| """ |
| SPDX-FileCopyrightText: 2020-present Open Networking Foundation <info@opennetworking.org> |
| SPDX-License-Identifier: LicenseRef-ONF-Member-1.01 |
| """ |
| |
| from __future__ import print_function |
| |
| from collections import namedtuple |
| import logging as log |
| import os |
| import sys |
| import time |
| from argparse import ArgumentParser, SUPPRESS |
| from imutils import build_montages |
| |
| import cv2 |
| from openvino.inference_engine import IECore |
| |
| from base_camera import BaseCamera |
| |
| Shape = namedtuple('Shape', ['n','c','h','w']) |
| |
| class Camera(BaseCamera): |
| model = None |
| prob_threshold = 0.0 |
| input = None |
| device = None |
| |
| def __init__(self, device, args): |
| log.basicConfig(format="[ %(levelname)s ] %(message)s", level=log.INFO, stream=sys.stdout) |
| |
| self.model_xml = args.model |
| self.input = args.input |
| self.prob_threshold = args.prob_threshold |
| |
| self.is_async_mode = True |
| |
| self.device = device |
| |
| super(Camera, self).__init__(device, args.idle) |
| |
| def __del__(self): |
| # stream.release() |
| cv2.destroyAllWindows() |
| |
| def init_stream(self): |
| if self.input == 'cam': |
| input_stream = 0 |
| elif self.input == 'gstreamer': |
| input_stream = 'udpsrc port=500' + self.device + ' caps = " application/x-rtp, media=(string)video, clock-rate=(int)90000, encoding-name=(string)H264, payload=(int)96" ! rtph264depay ! avdec_h264 ! videoconvert ! appsink' |
| else: |
| input_stream = self.input |
| assert os.path.isfile(self.input), "Specified input file doesn't exist" |
| |
| if self.input == 'gstreamer': |
| stream = cv2.VideoCapture(input_stream, cv2.CAP_GSTREAMER) |
| else: |
| stream = cv2.VideoCapture(input_stream) |
| |
| return stream |
| |
| |
| def init_inference(self): |
| self.model_bin = os.path.splitext(self.model_xml)[0] + ".bin" |
| |
| # Read IR |
| log.info("Reading IR...") |
| net = IECore().read_network(model=self.model_xml, weights=self.model_bin) |
| |
| assert len(net.inputs.keys()) == 1, "Demo supports only single input topologies" |
| assert len(net.outputs) == 1, "Demo supports only single output topologies" |
| input_blob = next(iter(net.inputs)) |
| out_blob = next(iter(net.outputs)) |
| |
| log.info("Loading IR to the plugin...") |
| exec_net = IECore().load_network(network=net, device_name="CPU", num_requests=2) |
| # Read and pre-process input image |
| shape = Shape(*net.inputs[input_blob].shape) |
| |
| del net |
| |
| return exec_net, shape, input_blob, out_blob |
| |
| |
| def frames(self): |
| |
| exec_net, shape, input_blob, out_blob = self.init_inference() |
| stream = self.init_stream() |
| |
| cur_request_id = 0 |
| next_request_id = 1 |
| |
| # Async doesn't work if True |
| # Request issues = Runtime Error: [REQUEST BUSY] |
| # self.is_async_mode = False |
| render_time = 0 |
| ret, frame = stream.read() |
| |
| while True: |
| if self.is_async_mode: |
| ret, next_frame = stream.read() |
| else: |
| ret, frame = stream.read() |
| if not ret: |
| break |
| initial_w = stream.get(cv2.CAP_PROP_FRAME_WIDTH) |
| initial_h = stream.get(cv2.CAP_PROP_FRAME_HEIGHT) |
| |
| # Main sync point: |
| # in the truly Async mode we start the NEXT infer request, while waiting for the CURRENT to complete |
| # in the regular mode we start the CURRENT request and immediately wait for it's completion |
| inf_start = time.time() |
| if self.is_async_mode: |
| in_frame = cv2.resize(next_frame, (shape.w, shape.h)) |
| in_frame = in_frame.transpose((2, 0, 1)) # Change data layout from HWC to CHW |
| in_frame = in_frame.reshape((shape.n, shape.c, shape.h, shape.w)) |
| exec_net.start_async(request_id=next_request_id, inputs={input_blob: in_frame}) |
| else: |
| in_frame = cv2.resize(frame, (shape.w, shape.h)) |
| in_frame = in_frame.transpose((2, 0, 1)) # Change data layout from HWC to CHW |
| in_frame = in_frame.reshape((shape.n, shape.c, shape.h, shape.w)) |
| exec_net.start_async(request_id=cur_request_id, inputs={input_blob: in_frame}) |
| |
| if exec_net.requests[cur_request_id].wait(-1) == 0: |
| inf_end = time.time() |
| det_time = inf_end - inf_start |
| |
| # Parse detection results of the current request |
| res = exec_net.requests[cur_request_id].outputs[out_blob] |
| |
| initial_w = 640 |
| initial_h = 480 |
| frame = cv2.resize(frame, (initial_w, initial_h)) |
| |
| for obj in res[0][0]: |
| # Draw only objects when probability more than specified threshold |
| if obj[2] > self.prob_threshold: |
| xmin = int(obj[3] * initial_w) |
| ymin = int(obj[4] * initial_h) |
| xmax = int(obj[5] * initial_w) |
| ymax = int(obj[6] * initial_h) |
| class_id = int(obj[1]) |
| # Draw box and label\class_id |
| color = (0, 0, 255) |
| cv2.rectangle(frame, (xmin, ymin), (xmax, ymax), color, 2) |
| det_label = str(class_id) |
| cv2.putText(frame, det_label + ' ' + str(round(obj[2] * 100, 1)) + ' %', (xmin, ymin - 7), |
| cv2.FONT_HERSHEY_COMPLEX, 0.6, color, 1) |
| |
| cv2.putText(frame, self.device, (10, int(initial_h - 20)), |
| cv2.FONT_HERSHEY_COMPLEX, 0.5, (10, 10, 200), 1) |
| |
| render_start = time.time() |
| |
| yield cv2.imencode('.jpg', frame)[1].tobytes() |
| |
| render_end = time.time() |
| render_time = render_end - render_start |
| |
| if self.is_async_mode: |
| cur_request_id, next_request_id = next_request_id, cur_request_id |
| frame = next_frame |