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	# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import os
	import time
	import yaml
	import cv2
	import re
	import glob
	import numpy as np
	from collections import defaultdict
	import paddle

	from benchmark_utils import PaddleInferBenchmark
	from preprocess import decode_image

	# add python path
	import sys
	parent_path = os.path.abspath(os.path.join(__file__, *(['..'])))
	sys.path.insert(0, parent_path)

	from det_infer import Detector, get_test_images, print_arguments, bench_log, PredictConfig, load_predictor
	from mot_utils import argsparser, Timer, get_current_memory_mb, video2frames, _is_valid_video
	from mot.tracker import JDETracker, DeepSORTTracker, OCSORTTracker, BOTSORTTracker
	from mot.utils import MOTTimer, write_mot_results, get_crops, clip_box, flow_statistic
	from mot.visualize import plot_tracking, plot_tracking_dict

	from mot.mtmct.utils import parse_bias
	from mot.mtmct.postprocess import trajectory_fusion, sub_cluster, gen_res, print_mtmct_result
	from mot.mtmct.postprocess import get_mtmct_matching_results, save_mtmct_crops, save_mtmct_vis_results


	class SDE_Detector(Detector):
	"""
	Args:
	model_dir (str): root path of model.pdiparams, model.pdmodel and infer_cfg.yml
	tracker_config (str): tracker config path
	device (str): Choose the device you want to run, it can be: CPU/GPU/XPU, default is CPU
	run_mode (str): mode of running(paddle/trt_fp32/trt_fp16)
	batch_size (int): size of pre batch in inference
	trt_min_shape (int): min shape for dynamic shape in trt
	trt_max_shape (int): max shape for dynamic shape in trt
	trt_opt_shape (int): opt shape for dynamic shape in trt
	trt_calib_mode (bool): If the model is produced by TRT offline quantitative
	calibration, trt_calib_mode need to set True
	cpu_threads (int): cpu threads
	enable_mkldnn (bool): whether to open MKLDNN
	output_dir (string): The path of output, default as 'output'
	threshold (float): Score threshold of the detected bbox, default as 0.5
	save_images (bool): Whether to save visualization image results, default as False
	save_mot_txts (bool): Whether to save tracking results (txt), default as False
	draw_center_traj (bool): Whether drawing the trajectory of center, default as False
	secs_interval (int): The seconds interval to count after tracking, default as 10
	skip_frame_num (int): Skip frame num to get faster MOT results, default as -1
	warmup_frame (int):Warmup frame num to test speed of MOT,default as 50
	do_entrance_counting(bool): Whether counting the numbers of identifiers entering
	or getting out from the entrance, default as False，only support single class
	counting in MOT, and the video should be taken by a static camera.
	do_break_in_counting(bool): Whether counting the numbers of identifiers break in
	the area, default as False，only support single class counting in MOT,
	and the video should be taken by a static camera.
	region_type (str): Area type for entrance counting or break in counting, 'horizontal'
	and 'vertical' used when do entrance counting. 'custom' used when do break in counting.
	Note that only support single-class MOT, and the video should be taken by a static camera.
	region_polygon (list): Clockwise point coords (x0,y0,x1,y1...) of polygon of area when
	do_break_in_counting. Note that only support single-class MOT and
	the video should be taken by a static camera.
	reid_model_dir (str): reid model dir, default None for ByteTrack, but set for DeepSORT
	mtmct_dir (str): MTMCT dir, default None, set for doing MTMCT
	"""

	def __init__(self,
	model_dir,
	tracker_config,
	device='CPU',
	run_mode='paddle',
	batch_size=1,
	trt_min_shape=1,
	trt_max_shape=1280,
	trt_opt_shape=640,
	trt_calib_mode=False,
	cpu_threads=1,
	enable_mkldnn=False,
	output_dir='output',
	threshold=0.5,
	save_images=False,
	save_mot_txts=False,
	draw_center_traj=False,
	secs_interval=10,
	skip_frame_num=-1,
	warmup_frame=50,
	do_entrance_counting=False,
	do_break_in_counting=False,
	region_type='horizontal',
	region_polygon=[],
	reid_model_dir=None,
	mtmct_dir=None):
	super(SDE_Detector, self).__init__(
	model_dir=model_dir,
	device=device,
	run_mode=run_mode,
	batch_size=batch_size,
	trt_min_shape=trt_min_shape,
	trt_max_shape=trt_max_shape,
	trt_opt_shape=trt_opt_shape,
	trt_calib_mode=trt_calib_mode,
	cpu_threads=cpu_threads,
	enable_mkldnn=enable_mkldnn,
	output_dir=output_dir,
	threshold=threshold, )
	self.save_images = save_images
	self.save_mot_txts = save_mot_txts
	self.draw_center_traj = draw_center_traj
	self.secs_interval = secs_interval
	self.skip_frame_num = skip_frame_num
	self.warmup_frame = warmup_frame
	self.do_entrance_counting = do_entrance_counting
	self.do_break_in_counting = do_break_in_counting
	self.region_type = region_type
	self.region_polygon = region_polygon
	if self.region_type == 'custom':
	assert len(
	self.region_polygon
	) > 6, 'region_type is custom, region_polygon should be at least 3 pairs of point coords.'

