app.py

# app.py  — 可直接替换你原项目中的文件
import os
import sys
import logging
import time
import random
import warnings
import json
import numpy as np
from PIL import Image, ImageDraw, ImageFont
import gradio as gr
import colorsys

# 设置环境变量解决 OpenMP 问题
os.environ['OMP_NUM_THREADS'] = '1'
os.environ['MKL_NUM_THREADS'] = '1'

# 抑制警告
warnings.filterwarnings("ignore")

# 设置日志
logging.basicConfig(level=logging.INFO, format='%(asctime)s - %(name)s - %(levelname)s - %(message)s')
logger = logging.getLogger(__name__)

# 检查模型管理器是否存在（注意：路径已调整为你指定的 model/modal_manager.py）
try:
    from models.model_manager import ModelManager
    MODELS_AVAILABLE = True
    logger.info("模型管理器导入成功")
except ImportError as e:
    logger.warning(f"模型管理器导入失败: {e}")
    logger.info("将使用简化版本运行")
    MODELS_AVAILABLE = False
    ModelManager = None

class SimpleModelManager:
    """简化的模型管理器，用于演示模式"""
    def __init__(self):
        self.device = "cpu"
        logger.info("使用简化模型管理器")
    
    def generate_caption(self, image):
        if 'last_generated_design' not in globals() or last_generated_design is None:
            return '请先生成建议设计'
        return "一件时尚的{}服装，采用{}设计".format(
            random.choice(["夏季", "冬季", "春秋季"]),
            random.choice(["简约", "复古", "现代", "街头"])
        )
    
    def analyze_style(self, image):
        styles = ["商务正装", "休闲风", "运动风", "时尚潮流", "复古风", "街头风", "优雅风"]
        scores = {style: random.uniform(0.3, 0.9) for style in random.sample(styles, 3)}
        return scores
    
    def generate_image(self, prompt, **kwargs):
        width = kwargs.get('width', 512)
        height = kwargs.get('height', 512)
        img = Image.new('RGB', (width, height), color=(200, 200, 200))
        draw = ImageDraw.Draw(img)
        try:
            font = ImageFont.load_default()
            draw.text((8, 8), prompt[:240], fill=(10,10,10), font=font)
        except Exception:
            pass
        return img
    
    def generate_controlnet_image(self, image, prompt, reference_image=None, **kwargs):
        return self.generate_image(prompt, width=512, height=768)
    
    def cleanup(self):
        pass
    
    def move_models_to_cpu(self):
        pass
    
    def move_models_to_gpu(self):
        pass
    
    def force_reload_all_models(self):
        pass

# 改进的全局状态管理
class DesignState:
    def __init__(self):
        self.reset()
    
    def reset(self):
        self.original_image = None
        self.image_caption = ""
        self.style_analysis = {}
        self.color_analysis = {}
        self.fabric_analysis = {}
        self.design_direction = ""
        self.design_concepts = []
        self.generated_designs = []
        self.generated_design_seeds = []
        self.selected_design_index = -1
        self.fitting_result = None
        self.fitting_multiview = []
        
    def get_design_context(self):
        """获取完整的设计上下文，用于生成连贯的设计"""
        return {
            "caption": self.image_caption,
            "main_style": max(self.style_analysis.keys(), key=self.style_analysis.get) if self.style_analysis else "时尚",
            "style_scores": self.style_analysis,
            "dominant_colors": self.color_analysis.get("dominant_colors", []),
            "color_palette": self.color_analysis.get("color_palette", {}),
            "fabric_type": self.fabric_analysis.get("predicted_fabric", "棉质"),
            "texture": self.fabric_analysis.get("texture", "光滑"),
            "design_direction": self.design_direction
        }

# 初始化模型管理器
if MODELS_AVAILABLE:
    try:
        model_manager = ModelManager()
        logger.info("使用完整模型管理器")
    except Exception as e:
        logger.error(f"初始化完整模型管理器失败: {e}")
        model_manager = SimpleModelManager()
else:
    model_manager = SimpleModelManager()

design_state = DesignState()

def advanced_color_analysis(image):
    """高级颜色分析 - 提取颜色调色板和情感色彩"""
    try:
        from sklearn.cluster import KMeans
        
        # 调整图像大小
        image = image.resize((150, 150))
        img_array = np.array(image)
        pixels = img_array.reshape(-1, 3)
        
        # 使用KMeans提取主要颜色
        kmeans = KMeans(n_clusters=5, random_state=42, n_init=10)
        kmeans.fit(pixels)
        
        colors = kmeans.cluster_centers_.astype(int)
        labels = kmeans.labels_
        
        # 计算每种颜色的比例
        color_percentages = []
        for i in range(5):
            percentage = np.sum(labels == i) / len(labels)
            color_percentages.append(percentage)
        
