_in_repo=f"profiles/{profile_file.name}",
	repo_id="your-username/student-learning-assistant",
	repo_type="dataset",
	local_dir=self.profiles_dir
	)
	except:
	raise gr.Error(f"No profile found for {name}")
	else:
	raise gr.Error(f"No profile found for {name}")
	else:
	# Load the first profile found
	profile_file = profiles[0]

	with open(profile_file, "r", encoding='utf-8') as f:
	return json.load(f)

	except Exception as e:
	print(f"Error loading profile: {str(e)}")
	return {}

	def list_profiles(self, session_token: str = None) -> List[str]:
	"""List all available profile names for the current session."""
	if session_token:
	profiles = list(self.profiles_dir.glob(f"*{session_token}_profile.json"))
	else:
	profiles = list(self.profiles_dir.glob("*.json"))

	# Extract just the name part (without session token)
	profile_names = []
	for p in profiles:
	name_part = p.stem.replace("_profile", "")
	if session_token:
	name_part = name_part.replace(f"_{session_token}", "")
	profile_names.append(name_part.replace("_", " "))

	return profile_names

	def _generate_profile_summary(self, data: Dict) -> str:
	"""Generate markdown summary of the profile."""
	transcript = data.get("transcript", {})
	favorites = data.get("favorites", {})
	learning_style = data.get("learning_style", "Not assessed")

	markdown = f"""## Student Profile: {data['name']}
	### Basic Information
	- Age: {data['age']}
	- Interests: {data['interests']}
	- Learning Style: {learning_style.split('##')[0].strip()}
	### Academic Information
	{self._format_transcript(transcript)}
	### Favorites
	- Movie: {favorites.get('movie', 'Not specified')}
	Reason: {favorites.get('movie_reason', 'Not specified')}
	- TV Show: {favorites.get('show', 'Not specified')}
	Reason: {favorites.get('show_reason', 'Not specified')}
	- Book: {favorites.get('book', 'Not specified')}
	Reason: {favorites.get('book_reason', 'Not specified')}
	- Character: {favorites.get('character', 'Not specified')}
	Reason: {favorites.get('character_reason', 'Not specified')}
	### Personal Blog
	{data.get('blog', '_No blog provided_')}
	"""
	return markdown

	def _format_transcript(self, transcript: Dict) -> str:
	"""Format transcript data for display."""
	if not transcript or "courses" not in transcript:
	return "_No transcript information available_"

	display = "#### Course History\n"
	courses_by_grade = transcript["courses"]

	if isinstance(courses_by_grade, dict):
	for grade in sorted(courses_by_grade.keys(), key=lambda x: int(x) if x.isdigit() else x):
	display += f"\nGrade {grade}\n"
	for course in courses_by_grade[grade]:
	display += f"- {course.get('code', '')} {course.get('name', 'Unnamed course')}"
	if 'grade' in course and course['grade']:
	display += f" (Grade: {course['grade']})"
	if 'credits' in course:
	display += f" \| Credits: {course['credits']}"
	display += f" \| Year: {course.get('year', 'N/A')}\n"

	if 'gpa' in transcript:
	gpa = transcript['gpa']
	display += "\nGPA\n"
	display += f"- Unweighted: {gpa.get('unweighted', 'N/A')}\n"
	display += f"- Weighted: {gpa.get('weighted', 'N/A')}\n"

	return display

	# Initialize profile manager
	profile_manager = ProfileManager()

	# ========== AI TEACHING ASSISTANT ==========
	class TeachingAssistant:
	def __init__(self):
	self.context_history = []
	self.max_context_length = 5 # Keep last 5 exchanges for context

	def generate_response(self, message: str, history: List[List[Union[str, None]]], session_token: str) -> str:
	"""Generate personalized response based on student profile and context."""
	try:
	# Load profile with session token
	profile = profile_manager.load_profile(session_token=session_token)
	if not profile:
	return "Please complete and save your profile first using the previous tabs."