	assert batch_size == 1, "MOT model only supports batch_size=1."
	self.det_times = Timer(with_tracker=True)
	self.num_classes = len(self.pred_config.labels)
	if self.skip_frame_num > 1:
	self.previous_det_result = None

	# reid config
	self.use_reid = False if reid_model_dir is None else True
	if self.use_reid:
	self.reid_pred_config = self.set_config(reid_model_dir)
	self.reid_predictor, self.config = load_predictor(
	reid_model_dir,
	run_mode=run_mode,
	batch_size=50, # reid_batch_size
	min_subgraph_size=self.reid_pred_config.min_subgraph_size,
	device=device,
	use_dynamic_shape=self.reid_pred_config.use_dynamic_shape,
	trt_min_shape=trt_min_shape,
	trt_max_shape=trt_max_shape,
	trt_opt_shape=trt_opt_shape,
	trt_calib_mode=trt_calib_mode,
	cpu_threads=cpu_threads,
	enable_mkldnn=enable_mkldnn)
	else:
	self.reid_pred_config = None
	self.reid_predictor = None

	assert tracker_config is not None, 'Note that tracker_config should be set.'
	self.tracker_config = tracker_config
	tracker_cfg = yaml.safe_load(open(self.tracker_config))
	cfg = tracker_cfg[tracker_cfg['type']]

	# tracker config
	self.use_deepsort_tracker = True if tracker_cfg[
	'type'] == 'DeepSORTTracker' else False
	self.use_ocsort_tracker = True if tracker_cfg[
	'type'] == 'OCSORTTracker' else False
	self.use_botsort_tracker = True if tracker_cfg[
	'type'] == 'BOTSORTTracker' else False

	if self.use_deepsort_tracker:
	if self.reid_pred_config is not None and hasattr(
	self.reid_pred_config, 'tracker'):
	cfg = self.reid_pred_config.tracker
	budget = cfg.get('budget', 100)
	max_age = cfg.get('max_age', 30)
	max_iou_distance = cfg.get('max_iou_distance', 0.7)
	matching_threshold = cfg.get('matching_threshold', 0.2)
	min_box_area = cfg.get('min_box_area', 0)
	vertical_ratio = cfg.get('vertical_ratio', 0)

	self.tracker = DeepSORTTracker(
	budget=budget,
	max_age=max_age,
	max_iou_distance=max_iou_distance,
	matching_threshold=matching_threshold,
	min_box_area=min_box_area,
	vertical_ratio=vertical_ratio, )

	elif self.use_ocsort_tracker:
	det_thresh = cfg.get('det_thresh', 0.4)
	max_age = cfg.get('max_age', 30)
	min_hits = cfg.get('min_hits', 3)
	iou_threshold = cfg.get('iou_threshold', 0.3)
	delta_t = cfg.get('delta_t', 3)
	inertia = cfg.get('inertia', 0.2)
	min_box_area = cfg.get('min_box_area', 0)
	vertical_ratio = cfg.get('vertical_ratio', 0)
	use_byte = cfg.get('use_byte', False)
	use_angle_cost = cfg.get('use_angle_cost', False)

	self.tracker = OCSORTTracker(
	det_thresh=det_thresh,
	max_age=max_age,
	min_hits=min_hits,
	iou_threshold=iou_threshold,
	delta_t=delta_t,
	inertia=inertia,
	min_box_area=min_box_area,
	vertical_ratio=vertical_ratio,
	use_byte=use_byte,
	use_angle_cost=use_angle_cost)

	elif self.use_botsort_tracker:
	track_high_thresh = cfg.get('track_high_thresh', 0.3)
	track_low_thresh = cfg.get('track_low_thresh', 0.2)
	new_track_thresh = cfg.get('new_track_thresh', 0.4)
	match_thresh = cfg.get('match_thresh', 0.7)
	track_buffer = cfg.get('track_buffer', 30)
	camera_motion = cfg.get('camera_motion', False)
	cmc_method = cfg.get('cmc_method', 'sparseOptFlow')

