def update_cam(self, cam_type, cam_source, has_aoi, aoi_info):
print("[INFO] Updating Cam ...")
# print(' cam_type', cam_type)
# print(' cam_source', cam_source)
if cam_source == "0":
cam_source = 0
elif cam_source == "1":
cam_source = 1
elif cam_source == "2":
cam_source = 2
elif cam_source == "3":
cam_source = 3
if self.cam_type == cam_type and self.cam_source == cam_source:
return
self.cam_source = cam_source
self.has_aoi = has_aoi
self.aoi_info = aoi_info
cam = cv2.VideoCapture(normalize_rtsp(cam_source))
# Protected by Mutex
self.lock.acquire()
self.cam.release()
self.cam = cam
self.lock.release()
update_instance(normalize_rtsp(cam_source))
def __init__(self,
model_dir,
cam_type="video_file",
cam_source=CAM_SOURCE):
# def __init__(self, model_dir, cam_type="video_file", cam_source="./mov_bbb.mp4"):
# def __init__(self, model_dir, cam_type="video_file", cam_source="./sample_video/video_1min.mp4"):
# def __init__(self, model_dir, cam_type="rtsp", cam_source="rtsp://52.229.36.89:554/media/catvideo.mkv"):
# Default system params
self.render = False
self.lock = threading.Lock()
self.cam_type = cam_type
self.cam_source = cam_source
self.cam = cv2.VideoCapture(normalize_rtsp(cam_source))
self.cam_is_alive = False
self.model = self.load_model(model_dir, is_default_model=True)
self.model_uri = None
self.last_img = None
self.last_edge_img = None
self.last_drawn_img = None
self.last_prediction = []
self.last_prediction_count = {}
self.part_detection_id = None
self.confidence_min = 30 * 0.01
self.confidence_max = 30 * 0.01
self.max_images = 10
self.last_upload_time = 0
self.is_upload_image = False
self.current_uploaded_images = {}
self.detection_success_num = 0
self.detection_unidentified_num = 0
self.detection_total = 0
self.detections = []
self.threshold = 0.3
self.has_aoi = False
self.aoi_info = None
# Part that we want to detect
self.parts = []
self.is_gpu = (onnxruntime.get_device() == 'GPU')
self.average_inference_time = 0
# IoT Hub
self.iothub_is_send = False
self.iothub_threshold = 0.5
self.iothub_fpm = 0
self.iothub_last_send_time = time.time()
self.iothub_interval = 99999999
def restart_cam(self):
print("[INFO] Restarting Cam")
cam = cv2.VideoCapture(normalize_rtsp(self.cam_source))
# Protected by Mutex
self.lock.acquire()
self.cam.release()
self.cam = cam
self.lock.release()
def update_cam(self, cam_type, cam_source, frameRate, cam_id, has_aoi, aoi_info, scenario_type=None, line_info=None, zone_info=None):
print('[INFO] Updating Cam ...', flush=True)
# if self.cam_type == cam_type and self.cam_source == cam_source:
# return
if self.cam_source != cam_source or round(self.frameRate) != round(frameRate):
self.cam_source = cam_source
self.frameRate = frameRate
self._update_instance(normalize_rtsp(cam_source), str(frameRate))
self.has_aoi = has_aoi
self.aoi_info = aoi_info
detection_mode = self.model.get_detection_mode()
if detection_mode == 'PC':
print('[INFO] Line INFO', line_info, flush=True)
self.scenario = PartCounter()
self.scenario_type = self.model.detection_mode
try:
line_info = json.loads(line_info)
self.use_line = line_info['useCountingLine']
lines = line_info['countingLines']
if len(lines) > 0:
x1 = int(lines[0]['label'][0]['x'])
y1 = int(lines[0]['label'][0]['y'])
x2 = int(lines[0]['label'][1]['x'])
y2 = int(lines[0]['label'][1]['y'])
self.scenario.set_line(x1, y1, x2, y2)
print('Upading Line:', flush=True)
print(' use_line:', self.use_line, flush=True)
print(' line:', x1, y1, x2, y2, flush=True)
else:
print('Upading Line:', flush=True)
print(' use_line:', self.use_line, flush=True)
except:
self.use_line = False
print('Upading Line[*]:', flush=True)
print(' use_line :', False, flush=True)
elif detection_mode == 'ES':
print('[INFO] Zone INFO', zone_info, flush=True)
self.scenario = DangerZone()
self.scenario_type = self.model.detection_mode
# FIXME
self.scenario.set_targets(['Person'])
try:
zone_info = json.loads(zone_info)
self.use_zone = zone_info['useDangerZone']
zones = zone_info['dangerZones']
_zones = []
print('Upading Line:', flush=True)
print(' use_zone:', self.use_zone, flush=True)
for zone in zones:
x1 = int(zone['label']['x1'])
y1 = int(zone['label']['y1'])
x2 = int(zone['label']['x2'])
y2 = int(zone['label']['y2'])
_zones.append([x1, y1, x2, y2])
print(' zone:', x1, y1, x2, y2, flush=True)
self.scenario.set_zones(_zones)
except:
self.use_zone = False
print('Upading Zone[*]:', flush=True)
print(' use_zone :', False, flush=True)
