Exemplo n.º 1
0
    def __init__(self):
        self.kinematics = kinematics.Kinematics('arm')
        self.move_arm = move_arm.MoveArm('arm')

        # distance from object center to pre-grasp
        self.pre_grasp_distance = rospy.get_param('~pre_grasp_distance')
        # distance from object to grasp
        self.grasp_distance = rospy.get_param('~grasp_distance')
        # height of the post-grasp over the object center
        self.post_grasp_height = rospy.get_param('~post_grasp_height')
        # at which angle of approach to start searching for a solution
        self.orbit_start_angle = 30.0 * math.pi / 180.0

        rospy.loginfo('Pre-grasp distance: %f', self.pre_grasp_distance)
        rospy.loginfo('Grasp distance: %f', self.grasp_distance)
        rospy.loginfo('Post-grasp height: %f', self.post_grasp_height)

        self.sss = simple_script_server.simple_script_server()

        # action clients
        #rospy.loginfo('Waiting for 'grasp_posture_control' action')
        #self.hand_action = actionlib.SimpleActionClient('grasp_posture_control', object_manipulation_msgs.msg.GraspHandPostureExecutionAction)
        #self.hand_action.wait_for_server()
        #rospy.loginfo('Found action 'grasp_posture_control'')

        # service servers
        self.pickup_server = rospy.Service('pickup',
                                           mdr_behavior_msgs.srv.Pickup,
                                           self.pickup)
        rospy.loginfo('"pickup" service advertised')
Exemplo n.º 2
0
 def __init__(self, default_pitch=(math.pi / 2.0)):
     rospy.loginfo("Initializing arm control.")
     rospy.loginfo("Waiting for [%s] server..." % (self.CART_SERVER))
     self.move_arm_cart_server = SimpleActionClient(self.CART_SERVER, MoveArmAction)
     self.move_arm_cart_server.wait_for_server()
     self.script_server = simple_script_server()
     self.pitch = default_pitch
Exemplo n.º 3
0
def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    print "--> setup care-o-bot for capture"

    # get position from parameter server
    position_path = rospy.get_param('position_path', None)
    if position_path is None:
        print "[ERROR]: no path for positions set"
        return
    with open(position_path, 'r') as f:
        positions = yaml.load(f)

    system_path = rospy.get_param('system_path', None)
    if system_path is None:
        print "[ERROR]: no path for system configuration set"
        return
    with open(system_path, 'r') as f:
        system = yaml.load(f)
    print "==> capturing samples"
    start = rospy.Time.now()
    t = DhHardwareTest()
    t.capture_loop(positions, system, sss)
    print "finished after %s seconds" % (rospy.Time.now() - start).to_sec()
Exemplo n.º 4
0
    def __init__(self):
        '''
        Configures the calibration node
        Reads configuration from parameter server or uses default values
        '''
        rospy.init_node(NODE)
        print "==> started " + NODE

        # get parameter from parameter server or set defaults
        self.pattern_size = rospy.get_param('~pattern_size', "9x6")
        self.square_size = rospy.get_param('~square_size', 0.03)

        self.alpha = rospy.get_param('~alpha', 0.0)
        self.verbose = rospy.get_param('~verbose', True)

        self.save_result = rospy.get_param('~save_result', False)

        # split pattern_size string into tuple, e.g '9x6' -> tuple(9,6)
        self.pattern_size = tuple((int(self.pattern_size.split("x")[0]),
                                   int(self.pattern_size.split("x")[1])))

        self.camera_info = CameraInfo()
        self.camera_info_received = False
        self.latest_image = Image()
        self.bridge = CvBridge()

        # set up Checkerboard and CheckerboardDetector
        self.board = Checkerboard(self.pattern_size, self.square_size)
        self.detector = CheckerboardDetector(self.board)

        self.sss = simple_script_server()
        self.ts = TorsoState()
Exemplo n.º 5
0
    def __init__(self):
        '''
        Configures the calibration node
        Reads configuration from parameter server or uses default values
        '''
        rospy.init_node(NODE)
        print "==> started " + NODE

        # get parameter from parameter server or set defaults
        self.pattern_size = rospy.get_param('~pattern_size', "9x6")
        self.square_size = rospy.get_param('~square_size', 0.03)

        self.alpha = rospy.get_param('~alpha', 0.0)
        self.verbose = rospy.get_param('~verbose', True)

        self.save_result = rospy.get_param('~save_result', False)

        # split pattern_size string into tuple, e.g '9x6' -> tuple(9,6)
        self.pattern_size = tuple((int(self.pattern_size.split(
            "x")[0]), int(self.pattern_size.split("x")[1])))

        self.camera_info = CameraInfo()
        self.camera_info_received = False
        self.latest_image = Image()
        self.bridge = CvBridge()

        # set up Checkerboard and CheckerboardDetector
        self.board = Checkerboard(self.pattern_size, self.square_size)
        self.detector = CheckerboardDetector(self.board)

        self.sss = simple_script_server()
        self.ts = TorsoState()
Exemplo n.º 6
0
def init():
	global confirm
	sss = simple_script_server()
	say("I am ready. I will initialize myself.")
	say("Please confirm.")
	confirm = False
	while confirm==False: rospy.sleep(0.1)

	# initialize components
	handle_head = sss.init("head")

	handle_torso = sss.init("torso")
	if handle_torso.get_error_code() != 0:
		return say("failed to initialize torso")
		
	handle_tray = sss.init("tray")

	handle_arm = sss.init("arm")
	if handle_arm.get_error_code() != 0:
		return say("failed to initialize arm")

	handle_sdh = sss.init("sdh")

	handle_base = sss.init("base")
	if handle_base.get_error_code() != 0:
		return say("failed to initialize base")
	
	# recover components
	handle_head = sss.recover("head")
	if handle_head.get_error_code() != 0:
		return say("failed to recover head")

	say("All components are ready. Please drive me around until I am localized.")

	return True
Exemplo n.º 7
0
    def __init__(self, ui, parent = None):
        QThread.__init__(self, parent)
        self.ui = ui
        self.mode="linear"
        self.add[str].connect(self.onAdd)
        self.rem[str].connect(self.onRem)
        self.sub1 = rospy.Subscriber("/chromosom/addComponent", String, self.add_callback)
        self.sub2 = rospy.Subscriber("/chromosom/remComponent", String, self.rem_callback)
        self.pub_add = rospy.Publisher('/chromosom/addComponent', String)
        self.pub_rem = rospy.Publisher('/chromosom/remComponent', String)

        ui.btnOpen.clicked.connect(self.open_gripper)
        ui.btnClose.clicked.connect(self.close_gripper)

        ui.btnOn.clicked.connect(self.power_on)
        ui.btnOff.clicked.connect(self.power_off)

        ui.btnToolChange.clicked.connect(self.tool_change)

        ui.rLin.clicked.connect(self.lin)
        ui.rDWA.clicked.connect(self.DWA)
        ui.btnA.clicked.connect(self.A)
        ui.btnB.clicked.connect(self.B)