        # 按比例排序
        color_data = list(zip(colors, color_percentages))
        color_data.sort(key=lambda x: x[1], reverse=True)
        
        # 生成颜色信息
        dominant_colors = []
        color_palette = {}
        
        for i, (color, percentage) in enumerate(color_data):
            color_name = rgb_to_detailed_color_name(color)
            color_emotion = get_color_emotion(color)
            dominant_colors.append(color_name)
            
            color_palette[f"颜色{i+1}"] = {
                "name": color_name,
                "rgb": color.tolist(),
                "hex": rgb_to_hex(color),
                "percentage": f"{percentage:.1%}",
                "emotion": color_emotion,
                "fashion_application": get_fashion_application(color_name)
            }
        
        return {
            "dominant_colors": dominant_colors[:3],  # 前3种主要颜色
            "color_palette": color_palette,
            "color_harmony": analyze_color_harmony(colors[:3]),
            "season_analysis": analyze_seasonal_colors(colors[:3])
        }
        
    except Exception as e:
        logger.error(f"高级颜色分析失败: {e}")
        return {
            "dominant_colors": ["经典色调"],
            "color_palette": {"颜色1": {"name": "经典色调", "emotion": "中性"}},
            "color_harmony": "单色调",
            "season_analysis": "四季通用"
        }

def rgb_to_detailed_color_name(rgb):
    """更详细的RGB到颜色名称转换"""
    r, g, b = rgb
    
    # 转换到HSV空间进行更精确的颜色分类
    h, s, v = colorsys.rgb_to_hsv(r/255.0, g/255.0, b/255.0)
    h = h * 360
    s = s * 100
    v = v * 100
    
    # 基于HSV值进行精确分类
    if v < 20:
        return "深黑色"
    elif v > 90 and s < 10:
        return "纯白色"
    elif s < 15:
        if v < 30:
            return "深灰色"
        elif v < 70:
            return "中灰色"
        else:
            return "浅灰色"
    
    # 彩色分类
    color_ranges = [
        (0, 15, "深红色"), (15, 45, "橙红色"), (45, 75, "金黄色"),
        (75, 105, "草绿色"), (105, 135, "翠绿色"), (135, 165, "青绿色"),
        (165, 195, "天蓝色"), (195, 225, "宝蓝色"), (225, 255, "紫蓝色"),
        (255, 285, "紫色"), (285, 315, "紫红色"), (315, 345, "玫红色"),
        (345, 360, "深红色")
    ]
    
    for start, end, color_name in color_ranges:
        if start <= h < end:
            if v < 40:
                return f"深{color_name}"
            elif v > 80:
                return f"亮{color_name}"
            else:
                return color_name
    
    return "混合色调"

def rgb_to_hex(rgb):
    """RGB转十六进制"""
    return "#{:02x}{:02x}{:02x}".format(int(rgb[0]), int(rgb[1]), int(rgb[2]))

def get_color_emotion(rgb):
    """获取颜色的情感属性"""
    r, g, b = rgb
    
    # 基于颜色心理学的情感映射
    if r > 180 and g < 100 and b < 100:
        return "热情、力量、激情"
    elif r < 100 and g > 150 and b < 100:
        return "自然、平静、成长"
    elif r < 100 and g < 100 and b > 150:
        return "专业、信任、稳定"
    elif r > 150 and g > 150 and b < 100:
        return "温暖、活力、创意"
    elif r > 100 and g < 100 and b > 150:
        return "神秘、高贵、优雅"
    elif r < 50 and g < 50 and b < 50:
        return "经典、正式、权威"
    elif r > 200 and g > 200 and b > 200:
        return "纯洁、简约、现代"
    else:
        return "平衡、和谐、中性"

def get_fashion_application(color_name):
    """获取颜色在时尚中的应用建议"""
    applications = {
        "深红色": "晚装、正装细节、配饰",
        "橙红色": "夏季休闲、运动装、配饰",
        "金黄色": "夏季单品、配饰、装饰细节",
        "草绿色": "春夏装、休闲装、自然风格",
        "翠绿色": "春装、度假装、民族风格",
        "天蓝色": "衬衫、夏装、商务休闲",
        "宝蓝色": "正装、晚装、经典款式",
        "紫色": "晚装、艺术风格、个性单品",
        "深黑色": "基础款、正装、经典设计",
        "纯白色": "基础款、夏装、简约风格",
        "深灰色": "商务装、基础款、现代风格"
    }
    
    return applications.get(color_name, "通用时尚单品")

def analyze_color_harmony(colors):
    """分析颜色和谐度"""
    if len(colors) < 2:
        return "单色调"
    
