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MultiStickSSDwithUSBCamera_OpenVINO_NCS2.py
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MultiStickSSDwithUSBCamera_OpenVINO_NCS2.py
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import sys
if sys.version_info.major < 3 or sys.version_info.minor < 4:
print("Please using python3.4 or greater!")
sys.exit(1)
import numpy as np
import cv2, io, time, argparse, re
from os import system
from os.path import isfile, join
from time import sleep
import multiprocessing as mp
try:
from armv7l.openvino.inference_engine import IENetwork, IEPlugin
except:
from openvino.inference_engine import IENetwork, IEPlugin
import heapq
import threading
lastresults = None
threads = []
processes = []
frameBuffer = None
results = None
fps = ""
detectfps = ""
framecount = 0
detectframecount = 0
time1 = 0
time2 = 0
cam = None
camera_width = 320
camera_height = 240
window_name = ""
ssd_detection_mode = 1
face_detection_mode = 0
elapsedtime = 0.0
LABELS = [['background',
'aeroplane', 'bicycle', 'bird', 'boat',
'bottle', 'bus', 'car', 'cat', 'chair',
'cow', 'diningtable', 'dog', 'horse',
'motorbike', 'person', 'pottedplant',
'sheep', 'sofa', 'train', 'tvmonitor'],
['background', 'face']]
def camThread(LABELS, results, frameBuffer, camera_width, camera_height, vidfps, number_of_camera):
global fps
global detectfps
global lastresults
global framecount
global detectframecount
global time1
global time2
global cam
global window_name
cam = cv2.VideoCapture(number_of_camera)
if cam.isOpened() != True:
print("USB Camera Open Error!!!")
sys.exit(0)
cam.set(cv2.CAP_PROP_FPS, vidfps)
cam.set(cv2.CAP_PROP_FRAME_WIDTH, camera_width)
cam.set(cv2.CAP_PROP_FRAME_HEIGHT, camera_height)
window_name = "USB Camera"
cv2.namedWindow(window_name, cv2.WINDOW_AUTOSIZE)
while True:
t1 = time.perf_counter()
# USB Camera Stream Read
s, color_image = cam.read()
if not s:
continue
if frameBuffer.full():
frameBuffer.get()
frames = color_image
height = color_image.shape[0]
width = color_image.shape[1]
frameBuffer.put(color_image.copy())
res = None
if not results.empty():
res = results.get(False)
detectframecount += 1
imdraw = overlay_on_image(frames, res, LABELS)
lastresults = res
else:
imdraw = overlay_on_image(frames, lastresults, LABELS)
cv2.imshow(window_name, cv2.resize(imdraw, (width, height)))
if cv2.waitKey(1)&0xFF == ord('q'):
sys.exit(0)
## Print FPS
framecount += 1
if framecount >= 15:
fps = "(Playback) {:.1f} FPS".format(time1/15)
detectfps = "(Detection) {:.1f} FPS".format(detectframecount/time2)
framecount = 0
detectframecount = 0
time1 = 0
time2 = 0
t2 = time.perf_counter()
elapsedTime = t2-t1
time1 += 1/elapsedTime
time2 += elapsedTime
# l = Search list
# x = Search target value
def searchlist(l, x, notfoundvalue=-1):
if x in l:
return l.index(x)
else:
return notfoundvalue
def async_infer(ncsworker):
while True:
ncsworker.predict_async()
class NcsWorker(object):
def __init__(self, devid, frameBuffer, results, camera_width, camera_height, number_of_ncs):
self.devid = devid
self.frameBuffer = frameBuffer
self.model_xml = "./lrmodel/MobileNetSSD/MobileNetSSD_deploy.xml"
self.model_bin = "./lrmodel/MobileNetSSD/MobileNetSSD_deploy.bin"
self.camera_width = camera_width
self.camera_height = camera_height
self.num_requests = 4
self.inferred_request = [0] * self.num_requests
self.heap_request = []
self.inferred_cnt = 0
self.plugin = IEPlugin(device="MYRIAD")
self.net = IENetwork(model=self.model_xml, weights=self.model_bin)
self.input_blob = next(iter(self.net.inputs))
self.exec_net = self.plugin.load(network=self.net, num_requests=self.num_requests)
self.results = results
self.number_of_ncs = number_of_ncs
def image_preprocessing(self, color_image):
prepimg = cv2.resize(color_image, (300, 300))
prepimg = prepimg - 127.5
prepimg = prepimg * 0.007843
prepimg = prepimg[np.newaxis, :, :, :] # Batch size axis add
prepimg = prepimg.transpose((0, 3, 1, 2)) # NHWC to NCHW
return prepimg
def predict_async(self):
try:
if self.frameBuffer.empty():
return
prepimg = self.image_preprocessing(self.frameBuffer.get())
reqnum = searchlist(self.inferred_request, 0)
if reqnum > -1:
self.exec_net.start_async(request_id=reqnum, inputs={self.input_blob: prepimg})
self.inferred_request[reqnum] = 1
self.inferred_cnt += 1
if self.inferred_cnt == sys.maxsize:
self.inferred_request = [0] * self.num_requests
self.heap_request = []
self.inferred_cnt = 0
heapq.heappush(self.heap_request, (self.inferred_cnt, reqnum))
cnt, dev = heapq.heappop(self.heap_request)
if self.exec_net.requests[dev].wait(0) == 0:
self.exec_net.requests[dev].wait(-1)
out = self.exec_net.requests[dev].outputs["detection_out"].flatten()
self.results.put([out])
self.inferred_request[dev] = 0
else:
heapq.heappush(self.heap_request, (cnt, dev))
except:
import traceback
traceback.print_exc()
def inferencer(results, frameBuffer, ssd_detection_mode, face_detection_mode, camera_width, camera_height, number_of_ncs):
# Init infer threads
threads = []