	self.tracker = BOTSORTTracker(
	track_high_thresh=track_high_thresh,
	track_low_thresh=track_low_thresh,
	new_track_thresh=new_track_thresh,
	match_thresh=match_thresh,
	track_buffer=track_buffer,
	camera_motion=camera_motion,
	cmc_method=cmc_method)

	else:
	# use ByteTracker
	use_byte = cfg.get('use_byte', False)
	det_thresh = cfg.get('det_thresh', 0.3)
	min_box_area = cfg.get('min_box_area', 0)
	vertical_ratio = cfg.get('vertical_ratio', 0)
	match_thres = cfg.get('match_thres', 0.9)
	conf_thres = cfg.get('conf_thres', 0.6)
	low_conf_thres = cfg.get('low_conf_thres', 0.1)

	self.tracker = JDETracker(
	use_byte=use_byte,
	det_thresh=det_thresh,
	num_classes=self.num_classes,
	min_box_area=min_box_area,
	vertical_ratio=vertical_ratio,
	match_thres=match_thres,
	conf_thres=conf_thres,
	low_conf_thres=low_conf_thres, )

	self.do_mtmct = False if mtmct_dir is None else True
	self.mtmct_dir = mtmct_dir

	def postprocess(self, inputs, result):
	# postprocess output of predictor
	keep_idx = result['boxes'][:, 1] > self.threshold
	result['boxes'] = result['boxes'][keep_idx]
	np_boxes_num = [len(result['boxes'])]
	if np_boxes_num[0] <= 0:
	print('[WARNNING] No object detected.')
	result = {'boxes': np.zeros([0, 6]), 'boxes_num': [0]}
	result = {k: v for k, v in result.items() if v is not None}
	return result

	def reidprocess(self, det_results, repeats=1):
	pred_dets = det_results['boxes'] # cls_id, score, x0, y0, x1, y1
	pred_xyxys = pred_dets[:, 2:6]

	ori_image = det_results['ori_image']
	ori_image_shape = ori_image.shape[:2]
	pred_xyxys, keep_idx = clip_box(pred_xyxys, ori_image_shape)

	if len(keep_idx[0]) == 0:
	det_results['boxes'] = np.zeros((1, 6), dtype=np.float32)
	det_results['embeddings'] = None
	return det_results

	pred_dets = pred_dets[keep_idx[0]]
	pred_xyxys = pred_dets[:, 2:6]

	w, h = self.tracker.input_size
	crops = get_crops(pred_xyxys, ori_image, w, h)

	# to keep fast speed, only use topk crops
	crops = crops[:50] # reid_batch_size
	det_results['crops'] = np.array(crops).astype('float32')
	det_results['boxes'] = pred_dets[:50]

	input_names = self.reid_predictor.get_input_names()
	for i in range(len(input_names)):
	input_tensor = self.reid_predictor.get_input_handle(input_names[i])
	input_tensor.copy_from_cpu(det_results[input_names[i]])

	# model prediction
	for i in range(repeats):
	self.reid_predictor.run()
	output_names = self.reid_predictor.get_output_names()
	feature_tensor = self.reid_predictor.get_output_handle(output_names[
	0])
	pred_embs = feature_tensor.copy_to_cpu()

	det_results['embeddings'] = pred_embs
	return det_results

	def tracking(self, det_results, img=None):
	pred_dets = det_results['boxes'] # cls_id, score, x0, y0, x1, y1
	pred_embs = det_results.get('embeddings', None)

	if self.use_deepsort_tracker:
	# use DeepSORTTracker, only support singe class
	self.tracker.predict()
	online_targets = self.tracker.update(pred_dets, pred_embs)
	online_tlwhs, online_scores, online_ids = [], [], []
	if self.do_mtmct:
	online_tlbrs, online_feats = [], []
	for t in online_targets:
	if not t.is_confirmed() or t.time_since_update > 1:
	continue
	tlwh = t.to_tlwh()
	tscore = t.score
	tid = t.track_id
	if self.tracker.vertical_ratio > 0 and tlwh[2] / tlwh[
	3] > self.tracker.vertical_ratio:
	continue
	online_tlwhs.append(tlwh)
	online_scores.append(tscore)
	online_ids.append(tid)
	if self.do_mtmct:
	online_tlbrs.append(t.to_tlbr())
	online_feats.append(t.feat)