	# Update context history
	self._update_context(message, history)

	# Extract profile information
	name = profile.get("name", "there")
	learning_style = profile.get("learning_style", "")
	grade_level = profile.get("transcript", {}).get("grade_level", "unknown")
	gpa = profile.get("transcript", {}).get("gpa", {})
	interests = profile.get("interests", "")
	courses = profile.get("transcript", {}).get("courses", {})
	favorites = profile.get("favorites", {})

	# Process message with context
	response = self._process_message(message, profile)

	# Add follow-up suggestions
	if "study" in message.lower() or "learn" in message.lower():
	response += "\n\nWould you like me to suggest a study schedule based on your courses?"
	elif "course" in message.lower() or "class" in message.lower():
	response += "\n\nWould you like help finding resources for any of these courses?"

	return response

	except Exception as e:
	print(f"Error generating response: {str(e)}")
	return "I encountered an error processing your request. Please try again."

	def _update_context(self, message: str, history: List[List[Union[str, None]]]) -> None:
	"""Maintain conversation context."""
	self.context_history.append({"role": "user", "content": message})
	if history:
	for h in history[-self.max_context_length:]:
	if h[0]: # User message
	self.context_history.append({"role": "user", "content": h[0]})
	if h[1]: # Assistant message
	self.context_history.append({"role": "assistant", "content": h[1]})

	# Trim to maintain max context length
	self.context_history = self.context_history[-(self.max_context_length*2):]

	def _process_message(self, message: str, profile: Dict) -> str:
	"""Process user message with profile context."""
	message_lower = message.lower()

	# Greetings
	if any(greet in message_lower for greet in ["hi", "hello", "hey", "greetings"]):
	return f"Hello {profile.get('name', 'there')}! How can I help you with your learning today?"

	# Study help
	study_words = ["study", "learn", "prepare", "exam", "test", "homework"]
	if any(word in message_lower for word in study_words):
	return self._generate_study_advice(profile)

	# Grade help
	grade_words = ["grade", "gpa", "score", "marks", "results"]
	if any(word in message_lower for word in grade_words):
	return self._generate_grade_advice(profile)

	# Interest help
	interest_words = ["interest", "hobby", "passion", "extracurricular"]
	if any(word in message_lower for word in interest_words):
	return self._generate_interest_advice(profile)

	# Course help
	course_words = ["courses", "classes", "transcript", "schedule", "subject"]
	if any(word in message_lower for word in course_words):
	return self._generate_course_advice(profile)

	# Favorites
	favorite_words = ["movie", "show", "book", "character", "favorite"]
	if any(word in message_lower for word in favorite_words):
	return self._generate_favorites_response(profile)

	# General help
	if "help" in message_lower:
	return self._generate_help_response()

	# Default response
	return ("I'm your personalized teaching assistant. I can help with study tips, "
	"grade information, course advice, and more. Try asking about how to "
	"study effectively or about your course history.")

	def _generate_study_advice(self, profile: Dict) -> str:
	"""Generate study advice based on learning style."""
	learning_style = profile.get("learning_style", "")
	response = ""

	if "Visual" in learning_style:
	response = ("Based on your visual learning style, I recommend:\n"
	"- Creating colorful mind maps or diagrams\n"
	"- Using highlighters to color-code your notes\n"
	"- Watching educational videos on the topics\n"
	"- Creating flashcards with images\n\n")
	elif "Auditory" in learning_style:
	response = ("Based on your auditory learning style, I recommend:\n"
	"- Recording your notes and listening to them\n"
	"- Participating in study groups to discuss concepts\n"
	"- Explaining the material out loud to yourself\n"
	"- Finding podcasts or audio lectures on the topics\n\n")
	elif "Reading/Writing" in learning_style:
	response = ("Based on your reading/writing learning style, I recommend:\n"
	"- Writing detailed summaries in your own words\n"
	"- Creating organized outlines of the material\n"
	"- Reading additional textbooks or articles\n"
	"- Rewriting your notes to reinforce learning\n\n")
	elif "Kinesthetic" in learning_style:
	response = ("Based on your kinesthetic learning style, I recommend:\n"
	"- Creating physical models or demonstrations\n"
	"- Using hands-on activities to learn concepts\n"
	"- Taking frequent movement breaks while studying\n"
	"- Associating information with physical actions\n\n")
	else:
	response = ("Here are some general study tips:\n"
	"- Use the Pomodoro technique (25 min study, 5 min break)\n"
	"- Space out your study sessions over time\n"
	"- Test yourself with practice questions\n"
	"- Teach the material to someone else\n\n")

