Example #1
0
	def place_aruco(self, string_operation):
			rospy.sleep(2.0)
                        #self.prepare_robot()


			if string_operation == "place":

				# pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)
				
				
	                        # Place the object back to its position
				rospy.loginfo("Gonna place near where it was")
				pick_g = PickUpPoseGoal()
				pick_g.object_pose.pose.position.x = 0.85
				pick_g.object_pose.pose.position.y = 0.00
				pick_g.object_pose.pose.position.z = 1.00
				# pick_g.object_pose.pose.orientation = aruco_ps.pose.position
                        	# pick_g.object_pose.pose.position = aruco_ps.pose.position
                        	# pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)

                        	rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

				pick_g.object_pose.header.frame_id = 'base_footprint'
				pick_g.object_pose.pose.orientation.w = 1.0
				pick_g.object_pose.pose.position.z += 0.05
				self.place_as.send_goal_and_wait(pick_g)
				rospy.loginfo("Done!")
Example #2
0
    def __init__(self):

        # initialise state variables
        self._reset()

        # manipulation services
        s = rospy.Service('/gaan/manipulate', Manipulate,
                          self.manipulateHandler)

        # manipulation clients
        self.play_motion_client = SimpleActionClient('/play_motion',
                                                     PlayMotionAction)
        rospy.loginfo("Waiting for Action Server...")
        self.play_motion_client.wait_for_server()

        self.playmotion_goal = PlayMotionGoal()
        self.playmotion_goal.skip_planning = False
        self.playmotion_goal.priority = 0  # Optional

        self.pick_as = SimpleActionClient('/pickup_pose', PickUpPoseAction)
        self.place_as = SimpleActionClient('/place_pose', PickUpPoseAction)

        self.pickup_goal = PickUpPoseGoal()
        self.pickup_goal.object_pose.header.frame_id = "base_footprint"

        # end initialisation
        rospy.loginfo("Ready to manipulate!")
Example #3
0
    def place_aruco(self, string_operation):
        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an put position")

        aruco_pose = rospy.wait_for_message('/Perception/Place_Pose',
                                            PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)
        aruco_pose.pose.position.x = 0.0
        aruco_pose.pose.position.y = 0.0
        aruco_pose.pose.position.z = 0.0
        rospy.loginfo("Got: " + str(aruco_pose))

        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")
        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        #ps.pose.position.x = 0.9
        #ps.pose.position.y = 0.0
        #ps.pose.position.z = 0.8
        ps.header.stamp = self.tfBuffer.get_latest_common_time(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform(
                    "base_footprint", ps.header.frame_id, rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "place":

            rospy.loginfo("Setting cube pose based on bottle detection")
            pick_g.object_pose.pose.position.x = aruco_ps.pose.position.x + 0.95
            pick_g.object_pose.pose.position.y = aruco_ps.pose.position.y
            pick_g.object_pose.pose.position.z = aruco_ps.pose.position.z + 1.0

            # pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)

            rospy.loginfo("place pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna place:" + str(pick_g))
            self.place_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")
Example #4
0
    def place(self, goal_pose):

        # move arm to desired pose
        # get goal and plan path
        # rospy.loginfo('Planning path to new goal...')
        # self.group.set_pose_target(goal_pose)
        # plan = self.group.plan()

        # # # visualize path in rviz
        # # rospy.loginfo('Visualizing in RViz...')
        # # display_trajectory = moveit_msgs.msg.DisplayTrajectory()
        # # display_trajectory.trajectory_start = self.robot.get_current_state()
        # # display_trajectory.trajectory.append(plan)
        # # self.display_trajectory_publisher.publish(display_trajectory)
        # # rospy.sleep(2) # allow time for visualization

        # # perform movement
        # self.group.go(wait=True)

        # print('Path planning and movement successful!')

        # # clear current goal
        # self.group.stop()
        # self.group.clear_pose_targets()

        # open gripper so object falls out
        # self.open_gripper()

        # Remove leading slash from frame id
        goal_pose.header.frame_id = self.strip_leading_slash(
            goal_pose.header.frame_id)
        rospy.loginfo("Goal received:\n" + str(goal_pose))

        # Create and initialize pickup goal with position from goal pose
        pick_g = PickUpPoseGoal()
        pick_g.object_pose.pose.position = goal_pose.pose.position

        # rospy.loginfo("goal pose in base_footprint:" + str(pick_g))
        pick_g.object_pose.header.frame_id = 'base_footprint'
        pick_g.object_pose.pose.orientation.w = 1.0

        rospy.loginfo("Placing object at goal pose")
        self.place_as.send_goal_and_wait(pick_g)
Example #5
0
    def pickup(self, goal_pose):
        '''
        Move the gripper to goal_pose and pick up the object at that position.

        Parameters:
        goal_pose:  PoseStamped object indicating the position of the object
                    to be picked up. Currently the frame of the object has to
                    be 'base_footprint'
        '''

        # Remove leading slash from frame id
        goal_pose.header.frame_id = self.strip_leading_slash(
            goal_pose.header.frame_id)
        rospy.loginfo("Goal received:\n" + str(goal_pose))
        self.prepare_robot()
        rospy.sleep(2.0)

        # Create and initialize pickup goal with position from goal pose
        # TODO: if the goal pose frame is not in base, need to transform
        pick_g = PickUpPoseGoal()
        pick_g.object_pose.pose.position = goal_pose.pose.position
        pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)
        # rospy.loginfo("goal pose in base_footprint:" + str(pick_g))
        pick_g.object_pose.header.frame_id = 'base_footprint'
        pick_g.object_pose.pose.orientation.w = 1.0
        self.detected_pose_pub.publish(pick_g.object_pose)

        # Send pickup goal to pick and place server
        rospy.loginfo("Attempting to pick up:" + str(pick_g))
        self.pick_as.send_goal_and_wait(pick_g)
        rospy.loginfo("Done!")

