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import argparse
import numpy as np
from PIL import Image
import torch
import math
from tqdm import tqdm
from os import path

# Kapture is a pivot file format, based on text and binary files, used to describe SfM (Structure From Motion) and more generally sensor-acquired data
# it can be installed with
# pip install kapture
# for more information check out https://github.com/naver/kapture
import kapture
from kapture.io.records import get_image_fullpath
from kapture.io.csv import kapture_from_dir, get_all_tar_handlers
from kapture.io.csv import (
    get_feature_csv_fullpath,
    keypoints_to_file,
    descriptors_to_file,
)
from kapture.io.features import (
    get_keypoints_fullpath,
    keypoints_check_dir,
    image_keypoints_to_file,
)
from kapture.io.features import (
    get_descriptors_fullpath,
    descriptors_check_dir,
    image_descriptors_to_file,
)

from lib.model_test import D2Net
from lib.utils import preprocess_image
from lib.pyramid import process_multiscale

# import imageio

# CUDA
use_cuda = torch.cuda.is_available()
device = torch.device("cuda:0" if use_cuda else "cpu")

# Argument parsing
parser = argparse.ArgumentParser(description="Feature extraction script")

parser.add_argument(
    "--kapture-root", type=str, required=True, help="path to kapture root directory"
)

parser.add_argument(
    "--preprocessing",
    type=str,
    default="caffe",
    help="image preprocessing (caffe or torch)",
)
parser.add_argument(
    "--model_file", type=str, default="models/d2_tf.pth", help="path to the full model"
)
parser.add_argument(
    "--keypoints-type",
    type=str,
    default=None,
    help="keypoint type_name, default is filename of model",
)
parser.add_argument(
    "--descriptors-type",
    type=str,
    default=None,
    help="descriptors type_name, default is filename of model",
)

parser.add_argument(
    "--max_edge", type=int, default=1600, help="maximum image size at network input"
)
parser.add_argument(
    "--max_sum_edges",
    type=int,
    default=2800,
    help="maximum sum of image sizes at network input",
)

parser.add_argument(
    "--multiscale",
    dest="multiscale",
    action="store_true",
    help="extract multiscale features",
)
parser.set_defaults(multiscale=False)

parser.add_argument(
    "--no-relu",
    dest="use_relu",
    action="store_false",
    help="remove ReLU after the dense feature extraction module",
)
parser.set_defaults(use_relu=True)

parser.add_argument(
    "--max-keypoints",
    type=int,
    default=float("+inf"),
    help="max number of keypoints save to disk",
)

args = parser.parse_args()

print(args)
with get_all_tar_handlers(
    args.kapture_root,
    mode={
        kapture.Keypoints: "a",
        kapture.Descriptors: "a",
        kapture.GlobalFeatures: "r",
        kapture.Matches: "r",
    },
) as tar_handlers:
    kdata = kapture_from_dir(
        args.kapture_root,
        skip_list=[
            kapture.GlobalFeatures,
            kapture.Matches,
            kapture.Points3d,
            kapture.Observations,
        ],
        tar_handlers=tar_handlers,
    )
    if kdata.keypoints is None:
        kdata.keypoints = {}
    if kdata.descriptors is None:
        kdata.descriptors = {}

    assert kdata.records_camera is not None
    image_list = [filename for _, _, filename in kapture.flatten(kdata.records_camera)]
    if args.keypoints_type is None:
        args.keypoints_type = path.splitext(path.basename(args.model_file))[0]
        print(f"keypoints_type set to {args.keypoints_type}")
    if args.descriptors_type is None:
        args.descriptors_type = path.splitext(path.basename(args.model_file))[0]
        print(f"descriptors_type set to {args.descriptors_type}")
    if (
        args.keypoints_type in kdata.keypoints
        and args.descriptors_type in kdata.descriptors
    ):
        image_list = [
            name
            for name in image_list
            if name not in kdata.keypoints[args.keypoints_type]
            or name not in kdata.descriptors[args.descriptors_type]
        ]

    if len(image_list) == 0:
        print("All features were already extracted")
        exit(0)
    else:
        print(f"Extracting d2net features for {len(image_list)} images")

    # Creating CNN model
    model = D2Net(model_file=args.model_file, use_relu=args.use_relu, use_cuda=use_cuda)

    if args.keypoints_type not in kdata.keypoints:
        keypoints_dtype = None
        keypoints_dsize = None
    else:
        keypoints_dtype = kdata.keypoints[args.keypoints_type].dtype
        keypoints_dsize = kdata.keypoints[args.keypoints_type].dsize
    if args.descriptors_type not in kdata.descriptors:
        descriptors_dtype = None
        descriptors_dsize = None
    else:
        descriptors_dtype = kdata.descriptors[args.descriptors_type].dtype
        descriptors_dsize = kdata.descriptors[args.descriptors_type].dsize

