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VisionCraft-AI

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import streamlit as st
from pathlib import Path
import torch
from typing import Tuple
from transformers import pipeline, AutoModelForCausalLM, AutoTokenizer
from PIL import Image, ImageDraw, ImageFont
import tempfile
import os
from moviepy.editor import *
import numpy as np
from gtts import gTTS
import textwrap
from concurrent.futures import ThreadPoolExecutor
import io
import unicodedata
import re
import requests
import random
import logging
import time
from typing import Optional, List, Dict, Tuple, Callable
from bs4 import BeautifulSoup
import requests
from io import BytesIO

class ImageScraper:
    def __init__(self):
        self.PIXABAY_API_KEY = "48069976-37e20099248207cee12385560"
        self.headers = {
            'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/91.0.4472.124 Safari/537.36'
        }
        self.temp_dir = Path(tempfile.mkdtemp())
        
        # Initialize keyword extractor model
        try:
            self.keyword_model = pipeline(
                "text-classification",
                model="facebook/bart-large-mnli",
                device=0 if torch.cuda.is_available() else -1
            )
        except Exception as e:
            print(f"Failed to load keyword model: {e}")
            self.keyword_model = None

    def extract_keywords(self, text: str) -> List[Dict[str, str]]:
        """Extract relevant keywords and categories from text using AI"""
        keywords = []
        
        try:
            # Define candidate labels for classification
            candidate_labels = [
                "technology", "science", "education", "business",
                "health", "nature", "people", "urban", "abstract",
                "sports", "food", "travel", "architecture", "art",
                "music", "fashion", "medical", "industrial", "space",
                "environmental", "historical", "cultural", "professional"
            ]
            
            # Use model to classify text against each label
            if self.keyword_model:
                results = self.keyword_model(text, candidate_labels, multi_label=True)
                
                # Filter results with high confidence
                for score, label in zip(results['scores'], results['labels']):
                    if score > 0.3:  # Confidence threshold
                        keywords.append({
                            'keyword': label,
                            'confidence': score,
                            'category': self.categorize_keyword(label)
                        })
            
            # Extract additional keywords using NLP
            additional_keywords = self.extract_noun_phrases(text)
            for keyword in additional_keywords:
                keywords.append({
                    'keyword': keyword,
                    'confidence': 0.5,
                    'category': 'content_specific'
                })
            
            # Sort by confidence
            keywords = sorted(keywords, key=lambda x: x['confidence'], reverse=True)
            
            return keywords
            
        except Exception as e:
            print(f"Keyword extraction error: {e}")
            return self.get_fallback_keywords()


    def process_images(images):
        processed_images = []
        for img in images:
            # Load and resize image
            image = Image.open(requests.get(img['url'], stream=True).raw)
            image = image.resize((640, 480))  # Resize to reduce memory usage
            processed_images.append(image)
        return processed_images

    
    def extract_noun_phrases(self, text: str) -> List[str]:
        """Extract important noun phrases from text"""
        words = text.lower().split()
        phrases = []
        
        # Common adjectives that might indicate important concepts
        adjectives = {'digital', 'smart', 'modern', 'advanced', 'innovative', 
                     'technical', 'professional', 'creative', 'strategic'}
                     
        for i in range(len(words)-1):
            if words[i] in adjectives:
                phrases.append(f"{words[i]} {words[i+1]}")
                
        return list(set(phrases))

    def categorize_keyword(self, keyword: str) -> str:
        """Categorize keyword into general themes"""
        categories = {
            'technical': {'technology', 'digital', 'software', 'computer', 'cyber'},
            'scientific': {'science', 'research', 'laboratory', 'experiment'},
            'business': {'business', 'professional', 'corporate', 'office'},
            'educational': {'education', 'learning', 'teaching', 'academic'},
            'creative': {'art', 'design', 'creative', 'innovation'},
        }
        
        for category, terms in categories.items():
            if any(term in keyword.lower() for term in terms):
                return category
        return 'general'


    def extract_key_topics(self, script: str) -> List[str]:
        """Extract key topics from script with improved VaultGenix-specific processing"""
        try:
            # Define relevant categories for VaultGenix
            categories = {
                'legacy': [
                    'digital legacy', 'legacy management', 'digital estate', 
                    'posthumous', 'inheritance', 'heir', 'custodian'
                ],
                'security': [
                    'encryption', 'security', 'protection', 'privacy', 'AES-256',
                    'data security', 'secure', 'authentication'
                ],
                'technology': [
                    'AI', 'artificial intelligence', 'platform', 'digital', 
                    'automation', 'analytics'
                ],
                'management': [
                    'asset management', 'directive', 'planning', 'preservation',
                    'customization', 'optimization'
                ],
                'identity': [
                    'digital identity', 'presence', 'account', 'profile',
                    'digital footprint'
                ]
            }
            
            # Process text
            text = script.lower()
            found_topics = set()
            
            # Extract category-based matches
            for category, terms in categories.items():
                for term in terms:
                    if term in text:
                        # Add both the term and its category combination
                        found_topics.add(term)
                        if category in ['legacy', 'security', 'technology']:
                            found_topics.add(f"digital {term}")
                            found_topics.add(f"{category} management")
            
            # Extract key compound phrases
            important_phrases = [
                'digital legacy management',
                'AI-driven platform',
                'digital estate planning',
                'legacy preservation',
                'secure inheritance',
                'digital asset protection',
                'intelligent legacy system',
                'automated legacy management',
                'digital identity preservation',
                'secure legacy platform'
            ]
            
            for phrase in important_phrases:
                if phrase.lower() in text:
                    found_topics.add(phrase)
            
            # Prioritize topics based on VaultGenix focus
            priority_topics = sorted(
                found_topics,
                key=lambda x: (
                    'digital legacy' in x,
                    'security' in x or 'secure' in x,
                    'AI' in x.lower() or 'intelligence' in x.lower(),
                    'management' in x,
                    len(x.split())  # Prefer compound terms
                ),
                reverse=True
            )
            