    # 转换为HSV进行分析
    hsv_colors = []
    for color in colors:
        h, s, v = colorsys.rgb_to_hsv(color[0]/255.0, color[1]/255.0, color[2]/255.0)
        hsv_colors.append((h*360, s*100, v*100))
    
    h_values = [hsv[0] for hsv in hsv_colors]
    
    # 判断配色方案
    h_diff = max(h_values) - min(h_values)
    
    if h_diff < 30:
        return "同色系配色"
    elif h_diff < 60:
        return "相邻色配色"
    elif 150 < h_diff < 210:
        return "对比色配色"
    else:
        return "多色调配色"

def analyze_seasonal_colors(colors):
    """分析季节色彩倾向"""
    # 计算平均饱和度和明度
    total_s, total_v = 0, 0
    
    for color in colors:
        h, s, v = colorsys.rgb_to_hsv(color[0]/255.0, color[1]/255.0, color[2]/255.0)
        total_s += s
        total_v += v
    
    avg_s = total_s / len(colors)
    avg_v = total_v / len(colors)
    
    if avg_s > 0.6 and avg_v > 0.6:
        return "春季色彩（明亮、清新）"
    elif avg_s > 0.6 and avg_v < 0.6:
        return "秋季色彩（浓郁、温暖）"
    elif avg_s < 0.6 and avg_v > 0.6:
        return "夏季色彩（柔和、清淡）"
    else:
        return "冬季色彩（深沉、对比）"

def analyze_fabric_texture(image):
    """分析面料和质地（基于图像特征）"""
    try:
        # 转换为灰度图进行纹理分析
        gray_image = image.convert('L')
        img_array = np.array(gray_image)
        
        # 计算纹理特征
        # 1. 计算标准差（纹理粗糙度）
        texture_variance = np.std(img_array)
        
        # 2. 计算边缘密度
        from scipy import ndimage
        edges = ndimage.sobel(img_array)
        edge_density = np.mean(np.abs(edges))
        
        # 基于特征推断面料类型
        if texture_variance < 20:
            if edge_density < 10:
                fabric_type = "丝绸"
                texture = "光滑丝滑"
            else:
                fabric_type = "棉质"
                texture = "柔软光滑"
        elif texture_variance < 40:
            fabric_type = "混纺"
            texture = "适中质感"
        else:
            if edge_density > 30:
                fabric_type = "牛仔"
                texture = "粗糙硬挺"
            else:
                fabric_type = "毛呢"
                texture = "厚实温暖"
        
        return {
            "predicted_fabric": fabric_type,
            "texture": texture,
            "texture_score": texture_variance,
            "edge_score": edge_density,
            "fabric_properties": get_fabric_properties(fabric_type)
        }
        
    except Exception as e:
        logger.error(f"面料分析失败: {e}")
        return {
            "predicted_fabric": "棉质",
            "texture": "舒适",
            "fabric_properties": "透气、舒适、日常"
        }

def get_fabric_properties(fabric_type):
    """获取面料特性"""
    properties = {
        "丝绸": "光泽感强、垂坠性好、高级感、适合正装",
        "棉质": "透气舒适、日常休闲、易打理、四季适用",
        "混纺": "结合优点、性价比高、适应性强、现代感",
        "牛仔": "硬挺耐用、休闲风格、经典时尚、年轻活力",
        "毛呢": "保暖性好、正式高级、秋冬首选、商务感强"
    }
    return properties.get(fabric_type, "舒适实用")

def comprehensive_image_analysis(image_path, progress=gr.Progress()):
    """综合图像分析 - 整合所有分析维度"""
    try:
        design_state.reset()
        
        if image_path is None:
            return {}, {}, gr.Radio(choices=[]), gr.Gallery(value=[])
        
        progress(0.05, desc="加载图片...")
        image = Image.open(image_path).convert('RGB')
        design_state.original_image = image
        
        # 1. BLIP图像描述
        progress(0.15, desc="AI图像理解中...")
        try:
            caption = model_manager.generate_caption(image)
            design_state.image_caption = caption
            logger.info(f"BLIP描述: {caption}")
        except Exception as e:
            logger.error(f"图像描述生成失败: {e}")
            caption = "时尚服装设计作品"
            design_state.image_caption = caption
        
