def get_test_bounding_boxes(): Helipad = BoundingBox() Helipad.probability = 0.5 Helipad.xmin = 312 Helipad.ymin = 120 Helipad.xmax = 337 Helipad.ymax = 148 Helipad.id = 2 Helipad.Class = "Helipad" H = BoundingBox() H.probability = 0.5 H.xmin = 320 H.ymin = 128 H.xmax = 330 H.ymax = 138 H.id = 0 H.Class = "H" Arrow = BoundingBox() Arrow.probability = 0.5 Arrow.xmin = 333 Arrow.ymin = 140 Arrow.xmax = 335 Arrow.ymax = 143 Arrow.id = 1 Arrow.Class = "Arrow" bbs = BoundingBoxes() bbs.bounding_boxes = [Helipad, H, Arrow] return bbs
def msgDN(self, image, boxes, scores, classes): """ Create the Object Detector message to publish with ROS This uses the Darknet BoundingBox[es] messages """ msg = BoundingBoxes() msg.header = image.header scores_above_threshold = np.where(scores > self.threshold)[1] for s in scores_above_threshold: # Get the properties bb = boxes[0, s, :] sc = scores[0, s] cl = classes[0, s] # Create the bounding box message detection = BoundingBox() detection.Class = self.category_index[int(cl)]['name'] detection.probability = sc detection.xmin = int((image.width - 1) * bb[1]) detection.ymin = int((image.height - 1) * bb[0]) detection.xmax = int((image.width - 1) * bb[3]) detection.ymax = int((image.height - 1) * bb[2]) msg.boundingBoxes.append(detection) return msg
def process(msg): t_begin = rospy.get_time() cv_img = bridge.imgmsg_to_cv2(msg, "bgr8") cv2.imwrite(img_path, cv_img) with open(img_path, "rb") as img: img_bytes = img.read() server.send(darksocket.pack(darksocket.Packet.IMAGE, img_bytes)) res = server.recv() t_end = rospy.get_time() if telemetry: cls() rospy.loginfo("%s FPS" % (1 / (t_end - t_begin))) if res == darksocket.StreamEvent.DETECTIONS: dets = Detections() dets.image = msg for det in server.stream.detections: bbox = BoundingBox() bbox.Class = det[0] bbox.probability = det[1] bbox.xmin = det[2] bbox.ymin = det[3] bbox.xmax = det[2] + det[4] bbox.ymax = det[3] + det[5] dets.bboxes.append(bbox) if telemetry: rospy.loginfo("%s %s" % (bbox.Class, bbox.probability)) pub_detections.publish(dets)
def callback(self, data): print('\n', 'Predicting') # try: # cv_image = self.bridge.imgmsg_to_cv2(data, "bgr8") # except CvBridgeError as e: # print(e) # cv_image = cv2.copyMakeBorder(cv_image, 100, 100, 100, 100, cv2.BORDER_CONSTANT, value=[85, 120, 68]) # cv_image = cv2.imread("pic_buffer/R.png") # cv2.imwrite("pic_buffer/R.png", cv_image) # im = array_to_image(cv_image) # dn.rgbgr_image(im) # # print(dn.detect(net, meta, im)) # print("===") r = [] img = cv2.imread("pic_buffer/1_R.png") sp = img.shape r += self.subpredict(0, int(sp[0] / 2), 0, sp[1]) r += self.subpredict(int(sp[0] / 2), sp[0], 0, sp[1]) r += self.subpredict(int(sp[0] / 4), int(sp[0] * 3 / 4), 0, sp[1]) r += self.subpredict(0, sp[0], 0, int(sp[1] / 2)) r += self.subpredict(0, sp[0], int(sp[1] / 2), sp[1]) r += self.subpredict(0, sp[0], int(sp[1] / 3), int(sp[1] * 2 / 3)) r += self.subpredict(0, sp[0], 0, int(sp[1] * 2 / 3)) r += self.subpredict(0, sp[0], int(sp[1] / 3), sp[1]) r += self.subpredict(0, int(sp[0] * 2 / 3), 0, sp[1]) r += self.subpredict(int(sp[0] / 3), sp[0], 0, sp[1]) r = self.removeDuplicate(r) print() img = self.drawCrossings(img, r) cv2.imwrite("pic_buffer/2_D.png", img) boxes = BoundingBoxes() print('\n', 'Predict result:') for i in range(len(r)): box = BoundingBox() print(' ', r[i][0], r[i][1] * 100, '%') box.Class = r[i][0].decode('utf-8') box.probability = r[i][1] box.id = i box.xmin = int(r[i][2][0]) box.ymin = int(r[i][2][1]) box.xmax = int(r[i][2][2]) box.ymax = int(r[i][2][3]) boxes.bounding_boxes.append(box) # if b'endpoint' == r[i][0]: # print('\t', r[i][0], r[i][1]*100, '%') print(' ', int(r[i][2][0]), int(r[i][2][1]), int(r[i][2][2]), int(r[i][2][3])) # if b'cross' == r[i][0]: # print('\t', r[i][0], r[i][1]*100, '%') # # print('\t', r[i][2]) print('\n', 'Darknet waiting for rgb_img') time.sleep(0.5) try: self.boxes_pub.publish(boxes) except CvBridgeError as e: print(e)
def camera_image_callback(self, image, camera): """Gets images from camera to generate detections on Computes where the bounding boxes should be in the image, and fakes YOLO bounding boxes output as well as publishing a debug image showing where the detections are if turned on Parameters ---------- image : sensor_msgs.Image The image from the camera to create detections for camera : Camera Holds camera parameters for projecting points """ cv_image = self.bridge.imgmsg_to_cv2(image, desired_encoding="rgb8") if camera.is_ready(): # Fake darknet yolo detections message bounding_boxes = BoundingBoxes() bounding_boxes.header = image.header bounding_boxes.image_header = image.header bounding_boxes.image = image bounding_boxes.bounding_boxes = [] for _, obj in self.objects.iteritems(): detections = self.get_detections(obj, camera, image.header.stamp) if detections is not None: if camera.debug_image_pub: self.render_debug_context(cv_image, detections, camera) for det in detections: bounding_box = BoundingBox() bounding_box.Class = det[2] bounding_box.probability = 1.0 bounding_box.xmin = int(det[0][0]) bounding_box.xmax = int(det[0][1]) bounding_box.ymin = int(det[0][2]) bounding_box.ymax = int(det[0][3]) bounding_boxes.bounding_boxes.append(bounding_box) # Only publish detection if there are boxes in it if bounding_boxes.bounding_boxes: self.darknet_detection_pub.publish(bounding_boxes) if camera.debug_image_pub: image_message = self.bridge.cv2_to_imgmsg(cv_image, encoding="rgb8") camera.debug_image_pub.publish(image_message)
def image_callback(self, msg): # print("Received an image!") try: # Convert your ROS Image message to numpy image data type cv2_img = np.frombuffer(msg.data, dtype=np.uint8).reshape( msg.height, msg.width, -1) image_ori = cv2.resize(cv2_img, (512, 512)) #remove alpha channel if it exists if image_ori.shape[-1] == 4: image_ori = image_ori[..., :3] #normalize the image image = self.normalize(image_ori) with torch.no_grad(): image = torch.Tensor(image) if torch.cuda.is_available(): image = image.cuda() boxes = self.model_.get_boxes( image.permute(2, 0, 1).unsqueeze(0)) Boxes_msg = BoundingBoxes() Boxes_msg.image_header = msg.header Boxes_msg.header.stamp = rospy.Time.now() for box in boxes[0]: # print(box.confidence) confidence = float(box.confidence) box = (box.box * torch.Tensor([512] * 4)).int().tolist() if confidence > 0.35: cv2.rectangle(image_ori, (box[0], box[1]), (box[2], box[3]), (255, 0, 0), 2) cv2.putText(image_ori, str(confidence)[:4], (box[0] - 2, box[1] - 2), cv2.FONT_HERSHEY_SIMPLEX, 1, (255, 0, 0), 2) # msg_frame = self.bridge.cv2_to_imgmsg(image_ori) detection_box = BoundingBox() # detection_box.Class=str(box.class_id) detection_box.xmin = box[0] detection_box.ymin = box[1] detection_box.xmax = box[2] detection_box.ymax = box[3] detection_box.probability = confidence Boxes_msg.bounding_boxes.append(detection_box) msg_frame = self.bridge.cv2_to_imgmsg(image_ori) self.img_pub.publish(msg_frame) self.ret_pub.publish(Boxes_msg) except CvBridgeError: print("error") if self.savefigure: cv2.imwrite('new_image.jpeg', cv2_img) print('save picture') # self.detected_msg.data="Take a photo" self.savefigure = False
def create_d_msgs_box(self, track): one_box = BoundingBox() one_box.id = int(track.id[:3], 16) one_box.class_id = "face" one_box.probability = float(track.score) one_box.xmin = int(track.box[0]) one_box.ymin = int(track.box[1]) one_box.xmax = int(track.box[2]) one_box.ymax = int(track.box[3]) return one_box
def test1(): g = GateLocalizer() image_dims = (480,752) # image is 480x752 # does x go along the rows or columns?? boxes = [] boxLeft = BoundingBox() boxLeft.xmin = 607 boxLeft.ymin = 154 boxLeft.xmax = 629 boxLeft.ymax = 410 boxRight = BoundingBox() boxRight.xmin = 206 boxRight.ymin = 171 boxRight.xmax = 231 boxRight.ymax = 391 boxes.append(boxLeft) boxes.append(boxRight) print(g.midpoint(boxes, image_dims))
def _write_message(self, detection_results, boxes, scores, classes): """ populate output message with input header and bounding boxes information """ if boxes is None: return None for box, score, category in zip(boxes, scores, classes): # Populate darknet message left, bottom, right, top = box detection_msg = BoundingBox() detection_msg.xmin = left detection_msg.xmax = right detection_msg.ymin = top detection_msg.ymax = bottom detection_msg.probability = score detection_msg.Class = category detection_results.bounding_boxes.append(detection_msg) return detection_results
def GetBBoxesMsg(self, label_file: str): output_bboxes_msg = BoundingBoxes() with open(label_file, 'r') as file: id_ = 0 for line in file: gt = line.split() bbox_msg = BoundingBox() #print(gt) bbox_msg.xmin = int(gt[5]) bbox_msg.ymin = int(gt[6]) bbox_msg.xmax = int(gt[7]) bbox_msg.ymax = int(gt[8]) bbox_msg.id = id_ bbox_msg.Class = gt[0] id_ += 1 output_bboxes_msg.bounding_boxes.append(bbox_msg) return output_bboxes_msg
def msg(image, boxes): """ Create the Darknet BoundingBox[es] messages """ msg = BoundingBoxes() msg.header = image.header for (x, y, w, h) in boxes: detection = BoundingBox() detection.Class = "human" detection.probability = 1 # Not really... detection.xmin = x detection.ymin = y detection.xmax = x + w detection.ymax = y + h msg.boundingBoxes.append(detection) return msg
def test_tracker_callback(self): args = None rclpy.init(args=args) node = ObjectTrackingNode() bboxes_msg = BoundingBoxes() for track in self.tracks: bbox_msg = BoundingBox() bbox_msg.xmin = track["x1"] bbox_msg.ymin = track["y1"] bbox_msg.xmax = track["x2"] bbox_msg.ymax = track["y2"] bboxes_msg.bounding_boxes.append(bbox_msg) node.tracker_callback(bboxes_msg)