        # Check that the pickup was successful
        # TODO: what to do if pickup wasn't successful??
        result = self.pick_as.get_result()
        if str(moveit_error_dict[result.error_code]) != "SUCCESS":
            rospy.logerr(
                "Failed to pick, not trying further - error code was {}".
                format(str(moveit_error_dict[result.error_code])))
            # return

        # move arm to final position
        self.lift_torso(height=0.2)
Example #6
0
    def place_aruco(self, string_operation):
        rospy.sleep(2.0)
        #self.prepare_robot()

        if string_operation == "place":

            # pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)

            # Place the object back to its position
            rospy.loginfo("Gonna place near where it was")
            pick_g = PickUpPoseGoal()
            pick_g.object_pose.pose.position.x = 0.85
            pick_g.object_pose.pose.position.y = 0.00
            pick_g.object_pose.pose.position.z = 1.00
            # pick_g.object_pose.pose.orientation = aruco_ps.pose.position
            # pick_g.object_pose.pose.position = aruco_ps.pose.position
            # pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            pick_g.object_pose.pose.position.z += 0.05
            self.place_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            # Raise arm
            rospy.loginfo("Moving arm to a safe pose")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'pick_final_pose'
            pmg.skip_planning = False
            self.play_m_as.send_goal_and_wait(pmg)
            rospy.loginfo("Raise object done.")

            rospy.loginfo("Done!")

            self.place_finish.wait_for_service()
            finish_flag = send_flags()
            finish_flag.Request.flag = 1
            self.place_finish.call(finish_flag)

            rospy.loginfo("call speak done.")
Example #7
0
    def pick_aruco(self, string_operation):
        self.prepare_robot()

        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")

        aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)
        rospy.loginfo("Got: " + str(aruco_pose))

        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")
        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tf_l.getLatestCommonTime(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                aruco_ps = self.tf_l.transformPose("/base_footprint", ps)
                transform_ok = True
            except tf.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tf_l.getLatestCommonTime(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "pick":

            rospy.loginfo("Setting cube pose based on ArUco detection")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            result = self.pick_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return

        # Move torso to its maximum height
            self.lift_torso()

            # Raise arm
            rospy.loginfo("Moving arm to a safe pose")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'pick_final_pose'
            pmg.skip_planning = False
            self.play_m_as.send_goal_and_wait(pmg)
            rospy.loginfo("Raise object done.")

            # Place the object back to its position
            rospy.loginfo("Gonna place near where it was")
            pick_g.object_pose.pose.position.z += 0.05
            self.place_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")
Example #8
0
    def pick_aruco(self, string_operation):
        self.prepare_robot()

        rospy.sleep(2.0)

        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")

        # get aruco pose here: from marker
        aruco_pose = rospy.wait_for_message('/cylinder_detector/cylinder_pose',
                                            PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)

        print("aruco pose: ", aruco_pose)

        # # manually input aruco pose
        # aruco_pose = PoseStamped()
        # aruco_pose.header.frame_id = 'base_footprint'

        # # # original aruco pose
        # # aruco_pose.pose.position.x = 0.528450879403
        # # aruco_pose.pose.position.y = -0.0486955713869
        # # aruco_pose.pose.position.z = 0.922035729832

        # # 0.545863 0.049354 0.724881

        # aruco_pose.pose.position.x = 0.545863
        # aruco_pose.pose.position.y = 0.049354
        # aruco_pose.pose.position.z = 0.724881 + 0.05
        # aruco_pose.pose.orientation.x = 0.5
        # aruco_pose.pose.orientation.y = 0.5
        # aruco_pose.pose.orientation.z = 0.5
        # aruco_pose.pose.orientation.w = 0.5

        rospy.loginfo("Got: " + str(aruco_pose))
        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")

        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tfBuffer.get_latest_common_time(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform(
                    "base_footprint", ps.header.frame_id, rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "pick":

            rospy.loginfo("Setting cube pose based on ArUco detection")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            result = self.pick_as.get_result()

            # save the original pose ##########
            original_pose = deepcopy(aruco_pose)

            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return

            rospy.sleep(2.0)

            # Move torso to its maximum height
            self.lift_torso()

            rospy.sleep(2.0)

            # aruco_pose.pose.position.x = 0.733477 - 0.2
            # aruco_pose.pose.position.y = 0.057126 + 0.07
            # aruco_pose.pose.position.z += 0.2 # 0.2 is the allowance for pouring

            pour_pose = deepcopy(aruco_pose)
            pour_pose.pose.position.x = 0.733477 - 0.2
            pour_pose.pose.position.y = 0.057126 + 0.07
            pour_pose.pose.position.z += 0.2
            """
            The following are good good_candidates for pose selection (in eular angles): 
            [[0, 0, 0], [0, 0, 270], [0, 180, 0], [0, 180, 180] - no, [0, 180, 270], [0, 270, 0], [0, 270, 180], [0, 270, 270]]
            """

