def construct_abstract_scene(self, scene_msg): scene = Scene(3) for i,(obj,name) in enumerate(zip(scene_msg.bboxes, scene_msg.names)): BB = BoundingBox([point_to_vec(obj.points[0]), point_to_vec(obj.points[1])]) polygon, _ = self.get_image_polygon(obj) if name == 'table': l = Landmark(name, RectangleRepresentation( BB ), None, ObjectClass.TABLE) else: for center,color,category in zip(self.object_centers_msg.centers, self.object_centers_msg.color_labels, self.object_centers_msg.category_labels): if polygon.contains_point( Vec2(center.pixel.x, center.pixel.y) ): l = Landmark(name, RectangleRepresentation( BB, landmarks_to_get=[] ), None, category.upper(), color.upper()) l.representation.alt_representations= [] scene_msg.colors[i] = color.upper() scene_msg.categories[i] = category.upper() break scene.add_landmark(l) self.scene_lmk_to_bbox[l] = obj self.scene_pub.publish(scene_msg) rospy.loginfo('Constructed a scene') return scene
def construct_abstract_scene(self, scene_msg): scene = Scene(3) for i, (obj, name) in enumerate(zip(scene_msg.bboxes, scene_msg.names)): BB = BoundingBox( [point_to_vec(obj.points[0]), point_to_vec(obj.points[1])]) polygon, _ = self.get_image_polygon(obj) if name == 'table': l = Landmark(name, RectangleRepresentation(BB), None, ObjectClass.TABLE) else: for center, color, category in zip( self.object_centers_msg.centers, self.object_centers_msg.color_labels, self.object_centers_msg.category_labels): if polygon.contains_point( Vec2(center.pixel.x, center.pixel.y)): l = Landmark( name, RectangleRepresentation(BB, landmarks_to_get=[]), None, category.upper(), color.upper()) l.representation.alt_representations = [] scene_msg.colors[i] = color.upper() scene_msg.categories[i] = category.upper() break scene.add_landmark(l) self.scene_lmk_to_bbox[l] = obj self.scene_pub.publish(scene_msg) rospy.loginfo('Constructed a scene') return scene
def handle_scene(self, msg): def get_image_polygon(obj): minps = PointStamped() minps.header.stamp = rospy.Time(0) minps.header.frame_id = "base_footprint" minps.point.x = obj.points[0].y minps.point.y = -obj.points[0].x minps.point.z = obj.points[0].z minp = self.tf.transformPoint("kinect_rgb_optical_frame", minps).point minps.point.x = obj.points[1].y minps.point.y = -obj.points[1].x minps.point.z = obj.points[1].z maxp = self.tf.transformPoint("kinect_rgb_optical_frame", minps).point ct = np.array( [(minp.x, minp.y, minp.z), (maxp.x, minp.y, minp.z), (maxp.x, maxp.y, maxp.z), (minp.x, maxp.y, maxp.z)] ) corners = cv.fromarray(ct) out = cv.fromarray(np.zeros((4, 2))) cam_mat = np.array([(525, 0, 319.5), (0, 525, 239.5), (0, 0, 1)]) cv.ProjectPoints2( corners, cv.fromarray(np.zeros((1, 3))), cv.fromarray(np.zeros((1, 3))), cv.fromarray(cam_mat), cv.fromarray(np.zeros((1, 4))), out, ) vs = [] for l in np.asarray(out): vs.append(Vec2(*l)) return Polygon(vs) obj_centers = rospy.wait_for_message("/object_centers", ObjectCenters) scene = Scene(3) for obj, name in zip(msg.bboxes, msg.names): BB = BoundingBox([point_to_vec(obj.points[0]), point_to_vec(obj.points[1])]) polygon = get_image_polygon(obj) if name == "table": l = Landmark(name, RectangleRepresentation(BB), None, ObjectClass.TABLE) else: for center, color, category in zip( obj_centers.centers, obj_centers.color_labels, obj_centers.category_labels ): if polygon.contains_point(Vec2(center.pixel.x, center.pixel.y)): l = Landmark( name, RectangleRepresentation(BB, landmarks_to_get=[]), None, category.upper(), color.upper(), ) l.representation.alt_representations = [] break scene.add_landmark(l) self.last_scene = scene rospy.loginfo("Constructed a scene")
def handle_scene(self, msg): def get_image_polygon(obj): minps = PointStamped() minps.header.stamp = rospy.Time(0) minps.header.frame_id = 'base_footprint' minps.point.x = obj.points[0].y minps.point.y = -obj.points[0].x minps.point.z = obj.points[0].z minp = self.tf.transformPoint('kinect_rgb_optical_frame', minps).point minps.point.x = obj.points[1].y minps.point.y = -obj.points[1].x minps.point.z = obj.points[1].z maxp = self.tf.transformPoint('kinect_rgb_optical_frame', minps).point ct = np.array( [(minp.x,minp.y,minp.z), (maxp.x,minp.y,minp.z), (maxp.x,maxp.y,maxp.z), (minp.x,maxp.y,maxp.z)] ) corners = cv.fromarray(ct) out = cv.fromarray(np.zeros((4,2))) cam_mat = np.array( [(525, 0, 319.5), (0, 525, 239.5), (0, 0, 1)] ) cv.ProjectPoints2(corners, cv.fromarray(np.zeros((1,3))), cv.fromarray(np.zeros((1,3))), cv.fromarray(cam_mat), cv.fromarray(np.zeros((1,4))), out) vs = [] for l in np.asarray(out): vs.append( Vec2(*l) ) return Polygon(vs) obj_centers = rospy.wait_for_message('/object_centers', ObjectCenters) scene = Scene(3) for obj,name in zip(msg.bboxes, msg.names): BB = BoundingBox([point_to_vec(obj.points[0]), point_to_vec(obj.points[1])]) polygon = get_image_polygon(obj) if name == 'table': l = Landmark(name, RectangleRepresentation( BB ), None, ObjectClass.TABLE) else: for center,color,category in zip(obj_centers.centers, obj_centers.color_labels, obj_centers.category_labels): if polygon.contains_point( Vec2(center.pixel.x,center.pixel.y) ): l = Landmark(name, RectangleRepresentation( BB, landmarks_to_get=[] ), None, category.upper(), color.upper()) l.representation.alt_representations= [] break scene.add_landmark(l) self.last_scene = scene rospy.loginfo('Constructed a scene')