	tracking_outs = {
	'online_tlwhs': online_tlwhs,
	'online_scores': online_scores,
	'online_ids': online_ids,
	}
	if self.do_mtmct:
	seq_name = det_results['seq_name']
	frame_id = det_results['frame_id']

	tracking_outs['feat_data'] = {}
	for _tlbr, _id, _feat in zip(online_tlbrs, online_ids,
	online_feats):
	feat_data = {}
	feat_data['bbox'] = _tlbr
	feat_data['frame'] = f"{frame_id:06d}"
	feat_data['id'] = _id
	_imgname = f'{seq_name}_{_id}_{frame_id}.jpg'
	feat_data['imgname'] = _imgname
	feat_data['feat'] = _feat
	tracking_outs['feat_data'].update({_imgname: feat_data})
	return tracking_outs

	elif self.use_ocsort_tracker:
	# use OCSORTTracker, only support singe class
	online_targets = self.tracker.update(pred_dets, pred_embs)
	online_tlwhs = defaultdict(list)
	online_scores = defaultdict(list)
	online_ids = defaultdict(list)
	for t in online_targets:
	tlwh = [t[0], t[1], t[2] - t[0], t[3] - t[1]]
	tscore = float(t[4])
	tid = int(t[5])
	if tlwh[2] * tlwh[3] <= self.tracker.min_box_area: continue
	if self.tracker.vertical_ratio > 0 and tlwh[2] / tlwh[
	3] > self.tracker.vertical_ratio:
	continue
	if tlwh[2] * tlwh[3] > 0:
	online_tlwhs[0].append(tlwh)
	online_ids[0].append(tid)
	online_scores[0].append(tscore)
	tracking_outs = {
	'online_tlwhs': online_tlwhs,
	'online_scores': online_scores,
	'online_ids': online_ids,
	}
	return tracking_outs

	elif self.use_botsort_tracker:
	# use BOTSORTTracker, only support singe class
	online_targets = self.tracker.update(pred_dets, img)
	online_tlwhs = defaultdict(list)
	online_scores = defaultdict(list)
	online_ids = defaultdict(list)
	for t in online_targets:
	tlwh = t.tlwh
	tid = t.track_id
	tscore = t.score
	if tlwh[2] * tlwh[3] <= self.tracker.min_box_area:
	continue
	online_tlwhs[0].append(tlwh)
	online_ids[0].append(tid)
	online_scores[0].append(tscore)

	tracking_outs = {
	'online_tlwhs': online_tlwhs,
	'online_scores': online_scores,
	'online_ids': online_ids,
	}
	return tracking_outs

	else:
	# use ByteTracker, support multiple class
	online_tlwhs = defaultdict(list)
	online_scores = defaultdict(list)
	online_ids = defaultdict(list)
	if self.do_mtmct:
	online_tlbrs, online_feats = defaultdict(list), defaultdict(
	list)
	online_targets_dict = self.tracker.update(pred_dets, pred_embs)
	for cls_id in range(self.num_classes):
	online_targets = online_targets_dict[cls_id]
	for t in online_targets:
	tlwh = t.tlwh
	tid = t.track_id
	tscore = t.score
	if tlwh[2] * tlwh[3] <= self.tracker.min_box_area:
	continue
	if self.tracker.vertical_ratio > 0 and tlwh[2] / tlwh[
	3] > self.tracker.vertical_ratio:
	continue
	online_tlwhs[cls_id].append(tlwh)
	online_ids[cls_id].append(tid)
	online_scores[cls_id].append(tscore)
	if self.do_mtmct:
	online_tlbrs[cls_id].append(t.tlbr)
	online_feats[cls_id].append(t.curr_feat)

	if self.do_mtmct:
	assert self.num_classes == 1, 'MTMCT only support single class.'
	tracking_outs = {
	'online_tlwhs': online_tlwhs[0],
	'online_scores': online_scores[0],
	'online_ids': online_ids[0],
	}
	seq_name = det_results['seq_name']
	frame_id = det_results['frame_id']
	tracking_outs['feat_data'] = {}
	for _tlbr, _id, _feat in zip(online_tlbrs[0], online_ids[0],
	online_feats[0]):
	feat_data = {}
	feat_data['bbox'] = _tlbr
	feat_data['frame'] = f"{frame_id:06d}"
	feat_data['id'] = _id
	_imgname = f'{seq_name}_{_id}_{frame_id}.jpg'
	feat_data['imgname'] = _imgname
	feat_data['feat'] = _feat
	tracking_outs['feat_data'].update({_imgname: feat_data})
	return tracking_outs