        # 2. CLIP风格分析
        progress(0.3, desc="AI风格识别中...")
        try:
            style_scores = model_manager.analyze_style(image)
            design_state.style_analysis = style_scores
            logger.info(f"风格分析: {style_scores}")
        except Exception as e:
            logger.error(f"风格分析失败: {e}")
            style_scores = {"时尚潮流": 0.8, "现代风格": 0.6}
            design_state.style_analysis = style_scores
        
        # 3. 高级颜色分析
        progress(0.5, desc="深度颜色分析中...")
        color_analysis = advanced_color_analysis(image)
        design_state.color_analysis = color_analysis
        
        # 4. 面料质地分析
        progress(0.7, desc="面料质地分析中...")
        fabric_analysis = analyze_fabric_texture(image)
        design_state.fabric_analysis = fabric_analysis
        
        # 5. 生成综合分析报告
        progress(0.85, desc="生成分析报告...")
        comprehensive_analysis = {
            "基础信息": {
                "图像描述": caption,
                "图像尺寸": f"{image.width} x {image.height}",
                "分析时间": time.strftime("%Y-%m-%d %H:%M:%S")
            },
            "风格分析": {
                "主要风格": max(style_scores.keys(), key=style_scores.get),
                "风格置信度": f"{max(style_scores.values()):.1%}",
                "所有风格评分": {k: f"{v:.1%}" for k, v in sorted(style_scores.items(), key=lambda x: x[1], reverse=True)}
            },
            "颜色分析": {
                "主色调": color_analysis["dominant_colors"][0] if color_analysis["dominant_colors"] else "经典色调",
                "配色方案": color_analysis["color_harmony"],
                "季节倾向": color_analysis["season_analysis"],
                "颜色情感": color_analysis["color_palette"].get("颜色1", {}).get("emotion", "中性")
            },
            "材质分析": {
                "预测面料": fabric_analysis["predicted_fabric"],
                "质地特征": fabric_analysis["texture"],
                "面料特性": fabric_analysis["fabric_properties"]
            }
        }
        
        # 6. 基于综合分析生成设计建议
        design_suggestions = generate_intelligent_suggestions()
        
        progress(1.0, desc="分析完成")
        
        choices = list(design_suggestions.keys())
        return (
            comprehensive_analysis,
            design_suggestions,
            gr.Radio(choices=choices, value=choices[0] if choices else None),
            gr.Gallery(value=[])
        )
        
    except Exception as e:
        logger.error(f"综合分析失败: {e}", exc_info=True)
        return {"错误": f"分析失败: {str(e)}"}, {}, gr.Radio(choices=[]), gr.Gallery(value=[])

def generate_intelligent_suggestions():
    """基于所有分析维度生成智能设计建议"""
    context = design_state.get_design_context()
    
    # 获取关键信息
    main_style = context["main_style"]
    dominant_color = context["dominant_colors"][0] if context["dominant_colors"] else "经典色调"
    fabric_type = context["fabric_type"]
    color_emotion = design_state.color_analysis.get("color_palette", {}).get("颜色1", {}).get("emotion", "中性")
    
    # 基于综合分析生成建议
    suggestions = {}
    
    # 1. 风格延续建议
    suggestions[f"经典{main_style}"] = f"保持{main_style}核心特色，运用{dominant_color}主色调，体现{color_emotion}的情感表达"
    
    # 2. 材质创新建议
    suggestions[f"{fabric_type}质感创新"] = f"基于{fabric_type}面料特性，结合{dominant_color}配色，打造现代{main_style}风格"
    
    # 3. 配色方案建议
    color_harmony = design_state.color_analysis.get("color_harmony", "和谐配色")
    suggestions[f"{color_harmony}设计"] = f"采用{color_harmony}策略，以{dominant_color}为主调，营造{color_emotion}氛围"
    
    # 4. 季节适应建议
    season_analysis = design_state.color_analysis.get("season_analysis", "四季通用")
    suggestions[f"{season_analysis}款式"] = f"针对{season_analysis}特点，融合{main_style}元素，突出{fabric_type}质感"
    
    # 5. 情感导向建议
    suggestions[f"{color_emotion}表达"] = f"强化{color_emotion}的情感传达，通过{main_style}剪裁体现{fabric_type}的独特魅力"
    
    # 6. 创新融合建议
    suggestions["跨界融合创新"] = f"打破传统{main_style}界限，创新运用{dominant_color}，结合现代设计理念"
    
    return suggestions

def generate_professional_designs(selected_suggestion, progress=gr.Progress()):
    """生成专业服装设计图 - 三视图风格（改进版）"""
    try:
        if not selected_suggestion or not design_state.original_image:
            return gr.Gallery(value=[]), gr.Radio(choices=[])
        
        design_state.design_direction = selected_suggestion
        
        progress(0.1, desc="准备设计生成...")
        
