def __init__(self):
        # Get ROS PARAMS

        self.node = rospy.init_node('nav_state_machine')
        self.alclient = SimpleActionClient('tshirt_size', TShirtDispenseAction)
        self.waypoints = waypoints

        self.sm = None  # smach.StateMachine()
        self._define_state_mahcine()

        self.asw = smach_ros.ActionServerWrapper(
            'tshirt_size', TShirtDispenseAction,
            wrapped_container=self.sm,
            succeeded_outcomes=['succeeded'],
            aborted_outcomes=['aborted'],
            preempted_outcomes=['preempted'],
            goal_key='size',
            result_key='result'
        )

        # Run the server in a background thread
        self.asw.run_server()
        self.alclient.wait_for_server()
        rospy.spin()
Ejemplo n.º 2
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def main():

    rospy.init_node('robust_controller_server')

    # Construct master state machine
    sm = smach.StateMachine(outcomes=[
        'arrived', 'arrived_with_trouble', 'aborted_home', 'aborted_stuck',
        'preempted'
    ],
                            input_keys=['kuser_goal'],
                            output_keys=['kuser_result'])

    #Pose parameters
    HOME_POSE = [0, 0, 0]  #this should be in the map coordinates
    NEAR_POSE = [-1, 0, 0]  #this is in the local coordinates

    #initialize pose for testing
    """sm.userdata.kuser_goal = PoseStamped() #input pose
	sm.userdata.kuser_goal.header.frame_id = "map"
	sm.userdata.kuser_goal.header.stamp = rospy.get_rostime()
	sm.userdata.kuser_goal.pose.position.x = 1
	sm.userdata.kuser_goal.pose.position.y = -1
	sm.userdata.kuser_goal.pose.orientation.w = 1"""

    #initialize userdata
    sm.userdata.kPrevPose = PoseStamped()  #previous 'good' pose
    sm.userdata.kRecCounter = 0  #counter for number of recovery attempts
    sm.userdata.kHomePose = HOME_POSE
    sm.userdata.kuser_result = RobustControllerResult()
    """ Result values: 0 - default/not started, 1-arrived, 2-arrived with trouble,
		3-aborted_home, 4-aborted_stuck, 5-preempted """

    # Add states to the master SM
    with sm:

        #Main move state to try to reach the goal
        smach.StateMachine.add('USER_GOAL',
                               UserGoalState(),
                               transitions={
                                   'outcome_movebase_arrived': 'arrived',
                                   'outcome_movebase_arrived_trouble':
                                   'arrived_with_trouble',
                                   'outcome_movebase_failed': 'RECOVERY_SM',
                                   'outcome_movebase_failed_too_many':
                                   'GO_HOME'
                               },
                               remapping={
                                   'sPose': 'kuser_goal',
                                   'sRecCounter_in': 'kRecCounter',
                                   'sRecCounter_out': 'kRecCounter',
                                   'sPrevPose': 'kPrevPose',
                                   'sResult': 'kuser_result'
                               })

        #state to try and return home if recovery has failed
        smach.StateMachine.add(
            'GO_HOME',
            mb_states.MoveBaseStateWithListandResult(frame='map'),
            transitions={
                'succeeded': 'aborted_home',
                'aborted': 'aborted_stuck'
            },
            remapping={
                'xyt': 'kHomePose',
                'sResult': 'kuser_result',
                'sRecCounter_out': 'kRecCounter'
            })

        #Create a sub-state machine for recovery
        sm_recovery = smach.StateMachine(
            outcomes=['succeeded', 'aborted', 'preempted'],
            input_keys=['kPrevPose'])

        #Initialize recovery userdata
        sm_recovery.userdata.kNearPose = NEAR_POSE

        with sm_recovery:

            #add state to set goal behind robot
            smach.StateMachine.add(
                'GOAL_NEAR',
                mb_states.MoveBaseStateWithList(frame='base_link'),
                transitions={
                    'succeeded': 'succeeded',
                    'aborted': 'REVERT_POSE'
                },
                remapping={'xyt': 'kNearPose'})