            # Return top unique topics
            return list(dict.fromkeys(priority_topics))[:8]
            
        except Exception as e:
            self.logger.error(f"Topic extraction error: {e}")
            return [
                'digital legacy management',
                'secure inheritance',
                'AI-driven platform',
                'digital asset protection',
                'legacy preservation'
            ]
    
    def get_images_for_keyword(self, keyword: str) -> List[Dict[str, str]]:
        """Get images for a specific keyword with improved relevance"""
        try:
            # Enhance keyword for better search results
            enhanced_keywords = {
                'digital': 'digital technology security',
                'security': 'cybersecurity protection',
                'legacy': 'digital legacy inheritance',
                'management': 'digital management system',
                'AI': 'artificial intelligence technology',
                'protection': 'data protection security'
            }
            
            search_term = enhanced_keywords.get(keyword, keyword)
            
            base_url = "https://pixabay.com/api/"
            params = {
                'key': self.PIXABAY_API_KEY,
                'q': search_term,
                'image_type': 'photo',
                'per_page': 5,
                'safesearch': True,
                'lang': 'en',
                'category': 'technology',  # Focus on technology category
                'orientation': 'horizontal'  # Better for video
            }
            
            response = requests.get(base_url, params=params, headers=self.headers)
            
            if response.status_code == 200:
                data = response.json()
                if 'hits' in data and data['hits']:
                    return [{
                        'url': img['largeImageURL'],
                        'keyword': keyword,
                        'relevance': 'Primary match' if keyword.lower() in img['tags'].lower() else 'Related',
                        'tags': img['tags']
                    } for img in data['hits']]
            return []
            
        except Exception as e:
            print(f"Error fetching images for keyword {keyword}: {e}")
            return []

    def get_pixabay_images(self, query: str) -> List[str]:
        """Get images from Pixabay API with enhanced error handling"""
        try:
            # Clean and encode the query
            clean_query = query.replace(' ', '+').strip()
            base_url = "https://pixabay.com/api/"
            
            params = {
                'key': self.PIXABAY_API_KEY,
                'q': clean_query,
                'image_type': 'photo',
                'per_page': 20,
                'safesearch': True,
                'lang': 'en'
            }
            
            response = requests.get(base_url, params=params, headers=self.headers)
            
            # Debug logging
            print(f"Pixabay API URL: {response.url}")
            print(f"Response status: {response.status_code}")
            
            if response.status_code == 200:
                data = response.json()
                print(f"Total hits: {data.get('totalHits', 0)}")
                if 'hits' in data and data['hits']:
                    image_urls = [img['largeImageURL'] for img in data['hits']]
                    print(f"Found {len(image_urls)} images")
                    return image_urls
                else:
                    print("No images found in response")
                    return self.get_stock_images()
            else:
                print(f"Pixabay API error: Status code {response.status_code}")
                return self.get_stock_images()
                
        except Exception as e:
            print(f"Exception in get_pixabay_images: {str(e)}")
            return self.get_stock_images()

    def get_stock_images(self) -> List[str]:
        """Return preset stock images as fallback"""
        return [
            "https://images.pexels.com/photos/60504/security-protection-anti-virus-software-60504.jpeg",
            "https://images.pexels.com/photos/5380642/pexels-photo-5380642.jpeg",
            "https://images.pexels.com/photos/2582937/pexels-photo-2582937.jpeg",
            "https://images.pexels.com/photos/7319074/pexels-photo-7319074.jpeg",
            "https://images.pexels.com/photos/4164418/pexels-photo-4164418.jpeg",
            "https://images.pexels.com/photos/3861969/pexels-photo-3861969.jpeg",
            "https://images.pexels.com/photos/5473298/pexels-photo-5473298.jpeg",
            "https://images.pexels.com/photos/4348401/pexels-photo-4348401.jpeg",
            "https://images.pexels.com/photos/8386440/pexels-photo-8386440.jpeg",
            "https://images.pexels.com/photos/5473950/pexels-photo-5473950.jpeg"
        ]

    def get_images(self, query: str, num_images: int = 15) -> Dict[str, List[Dict[str, str]]]:
        """Get images with enhanced AI-driven selection and ranking"""
        try:
            # Extract key topics and their importance
            topics = self.extract_key_topics(query)
            topic_scores = {topic: score for score, topic in 
                           zip(np.linspace(1.0, 0.6, len(topics)), topics)}
            
            # Initialize categories
            result = {
                'primary': [],
                'secondary': [],
                'general': []
            }
            
            # Fetch and analyze images for each topic
            for topic, base_score in topic_scores.items():
                images = self.get_images_for_keyword(topic)
                for img in images:
                    # Enhanced relevance scoring
                    relevance_score = self.calculate_relevance_score(img, topic, base_score, query)
                    img['relevance_score'] = relevance_score
                    
                    # Categorize based on relevance score
                    if relevance_score > 0.8:
                        result['primary'].append(img)
                    elif relevance_score > 0.6:
                        result['secondary'].append(img)
                    else:
                        result['general'].append(img)
            
            # Sort each category by relevance score
            for category in result:
                result[category] = sorted(
                    result[category],
                    key=lambda x: x['relevance_score'],
                    reverse=True
                )[:num_images // 3]  # Limit images per category
            
            return result
            
        except Exception as e:
            print(f"Error in get_images: {str(e)}")
            return self.get_fallback_images(num_images)
    
    def calculate_relevance_score(self, image: Dict[str, str], topic: str, base_score: float, query: str) -> float:
        """Calculate enhanced relevance score for an image"""
        score = base_score
        
        # Analyze image tags
        tags = set(image['tags'].lower().split(','))
        query_words = set(query.lower().split())
        
        # Direct matches with query
        query_matches = len(tags.intersection(query_words))
        score += query_matches * 0.1
        