	# Add time management advice
	response += ("Time Management Tips:\n"
	"- Create a study schedule and stick to it\n"
	"- Prioritize difficult subjects when you're most alert\n"
	"- Break large tasks into smaller, manageable chunks\n"
	"- Set specific goals for each study session")

	return response

	def _generate_grade_advice(self, profile: Dict) -> str:
	"""Generate response about grades and GPA."""
	gpa = profile.get("transcript", {}).get("gpa", {})
	courses = profile.get("transcript", {}).get("courses", {})

	response = (f"Your GPA information:\n"
	f"- Unweighted: {gpa.get('unweighted', 'N/A')}\n"
	f"- Weighted: {gpa.get('weighted', 'N/A')}\n\n")

	# Identify any failing grades
	weak_subjects = []
	for grade_level, course_list in courses.items():
	for course in course_list:
	if course.get('grade', '').upper() in ['D', 'F']:
	weak_subjects.append(f"{course.get('code', '')} {course.get('name', 'Unknown course')}")

	if weak_subjects:
	response += ("Areas for Improvement:\n"
	f"You might want to focus on these subjects: {', '.join(weak_subjects)}\n\n")

	response += ("Grade Improvement Strategies:\n"
	"- Meet with your teachers to discuss your performance\n"
	"- Identify specific areas where you lost points\n"
	"- Create a targeted study plan for weak areas\n"
	"- Practice with past exams or sample questions")

	return response

	def _generate_interest_advice(self, profile: Dict) -> str:
	"""Generate response based on student interests."""
	interests = profile.get("interests", "")
	response = f"I see you're interested in: {interests}\n\n"

	response += ("Suggestions:\n"
	"- Look for clubs or extracurricular activities related to these interests\n"
	"- Explore career paths that align with these interests\n"
	"- Find online communities or forums about these topics\n"
	"- Consider projects or independent study in these areas")

	return response

	def _generate_course_advice(self, profile: Dict) -> str:
	"""Generate response about courses."""
	courses = profile.get("transcript", {}).get("courses", {})
	grade_level = profile.get("transcript", {}).get("grade_level", "unknown")

	response = "Here's a summary of your courses:\n"
	for grade in sorted(courses.keys(), key=lambda x: int(x) if x.isdigit() else x):
	response += f"\nGrade {grade}:\n"
	for course in courses[grade]:
	response += f"- {course.get('code', '')} {course.get('name', 'Unnamed course')}"
	if 'grade' in course:
	response += f" (Grade: {course['grade']})"
	response += "\n"

	response += f"\nAs a grade {grade_level} student, you might want to:\n"
	if grade_level in ["9", "10"]:
	response += ("- Focus on building strong foundational skills\n"
	"- Explore different subjects to find your interests\n"
	"- Start thinking about college/career requirements")
	elif grade_level in ["11", "12"]:
	response += ("- Focus on courses relevant to your college/career goals\n"
	"- Consider taking AP or advanced courses if available\n"
	"- Ensure you're meeting graduation requirements")

	return response

	def _generate_favorites_response(self, profile: Dict) -> str:
	"""Generate response about favorite items."""
	favorites = profile.get("favorites", {})
	response = "I see you enjoy:\n"

	if favorites.get('movie'):
	response += f"- Movie: {favorites['movie']} ({favorites.get('movie_reason', 'no reason provided')})\n"
	if favorites.get('show'):
	response += f"- TV Show: {favorites['show']} ({favorites.get('show_reason', 'no reason provided')})\n"
	if favorites.get('book'):
	response += f"- Book: {favorites['book']} ({favorites.get('book_reason', 'no reason provided')})\n"
	if favorites.get('character'):
	response += f"- Character: {favorites['character']} ({favorites.get('character_reason', 'no reason provided')})\n"

	response += "\nThese preferences suggest you might enjoy:\n"
	response += "- Similar books/movies in the same genre\n"
	response += "- Creative projects related to these stories\n"
	response += "- Analyzing themes or characters in your schoolwork"

	return response

	def _generate_help_response(self) -> str:
	"""Generate help response with available commands."""
	return ("""I can help with:
	- Study tips: "How should I study for math?"
	- Grade information: "What's my GPA?"
	- Course advice: "Show me my course history"
	- Interest suggestions: "What clubs match my interests?"
	- General advice: "How can I improve my grades?"
	Try asking about any of these topics!""")