            #add state to revert to previous pose
            smach.StateMachine.add('REVERT_POSE',
                                   mb_states.MoveBaseStateWithPose(),
                                   transitions={
                                       'succeeded': 'succeeded',
                                       'aborted': 'aborted'
                                   },
                                   remapping={'pose': 'kPrevPose'})

        #set up recovery state machine to be connected just like a state
        smach.StateMachine.add('RECOVERY_SM',
                               sm_recovery,
                               transitions={
                                   'succeeded': 'USER_GOAL',
                                   'aborted': 'GO_HOME'
                               },
                               remapping={'kPrevPose': 'kPrevPose'})

    # Construct action server wrapper
    asw = smach_ros.ActionServerWrapper('robust_controller_server',
                                        RobustControllerAction,
                                        sm,
                                        ['arrived', 'arrived_with_trouble'],
                                        ['aborted_home', 'aborted_stuck'],
                                        ['preempted'],
                                        goal_key='kuser_goal',
                                        result_key='kuser_result')

    # Run the server in a background thread
    asw.run_server()

    # Wait for control-c
    rospy.spin()
Ejemplo n.º 3
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    smach.StateMachine.add('RelaxArmAndStop',
                           smach_ros.ServiceState('servos/relax_all',
                                                  arbotix_srvs.Relax),
                           transitions={
                               'succeeded': 'stop',
                               'preempted': 'stop',
                               'aborted': 'error'
                           })

    # Construct action server wrapper for top-level sm to control it with keyboard commands
    asw = smach_ros.ActionServerWrapper('user_commands_action_server',
                                        thorp_msgs.UserCommandAction,
                                        wrapped_container=sm,
                                        succeeded_outcomes=['stop'],
                                        aborted_outcomes=['aborted'],
                                        preempted_outcomes=['error'],
                                        goal_key='user_command',
                                        feedback_key='ucmd_progress',
                                        result_key='ucmd_outcome')

    # Run the server in a background thread
    asw.run_server()

    # Create and start the introspection server
    sis = smach_ros.IntrospectionServer('object_manipulation', sm, '/SM_ROOT')
    sis.start()

    # Wait for control-c
    rospy.spin()
Ejemplo n.º 4
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    smach.StateMachine.add('INDIVIDUAL_RUN',
                           individual_machine,
                           remapping={
                               'fis_array': 'fis_array',
                               'cost': 'lm_cost'
                           },
                           transitions={
                               'succeeded': 'succeeded',
                               'aborted': 'aborted',
                               'preempted': 'preempted'
                           })

land_machine_action = smach_ros.ActionServerWrapper(
    server_name='land_machine_action',
    action_spec=DoLandMachineAction,
    wrapped_container=land_machine,
    succeeded_outcomes=['succeeded'],
    preempted_outcomes=['preempted'],
    aborted_outcomes=['aborted'],
    goal_key='fis_array',
    result_key='lm_cost')

smach_introspect = smach_ros.IntrospectionServer('individual_viewer',
                                                 land_machine, 'INDIVIDUAL')
smach_introspect.start()
land_machine_action.run_server()
rospy.loginfo('land_machine_action: online')

rospy.spin()
Ejemplo n.º 5
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def main():
    '''rospy.Subscriber("/recognizer_1/output", String, handleRecognizerMessage, queue_size=1)'''

    rospy.init_node('interpreter')

    # Create a SMACH state machine
    sm = smach.StateMachine(outcomes=['success', 'aborted', 'preempted'],
                            input_keys=['goal'],
                            output_keys=['result'])

    with sm:
        # Add states to the container
        smach.StateMachine.add('Idle',
                               Idle(),
                               transitions={
                                   'Sarah': 'WaitingCommand',
                                   'Stop': 'Idle'
                               },
                               remapping={
                                   'Idle_lastWord_in': 'lastWord',
                                   'Idle_lastState_in': 'lastState',
                                   'Idle_lastWord_out': 'lastWord',
                                   'Idle_lastState_out': 'lastState'
                               })

