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obj_detect_imgs_multi.py
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obj_detect_imgs_multi.py
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# coding=utf-8
"""
run object detection and tracking inference
"""
import argparse
import cv2
import math
import json
import random
import sys
import time
import threading
import operator
import os
import pickle
os.environ["TF_CPP_MIN_LOG_LEVEL"] = "3"
# remove all the annoying warnings from tf v1.10 to v1.13
import logging
logging.getLogger("tensorflow").disabled = True
import matplotlib
# avoid the warning "gdk_cursor_new_for_display:
# assertion 'GDK_IS_DISPLAY (display)' failed" with Python 3
matplotlib.use('Agg')
from tqdm import tqdm
from PIL import Image
import numpy as np
import tensorflow as tf
# detection stuff
from models import get_model
from models import resizeImage
from nn import fill_full_mask
from utils import get_op_tensor_name
from utils import parse_nvidia_smi
from utils import sec2time
from utils import PerformanceLogger
import pycocotools.mask as cocomask
# tracking stuff
from deep_sort import nn_matching
from deep_sort.detection import Detection
from deep_sort.tracker import Tracker
from application_util import preprocessing
from deep_sort.utils import create_obj_infos,linear_inter_bbox,filter_short_objs
# for mask
import pycocotools.mask as cocomask
# class ids stuff
from class_ids import targetClass2id_new_nopo
from class_ids import coco_obj_class_to_id
from class_ids import coco_obj_id_to_class
from class_ids import coco_obj_to_actev_obj
from class_ids import coco_id_mapping
targetClass2id = targetClass2id_new_nopo
targetid2class = {targetClass2id[one]: one for one in targetClass2id}
def get_args():
"""Parse arguments and intialize some hyper-params."""
global targetClass2id, targetid2class
parser = argparse.ArgumentParser()
parser.add_argument("--img_lst", default=None, help="path to imgs")
parser.add_argument("--out_dir", default=None,
help="out_dir/imgname.json")
parser.add_argument("--threshold_conf", default=0.0001, type=float)
parser.add_argument("--is_load_from_pb", action="store_true",
help="load from a frozen graph")
parser.add_argument("--log_time_and_gpu", action="store_true")
parser.add_argument("--util_log_interval", type=float, default=10.)
parser.add_argument("--save_util_log_to", default=None,
help="save to a json for generating figures")
parser.add_argument("--version", type=int, default=4, help="model version")
parser.add_argument("--is_coco_model", action="store_true",
help="is coco model, will output coco classes instead")
parser.add_argument("--use_gn", action="store_true",
help="it is group norm model")
parser.add_argument("--use_conv_frcnn_head", action="store_true",
help="group norm model from tensorpack uses conv head")
# ---- gpu params
parser.add_argument("--gpu", default=1, type=int, help="number of gpu")
parser.add_argument("--gpuid_start", default=0, type=int,
help="start of gpu id")
parser.add_argument("--im_batch_size", type=int, default=1)
parser.add_argument("--fix_gpuid_range", action="store_true",
help="for junweil.pc")
parser.add_argument("--use_all_mem", action="store_true")
# ----------- model params
parser.add_argument("--num_class", type=int, default=15,
help="num catagory + 1 background")
parser.add_argument("--model_path", default="/app/object_detection_model")
parser.add_argument("--rpn_batch_size", type=int, default=256,
help="num roi per image for RPN training")
parser.add_argument("--frcnn_batch_size", type=int, default=512,
help="num roi per image for fastRCNN training")
parser.add_argument("--rpn_test_post_nms_topk", type=int, default=1000,
help="test post nms, input to fast rcnn")
parser.add_argument("--max_size", type=int, default=1920,
help="num roi per image for RPN and fastRCNN training")
parser.add_argument("--short_edge_size", type=int, default=1080,
help="num roi per image for RPN and fastRCNN training")
parser.add_argument("--bupt_exp", action="store_true",
help="activity box experiemnt")
