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utils.py
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utils.py
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# Copyright (c) 2021 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 time
import os
import ast
import argparse
import numpy as np
def argsparser():
parser = argparse.ArgumentParser(description=__doc__)
parser.add_argument(
"--model_dir",
type=str,
default=None,
help=("Directory include:'model.pdiparams', 'model.pdmodel', "
"'infer_cfg.yml', created by tools/export_model.py."),
required=True)
parser.add_argument(
"--image_file", type=str, default=None, help="Path of image file.")
parser.add_argument(
"--image_dir",
type=str,
default=None,
help="Dir of image file, `image_file` has a higher priority.")
parser.add_argument(
"--batch_size", type=int, default=1, help="batch_size for inference.")
parser.add_argument(
"--video_file",
type=str,
default=None,
help="Path of video file, `video_file` or `camera_id` has a highest priority."
)
parser.add_argument(
"--camera_id",
type=int,
default=-1,
help="device id of camera to predict.")
parser.add_argument(
"--threshold", type=float, default=0.5, help="Threshold of score.")
parser.add_argument(
"--output_dir",
type=str,
default="output",
help="Directory of output visualization files.")
parser.add_argument(
"--run_mode",
type=str,
default='paddle',
help="mode of running(paddle/trt_fp32/trt_fp16/trt_int8)")
parser.add_argument(
"--device",
type=str,
default='cpu',
help="Choose the device you want to run, it can be: CPU/GPU/XPU, default is CPU."
)
parser.add_argument(
"--use_gpu",
type=ast.literal_eval,
default=False,
help="Deprecated, please use `--device`.")
parser.add_argument(
"--run_benchmark",
type=ast.literal_eval,
default=False,
help="Whether to predict a image_file repeatedly for benchmark")
parser.add_argument(
"--enable_mkldnn",
type=ast.literal_eval,
default=False,
help="Whether use mkldnn with CPU.")
parser.add_argument(
"--enable_mkldnn_bfloat16",
type=ast.literal_eval,
default=False,
help="Whether use mkldnn bfloat16 inference with CPU.")
parser.add_argument(
"--cpu_threads", type=int, default=1, help="Num of threads with CPU.")
parser.add_argument(
"--trt_min_shape", type=int, default=1, help="min_shape for TensorRT.")
parser.add_argument(
"--trt_max_shape",
type=int,
default=1280,
help="max_shape for TensorRT.")
parser.add_argument(
"--trt_opt_shape",
type=int,
default=640,
help="opt_shape for TensorRT.")
parser.add_argument(
"--trt_calib_mode",
type=bool,
default=False,
help="If the model is produced by TRT offline quantitative "
"calibration, trt_calib_mode need to set True.")
parser.add_argument(
'--save_images',
type=ast.literal_eval,
default=True,
help='Save visualization image results.')
parser.add_argument(
'--save_mot_txts',
action='store_true',
help='Save tracking results (txt).')
parser.add_argument(
'--save_mot_txt_per_img',
action='store_true',
help='Save tracking results (txt) for each image.')
parser.add_argument(
'--scaled',
type=bool,
default=False,
help="Whether coords after detector outputs are scaled, False in JDE YOLOv3 "
"True in general detector.")
parser.add_argument(
"--tracker_config", type=str, default=None, help=("tracker donfig"))
parser.add_argument(
"--reid_model_dir",
type=str,
default=None,
help=("Directory include:'model.pdiparams', 'model.pdmodel', "
"'infer_cfg.yml', created by tools/export_model.py."))
parser.add_argument(
"--reid_batch_size",
type=int,
default=50,
help="max batch_size for reid model inference.")
parser.add_argument(
'--use_dark',
type=ast.literal_eval,
default=True,
help='whether to use darkpose to get better keypoint position predict ')
parser.add_argument(
"--action_file",
type=str,
default=None,
help="Path of input file for action recognition.")
parser.add_argument(
"--window_size",
type=int,
default=50,
help="Temporal size of skeleton feature for action recognition.")
parser.add_argument(
"--random_pad",
type=ast.literal_eval,
default=False,
help="Whether do random padding for action recognition.")
parser.add_argument(
"--save_results",
action='store_true',
default=False,
help="Whether save detection result to file using coco format")
parser.add_argument(
'--use_coco_category',
action='store_true',
default=False,
help='Whether to use the coco format dictionary `clsid2catid`')
parser.add_argument(
"--slice_infer",
action='store_true',
help="Whether to slice the image and merge the inference results for small object detection."