elif detection_mode == 'DD':
print('[INFO] Line INFO', line_info, flush=True)
self.scenario = DefeatDetection()
self.scenario_type = self.model.detection_mode
# FIXME
self.scenario.set_ok('Bottle - OK')
self.scenario.set_ng('Bottle - NG')
try:
line_info = json.loads(line_info)
self.use_line = line_info['useCountingLine']
lines = line_info['countingLines']
if len(lines) > 0:
x1 = int(lines[0]['label'][0]['x'])
y1 = int(lines[0]['label'][0]['y'])
x2 = int(lines[0]['label'][1]['x'])
y2 = int(lines[0]['label'][1]['y'])
self.scenario.set_line(x1, y1, x2, y2)
print('Upading Line:', flush=True)
print(' use_line:', self.use_line, flush=True)
print(' line:', x1, y1, x2, y2, flush=True)
else:
print('Upading Line:', flush=True)
print(' use_line:', self.use_line, flush=True)
except:
self.use_line = False
print('Upading Line[*]:', flush=True)
print(' use_line :', False, flush=True)
else:
self.scenario = None
self.scenario_type = self.model.detection_mode
def update_cam(
self,
cam_type,
cam_source,
frameRate,
lva_mode,
cam_id,
has_aoi,
aoi_info,
scenario_type=None,
line_info=None,
zone_info=None,
):
logger.info("Updating Cam ...")
# if self.cam_type == cam_type and self.cam_source == cam_source:
# return
if (self.cam_source != cam_source
or round(self.frameRate) != round(frameRate)
or self.lva_mode != lva_mode):
self.cam_source = cam_source
self.frameRate = frameRate
self.lva_mode = lva_mode
if IS_OPENCV == "true":
logger.info("post to CVModule")
data = {
"stream_id": self.cam_id,
"rtsp": self.cam_source,
"fps": self.frameRate,
"endpoint": "http://InferenceModule:5000",
}
res = requests.post("http://CVCaptureModule:9000/streams",
json=data)
else:
self._update_instance(normalize_rtsp(cam_source),
str(frameRate))
self.has_aoi = has_aoi
self.aoi_info = aoi_info
detection_mode = self.model.get_detection_mode()
if detection_mode == "PC":
print("[INFO] Line INFO", line_info, flush=True)
self.scenario = PartCounter()
self.scenario_type = self.model.detection_mode
try:
line_info = json.loads(line_info)
self.use_line = line_info["useCountingLine"]
lines = line_info["countingLines"]
if len(lines) > 0:
x1 = int(lines[0]["label"][0]["x"])
y1 = int(lines[0]["label"][0]["y"])
x2 = int(lines[0]["label"][1]["x"])
y2 = int(lines[0]["label"][1]["y"])
self.scenario.set_line(x1, y1, x2, y2)
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
print(" line:", x1, y1, x2, y2, flush=True)
else:
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
except:
self.use_line = False
print("Upading Line[*]:", flush=True)
print(" use_line :", False, flush=True)
elif detection_mode == "ES":
print("[INFO] Zone INFO", zone_info, flush=True)
self.scenario = DangerZone()
self.scenario_type = self.model.detection_mode
# FIXME
self.scenario.set_targets(["Person"])
try:
zone_info = json.loads(zone_info)
self.use_zone = zone_info["useDangerZone"]
zones = zone_info["dangerZones"]
_zones = []
print("Upading Line:", flush=True)
print(" use_zone:", self.use_zone, flush=True)
for zone in zones:
x1 = int(zone["label"]["x1"])
y1 = int(zone["label"]["y1"])
x2 = int(zone["label"]["x2"])
y2 = int(zone["label"]["y2"])
_zones.append([x1, y1, x2, y2])
print(" zone:", x1, y1, x2, y2, flush=True)
self.scenario.set_zones(_zones)
except:
self.use_zone = False
print("Upading Zone[*]:", flush=True)
print(" use_zone :", False, flush=True)
elif detection_mode == "DD":
print("[INFO] Line INFO", line_info, flush=True)
self.scenario = DefeatDetection()
self.scenario_type = self.model.detection_mode
# FIXME
self.scenario.set_ok("Bottle - OK")
self.scenario.set_ng("Bottle - NG")
try:
line_info = json.loads(line_info)
self.use_line = line_info["useCountingLine"]
lines = line_info["countingLines"]
if len(lines) > 0:
x1 = int(lines[0]["label"][0]["x"])
y1 = int(lines[0]["label"][0]["y"])
x2 = int(lines[0]["label"][1]["x"])
y2 = int(lines[0]["label"][1]["y"])
self.scenario.set_line(x1, y1, x2, y2)
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
print(" line:", x1, y1, x2, y2, flush=True)
else:
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
except:
self.use_line = False
print("Upading Line[*]:", flush=True)
print(" use_line :", False, flush=True)
else:
self.scenario = None
self.scenario_type = self.model.detection_mode
def update_cam(
self,
cam_type,
cam_source,
frameRate,
recording_duration,
lva_mode,
cam_id,
cam_name,
has_aoi,
aoi_info,
scenario_type=None,
line_info=None,
zone_info=None,
):
logger.info("Updating Cam ...")