        self.sss = simple_script_server()
Exemplo n.º 8
0
    def __init__(self):
        self._ros = rosHelper.ROS()
        self._ros.configureROS(packageName="cob_script_server")
        import simple_script_server

        self._ros.initROS()
        self._ss = simple_script_server.simple_script_server()
Exemplo n.º 9
0
def __main__():
    rospy.init_node('cob_robot_calibration_generate_cal')
    listener = tf.TransformListener()
    rospy.sleep(1)
    # sss = simple_script_server()
    # sss.move("head", "back")
    sss = simple_script_server()
    sss.move("head", "back")
    minimal_system = rospy.get_param('minimal_system', None)
    sensors_path = rospy.get_param('sensors', None)
    output_system = rospy.get_param('output_system', None)
    free_system = rospy.get_param('free_system', None)
    with open(sensors_path, "r") as f:
        sensors = yaml.load(f)
    pdb.set_trace()
    transformations = get_chains(sensors)# only interested in the sensor chains entry not the rest
    print sensors
    pdb.set_trace()
    transformation_dict = generate_transformation_dict(
        transformations, listener)
    print transformation_dict
    with open(minimal_system, "r") as f:
        system = yaml.load(f)
    pdb.set_trace()
    if 'transforms' in system:

        t = dict(transformation_dict, **system['transforms'])
    else:
        t = transformation_dict

    system['checkerboards'] = rospy.get_param('~checkerboards', None)
    if system['checkerboards'] is None:
        print '[ERROR]: Parameter checkerboards not found. Make sure it is set and try again'
        return
    system['transforms'] = t

    dh_chains = generate_chain_parameter(sensors)

    system['dh_chains'] = dh_chains
    with open(output_system, 'w') as f:
        f.write('####### This file is autogenerated. Do not edit #######\n')
        f.write(yaml.dump(system))


    free = system.copy()

    free = settozero(free)

    '''
    print yaml.dump(system)

    print "Calibration transformation suggestions are %s"%to_calib

    print yaml.dump(free)
    '''
    with open(free_system, 'w') as f:
        f.write(
            '####### Use this file as template for free_0.yaml - free_2.yaml. #######\n')
        f.write(yaml.dump(free))
Exemplo n.º 10
0
def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    rospy.sleep(4)
    # service client
    checkerboard_checker_name = "/image_capture/visibility_check"
    visible = rospy.ServiceProxy(checkerboard_checker_name, Visible)
    rospy.wait_for_service(checkerboard_checker_name, 6)
    print "--> service client for for checking for chessboards initialized"

    kinematics_capture_service_name = "/collect_data/capture"
    capture_kinematics = rospy.ServiceProxy(kinematics_capture_service_name,
                                            Capture)
    rospy.wait_for_service(kinematics_capture_service_name, 6)
    print "--> service client for capture robot_states initialized"

    image_capture_service_name = "/image_capture/capture"
    capture_image = rospy.ServiceProxy(image_capture_service_name, Capture)
    rospy.wait_for_service(image_capture_service_name, 6)
    print "--> service client for capture images initialized"

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    '''
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")

    print "-> set joint_stiffness to 2000"
    stiffnessM = SetJointStiffnessRequest()
    #print stiffnessM.joint_stiffness

    stiffnessM.joint_stiffness = [1500]*7

    jointstiffness_srv = rospy.ServiceProxy("/arm_controller/set_joint_stiffness",SetJointStiffness)
    rospy.wait_for_service("/arm_controller/set_joint_stiffness",2)
    print stiffnessM.joint_stiffness
    print jointstiffness_srv(stiffnessM)
    '''
    print "--> setup care-o-bot for capture"
    sss.move("head", "back")

    # get position from parameter server
    position_path = rospy.get_param('~position_path', None)
    if position_path is None:
        print "[ERROR]: no path for positions set"
        return
    with open(position_path, 'r') as f:
        positions = yaml.load(f)
    print "==> capturing samples"
    start = rospy.Time.now()
    capture_loop(positions, sss, visible, capture_kinematics, capture_image)
    sss.move("arm", "calibration")
    print "finished after %s seconds" % (rospy.Time.now() - start).to_sec()
Exemplo n.º 11
0
def init_pos():
    sss = simple_script_server()
    sss.move("arm_right", "home")
    sss.move("arm_right", [[
        -0.039928546971938594, 0.7617065276699337, 0.01562043859727158,
        -1.7979678396373568, 0.013899422367821046, 1.0327319085987252,
        0.021045294231647915
    ]])
Exemplo n.º 12
0
	def __init__(self,servers):
		rospy.init_node('grasp_deliver')
		self.sss = simple_script_server.simple_script_server()
		self.su = script_utils.script_utils()
		self.util = ScriptUtils(servers)
		self.sss.Init("tray")
		self.sss.Init("torso")
		self.sss.Init("arm")
		self.sss.Init("sdh")
Exemplo n.º 13
0
def init_pos():
    sss = simple_script_server()
    # sss.move("arm_right", [[-0.039928546971938594, 0.7617065276699337, 0.01562043859727158, -1.7979678396373568, 0.013899422367821046, 1.0327319085987252, 0.021045294231647915]])
    sss.move("arm_left", [
        [
            2.274847163975995, -0.08568661652370757, -0.8273207226405264,
            -1.9404110013940103, 1.306315205401929, 1.5627416614617742,
            -1.1199725164070955
        ],
    ])
Exemplo n.º 14
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def main():
    rospy.init_node(NODE)
    print "==> started " + NODE
    sss = simple_script_server()

    # movements
    print "--> moving arm to 'pregrasp'"
    sss.move("arm", "pregrasp")
    
    print "--> moving arm to 'calibration'"
    sss.move("arm", "calibration")
Exemplo n.º 15
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    def __init__(self):
        '''
        Configures the calibration node
        Reads configuration from parameter server or uses default values
        '''

        # get parameter from parameter server or set defaults
        self.pattern_size = rospy.get_param('~pattern_size', "9x6")
        self.square_size = rospy.get_param('~square_size', 0.03)

        self.alpha = rospy.get_param('~alpha', 0.0)
        self.verbose = rospy.get_param('~verbose', True)

        self.save_result = rospy.get_param('~save_result', False)

        # split pattern_size string into tuple, e.g '9x6' -> tuple(9,6)
        self.pattern_size = tuple((int(self.pattern_size.split("x")[0]),
                                   int(self.pattern_size.split("x")[1])))

        self.camera_info = CameraInfo()
        self.camera_info_received = False
        self.latest_image = Image()
        self.bridge = CvBridge()

        # set up Checkerboard and CheckerboardDetector
        self.board = Checkerboard(self.pattern_size, self.square_size)
        self.detector = CheckerboardDetector(self.board)

        self.sss = simple_script_server()

        topic_name = '/stereo/left/'
        # subscribe to /cam3d/rgb/camera_info for camera_matrix and distortion coefficients
        rospy.Subscriber(topic_name + 'camera_info', CameraInfo,
                         self.__camera_info_callback__)
        # subscribe to /cam3d/rgb/image_raw for image data
        rospy.Subscriber(topic_name + 'image_color', Image,
                         self.__image_raw_callback__)