            # some more successful grasp candidates
            # x, y, z, w = eular_to_q(0,270,180)
            # x, y, z, w = eular_to_q(0,270,270)

            # get pick_pose:
            # x, y, z, w = get_pose(args)

            pour_pose.pose.orientation.x = -0.5
            pour_pose.pose.orientation.y = 0
            pour_pose.pose.orientation.z = 0
            pour_pose.pose.orientation.w = 1.2

            success = False
            while success == False:
                rospy.sleep(2.0)
                # x_e, y_e, z_e = random.choice([(0,270,180), (0,270,270)])
                # x, y, z, w = eular_to_q(x_e, y_e, z_e)

                # pour_pose.pose.orientation.x = x
                # pour_pose.pose.orientation.y = y
                # pour_pose.pose.orientation.z = z
                # pour_pose.pose.orientation.w = w

                result = cartesian_move_to(pour_pose, True)
                rospy.loginfo("Success of trajectory: " + str(result))

                # define a goal tolerance for replanning and manipulation
                x_arm, y_arm, z_arm = arm_pose()
                x_aim = pour_pose.pose.position.x
                y_aim = pour_pose.pose.position.y
                z_aim = pour_pose.pose.position.z

                goal_deviation = eular_dist(x_arm, y_arm, z_arm, x_aim, y_aim,
                                            z_aim)

                rospy.loginfo("Deviation from target pose: " +
                              str(goal_deviation))

                # pour_pose.pose.position.x -= 0.0001
                # pour_pose.pose.position.y -= 0.0001

                if result > 0.9 and goal_deviation < 0.05:
                    success = True

            # x, y, z = q_to_eular(-0.5, 0, 0, 1.2)
            # rospy.loginfo("End effector eular angles: " + str([x,y,z]))
            rospy.sleep(3.0)

            # pour liquid
            self.turn_wrist()

            rospy.sleep(5.0)

            # turn wrist back to original pose
            self.turn_wrist(pour=False)

            rospy.sleep(3.0)

            pour_pose.pose.position.x += 0.2
            pour_pose.pose.position.y += 0.2

            success = False
            while success == False:
                # x_e, y_e, z_e = random.choice([(0,270,180), (0,270,270)])
                # x, y, z, w = eular_to_q(x_e, y_e, z_e)

                # pour_pose.pose.orientation.x = x
                # pour_pose.pose.orientation.y = y
                # pour_pose.pose.orientation.z = z
                # pour_pose.pose.orientation.w = w

                result = cartesian_move_to(pour_pose, True)
                rospy.loginfo("Success of trajectory: " + str(result))

                # define a goal tolerance for replanning and manipulation
                x_arm, y_arm, z_arm = arm_pose()
                x_aim = pour_pose.pose.position.x
                y_aim = pour_pose.pose.position.y
                z_aim = pour_pose.pose.position.z

                goal_deviation = eular_dist(x_arm, y_arm, z_arm, x_aim, y_aim,
                                            z_aim)

                rospy.loginfo("Deviation from target pose: " +
                              str(goal_deviation))

                pour_pose.pose.position.x -= 0.0001
                pour_pose.pose.position.y -= 0.0001

                if result > 0.9 and goal_deviation < 0.05:
                    success = True

            rospy.sleep(3.0)

            # # return bottle to original pose
            # x, y, z, w = eular_to_q(0,270,180)
            # # x, y, z, w = eular_to_q(0,270,270)
            # original_pose.pose.position.z = pour_pose.pose.position.z
            # original_pose.pose.orientation.x = -0.5
            # original_pose.pose.orientation.y = 0
            # original_pose.pose.orientation.z = 0
            # original_pose.pose.orientation.w = 1.2

            # success = False
            # while success==False:
            #     result = cartesian_move_to(original_pose, True)
            #     rospy.loginfo("success of trajectory: "+str(result))

            #     # define a goal tolerance for replanning and manipulation
            #     x_arm, y_arm, z_arm = arm_pose()
            #     x_aim = original_pose.pose.position.x
            #     y_aim = original_pose.pose.position.y
            #     z_aim = original_pose.pose.position.z

            #     goal_deviation = eular_dist(x_arm, y_arm, z_arm, x_aim, y_aim, z_aim)

            #     rospy.loginfo("Deviation from target pose: "+str(goal_deviation))

            #     original_pose.pose.position.x -= 0.01
            #     original_pose.pose.position.y -= 0.01

            #     if result > 0.9 and goal_deviation < 0.1:
            #         success = True

            # rospy.loginfo("Gonna place near where it was")

            # ps = PoseStamped()
            # ps.pose.position = original_pose.pose.position
            # ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint", original_pose.header.frame_id)
            # ps.header.frame_id = original_pose.header.frame_id
            # transform_ok = False
            # while not transform_ok and not rospy.is_shutdown():
            #     try:
            #         transform = self.tfBuffer.lookup_transform("base_footprint",
            #                                ps.header.frame_id,
            #                                rospy.Time(0))
            #         aruco_ps = do_transform_pose(ps, transform)
            #         transform_ok = True
            #     except tf2_ros.ExtrapolationException as e:
            #         rospy.logwarn(
            #             "Exception on transforming point... trying again \n(" +
            #             str(e) + ")")
            #         rospy.sleep(0.01)
            #         ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint", original_pose.header.frame_id)
            #     pick_g = PickUpPoseGoal()