def boxcallback(self, msg): dets = [] for i in range(len(msg.bounding_boxes)): bbox = msg.bounding_boxes[i] dets.append( np.array([ bbox.xmin, bbox.ymin, bbox.xmax, bbox.ymax, bbox.probability ])) dets = np.array(dets) start_time = time.time() trackers = self.update(dets) cycle_time = time.time() - start_time print(cycle_time) r = BoundingBoxes() rb = BoundingBox() for d in range(len(trackers)): rb.probability = 1 rb.xmin = trackers[d, 0] rb.ymin = trackers[d, 1] rb.xmax = trackers[d, 2] rb.ymax = trackers[d, 3] rb.id = trackers[d, 4] rb.Class = 'tracked' r.bounding_boxes.append(rb) if self.img_in == 1 and self.display: res = trackers[d].astype(np.int32) rgb = self.colours[res[4] % 32, :] * 255 cv2.rectangle(self.img, (res[0], res[1]), (res[2], res[3]), (rgb[0], rgb[1], rgb[2]), 2) cv2.putText(self.img, "ID : %d" % (res[4]), (res[0], res[1]), cv2.FONT_HERSHEY_SIMPLEX, 0.8, (200, 85, 200), 2) if self.img_in == 1 and self.display: try: self.image = self.bridge.cv2_to_imgmsg(self.img, "bgr8") self.image.header.stamp = rospy.Time.now() self.pubimage.publish(self.image) except CvBridgeError as e: pass r.header.stamp = rospy.Time.now() self.pubb.publish(r) return
try: start_time = time.time() if mot_tracker.bbox_checkin==1: trackers = mot_tracker.update(mot_tracker.dets) mot_tracker.bbox_checkin=0 else: trackers = mot_tracker.update(np.empty((0,5))) r = BoundingBoxes() for d in range(len(trackers)): rb = BoundingBox() rb.probability=1 rb.xmin = int(trackers[d,0]) rb.ymin = int(trackers[d,1]) rb.xmax = int(trackers[d,2]) rb.ymax = int(trackers[d,3]) rb.id = int(trackers[d,4]) rb.Class = 'tracked' r.bounding_boxes.append(rb) if mot_tracker.img_in==1 and mot_tracker.display: res = trackers[d].astype(np.int32) rgb=colours[res[4]%32,:]*255 cv2.rectangle(mot_tracker.img, (res[0],res[1]), (res[2],res[3]), (rgb[0],rgb[1],rgb[2]), 6) cv2.putText(mot_tracker.img, "ID : %d"%(res[4]), (res[0],res[1]), cv2.FONT_HERSHEY_SIMPLEX, 1.6, (200,85,200), 6) if mot_tracker.img_in==1 and mot_tracker.display: try : mot_tracker.image = mot_tracker.bridge.cv2_to_imgmsg(mot_tracker.img, "bgr8") mot_tracker.image.header.stamp = rospy.Time.now() mot_tracker.pubimage.publish(mot_tracker.image) except CvBridgeError as e: pass
try: start_time = time.time() if mot_tracker.bbox_checkin == 1: trackers = mot_tracker.update(mot_tracker.dets) mot_tracker.bbox_checkin = 0 else: trackers = mot_tracker.update(np.empty((0, 5))) r = BoundingBoxes() for d in range(len(trackers)): rb = BoundingBox() rb.probability = 1 rb.xmin = trackers[d, 0] rb.ymin = trackers[d, 1] rb.xmax = trackers[d, 2] rb.ymax = trackers[d, 3] rb.id = trackers[d, 4] rb.Class = 'tracked' r.bounding_boxes.append(rb) if mot_tracker.img_in == 1 and mot_tracker.display: res = trackers[d].astype(np.int32) rgb = colours[res[4] % 32, :] * 255 cv2.rectangle(mot_tracker.img, (res[0], res[1]), (res[2], res[3]), (rgb[0], rgb[1], rgb[2]), 6) cv2.putText(mot_tracker.img, "ID : %d" % (res[4]), (res[0], res[1]), cv2.FONT_HERSHEY_SIMPLEX, 1.6, (200, 85, 200), 6) if mot_tracker.img_in == 1 and mot_tracker.display: try: mot_tracker.image = mot_tracker.bridge.cv2_to_imgmsg(