        # wait until camera informations are recieved.
        start_time = rospy.Time.now()
        while not (self.camera_info_received or rospy.is_shutdown()):
            rospy.sleep(0.05)
            if start_time + rospy.Duration(2.0) < rospy.Time.now():
                # print warning every 2 seconds if the message is stil missing
                print "--> still waiting for /cam3d/rgb/camera_info"
                start_time = rospy.Time.now()

        # convert camera matrix an distortion coefficients and store them
        camera_matrix = self.camera_info.K
        cm = np.asarray(camera_matrix)
        self.cm = np.reshape(cm, (3, 3))
        dist_coeffs = self.camera_info.D
        self.dc = np.asarray(dist_coeffs)
        self.frame = self.camera_info.header.frame_id
Exemplo n.º 16
0
    def __init__(self):
        '''
        Configures the calibration node
        Reads configuration from parameter server or uses default values
        '''

        # get parameter from parameter server or set defaults
        self.pattern_size = rospy.get_param('~pattern_size', "9x6")
        self.square_size = rospy.get_param('~square_size', 0.03)

        self.alpha = rospy.get_param('~alpha', 0.0)
        self.verbose = rospy.get_param('~verbose', True)

        self.save_result = rospy.get_param('~save_result', False)

        # split pattern_size string into tuple, e.g '9x6' -> tuple(9,6)
        self.pattern_size = tuple((int(self.pattern_size.split(
            "x")[0]), int(self.pattern_size.split("x")[1])))

        self.camera_info = CameraInfo()
        self.camera_info_received = False
        self.latest_image = Image()
        self.bridge = CvBridge()

        # set up Checkerboard and CheckerboardDetector
        self.board = Checkerboard(self.pattern_size, self.square_size)
        self.detector = CheckerboardDetector(self.board)

        self.sss = simple_script_server()

	topic_name = '/stereo/left/'
        # subscribe to /cam3d/rgb/camera_info for camera_matrix and distortion coefficients
	rospy.Subscriber(topic_name + 'camera_info', CameraInfo,
                         self.__camera_info_callback__)
        # subscribe to /cam3d/rgb/image_raw for image data
        rospy.Subscriber(
            topic_name + 'image_color', Image, self.__image_raw_callback__)

        # wait until camera informations are recieved.
        start_time = rospy.Time.now()
        while not (self.camera_info_received or rospy.is_shutdown()):
            rospy.sleep(0.05)
            if start_time + rospy.Duration(2.0) < rospy.Time.now():
                # print warning every 2 seconds if the message is stil missing
                print "--> still waiting for /cam3d/rgb/camera_info"
                start_time = rospy.Time.now()

        # convert camera matrix an distortion coefficients and store them
        camera_matrix = self.camera_info.K
        cm = np.asarray(camera_matrix)
        self.cm = np.reshape(cm, (3, 3))
        dist_coeffs = self.camera_info.D
        self.dc = np.asarray(dist_coeffs)
        self.frame = self.camera_info.header.frame_id
Exemplo n.º 17
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    def __init__(self, timeout=120.0, arm_name='arm',
                 arm_recover_srv_name='/arm_controller/lwr_node/recover'):
        smach.State.__init__(self, input_keys=['init_robot_goal'],
                             output_keys=['initialised_components'],
                             outcomes=['succeeded', 'failed'])
        self.timeout = timeout
        self.sss = simple_script_server.simple_script_server()

        self.arm = moveit_commander.MoveGroupCommander(arm_name)
        self.arm_recover_srv_name = arm_recover_srv_name
        self.arm_recover_client = rospy.ServiceProxy(self.arm_recover_srv_name, Empty)
Exemplo n.º 18
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def init_pos():
    # Trick to move base back to odom_combined
    switch_controller = rospy.ServiceProxy('/base/controller_manager/switch_controller', SwitchController)
    print(switch_controller(None, ['odometry_controller', ], 1))  # switch off
    time.sleep(1.0)
    print(switch_controller(['odometry_controller', ], None, 1))  # switch on
    time.sleep(1.0)

    sss = simple_script_server()
    sss.move("arm_left", "side")  # for better pics
    sss.move("arm_right", [[0.6849513492283021, 0.9811503738420306, -0.05053975117653131, -1.4680375957626568, -0.0824580145043452, 0.4964406318714998, -0.5817382519875354]])
Exemplo n.º 19
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def setupRobot( robotConfig, req ):
    rospy.loginfo( 'Preparing robot for navigation scenario ...' )
    scriptServer = simple_script_server()
    #config = yaml.load( file( robotConfig, 'r' ))
    #if config:
    #    for key, value in config.items():
    #        rospy.loginfo( 'Moving %s to %s' % ( key, value ))
    #        scriptServer.move( key, value, blocking=True )
    for key, value in robotConfig.items():
        rospy.loginfo( 'Moving %s to %s' % ( key, value ))
        scriptServer.move( key, value, blocking=True )
    return True, ''
Exemplo n.º 20
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    def execute(self):
	if self.joint_goal is None:
	    error_code = self.plan(update_ps=False)
	    if not error_code.success:
		raise error_code
	#ToDo: in final version: use result from planning step instead of calling move_arm        
	sss = simple_script_server.simple_script_server()
	if type(self.target) is str:
	    target = self.target
	else:
	    target = [list(self.joint_goal.position)]
	return MotionHandleSSS(sss, ('arm', target))
Exemplo n.º 21
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    ## service client
    #checkerboard_checker_name = "/image_capture/visibility_check"
    #visible = rospy.ServiceProxy(checkerboard_checker_name, Visible)
    #rospy.wait_for_service(checkerboard_checker_name, 2)
    #print "--> service client for for checking for chessboards initialized"
    #kinematics_capture_service_name = "/collect_data/capture"
    #capture_kinematics = rospy.ServiceProxy(
    #kinematics_capture_service_name, Capture)
    #rospy.wait_for_service(kinematics_capture_service_name, 2)
    #print "--> service client for capture robot_states initialized"
    #image_capture_service_name = "/image_capture/capture"
    #capture_image = rospy.ServiceProxy(image_capture_service_name, Capture)
    #rospy.wait_for_service(image_capture_service_name, 2)
    #print "--> service client for capture images initialize
    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")
    sss.move("arm_left", "home")  #move to home position
    sss.move("arm_right", "home")  #move to home position
    sss.move("head", "back")  #move to calibration position
    rospy.wait_for_service("/move_group/plan_execution/set_parameters",
                           timeout=30.0)
    moveit_commander.roscpp_initialize(sys.argv)  # init of moveit
    robot = moveit_commander.RobotCommander()  # init of moveit wrt robot
    arm_left_group = moveit_commander.MoveGroupCommander(
        "arm_left")  # define groups
    arm_right_group = moveit_commander.MoveGroupCommander("arm_right")
    arm_left_group.set_pose_reference_frame('torso_3_link')  #*** Set referece
    arm_right_group.set_pose_reference_frame('torso_3_link')  #*** Set referece
    arm_list = [
        arm_left_group, arm_right_group
    ]  # list of groups for which we want to test the trajectories used for calibration
    #scene = moveit_commander.PlanningSceneInterface() # init if scene if collisiton is to be avoided and for the addition of the cb pattern later
    print "--> setup care-o-bot for capture"
    start = rospy.Time.now()
    for i in xrange(len(arm_list)):
        trajectory_test_loop(arm_list[i])
        sss.move(arm_list[i].get_name(), "home")
    print "finished after %s seconds" % (rospy.Time.now() - start).to_sec()
    sss.move("arm_left", "home")  #move to home position
    sss.move("arm_right", "home")  #move to home position
Exemplo n.º 22
0
 def Start(self):
     self.Parse()
     global ah_counter
     ah_counter = 0
     self.sss = simple_script_server.simple_script_server()
     self.graph = self.sss.action_handle.get_graph()
     rospy.loginfo("Starting <<%s>> script...", self.basename)
     self.Initialize()
     self.Run()
     # wait until last threaded action finishes
     rospy.loginfo("Wait for script to finish...")
     while ah_counter != 0:
         rospy.sleep(1)
     rospy.loginfo("...script finished.")
Exemplo n.º 23
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	def Start(self):
		self.Parse()
		global ah_counter
		ah_counter = 0
		self.sss = simple_script_server.simple_script_server()
		self.graph = self.sss.action_handle.get_graph()
		rospy.loginfo("Starting <<%s>> script...",self.basename)
		self.Initialize()
		self.Run()
		# wait until last threaded action finishes
		rospy.loginfo("Wait for script to finish...")
		while ah_counter != 0:
			rospy.sleep(1)
		rospy.loginfo("...script finished.")
Exemplo n.º 24
0
def __main__():
    rospy.init_node('cob_robot_calibration_generate_cal')
    listener = tf.TransformListener()
    rospy.sleep(1)
    sss = simple_script_server()
    sss.move("head", "back")
    minimal_system = rospy.get_param('minimal_system', None)
    sensors = rospy.get_param('sensors', None)
    output_system = rospy.get_param('output_system', None)
    free_system = rospy.get_param('free_system', None)