            # arm=MoveGroupCommander('arm')
            # arm.allow_replanning(True)
            # end_effector_link=arm.get_end_effector_link()
            # arm.set_goal_position_tolerance(0.03)
            # arm.set_goal_orientation_tolerance(0.025)
            # arm.allow_replanning(True)

            # reference_frame='base_footprint'
            # arm.set_pose_reference_frame(reference_frame)
            # arm.set_planning_time(5)

            # rospy.sleep(2)
            # start_pose=arm.get_current_pose(end_effector_link).pose

            # rospy.loginfo("End effector start pose: " + str(start_pose))
            # x = start_pose.orientation.x
            # y = start_pose.orientation.y
            # z = start_pose.orientation.z
            # w = start_pose.orientation.w

            # x, y, z = q_to_eular(x, y, z, w)
            # rospy.loginfo("End effector eular angles: " + str([x,y,z]))

            # # Raise arm
            # rospy.loginfo("Moving arm to a safe pose")
            # pmg = PlayMotionGoal()
            # pmg.motion_name = 'pick_final_pose'
            # pmg.skip_planning = False
            # self.play_m_as.send_goal_and_wait(pmg)
            # rospy.loginfo("Raise object done.")

            # Place the object back to its position
            rospy.loginfo("Gonna place near where it was ...........")
            # pick_g.object_pose.pose.position.z += 0.05
            pick_g.object_pose.pose.position.z += 0.05
            pick_g.object_pose.pose.position.y += 0.2
            self.place_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")
	def pick_aruco(self, string_operation):



		if string_operation == "place":
                        # Place the object back to its position

			rospy.loginfo("Gonna place near where it was")
			self.pick_g.object_pose.pose.position.z += 0.05
			self.place_as.send_goal_and_wait(self.pick_g)
			rospy.loginfo("Done!")

			return
	
		self.prepare_robot()

		rospy.sleep(2.0)
		rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")



		aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)
		aruco_pose.header.frame_id = self.strip_leading_slash(aruco_pose.header.frame_id)
		rospy.loginfo("Got: " + str(aruco_pose))


		rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
		aruco_pose.header.frame_id + " to 'base_footprint'")
		self.ps = PoseStamped()
		self.ps.pose.position = aruco_pose.pose.position
		self.ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint", aruco_pose.header.frame_id)
		self.ps.header.frame_id = aruco_pose.header.frame_id
		transform_ok = False
		while not transform_ok and not rospy.is_shutdown():
			try:
				transform = self.tfBuffer.lookup_transform("base_footprint", 
									   self.ps.header.frame_id,
									   rospy.Time(0))
				self.aruco_ps = do_transform_pose(self.ps, transform)
				transform_ok = True
			except tf2_ros.ExtrapolationException as e:
				rospy.logwarn(
					"Exception on transforming point... trying again \n(" +
					str(e) + ")")
				rospy.sleep(0.01)
				self.ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint", aruco_pose.header.frame_id)
			self.pick_g = PickUpPoseGoal()

		if string_operation == "pick":

                        rospy.loginfo("Setting cube pose based on ArUco detection")
			self.pick_g.object_pose.pose.position = self.aruco_ps.pose.position
                        self.pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)

                        rospy.loginfo("aruco pose in base_footprint:" + str(self.pick_g))

			self.pick_g.object_pose.header.frame_id = 'base_footprint'
			self.pick_g.object_pose.pose.orientation.w = 1.0
			self.detected_pose_pub.publish(self.pick_g.object_pose)
			rospy.loginfo("Gonna pick:" + str(self.pick_g))
			self.pick_as.send_goal_and_wait(self.pick_g)
			rospy.loginfo("Done!")

			result = self.pick_as.get_result()
			if str(moveit_error_dict[result.error_code]) != "SUCCESS":
				rospy.logerr("Failed to pick, not trying further")
				return

			# Move torso to its maximum height
                        self.lift_torso()
Example #10
0
    def pick_aruco(self, string_operation):
        # self.prepare_robot()

        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")
        #                aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)

        #                test_pose = rospy.Publisher('/Mypose',PoseStamped, queue_size=100)

        #                aruco_pose = rospy.wait_for_messgae('/Point3D',PostStamped)

        #aruco_pose = rospy.wait_for_message('/Mypose', PoseStamped)

        while self.ifreceive == False:
            rospy.loginfo("Waiting Info")
            pick_ready = final_msg_srv.msg.done_pick()
            pick_ready.done_pick = True
            self.pub_ready.publish(pick_ready)
            rospy.sleep(0.1)
        self.ifreceive = False

        pick_ready = final_msg_srv.msg.done_pick()
        pick_ready.done_pick = False
        self.pub_ready.publish(pick_ready)

        rospy.loginfo("Mypose has been recevied.")
        aruco_pose = self.test_call

        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)
        rospy.loginfo("Got: " + str(aruco_pose))

        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")
        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tfBuffer.get_latest_common_time(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform(
                    "base_footprint", ps.header.frame_id, rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "pick":

            rospy.loginfo("Setting cube pose based on ArUco detection")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            result = self.pick_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                self.pick_fail.done = True
                self.pub_pick_fail.publish(self.pick_fail)

                return

            # Move torso to its maximum height


#                        self.lift_torso()

# Raise arm
            self.postgrasp_place()

            # ======================= def new function to pick it otherplace else=============================
            #Raise arm
            #rospy.loginfo("Unfold arm safely")
            # pmg = PlayMotionGoal()
            # pmg.motion_name = 'pregrasp'
            # pmg.skip_planning = False
            # self.play_m_as.send_goal_and_wait(pmg)
            # rospy.loginfo("Done.")