        # 获取完整设计上下文
        context = design_state.get_design_context()
        
        # 生成三种专业设计视图
        design_views = ["正面设计图", "背面设计图", "侧面设计图"]
        generated_designs = []
        design_choices = []
        
        for i, view in enumerate(design_views):
            try:
                progress(0.2 + i*0.25, desc=f"生成{view}...")
                
                # 创建专业的设计提示词
                # 使用基于 suggestion 的 seed 保证三视图一致
                base_seed = abs(hash(selected_suggestion)) % (2 ** 31 - 1)
                view_seed = (base_seed + i * 9973) % (2 ** 31 - 1)
                
                design_prompt = create_professional_design_prompt(view, context, selected_suggestion)
                
                # 使用SD模型生成设计
                design_image = model_manager.generate_image(
                    prompt=design_prompt,
                    negative_prompt="person, face, model, background, blurry, low quality, text, watermark, realistic photo, 3d render",
                    num_inference_steps=30,
                    width=512,
                    height=640,
                    guidance_scale=8.0,
                    seed=view_seed
                )
                
                generated_designs.append(design_image)
                design_choices.append(f"{selected_suggestion} - {view}")
                logger.info(f"成功生成{view}")
                
            except Exception as e:
                logger.error(f"生成{view}失败: {e}")
                # 创建占位图像
                placeholder = create_design_placeholder(view, 512, 640)
                generated_designs.append(placeholder)
                design_choices.append(f"{selected_suggestion} - {view} (占位)")
        
        design_state.generated_designs = generated_designs
        
        progress(1.0, desc="设计生成完成")
        
        return (
            gr.Gallery(value=generated_designs, columns=3),
            gr.Radio(choices=design_choices, value=design_choices[0] if design_choices else None)
        )
        
    except Exception as e:
        logger.error(f"专业设计生成失败: {e}")
        return gr.Gallery(value=[]), gr.Radio(choices=[])

def create_professional_design_prompt(view, context, suggestion):
    """创建专业的服装设计提示词 - 避免token截断"""
    
    # 关键词映射，避免中文token问题
    style_keywords = {
        "商务正装": "business formal suit professional",
        "休闲风": "casual comfortable relaxed",
        "运动风": "sportswear athletic active",
        "时尚潮流": "fashion trendy modern stylish", 
        "复古风": "vintage retro classic",
        "街头风": "streetwear urban hip",
        "优雅风": "elegant sophisticated graceful"
    }
    
    color_keywords = {
        "深红色": "deep red burgundy",
        "橙红色": "orange red coral",
        "金黄色": "golden yellow amber",
        "草绿色": "grass green olive",
        "翠绿色": "emerald green jade",
        "天蓝色": "sky blue azure",
        "宝蓝色": "royal blue navy",
        "紫色": "purple violet",
        "深黑色": "deep black charcoal",
        "纯白色": "pure white ivory",
        "深灰色": "dark gray slate"
    }
    
    fabric_keywords = {
        "丝绸": "silk smooth luxurious",
        "棉质": "cotton comfortable breathable",
        "混纺": "blend modern synthetic",
        "牛仔": "denim sturdy casual",
        "毛呢": "wool warm textured"
    }
    
    view_keywords = {
        "正面设计图": "front view technical drawing fashion flat",
        "背面设计图": "back view technical drawing fashion flat", 
        "侧面设计图": "side view technical drawing fashion flat"
    }
    
    # 构建英文提示词
    style_eng = style_keywords.get(context["main_style"], "modern fashion")
    color_eng = color_keywords.get(context["dominant_colors"][0] if context["dominant_colors"] else "", "neutral colors")
    fabric_eng = fabric_keywords.get(context["fabric_type"], "quality fabric")
    view_eng = view_keywords.get(view, "technical fashion drawing")
    
    # 专业服装设计提示词
    prompt = (
        f"{view_eng}, {style_eng} garment design, "
        f"{color_eng} color scheme, {fabric_eng} material, "
        f"clean fashion illustration, professional technical drawing, "
        f"flat lay design, no model, clothing only, "
        f"detailed stitching, precise proportions, "
        f"fashion design sketch, minimalist background, "
        f"high quality illustration, vector style"
    )
    
    logger.info(f"{view}设计提示词: {prompt}")
    return prompt

def create_design_placeholder(view, width, height):
    """创建设计占位图"""
    img = Image.new('RGB', (width, height), color=(240, 240, 240))
    draw = ImageDraw.Draw(img)
    
