""" Ultra Supreme Optimizer - Main optimization engine for image analysis VERSIÓN MEJORADA - Usa el prompt completo de CLIP Interrogator """ # IMPORTANT: spaces must be imported BEFORE torch or any CUDA-using library import spaces import gc import logging import re from datetime import datetime from typing import Tuple, Dict, Any, Optional import torch import numpy as np from PIL import Image from clip_interrogator import Config, Interrogator from analyzer import UltraSupremeAnalyzer logger = logging.getLogger(__name__) class UltraSupremeOptimizer: """Main optimizer class for ultra supreme image analysis""" def __init__(self): self.interrogator: Optional[Interrogator] = None self.analyzer = UltraSupremeAnalyzer() self.usage_count = 0 self.device = self._get_device() self.is_initialized = False # Forzar float32 en todo PyTorch torch.backends.cuda.matmul.allow_tf32 = False torch.backends.cudnn.allow_tf32 = False # Inicializar modelo inmediatamente en CPU con float32 self.initialize_model() @staticmethod def _get_device() -> str: """Determine the best available device for computation""" if torch.cuda.is_available(): return "cuda" elif torch.backends.mps.is_available(): return "mps" else: return "cpu" def initialize_model(self) -> bool: """Initialize the CLIP interrogator model - FLOAT32 FORZADO""" if self.is_initialized: return True try: # FORZAR FLOAT32 EN TODO - Configuración máxima precisión config = Config( clip_model_name="ViT-L-14/openai", download_cache=True, chunk_size=2048, quiet=True, device="cpu" # Inicializar en CPU para controlar precisión ) self.interrogator = Interrogator(config) # FORZAR FLOAT32 EN TODOS LOS COMPONENTES DEL MODELO if hasattr(self.interrogator, 'clip_model') and self.interrogator.clip_model is not None: self.interrogator.clip_model = self.interrogator.clip_model.float() logger.info("CLIP model forced to float32") if hasattr(self.interrogator, 'blip_model') and self.interrogator.blip_model is not None: self.interrogator.blip_model = self.interrogator.blip_model.float() logger.info("BLIP model forced to float32") self.is_initialized = True # Clean up memory after initialization gc.collect() return True except Exception as e: logger.error(f"Initialization error: {e}") return False def optimize_image(self, image: Any) -> Optional[Image.Image]: """Optimize image for processing""" if image is None: return None try: # Convert to PIL Image if necessary if isinstance(image, np.ndarray): image = Image.fromarray(image) elif not isinstance(image, Image.Image): image = Image.open(image) # Convert to RGB if necessary if image.mode != 'RGB': image = image.convert('RGB') # Resize if too large - usar tamaño generoso para máxima calidad max_size = 1024 if self.device != "cpu" else 768 if image.size[0] > max_size or image.size[1] > max_size: image.thumbnail((max_size, max_size), Image.Resampling.LANCZOS) return image except Exception as e: logger.error(f"Image optimization error: {e}") return None def apply_flux_rules(self, base_prompt: str) -> str: """Aplica las reglas de Flux a un prompt base de CLIP Interrogator""" # Limpiar el prompt de elementos no deseados cleanup_patterns = [ r',\s*trending on artstation', r',\s*trending on [^,]+', r',\s*\d+k\s*', r',\s*\d+k resolution', r',\s*artstation', r',\s*concept art', r',\s*digital art', r',\s*by greg rutkowski', # Remover artistas genéricos overused ] cleaned_prompt = base_prompt for pattern in cleanup_patterns: cleaned_prompt = re.sub(pattern, '', cleaned_prompt, flags=re.IGNORECASE) # Detectar el tipo de imagen para añadir configuración de cámara apropiada camera_config = "" if any(word in base_prompt.lower() for word in ['portrait', 'person', 'man', 'woman', 'face']): camera_config = ", Shot on Hasselblad X2D 100C, 90mm f/2.5 lens at f/2.8, professional portrait photography" elif any(word in base_prompt.lower() for word in ['landscape', 