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import torch
import numpy as np
import cv2
import os
from loss import batch_episym
from tqdm import tqdm

import sys

ROOT_DIR = os.path.abspath(os.path.join(os.path.dirname(__file__), ".."))
sys.path.insert(0, ROOT_DIR)

from utils import evaluation_utils, train_utils


def valid(valid_loader, model, match_loss, config, model_config):
    model.eval()
    loader_iter = iter(valid_loader)
    num_pair = 0
    total_loss, total_acc_corr, total_acc_incorr = 0, 0, 0
    total_precision, total_recall = torch.zeros(
        model_config.layer_num, device="cuda"
    ), torch.zeros(model_config.layer_num, device="cuda")
    total_acc_mid = torch.zeros(len(model_config.seedlayer) - 1, device="cuda")

    with torch.no_grad():
        if config.local_rank == 0:
            loader_iter = tqdm(loader_iter)
            print("validating...")
        for test_data in loader_iter:
            num_pair += 1
            test_data = train_utils.tocuda(test_data)
            res = model(test_data)
            loss_res = match_loss.run(test_data, res)

            total_acc_corr += loss_res["acc_corr"]
            total_acc_incorr += loss_res["acc_incorr"]
            total_loss += loss_res["total_loss"]

            if config.model_name == "SGM":
                total_acc_mid += loss_res["mid_acc_corr"]
                total_precision, total_recall = (
                    total_precision + loss_res["pre_seed_conf"],
                    total_recall + loss_res["recall_seed_conf"],
                )

        total_acc_corr /= num_pair
        total_acc_incorr /= num_pair
        total_precision /= num_pair
        total_recall /= num_pair
        total_acc_mid /= num_pair

        # apply tensor reduction
        (
            total_loss,
            total_acc_corr,
            total_acc_incorr,
            total_precision,
            total_recall,
            total_acc_mid,
        ) = (
            train_utils.reduce_tensor(total_loss, "sum"),
            train_utils.reduce_tensor(total_acc_corr, "mean"),
            train_utils.reduce_tensor(total_acc_incorr, "mean"),
            train_utils.reduce_tensor(total_precision, "mean"),
            train_utils.reduce_tensor(total_recall, "mean"),
            train_utils.reduce_tensor(total_acc_mid, "mean"),
        )
    model.train()
    return (
        total_loss,
        total_acc_corr,
        total_acc_incorr,
        total_precision,
        total_recall,
        total_acc_mid,
    )


def dump_train_vis(res, data, step, config):
    # batch matching
    p = res["p"][:, :-1, :-1]
    score, index1 = torch.max(p, dim=-1)
    _, index2 = torch.max(p, dim=-2)
    mask_th = score > 0.2
    mask_mc = index2.gather(index=index1, dim=1) == torch.arange(len(p[0])).cuda()[None]
    mask_p = mask_th & mask_mc  # B*N

    corr1, corr2 = data["x1"], data["x2"].gather(
        index=index1[:, :, None].expand(-1, -1, 2), dim=1
    )
    corr1_kpt, corr2_kpt = data["kpt1"], data["kpt2"].gather(
        index=index1[:, :, None].expand(-1, -1, 2), dim=1
    )
    epi_dis = batch_episym(corr1, corr2, data["e_gt"])
    mask_inlier = epi_dis < config.inlier_th  # B*N

    # dump vis
    for cur_mask_p, cur_mask_inlier, cur_corr1, cur_corr2, img_path1, img_path2 in zip(
        mask_p, mask_inlier, corr1_kpt, corr2_kpt, data["img_path1"], data["img_path2"]
    ):
        img1, img2 = cv2.imread(img_path1), cv2.imread(img_path2)
        dis_play = evaluation_utils.draw_match(
            img1,
            img2,
            cur_corr1[cur_mask_p].cpu().numpy(),
            cur_corr2[cur_mask_p].cpu().numpy(),
            inlier=cur_mask_inlier,
        )
        base_name_seq = os.path.join(
            img_path1.split("/")[-1]
            + "_"
            + img_path2.split("/")[-1]
            + "_"
            + img_path1.split("/")[-2]
        )
        save_path = os.path.join(
            config.train_vis_folder,
            "train_vis",
            config.log_base,
            str(step),
            base_name_seq + ".png",
        )
        cv2.imwrite(save_path, dis_play)