    # Process the files
    for image_name in tqdm(image_list, total=len(image_list)):
        img_path = get_image_fullpath(args.kapture_root, image_name)
        image = Image.open(img_path).convert("RGB")

        width, height = image.size

        resized_image = image
        resized_width = width
        resized_height = height

        max_edge = args.max_edge
        max_sum_edges = args.max_sum_edges
        if max(resized_width, resized_height) > max_edge:
            scale_multiplier = max_edge / max(resized_width, resized_height)
            resized_width = math.floor(resized_width * scale_multiplier)
            resized_height = math.floor(resized_height * scale_multiplier)
            resized_image = image.resize((resized_width, resized_height))
        if resized_width + resized_height > max_sum_edges:
            scale_multiplier = max_sum_edges / (resized_width + resized_height)
            resized_width = math.floor(resized_width * scale_multiplier)
            resized_height = math.floor(resized_height * scale_multiplier)
            resized_image = image.resize((resized_width, resized_height))

        fact_i = width / resized_width
        fact_j = height / resized_height

        resized_image = np.array(resized_image).astype("float")

        input_image = preprocess_image(resized_image, preprocessing=args.preprocessing)

        with torch.no_grad():
            if args.multiscale:
                keypoints, scores, descriptors = process_multiscale(
                    torch.tensor(
                        input_image[np.newaxis, :, :, :].astype(np.float32),
                        device=device,
                    ),
                    model,
                )
            else:
                keypoints, scores, descriptors = process_multiscale(
                    torch.tensor(
                        input_image[np.newaxis, :, :, :].astype(np.float32),
                        device=device,
                    ),
                    model,
                    scales=[1],
                )

        # Input image coordinates
        keypoints[:, 0] *= fact_i
        keypoints[:, 1] *= fact_j
        # i, j -> u, v
        keypoints = keypoints[:, [1, 0, 2]]

        if args.max_keypoints != float("+inf"):
            # keep the last (the highest) indexes
            idx_keep = scores.argsort()[-min(len(keypoints), args.max_keypoints) :]
            keypoints = keypoints[idx_keep]
            descriptors = descriptors[idx_keep]

        if keypoints_dtype is None or descriptors_dtype is None:
            keypoints_dtype = keypoints.dtype
            descriptors_dtype = descriptors.dtype

            keypoints_dsize = keypoints.shape[1]
            descriptors_dsize = descriptors.shape[1]

            kdata.keypoints[args.keypoints_type] = kapture.Keypoints(
                "d2net", keypoints_dtype, keypoints_dsize
            )
            kdata.descriptors[args.descriptors_type] = kapture.Descriptors(
                "d2net", descriptors_dtype, descriptors_dsize, args.keypoints_type, "L2"
            )

            keypoints_config_absolute_path = get_feature_csv_fullpath(
                kapture.Keypoints, args.keypoints_type, args.kapture_root
            )
            descriptors_config_absolute_path = get_feature_csv_fullpath(
                kapture.Descriptors, args.descriptors_type, args.kapture_root
            )

            keypoints_to_file(
                keypoints_config_absolute_path, kdata.keypoints[args.keypoints_type]
            )
            descriptors_to_file(
                descriptors_config_absolute_path,
                kdata.descriptors[args.descriptors_type],
            )
        else:
            assert kdata.keypoints[args.keypoints_type].dtype == keypoints.dtype
            assert kdata.descriptors[args.descriptors_type].dtype == descriptors.dtype
            assert kdata.keypoints[args.keypoints_type].dsize == keypoints.shape[1]
            assert (
                kdata.descriptors[args.descriptors_type].dsize == descriptors.shape[1]
            )
            assert (
                kdata.descriptors[args.descriptors_type].keypoints_type
                == args.keypoints_type
            )
            assert kdata.descriptors[args.descriptors_type].metric_type == "L2"

        keypoints_fullpath = get_keypoints_fullpath(
            args.keypoints_type, args.kapture_root, image_name, tar_handlers
        )
        print(f"Saving {keypoints.shape[0]} keypoints to {keypoints_fullpath}")
        image_keypoints_to_file(keypoints_fullpath, keypoints)
        kdata.keypoints[args.keypoints_type].add(image_name)

        descriptors_fullpath = get_descriptors_fullpath(
            args.descriptors_type, args.kapture_root, image_name, tar_handlers
        )
        print(f"Saving {descriptors.shape[0]} descriptors to {descriptors_fullpath}")
        image_descriptors_to_file(descriptors_fullpath, descriptors)
        kdata.descriptors[args.descriptors_type].add(image_name)

    if not keypoints_check_dir(
        kdata.keypoints[args.keypoints_type],
        args.keypoints_type,
        args.kapture_root,
        tar_handlers,
    ) or not descriptors_check_dir(
        kdata.descriptors[args.descriptors_type],
        args.descriptors_type,
        args.kapture_root,
        tar_handlers,
    ):
        print(
            "local feature extraction ended successfully but not all files were saved"
        )