	else:
	tracking_outs = {
	'online_tlwhs': online_tlwhs,
	'online_scores': online_scores,
	'online_ids': online_ids,
	}
	return tracking_outs

	def predict_image(self,
	image_list,
	run_benchmark=False,
	repeats=1,
	visual=True,
	seq_name=None,
	reuse_det_result=False,
	frame_count=0):
	num_classes = self.num_classes
	image_list.sort()
	ids2names = self.pred_config.labels
	if self.do_mtmct:
	mot_features_dict = {} # cid_tid_fid feats
	else:
	mot_results = []
	for frame_id, img_file in enumerate(image_list):
	if self.do_mtmct:
	if frame_id % 10 == 0:
	print('Tracking frame: %d' % (frame_id))
	batch_image_list = [img_file] # bs=1 in MOT model
	frame, _ = decode_image(img_file, {})
	if run_benchmark:
	# preprocess
	inputs = self.preprocess(batch_image_list) # warmup
	self.det_times.preprocess_time_s.start()
	inputs = self.preprocess(batch_image_list)
	self.det_times.preprocess_time_s.end()

	# model prediction
	result_warmup = self.predict(repeats=repeats) # warmup
	self.det_times.inference_time_s.start()
	result = self.predict(repeats=repeats)
	self.det_times.inference_time_s.end(repeats=repeats)

	# postprocess
	result_warmup = self.postprocess(inputs, result) # warmup
	self.det_times.postprocess_time_s.start()
	det_result = self.postprocess(inputs, result)
	self.det_times.postprocess_time_s.end()

	# tracking
	if self.use_reid:
	det_result['frame_id'] = frame_id
	det_result['seq_name'] = seq_name
	det_result['ori_image'] = frame
	det_result = self.reidprocess(det_result)
	if self.use_botsort_tracker:
	result_warmup = self.tracking(det_result, batch_image_list)
	else:
	result_warmup = self.tracking(det_result)
	self.det_times.tracking_time_s.start()
	if self.use_reid:
	det_result = self.reidprocess(det_result)
	tracking_outs = self.tracking(det_result)
	self.det_times.tracking_time_s.end()
	self.det_times.img_num += 1

	cm, gm, gu = get_current_memory_mb()
	self.cpu_mem += cm
	self.gpu_mem += gm
	self.gpu_util += gu

	else:
	if frame_count > self.warmup_frame:
	self.det_times.preprocess_time_s.start()
	if not reuse_det_result:
	inputs = self.preprocess(batch_image_list)
	if frame_count > self.warmup_frame:
	self.det_times.preprocess_time_s.end()
	if frame_count > self.warmup_frame:
	self.det_times.inference_time_s.start()
	if not reuse_det_result:
	result = self.predict()
	if frame_count > self.warmup_frame:
	self.det_times.inference_time_s.end()
	if frame_count > self.warmup_frame:
	self.det_times.postprocess_time_s.start()
	if not reuse_det_result:
	det_result = self.postprocess(inputs, result)
	self.previous_det_result = det_result
	else:
	assert self.previous_det_result is not None
	det_result = self.previous_det_result
	if frame_count > self.warmup_frame:
	self.det_times.postprocess_time_s.end()

	# tracking process
	if frame_count > self.warmup_frame:
	self.det_times.tracking_time_s.start()
	if self.use_reid:
	det_result['frame_id'] = frame_id
	det_result['seq_name'] = seq_name
	det_result['ori_image'] = frame
	det_result = self.reidprocess(det_result)
	if self.use_botsort_tracker:
	tracking_outs = self.tracking(det_result, batch_image_list)
	else:
	tracking_outs = self.tracking(det_result)
	if frame_count > self.warmup_frame:
	self.det_times.tracking_time_s.end()
	self.det_times.img_num += 1

	online_tlwhs = tracking_outs['online_tlwhs']
	online_scores = tracking_outs['online_scores']
	online_ids = tracking_outs['online_ids']

	if self.do_mtmct:
	feat_data_dict = tracking_outs['feat_data']
	mot_features_dict = dict(mot_features_dict, **feat_data_dict)
	else:
	mot_results.append([online_tlwhs, online_scores, online_ids])