	# Initialize teaching assistant
	teaching_assistant = TeachingAssistant()

	# ========== GRADIO INTERFACE ==========
	def create_interface():
	with gr.Blocks(theme=gr.themes.Soft(), title="Student Learning Assistant") as app:
	# Session state
	session_token = gr.State(value=generate_session_token())
	profile_manager.set_session(session_token.value)

	# Track completion status for each tab
	tab_completed = gr.State({
	0: False, # Transcript Upload
	1: False, # Learning Style Quiz
	2: False, # Personal Questions
	3: False, # Save & Review
	4: False # AI Assistant
	})

	# Custom CSS for better styling
	app.css = """
	.gradio-container {
	max-width: 1200px !important;
	margin: 0 auto;
	}
	.tab {
	padding: 20px;
	border-radius: 8px;
	background: white;
	box-shadow: 0 2px 4px rgba(0,0,0,0.1);
	}
	.progress-bar {
	height: 5px;
	background: linear-gradient(to right, #4CAF50, #8BC34A);
	margin-bottom: 15px;
	border-radius: 3px;
	}
	.quiz-question {
	margin-bottom: 15px;
	padding: 15px;
	background: #f5f5f5;
	border-radius: 5px;
	}
	.profile-card {
	border: 1px solid #e0e0e0;
	border-radius: 8px;
	padding: 15px;
	margin-bottom: 15px;
	background: white;
	}
	.chatbot {
	min-height: 500px;
	}
	.completed-tab {
	background: #2196F3 !important;
	color: white !important;
	}
	.incomplete-tab {
	background: #E0E0E0 !important;
	}
	.alert-box {
	padding: 15px;
	margin-bottom: 20px;
	border: 1px solid transparent;
	border-radius: 4px;
	color: #31708f;
	background-color: #d9edf7;
	border-color: #bce8f1;
	}
	.nav-message {
	padding: 10px;
	margin: 10px 0;
	border-radius: 4px;
	background-color: #ffebee;
	color: #c62828;
	}
	.model-loading {
	padding: 15px;
	margin: 15px 0;
	border-radius: 4px;
	background-color: #fff3e0;
	color: #e65100;
	}
	.model-selection {
	margin-bottom: 20px;
	padding: 15px;
	background: #f8f9fa;
	border-radius: 8px;
	}
	"""

	gr.Markdown("""
	# Student Learning Assistant
	Your personalized education companion
	Complete each step to get customized learning recommendations.
	""")

	# Model selection section
	with gr.Group(elem_classes="model-selection"):
	model_selector = gr.Dropdown(
	choices=list(MODEL_CHOICES.keys()),
	value=DEFAULT_MODEL,
	label="Select AI Model",
	interactive=True
	)
	load_model_btn = gr.Button("Load Selected Model", variant="secondary")
	model_status = gr.HTML(
	value="<div class='model-loading'>Model not loaded yet. Please select and load a model.</div>",
	visible=True
	)

	# Progress tracker
	with gr.Row():
	with gr.Column(scale=1):
	step1 = gr.Button("1. Upload Transcript", elem_classes="incomplete-tab")
	with gr.Column(scale=1):
	step2 = gr.Button("2. Learning Style Quiz", elem_classes="incomplete-tab", interactive=False)
	with gr.Column(scale=1):
	step3 = gr.Button("3. Personal Questions", elem_classes="incomplete-tab", interactive=False)
	with gr.Column(scale=1):
	step4 = gr.Button("4. Save & Review", elem_classes="incomplete-tab", interactive=False)
	with gr.Column(scale=1):
	step5 = gr.Button("5. AI Assistant", elem_classes="incomplete-tab", interactive=False)

	# Alert box for quiz submission
	quiz_alert = gr.HTML(visible=False)

	# Navigation message
	nav_message = gr.HTML(elem_classes="nav-message", visible=False)

	# Main tabs
	with gr.Tabs() as tabs:
	# ===== TAB 1: Transcript Upload =====
	with gr.Tab("Transcript Upload", id=0) as tab1:
	with gr.Row():
	with gr.Column(scale=1):
	gr.Markdown("### Step 1: Upload Your Transcript")
	gr.Markdown("Upload a PDF or image of your academic transcript to analyze your courses and GPA.")