            self.safe_place()

            pick_msg = final_msg_srv.msg.done()
            pick_msg.done = True
            self.pub_done.publish(pick_msg)
            rospy.loginfo("Pick part has done. Navigation begins")

        if string_operation == "power":
            self.postgrasp_place()

            # ======================= def new function to pick it otherplace else=============================
        if string_operation == "place":
            # #rospy.lofinfo("Gonna move the object to home place")
            # #rospy.loginfo("Gonna place near where it was")
            # #pick_g.object_pose.pose.position.x = 1.00
            # #pick_g.object_pose.pose.position.y = 1.00
            # #pick_g.object_pose.pose.position.z = 1.00
            # #self.place_as.send_goal_and_wait(pick_g)
            # rospy.loginfo("Done!")
            #
            # # Place the object back to its position
            # #rospy.loginfo("Gonna place near where it was")
            # #pick_g.object_pose.pose.position.z += 0.05
            # #self.place_as.send_goal_and_wait(pick_g)
            # #rospy.loginfo("Done!")
            # rospy.loginfo("Setting cube pose based on ArUco detection")
            # pick_g.object_pose.pose.position = aruco_ps.pose.position
            # pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)
            #
            # rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))
            #
            # pick_g.object_pose.header.frame_id = 'base_footprint'
            # pick_g.object_pose.pose.orientation.z += 0.05
            # pick_g.object_pose.pose.orientation.w = 1.0
            # self.detected_pose_pub.publish(pick_g.object_pose)
            # rospy.loginfo("Gonna pick:" + str(pick_g))
            # self.place_as.send_goal_and_wait(pick_g)
            # rospy.loginfo("Done!")
            #
            # result = self.place_as.get_result()
            # if str(moveit_error_dict[result.error_code]) != "SUCCESS":
            #         rospy.logerr("Failed to pick, not trying further")
            #         return
            #
            # # Move torso to its maximum height
            # #                        self.lift_torso()

            # # Raise arm
            # self.look_around()
            # self.postgrasp_place()
            # self.safe_place()

            self.open_hand()
            time.sleep(5)
            self.safe_place()
Example #11
0
    def pick_aruco(self, string_operation):
        self.prepare_robot()

        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")
        #rospy.sleep(5.0)

        aruco_pose = rospy.wait_for_message('/object_detection/Pick_Pose',
                                            PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)
        rospy.loginfo("Got: " + str(aruco_pose))

        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")
        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tfBuffer.get_latest_common_time(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform(
                    "base_footprint", ps.header.frame_id, rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "pick":

            rospy.loginfo("Setting cube pose based on bottle detection")

            pick_g.object_pose.pose.position.x = aruco_ps.pose.position.x + 0.04
            pick_g.object_pose.pose.position.y = aruco_ps.pose.position.y - 0.04
            pick_g.object_pose.pose.position.z = aruco_ps.pose.position.z + 0.14
            # pick_g.object_pose.pose.orientation = aruco_ps.pose.position
            # pick_g.object_pose.pose.position = aruco_ps.pose.position
            # pick_g.object_pose.pose.position.z -= 0.1*(1.0/2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            result = self.pick_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return

            rospy.loginfo("######before")
            # Move torso to its maximum height
            self.lift_torso()
            # Raise arm
            #rospy.loginfo("Moving arm to a safe pose")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'pick_final_pose'
            pmg.skip_planning = False
            self.play_m_as.send_goal_and_wait(pmg)
            data = rospy.wait_for_message('/wrist_ft', WrenchStamped)
            force_x = np.absolute(data.wrench.force.x)
            force_y = np.absolute(data.wrench.force.y)
            force_z = np.absolute(data.wrench.force.z)
            force_abs = force_x + force_y + force_z
            rospy.loginfo("I have force_abs")
            if force_abs >= 10.0:
                rospy.loginfo("I got the bag.")

    #data = rospy.Subscriber('/wrist_ft', WrenchStamped, self.force_value)

            rospy.loginfo("Raise object done.")
            rospy.loginfo("#######end")
    def pick_aruco(self, aruco_pose):
        # rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")

        # aruco_pose = PoseStamped()
        # aruco_pose.header.frame_id = "base_footprint"
        # aruco_pose.pose.position.x = 0.492726171711
        # aruco_pose.pose.position.y = -0.140456914268
        # aruco_pose.pose.position.z = 0.133627714861
        # aruco_pose.pose.orientation.x = 0.544020678534
        # aruco_pose.pose.orientation.y = 0.507215268602
        # aruco_pose.pose.orientation.z = 0.500950386556
        # aruco_pose.pose.orientation.w = 0.442518793765

        # aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)
        rospy.loginfo("Got: " + str(aruco_pose))

        self.prepare_robot()

        rospy.sleep(2.0)

        # rospy.loginfo("spherical_grasp_gui: Transforming from frame: {} to 'base_footprint'".format(aruco_pose.header.frame_id))
        # ps = PoseStamped()
        # ps.pose.position = aruco_pose.pose.position
        # ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint", aruco_pose.header.frame_id)
        # ps.header.frame_id = aruco_pose.header.frame_id
        # transform_ok = False