	if visual:
	if len(image_list) > 1 and frame_id % 10 == 0:
	print('Tracking frame {}'.format(frame_id))
	frame, _ = decode_image(img_file, {})
	if isinstance(online_tlwhs, defaultdict):
	im = plot_tracking_dict(
	frame,
	num_classes,
	online_tlwhs,
	online_ids,
	online_scores,
	frame_id=frame_id,
	ids2names=ids2names)
	else:
	im = plot_tracking(
	frame,
	online_tlwhs,
	online_ids,
	online_scores,
	frame_id=frame_id,
	ids2names=ids2names)
	save_dir = os.path.join(self.output_dir, seq_name)
	if not os.path.exists(save_dir):
	os.makedirs(save_dir)
	cv2.imwrite(
	os.path.join(save_dir, '{:05d}.jpg'.format(frame_id)), im)

	if self.do_mtmct:
	return mot_features_dict
	else:
	return mot_results

	def predict_video(self, video_file, camera_id):
	video_out_name = 'output.mp4'
	if camera_id != -1:
	capture = cv2.VideoCapture(camera_id)
	else:
	capture = cv2.VideoCapture(video_file)
	video_out_name = os.path.split(video_file)[-1]
	# Get Video info : resolution, fps, frame count
	width = int(capture.get(cv2.CAP_PROP_FRAME_WIDTH))
	height = int(capture.get(cv2.CAP_PROP_FRAME_HEIGHT))
	fps = int(capture.get(cv2.CAP_PROP_FPS))
	frame_count = int(capture.get(cv2.CAP_PROP_FRAME_COUNT))
	print("fps: %d, frame_count: %d" % (fps, frame_count))

	if not os.path.exists(self.output_dir):
	os.makedirs(self.output_dir)
	out_path = os.path.join(self.output_dir, video_out_name)
	video_format = 'mp4v'
	fourcc = cv2.VideoWriter_fourcc(*video_format)
	writer = cv2.VideoWriter(out_path, fourcc, fps, (width, height))

	frame_id = 0
	timer = MOTTimer()
	results = defaultdict(list)
	num_classes = self.num_classes
	data_type = 'mcmot' if num_classes > 1 else 'mot'
	ids2names = self.pred_config.labels

	center_traj = None
	entrance = None
	records = None
	if self.draw_center_traj:
	center_traj = [{} for i in range(num_classes)]
	if num_classes == 1:
	id_set = set()
	interval_id_set = set()
	in_id_list = list()
	out_id_list = list()
	prev_center = dict()
	records = list()
	if self.do_entrance_counting or self.do_break_in_counting:
	if self.region_type == 'horizontal':
	entrance = [0, height / 2., width, height / 2.]
	elif self.region_type == 'vertical':
	entrance = [width / 2, 0., width / 2, height]
	elif self.region_type == 'custom':
	entrance = []
	assert len(
	self.region_polygon
	) % 2 == 0, "region_polygon should be pairs of coords points when do break_in counting."
	for i in range(0, len(self.region_polygon), 2):
	entrance.append([
	self.region_polygon[i], self.region_polygon[i + 1]
	])
	entrance.append([width, height])
	else:
	raise ValueError("region_type:{} is not supported.".format(
	self.region_type))

	video_fps = fps

	while (1):
	ret, frame = capture.read()
	if not ret:
	break
	if frame_id % 10 == 0:
	print('Tracking frame: %d' % (frame_id))

	timer.tic()
	mot_skip_frame_num = self.skip_frame_num
	reuse_det_result = False
	if mot_skip_frame_num > 1 and frame_id > 0 and frame_id % mot_skip_frame_num > 0:
	reuse_det_result = True
	seq_name = video_out_name.split('.')[0]
	mot_results = self.predict_image(
	[frame],
	visual=False,
	seq_name=seq_name,
	reuse_det_result=reuse_det_result,
	frame_count=frame_id)
	timer.toc()

	# bs=1 in MOT model
	online_tlwhs, online_scores, online_ids = mot_results[0]

	# flow statistic for one class, and only for bytetracker
	if num_classes == 1 and not self.use_deepsort_tracker and not self.use_ocsort_tracker:
	result = (frame_id + 1, online_tlwhs[0], online_scores[0],
	online_ids[0])
	statistic = flow_statistic(
	result,
	self.secs_interval,
	self.do_entrance_counting,
	self.do_break_in_counting,
	self.region_type,
	video_fps,
	entrance,
	id_set,
	interval_id_set,
	in_id_list,
	out_id_list,
	prev_center,
	records,
	data_type,
	ids2names=self.pred_config.labels)
	records = statistic['records']