    z = yaml.load(open(sensors, 'r'))
    transformations = get_chains(z)
    print z
    transformation_dict = generate_transformation_dict(
        transformations, listener)
    print transformation_dict
    system = yaml.load(open(minimal_system, 'r'))

    if 'transforms' in system:

        t = dict(transformation_dict, **system['transforms'])
    else:
        t = transformation_dict

    system['checkerboards'] = rospy.get_param('~checkerboards', None)
    if system['checkerboards'] is None:
        print '[ERROR]: Parameter checkerboards not found. Make sure it is set and try again'
        return
    system['transforms'] = t

    free = system.copy()

    free = settozero(free)

    '''
    print yaml.dump(system)

    print "Calibration transformation suggestions are %s"%to_calib

    print yaml.dump(free)
    '''
    with open(output_system, 'w') as f:
        f.write('####### This file is autogenerated. Do not edit #######\n')
        f.write(yaml.dump(system))

    with open(free_system, 'w') as f:
        f.write('####### Use this file as template for free_0.yaml - free_2.yaml. #######\n')
        f.write(yaml.dump(free))
Exemplo n.º 25
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE
    
    # service client
    image_capture_service_name = "/collect_data/capture"
    capture = rospy.ServiceProxy(image_capture_service_name, Capture)
    rospy.wait_for_service(image_capture_service_name, 1)
    print "--> service client for capture images initialized"

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")
    
    print "--> setup care-o-bot for capture"
    sss.move("head", "back")

    # get position from parameter server
    positions_back = rospy.get_param("/script_server/arm/all_robot_back")
    positions_center = rospy.get_param("/script_server/arm/all_robot_center")
    positions_right = rospy.get_param("/script_server/arm/all_robot_right")
    positions_left = rospy.get_param("/script_server/arm/all_robot_left")
    torso_positions = ["calib_front_left2", "calib_front_right2", "calib_right2", "calib_left2", "calib_back_left2", "calib_back_right2", "home"]

    print "==> capturing images BACK"
    sss.move("torso", "back")
    capture_loop_arm(positions_back, sss, capture)
    
    print "==> capturing images LEFT"
    sss.move("torso", "left")
    capture_loop_arm(positions_left, sss, capture)
    
    print "==> capturing images RIGHT"
    sss.move("torso", "right")
    capture_loop_arm(positions_right, sss, capture)
    
    print "==> capturing images CENTER"
    sss.move("torso", "home")
    capture_loop_arm(positions_center, sss, capture)
    
    print "==> capturing TORSO samples"
    sss.move("arm", "calibration")
    capture_loop_torso(torso_positions, sss, capture)
Exemplo n.º 26
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    rospy.sleep(4)
    # service client
    checkerboard_checker_name = "/image_capture/visibility_check"
    visible = rospy.ServiceProxy(checkerboard_checker_name, Visible)
    rospy.wait_for_service(checkerboard_checker_name, 2)
    print "--> service client for for checking for chessboards initialized"

    kinematics_capture_service_name = "/collect_data/capture"
    capture_kinematics = rospy.ServiceProxy(
        kinematics_capture_service_name, Capture)
    rospy.wait_for_service(kinematics_capture_service_name, 2)
    print "--> service client for capture robot_states initialized"

    image_capture_service_name = "/image_capture/capture"
    capture_image = rospy.ServiceProxy(image_capture_service_name, Capture)
    rospy.wait_for_service(image_capture_service_name, 2)
    print "--> service client for capture images initialized"

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")

    print "--> setup care-o-bot for capture"
    sss.move("head", "back")

    # get position from parameter server
    position_path = rospy.get_param('~position_path', None)
    if position_path is None:
        print "[ERROR]: no path for positions set"
        return
    with open(position_path, 'r') as f:
        positions = yaml.load(f)
    print "==> capturing samples"
    start = rospy.Time.now()
    capture_loop(positions, sss, visible, capture_kinematics, capture_image)
    sss.move("arm", "calibration")
    print "finished after %s seconds" % (rospy.Time.now() - start).to_sec()
Exemplo n.º 27
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    def Parse(self):
        rospy.loginfo("Start parsing...")
        global graph
        global function_counter
        function_counter = 0
        # run script in simulation mode
        self.sss = simple_script_server.simple_script_server(parse=True)
        self.Initialize()
        self.Run()

        # save graph on parameter server for further processing
        #		self.graph = graph
        rospy.set_param("/script_server/graph", self.graph.string())
        self.graph_pub.publish(graph.string())
        rospy.loginfo("...parsing finished")
        function_counter = 0
        return graph.string()
Exemplo n.º 28
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	def Parse(self):
		rospy.loginfo("Start parsing...")
		global graph
		global function_counter
		function_counter = 0
		# run script in simulation mode
		self.sss = simple_script_server.simple_script_server(parse=True)
		self.Initialize()
		self.Run()
		