        # while not transform_ok and not rospy.is_shutdown():
        #     try:
        #         transform = self.tfBuffer.lookup_transform("base_footprint",
        #                                ps.header.frame_id,
        #                                rospy.Time(0))
        #         aruco_ps = do_transform_pose(ps, transform)
        #         transform_ok = True
        #     except tf2_ros.ExtrapolationException as e:
        #         rospy.logwarn(
        #             "Exception on transforming point... trying again \n(" +
        #             str(e) + ")")
        #         rospy.sleep(0.01)
        #         ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint", aruco_pose.header.frame_id)
        #     pick_g = PickUpPoseGoal()

        pick_g = PickUpPoseGoal()
        aruco_ps = aruco_pose
        # if string_operation == "pick":
        rospy.loginfo("Setting cube pose based on ArUco detection")
        pick_g.object_pose.pose.position = aruco_ps.pose.position
        pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)
        rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

        pick_g.object_pose.header.frame_id = 'base_footprint'
        pick_g.object_pose.pose.orientation.w = 1.0
        self.detected_pose_pub.publish(pick_g.object_pose)
        rospy.loginfo("Gonna pick:" + str(pick_g))
        self.pick_as.send_goal_and_wait(pick_g)
        rospy.loginfo("Done!")

        result = self.pick_as.get_result()
        if str(moveit_error_dict[result.error_code]) != "SUCCESS":
            rospy.logerr(
                "Failed to pick, not trying further - error code was {}".
                format(str(moveit_error_dict[result.error_code])))
            # return

        # move to final position
        rospy.loginfo("Moving arm to a safe pose")
        pmg = PlayMotionGoal()
        pmg.motion_name = 'pick_final_pose'
        pmg.skip_planning = False
        self.play_m_as.send_goal_and_wait(pmg)
        rospy.loginfo("Raise object done.")

        # Move torso to its maximum height
        # self.lift_torso()
        #self.lower_torso()

        # # Raise arm
        # rospy.loginfo("Moving arm to a safe pose")
        # pmg = PlayMotionGoal()
        # pmg.motion_name = 'pick_final_pose'
        # pmg.skip_planning = False
        # self.play_m_as.send_goal_and_wait(pmg)
        # rospy.loginfo("Raise object done.")

        # # Place the object back to its position
        # rospy.loginfo("Gonna place near where it was")
        # pick_g.object_pose.pose.position.z += 0.05
        # self.place_as.send_goal_and_wait(pick_g)
        rospy.loginfo("Done!")
    def pick_aruco(self, string_operation):
        self.prepare_robot()

        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")

        # self.turn_hand() # experimental function

        # get aruco pose here: from marker
        aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)
        rospy.loginfo("Got: " + str(aruco_pose))
        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")

        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tfBuffer.get_latest_common_time(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform(
                    "base_footprint", ps.header.frame_id, rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "pick":

            rospy.loginfo("Setting cube pose based on ArUco detection")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            # some_pose=arm.get_current_pose(end_effector_link).pose

            # rospy.loginfo("current hand pose "+str(some_pose))

            result = self.pick_as.get_result()

            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return

            # Move torso to its maximum height
            self.lift_torso()
            aruco_pose.pose.position.x += 0.2
            aruco_pose.pose.position.y += 0.2
            aruco_pose.pose.position.z += 0.2

            drop_pose = deepcopy(aruco_pose)
            # drop_pose.pose.position.x += 0.2
            # drop_pose.pose.position.y += 0.3
            # drop_pose.pose.position.z += 0.2
            # optimize_goal_pose(drop_pose)
            """
            The following are good good_candidates for pose selection (in eular angles): 
            [[0, 0, 0], [0, 0, 270], [0, 180, 0], [0, 180, 180] - no, [0, 180, 270], [0, 270, 0], [0, 270, 180], [0, 270, 270]]
            """
            x, y, z, w = eular_to_q(0, 270, 180)
            # x, y, z, w = eular_to_q(0,270,270)
            drop_pose.pose.orientation.x = -0.5
            drop_pose.pose.orientation.y = 0
            drop_pose.pose.orientation.z = 0
            drop_pose.pose.orientation.w = 1.2
            cartesian_move_to(drop_pose, True)

            x, y, z = q_to_eular(-0.5, 0, 0, 1.2)
            rospy.loginfo("End effector eular angles: " + str([x, y, z]))
            rospy.sleep(3)
            self.open_gripper()
Example #14
0
    def pick_aruco(self, string_operation):
        if self.first_go:
            self.prepare_robot()

        self.pick_scene.randomize_object_poses()
        rospy.sleep(2.0)
        pick_g = PickUpPoseGoal()
        if string_operation == "pick":
            pick_order = sorted(
                self.pick_scene.pick_scene.box_objects_in_scene,
                key=lambda object: object.object_pose.pose.position.y,
                reverse=False)
            print pick_order

            for idx in range(
                    len(self.pick_scene.pick_scene.box_objects_in_scene)):
                object = pick_order[idx]
                pick_g.object_to_pick = object.object_name
                pick_g.pick_scene.box_objects_in_scene = self.pick_scene.pick_scene.box_objects_in_scene
                pick_g.object_pose.header.frame_id = 'base_footprint'
                pick_g.object_pose.pose.orientation.w = 1.0
                self.pick_as.send_goal_and_wait(pick_g)
                rospy.loginfo("Done!")

                result = self.pick_as.get_result()
                if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                    rospy.logerr("Failed to pick, not trying further")
                    return

                # Move torso to its maximum height
                self.lift_torso()

                # Raise arm
                rospy.loginfo("Moving arm to a safe pose")
                pmg = PlayMotionGoal()
                pmg.motion_name = 'pick_final_pose'
                pmg.skip_planning = False
                self.play_m_as.send_goal_and_wait(pmg)
                rospy.loginfo("Raise object done.")