	with gr.Group():
	transcript_file = gr.File(
	label="Transcript (PDF or Image)",
	file_types=ALLOWED_FILE_TYPES,
	type="filepath"
	)
	upload_btn = gr.Button("Upload & Analyze", variant="primary")

	gr.Markdown("""
	Supported Formats: PDF, PNG, JPG
	Note: Your file is processed locally and not stored permanently.
	""")

	with gr.Column(scale=2):
	transcript_output = gr.Textbox(
	label="Transcript Analysis",
	lines=20,
	interactive=False
	)
	transcript_data = gr.State()

	def process_transcript_and_update(file_obj, current_tab_status, progress=gr.Progress()):
	output_text, data = parse_transcript(file_obj, progress)
	if "Error" not in output_text:
	new_status = current_tab_status.copy()
	new_status[0] = True
	return output_text, data, new_status, \
	gr.update(elem_classes="completed-tab"), \
	gr.update(interactive=True), \
	gr.update(visible=False)
	return output_text, data, current_tab_status, \
	gr.update(), gr.update(), gr.update()

	upload_btn.click(
	fn=process_transcript_and_update,
	inputs=[transcript_file, tab_completed],
	outputs=[transcript_output, transcript_data, tab_completed, step1, step2, nav_message]
	)

	# ===== TAB 2: Learning Style Quiz =====
	with gr.Tab("Learning Style Quiz", id=1) as tab2:
	with gr.Row():
	with gr.Column(scale=1):
	gr.Markdown("### Step 2: Discover Your Learning Style")
	gr.Markdown("Complete this 20-question quiz to identify whether you're a visual, auditory, reading/writing, or kinesthetic learner.")

	progress = gr.HTML("<div class='progress-bar' style='width: 0%'></div>")
	quiz_submit = gr.Button("Submit Quiz", variant="primary")

	with gr.Column(scale=2):
	quiz_components = []
	with gr.Accordion("Quiz Questions", open=True):
	for i, (question, options) in enumerate(zip(learning_style_quiz.questions, learning_style_quiz.options)):
	with gr.Group(elem_classes="quiz-question"):
	q = gr.Radio(
	options,
	label=f"{i+1}. {question}",
	show_label=True
	)
	quiz_components.append(q)

	learning_output = gr.Markdown(
	label="Your Learning Style Results",
	visible=False
	)

	# Update progress bar as questions are answered
	for component in quiz_components:
	component.change(
	fn=lambda *answers: {
	progress: gr.HTML(
	f"<div class='progress-bar' style='width: {sum(1 for a in answers if a)/len(answers)*100}%'></div>"
	)
	},
	inputs=quiz_components,
	outputs=progress
	)

	def submit_quiz_and_update(*args):
	# The first argument is the tab_completed state, followed by answers
	current_tab_status = args[0]
	answers = args[1:]

	result = learning_style_quiz.evaluate_quiz(*answers)

	new_status = current_tab_status.copy()
	new_status[1] = True

	return result, \
	gr.update(visible=True), \
	new_status, \
	gr.update(elem_classes="completed-tab"), \
	gr.update(interactive=True), \
	gr.update(value="<div class='alert-box'>Quiz submitted successfully! Scroll down to view your results.</div>", visible=True), \
	gr.update(visible=False)

	quiz_submit.click(
	fn=submit_quiz_and_update,
	inputs=[tab_completed] + quiz_components,
	outputs=[learning_output, learning_output, tab_completed, step2, step3, quiz_alert, nav_message]
	)

	# ===== TAB 3: Personal Questions =====
	with gr.Tab("Personal Profile", id=2) as tab3:
	with gr.Row():
	with gr.Column(scale=1):
	gr.Markdown("### Step 3: Tell Us About Yourself")
	gr.Markdown("This information helps us provide personalized recommendations.")