	fps = 1. / timer.duration
	if self.use_deepsort_tracker or self.use_ocsort_tracker or self.use_botsort_tracker:
	# use DeepSORTTracker or OCSORTTracker, only support singe class
	if isinstance(online_tlwhs, defaultdict):
	online_tlwhs = online_tlwhs[0]
	online_scores = online_scores[0]
	online_ids = online_ids[0]

	results[0].append(
	(frame_id + 1, online_tlwhs, online_scores, online_ids))
	im = plot_tracking(
	frame,
	online_tlwhs,
	online_ids,
	online_scores,
	frame_id=frame_id,
	fps=fps,
	ids2names=ids2names,
	do_entrance_counting=self.do_entrance_counting,
	entrance=entrance)
	else:
	# use ByteTracker, support multiple class
	for cls_id in range(num_classes):
	results[cls_id].append(
	(frame_id + 1, online_tlwhs[cls_id],
	online_scores[cls_id], online_ids[cls_id]))
	im = plot_tracking_dict(
	frame,
	num_classes,
	online_tlwhs,
	online_ids,
	online_scores,
	frame_id=frame_id,
	fps=fps,
	ids2names=ids2names,
	do_entrance_counting=self.do_entrance_counting,
	entrance=entrance,
	records=records,
	center_traj=center_traj)

	writer.write(im)
	if camera_id != -1:
	cv2.imshow('Mask Detection', im)
	if cv2.waitKey(1) & 0xFF == ord('q'):
	break
	frame_id += 1

	if self.save_mot_txts:
	result_filename = os.path.join(
	self.output_dir, video_out_name.split('.')[-2] + '.txt')
	write_mot_results(result_filename, results)

	result_filename = os.path.join(
	self.output_dir,
	video_out_name.split('.')[-2] + '_flow_statistic.txt')
	f = open(result_filename, 'w')
	for line in records:
	f.write(line)
	print('Flow statistic save in {}'.format(result_filename))
	f.close()

	writer.release()

	def predict_mtmct(self, mtmct_dir, mtmct_cfg):
	cameras_bias = mtmct_cfg['cameras_bias']
	cid_bias = parse_bias(cameras_bias)
	scene_cluster = list(cid_bias.keys())
	# 1.zone releated parameters
	use_zone = mtmct_cfg.get('use_zone', False)
	zone_path = mtmct_cfg.get('zone_path', None)

	# 2.tricks parameters, can be used for other mtmct dataset
	use_ff = mtmct_cfg.get('use_ff', False)
	use_rerank = mtmct_cfg.get('use_rerank', False)

	# 3.camera releated parameters
	use_camera = mtmct_cfg.get('use_camera', False)
	use_st_filter = mtmct_cfg.get('use_st_filter', False)

	# 4.zone releated parameters
	use_roi = mtmct_cfg.get('use_roi', False)
	roi_dir = mtmct_cfg.get('roi_dir', False)

	mot_list_breaks = []
	cid_tid_dict = dict()

	output_dir = self.output_dir
	if not os.path.exists(output_dir):
	os.makedirs(output_dir)

	seqs = os.listdir(mtmct_dir)
	for seq in sorted(seqs):
	fpath = os.path.join(mtmct_dir, seq)
	if os.path.isfile(fpath) and _is_valid_video(fpath):
	seq = seq.split('.')[-2]
	print('ffmpeg processing of video {}'.format(fpath))
	frames_path = video2frames(
	video_path=fpath, outpath=mtmct_dir, frame_rate=25)
	fpath = os.path.join(mtmct_dir, seq)

	if os.path.isdir(fpath) == False:
	print('{} is not a image folder.'.format(fpath))
	continue
	if os.path.exists(os.path.join(fpath, 'img1')):
	fpath = os.path.join(fpath, 'img1')
	assert os.path.isdir(fpath), '{} should be a directory'.format(
	fpath)
	image_list = glob.glob(os.path.join(fpath, '*.jpg'))
	image_list.sort()
	assert len(image_list) > 0, '{} has no images.'.format(fpath)
	print('start tracking seq: {}'.format(seq))

	mot_features_dict = self.predict_image(
	image_list, visual=False, seq_name=seq)

	cid = int(re.sub('[a-z,A-Z]', "", seq))
	tid_data, mot_list_break = trajectory_fusion(
	mot_features_dict,
	cid,
	cid_bias,
	use_zone=use_zone,
	zone_path=zone_path)
	mot_list_breaks.append(mot_list_break)
	# single seq process
	for line in tid_data:
	tracklet = tid_data[line]
	tid = tracklet['tid']
	if (cid, tid) not in cid_tid_dict:
	cid_tid_dict[(cid, tid)] = tracklet