    # 绘制基本轮廓
    if "正面" in view:
        # 画一个基本的衣服正面轮廓
        draw.rectangle([width//4, height//6, 3*width//4, 5*height//6], outline=(100, 100, 100), width=3)
    elif "背面" in view:
        # 画一个基本的衣服背面轮廓
        draw.rectangle([width//4, height//6, 3*width//4, 5*height//6], outline=(120, 120, 120), width=3)
    else:
        # 侧面轮廓
        draw.ellipse([width//3, height//6, 2*width//3, 5*height//6], outline=(140, 140, 140), width=3)
    
    # 添加文字
    try:
        font = ImageFont.load_default()
        text = view
        draw.text((width//2-50, height//2), text, fill=(80, 80, 80), font=font)
    except:
        pass
    
    return img

def generate_3d_fitting_effect(selected_design_index, progress=gr.Progress()):
    """生成专业3D试穿效果 - 标准模特展示"""
    try:
        if not design_state.generated_designs or selected_design_index is None:
            return None
        
        design_state.selected_design_index = selected_design_index
        
        progress(0.1, desc="准备3D建模...")
        
        # 获取设计上下文和选中的设计
        context = design_state.get_design_context()
        selected_design = design_state.generated_designs[selected_design_index]
        
        progress(0.3, desc="构建3D试穿场景...")
        
        # 创建专业3D试穿提示词
        fitting_prompt = create_3d_fitting_prompt(context, selected_design_index)
        
        progress(0.5, desc="AI 3D渲染中...")
        
        try:
            # 使用ControlNet生成高质量3D试穿效果
            fitting_image = model_manager.generate_controlnet_image(
                image=design_state.original_image,
                prompt=fitting_prompt,
                reference_image=selected_design,
                negative_prompt="blurry, distorted, low quality, unrealistic, extra limbs, deformed, bad anatomy, text, watermark, multiple people",
                num_inference_steps=40,
                guidance_scale=8.5
            )
            
            progress(0.9, desc="完成3D渲染")
            design_state.fitting_result = fitting_image
            logger.info("使用ControlNet生成3D试穿效果")
            return fitting_image
            
        except Exception as e:
            logger.warning(f"ControlNet 3D试穿失败: {e}")
            # 回退到标准模型
            progress(0.6, desc="使用标准模型生成...")
            fitting_image = model_manager.generate_image(
                prompt=fitting_prompt,
                negative_prompt="blurry, distorted, low quality, unrealistic, extra limbs, deformed, bad anatomy, multiple people",
                num_inference_steps=35,
                width=512,
                height=768,
                guidance_scale=8.0
            )
            
            progress(0.9, desc="完成渲染")
            design_state.fitting_result = fitting_image
            return fitting_image
        
    except Exception as e:
        logger.error(f"3D试穿生成失败: {e}")
        return create_fitting_placeholder()

def create_3d_fitting_prompt(context, design_index):
    """创建3D试穿提示词 - 英文避免token截断"""
    
    # 风格关键词映射
    style_keywords = {
        "商务正装": "professional business attire formal suit",
        "休闲风": "casual comfortable everyday wear",
        "运动风": "athletic sportswear activewear",
        "时尚潮流": "fashion forward trendy modern",
        "复古风": "vintage retro classic style",
        "街头风": "streetwear urban contemporary",
        "优雅风": "elegant sophisticated refined"
    }
    
    color_keywords = {
        "深红色": "deep red burgundy rich",
        "橙红色": "coral orange warm",
        "金黄色": "golden amber bright",
        "草绿色": "olive green natural",
        "翠绿色": "emerald jade vibrant",
        "天蓝色": "sky blue light",
        "宝蓝色": "royal navy deep",
        "紫色": "purple violet",
        "深黑色": "black charcoal dark",
        "纯白色": "white clean pure",
        "深灰色": "charcoal slate gray"
    }
    
    fabric_keywords = {
        "丝绸": "silk luxurious smooth draping",
        "棉质": "cotton comfortable natural texture",
        "混纺": "modern blend synthetic comfort",
        "牛仔": "denim sturdy casual texture",
        "毛呢": "wool textured warm sophisticated"
    }
    
    # 获取英文关键词
    style_eng = style_keywords.get(context["main_style"], "modern fashion")
    color_eng = color_keywords.get(context["dominant_colors"][0] if context["dominant_colors"] else "", "neutral tones")
    fabric_eng = fabric_keywords.get(context["fabric_type"], "quality fabric")
    