	with gr.Group():
	name = gr.Textbox(label="Full Name", placeholder="Your name")
	age = gr.Number(label="Age", minimum=MIN_AGE, maximum=MAX_AGE, precision=0)
	interests = gr.Textbox(
	label="Your Interests/Hobbies",
	placeholder="e.g., Science, Music, Sports, Art..."
	)

	save_personal_btn = gr.Button("Save Information", variant="primary")
	save_confirmation = gr.HTML(visible=False)

	gr.Markdown("### Favorites")
	with gr.Group():
	movie = gr.Textbox(label="Favorite Movie")
	movie_reason = gr.Textbox(label="Why do you like it?", lines=2)
	show = gr.Textbox(label="Favorite TV Show")
	show_reason = gr.Textbox(label="Why do you like it?", lines=2)
	book = gr.Textbox(label="Favorite Book")
	book_reason = gr.Textbox(label="Why do you like it?", lines=2)
	character = gr.Textbox(label="Favorite Character (from any story)")
	character_reason = gr.Textbox(label="Why do you like them?", lines=2)

	with gr.Column(scale=1):
	gr.Markdown("### Additional Information")

	blog_checkbox = gr.Checkbox(
	label="Would you like to write a short blog about your learning experiences?",
	value=False
	)
	blog_text = gr.Textbox(
	label="Your Learning Blog",
	placeholder="Write about your learning journey, challenges, goals...",
	lines=8,
	visible=False
	)
	blog_checkbox.change(
	lambda x: gr.update(visible=x),
	inputs=blog_checkbox,
	outputs=blog_text
	)

	def save_personal_info(name, age, interests, current_tab_status):
	if name.strip() and age and interests.strip():
	new_status = current_tab_status.copy()
	new_status[2] = True
	return new_status, gr.update(elem_classes="completed-tab"), gr.update(interactive=True), gr.update(value="<div class='alert-box'>Information saved!</div>", visible=True), gr.update(visible=False)
	return current_tab_status, gr.update(), gr.update(), gr.update(visible=False), gr.update(visible=True)

	save_personal_btn.click(
	fn=save_personal_info,
	inputs=[name, age, interests, tab_completed],
	outputs=[tab_completed, step3, step4, save_confirmation, nav_message]
	)

	# ===== TAB 4: Save & Review =====
	with gr.Tab("Save Profile", id=3) as tab4:
	with gr.Row():
	with gr.Column(scale=1):
	gr.Markdown("### Step 4: Review & Save Your Profile")
	gr.Markdown("Verify your information before saving. You can return to previous steps to make changes.")

	save_btn = gr.Button("Save Profile", variant="primary")

	# Profile management section
	with gr.Group():
	load_profile_dropdown = gr.Dropdown(
	label="Load Existing Profile",
	choices=profile_manager.list_profiles(session_token.value),
	visible=bool(profile_manager.list_profiles(session_token.value))
	)
	with gr.Row():
	load_btn = gr.Button("Load", visible=bool(profile_manager.list_profiles(session_token.value)))
	delete_btn = gr.Button("Delete", variant="stop", visible=bool(profile_manager.list_profiles(session_token.value)))

	clear_btn = gr.Button("Clear Form")

	with gr.Column(scale=2):
	output_summary = gr.Markdown(
	"Your profile summary will appear here after saving.",
	label="Profile Summary"
	)

	# Save profile
	def save_profile_and_update(*args):
	# Extract inputs
	inputs = args[:-1] # All except the last which is tab_completed
	current_tab_status = args[-1]

	# Call the original save function
	summary = profile_manager.save_profile(*inputs)

	# Update completion status
	new_status = current_tab_status.copy()
	new_status[3] = True

	return summary, new_status, gr.update(elem_classes="completed-tab"), gr.update(interactive=True), gr.update(visible=False)

	save_btn.click(
	fn=save_profile_and_update,
	inputs=[
	name, age, interests, transcript_data, learning_output,
	movie, movie_reason, show, show_reason,
	book, book_reason, character, character_reason, blog_text,
	tab_completed
	],
	outputs=[output_summary, tab_completed, step4, step5, nav_message]
	).then(
	fn=lambda: profile_manager.list_profiles(session_token.value),
	outputs=load_profile_dropdown
	).then(
	fn=lambda: gr.update(visible=True),
	outputs=load_btn
	).then(
	fn=lambda: gr.update(visible=True),
	outputs=delete_btn
	)

	# Load profile
	load_btn.click(
	fn=lambda name: profile_manager.load_profile(name, session_token.value),
	inputs=load_profile_dropdown,
	outputs=output_summary
	)