        # Topic relevance
        if topic.lower() in tags:
            score += 0.2
        
        # Context relevance
        relevant_terms = {
            'digital': 0.15,
            'security': 0.15,
            'technology': 0.1,
            'professional': 0.1,
            'modern': 0.05
        }
        
        for term, weight in relevant_terms.items():
            if term in tags:
                score += weight
        
        return min(score, 1.0)  # Normalize to 0-1
        
    def score_keywords(self, query: str, keywords: List[str]) -> Dict[str, float]:
        """Score keywords based on relevance to query"""
        scores = {}
        query_words = set(query.lower().split())
        
        for keyword in keywords:
            score = 0.0
            keyword_words = set(keyword.lower().split())
            
            # Direct word match
            word_matches = len(keyword_words.intersection(query_words))
            score += word_matches * 0.3
            
            # Contextual relevance
            context_terms = {
                'digital': 0.8,
                'security': 0.7,
                'legacy': 0.9,
                'protection': 0.6,
                'management': 0.5,
                'AI': 0.8,
                'technology': 0.6
            }
            
            for term, weight in context_terms.items():
                if term in keyword.lower():
                    score += weight
            
            scores[keyword] = min(score, 1.0)  # Normalize to 0-1
        
        return scores
    
    def analyze_image_relevance(self, image: Dict[str, str], query: str) -> float:
        """Analyze image relevance based on tags and metadata"""
        score = 0.0
        
        # Analyze tags
        tags = set(image['tags'].lower().split(','))
        query_words = set(query.lower().split())
        
        # Tag matching
        matching_tags = len(tags.intersection(query_words))
        score += matching_tags * 0.2
        
        # Context relevance
        relevant_terms = {
            'technology': 0.3,
            'digital': 0.3,
            'security': 0.3,
            'business': 0.2,
            'professional': 0.2,
            'modern': 0.1
        }
        
        for term, weight in relevant_terms.items():
            if term in tags:
                score += weight
        
        return min(score, 1.0)  # Normalize to 0-1
                
                
    def get_fallback_keywords(self) -> List[Dict[str, str]]:
        """Return fallback keywords if AI extraction fails"""
        return [
            {'keyword': 'technology', 'confidence': 1.0, 'category': 'technical'},
            {'keyword': 'business', 'confidence': 0.8, 'category': 'business'},
            {'keyword': 'professional', 'confidence': 0.8, 'category': 'business'},
            {'keyword': 'digital', 'confidence': 0.7, 'category': 'technical'}
        ]

    def verify_image_url(self, url: str) -> bool:
        """Verify if an image URL is accessible"""
        try:
            response = requests.head(url, timeout=5)
            return response.status_code == 200
        except:
            return False

    def generate_fallback_audio(self, script: str) -> AudioFileClip:
        """Generate fallback audio using gTTS"""
        try:
            audio_path = self.temp_dir / "voice.mp3"
            tts = gTTS(text=script, lang='en', slow=False)
            tts.save(str(audio_path))
            return AudioFileClip(str(audio_path))
        except Exception as e:
            print(f"Fallback audio generation failed: {e}")
            # Create silent audio clip
            return AudioFileClip(str(audio_path)) if os.path.exists(str(audio_path)) else None

    def scrape_pexels(self, query: str) -> List[str]:
        urls = []
        try:
            url = f"https://www.pexels.com/search/{query.replace(' ', '%20')}/"
            response = requests.get(url, headers=self.headers)
            soup = BeautifulSoup(response.text, 'html.parser')
            
            # Updated selector to target image sources
            for img in soup.find_all('img', {'data-image-width': True}):
                if img.get('src') and 'photos' in img['src']:
                    urls.append(img['src'])
        except Exception as e:
            print(f"Pexels scraping error: {e}")
        return urls

    def scrape_unsplash(self, query: str) -> List[str]:
        urls = []
        try:
            url = f"https://unsplash.com/s/photos/{query.replace(' ', '-')}"
            response = requests.get(url, headers=self.headers)
            soup = BeautifulSoup(response.text, 'html.parser')
            
            # Updated selector for Unsplash
            for img in soup.find_all('img', {'srcset': True}):
                src = img.get('src')
                if src and 'images.unsplash.com' in src:
                    urls.append(src)
        except Exception as e:
            print(f"Unsplash scraping error: {e}")
        return urls

class EnhancedVideoGenerator:
    def __init__(self):
        try:
            self.setup_logging()
            self.setup_device()
            self.initialize_models()
            self.setup_workspace()
            self.load_assets()
            self.setup_themes()
            self.image_scraper = ImageScraper()
            # Add missing configurations
            self.ELEVEN_LABS_API_KEY = "sk_acdad9d2d82d504bddbe5ed4aa290ca772c106aed5b128ba"  # Replace with actual key
            self.temp_dir = Path(tempfile.mkdtemp())
            
        except Exception as e:
            logging.error(f"Initialization failed: {str(e)}")
            raise RuntimeError("Failed to initialize video generator")

    def generate_video_in_background(script):
        with ThreadPoolExecutor() as executor:
            future = executor.submit(generate_video, script)
            return future.result()  # Wait for the result without blocking UI

    
    def generate_video(script):
        st.progress(0)
        try:
            # Your video generation logic here
            for i in range(100):  # Simulate progress
                time.sleep(0.1)  # Simulate work being done
                st.progress(i + 1)  # Update progress bar
        except Exception as e:
            logging.error(f"Error during video generation: {e}")
            st.error("An error occurred while generating the video.")


    def generate_fallback_audio(self, script: str) -> AudioFileClip:
        """Generate fallback audio using gTTS"""
        try:
            audio_path = self.temp_dir / "voice.mp3"
            tts = gTTS(text=script, lang='en', slow=False)
            tts.save(str(audio_path))
            return AudioFileClip(str(audio_path))
        except Exception as e:
            print(f"Fallback audio generation failed: {e}")
            # Create silent audio clip
            return AudioFileClip(str(audio_path)) if os.path.exists(str(audio_path)) else None
    
    def apply_video_effects(self, frame: np.ndarray, effect_params: dict) -> np.ndarray:
        """Apply various video effects to a frame"""
        try:
            # Convert to PIL Image for effects
            img = Image.fromarray(frame)
            
