Beispiel #1
0
def filter_CSV(filter_field, value):
    reader = CSV_Manager("./articles.csv")
    articles = reader.get_csv_as_dicts()
    manipulator = Manipulator(articles)

    filtered = manipulator.filter_by(filter_field, value)
    return list(filtered)
Beispiel #2
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    def __init__(self, sim,
                 iktype=openravepy.IkParameterization.Type.Transform6D):
        Manipulator.__init__(self)

        self.simulated = sim
        self.iktype = iktype

        robot = self.GetRobot()
        env = robot.GetEnv()

        with env:
            dof_indices = self.GetIndices()
            accel_limits = robot.GetDOFAccelerationLimits()
            accel_limits[dof_indices[0:3]] = 1.2
            accel_limits[dof_indices[3:6]] = 1.0
            robot.SetDOFAccelerationLimits(accel_limits)

        # Load or_nlopt_ik as the IK solver. Unfortunately, IKFast doesn't work
        # on the Mico.
        if iktype is not None:
            self.iksolver = openravepy.RaveCreateIkSolver(env, 'NloptIK')
            self.SetIKSolver(self.iksolver)

        # Load simulation controllers.
        if sim:
            from prpy.simulation import ServoSimulator

            self.controller = robot.AttachController(
                self.GetName(), '', self.GetArmIndices(), 0, True)
            self.servo_simulator = ServoSimulator(self, rate=20,
                                                  watchdog_timeout=0.1)
Beispiel #3
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 def test_input_11(self):
     man = Manipulator("integration.conf.json")
     man.generateSource()
     comp = CompilationEngine("integration.conf.json")
     comp.createExes()
     self.assertTrue(os.path.exists("./gcc/a.out"))
     comp.clear()
Beispiel #4
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def run(filter_field, value):
    reader = CSV_Manager("./articles.csv")
    articles = reader.get_csv_as_dicts()
    manipulator = Manipulator(articles)

    filtered = manipulator.filter_by(filter_field, value)
    print(json.dumps(filtered, indent=2))
Beispiel #5
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    def checkRun(e, p, w):
        from gui import Gui
        if not os.path.exists(e.get()):
            Gui.alertErr("Error", "Configuration file not found", w)
            return
        try:
            conf = e.get() 
            ce = CompilationEngine(conf)
            m = Manipulator(conf)
            p['value'] = 20
            w.update_idletasks()
            m.generateSource()
            p['value'] = 40
            w.update_idletasks()
            ce.createExes()
            p['value'] = 60
            w.update_idletasks()
            complist = ce.getReport()
            vt = VirusTotal()
            p['value'] = 80
            w.update_idletasks()
            report = vt.getScore(complist)
            p['value'] = 100
            w.update_idletasks()

            str = ""
            i = 0
            for x,y in complist.items():
                str += "<{} : {}>\n".format(x,report[i])
                i+=1
            Gui.alertInfo("Result", str, w)
        except Exception as err:
            p['value'] = 0
            w.update_idletasks()
            Gui.alertErr("Error", err, w)
Beispiel #6
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def run(filter_field, value=None):
    reader = CSV_Manager("./articles.csv")
    if value != None:
        articles = reader.get_csv_as_dicts()
        manipulator = Manipulator(articles)

        filtered = manipulator.filter_by(filter_field, value)
        print(json.dumps(filtered, indent=2))
    else:
        a = reader.map_author()
        print(json.dumps(a[filter_field], indent=2))
Beispiel #7
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 def map_author(self):
     with open(self.filename) as csv_file:
         csv_reader = csv.reader(csv_file, delimiter=',')
         rows = [row for row in csv_reader]
     articles = self.get_csv_as_dicts()
     manipulator = Manipulator(articles)
     a = {}
     b = rows.pop(0)
     for x in range(4):
         for j in rows:
             a[j[x]] = manipulator.filter_by(b[x], j[x])
     return a
    def run_avevasion(self, hexed_filename, config_filename, path):
        #pickup config file based on hexed_filename and execute shell
        #conf =  Path("C:\\Users\\ozne2\\Desktop\\Tesi\\AVevasion\\Wrapper\\AVevasion\\app\\uploads\\"+hexed_filename+"\\config\\"+config_filename)
        conf = Path(path + "\\" + hexed_filename + "\\config\\" +
                    config_filename)

        ce = CompilationEngine(conf)
        m = Manipulator(conf)
        m.generateSource()
        ce.createExes()
        complist = ce.getReport()
        print(os.path)
        global vt
        report = vt.getScore(complist)
        print(complist)
        print(report)