	map_tid = sub_cluster(
	cid_tid_dict,
	scene_cluster,
	use_ff=use_ff,
	use_rerank=use_rerank,
	use_camera=use_camera,
	use_st_filter=use_st_filter)

	pred_mtmct_file = os.path.join(output_dir, 'mtmct_result.txt')
	if use_camera:
	gen_res(pred_mtmct_file, scene_cluster, map_tid, mot_list_breaks)
	else:
	gen_res(
	pred_mtmct_file,
	scene_cluster,
	map_tid,
	mot_list_breaks,
	use_roi=use_roi,
	roi_dir=roi_dir)

	camera_results, cid_tid_fid_res = get_mtmct_matching_results(
	pred_mtmct_file)

	crops_dir = os.path.join(output_dir, 'mtmct_crops')
	save_mtmct_crops(
	cid_tid_fid_res, images_dir=mtmct_dir, crops_dir=crops_dir)

	save_dir = os.path.join(output_dir, 'mtmct_vis')
	save_mtmct_vis_results(
	camera_results,
	images_dir=mtmct_dir,
	save_dir=save_dir,
	save_videos=FLAGS.save_images)


	def main():
	deploy_file = os.path.join(FLAGS.model_dir, 'infer_cfg.yml')
	with open(deploy_file) as f:
	yml_conf = yaml.safe_load(f)
	arch = yml_conf['arch']
	detector = SDE_Detector(
	FLAGS.model_dir,
	tracker_config=FLAGS.tracker_config,
	device=FLAGS.device,
	run_mode=FLAGS.run_mode,
	batch_size=1,
	trt_min_shape=FLAGS.trt_min_shape,
	trt_max_shape=FLAGS.trt_max_shape,
	trt_opt_shape=FLAGS.trt_opt_shape,
	trt_calib_mode=FLAGS.trt_calib_mode,
	cpu_threads=FLAGS.cpu_threads,
	enable_mkldnn=FLAGS.enable_mkldnn,
	output_dir=FLAGS.output_dir,
	threshold=FLAGS.threshold,
	save_images=FLAGS.save_images,
	save_mot_txts=FLAGS.save_mot_txts,
	draw_center_traj=FLAGS.draw_center_traj,
	secs_interval=FLAGS.secs_interval,
	skip_frame_num=FLAGS.skip_frame_num,
	warmup_frame=FLAGS.warmup_frame,
	do_entrance_counting=FLAGS.do_entrance_counting,
	do_break_in_counting=FLAGS.do_break_in_counting,
	region_type=FLAGS.region_type,
	region_polygon=FLAGS.region_polygon,
	reid_model_dir=FLAGS.reid_model_dir,
	mtmct_dir=FLAGS.mtmct_dir, )

	# predict from video file or camera video stream
	if FLAGS.video_file is not None or FLAGS.camera_id != -1:
	detector.predict_video(FLAGS.video_file, FLAGS.camera_id)
	detector.det_times.info(average=True)
	elif FLAGS.mtmct_dir is not None:
	with open(FLAGS.mtmct_cfg) as f:
	mtmct_cfg = yaml.safe_load(f)
	detector.predict_mtmct(FLAGS.mtmct_dir, mtmct_cfg)
	else:
	# predict from image
	if FLAGS.image_dir is None and FLAGS.image_file is not None:
	assert FLAGS.batch_size == 1, "--batch_size should be 1 in MOT models."
	img_list = get_test_images(FLAGS.image_dir, FLAGS.image_file)
	seq_name = FLAGS.image_dir.split('/')[-1]
	detector.predict_image(
	img_list, FLAGS.run_benchmark, repeats=10, seq_name=seq_name)

	if not FLAGS.run_benchmark:
	detector.det_times.info(average=True)
	else:
	mode = FLAGS.run_mode
	model_dir = FLAGS.model_dir
	model_info = {
	'model_name': model_dir.strip('/').split('/')[-1],
	'precision': mode.split('_')[-1]
	}
	bench_log(detector, img_list, model_info, name='MOT')


	if __name__ == '__main__':
	paddle.enable_static()
	parser = argsparser()
	FLAGS = parser.parse_args()
	print_arguments(FLAGS)
	FLAGS.device = FLAGS.device.upper()
	assert FLAGS.device in ['CPU', 'GPU', 'XPU'
	], "device should be CPU, GPU or XPU"

	main()