            # Apply zoom if specified
            if effect_params.get('zoom'):
                zoom_factor = effect_params['zoom']
                w, h = img.size
                zoom_w = int(w * zoom_factor)
                zoom_h = int(h * zoom_factor)
                
                # Calculate crop box to maintain center
                left = (zoom_w - w) // 2
                top = (zoom_h - h) // 2
                right = left + w
                bottom = top + h
                
                img = img.resize((zoom_w, zoom_h), Image.LANCZOS)
                img = img.crop((left, top, right, bottom))
            
            # Apply brightness adjustment
            if 'brightness' in effect_params:
                enhancer = ImageEnhance.Brightness(img)
                img = enhancer.enhance(effect_params['brightness'])
            
            # Apply contrast adjustment
            if 'contrast' in effect_params:
                enhancer = ImageEnhance.Contrast(img)
                img = enhancer.enhance(effect_params['contrast'])
            
            # Apply blur effect
            if effect_params.get('blur'):
                frame = np.array(img)
                frame = cv2.GaussianBlur(frame, (5, 5), 0)
                return frame
                
            return np.array(img)
            
        except Exception as e:
            self.logger.error(f"Effect application failed: {str(e)}")
            return frame
        
    def setup_logging(self):
        """Configure logging for the application"""
        logging.basicConfig(
            level=logging.INFO,
            format='%(asctime)s - %(name)s - %(levelname)s - %(message)s',
            handlers=[
                logging.FileHandler('video_generator.log'),
                logging.StreamHandler()
            ]
        )
        self.logger = logging.getLogger(__name__)

    def setup_device(self):
        """Set up computing device (CPU/GPU)"""
        self.device = "cuda" if torch.cuda.is_available() else "cpu"
        self.logger.info(f"Using device: {self.device}")

    def initialize_models(self):
        """Initialize all AI models"""
        try:
            # Text generation model initialization with error handling
            try:
                self.text_generator = pipeline(
                    'text-generation',
                    model='gpt2',
                    device=0 if self.device == "cuda" else -1
                )
            except Exception as e:
                self.logger.warning(f"Text generator initialization failed: {str(e)}")
                self.text_generator = None
    
            # Skip the StableDiffusion model initialization as it requires additional setup
            self.image_model = None
            
            # Initialize stability API attribute
            self.stability_api = None
    
        except Exception as e:
            self.logger.error(f"Model initialization failed: {str(e)}")
            # Don't raise exception, allow initialization with degraded functionality
            pass

    def setup_workspace(self):
        """Set up working directory and resources"""
        self.temp_dir = Path(tempfile.mkdtemp())
        self.asset_dir = self.temp_dir / "assets"
        self.asset_dir.mkdir(exist_ok=True)

    def setup_themes(self):
        """Set up visual themes"""
        self.themes = {
            'Professional': {
                'bg': (240, 240, 240),
                'accent': (0, 120, 212),
                'text': (33, 33, 33)
            },
            'Creative': {
                'bg': (255, 250, 240),
                'accent': (255, 123, 0),
                'text': (51, 51, 51)
            },
            'Educational': {
                'bg': (248, 249, 250),
                'accent': (40, 167, 69),
                'text': (33, 37, 41)
            }
        }

    def load_assets(self):
        """Load visual assets and fonts"""
        try:
            # Try multiple font options
            font_options = [
                "arial.ttf",
                "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
                "/System/Library/Fonts/Helvetica.ttc"
            ]
            
            for font_path in font_options:
                try:
                    self.font = ImageFont.truetype(font_path, 40)
                    break
                except OSError:
                    continue
            else:
                self.font = ImageFont.load_default()
                self.logger.warning("Using default font - custom font loading failed")

        except Exception as e:
            self.logger.error(f"Asset loading failed: {str(e)}")

    def generate_visual_assets(self, script: str, style: str) -> List[Dict]:
        """Generate relevant visual assets based on script content"""
        try:
            # Extract key topics from script
            topics = self.extract_key_topics(script)
            
            assets = []
            for topic in topics:
                # Generate AI image
                image = self.generate_ai_image(topic, style)
                if image:
                    assets.append({
                        'type': 'image',
                        'data': image,
                        'topic': topic
                    })

            return assets

        except Exception as e:
            self.logger.error(f"Visual asset generation failed: {str(e)}")
            return []

    def create_enhanced_frame(
        self,
        text: str,
        theme: dict,
        frame_number: int,
        total_frames: int,
        background_image: Optional[Image.Image] = None,
        size: Tuple[int, int] = (1920, 1080)  # Upgraded to 1080p
    ) -> np.ndarray:
        """Create a visually enhanced frame with background, text, and effects"""
        try:
            # Create base frame
            if background_image:
                # Resize and crop background to fit
                bg = background_image.resize(size, Image.LANCZOS)
                frame = np.array(bg)
            else:
                frame = np.full((size[1], size[0], 3), theme['bg'], dtype=np.uint8)

            # Convert to PIL Image for drawing
            img = Image.fromarray(frame)
            draw = ImageDraw.Draw(img, 'RGBA')

            # Add subtle gradient overlay
            overlay = Image.new('RGBA', size, (0, 0, 0, 0))
            overlay_draw = ImageDraw.Draw(overlay)
            overlay_draw.rectangle(
                [0, 0, size[0], size[1]],
                fill=(255, 255, 255, 100)  # Semi-transparent white
            )
            img = Image.alpha_composite(img.convert('RGBA'), overlay)

            # Add text with improved styling
            text = self.clean_text(text)
            wrapped_text = textwrap.fill(text, width=50)
            
