コード例 #1
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def make_plane(name, pose, normal = (0, 0, 1), offset = 0):
    co = CollisionObject()
    co.operation = CollisionObject.ADD
    co.id = name
    co.header = pose.header
    p = Plane()
    p.coef = list(normal)
    p.coef.append(offset)
    co.planes = [p]
    co.plane_poses = [pose.pose]
    return co
コード例 #2
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 def add_plane(self, name, pose, normal=(0, 0, 1), offset=0):
     """ Add a plane to the planning scene """
     co = CollisionObject()
     co.operation = CollisionObject.ADD
     co.id = name
     co.header = pose.header
     p = Plane()
     p.coef = list(normal)
     p.coef.append(offset)
     co.planes = [p]
     co.plane_poses = [pose.pose]
     self._pub_co.publish(co)
コード例 #3
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 def add_plane(self, name, pose, normal = (0, 0, 1), offset = 0):
     """ Add a plane to the planning scene """
     co = CollisionObject()
     co.operation = CollisionObject.ADD
     co.id = name
     co.header = pose.header
     p = Plane()
     p.coef = list(normal)
     p.coef.append(offset)
     co.planes = [p]
     co.plane_poses = [pose.pose]
     self._pub_co.publish(co)
コード例 #4
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def create_plane(name,
                 pose,
                 normal=(0, 0, 1),
                 offset=0,
                 frame_id='/world_frame'):
    co = CollisionObject()
    co.operation = CollisionObject.ADD
    co.id = name
    co.header.frame_id = frame_id
    p = Plane()
    p.coef = list(normal)
    p.coef.append(offset)
    co.planes = [p]
    co.plane_poses = [pose]
    return co
コード例 #5
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    def __init__(self, rviz_show=False):
        """
        @brief init node, pubs, subs, params
        """

        rp.init_node("cut_planner")
        self.scan_sub = rp.Subscriber('roadscan', PointCloud2,
                                      self.roadscan_cb)
        self.pose_sub = rp.Subscriber('roadpose', PoseArray, self.roadposes_cb)
        #TODO: Init bladeposearray pub

        # TODO: set params in launch file
        rp.set_param('/goalplane/a', 0.0)
        rp.set_param('/goalplane/b', 0.0)
        rp.set_param('/goalplane/c', 0.0)
        rp.set_param('/goalplane/d', 3.0)
        rp.set_param('/maxdepth_cut', 0.5)

        self.z_max = hf.get_param_safe('/maxdepth_cut')
        self.goalplane = Plane(hf.get_param_safe('/goalplane'))

        if rviz_show: self.vis = CutVisualizer()

        # Initialize vars for incoming data storage
        self.roadposes = None
        self.roadscan = None
        self.roadchunks = []
        self.posechunks = []
        self.roadheight_avg = []

        pass
コード例 #6
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def test_plane():
    plane = {"distance": 0.3, "normal": {"y": 0.2, "x": 0.1, "z": 0.3}}
    ros_plane = convert_dictionary_to_ros_message(Plane(), plane)
    assert_plane(ros_plane, plane)
コード例 #7
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    def pcd_callback(self, msg):
        rospy.logwarn("Getting pcd at: %d.%09ds, (%d,%d)",
                      msg.header.stamp.secs, msg.header.stamp.nsecs,
                      msg.height, msg.width)

        pcd_original = pointcloud2_to_xyz_array(msg)

        pcd = PointCloud(pcd_original.T)

        self.plane, pcd_inlier, pcd_outlier = self.estimate_plane(pcd)
        transform_matrix, trans, rot, euler = get_transformation(
            frame_from='/velodyne',
            frame_to='/world',
            time_from=msg.header.stamp,
            time_to=msg.header.stamp,
            static_frame='/world',
            tf_listener=self.tf_listener,
            tf_ros=self.tf_ros)
        if not transform_matrix is None:
            plane_world_param = np.matmul(
                np.linalg.inv(transform_matrix).T,
                np.array(
                    [[self.plane.a, self.plane.b, self.plane.c,
                      self.plane.d]]).T)
            plane_world_param = plane_world_param / np.linalg.norm(
                plane_world_param[0:3])

            if self.plane_tracker is None:
                self.plane_tracker = Tracker(msg.header.stamp,
                                             plane_world_param)
            else:
                self.plane_tracker.predict(msg.header.stamp)
                self.plane_tracker.update(plane_world_param)
            print("plane_world:", plane_world_param.T)
            print("plane_traker:", self.plane_tracker.filter.x_post.T)

            # self.plane_world = Plane3D(plane_world_param[0,0], plane_world_param[1,0], plane_world_param[2,0], plane_world_param[3,0])
            self.plane_world = Plane3D(self.plane_tracker.filter.x_post[0, 0],
                                       self.plane_tracker.filter.x_post[1, 0],
                                       self.plane_tracker.filter.x_post[2, 0],
                                       self.plane_tracker.filter.x_post[3, 0])
            center_pos = np.matmul(
                transform_matrix,
                np.array([[
                    10, 0, (-self.plane.a * 10 - self.plane.d) / self.plane.c,
                    1
                ]]).T)
            center_pos = center_pos[0:3].flatten()
            # normal = np.matmul( transform_matrix, np.array([[0., 0., 1., 0.]]).T)
            # normal = normal[0:3]
            normal = None
            marker_array = self.create_and_publish_plane_markers(
                self.plane_world,
                frame_id='world',
                center=center_pos,
                normal=normal)
            self.pub_plane_markers.publish(marker_array)

        plane_msg = Plane()
        plane_msg.coef[0], plane_msg.coef[1], plane_msg.coef[
            2], plane_msg.coef[
                3] = self.plane.a, self.plane.b, self.plane.c, self.plane.d

        self.pub_plane.publish(plane_msg)

        # pcd_msg_inlier = create_point_cloud(pcd_inlier.T, frame_id='velodyne')
        # pcd_msg_outlier = create_point_cloud(pcd_outlier.T, frame_id='velodyne')
        pcd_msg_inlier = xyz_array_to_pointcloud2(pcd_inlier.T,
                                                  stamp=msg.header.stamp,
                                                  frame_id='velodyne')
        pcd_msg_outlier = xyz_array_to_pointcloud2(pcd_outlier.T,
                                                   stamp=msg.header.stamp,
                                                   frame_id='velodyne')
        self.pub_pcd_inlier.publish(pcd_msg_inlier)
        self.pub_pcd_outlier.publish(pcd_msg_outlier)

        rospy.logwarn("Finished plane estimation")
コード例 #8
0
        """

        self.scan_pub = rp.Publisher('/vis/roadscan',
                                     PointCloud2,
                                     queue_size=1)
        self.pose_pub = rp.Publisher('/vis/roadposes', PoseArray, queue_size=1)
        self.plane_pub = rp.Publisher('vis/goalplane', Polygon, queue_size=1)
        self.cut_pub = rp.Publisher('/vis/cutsurfaces', Polygon, queue_size=1)

    def show_roadscan(self, pc):
        """
        @brief displays pointcloud in rviz
        @param[in] Ros pointcloud2 msg
        """
        self.scan_pub.publish(pc)

    def show_roadposes(self, posearray):
        """
        @brief displays pointcloud in rviz
        @param[in] Ros PoseArray msg
        """
        self.pose_pub.publish(posearray)


if __name__ == "__main__":
    planner = CutPlanner(True)
    pt = Point(x=1.0, y=-5.0, z=3.0)
    pln = Plane([4, 0, 1, -5])
    print(hf.getavgaltitude_sweep())
    #planner.run()