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	# Copyright (c) Meta Platforms, Inc. and affiliates.
	# All rights reserved.

	# This source code is licensed under the license found in the
	# LICENSE file in the root directory of this source tree.

	import json
	import os
	import hydra
	import numpy as np
	import torch

	from typing import Optional
	from dataclasses import dataclass, field

	from omegaconf import OmegaConf

	from cotracker.datasets.utils import collate_fn
	from cotracker.models.evaluation_predictor import EvaluationPredictor

	from cotracker.evaluation.core.evaluator import Evaluator
	from cotracker.models.build_cotracker import build_cotracker


	@dataclass(eq=False)
	class DefaultConfig:
	# Directory where all outputs of the experiment will be saved.
	exp_dir: str = "./outputs"

	# Name of the dataset to be used for the evaluation.
	dataset_name: str = "tapvid_davis_first"
	# The root directory of the dataset.
	dataset_root: str = "./"

	# Path to the pre-trained model checkpoint to be used for the evaluation.
	# The default value is the path to a specific CoTracker model checkpoint.
	checkpoint: str = "./checkpoints/scaled_online.pth"
	# EvaluationPredictor parameters
	# The size (N) of the support grid used in the predictor.
	# The total number of points is (N*N).
	grid_size: int = 5
	# The size (N) of the local support grid.
	local_grid_size: int = 8
	num_uniformly_sampled_pts: int = 0
	sift_size: int = 0
	# A flag indicating whether to evaluate one ground truth point at a time.
	single_point: bool = False
	offline_model: bool = False
	window_len: int = 16
	# The number of iterative updates for each sliding window.
	n_iters: int = 6

	seed: int = 0
	gpu_idx: int = 0
	local_extent: int = 50

	v2: bool = False

	# Override hydra's working directory to current working dir,
	# also disable storing the .hydra logs:
	hydra: dict = field(
	default_factory=lambda: {
	"run": {"dir": "."},
	"output_subdir": None,
	}
	)


	def run_eval(cfg: DefaultConfig):
	"""
	The function evaluates CoTracker on a specified benchmark dataset based on a provided configuration.

	Args:
	cfg (DefaultConfig): An instance of DefaultConfig class which includes:
	- exp_dir (str): The directory path for the experiment.
	- dataset_name (str): The name of the dataset to be used.
	- dataset_root (str): The root directory of the dataset.
	- checkpoint (str): The path to the CoTracker model's checkpoint.
	- single_point (bool): A flag indicating whether to evaluate one ground truth point at a time.
	- n_iters (int): The number of iterative updates for each sliding window.
	- seed (int): The seed for setting the random state for reproducibility.
	- gpu_idx (int): The index of the GPU to be used.
	"""
	# Creating the experiment directory if it doesn't exist
	os.makedirs(cfg.exp_dir, exist_ok=True)

	# Saving the experiment configuration to a .yaml file in the experiment directory
	cfg_file = os.path.join(cfg.exp_dir, "expconfig.yaml")
	with open(cfg_file, "w") as f:
	OmegaConf.save(config=cfg, f=f)

	evaluator = Evaluator(cfg.exp_dir)
	cotracker_model = build_cotracker(
	cfg.checkpoint, offline=cfg.offline_model, window_len=cfg.window_len, v2=cfg.v2
	)

	# Creating the EvaluationPredictor object
	predictor = EvaluationPredictor(
	cotracker_model,
	grid_size=cfg.grid_size,
	local_grid_size=cfg.local_grid_size,
	sift_size=cfg.sift_size,
	single_point=cfg.single_point,
	num_uniformly_sampled_pts=cfg.num_uniformly_sampled_pts,
	n_iters=cfg.n_iters,
	local_extent=cfg.local_extent,
	interp_shape=(384, 512),
	)

	if torch.cuda.is_available():
	predictor.model = predictor.model.cuda()

	# Setting the random seeds
	torch.manual_seed(cfg.seed)
	np.random.seed(cfg.seed)

	# Constructing the specified dataset
	curr_collate_fn = collate_fn
	if "tapvid" in cfg.dataset_name:
	from cotracker.datasets.tap_vid_datasets import TapVidDataset

	dataset_type = cfg.dataset_name.split("_")[1]
	if dataset_type == "davis":
	data_root = os.path.join(
	cfg.dataset_root, "tapvid_davis", "tapvid_davis.pkl"
	)
	elif dataset_type == "kinetics":
	data_root = os.path.join(cfg.dataset_root, "tapvid_kinetics")
	elif dataset_type == "robotap":
	data_root = os.path.join(cfg.dataset_root, "tapvid_robotap")
	elif dataset_type == "stacking":
	data_root = os.path.join(
	cfg.dataset_root, "tapvid_rgb_stacking", "tapvid_rgb_stacking.pkl"
	)

	test_dataset = TapVidDataset(
	dataset_type=dataset_type,
	data_root=data_root,
	queried_first=not "strided" in cfg.dataset_name,
	# resize_to=None,
	)
	elif cfg.dataset_name == "dynamic_replica":
	from cotracker.datasets.dr_dataset import DynamicReplicaDataset

	test_dataset = DynamicReplicaDataset(
	cfg.dataset_root, sample_len=300, only_first_n_samples=1
	)

	# Creating the DataLoader object
	test_dataloader = torch.utils.data.DataLoader(
	test_dataset,
	batch_size=1,
	shuffle=False,
	num_workers=1,
	collate_fn=curr_collate_fn,
	)

	# Timing and conducting the evaluation
	import time

	start = time.time()
	evaluate_result = evaluator.evaluate_sequence(
	predictor, test_dataloader, dataset_name=cfg.dataset_name
	)
	end = time.time()
	print(end - start)

	# Saving the evaluation results to a .json file
	evaluate_result = evaluate_result["avg"]
	print("evaluate_result", evaluate_result)
	result_file = os.path.join(cfg.exp_dir, f"result_eval_.json")
	evaluate_result["time"] = end - start
	print(f"Dumping eval results to {result_file}.")
	with open(result_file, "w") as f:
	json.dump(evaluate_result, f)


	cs = hydra.core.config_store.ConfigStore.instance()
	cs.store(name="default_config_eval", node=DefaultConfig)


	@hydra.main(config_path="./configs/", config_name="default_config_eval")
	def evaluate(cfg: DefaultConfig) -> None:
	os.environ["CUDA_DEVICE_ORDER"] = "PCI_BUS_ID"
	os.environ["CUDA_VISIBLE_DEVICES"] = str(cfg.gpu_idx)
	run_eval(cfg)


	if __name__ == "__main__":
	evaluate()