            # Calculate text position
            text_bbox = draw.textbbox((0, 0), wrapped_text, font=self.font)
            text_width = text_bbox[2] - text_bbox[0]
            text_height = text_bbox[3] - text_bbox[1]
            text_x = (size[0] - text_width) // 2
            text_y = size[1] - text_height - 100  # Position at bottom

            # Draw text background
            padding = 20
            draw.rectangle(
                [
                    text_x - padding,
                    text_y - padding,
                    text_x + text_width + padding,
                    text_y + text_height + padding
                ],
                fill=(0, 0, 0, 160)  # Semi-transparent black
            )

            # Draw text
            draw.text(
                (text_x, text_y),
                wrapped_text,
                fill=(255, 255, 255, 255),
                font=self.font
            )

            # Add progress bar with animation
            self.draw_animated_progress_bar(
                draw,
                frame_number,
                total_frames,
                size,
                theme
            )

            return np.array(img)

        except Exception as e:
            self.logger.error(f"Frame creation failed: {str(e)}")
            # Return fallback frame
            return np.full((size[1], size[0], 3), theme['bg'], dtype=np.uint8)

    def draw_animated_progress_bar(
        self,
        draw: ImageDraw.Draw,
        frame_number: int,
        total_frames: int,
        size: Tuple[int, int],
        theme: dict
    ):
        """Draw an animated progress bar with effects"""
        try:
            progress = frame_number / total_frames
            bar_width = int(size[0] * 0.8)  # 80% of screen width
            bar_height = 6
            x_offset = (size[0] - bar_width) // 2
            y_position = size[1] - 40

            # Draw background bar
            draw.rectangle(
                [x_offset, y_position, x_offset + bar_width, y_position + bar_height],
                fill=(200, 200, 200, 160)
            )

            # Draw progress with gradient effect
            progress_width = int(bar_width * progress)
            for x in range(progress_width):
                alpha = int(255 * (x / bar_width))  # Gradient effect
                draw.line(
                    [x_offset + x, y_position, x_offset + x, y_position + bar_height],
                    fill=(theme['accent'][0], theme['accent'][1], theme['accent'][2], alpha)
                )

            # Add animated highlight
            highlight_pos = x_offset + progress_width
            if highlight_pos < x_offset + bar_width:
                draw.rectangle(
                    [highlight_pos-2, y_position-1, highlight_pos+2, y_position + bar_height+1],
                    fill=(255, 255, 255, 200)
                )

        except Exception as e:
            self.logger.error(f"Progress bar drawing failed: {str(e)}")

    def generate_voice_over(self, script: str) -> AudioFileClip:
        try:
            # Try ElevenLabs first
            audio_path = self.temp_dir / "voice.mp3"
            
            headers = {
                "xi-api-key": self.ELEVEN_LABS_API_KEY,
                "Content-Type": "application/json"
            }
            
            data = {
                "text": script,
                "model_id": "eleven_monolingual_v1",
                "voice_settings": {
                    "stability": 0.75,
                    "similarity_boost": 0.75
                }
            }
            
            response = requests.post(
                "https://api.elevenlabs.io/v1/text-to-speech/21m00Tcm4TlvDq8ikWAM",
                headers=headers,
                json=data
            )
            
            if response.status_code == 200:
                with open(audio_path, "wb") as f:
                    f.write(response.content)
            else:
                # Fallback to Azure TTS
                speech_config = speechsdk.SpeechConfig(
                    subscription=self.AZURE_SPEECH_KEY,
                    region=self.AZURE_REGION
                )
                speech_config.speech_synthesis_voice_name = "en-US-JennyNeural"
                
                synthesizer = speechsdk.SpeechSynthesizer(speech_config=speech_config)
                result = synthesizer.speak_text_async(script).get()
                
                if result.reason == speechsdk.ResultReason.SynthesizingAudioCompleted:
                    with open(audio_path, "wb") as f:
                        f.write(result.audio_data)
            
            return AudioFileClip(str(audio_path))
            
        except Exception as e:
            print(f"Voice generation error: {e}")
            return self.generate_fallback_audio(script)

    def generate_subtitles(self, script: str, duration: int) -> str:
        words = script.split()
        words_per_second = len(words) / duration
        subtitle_path = self.temp_dir / "subtitles.srt"
        
        with open(subtitle_path, 'w') as f:
            current_time = 0
            words_per_subtitle = int(words_per_second * 3)  # 3 seconds per subtitle
            
            for i in range(0, len(words), words_per_subtitle):
                subtitle_words = words[i:i + words_per_subtitle]
                if subtitle_words:
                    start_time = self.format_time(current_time)
                    current_time += len(subtitle_words) / words_per_second
                    end_time = self.format_time(current_time)
                    
                    f.write(f"{i//words_per_subtitle + 1}\n")
                    f.write(f"{start_time} --> {end_time}\n")
                    f.write(f"{' '.join(subtitle_words)}\n\n")
        
        return str(subtitle_path)

    @staticmethod
    def format_time(seconds: float) -> str:
        hours = int(seconds // 3600)
        minutes = int((seconds % 3600) // 60)
        secs = int(seconds % 60)
        msecs = int((seconds - int(seconds)) * 1000)
        return f"{hours:02d}:{minutes:02d}:{secs:02d},{msecs:03d}"

    def create_video(self, script: str, style: str, duration: int, output_path: str, 
                    selected_images: List[str], video_effects: dict = None, 
                    progress_callback: Callable[[float], None] = None) -> str:
        """Create video with enhanced error handling and progress tracking"""
        try:
            if not selected_images:
                raise ValueError("No images provided for video generation")

            # Initialize moviepy
            import moviepy.editor as mpy
            from moviepy.editor import ImageSequenceClip, AudioFileClip
            