                # Rotate to kit
                rotation_speed = 0.628  #spin ot 0.3 rads/s
                twist_command = Twist()
                twist_command.linear.x = 0.0
                twist_command.linear.y = 0.0
                twist_command.linear.z = 0.0
                twist_command.angular.x = 0.0
                twist_command.angular.y = 0.0
                twist_command.angular.z = rotation_speed

                cycles_per_second = 3
                rate = rospy.Rate(cycles_per_second)
                number_of_cycles = 3.14 / rotation_speed * cycles_per_second
                current_cycle = 0
                rospy.loginfo("Spin to kit tray")
                while (not rospy.is_shutdown()) and (current_cycle <
                                                     number_of_cycles + 2):
                    self.cmd_vel_pub.publish(twist_command)
                    rate.sleep()
                    current_cycle += 1
                rospy.sleep(2.0)

                #Place object
                place_pose = PoseStamped()
                place_pose.header.frame_id = 'base_footprint'
                place_pose.header.stamp = rospy.get_rostime()
                place_pose.pose = self.get_model_state("table",
                                                       "base_footprint")
                place_pose.pose.position.z += 0.01 + 0.125
                place_pose.pose.position.y = place_pose.pose.position.y - 0.25 + 0.1 * idx
                rospy.loginfo(place_pose)
                place_pose.pose.orientation.x = 0.0
                place_pose.pose.orientation.y = 0.0
                place_pose.pose.orientation.z = 0.0
                place_pose.pose.orientation.w = 1.0
                rospy.loginfo("Place object on tray")
                pick_g.object_pose = place_pose
                pick_g.object_to_pick = object.object_name  #Action naming is currently wrong. It should be called object to place
                pick_g.pick_scene = self.pick_scene.pick_scene  #objects to be removed from scene
                self.place_as.send_goal_and_wait(pick_g)
                rospy.loginfo("Done!")

                #Rotate back
                current_cycle = 0
                while (not rospy.is_shutdown()) and (current_cycle <
                                                     number_of_cycles + 2):
                    self.cmd_vel_pub.publish(twist_command)
                    rate.sleep()
                    current_cycle += 1
    def pick_aruco(self, string_operation):

        #rospy.sleep(2.0)
        if string_operation == "pick":
            self.prepare_robot()
            # Detect object
            rospy.loginfo(
                "spherical_grasp_gui: Waiting for an aruco detection")

            aruco_pose = rospy.wait_for_message('/aruco_single/pose',
                                                PoseStamped)
            aruco_pose.header.frame_id = self.strip_leading_slash(
                aruco_pose.header.frame_id)
            rospy.loginfo("Got: " + str(aruco_pose))

            rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                          aruco_pose.header.frame_id + " to 'base_footprint'")
            ps = PoseStamped()
            ps.pose.position = aruco_pose.pose.position
            ps.pose.orientation = aruco_pose.pose.orientation
            ps.header.stamp = self.tfBuffer.get_latest_common_time(
                "base_footprint", aruco_pose.header.frame_id)
            ps.header.frame_id = aruco_pose.header.frame_id
            transform_ok = False
            while not transform_ok and not rospy.is_shutdown():
                try:
                    transform = self.tfBuffer.lookup_transform(
                        "base_footprint", ps.header.frame_id, rospy.Time(0))
                    aruco_ps = do_transform_pose(ps, transform)
                    transform_ok = True
                except tf2_ros.ExtrapolationException as e:
                    rospy.logwarn(
                        "Exception on transforming point... trying again \n(" +
                        str(e) + ")")
                    rospy.sleep(0.01)
                    ps.header.stamp = self.tfBuffer.get_latest_common_time(
                        "base_footprint", aruco_pose.header.frame_id)
                pick_g = PickUpPoseGoal()

            rospy.loginfo("Setting cube pose based on ArUco detection")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            # rospy.loginfo("Moving arm to a safe pose")
            # pmg = PlayMotionGoal()
            # pmg.motion_name = 'pick_final_pose'
            # pmg.skip_planning = False
            # self.play_m_as.send_goal_and_wait(pmg)
            # rospy.loginfo("Raise object done.")

            # Move to safe
            home = False
            i = 0
            #self.move_back(5)
            while not home and i < 3:
                home = self.move_arm_home()
                i += 1
                rospy.sleep(0.5)

            result = self.pick_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return TriggerResponse(False, "Failed to pick")
            self.pick_g = pick_g
            return TriggerResponse(True, "Succeeded")

        elif string_operation == "place":
            if not self.pick_g:
                rospy.logerr("Failed to place, no object position known")
                return TriggerResponse(
                    False, "Failed to place, no object position known")
            pick_g = self.pick_g
            # Move torso to its maximum height
            self.lift_torso()

            # Raise arm
            rospy.loginfo("Moving arm to a safe pose")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'prepare_grasp'  #'pick_final_pose'
            pmg.skip_planning = False
            self.play_m_as.send_goal_and_wait(pmg)
            rospy.loginfo("Raise object done.")