'mountain', 'nature', 'outdoor']): camera_config = ", Shot on Phase One XT, 40mm f/4 lens at f/8, epic landscape photography" elif any(word in base_prompt.lower() for word in ['street', 'urban', 'city']): camera_config = ", Shot on Leica M11, 35mm f/1.4 lens at f/2.8, documentary street photography" else: camera_config = ", Shot on Phase One XF IQ4, 80mm f/2.8 lens at f/4, professional photography" # Añadir mejoras de iluminación si no están presentes if 'lighting' not in cleaned_prompt.lower(): if 'dramatic' in cleaned_prompt.lower(): cleaned_prompt += ", dramatic cinematic lighting" elif 'portrait' in cleaned_prompt.lower(): cleaned_prompt += ", professional studio lighting with subtle rim light" else: cleaned_prompt += ", masterful natural lighting" # Construir el prompt final final_prompt = cleaned_prompt + camera_config # Asegurar que empiece con mayúscula final_prompt = final_prompt[0].upper() + final_prompt[1:] if final_prompt else final_prompt # Limpiar espacios y comas duplicadas final_prompt = re.sub(r'\s+', ' ', final_prompt) final_prompt = re.sub(r',\s*,+', ',', final_prompt) return final_prompt @spaces.GPU def run_clip_inference(self, image: Image.Image) -> Tuple[str, str, str]: """Solo la inferencia CLIP usa GPU - FLOAT32 FORZADO""" try: # Mover modelo a GPU MANTENIENDO FLOAT32 if hasattr(self.interrogator, 'clip_model') and self.device == "cuda": self.interrogator.clip_model = self.interrogator.clip_model.to("cuda").float() logger.info("CLIP model moved to GPU with float32 precision") if hasattr(self.interrogator, 'blip_model') and self.device == "cuda": self.interrogator.blip_model = self.interrogator.blip_model.to("cuda").float() logger.info("BLIP model moved to GPU with float32 precision") # FORZAR que las inferencias usen float32 with torch.cuda.amp.autocast(enabled=False): # Deshabilitar autocast para forzar float32 # Ejecutar inferencias CLIP en máxima precisión full_prompt = self.interrogator.interrogate(image) clip_fast = self.interrogator.interrogate_fast(image) clip_classic = self.interrogator.interrogate_classic(image) return full_prompt, clip_fast, clip_classic except Exception as e: logger.error(f"CLIP inference error: {e}") raise e def generate_ultra_supreme_prompt(self, image: Any) -> Tuple[str, str, int, Dict[str, int]]: """ Generate ultra supreme prompt from image usando el pipeline completo MÁXIMA PRECISIÓN FLOAT32 EN TODO Returns: Tuple of (prompt, analysis_info, score, breakdown) """ try: # Verificar que el modelo esté inicializado if not self.is_initialized: return "❌ Model initialization failed.", "Please refresh and try again.", 0, {} # Validate input if image is None: return "❌ Please upload an image.", "No image provided.", 0, {} self.usage_count += 1 # Optimize image image = self.optimize_image(image) if image is None: return "❌ Image processing failed.", "Invalid image format.", 0, {} start_time = datetime.now() # PIPELINE CON MÁXIMA PRECISIÓN FLOAT32 logger.info("ULTRA SUPREME ANALYSIS - Float32 máxima precisión") # Ejecutar inferencia CLIP en GPU con float32 forzado full_prompt, clip_fast, clip_classic = self.run_clip_inference(image) logger.info(f"Prompt completo de CLIP Interrogator: {full_prompt}") logger.info(f"Análisis Fast: {clip_fast}") logger.info(f"Análisis Classic: {clip_classic}") # 3. Aplicar reglas de Flux al prompt completo optimized_prompt = self.apply_flux_rules(full_prompt) # 4. Crear análisis para el reporte (simplificado) analysis_summary = { "base_prompt": full_prompt, "clip_fast": clip_fast, "clip_classic": clip_classic, "optimized": optimized_prompt, "detected_style": self._detect_style(full_prompt), "detected_subject": self._detect_subject(full_prompt) } # 5. Calcular score basado en la riqueza del prompt score = self._calculate_score(optimized_prompt, full_prompt) breakdown = { "base_quality": min(len(full_prompt) // 10, 