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import argparse
import glob
import math
import subprocess
import numpy as np
import os
import tqdm
import torch
import torch.nn as nn
import cv2
from darkfeat import DarkFeat
from utils import matching


def darkfeat_pre(img, cuda):
    H, W = img.shape[0], img.shape[1]
    inp = img.copy()
    inp = inp.transpose(2, 0, 1)
    inp = torch.from_numpy(inp)
    inp = torch.autograd.Variable(inp).view(1, 3, H, W)
    if cuda:
        inp = inp.cuda()
    return inp


if __name__ == "__main__":
    # Parse command line arguments.
    parser = argparse.ArgumentParser()
    parser.add_argument("--H", type=int, default=int(640))
    parser.add_argument("--W", type=int, default=int(960))
    parser.add_argument("--histeq", action="store_true")
    parser.add_argument("--model_path", type=str)
    parser.add_argument("--dataset_dir", type=str, default="/data/hyz/MID/")
    opt = parser.parse_args()

    sizer = (opt.W, opt.H)
    focallength_x = 4.504986436499113e03 / (6744 / sizer[0])
    focallength_y = 4.513311442889859e03 / (4502 / sizer[1])
    K = np.eye(3)
    K[0, 0] = focallength_x
    K[1, 1] = focallength_y
    K[0, 2] = 3.363322177533149e03 / (6744 / sizer[0])  # * 0.5
    K[1, 2] = 2.291824660547715e03 / (4502 / sizer[1])  # * 0.5
    Kinv = np.linalg.inv(K)
    Kinvt = np.transpose(Kinv)

    cuda = True
    if cuda:
        darkfeat = DarkFeat(opt.model_path).cuda().eval()

    for scene in ["Indoor", "Outdoor"]:
        base_save = "./result/" + scene + "/"
        dir_base = opt.dataset_dir + "/" + scene + "/"
        pair_list = sorted(os.listdir(dir_base))

        for pair in tqdm.tqdm(pair_list):
            opention = 1
            if scene == "Outdoor":
                pass
            else:
                if int(pair[4::]) <= 17:
                    opention = 0
                else:
                    pass
            name = []
            files = sorted(os.listdir(dir_base + pair))
            for file_ in files:
                if file_.endswith(".cr2"):
                    name.append(file_[0:9])
            ISO = [
                "00100",
                "00200",
                "00400",
                "00800",
                "01600",
                "03200",
                "06400",
                "12800",
            ]
            if opention == 1:
                Shutter_speed = ["0.005", "0.01", "0.025", "0.05", "0.17", "0.5"]
            else:
                Shutter_speed = ["0.01", "0.02", "0.05", "0.1", "0.3", "1"]

            E_GT = np.load(dir_base + pair + "/GT_Correspondence/" + "E_estimated.npy")
            F_GT = np.dot(np.dot(Kinvt, E_GT), Kinv)
            R_GT = np.load(dir_base + pair + "/GT_Correspondence/" + "R_GT.npy")
            t_GT = np.load(dir_base + pair + "/GT_Correspondence/" + "T_GT.npy")

            id0, id1 = sorted(
                [int(i.split("/")[-1]) for i in glob.glob(f"{dir_base+pair}/?????")]
            )

            cnt = 0

            for iso in ISO:
                for ex in Shutter_speed:
                    dark_name1 = name[0] + iso + "_" + ex + "_" + scene + ".npy"
                    dark_name2 = name[1] + iso + "_" + ex + "_" + scene + ".npy"

                    if not opt.histeq:
                        dst_T1_None = (
                            f"{dir_base}{pair}/{id0:05d}-npy-nohisteq/{dark_name1}"
                        )
                        dst_T2_None = (
                            f"{dir_base}{pair}/{id1:05d}-npy-nohisteq/{dark_name2}"
                        )

                        img1_orig_None = np.load(dst_T1_None)
                        img2_orig_None = np.load(dst_T2_None)

                        dir_save = base_save + pair + "/None/"

                        img_input1 = darkfeat_pre(
                            img1_orig_None.astype("float32") / 255.0, cuda
                        )
                        img_input2 = darkfeat_pre(
                            img2_orig_None.astype("float32") / 255.0, cuda
                        )

                    else:
                        dst_T1_histeq = f"{dir_base}{pair}/{id0:05d}-npy/{dark_name1}"
                        dst_T2_histeq = f"{dir_base}{pair}/{id1:05d}-npy/{dark_name2}"

                        img1_orig_histeq = np.load(dst_T1_histeq)
                        img2_orig_histeq = np.load(dst_T2_histeq)

                        dir_save = base_save + pair + "/HistEQ/"

                        img_input1 = darkfeat_pre(
                            img1_orig_histeq.astype("float32") / 255.0, cuda
                        )
                        img_input2 = darkfeat_pre(
                            img2_orig_histeq.astype("float32") / 255.0, cuda
                        )

                    result1 = darkfeat({"image": img_input1})
                    result2 = darkfeat({"image": img_input2})

                    mkpts0, mkpts1, _ = matching.match_descriptors(
                        cv2.KeyPoint_convert(
                            result1["keypoints"].detach().cpu().float().numpy()
                        ),
                        result1["descriptors"].detach().cpu().numpy(),
                        cv2.KeyPoint_convert(
                            result2["keypoints"].detach().cpu().float().numpy()
                        ),
                        result2["descriptors"].detach().cpu().numpy(),
                        ORB=False,
                    )

                    POINT_1_dir = dir_save + f"DarkFeat/POINT_1/"
                    POINT_2_dir = dir_save + f"DarkFeat/POINT_2/"

                    subprocess.check_output(["mkdir", "-p", POINT_1_dir])
                    subprocess.check_output(["mkdir", "-p", POINT_2_dir])
                    np.save(POINT_1_dir + dark_name1[0:-3] + "npy", mkpts0)
                    np.save(POINT_2_dir + dark_name2[0:-3] + "npy", mkpts1)