            # Place the object back to its position
            rospy.loginfo("Gonna place near where it was")
            pick_g.object_pose.pose.position.z += 0.05
            self.place_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")
            # Move to safe
            home = False
            i = 0
            #self.move_back(5)
            while not home and i < 3:
                home = self.move_arm_home()
                i += 1
                rospy.sleep(0.5)
            self.pick_g = None

            result = self.place_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to place")
                return TriggerResponse(False, "Failed to place")
            return TriggerResponse(True, "Succeeded")
Example #16
0
    def pick_aruco(self, string_operation):
        self.prepare_robot()

        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")

        aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(
            aruco_pose.header.frame_id)
        rospy.loginfo("Got: " + str(aruco_pose))

        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
                      aruco_pose.header.frame_id + " to 'base_footprint'")
        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tfBuffer.get_latest_common_time(
            "base_footprint", aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        transform_ok = False

        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform(
                    "base_footprint", ps.header.frame_id, rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time(
                    "base_footprint", aruco_pose.header.frame_id)
            pick_g = PickUpPoseGoal()

        if string_operation == "pick":

            # Place the arm safe above table
            pmg = PlayMotionGoal()
            pmg.motion_name = 'pick_approach_pose'
            self.play_m_as.send_goal_and_wait(pmg)
            pmg.skip_planning = False

            rospy.loginfo("Setting ball pose based on Perception")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1 * (1.0 / 2.0)

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            result = self.pick_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return

            # Move torso to its maximum height
            self.lift_torso()

            # Raise arm
            rospy.loginfo("Moving arm to a safe pose")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'pick_final_pose'
            pmg.skip_planning = False
            self.play_m_as.send_goal_and_wait(pmg)
            rospy.loginfo("Raise object done.")

            # Place the arm safe above table
            pmg = PlayMotionGoal()
            pmg.motion_name = 'home_approach_pose'
            self.play_m_as.send_goal_and_wait(pmg)
            pmg.skip_planning = False

            # Place the object to safe navigation position
            rospy.loginfo("Gonna place the ball near my heart..")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'home_pose'
            self.play_m_as.send_goal_and_wait(pmg)
            pmg.skip_planning = False

            rospy.loginfo("Ready to move !")

        if string_operation == "place":
            pass
    def pick_aruco(self, string_operation):
        #self.prepare_robot()

        rospy.sleep(2.0)
        rospy.loginfo("spherical_grasp_gui: Waiting for an aruco detection")

        #wait for aruco to be detected
        #TODO integrate with vision team's code
        aruco_pose = rospy.wait_for_message('/aruco_single/pose', PoseStamped)
        aruco_pose.header.frame_id = self.strip_leading_slash(aruco_pose.header.frame_id)
        rospy.loginfo("Got: " + str(aruco_pose))


        rospy.loginfo("spherical_grasp_gui: Transforming from frame: " +
        aruco_pose.header.frame_id + " to 'base_footprint'")
        #PoseStamped is the messgage type published to /detected_aruco_pose
        ps = PoseStamped()
        ps.pose.position = aruco_pose.pose.position
        ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint",
                                                     aruco_pose.header.frame_id)
        ps.header.frame_id = aruco_pose.header.frame_id
        #Loop until transform is done
        transform_ok = False
        while not transform_ok and not rospy.is_shutdown():
            try:
                transform = self.tfBuffer.lookup_transform("base_footprint",
                                       ps.header.frame_id,
                                       rospy.Time(0))
                aruco_ps = do_transform_pose(ps, transform)
                transform_ok = True
            except tf2_ros.ExtrapolationException as e:
                rospy.logwarn(
                    "Exception on transforming point... trying again \n(" +
                    str(e) + ")")
                rospy.sleep(0.01)
                ps.header.stamp = self.tfBuffer.get_latest_common_time("base_footprint",
                                                     aruco_pose.header.frame_id)
            #define goal that will be sent to pick_and_place_server
            pick_g = PickUpPoseGoal()

        #argument defined during service call
        if string_operation == "pick":

            rospy.loginfo("Setting cube pose based on ArUco detection")
            pick_g.object_pose.pose.position = aruco_ps.pose.position
            pick_g.object_pose.pose.position.z -= 0.1

            rospy.loginfo("aruco pose in base_footprint:" + str(pick_g))

            pick_g.object_pose.header.frame_id = 'base_footprint'
            pick_g.object_pose.pose.orientation.w = 1.0
            self.detected_pose_pub.publish(pick_g.object_pose)
            rospy.loginfo("Gonna pick:" + str(pick_g))
            #pick_as action client sends the PickUpPoseGoal

            #rospy.wait_for_message('/pick_it', String)
            self.pick_as.send_goal_and_wait(pick_g)
            rospy.loginfo("Done!")

            result = self.pick_as.get_result()
            if str(moveit_error_dict[result.error_code]) != "SUCCESS":
                rospy.logerr("Failed to pick, not trying further")
                return

            # Move torso to its maximum height
            #self.lift_torso()

            # Raise arm
            rospy.loginfo("Moving arm to a safe pose")
            pmg = PlayMotionGoal()
            pmg.motion_name = 'pick_final_pose'
            pmg.skip_planning = False
            self.play_m_as.send_goal_and_wait(pmg)
            rospy.loginfo("Raise object done.")