)
parser.add_argument(
'--slice_size',
nargs='+',
type=int,
default=[640, 640],
help="Height of the sliced image.")
parser.add_argument(
"--overlap_ratio",
nargs='+',
type=float,
default=[0.25, 0.25],
help="Overlap height ratio of the sliced image.")
parser.add_argument(
"--combine_method",
type=str,
default='nms',
help="Combine method of the sliced images' detection results, choose in ['nms', 'nmm', 'concat']."
)
parser.add_argument(
"--match_threshold",
type=float,
default=0.6,
help="Combine method matching threshold.")
parser.add_argument(
"--match_metric",
type=str,
default='ios',
help="Combine method matching metric, choose in ['iou', 'ios'].")
return parser
class Times(object):
def __init__(self):
self.time = 0.
# start time
self.st = 0.
# end time
self.et = 0.
def start(self):
self.st = time.time()
def end(self, repeats=1, accumulative=True):
self.et = time.time()
if accumulative:
self.time += (self.et - self.st) / repeats
else:
self.time = (self.et - self.st) / repeats
def reset(self):
self.time = 0.
self.st = 0.
self.et = 0.
def value(self):
return round(self.time, 4)
class Timer(Times):
def __init__(self, with_tracker=False):
super(Timer, self).__init__()
self.with_tracker = with_tracker
self.preprocess_time_s = Times()
self.inference_time_s = Times()
self.postprocess_time_s = Times()
self.tracking_time_s = Times()
self.img_num = 0
def info(self, average=False):
pre_time = self.preprocess_time_s.value()
infer_time = self.inference_time_s.value()
post_time = self.postprocess_time_s.value()
track_time = self.tracking_time_s.value()
total_time = pre_time + infer_time + post_time
if self.with_tracker:
total_time = total_time + track_time
total_time = round(total_time, 4)
print("------------------ Inference Time Info ----------------------")
print("total_time(ms): {}, img_num: {}".format(total_time * 1000,
self.img_num))
preprocess_time = round(pre_time / max(1, self.img_num),
4) if average else pre_time
postprocess_time = round(post_time / max(1, self.img_num),
4) if average else post_time
inference_time = round(infer_time / max(1, self.img_num),
4) if average else infer_time
tracking_time = round(track_time / max(1, self.img_num),
4) if average else track_time
average_latency = total_time / max(1, self.img_num)
qps = 0
if total_time > 0:
qps = 1 / average_latency
print("average latency time(ms): {:.2f}, QPS: {:2f}".format(
average_latency * 1000, qps))
if self.with_tracker:
print(
"preprocess_time(ms): {:.2f}, inference_time(ms): {:.2f}, postprocess_time(ms): {:.2f}, tracking_time(ms): {:.2f}".
format(preprocess_time * 1000, inference_time * 1000,
postprocess_time * 1000, tracking_time * 1000))
else:
print(
"preprocess_time(ms): {:.2f}, inference_time(ms): {:.2f}, postprocess_time(ms): {:.2f}".
format(preprocess_time * 1000, inference_time * 1000,
postprocess_time * 1000))
def report(self, average=False):
dic = {}
pre_time = self.preprocess_time_s.value()
infer_time = self.inference_time_s.value()
post_time = self.postprocess_time_s.value()
track_time = self.tracking_time_s.value()
dic['preprocess_time_s'] = round(pre_time / max(1, self.img_num),
4) if average else pre_time
dic['inference_time_s'] = round(infer_time / max(1, self.img_num),
4) if average else infer_time
dic['postprocess_time_s'] = round(post_time / max(1, self.img_num),
4) if average else post_time
dic['img_num'] = self.img_num
total_time = pre_time + infer_time + post_time
if self.with_tracker:
dic['tracking_time_s'] = round(track_time / max(1, self.img_num),
4) if average else track_time
total_time = total_time + track_time
dic['total_time_s'] = round(total_time, 4)
return dic
def get_current_memory_mb():
"""
It is used to Obtain the memory usage of the CPU and GPU during the running of the program.