	# Delete profile
	def delete_profile(name, session_token):
	if not name:
	raise gr.Error("Please select a profile to delete")
	try:
	profile_path = profile_manager.get_profile_path(name)
	if profile_path.exists():
	profile_path.unlink()
	return "Profile deleted successfully", ""
	except Exception as e:
	raise gr.Error(f"Error deleting profile: {str(e)}")

	delete_btn.click(
	fn=delete_profile,
	inputs=[load_profile_dropdown, session_token],
	outputs=[output_summary, load_profile_dropdown]
	).then(
	fn=lambda: gr.update(
	choices=profile_manager.list_profiles(session_token.value),
	visible=bool(profile_manager.list_profiles(session_token.value))
	),
	outputs=load_profile_dropdown
	).then(
	fn=lambda: gr.update(visible=bool(profile_manager.list_profiles(session_token.value))),
	outputs=load_btn
	).then(
	fn=lambda: gr.update(visible=bool(profile_manager.list_profiles(session_token.value))),
	outputs=delete_btn
	)

	# Clear form
	clear_btn.click(
	fn=lambda: [gr.update(value="") for _ in range(12)],
	outputs=[
	name, age, interests,
	movie, movie_reason, show, show_reason,
	book, book_reason, character, character_reason,
	blog_text
	]
	).then(
	fn=lambda: gr.update(value=""),
	outputs=output_summary
	).then(
	fn=lambda: gr.update(value=False),
	outputs=blog_checkbox
	).then(
	fn=lambda: gr.update(visible=False),
	outputs=blog_text
	)

	# ===== TAB 5: AI Teaching Assistant =====
	with gr.Tab("AI Assistant", id=4) as tab5:
	gr.Markdown("## Your Personalized Learning Assistant")
	gr.Markdown("Ask me anything about studying, your courses, grades, or learning strategies.")

	# Chat interface with session token
	chatbot = gr.ChatInterface(
	fn=lambda msg, hist: teaching_assistant.generate_response(msg, hist, session_token.value),
	examples=[
	"How should I study for my next math test?",
	"What's my current GPA?",
	"Show me my course history",
	"How can I improve my grades in science?",
	"What study methods match my learning style?"
	],
	title=""
	)

	# Tab navigation logic with completion check
	def navigate_to_tab(tab_index: int, tab_completed_status):
	# Always allow going back to previous tabs
	current_tab = tabs.selected
	if current_tab is not None and tab_index > current_tab:
	# Check if current tab is completed
	if not tab_completed_status.get(current_tab, False):
	return gr.Tabs(selected=current_tab), \
	gr.update(value=f"<div class='nav-message'>Please complete the current tab before proceeding to tab {tab_index + 1}</div>", visible=True), \
	gr.update(visible=False)

	return gr.Tabs(selected=tab_index), gr.update(visible=False), gr.update(visible=False)

	step1.click(
	fn=lambda idx, status: navigate_to_tab(idx, status),
	inputs=[gr.State(0), tab_completed],
	outputs=[tabs, nav_message, quiz_alert]
	)
	step2.click(
	fn=lambda idx, status: navigate_to_tab(idx, status),
	inputs=[gr.State(1), tab_completed],
	outputs=[tabs, nav_message, quiz_alert]
	)
	step3.click(
	fn=lambda idx, status: navigate_to_tab(idx, status),
	inputs=[gr.State(2), tab_completed],
	outputs=[tabs, nav_message, quiz_alert]
	)
	step4.click(
	fn=lambda idx, status: navigate_to_tab(idx, status),
	inputs=[gr.State(3), tab_completed],
	outputs=[tabs, nav_message, quiz_alert]
	)
	step5.click(
	fn=lambda idx, status: navigate_to_tab(idx, status),
	inputs=[gr.State(4), tab_completed],
	outputs=[tabs, nav_message, quiz_alert]
	)

	# Model loading functions
	def load_selected_model(model_name, progress=gr.Progress()):
	try:
	model_loader.load_model(model_name, progress)
	if model_loader.loaded:
	return gr.update(value=f"<div class='alert-box'>{model_name} loaded successfully!</div>", visible=True)
	else:
	return gr.update(value=f"<div class='nav-message'>Failed to load model: {model_loader.error}</div>", visible=True)
	except Exception as e:
	return gr.update(value=f"<div class='nav-message'>Error: {str(e)}</div>", visible=True)

	load_model_btn.click(
	fn=load_selected_model,
	inputs=model_selector,
	outputs=model_status
	)

	return app

	# Create the interface
	app = create_interface()

	# For Hugging Face Spaces deployment
	if __name__ == "__main__":
	app.launch()