            # Process images
            processed_images = []
            for idx, img_url in enumerate(selected_images):
                try:
                    response = requests.get(img_url, timeout=10)
                    img = Image.open(BytesIO(response.content))
                    img = img.convert('RGB').resize((1920, 1080), Image.LANCZOS)
                    processed_images.append(np.array(img))
                    
                    if progress_callback:
                        progress_callback((idx + 1) / len(selected_images) * 20)
                except Exception as e:
                    logging.error(f"Error processing image {img_url}: {e}")
                    continue
            
            if not processed_images:
                raise ValueError("Failed to process any images")

            # Generate audio
            if progress_callback:
                progress_callback(25)
            audio = self.generate_voice_over(script)
            
            # Calculate video parameters
            fps = 30
            total_duration = duration
            frames_per_image = int(fps * total_duration / len(processed_images))
            
            # Generate frames with effects
            frames = []
            for img_array in processed_images:
                for _ in range(frames_per_image):
                    if video_effects and video_effects.get('zoom'):
                        # Apply zoom effect
                        zoom = video_effects['zoom']
                        h, w = img_array.shape[:2]
                        scaled_h, scaled_w = int(h * zoom), int(w * zoom)
                        img = Image.fromarray(img_array).resize((scaled_w, scaled_h), Image.LANCZOS)
                        # Crop to original size from center
                        left = (scaled_w - w) // 2
                        top = (scaled_h - h) // 2
                        img = img.crop((left, top, left + w, top + h))
                        frames.append(np.array(img))
                    else:
                        frames.append(img_array)

            if progress_callback:
                progress_callback(60)

            # Create video clip
            video_clip = ImageSequenceClip(frames, fps=fps)
            
            # Adjust audio duration if needed
            if audio.duration > video_clip.duration:
                audio = audio.subclip(0, video_clip.duration)
            elif audio.duration < video_clip.duration:
                video_clip = video_clip.subclip(0, audio.duration)

            # Combine video and audio
            final_clip = video_clip.set_audio(audio)
            
            if progress_callback:
                progress_callback(80)

            # Ensure output directory exists
            os.makedirs(os.path.dirname(output_path), exist_ok=True)

            # Write final video
            final_clip.write_videofile(
                output_path,
                fps=fps,
                codec='libx264',
                audio_codec='aac',
                ffmpeg_params=['-pix_fmt', 'yuv420p'],
                verbose=False,
                logger=None
            )

            if progress_callback:
                progress_callback(100)

            return output_path

        except Exception as e:
            logging.error(f"Video creation failed: {str(e)}")
            raise
        finally:
            # Cleanup
            try:
                if 'video_clip' in locals():
                    video_clip.close()
                if 'final_clip' in locals():
                    final_clip.close()
                if 'audio' in locals():
                    audio.close()
            except Exception as e:
                logging.error(f"Cleanup error: {e}")
            
                
                
    def generate_visual_assets(self, script: str, style: str) -> List[Dict]:
        """Generate relevant visual assets based on script content"""
        try:
            # Simplified asset generation for faster processing
            topics = self.extract_key_topics(script)[:3]  # Limit to 3 topics
            
            assets = []
            for topic in topics:
                # Create simple colored backgrounds instead of AI images
                img = Image.new('RGB', (1920, 1080), self.themes[style]['bg'])
                assets.append({
                    'type': 'image',
                    'data': img,
                    'topic': topic
                })
    
            return assets
    
        except Exception as e:
            self.logger.error(f"Visual asset generation failed: {str(e)}")
            return []

    @staticmethod
    def clean_text(text: str) -> str:
        """Clean and normalize text for display"""
        if not isinstance(text, str):
            text = str(text)
        
        # Normalize unicode characters
        text = unicodedata.normalize('NFKD', text)
        
        # Remove non-ASCII characters
        text = text.encode('ascii', 'ignore').decode('ascii')
        
        # Replace problematic characters
        replacements = {
            '–': '-',    # en dash
            '—': '-',    # em dash
            '"': '"',    # smart quotes
            '"': '"',    # smart quotes
            ''': "'",    # smart apostrophe
            ''': "'",    # smart apostrophe
            '…': '...',  # ellipsis
        }
        for old, new in replacements.items():
            text = text.replace(old, new)
        
        # Remove any remaining non-standard characters
        text = re.sub(r'[^\x00-\x7F]+', '', text)
        
        return text.strip()

    def generate_ai_image(self, prompt: str, style: str) -> Optional[Image.Image]:
        """Generate an AI image using Stability AI"""
        try:
            if not self.stability_api:
                return None

            # Enhance prompt based on style
            style_prompts = {
                'Professional': "professional, corporate, clean, modern",
                'Creative': "artistic, vibrant, innovative, dynamic",
                'Educational': "clear, informative, academic, detailed"
            }
            
            enhanced_prompt = f"{prompt}, {style_prompts.get(style, '')}, high quality, 4k"
            
            # Generate image
            response = self.stability_api.generate(
                prompt=enhanced_prompt,
                samples=1,
                width=1920,
                height=1080
            )
            
            if response and len(response) > 0:
                image_data = response[0].image
                return Image.open(io.BytesIO(image_data))
            
            return None

        except Exception as e:
            self.logger.error(f"AI image generation failed: {str(e)}")
            return None

    def cleanup(self):
        """Clean up temporary files and resources"""
        try:
            for file in self.temp_dir.glob('*'):
                try:
                    if file.is_file():
                        file.unlink()
                    elif file.is_dir():
                        import shutil
                        shutil.rmtree(file)
                except Exception as e:
                    self.logger.warning(f"Failed to delete {file}: {str(e)}")
            
            self.temp_dir.rmdir()
            
        except Exception as e:
            self.logger.error(f"Cleanup failed: {str(e)}")

    def __enter__(self):
        return self

    def __exit__(self, exc_type, exc_val, exc_tb):
        self.cleanup()

# Streamlit UI Class
class VideoGeneratorUI:
    def __init__(self):
        self.generator = EnhancedVideoGenerator()
        self.setup_ui()

    def setup_ui(self):
        st.set_page_config(layout="wide")
    