And this function Current program is time-consuming.
"""
import pynvml
import psutil
import GPUtil
gpu_id = int(os.environ.get('CUDA_VISIBLE_DEVICES', 0))
pid = os.getpid()
p = psutil.Process(pid)
info = p.memory_full_info()
cpu_mem = info.uss / 1024. / 1024.
gpu_mem = 0
gpu_percent = 0
gpus = GPUtil.getGPUs()
if gpu_id is not None and len(gpus) > 0:
gpu_percent = gpus[gpu_id].load
pynvml.nvmlInit()
handle = pynvml.nvmlDeviceGetHandleByIndex(0)
meminfo = pynvml.nvmlDeviceGetMemoryInfo(handle)
gpu_mem = meminfo.used / 1024. / 1024.
return round(cpu_mem, 4), round(gpu_mem, 4), round(gpu_percent, 4)
def multiclass_nms(bboxs, num_classes, match_threshold=0.6, match_metric='iou'):
final_boxes = []
for c in range(num_classes):
idxs = bboxs[:, 0] == c
if np.count_nonzero(idxs) == 0: continue
r = nms(bboxs[idxs, 1:], match_threshold, match_metric)
final_boxes.append(np.concatenate([np.full((r.shape[0], 1), c), r], 1))
return final_boxes
def nms(dets, match_threshold=0.6, match_metric='iou'):
""" Apply NMS to avoid detecting too many overlapping bounding boxes.
Args:
dets: shape [N, 5], [score, x1, y1, x2, y2]
match_metric: 'iou' or 'ios'
match_threshold: overlap thresh for match metric.
"""
if dets.shape[0] == 0:
return dets[[], :]
scores = dets[:, 0]
x1 = dets[:, 1]
y1 = dets[:, 2]
x2 = dets[:, 3]
y2 = dets[:, 4]
areas = (x2 - x1 + 1) * (y2 - y1 + 1)
order = scores.argsort()[::-1]
ndets = dets.shape[0]
suppressed = np.zeros((ndets), dtype=np.int)
for _i in range(ndets):
i = order[_i]
if suppressed[i] == 1:
continue
ix1 = x1[i]
iy1 = y1[i]
ix2 = x2[i]
iy2 = y2[i]
iarea = areas[i]
for _j in range(_i + 1, ndets):
j = order[_j]
if suppressed[j] == 1:
continue
xx1 = max(ix1, x1[j])
yy1 = max(iy1, y1[j])
xx2 = min(ix2, x2[j])
yy2 = min(iy2, y2[j])
w = max(0.0, xx2 - xx1 + 1)
h = max(0.0, yy2 - yy1 + 1)
inter = w * h
if match_metric == 'iou':
union = iarea + areas[j] - inter
match_value = inter / union
elif match_metric == 'ios':
smaller = min(iarea, areas[j])
match_value = inter / smaller
else:
raise ValueError()
if match_value >= match_threshold:
suppressed[j] = 1
keep = np.where(suppressed == 0)[0]
dets = dets[keep, :]
return dets
coco_clsid2catid = {
0: 1,
1: 2,
2: 3,
3: 4,
4: 5,
5: 6,
6: 7,
7: 8,
8: 9,
9: 10,
10: 11,
11: 13,
12: 14,
13: 15,
14: 16,
15: 17,
16: 18,
17: 19,
18: 20,
19: 21,
20: 22,
21: 23,
22: 24,
23: 25,
24: 27,
25: 28,
26: 31,
27: 32,
28: 33,
29: 34,
30: 35,
31: 36,
32: 37,
33: 38,
34: 39,
35: 40,
36: 41,
37: 42,
38: 43,
39: 44,
40: 46,
41: 47,
42: 48,
43: 49,
44: 50,
45: 51,
46: 52,
47: 53,
48: 54,
49: 55,
50: 56,
51: 57,
52: 58,
53: 59,
54: 60,
55: 61,
56: 62,
57: 63,
58: 64,
59: 65,
60: 67,
61: 70,
62: 72,
63: 73,
64: 74,
65: 75,
66: 76,
67: 77,
68: 78,
69: 79,
70: 80,
71: 81,
72: 82,
73: 84,
74: 85,
75: 86,
76: 87,
77: 88,
78: 89,
79: 90
}