# ---- tempory: for activity detection model
parser.add_argument("--actasobj", action="store_true")
parser.add_argument("--actmodel_path",
default="/app/activity_detection_model")
parser.add_argument("--resnet152", action="store_true", help="")
parser.add_argument("--resnet50", action="store_true", help="")
parser.add_argument("--resnet34", action="store_true", help="")
parser.add_argument("--resnet18", action="store_true", help="")
parser.add_argument("--use_se", action="store_true",
help="use squeeze and excitation in backbone")
parser.add_argument("--use_frcnn_class_agnostic", action="store_true",
help="use class agnostic fc head")
parser.add_argument("--use_resnext", action="store_true", help="")
parser.add_argument("--use_att_frcnn_head", action="store_true",
help="use attention to sum [K, 7, 7, C] feature into"
" [K, C]")
parser.add_argument("--is_efficientdet", action="store_true",
help="efficientDet")
# ---- COCO Mask-RCNN model
parser.add_argument("--add_mask", action="store_true")
# --------------- exp junk
parser.add_argument("--use_dilations", action="store_true",
help="use dilations=2 in res5")
parser.add_argument("--use_deformable", action="store_true",
help="use deformable conv")
parser.add_argument("--add_act", action="store_true",
help="add activitiy model")
parser.add_argument("--finer_resolution", action="store_true",
help="fpn use finer resolution conv")
parser.add_argument("--fix_fpn_model", action="store_true",
help="for finetuneing a fpn model, whether to fix the"
" lateral and poshoc weights")
parser.add_argument("--is_cascade_rcnn", action="store_true",
help="cascade rcnn on top of fpn")
parser.add_argument("--add_relation_nn", action="store_true",
help="add relation network feature")
parser.add_argument("--test_frame_extraction", action="store_true")
parser.add_argument("--use_my_naming", action="store_true")
# for efficient use of COCO model classes
parser.add_argument("--use_partial_classes", action="store_true")
parser.add_argument("--person_only", action="store_true")
parser.add_argument("--only_classes", default=None,
help="only these classnames (comma seperated) to save")
args = parser.parse_args()
if args.use_partial_classes:
args.is_coco_model = True
args.partial_classes = [classname for classname in coco_obj_to_actev_obj]
#assert args.gpu == args.im_batch_size # one gpu one image
#assert args.gpu == 1, "Currently only support single-gpu inference"
if args.is_load_from_pb:
args.load_from = args.model_path
args.controller = "/cpu:0" # parameter server
targetid2class = targetid2class
targetClass2id = targetClass2id
if args.actasobj:
from class_ids import targetAct2id
targetClass2id = targetAct2id
targetid2class = {targetAct2id[one]: one for one in targetAct2id}
if args.bupt_exp:
from class_ids import targetAct2id_bupt
targetClass2id = targetAct2id_bupt
targetid2class = {targetAct2id_bupt[one]: one for one in targetAct2id_bupt}
assert len(targetClass2id) == args.num_class, (len(targetClass2id),
args.num_class)
assert args.version in [2, 3, 4, 5, 6], \
"Currently we only have version 2-6 model"
if args.version == 2:
pass
elif args.version == 3:
args.use_dilations = True
elif args.version == 4:
args.use_frcnn_class_agnostic = True
args.use_dilations = True
elif args.version == 5:
args.use_frcnn_class_agnostic = True
args.use_dilations = True
elif args.version == 6:
args.use_frcnn_class_agnostic = True
args.use_se = True
if args.is_coco_model:
assert args.version == 2
targetClass2id = coco_obj_class_to_id
targetid2class = coco_obj_id_to_class
args.num_class = 81
if args.person_only:
args.num_class = 2
targetid2class = {0: "BG", 1: "person"}
targetClass2id = {"BG": 0, "person": 1}
if args.use_partial_classes:
partial_classes = ["BG"] + args.partial_classes
targetClass2id = {classname: i
for i, classname in enumerate(partial_classes)}
targetid2class = {targetClass2id[o]: o for o in targetClass2id}
args.classname2id = targetClass2id
args.classid2name = targetid2class
# ---------------more defautls
args.is_pack_model = False
args.diva_class3 = True
args.diva_class = False
args.diva_class2 = False
args.use_small_object_head = False
args.use_so_score_thres = False
