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import os.path as osp
import numpy as np
import torch
from roma.utils import *
from PIL import Image
from tqdm import tqdm


class ScanNetBenchmark:
    def __init__(self, data_root="data/scannet") -> None:
        self.data_root = data_root

    def benchmark(self, model, model_name=None):
        model.train(False)
        with torch.no_grad():
            data_root = self.data_root
            tmp = np.load(osp.join(data_root, "test.npz"))
            pairs, rel_pose = tmp["name"], tmp["rel_pose"]
            tot_e_t, tot_e_R, tot_e_pose = [], [], []
            pair_inds = np.random.choice(
                range(len(pairs)), size=len(pairs), replace=False
            )
            for pairind in tqdm(pair_inds, smoothing=0.9):
                scene = pairs[pairind]
                scene_name = f"scene0{scene[0]}_00"
                im_A_path = osp.join(
                    self.data_root,
                    "scans_test",
                    scene_name,
                    "color",
                    f"{scene[2]}.jpg",
                )
                im_A = Image.open(im_A_path)
                im_B_path = osp.join(
                    self.data_root,
                    "scans_test",
                    scene_name,
                    "color",
                    f"{scene[3]}.jpg",
                )
                im_B = Image.open(im_B_path)
                T_gt = rel_pose[pairind].reshape(3, 4)
                R, t = T_gt[:3, :3], T_gt[:3, 3]
                K = np.stack(
                    [
                        np.array([float(i) for i in r.split()])
                        for r in open(
                            osp.join(
                                self.data_root,
                                "scans_test",
                                scene_name,
                                "intrinsic",
                                "intrinsic_color.txt",
                            ),
                            "r",
                        )
                        .read()
                        .split("\n")
                        if r
                    ]
                )
                w1, h1 = im_A.size
                w2, h2 = im_B.size
                K1 = K.copy()
                K2 = K.copy()
                dense_matches, dense_certainty = model.match(im_A_path, im_B_path)
                sparse_matches, sparse_certainty = model.sample(
                    dense_matches, dense_certainty, 5000
                )
                scale1 = 480 / min(w1, h1)
                scale2 = 480 / min(w2, h2)
                w1, h1 = scale1 * w1, scale1 * h1
                w2, h2 = scale2 * w2, scale2 * h2
                K1 = K1 * scale1
                K2 = K2 * scale2

                offset = 0.5
                kpts1 = sparse_matches[:, :2]
                kpts1 = np.stack(
                    (
                        w1 * (kpts1[:, 0] + 1) / 2 - offset,
                        h1 * (kpts1[:, 1] + 1) / 2 - offset,
                    ),
                    axis=-1,
                )
                kpts2 = sparse_matches[:, 2:]
                kpts2 = np.stack(
                    (
                        w2 * (kpts2[:, 0] + 1) / 2 - offset,
                        h2 * (kpts2[:, 1] + 1) / 2 - offset,
                    ),
                    axis=-1,
                )
                for _ in range(5):
                    shuffling = np.random.permutation(np.arange(len(kpts1)))
                    kpts1 = kpts1[shuffling]
                    kpts2 = kpts2[shuffling]
                    try:
                        norm_threshold = 0.5 / (
                            np.mean(np.abs(K1[:2, :2])) + np.mean(np.abs(K2[:2, :2]))
                        )
                        R_est, t_est, mask = estimate_pose(
                            kpts1,
                            kpts2,
                            K1,
                            K2,
                            norm_threshold,
                            conf=0.99999,
                        )
                        T1_to_2_est = np.concatenate((R_est, t_est), axis=-1)  #
                        e_t, e_R = compute_pose_error(T1_to_2_est, R, t)
                        e_pose = max(e_t, e_R)
                    except Exception as e:
                        print(repr(e))
                        e_t, e_R = 90, 90
                        e_pose = max(e_t, e_R)
                    tot_e_t.append(e_t)
                    tot_e_R.append(e_R)
                    tot_e_pose.append(e_pose)
                tot_e_t.append(e_t)
                tot_e_R.append(e_R)
                tot_e_pose.append(e_pose)
            tot_e_pose = np.array(tot_e_pose)
            thresholds = [5, 10, 20]
            auc = pose_auc(tot_e_pose, thresholds)
            acc_5 = (tot_e_pose < 5).mean()
            acc_10 = (tot_e_pose < 10).mean()
            acc_15 = (tot_e_pose < 15).mean()
            acc_20 = (tot_e_pose < 20).mean()
            map_5 = acc_5
            map_10 = np.mean([acc_5, acc_10])
            map_20 = np.mean([acc_5, acc_10, acc_15, acc_20])
            return {
                "auc_5": auc[0],
                "auc_10": auc[1],
                "auc_20": auc[2],
                "map_5": map_5,
                "map_10": map_10,
                "map_20": map_20,
            }