25), "technical_enhancement": 25 if "Shot on" in optimized_prompt else 0, "lighting_quality": 25 if "lighting" in optimized_prompt.lower() else 0, "composition": 25 if any(word in optimized_prompt.lower() for word in ["professional", "masterful", "epic"]) else 0 } score = sum(breakdown.values()) end_time = datetime.now() duration = (end_time - start_time).total_seconds() # Memory cleanup gc.collect() if torch.cuda.is_available(): torch.cuda.empty_cache() # Generate analysis report analysis_info = self._generate_analysis_report( analysis_summary, score, breakdown, duration ) return optimized_prompt, analysis_info, score, breakdown except Exception as e: logger.error(f"Ultra supreme generation error: {e}") return f"❌ Error: {str(e)}", "Please try with a different image.", 0, {} def _detect_style(self, prompt: str) -> str: """Detecta el estilo principal del prompt""" styles = { "portrait": ["portrait", "person", "face", "headshot"], "landscape": ["landscape", "mountain", "nature", "scenery"], "street": ["street", "urban", "city"], "artistic": ["artistic", "abstract", "conceptual"], "dramatic": ["dramatic", "cinematic", "moody"] } for style_name, keywords in styles.items(): if any(keyword in prompt.lower() for keyword in keywords): return style_name return "general" def _detect_subject(self, prompt: str) -> str: """Detecta el sujeto principal del prompt""" # Tomar las primeras palabras significativas words = prompt.split(',')[0].split() if len(words) > 3: return ' '.join(words[:4]) return prompt.split(',')[0] def _calculate_score(self, optimized_prompt: str, base_prompt: str) -> int: """Calcula el score basado en la calidad del prompt""" score = 0 # Base score por longitud y riqueza score += min(len(base_prompt) // 10, 25) # Technical enhancement if "Shot on" in optimized_prompt: score += 25 # Lighting quality if "lighting" in optimized_prompt.lower(): score += 25 # Professional quality if any(word in optimized_prompt.lower() for word in ["professional", "masterful", "epic", "cinematic"]): score += 25 return min(score, 100) def _generate_analysis_report(self, analysis: Dict[str, Any], score: int, breakdown: Dict[str, int], duration: float) -> str: """Generate detailed analysis report""" gpu_status = "⚡ ZeroGPU (Float32)" if torch.cuda.is_available() else "💻 CPU (Float32)" # Extraer información clave detected_style = analysis.get("detected_style", "general").title() detected_subject = analysis.get("detected_subject", "Unknown") base_prompt_preview = analysis.get("base_prompt", "")[:100] + "..." if len(analysis.get("base_prompt", "")) > 100 else analysis.get("base_prompt", "") analysis_info = f"""**🚀 ULTRA SUPREME ANALYSIS COMPLETE** **Processing:** {gpu_status} • {duration:.1f}s • Maximum Precision Pipeline **Ultra Score:** {score}/100 • Breakdown: Base({breakdown.get('base_quality',0)}) Technical({breakdown.get('technical_enhancement',0)}) Lighting({breakdown.get('lighting_quality',0)}) Composition({breakdown.get('composition',0)}) **Generation:** #{self.usage_count} **🧠 INTELLIGENT DETECTION:** - **Detected Style:** {detected_style} - **Main Subject:** {detected_subject} - **Precision:** Float32 máxima precisión en CPU+GPU - **Quality:** Maximum resolution processing (1024px) **📊 CLIP INTERROGATOR ANALYSIS:** - **Base Prompt:** {base_prompt_preview} - **Fast Analysis:** {analysis.get('clip_fast', '')[:80]}... - **Classic Analysis:** {analysis.get('clip_classic', '')[:80]}... **⚡ OPTIMIZATION APPLIED:** - ✅ Float32 forzado en todos los modelos - ✅ GPU inference con máxima precisión - ✅ TensorFloat-32 deshabilitado - ✅ Mixed precision deshabilitado - ✅ Added professional camera specifications - ✅ Enhanced lighting descriptions - ✅ Applied Flux-specific optimizations - ✅ Removed redundant/generic elements **🔬 Powered by Pariente AI Research + CLIP Interrogator (Float32 Max)**""" return analysis_info