args.use_so_association = False
#args.use_gn = False
#args.use_conv_frcnn_head = False
args.so_person_topk = 10
args.use_cpu_nms = False
args.use_bg_score = False
args.freeze_rpn = True
args.freeze_fastrcnn = True
args.freeze = 2
args.small_objects = ["Prop", "Push_Pulled_Object",
"Prop_plus_Push_Pulled_Object", "Bike"]
args.no_obj_detect = False
#args.add_mask = False
args.is_fpn = True
# args.new_tensorpack_model = True
args.mrcnn_head_dim = 256
args.is_train = False
args.rpn_min_size = 0
args.rpn_proposal_nms_thres = 0.7
args.anchor_strides = (4, 8, 16, 32, 64)
# [3] is 32, since we build FPN with r2,3,4,5, so 2**5
args.fpn_resolution_requirement = float(args.anchor_strides[3])
#if args.is_efficientdet:
# args.fpn_resolution_requirement = 128.0 # 2 ** max_level
#args.short_edge_size = np.ceil(
# args.short_edge_size / args.fpn_resolution_requirement) * \
# args.fpn_resolution_requirement
args.max_size = np.ceil(args.max_size / args.fpn_resolution_requirement) * \
args.fpn_resolution_requirement
args.fpn_num_channel = 256
args.fpn_frcnn_fc_head_dim = 1024
# ---- all the mask rcnn config
args.resnet_num_block = [3, 4, 23, 3] # resnet 101
args.use_basic_block = False # for resnet-34 and resnet-18
if args.resnet152:
args.resnet_num_block = [3, 8, 36, 3]
if args.resnet50:
args.resnet_num_block = [3, 4, 6, 3]
if args.resnet34:
args.resnet_num_block = [3, 4, 6, 3]
args.use_basic_block = True
if args.resnet18:
args.resnet_num_block = [2, 2, 2, 2]
args.use_basic_block = True
args.anchor_stride = 16 # has to be 16 to match the image feature
args.anchor_sizes = (32, 64, 128, 256, 512)
args.anchor_ratios = (0.5, 1, 2)
args.num_anchors = len(args.anchor_sizes) * len(args.anchor_ratios)
# iou thres to determine anchor label
# args.positive_anchor_thres = 0.7
# args.negative_anchor_thres = 0.3
# when getting region proposal, avoid getting too large boxes
args.bbox_decode_clip = np.log(args.max_size / 16.0)
# fastrcnn
args.fastrcnn_batch_per_im = args.frcnn_batch_size
args.fastrcnn_bbox_reg_weights = np.array([10, 10, 5, 5], dtype="float32")
args.fastrcnn_fg_thres = 0.5 # iou thres
# args.fastrcnn_fg_ratio = 0.25 # 1:3 -> pos:neg
# testing
args.rpn_test_pre_nms_topk = 6000
args.fastrcnn_nms_iou_thres = 0.5
args.result_score_thres = args.threshold_conf
args.result_per_im = 100
if args.only_classes is not None:
args.only_classes = args.only_classes.split(",")
return args
def initialize(config, sess):
"""
load the tf model weights into session
"""
tf.global_variables_initializer().run()
allvars = tf.global_variables()
allvars = [var for var in allvars if "global_step" not in var.name]
restore_vars = allvars
opts = ["Adam", "beta1_power", "beta2_power", "Adam_1", "Adadelta_1",
"Adadelta", "Momentum"]
restore_vars = [var for var in restore_vars
if var.name.split(":")[0].split("/")[-1] not in opts]
saver = tf.train.Saver(restore_vars, max_to_keep=5)
load_from = config.model_path
ckpt = tf.train.get_checkpoint_state(load_from)
if ckpt and ckpt.model_checkpoint_path:
loadpath = ckpt.model_checkpoint_path
saver.restore(sess, loadpath)
else:
if os.path.exists(load_from):
if load_from.endswith(".ckpt"):
# load_from should be a single .ckpt file
saver.restore(sess, load_from)
elif load_from.endswith(".npz"):
# load from dict
weights = np.load(load_from)
params = {get_op_tensor_name(n)[1]:v
#for n, v in dict(weights).iteritems()}
for n, v in dict(weights).items()}
param_names = set(params.keys())
variables = restore_vars
variable_names = set([k.name for k in variables])
intersect = variable_names & param_names
restore_vars = [v for v in variables if v.name in intersect]
with sess.as_default():
for v in restore_vars:
vname = v.name
v.load(params[vname])
not_used = [(o, weights[o].shape)
for o in weights.keys()
if get_op_tensor_name(o)[1] not in intersect]
if not not_used:
print("warning, %s/%s in npz not restored:%s" % (
len(weights.keys()) - len(intersect), len(weights.keys()),
not_used))
else:
raise Exception("Not recognized model type:%s" % load_from)
else:
raise Exception("Model not exists")