for devid in range(number_of_ncs):
thworker = threading.Thread(target=async_infer, args=(NcsWorker(devid, frameBuffer, results, camera_width, camera_height, number_of_ncs),))
thworker.start()
threads.append(thworker)
for th in threads:
th.join()
def overlay_on_image(frames, object_infos, LABELS):
try:
color_image = frames
if isinstance(object_infos, type(None)):
return color_image
# Show images
height = color_image.shape[0]
width = color_image.shape[1]
entire_pixel = height * width
img_cp = color_image.copy()
for (object_info, LABEL) in zip(object_infos, LABELS):
drawing_initial_flag = True
for box_index in range(100):
if object_info[box_index + 1] == 0.0:
break
base_index = box_index * 7
if (not np.isfinite(object_info[base_index]) or
not np.isfinite(object_info[base_index + 1]) or
not np.isfinite(object_info[base_index + 2]) or
not np.isfinite(object_info[base_index + 3]) or
not np.isfinite(object_info[base_index + 4]) or
not np.isfinite(object_info[base_index + 5]) or
not np.isfinite(object_info[base_index + 6])):
continue
x1 = max(0, int(object_info[base_index + 3] * height))
y1 = max(0, int(object_info[base_index + 4] * width))
x2 = min(height, int(object_info[base_index + 5] * height))
y2 = min(width, int(object_info[base_index + 6] * width))
object_info_overlay = object_info[base_index:base_index + 7]
min_score_percent = 60
source_image_width = width
source_image_height = height
base_index = 0
class_id = object_info_overlay[base_index + 1]
percentage = int(object_info_overlay[base_index + 2] * 100)
if (percentage <= min_score_percent):
continue
box_left = int(object_info_overlay[base_index + 3] * source_image_width)
box_top = int(object_info_overlay[base_index + 4] * source_image_height)
box_right = int(object_info_overlay[base_index + 5] * source_image_width)
box_bottom = int(object_info_overlay[base_index + 6] * source_image_height)
label_text = LABEL[int(class_id)] + " (" + str(percentage) + "%)"
box_color = (255, 128, 0)
box_thickness = 1
cv2.rectangle(img_cp, (box_left, box_top), (box_right, box_bottom), box_color, box_thickness)
label_background_color = (125, 175, 75)
label_text_color = (255, 255, 255)
label_size = cv2.getTextSize(label_text, cv2.FONT_HERSHEY_SIMPLEX, 0.5, 1)[0]
label_left = box_left
label_top = box_top - label_size[1]
if (label_top < 1):
label_top = 1
label_right = label_left + label_size[0]
label_bottom = label_top + label_size[1]
cv2.rectangle(img_cp, (label_left - 1, label_top - 1), (label_right + 1, label_bottom + 1), label_background_color, -1)
cv2.putText(img_cp, label_text, (label_left, label_bottom), cv2.FONT_HERSHEY_SIMPLEX, 0.5, label_text_color, 1)
cv2.putText(img_cp, fps, (width-170,15), cv2.FONT_HERSHEY_SIMPLEX, 0.5, (38,0,255), 1, cv2.LINE_AA)
cv2.putText(img_cp, detectfps, (width-170,30), cv2.FONT_HERSHEY_SIMPLEX, 0.5, (38,0,255), 1, cv2.LINE_AA)
return img_cp
except:
import traceback
traceback.print_exc()
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument('-cn','--numberofcamera',dest='number_of_camera',type=int,default=0,help='USB camera number. (Default=0)')
parser.add_argument('-wd','--width',dest='camera_width',type=int,default=320,help='Width of the frames in the video stream. (Default=320)')
parser.add_argument('-ht','--height',dest='camera_height',type=int,default=240,help='Height of the frames in the video stream. (Default=240)')
parser.add_argument('-sd','--ssddetection',dest='ssd_detection_mode',type=int,default=1,help='[Future functions] SSDDetectionMode. (0:=Disabled, 1:=Enabled Default=1)')
parser.add_argument('-fd','--facedetection',dest='face_detection_mode',type=int,default=0,help='[Future functions] FaceDetectionMode. (0:=Disabled, 1:=Full, 2:=Short Default=0)')
parser.add_argument('-numncs','--numberofncs',dest='number_of_ncs',type=int,default=1,help='Number of NCS. (Default=1)')
parser.add_argument('-vidfps','--fpsofvideo',dest='fps_of_video',type=int,default=30,help='FPS of Video. (Default=30)')
args = parser.parse_args()
number_of_camera = args.number_of_camera
camera_width = args.camera_width
camera_height = args.camera_height
ssd_detection_mode = args.ssd_detection_mode
face_detection_mode = args.face_detection_mode
number_of_ncs = args.number_of_ncs
vidfps = args.fps_of_video
if ssd_detection_mode == 0 and face_detection_mode != 0:
del(LABELS[0])
try:
mp.set_start_method('forkserver')
frameBuffer = mp.Queue(10)
results = mp.Queue()
# Start streaming
p = mp.Process(target=camThread,
args=(LABELS, results, frameBuffer, camera_width, camera_height, vidfps, number_of_camera),
daemon=True)
p.start()
processes.append(p)
# Start detection MultiStick
# Activation of inferencer
p = mp.Process(target=inferencer,
args=(results, frameBuffer, ssd_detection_mode, face_detection_mode, camera_width, camera_height, number_of_ncs),
daemon=True)
p.start()
processes.append(p)
while True:
sleep(1)
except:
import traceback
traceback.print_exc()
finally:
for p in range(len(processes)):
processes[p].terminate()
print("\n\nFinished\n\n")