        # Initialize session state
        if 'processing_complete' not in st.session_state:
            st.session_state.processing_complete = False
        if 'current_step' not in st.session_state:
            st.session_state.current_step = 'input'
        
        st.title("VaultGenix Video Generator")
        st.markdown("Create professional videos for your digital legacy management platform")
        
        # Add sidebar for advanced settings
        with st.sidebar:
            st.subheader("Advanced Settings")
            st.session_state.enable_transitions = st.checkbox("Enable Transitions", value=True)
            st.session_state.enable_captions = st.checkbox("Enable Captions", value=True)
            st.session_state.high_quality = st.checkbox("High Quality Export", value=True)
        
        # Main content area
        with st.container():
            if st.session_state.current_step == 'input':
                self.show_input_form()
            elif st.session_state.current_step == 'video_generation':
                self.show_video_generation()

    def show_input_form(self):
        with st.form(key='prompt_form'):
            prompt = st.text_area("Enter your video script", height=200)
            col1, col2 = st.columns(2)
            with col1:
                st.session_state.video_style = st.selectbox(
                    "Choose style",
                    ["Professional", "Creative", "Educational"]
                )
            with col2:
                st.session_state.voice_style = st.selectbox(
                    "Choose voice style",
                    ["Professional Male", "Professional Female", "Casual Male", "Casual Female"]
                )
            
            submit_button = st.form_submit_button(label='Generate Video')

            # Add this in the show_input_form method
            if len(prompt) > 5000:  # Adjust this limit as needed
                st.error("Script is too long. Please limit to 5000 characters.")
                return
            
            if submit_button and prompt:
                st.session_state.prompt = prompt
                # Automatically select images based on AI analysis
                with st.spinner("AI analyzing script and selecting relevant images..."):
                    self.auto_select_images()
                st.session_state.current_step = 'video_generation'
                st.rerun()

    def auto_select_images(self):
        """Automatically select the most relevant images based on AI analysis"""
        try:
            keywords = self.generator.image_scraper.extract_key_topics(st.session_state.prompt)
            st.write("🤖 AI-detected keywords:", ", ".join(keywords))
            
            image_categories = self.generator.image_scraper.get_images(st.session_state.prompt)
            selected_images = []
            
            if image_categories and isinstance(image_categories, dict):
                # Select top images from each category based on relevance score
                for category, images in image_categories.items():
                    # Sort images by relevance score
                    sorted_images = sorted(images, key=lambda x: x.get('relevance_score', 0), reverse=True)
                    
                    # Select top images from each category
                    num_to_select = {
                        'primary': 3,
                        'secondary': 2,
                        'general': 1
                    }.get(category.lower(), 1)
                    
                    selected = [img['url'] for img in sorted_images[:num_to_select]]
                    selected_images.extend(selected)
            
            if not selected_images:
                # Fallback to stock images if no images were selected
                selected_images = self.generator.image_scraper.get_stock_images()[:6]
            
            st.session_state.selected_images = selected_images
            
        except Exception as e:
            st.error(f"Error in image selection: {str(e)}")
            # Fallback to stock images
            st.session_state.selected_images = self.generator.image_scraper.get_stock_images()[:6]

    def show_image_selection(self):
        st.subheader("AI-Selected Images for Your Video")
        
        # Display back button
        if st.button("← Back to Script"):
            st.session_state.current_step = 'input'
            st.rerun()
        
        try:
            with st.spinner("AI analyzing script and selecting relevant images..."):
                keywords = self.generator.image_scraper.extract_key_topics(st.session_state.prompt)
                st.write("🤖 AI-detected keywords:", ", ".join(keywords))
                
                image_categories = self.generator.image_scraper.get_images(st.session_state.prompt)
                
                if image_categories and isinstance(image_categories, dict):
                    # Create columns for image selection
                    col1, col2 = st.columns([3, 1])
                    
                    with col1:
                        selected_images = []
                        
                        for category, images in image_categories.items():
                            if images:
                                st.subheader(f"{category.title()} Images")
                                selected = self.display_image_grid(images)
                                selected_images.extend(selected)
                        
                        # Update session state with selected images
                        st.session_state.selected_images = selected_images
                    
                    with col2:
                        # Show selection summary
                        st.subheader("Selection Summary")
                        selected_count = len(st.session_state.selected_images)
                        st.write(f"Selected: {selected_count} images")
                        
                        if selected_count > 0:
                            if st.button("Continue to Video Generation →", type="primary"):
                                st.session_state.current_step = 'video_generation'
                                st.rerun()
                        else:
                            st.warning("Please select at least one image")
                
                else:
                    st.warning("No images found. Please try a different prompt.")
                    
        except Exception as e:
            st.error(f"An error occurred: {str(e)}")
            print(f"Error in image selection: {str(e)}")
    
    
    def display_image_grid(self, images: List[Dict[str, str]], cols: int = 3) -> List[str]:
        """Display images in a grid and return selected image URLs"""
        selected_urls = []
        
        # Initialize session state for image selection if not exists
        if 'image_selections' not in st.session_state:
            st.session_state.image_selections = {}
        
        n_images = len(images)
        n_rows = (n_images + cols - 1) // cols
        
        for row in range(n_rows):
            with st.container():
                columns = st.columns(cols)
                for col in range(cols):
                    idx = row * cols + col
                    if idx < n_images:
                        img = images[idx]
                        with columns[col]:
                            try:
                                st.image(img['url'], use_container_width=True)
                                
                                # Create unique key for each checkbox
                                checkbox_key = f"img_select_{row}_{col}_{hash(img['url'])}"
                                
                                # Pre-select images based on AI confidence score
                                default_selected = img.get('relevance_score', 0) > 0.6
                                
                                # Initialize checkbox state if not exists
                                if checkbox_key not in st.session_state.image_selections:
                                    st.session_state.image_selections[checkbox_key] = default_selected
                                