def run_detect(args, frame_stack, sess, model, targetid2class, valid_frame_num=None):
# ignore the padded images
if valid_frame_num is None:
valid_frame_num = len(frame_stack)
resized_images, scales, imgnames, imgshapes = zip(*frame_stack)
feed_dict = model.get_feed_dict_forward_multi(resized_images)
sess_input = [model.final_boxes, model.final_labels,
model.final_probs, model.final_valid_indices]
# [B, num, 4], [B, num], [B, num], [B]
batch_boxes, batch_labels, batch_probs, valid_indices = sess.run(
sess_input, feed_dict=feed_dict)
# ---------------- get the json outputs for object detection from each img in
# ------ the batch
for b in range(valid_frame_num):
# [k, 4]
final_boxes = batch_boxes[b][:valid_indices[b]]
# [k]
final_labels = batch_labels[b][:valid_indices[b]]
# [k]
final_probs = batch_probs[b][:valid_indices[b]]
# scale back the box to original image size
final_boxes = final_boxes / scales[b]
# save as json
pred = []
for j, (box, prob, label) in enumerate(zip(
final_boxes, final_probs, final_labels)):
box[2] -= box[0]
box[3] -= box[1] # produce x,y,w,h output
cat_id = int(label)
cat_name = targetid2class[cat_id]
if args.only_classes and cat_name not in args.only_classes:
continue
res = {
"category_id": int(cat_id),
"cat_name": cat_name, # [0-80]
"score": float(round(prob, 7)),
#"bbox": list(map(lambda x: float(round(x, 2)), box)),
"bbox": [float(round(x, 2)) for x in box],
"segmentation": None,
"im_size": [imgshapes[b][0], imgshapes[b][1]],
}
pred.append(res)
predfile = os.path.join(args.out_dir, "%s.json" % (imgnames[b]))
with open(predfile, "w") as f:
json.dump(pred, f)
if __name__ == "__main__":
args = get_args()
if args.log_time_and_gpu:
start_time = time.time()
gpuid_range = (args.gpuid_start, args.gpu)
if args.fix_gpuid_range:
gpuid_range = (0, 1)
performance_logger = PerformanceLogger(
gpuid_range,
interval=args.util_log_interval)
performance_logger.start()
imglst = [line.strip()
for line in open(args.img_lst).readlines()]
if args.out_dir is not None:
if not os.path.exists(args.out_dir):
os.makedirs(args.out_dir)
# 1. load the object detection model
model = get_model(args, args.gpuid_start, controller=args.controller,
is_multi=True)
tfconfig = tf.ConfigProto(allow_soft_placement=True)
if not args.use_all_mem:
tfconfig.gpu_options.allow_growth = True
tfconfig.gpu_options.visible_device_list = "%s" % (
",".join(["%s" % i
for i in range(args.gpuid_start, args.gpuid_start + args.gpu)]))
with tf.Session(config=tfconfig) as sess:
if not args.is_load_from_pb:
initialize(config=args, sess=sess)
frame_stack = []
for imgfile in tqdm(imglst, ascii=True):
imgname = os.path.splitext(os.path.basename(imgfile))[0]
frame = cv2.imread(imgfile)
#frame = np.array(Image.open(imgfile))
im = frame.astype("float32")
resized_image = resizeImage(im, args.short_edge_size, args.max_size)
scale = (resized_image.shape[0] * 1.0 / im.shape[0] + \
resized_image.shape[1] * 1.0 / im.shape[1]) / 2.0
frame_stack.append((
resized_image, scale, imgname, (im.shape[0], im.shape[1])))
if len(frame_stack) == args.im_batch_size:
# run the detection and tracking on this batch of images
run_detect(args, frame_stack, sess, model, targetid2class)
frame_stack = []
if frame_stack:
valid_frame_num = len(frame_stack)
if len(frame_stack) < args.im_batch_size:
frame_stack += [frame_stack[-1]] * (args.im_batch_size - len(frame_stack))
run_detect(
args, frame_stack, sess, model, targetid2class,
valid_frame_num=valid_frame_num)
if args.log_time_and_gpu:
end_time = time.time()
performance_logger.end()
logs = performance_logger.logs
print("total run time %s (%s), log utilize every %s seconds and get "
"GPU util median %.2f%% and average %.2f%%. GPU temperature "
"average %.2f (C), CPU util median %.2f%%" % (
sec2time(end_time - start_time),
end_time - start_time,
args.util_log_interval,
np.median(logs["gpu_utilization"]),
np.mean(logs["gpu_utilization"]),
np.mean(logs["gpu_temperature"]),
np.median(logs["cpu_utilization"]),))
if args.save_util_log_to is not None:
with open(args.save_util_log_to, "w") as f:
json.dump(logs, f)
print("saved util log to %s" % args.save_util_log_to)
cv2.destroyAllWindows()