		# save graph on parameter server for further processing
#		self.graph = graph
		rospy.set_param("/script_server/graph", self.graph.string())
		self.graph_pub.publish(graph.string())
		rospy.loginfo("...parsing finished")
		function_counter = 0
		return graph.string()
Exemplo n.º 29
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    ## service client
    #checkerboard_checker_name = "/image_capture/visibility_check"
    #visible = rospy.ServiceProxy(checkerboard_checker_name, Visible)
    #rospy.wait_for_service(checkerboard_checker_name, 2)
    #print "--> service client for for checking for chessboards initialized"

    #kinematics_capture_service_name = "/collect_data/capture"
    #capture_kinematics = rospy.ServiceProxy(
        #kinematics_capture_service_name, Capture)
    #rospy.wait_for_service(kinematics_capture_service_name, 2)
    #print "--> service client for capture robot_states initialized"

    #image_capture_service_name = "/image_capture/capture"
    #capture_image = rospy.ServiceProxy(image_capture_service_name, Capture)
    #rospy.wait_for_service(image_capture_service_name, 2)
    #print "--> service client for capture images initialized"

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")

    print "--> setup care-o-bot for capture"
    sss.move("head", "back")

    # get position from parameter server
    position_path = rospy.get_param('position_path', None)
    if position_path is None:
        print "[ERROR]: no path for positions set"
        return
    with open(position_path, 'r') as f:
        positions = yaml.load(f)
    print "==> capturing samples"
    start = rospy.Time.now()
    capture_loop(positions, sss)
    print "finished after %s seconds" % (rospy.Time.now() - start).to_sec()
Exemplo n.º 30
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    def execute(self, userdata):
        # determine target position
        if self.pose != '':
            pose = self.pose
        elif type(userdata.pose) is str:
            pose = userdata.pose
        elif type(userdata.pose) is list:
            pose = []
            pose.append(userdata.pose[0])
            pose.append(userdata.pose[1])
            pose.append(userdata.pose[2])
        else:  # this should never happen
            userdata.message = []
            userdata.message.append(5)
            userdata.message.append('Invalid userdata "pose"')
            userdata.message.append(userdata.pose)
            return 'failed'

        # try reaching pose
        cob_script_server = simple_script_server.simple_script_server()
        handle_base = cob_script_server.move('base', pose, False, self.mode)
        move_second = False

        timeout = 0
        while True:
            move_base_state = handle_base.get_state()
            if (move_base_state == actionlib_msgs.msg.GoalStatus.SUCCEEDED
                ) and (not move_second):
                # do a second movement to place the robot more exactly
                handle_base = cob_script_server.move('base', pose, False,
                                                     self.mode)
                move_second = True
            elif (move_base_state == actionlib_msgs.msg.GoalStatus.SUCCEEDED
                  ) and (move_second):
                userdata.message = []
                userdata.message.append(3)
                userdata.message.append('Pose was succesfully reached')
                return 'succeeded'
            elif move_base_state == actionlib_msgs.msg.GoalStatus.REJECTED or move_base_state == actionlib_msgs.msg.GoalStatus.PREEMPTED or move_base_state == actionlib_msgs.msg.GoalStatus.ABORTED or move_base_state == actionlib_msgs.msg.GoalStatus.LOST:
                self.speak_pub.publish('I can not reach my target position.')
                rospy.logerr('base movement failed with state: %d',
                             move_base_state)
                return 'failed'
            rospy.sleep(0.1)
Exemplo n.º 31
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    def __init__(self):
        smach.State.__init__(self,
                             outcomes=['succeeded', 'failed'],
                             input_keys=['place_goal'],
                             output_keys=['place_feedback', 'place_result'])

        self.kinematics = kinematics.Kinematics('arm')
        self.move_arm = move_arm.MoveArm('arm')

        # distance from object center to pre-grasp
        self.pre_grasp_distance = rospy.get_param('~pre_grasp_distance')
        # distance from object to grasp
        self.grasp_distance = rospy.get_param('~grasp_distance')
        # height of the post-grasp over the object center
        self.post_grasp_height = rospy.get_param('~post_grasp_height')
        # at which angle of approach to start searching for a solution
        self.orbit_start_angle = 30.0 * math.pi / 180.0

        rospy.loginfo('Pre-grasp distance: %f', self.pre_grasp_distance)
        rospy.loginfo('Grasp distance: %f', self.grasp_distance)
        rospy.loginfo('Post-grasp height: %f', self.post_grasp_height)

        self.sss = simple_script_server.simple_script_server()
Exemplo n.º 32
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    # service client
    image_capture_service_name = "/image_capture/capture"
    capture = rospy.ServiceProxy(image_capture_service_name, Capture)
    rospy.wait_for_service(image_capture_service_name, 1)
    print "--> service client for capture images initialized"

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")

    print "--> setup care-o-bot for capture"
    sss.move("head", "back")
    sss.move("torso", "home")

    print "==> capturing images"
    positions = rospy.get_param("/script_server/arm/all_intrinsic")
    for pos in positions:
        print "--> moving arm to position '%s'" % pos
        sss.move("arm", pos)
        sss.sleep(1.5)
        print "--> capturing '%s' sample" % pos
        res = capture()
        if not res:
            print "--> ERROR during capture, skipping sample..."

    print "==> capturing finished, moving are to 'calibration' position"
    sss.move("arm", "calibration")
Exemplo n.º 33
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def init():
    global confirm
    sss = simple_script_server()
    say("I am ready. I will initialize myself.")
    say("Please confirm.")
    confirm = False
    while confirm == False:
        rospy.sleep(0.1)

    # initialize components
    handle_head = sss.init("head")

    handle_torso = sss.init("torso")
    if handle_torso.get_error_code() != 0:
        return say("failed to initialize torso")

    handle_tray = sss.init("tray")

    handle_arm = sss.init("arm")
    if handle_arm.get_error_code() != 0:
        return say("failed to initialize arm")

    handle_sdh = sss.init("sdh")

    handle_base = sss.init("base")
    if handle_base.get_error_code() != 0:
        return say("failed to initialize base")

    # recover components
    handle_head = sss.recover("head")
    if handle_head.get_error_code() != 0:
        return say("failed to recover head")

    say("All components are ready. Please drive me around until I am localized."
        )

    return True
Exemplo n.º 34
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    # service client
    image_capture_service_name = "/image_capture/capture"
    capture = rospy.ServiceProxy(image_capture_service_name, Capture)
    rospy.wait_for_service(image_capture_service_name, 1)
    print "--> service client for capture images initialized"

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")

    print "--> setup care-o-bot for capture"
    sss.move("head", "back")
    sss.move("torso", "home")

    print "==> capturing images"
    positions = rospy.get_param("/script_server/arm/all_intrinsic")
    for pos in positions:
        print "--> moving arm to position '%s'" % pos
        sss.move("arm", pos)
        sss.sleep(1.5)
        print "--> capturing '%s' sample" % pos
        res = capture()
        if not res: print "--> ERROR during capture, skipping sample..."