# if self.cam_type == cam_type and self.cam_source == cam_source:
# return
if (self.cam_source != cam_source
or round(self.frameRate) != round(frameRate)
or self.lva_mode != lva_mode
or self.recording_duration != recording_duration):
self.cam_source = cam_source
self.frameRate = frameRate
self.lva_mode = lva_mode
self.recording_duration = recording_duration
if IS_OPENCV == "true":
logger.info("post to CVModule")
data = {
"stream_id": self.cam_id,
"rtsp": self.cam_source,
"fps": self.frameRate,
"endpoint": "http://inferencemodule:5000",
}
res = requests.post("http://cvcapturemodule:9000/streams",
json=data)
else:
self._update_instance(normalize_rtsp(cam_source),
str(frameRate), str(recording_duration))
self.name = cam_name
self.has_aoi = has_aoi
self.aoi_info = aoi_info
detection_mode = self.model.get_detection_mode()
if detection_mode == "PD":
self.scenario = PartDetection()
self.scenario.set_parts(self.model.parts)
self.scenario_type = self.model.detection_mode
elif detection_mode == "PC":
print("[INFO] Line INFO", line_info, flush=True)
self.scenario = PartCounter()
self.scenario_type = self.model.detection_mode
try:
line_info = json.loads(line_info)
self.use_line = line_info["useCountingLine"]
lines = line_info["countingLines"]
lines_to_set = []
if len(lines) > 0:
for i in range(len(lines)):
x1 = int(lines[i]["label"][0]["x"])
y1 = int(lines[i]["label"][0]["y"])
x2 = int(lines[i]["label"][1]["x"])
y2 = int(lines[i]["label"][1]["y"])
line_id = str(lines[i]['order'])
print(" line:",
x1,
y1,
x2,
y2,
line_id,
flush=True)
lines_to_set.append([x1, y1, x2, y2, line_id])
self.scenario.set_line(lines_to_set)
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
else:
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
except:
self.use_line = False
print("Upading Line[*]:", flush=True)
print(" use_line :", False, flush=True)
elif detection_mode in ["ES", "ESA", "TCC", "CQA"]:
class_obj = [DangerZone, ShelfZone, CountingZone, QueueZone]
print("[INFO] Zone INFO", zone_info, flush=True)
self.scenario = class_obj[["ES", "ESA", "TCC",
"CQA"].index(detection_mode)]()
self.scenario_type = self.model.detection_mode
# FIXME
self.scenario.set_targets(self.model.parts)
try:
zone_info = json.loads(zone_info)
self.use_zone = zone_info["useDangerZone"]
zones = zone_info["dangerZones"]
_zones = []
print("Upading Line:", flush=True)
print(" use_zone:", self.use_zone, flush=True)
# for zone in zones:
# x1 = int(zone["label"]["x1"])
# y1 = int(zone["label"]["y1"])
# x2 = int(zone["label"]["x2"])
# y2 = int(zone["label"]["y2"])
# zone_id = str(zone['order'])
# _zones.append([x1, y1, x2, y2, zone_id])
# print(" zone:", x1, y1, x2, y2, flush=True)
# self.scenario.set_zones(_zones)
self.scenario.set_zones(zones)
except:
self.use_zone = False
print("Upading Zone[*]:", flush=True)
print(" use_zone :", False, flush=True)
elif detection_mode == "DD":
print("[INFO] Line INFO", line_info, flush=True)
self.scenario = DefeatDetection()
self.scenario_type = self.model.detection_mode
# FIXME
self.scenario.set_ok("Bottle - OK")
self.scenario.set_ng("Bottle - NG")
try:
line_info = json.loads(line_info)
self.use_line = line_info["useCountingLine"]
lines = line_info["countingLines"]
if len(lines) > 0:
x1 = int(lines[0]["label"][0]["x"])
y1 = int(lines[0]["label"][0]["y"])
x2 = int(lines[0]["label"][1]["x"])
y2 = int(lines[0]["label"][1]["y"])
self.scenario.set_line(x1, y1, x2, y2)
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
print(" line:", x1, y1, x2, y2, flush=True)
else:
print("Upading Line:", flush=True)
print(" use_line:", self.use_line, flush=True)
except:
self.use_line = False
print("Upading Line[*]:", flush=True)
print(" use_line :", False, flush=True)
else:
self.scenario = None
self.scenario_type = self.model.detection_mode