    # 构建3D试穿提示词
    prompt = (
        f"professional 3D fashion model wearing {style_eng}, "
        f"{color_eng} color scheme, {fabric_eng} material, "
        f"full body pose, studio lighting, clean background, "
        f"high quality 3D render, realistic fabric texture, "
        f"perfect fit tailoring, fashion photography style, "
        f"detailed clothing construction, professional modeling"
    )
    
    logger.info(f"3D试穿提示词: {prompt}")
    return prompt

def create_fitting_placeholder():
    """创建3D试穿占位图"""
    img = Image.new('RGB', (512, 768), color=(245, 245, 245))
    draw = ImageDraw.Draw(img)
    
    # 画一个基本的人体轮廓
    # 头部
    draw.ellipse([206, 50, 306, 150], outline=(150, 150, 150), width=2)
    # 身体
    draw.rectangle([226, 150, 286, 400], outline=(150, 150, 150), width=2)
    # 手臂
    draw.rectangle([186, 170, 226, 350], outline=(150, 150, 150), width=2)
    draw.rectangle([286, 170, 326, 350], outline=(150, 150, 150), width=2)
    # 腿部
    draw.rectangle([236, 400, 266, 650], outline=(150, 150, 150), width=2)
    draw.rectangle([266, 400, 296, 650], outline=(150, 150, 150), width=2)
    
    # 添加文字
    try:
        font = ImageFont.load_default()
        draw.text((200, 380), "3D Fitting", fill=(100, 100, 100), font=font)
    except:
        pass
    
    return img

def export_design_report():
    """导出完整的设计报告"""
    if not design_state.original_image:
        return "没有设计数据可导出"
    
    try:
        context = design_state.get_design_context()
        
        report = {
            "设计项目报告": {
                "生成时间": time.strftime("%Y-%m-%d %H:%M:%S"),
                "项目概述": {
                    "设计描述": context["caption"],
                    "设计方向": context["design_direction"],
                    "主要风格": context["main_style"]
                },
                "色彩分析": {
                    "主色调": context["dominant_colors"],
                    "配色方案": design_state.color_analysis.get("color_harmony", ""),
                    "季节特征": design_state.color_analysis.get("season_analysis", ""),
                    "情感表达": design_state.color_analysis.get("color_palette", {}).get("颜色1", {}).get("emotion", "")
                },
                "材质分析": {
                    "面料类型": context["fabric_type"],
                    "质地特征": design_state.fabric_analysis.get("texture", ""),
                    "材质特性": design_state.fabric_analysis.get("fabric_properties", "")
                },
                "设计建议": {
                    "选择方向": design_state.design_direction,
                    "设计理念": f"基于{context['main_style']}风格，运用{context['dominant_colors'][0] if context['dominant_colors'] else '经典'}色调"
                }
            }
        }
        
        return json.dumps(report, ensure_ascii=False, indent=2)
        
    except Exception as e:
        return f"报告生成失败: {str(e)}"

def create_gradio_interface():
    """创建改进的Gradio界面"""
    
    with gr.Blocks(title="AI时尚设计师 Pro", theme="soft") as demo:
        gr.Markdown("# 🎨 AI时尚设计师 Pro")
        gr.Markdown("**专业AI驱动的服装设计平台** - 深度分析、智能设计、3D试穿")
        
        with gr.Row():
            with gr.Column(scale=1):
                image_input = gr.Image(type="filepath", label="📸 上传服装参考图", height=400)
                analyze_btn = gr.Button("🔍 AI深度分析", variant="primary", size="lg")
                
                # 分析结果展示
                with gr.Accordion("📊 详细分析报告", open=False):
                    analysis_output = gr.JSON(label="综合分析结果")
            
            with gr.Column(scale=2):
                # 设计建议标签页
                with gr.Tab("💡 智能设计建议"):
                    suggestions_output = gr.JSON(label="🎯 基于AI分析的个性化建议")
                    suggestion_choice = gr.Radio(label="🎨 选择设计方向", interactive=True)
                    generate_designs_btn = gr.Button("✨ 生成专业设计图", variant="primary", size="lg")
                
                # 设计图标签页
                with gr.Tab("👔 专业设计图"):
                    gr.Markdown("**服装设计三视图** - 正面/背面/侧面专业技术图")
                    designs_gallery = gr.Gallery(label="AI生成的专业设计图", columns=3, height=500)
                    design_choice = gr.Radio(label="🎯 选择设计方案", type="index", interactive=True)
                    generate_3d_btn = gr.Button("🎭 生成3D试穿效果", variant="primary", size="lg")
                