    print "==> capturing finished, moving are to 'calibration' position"
    sss.move("arm", 'calibration')
Exemplo n.º 35
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 def execute(self):
     if self.dryrun:
         return MotionHandleDummy()
     sss = simple_script_server.simple_script_server()
     return MotionHandleSSS(sss, (self.name, self.target))
Exemplo n.º 36
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	def __init__(self):
		print "script_utils: init"
		self.sss = simple_script_server.simple_script_server()
		random.seed()
Exemplo n.º 37
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 def execute(self):
     sss = simple_script_server.simple_script_server()
     return MotionHandleSSS(sss, (self.name,self.target))
Exemplo n.º 38
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import rospy
import smach
import smach_ros
import sys, os
import math

from ScreenFormatting import *
from autopnp_dirt_detection.srv import *
from cob_phidgets.srv import SetDigitalSensor
from std_msgs.msg import Bool
from cob_srvs.srv import Trigger
from std_srvs.srv import Empty
from diagnostic_msgs.msg import DiagnosticArray

from simple_script_server import simple_script_server
sss = simple_script_server()


class GraspCoffee(smach.State):
	def __init__(self):
		smach.State.__init__(self, outcomes=['succeeded'])
	
	def execute(self, userdata ):
		sf = ScreenFormat(self.__class__.__name__)
		
		grasp_out = [1.2981758976333824, -0.8947954009124528, 0.654673002423073, -1.8360340132204749, 0.3464478565208744, -1.501436942320642, -0.8940972692116552] #[1.2491146923598218, -0.9378875801441929, 0.6548824419333124, -1.8174113501016953, 0.28647834342234924, -1.501402035735602, -0.894149629089215]
		grasp_in = [1.319172208534874, -1.29580224985067, 0.654655549130553, -0.718045907562987, 0.2054776128372924, -0.7244338126252863, -0.5730963131848581]
		#inter1 = [0.8891405341359913, -0.8558920118854992, 0.737803034695563, -1.9027404972316981, -0.026581364507873642, -0.27817057618285623, -0.9220748971211243]
		#inter2 = [1.0291159401459364, -0.5438969547989929, 0.22078415037728266, -1.7277363331342266, 0.36641442316368955, 1.29580224985067, -0.41905355340383854]
		inter1 = [2.4082053019017757, -0.8928580854427391, 0.013072516097437528, -1.4938622133669865, 1.1684281210401237, -1.4554475165305913, -0.8031132553051908]
		inter2 = [2.5702067630718894, -0.8928406321502192, -1.5809017831639436, -1.4338403403909015, 1.569417516685821, -1.319451461215193, -0.8031132553051908]
Exemplo n.º 39
0
 def __init__(self):
     rospy.init_node('test_script')
     self.sss = simple_script_server.simple_script_server()
     rospy.Subscriber("/phidgetAO", Int16, self.phidget_callback)
     self.phidget_data = 0
Exemplo n.º 40
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 def __init__(self):
     self._ros = rosHelper.ROS()
     self._ros.configureROS(packageName='cob_script_server')
     import simple_script_server
     self._ros.initROS()
     self._ss = simple_script_server.simple_script_server()
Exemplo n.º 41
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import roslib
roslib.load_manifest('autopnp_tool_change')
import rospy
import smach
import smach_ros
import tf

from tf.transformations import *

from cob_object_detection_msgs.msg import DetectionArray, Detection
from geometry_msgs import *
from geometry_msgs.msg import *

from simple_script_server import simple_script_server
sss = simple_script_server()

#from exploration_detection_cleaning import *

global TOOL_WAGON_MARKER_OFFSETS
TOOL_WAGON_MARKER_OFFSETS = {  # todo: measure translational offsets
    "front":
    Transform(
        translation=Vector3(x=0.055, y=-0.975, z=0.0),
        rotation=Quaternion(x=-0.5, y=-0.5, z=-0.5, w=0.5)
    ),  # quaternion_from_euler(-90.0/180.0*math.pi, -90.0/180.0*math.pi, 0.0, 'rzyx')
    "rear":
    Transform(
        translation=Vector3(x=0.06, y=-1.025, z=-0.46),
        rotation=Quaternion(x=-0.5, y=0.5, z=0.5, w=0.5)
    ),  # quaternion_from_euler(90.0/180.0*math.pi, 90.0/180.0*math.pi, 0.0, 'rzyx')
Exemplo n.º 42
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def init_pos():
    sss = simple_script_server()
    # sss.move("arm_right", [[-0.039928546971938594, 0.7617065276699337, 0.01562043859727158, -1.7979678396373568, 0.013899422367821046, 1.0327319085987252, 0.021045294231647915]])
    sss.move("arm_left", [[-0.17566952192977148, 0.6230441162870415, 0.27476319388433623, -1.1163222472275676, 0.3166667900974902, 0.5333301416131739, -0.32441227738211875], ])
Exemplo n.º 43
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 def __init__(self):
     rospy.init_node('test_script')
     self.sss = simple_script_server.simple_script_server()
Exemplo n.º 44
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def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE
    rospy.wait_for_service("/move_group/plan_execution/set_parameters",timeout=30.0)
    chessboard_pose = rospy.Publisher('/cob_calibration/chessboard_pose', geometry_msgs.msg.PoseStamped, queue_size=1)
    print 'chessboard_pose publisher activated'
    moveit_commander.roscpp_initialize(sys.argv) # init of moveit
    robot = moveit_commander.RobotCommander()# init of moveit wrt robot
#     scene = moveit_commander.PlanningSceneInterface() # init if scene if collisiton is to be avoided and for the addition of the cb pattern later
    print "============ Robot Groups:"
    print robot.get_group_names()
    print "============"
    listener = tf.TransformListener()
    rospy.sleep(1.5)
#     torso_ik = rospy.ServiceProxy('/lookat_get_ik', GetPositionIK) # no Torso link
    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")
    sss.move("arm_left","home")
    sss.move("arm_right","home")
    print "--> components initialized"
    #camera_link_left = "/torso_cam3d_left_link" #renamed
    #camera_link_right = "/torso_cam3d_right_link" #new addition

    #[xhead, yhead, zhead] = get_position(listener, camera_link_left)[0]
    #print "Positon wrt torso_cam3d_left"
    #print xhead, yhead, zhead
    
    #[xhead, yhead, zhead] = get_position(listener, camera_link_right)[0]
    #print "Positon wrt torso_cam3d_left"
    #print xhead, yhead, zhead

    print "--> setup care-o-bot for capture"
    
#     arm_left_group = moveit_commander.MoveGroupCommander("arm_left") # define groups
#     arm_right_group = moveit_commander.MoveGroupCommander("arm_right")
#     arm_left_group.set_pose_reference_frame('torso_3_link')#***
#     arm_right_group.set_pose_reference_frame('torso_3_link')#***
#     arm_list = [arm_left_group,arm_right_group]
    
#     arm_planning_reference_frames = ['torso_cam3d_left_link','torso_cam3d_right_link']
#     orientation_mean = [[-0.55194, -0.83389, 0, 0],
#                         [0.83389, 0.55194, 0, 0]]
#     limits = [
#               [[0.15074, 0.40, 0.52078-0.698747/2],  #-0.457/2.0
#                [0.6808, -0.40, 1.135-0.698747/2]],
#               [[0.15074, 0.40, 0.52078-0.698747/2],  #-0.457/2.0
#                [0.6808, -0.40, 1.135-0.698747/2]]
#               ] 
#     discritization = [[2,2,2],
#                       [2,2,2]]
    
    
    try:
        arms = rospy.get_param('/cob_calibration_executive/arms')
    except:
        raise NameError('Couldn\'t find the configuration parameters under \'~cob_calibration/arms\' namespace.')
    