                                # Create checkbox with persistent state
                                if st.checkbox(
                                    f"Select (AI Confidence: {img.get('relevance_score', 0)*100:.1f}%)",
                                    key=checkbox_key,
                                    value=st.session_state.image_selections[checkbox_key]
                                ):
                                    selected_urls.append(img['url'])
                                
                                # Show image metadata
                                st.markdown(
                                    f"""<div style='font-size: 0.8em;'>
                                    Keywords: {img.get('keyword', 'N/A')}<br>
                                    Category: {img.get('category', 'General')}
                                    </div>""",
                                    unsafe_allow_html=True
                                )
                            except Exception as e:
                                st.error(f"Error displaying image: {str(e)}")
        
        return selected_urls
    
        
    def show_video_generation(self):
        st.subheader("Video Generation Settings")
        
        # Display back button
        if st.button("← Back to Image Selection"):
            st.session_state.current_step = 'image_selection'
            st.rerun()
        
        # Show selected images preview
        st.write("Selected Images:")
        cols = st.columns(4)
        for idx, img_url in enumerate(st.session_state.selected_images):
            with cols[idx % 4]:
                st.image(img_url, width=150)
        
        # Video settings
        col1, col2 = st.columns(2)
        
        with col1:
            duration = st.slider(
                "Video duration (seconds)",
                min_value=30,
                max_value=180,
                value=60,
                step=30
            )
            
            background_music = st.selectbox(
                "Background Music",
                ["None", "Corporate", "Upbeat", "Inspirational", "Technology"]
            )
        
        with col2:
            transition_style = st.selectbox(
                "Transition Style",
                ["Fade", "Slide", "Zoom", "None"]
            )
            
            music_volume = st.slider(
                "Music Volume",
                min_value=0.0,
                max_value=1.0,
                value=0.3,
                step=0.1
            )
        
        # Advanced video effects
        with st.expander("Advanced Video Effects"):
            effect_col1, effect_col2 = st.columns(2)
            
            with effect_col1:
                zoom = st.slider(
                    "Zoom Effect",
                    min_value=1.0,
                    max_value=1.5,
                    value=1.0,
                    step=0.1
                )
                
                brightness = st.slider(
                    "Brightness",
                    min_value=0.5,
                    max_value=1.5,
                    value=1.0,
                    step=0.1
                )
            
            with effect_col2:
                contrast = st.slider(
                    "Contrast",
                    min_value=0.5,
                    max_value=1.5,
                    value=1.0,
                    step=0.1
                )
                
                enable_blur = st.checkbox(
                    "Enable Blur Effect",
                    value=False
                )
        
        # Add state management for video generation
        if 'video_generation_started' not in st.session_state:
            st.session_state.video_generation_started = False
        if 'video_path' not in st.session_state:
            st.session_state.video_path = None
        
        # Generate video button
        if st.button("🎬 Generate Video", type="primary") or st.session_state.video_generation_started:
            st.session_state.video_generation_started = True
            
            if not st.session_state.selected_images:
                st.error("No images selected. Please go back and select images.")
                st.session_state.video_generation_started = False
                return
            
            try:
                # Create progress containers
                progress_text = st.empty()
                progress_bar = st.progress(0)
                
                # Define video effects
                video_effects = {
                    'zoom': zoom,
                    'brightness': brightness,
                    'contrast': contrast,
                    'blur': enable_blur,
                    'transition_style': transition_style,
                    'subtitle_style': 'Modern',  # Default value
                    'caption_position': 'Bottom',  # Default value
                    'background_music': background_music,
                    'music_volume': music_volume
                }
                
                # Set up output path
                output_dir = "temp_videos"
                os.makedirs(output_dir, exist_ok=True)
                output_path = os.path.join(output_dir, f"vaultgenix_video_{int(time.time())}.mp4")
                
                # Progress callback
                def progress_callback(progress):
                    progress_bar.progress(int(progress))
                    progress_text.text(f"Generating video: {int(progress)}% complete")
                    time.sleep(0.1)  # Add small delay to prevent UI freezing
                
                # Generate video with error handling
                if not st.session_state.video_path:
                    for progress in range(0, 101, 5):
                        progress_callback(progress)
                        if progress == 25:  # The point where it was failing before
                            time.sleep(1)  # Add extra delay at critical point
                            
                        if progress == 100:
                            video_path = self.generator.create_video(
                                st.session_state.prompt,
                                st.session_state.video_style,
                                duration,
                                output_path,
                                st.session_state.selected_images,
                                video_effects
                            )
                            st.session_state.video_path = video_path
                
                # Display video after generation
                if st.session_state.video_path and os.path.exists(st.session_state.video_path):
                    st.success("✨ Video generated successfully!")
                    
                    # Display video
                    with open(st.session_state.video_path, 'rb') as video_file:
                        video_bytes = video_file.read()
                        st.video(video_bytes)
                        
                        # Download options
                        col1, col2 = st.columns(2)
                        with col1:
                            st.download_button(
                                label="⬇️ Download Video",
                                data=video_bytes,
                                file_name=os.path.basename(st.session_state.video_path),
                                mime="video/mp4"
                            )
                        with col2:
                            if st.session_state.high_quality:
                                st.download_button(
                                    label="⬇️ Download High Quality",
                                    data=video_bytes,
                                    file_name=f"high_quality_{os.path.basename(st.session_state.video_path)}",
                                    mime="video/mp4"
                                )
                    
                    # Reset generation state
                    if st.button("Generate Another Video"):
                        st.session_state.video_generation_started = False
                        st.session_state.video_path = None
                        st.rerun()
                        
            except Exception as e:
                st.error(f"Error generating video: {str(e)}")
                logging.error(f"Video generation error: {str(e)}")
                st.session_state.video_generation_started = False
                st.session_state.video_path = None
        
if __name__ == "__main__":
    ui = VideoGeneratorUI()