                # 3D试穿标签页
                with gr.Tab("🎭 3D虚拟试穿"):
                    gr.Markdown("**专业3D试穿展示** - 标准模特效果图")
                    fitting_result = gr.Image(label="3D虚拟试穿效果", height=600)
                    
                    with gr.Row():
                        export_btn = gr.Button("📄 导出设计报告", variant="secondary")
                        reset_btn = gr.Button("🔄 重置项目", variant="secondary")
                
                # 导出结果
                with gr.Tab("📋 设计报告"):
                    report_output = gr.Textbox(label="完整设计报告", lines=20, max_lines=30)
        
        # 系统控制面板
        with gr.Accordion("🔧 系统控制面板", open=False):
            with gr.Row():
                cleanup_btn = gr.Button("🧹 清理显存", variant="secondary")
                cpu_btn = gr.Button("💾 模型→CPU", variant="secondary")
                gpu_btn = gr.Button("🚀 模型→GPU", variant="secondary")
                reload_btn = gr.Button("🔄 重载模型", variant="primary")
            
            gr.Markdown("""
            **系统优化说明**：
            - 🧹 清理显存：清理GPU缓存，不影响模型
            - 💾 模型→CPU：释放GPU显存，推理速度会降低
            - 🚀 模型→GPU：恢复GPU加速，提升生成速度
            - 🔄 重载模型：强制重新加载所有AI模型
            """)
        
        # 事件绑定 - 完整工作流程
        analyze_btn.click(
            fn=comprehensive_image_analysis,
            inputs=[image_input],
            outputs=[analysis_output, suggestions_output, suggestion_choice, designs_gallery]
        )
        
        generate_designs_btn.click(
            fn=generate_professional_designs,
            inputs=[suggestion_choice],
            outputs=[designs_gallery, design_choice]
        )
        
        generate_3d_btn.click(
            fn=generate_3d_fitting_effect,
            inputs=[design_choice],
            outputs=[fitting_result]
        )
        
        export_btn.click(
            fn=export_design_report,
            inputs=[],
            outputs=[report_output]
        )
        
        reset_btn.click(
            fn=lambda: (design_state.reset(), {}, {}, gr.Radio(choices=[]), gr.Gallery(value=[]), None, ""),
            inputs=[],
            outputs=[analysis_output, suggestions_output, suggestion_choice, designs_gallery, fitting_result, report_output]
        )
        
        # 系统控制
        cleanup_btn.click(fn=model_manager.cleanup, inputs=[], outputs=[])
        cpu_btn.click(fn=model_manager.move_models_to_cpu, inputs=[], outputs=[])
        gpu_btn.click(fn=model_manager.move_models_to_gpu, inputs=[], outputs=[])
        reload_btn.click(fn=model_manager.force_reload_all_models, inputs=[], outputs=[])
        
        # 使用指南
        with gr.Accordion("📖 专业使用指南", open=False):
            gr.Markdown("""
            ## 🚀 完整工作流程
            
            ### 第一步：AI深度分析
            1. 上传高清服装参考图片
            2. 点击"AI深度分析"进行多维度智能分析
            3. 查看详细的风格、颜色、材质分析报告
            
            ### 第二步：选择设计方向  
            1. 在"智能设计建议"中查看个性化建议
            2. 基于AI分析结果选择最符合需求的设计方向
            3. 建议会整合风格、色彩、材质等所有分析维度
            
            ### 第三步：生成专业设计
            1. 点击"生成专业设计图"获取三视图
            2. 包含正面、背面、侧面的专业技术图
            3. 所有设计都基于前期分析结果，确保一致性
            
            ### 第四步：3D虚拟试穿
            1. 选择心仪的设计方案
            2. 生成标准模特的3D试穿效果
            3. 展示真实的着装效果和服装细节
            
            ### 第五步：导出设计报告
            1. 获取完整的项目设计报告
            2. 包含所有分析数据和设计决策依据
            3. 支持进一步的设计开发和制作
            
            ## 💡 专业建议
            - **图片质量**：使用高分辨率、光线良好的服装图片
            - **分析准确性**：让AI完整分析后再进行设计选择
            - **设计连贯性**：所有生成内容都基于初始分析，确保风格统一
            - **3D效果**：基于ControlNet技术，提供专业级试穿展示
            """)
    
    return demo

if __name__ == "__main__":
    logger.info(f"Python版本: {sys.version}")
    logger.info(f"当前工作目录: {os.getcwd()}")
    logger.info(f"模型管理器状态: {'完整版' if MODELS_AVAILABLE else '简化版'}")
    
    demo = create_gradio_interface()
    demo.launch(
        server_name="0.0.0.0",
        server_port=7860,
        share=False,
        show_error=True,
        max_threads=4  # 增加线程数支持并发
    )