    config_list = []
    for k in arms.keys():
            config_list.append(arms[k])
            
    arm_names = []
    limits = []
    discritization = []
    orientation_mean = []
    arm_planning_reference_frames = []
    for i, arm in enumerate(config_list):
        arm_names.append(arm['name'])
        
        l1 = arm['limits_corner_1']
        l2 = arm['limits_corner_2']
        l1 = [float(eval(str(i))) for i in l1]   # convert the limit values into float 
        l2 = [float(eval(str(i))) for i in l2]
        limits.append([l1, l2])
        
        d = map(int, arm['discritization'])
        discritization.append(d)
        
        h = arm['hand_orientation']
        h = [float(eval(str(i))) for i in h]   # convert the orientation values into float 
        orientation_mean.append(h)
        
        arm_planning_reference_frames.append(str(arm['arm_planning_reference_frame']))
    
    arm_list = []
    for i, arm in enumerate(arm_names):
        arm_list.append(moveit_commander.MoveGroupCommander(arm))
        f = arm_planning_reference_frames[i]
        arm_list[i].set_pose_reference_frame(f)
    
    trajectory_joint_angles = [] # the first element of each entry is the Trajectory list for all successful calibration points while the second is the list of finla joint angles corresponding to that list
    
    file_path = rospy.get_param('~output_path', None)
    directory = os.path.dirname(file_path)
    if file_path is not None:
        if not os.path.exists(directory):
            os.makedirs(directory)
    #pdb.set_trace()
    for i in xrange(len(arm_list)):
        trajectory_joint_angles.append(generate_calibration_trajectory(
                                                    arm_list[i], 
                                                    limits[i],
                                                    discritization[i],
                                                    orientation_mean[i],
                                                    arm_planning_reference_frames[i],
                                                    False,
                                                    chessboard_pose))
   
        file_path_group_angles = file_path+arm_list[i].get_name()+"calibration_positions.yaml"
        with open(file_path_group_angles, 'w') as f:
            f.write('# autogenerated: Do not edit #\n')
            f.write(yaml.dump(trajectory_joint_angles[i][1]))# this is the second entry of the element in the list corresponding to the joint angles for all successful calibration points
        file_path_group_trajectories = file_path+arm_list[i].get_name()+"calibration_trajectories.yaml"
        with open(file_path_group_trajectories, 'w') as f:
            f.write('# autogenerated: Do not edit #\n')
            f.write(yaml.dump(trajectory_joint_angles[i][0])) #this is the first entry of the element in the list corresponding to the joint trajectories for all successful calibration points
            display_string  = '%s ik solutions found for '% len(trajectory_joint_angles[i][0])
            display_string = display_string + arm_list[i].get_name()
            print (display_string)
        file_path_cb_positions = file_path+arm_list[i].get_name()+"_cb_positions.yaml"
        with open(file_path_cb_positions, 'w') as f:
            f.write('# autogenerated: Do not edit #\n')
            trajectory_joint_angles[i][2].append(arm_planning_reference_frames[i])
            f.write(yaml.dump(trajectory_joint_angles[i][2]))
Exemplo n.º 45
0
def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    chessboard_pose = rospy.Publisher(
        '/cob_calibration/chessboard_pose', PoseStamped)
    print 'chessboard_pose publisher activated'
    listener = tf.TransformListener()
    rospy.sleep(1.5)
    arm_ik = rospy.ServiceProxy('/compute_ik', GetPositionIKMoveit)
    torso_ik = rospy.ServiceProxy('/lookat_get_ik', GetPositionIK)
    '''
    (t,r)=listener.lookupTransform('/arm_0_link','arm_7_link',rospy.Time(0))

    a=calculate_ik((t,r), arm_ik)
    print a[0]
    '''

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")
    camera_link = "/cam_reference_link"

    [xhead, yhead, zhead] = get_position(listener, camera_link)[0]
    print xhead, yhead, zhead

    print "--> setup care-o-bot for capture"
    sss.move("head", "back")

    calibration_seed = rospy.get_param("/script_server/arm/calibration")

    #sss.move("arm",[a[0]])
    nextPose = PoseStamped()

    torso = TorsoIK()

    # define cuboid for positions
    # limits from base_link frame
    limits = {'x': (-0.4, -1.0),
              'y': (-0.3, 0.3),
              'z': (0.5, 1.5)}

    sample_density = {'x': 6,
                      'y': 6,
                      'z': 6}

    sample_positions = {'x': [],
                        'y': [],
                        'z': []}
    for key in limits.keys():
        limits[key] = sorted(limits[key])
        sample_positions[key].append(limits[key][0])
        diff = limits[key][1] - limits[key][0]
        step = 1.0 * diff / (sample_density[key] - 1)
     #   print key, ' ',diff,' ',step

        while sample_positions[key][-1] + step <= (limits[key][1] + 0.01):
            sample_positions[key].append(sample_positions[key][-1] + step)

    joint_states = []
    torso.get_torso_limits()

    cb_links = ["/chessboard_center","/chessboard_lu_corner",
                "/chessboard_ru_corner", "/chessboard_ll_corner",
                "/chessboard_rl_corner"]

    for x in sample_positions['x']:
        for y in sample_positions['y']:
            for z in sample_positions['z']:
                #for q in quaternion:
                for cb_link in cb_links:
                    print "\033[1;34mNew Position\033[1;m"
                    nextPose.header.frame_id = '/base_link'
                    nextPose.pose.position.x = x
                    nextPose.pose.position.y = y
                    nextPose.pose.position.z = z

                    # (0,0,0,1) for cob3-6
                    nextPose.pose.orientation.x = 0
                    nextPose.pose.orientation.y = 0
                    nextPose.pose.orientation.z = 0
                    nextPose.pose.orientation.w = 1

                    chessboard_pose.publish(nextPose)
                    rospy.sleep(0.2)
                    transformation_base_cb = get_position(
                        listener, '/chessboard_center')
                    [x1, y1, z1] = transformation_base_cb[0]
                    (dx, dy, dz) = (x1 - xhead, y1 - yhead, z1 - zhead)
                    roll = 0
                    pitch = math.atan2(dz, -dx)
                    yaw = -math.atan2(dy, -dx)
                    '''
                    Add noise to roll pitch and yaw values of cb
                    '''
                    std_dev = 0.3
                    roll = np.random.normal(roll,std_dev,1)[0]
                    pitch = np.random.normal(pitch,std_dev,1)[0]
                    yaw = np.random.normal(yaw,std_dev,1)[0]

                    q=tf.transformations.quaternion_from_euler(roll, pitch, yaw)
                    #print q
                    nextPose.pose.orientation.x = q[0]
                    nextPose.pose.orientation.y = q[1]
                    nextPose.pose.orientation.z = q[2]
                    nextPose.pose.orientation.w = q[3]
                    chessboard_pose.publish(nextPose)
                    rospy.sleep(0.2)
                    transformation_base_cb = get_position(
                        listener, cb_link)