        smach.StateMachine.add('WaitingCommand',
                               WaitingCommand(),
                               transitions={
                                   'Stop': 'Idle',
                                   'DoIt': 'DoSomething',
                                   'Sarah': 'WaitingCommand',
                                   'Command': 'WaitingConfirmation',
                                   'Timeout': 'Idle'
                               },
                               remapping={
                                   'WComm_lastWord_in': 'lastWord',
                                   'WComm_lastState_in': 'lastState',
                                   'WComm_lastWord_out': 'lastWord',
                                   'WComm_lastState_out': 'lastState',
                                   'WComm_lastCommand_out': 'lastCommand'
                               })

        smach.StateMachine.add('WaitingConfirmation',
                               WaitingConfirmation(),
                               transitions={
                                   'Timeout': 'Idle',
                                   'Yes': 'Idle',
                                   'No': 'Idle',
                                   'Stop': 'Idle',
                                   'Sarah': 'WaitingCommand'
                               },
                               remapping={
                                   'WConf_lastWord_in': 'lastWord',
                                   'WConf_lastState_in': 'lastState',
                                   'WConf_lastWord_out': 'lastWord',
                                   'WConf_lastState_out': 'lastState'
                               })

        smach.StateMachine.add('DoSomething',
                               DoSomething(),
                               transitions={
                                   'Done': 'success',
                                   'Fail': 'aborted'
                               },
                               remapping={
                                   'DSome_lastWord_in': 'lastWord',
                                   'DSome_lastState_in': 'lastState',
                                   'DSome_lastCommand_in': 'lastCommand',
                                   'DSome_lastWord_out': 'lastWord',
                                   'DSome_lastState_out': 'lastState',
                                   'DSome_result_out': 'result'
                               })

    # Construct action server wrapper
    asw = smach_ros.ActionServerWrapper('SaraComm',
                                        CommAction,
                                        wrapped_container=sm,
                                        goal_key='goal',
                                        result_key='result',
                                        succeeded_outcomes=['success'],
                                        aborted_outcomes=['aborted'],
                                        preempted_outcomes=['preempted'])
    '''sis = smach_ros.IntrospectionServer('server_name', asw.wrapped_container, '/ASW_ROOT')'''

    # Create a thread to execute the smach container
    '''asw_thread = threading.Thread(target=asw.run_server);
    asw_thread.start()'''
    '''asw_thread.join()'''
    asw.run_server()

    rospy.spin()

    # Request the container to preempt
    sm.request_preempt()
Ejemplo n.º 6
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                               goal_slots=['target_type', 'named_target']),
                           remapping={
                               'target_type': 'named_pose_target_type',
                               'named_target': 'arm_folded_named_pose'
                           },
                           transitions={
                               'succeeded': 'quit',
                               'preempted': 'quit',
                               'aborted': 'error'
                           })

    # Construct action server wrapper
    asw = smach_ros.ActionServerWrapper('user_commands_action_server',
                                        UserCommandAction,
                                        wrapped_container=sm,
                                        succeeded_outcomes=['quit'],
                                        aborted_outcomes=['aborted'],
                                        preempted_outcomes=['error'],
                                        goal_key='user_command',
                                        result_key='ucmd_outcome')

    # Run the server in a background thread
    asw.run_server()

    # Create and start the introspection server
    sis = smach_ros.IntrospectionServer('object_manipulation', sm, '/SM_ROOT')
    sis.start()

    # Wait for control-c
    rospy.spin()
Ejemplo n.º 7
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#   Actionlib interface to the task controller for Hubo valve-turning task. #
#                                                                           #
#############################################################################

import roslib
roslib.load_manifest('task_controller')
import rospy
import smach
import smach_ros

from hubo_controller import *
from task_controller.msg import *

if __name__ == '__main__':
    rospy.init_node("hubo_valve_task_action_controller")
    controller = HuboController()
    # Make an actionserver out of the controller
    actionserver = smach_ros.ActionServerWrapper(
        "hubo_valve_action",
        HuboValveAction,
        wrapped_container=controller.sm,
        succeeded_outcomes=['DONE'],
        aborted_outcomes=['FAILED'],
        preempted_outcomes=['SAFE'],
        goal_key='sm_input',
        result_key='sm_output')
    # Run server
    actionserver.run_server()
    # Spin
    rospy.spin()