import faiss
import numpy as np
import glob
import json
import os
from pycocotools.coco import COCO
import matplotlib.pyplot as plt
from PIL import Image

def load_features_from_disk(save_dir):
    """
    从磁盘读取保存的特征
    """
    feature_files = sorted(glob.glob(os.path.join(save_dir, "features_batch_*.npy")))
    id_files = sorted(glob.glob(os.path.join(save_dir, "ids_batch_*.npy")))

    all_feats = []
    all_image_ids = []

    for feature_file, id_file in zip(feature_files, id_files):
        feats = np.load(feature_file)
        ids = np.load(id_file)
        all_feats.append(feats)
        all_image_ids.append(ids)

    # 拼接所有特征和图像ID
    all_feats = np.concatenate(all_feats, axis=0)
    all_image_ids = np.concatenate(all_image_ids, axis=0)
    return all_feats, all_image_ids


def compute_knn(all_feats, all_image_ids, save_file, K=5, use_gpu=True):
    """
    计算KNN并保存到磁盘
    """
    # 对特征进行 L2 归一化
    all_feats = all_feats / np.linalg.norm(all_feats, axis=1, keepdims=True)
    # 构建FAISS索引
    index_cpu = faiss.IndexFlatIP(all_feats.shape[1])  # 使用内积（余弦相似度）
    print("构建索引结束")
    if use_gpu:
        # 将索引迁移到 GPU
        res = faiss.StandardGpuResources()  # 初始化 GPU 资源
        index = faiss.index_cpu_to_gpu(res, 0, index_cpu)  # 将索引从 CPU 迁移到 GPU（0表示GPU ID）
        print("FAISS 正在使用 GPU 进行计算...")
    else:
        index = index_cpu
        print("FAISS 正在使用 CPU 进行计算...")

    index.add(all_feats)  # 添加特征到索引中

    # 计算KNN
    _, indices = index.search(all_feats, K)

    # 存储KNN结果到 JSON 文件
    knn_results = {str(all_image_ids[i]): all_image_ids[indices[i]].tolist() for i in range(len(all_image_ids))}
    with open(save_file, "w") as f:
        json.dump(knn_results, f)

    print(f"KNN 计算完成，结果存储在 {save_file}")

def compute_knn_with_multi_gpu(all_feats, all_image_ids, save_file, K=7, query_batch_size=1024):
    """
    使用多 GPU 加速 KNN 的计算，并计算平均相似度
    """
    # 对特征进行 L2 归一化
    all_feats = all_feats / np.linalg.norm(all_feats, axis=1, keepdims=True)

    # 初始化 GPU 资源
    res = faiss.StandardGpuResources()  # 创建 GPU 资源

    # 构建索引
    index_cpu = faiss.IndexFlatIP(all_feats.shape[1])  # 内积索引
    index = faiss.index_cpu_to_all_gpus(index_cpu)  # 将索引分布到所有 GPU

    print("正在将特征添加到多 GPU 索引中...")
    index.add(all_feats)  # 添加所有特征到索引
    print(f"特征添加完成！索引大小：{index.ntotal} 个特征")
    knn_results = {}

    # 用于计算平均相似度
    total_similarity = 0
    total_count = 0

    # 分块处理查询
    for i in range(0, all_feats.shape[0], query_batch_size):
        query_feats = all_feats[i:i+query_batch_size]
        print(f"正在处理查询样本 {i} 到 {i + query_feats.shape[0]} / {all_feats.shape[0]} ...")

        # 查询 K + 1 个最近邻
        distances, indices = index.search(query_feats, K + 1)

        # 去掉自身（排名第 1 的 index）
        for j, idx in enumerate(range(i, i + query_feats.shape[0])):
            filtered_indices = indices[j][1:]  # 排除第一个结果
            filtered_distances = distances[j][1:]  # 排除与自身的相似度

            # 存储 KNN 结果
            knn_results[str(all_image_ids[idx])] = all_image_ids[filtered_indices].tolist()

            # 更新相似度统计
            total_similarity += np.mean(filtered_distances)
            total_count += len(filtered_distances)

    # 计算所有图像的平均相似度
    average_similarity = total_similarity / total_count if total_count > 0 else 0

    # 存储 KNN 结果到 JSON 文件
    with open(save_file, "w") as f:
        json.dump(knn_results, f)

    print(f"KNN 计算完成，结果存储在 {save_file}")
    print(f"所有图像的平均相似度为：{average_similarity:.4f}")


def load_knn_results(knn_json_path):
    """
    加载 KNN 结果
    """
    with open(knn_json_path, "r") as f:
        knn_results = json.load(f)
    return knn_results


def load_coco_annotations(coco_json_path):
    """
    加载 COCO 格式的标注
    """
    coco = COCO(coco_json_path)
    return coco


def get_image_path(coco, image_root, image_id):
    """
    获取图像的完整路径
    """
    img_info = coco.loadImgs(image_id)[0]
    img_path = os.path.join(image_root, img_info["file_name"])
    return img_path, img_info["file_name"]

def visualize_knn(image_id, knn_results, coco, image_root, save_path, num_neighbors=5):
    """
    可视化指定图像及其 KNN，并保存到文件
    """
    # 获取目标图像路径
    query_img_path, query_img_name = get_image_path(coco, image_root, int(image_id))

    # 获取 KNN 图像 ID 列表
    knn_image_ids = knn_results[image_id][:num_neighbors]

    # 加载 KNN 图像路径
    knn_image_paths = [get_image_path(coco, image_root, int(knn_id))[0] for knn_id in knn_image_ids]
    knn_image_names = [get_image_path(coco, image_root, int(knn_id))[1] for knn_id in knn_image_ids]

    # 可视化
    plt.figure(figsize=(15, 5))

    # 显示查询图像
    plt.subplot(1, num_neighbors + 1, 1)
    query_img = Image.open(query_img_path).convert("RGB")
    plt.imshow(query_img)
    plt.axis("off")
    plt.title(f"Query: {query_img_name}")

    # 显示 KNN 图像
    for i, (knn_img_path, knn_img_name) in enumerate(zip(knn_image_paths, knn_image_names), start=2):
        knn_img = Image.open(knn_img_path).convert("RGB")
        plt.subplot(1, num_neighbors + 1, i)
        plt.imshow(knn_img)
        plt.axis("off")
        plt.title(f"KNN {i-1}: {knn_img_name}")

    plt.tight_layout()

    # 保存图片而不是显示
    os.makedirs(os.path.dirname(save_path), exist_ok=True)  # 确保保存目录存在
    plt.savefig(save_path, dpi=300, bbox_inches='tight')
    plt.close()  # 关闭图形，释放内存
    print(f"可视化结果已保存到 {save_path}")

if __name__ == "__main__":
    # all_feats, all_image_ids = load_features_from_disk(save_dir="coco_knn_results")
    # compute_knn_with_multi_gpu(all_feats, all_image_ids, save_file="knn_results.json", K=7,query_batch_size=32)
    coco_json="/mnt/SSD8T/home/wjj/dataset/standard_coco/annotations/instances_train2017.json"
    image_root="/mnt/SSD8T/home/wjj/dataset/standard_coco/train2017"
    knn_json="coco_knn_results/knn_results.json"
    knn_results = load_knn_results(knn_json)
    coco = load_coco_annotations(coco_json)

    query_image_id = "72892" 
    save_path = f"visualizations/{query_image_id}_knn.png"  # 保存图片的路径

    visualize_knn(query_image_id, knn_results, coco, image_root, save_path, num_neighbors=5)