                    #if not torso.in_range(angles):
                        #continue
                    #print t
                    try:
                        torso_js = lookat(transformation_base_cb ,torso_ik)[:len(torso.limits)]
                    except:
                        break

                    if torso_js[0] is None:
                        break
                    if not torso.valid_ik(torso_js):
                        break
                    print '\033[1;33mTorso solution found\033[1;m'


                    #(t, r) = get_cb_pose(listener, '/head_cam3d_link')

                    (t, r) = get_cb_pose(listener, '/base_link')
                    js = calculate_ik((
                        t, r), arm_ik, calibration_seed[0])
                    if js[0] is not None:
                        joint_states.append({'joint_position': js[0]
                                            , 'torso_position': list(torso_js)})
                        print joint_states[-1]

                        print '\033[1;32mIK solution found\033[1;m'
                    else:
                        print '\033[1;31mNo solution found\033[1;m'

    path = rospy.get_param('~output_path', None)
    directory = os.path.dirname(path)

    if path is not None:
        if not os.path.exists(directory):
            os.makedirs(directory)
        with open(path, 'w') as f:
            f.write('# autogenerated: Do not edit #\n')
            f.write(yaml.dump(joint_states))
    else:
        print yaml.dump(joint_states)
    print '%s ik solutions found' % len(joint_states)
Exemplo n.º 46
0
	def __init__(self):
		rospy.init_node('test_script')
		self.sss = simple_script_server.simple_script_server()
		rospy.Subscriber("/phidgetAO", Int16, self.phidget_callback)
		self.phidget_data = 0
Exemplo n.º 47
0
 def execute(self):
     if self.dryrun:
             return MotionHandleDummy()
     sss = simple_script_server.simple_script_server()
     return MotionHandleSSS(sss, (self.name,self.target))
Exemplo n.º 48
0
def main():
    rospy.init_node(NODE)
    print "==> %s started " % NODE

    chessboard_pose = rospy.Publisher(
        '/cob_calibration/chessboard_pose', PoseStamped)
    print 'chessboard_pose publisher activated'
    listener = tf.TransformListener()
    rospy.sleep(1.5)
    arm_ik = rospy.ServiceProxy('/cob_ik_wrapper/arm/get_ik', GetPositionIK)
    '''
    (t,r)=listener.lookupTransform('/arm_0_link','arm_7_link',rospy.Time(0))

    a=calculate_ik((t,r), arm_ik)
    print a[0]
    '''

    # init
    print "--> initializing sss"
    sss = simple_script_server()
    sss.init("base")
    sss.init("torso")
    sss.init("head")
    sss.recover("base")
    sss.recover("torso")
    sss.recover("head")

    print "--> setup care-o-bot for capture"
    sss.move("head", "back")

    calibration_seed = rospy.get_param("/script_server/arm/calibration")

    #sss.move("arm",[a[0]])
    nextPose = PoseStamped()

    torso = TorsoIK()
    torso.set_camera_viewfield(rospy.get_param('~camera_view_angle'))

    # lissajous like figure for rotation
    cb_tip_offset = 3
    cb_tip_positions = [(0, 0), (1, 0), (0, 1),
                        (-1, 0), (0, -1)]
    quaternion = []
    for cb_tip_p in cb_tip_positions:
        temp = list(cb_tip_p)
        temp.append(cb_tip_offset)
        vector_to = np.matrix(temp)
        vector_from = np.matrix([0, 0, 1])
        a = vector_to + vector_from
        a = a / np.linalg.norm(a)
        #print a
        '''
        #print '*'*20
        print type(a)
        print a.T.shape
        print type(vector_from)
        print vector_from.T.shape
        '''
        w = np.dot(vector_from, a.T)
        vector_from = vector_from.tolist()[0]
        a = a.tolist()[0]
        #print vector_from
        #print a
        x = vector_from[1] * a[2] - vector_from[2] * a[1]
        y = vector_from[2] * a[0] - vector_from[0] * a[2]
        z = vector_from[0] * a[1] - vector_from[1] * a[0]

        quaternion.append(tuple(tf.transformations.quaternion_multiply(
            [0, 0, 0, 1], [x, y, z, w]).reshape(1, 4).tolist()[0]))

    # define cuboid for positions
    # limits from base_link frame
    limits = {'x': (-0.5, -1.2),
              'y': (-0.3, 0.3),
              'z': (0.5, 1.0)}

    sample_density = {'x': 5,
                      'y': 5,
                      'z': 5}

    sample_positions = {'x': [],
                        'y': [],
                        'z': []}
    for key in limits.keys():
        limits[key] = sorted(limits[key])
        sample_positions[key].append(limits[key][0])
        diff = limits[key][1] - limits[key][0]
        step = 1.0 * diff / (sample_density[key] - 1)
     #   print key, ' ',diff,' ',step

        while sample_positions[key][-1] + step <= (limits[key][1] + 0.01):
            sample_positions[key].append(sample_positions[key][-1] + step)

    joint_states = []

    for x in sample_positions['x']:
        for y in sample_positions['y']:
            for z in sample_positions['z']:
                for q in quaternion:
                    nextPose.header.frame_id = '/base_link'
                    nextPose.pose.position.x = x
                    nextPose.pose.position.y = y
                    nextPose.pose.position.z = z

                    # (0,0,0,1) for cob3-6
                    nextPose.pose.orientation.x = q[0]
                    nextPose.pose.orientation.y = q[1]
                    nextPose.pose.orientation.z = q[2]
                    nextPose.pose.orientation.w = q[3]

                    chessboard_pose.publish(nextPose)
                    rospy.sleep(0.2)
                    (t, r) = get_cb_pose_head(
                        listener, '/head_color_camera_l_link')
                    angles = calculate_angles(t)
                    if not torso.in_range(angles):
                        continue
                    #print t

                    #(t, r) = get_cb_pose(listener, '/head_cam3d_link')

                    #print t
                    (t, r) = get_cb_pose(listener, '/arm_0_link')
                    js = calculate_ik((
                        t, r), arm_ik, calibration_seed[0])
                    if js[0] is not None:
                        print 'IK solution found'
                    else:
                        continue
                    torso_state = [-a for a in torso.calculate_ik(angles)]
                    for torso_js in [torso_state, [0] * len(torso_state)]:
                        joint_states.append({'joint_position': js[
                                            0], 'torso_position': list(torso_js)})
                        print joint_states[-1]

    path = rospy.get_param('~output_path', None)
    directory = os.path.dirname(path)

    if path is not None:
        if not os.path.exists(directory):
            os.makedirs(directory)
        with open(path, 'w') as f:
            f.write('# autogenerated: Do not edit #\n')
            f.write(yaml.dump(joint_states))
    else:
        print yaml.dump(joint_states)
    print '%s ik solutions found' % len(joint_states)