        return report
Beispiel #9
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    def register_controller(self, controller):
        blob_family = BlobFamily(self, len(self.controllers))
        blob = Blob(self, self.__random_position(100), len(self.controllers),
                    blob_family)
        blob_family.add_blob(blob)
        controller.set_manipulator(Manipulator(blob_family, self))

        self.controllers.append(controller)
        self.blobs.append(blob)
        self.blob_families.append(blob_family)
Beispiel #10
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    def __init__(self, sim, owd_namespace,
                 iktype=openravepy.IkParameterization.Type.Transform6D):
        Manipulator.__init__(self)

        self.simulated = sim
        self._iktype = iktype

        if iktype is not None:
            self._SetupIK(iktype)

        # Enable servo motions in simulation mode.
        self.controller = self.GetRobot().AttachController(name=self.GetName(),
            args='OWDController {0:s} {1:s}'.format('prpy', owd_namespace),
            dof_indices=self.GetArmIndices(), affine_dofs=0, simulated=sim
        )

        if sim:
            from prpy.simulation import ServoSimulator
            self.servo_simulator = ServoSimulator(
                self, rate=20, watchdog_timeout=0.1)
Beispiel #11
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def run(filter_field, value=False):
    reader = CSV_Manager("./articles.csv")
    if value:
        articles = reader.get_csv_as_dicts()
        manipulator = Manipulator(articles)
        filtered = manipulator.filter_by(filter_field, value)

        print(json.dumps(filtered, indent=2))
    else:
        reader.read()
        manipulator = Manipulator(reader.mapped_dict)
        manipulator.relevant(filter_field)
def collect_items(show_video=True, record_video=False):
    manipulator = Manipulator()

    # set up items to be collected
    items = [{'size': 30, 'place': (210, EARTH_LEVEL), 'name': 'red', 'color': (35, 35, 215)},
             {'size': 40, 'place': (250, EARTH_LEVEL), 'name': 'green', 'color': (50, 150, 0)},
             {'size': 50, 'place': (300, EARTH_LEVEL), 'name': 'yellow', 'color': (25, 220, 230)}]
    dest_range = (350, 640)
    # generate random positions within dest_range
    # To make items not to be overlapping, first point positions in [0, free_size) interval are
    # generated, then every point expands to the required size (with spaces between points saved)
    range_size = dest_range[1] - dest_range[0]
    sum_size = sum(item['size'] for item in items)
    free_size = range_size - sum_size
    x_positions = dest_range[0] + np.random.randint(free_size, size=len(items))
    for i, (item, pos) in enumerate(zip(items, x_positions)):
        x_positions[x_positions > pos] += item['size']
        x_positions[i] += item['size'] // 2
    for x, item in zip(x_positions, items):
        item['position'] = (x, EARTH_LEVEL - item['size'] // 2)

    # set up video showing and recording
    window = "collect items demo" if show_video else None
    writer = cv2.VideoWriter("collect items demo.avi",
                             VIDEO_FOURCC,
                             VIDEO_FPS,
                             FRAME_RES) if record_video else None

    # collect items
    picker = Picker(manipulator, items, window, writer)
    picker.collect()

    if show_video:
        cv2.destroyWindow(window)
    if record_video:
        writer.release()
Beispiel #13
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 def test_input2(self):
     man = Manipulator("man-err2.conf.json")
     with self.assertRaises(ValueError):
         man.generateSource()
Beispiel #14
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 def test_input5(self):
     man = Manipulator("man-obbligatori1.conf.json")
     man.generateSource()
     self.assertTrue(os.path.exists("out.c"))
     os.remove("out.c")
Beispiel #15
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    def __init__(self, name, buffers, clusters, representative_buffers=None, colors=None, vol_shape=None, representatives_line_width=5.0, streamlines_line_width=2.0, representatives_alpha=1.0, streamlines_alpha=1.0, affine=None, verbose=False, clustering_parameter=None, clustering_parameter_max=None, full_dissimilarity_matrix=None):
        """StreamlineLabeler is meant to explore and select subsets of
        the streamlines. The exploration occurs through clustering in
        order to simplify the scene.
        """
        # super(StreamlineLabeler, self).__init__(name)
        Actor.__init__(self, name) # direct call of the __init__ seems better in case of multiple inheritance

        if affine is None: self.affine = np.eye(4, dtype = np.float32)
        else: self.affine = affine
        if vol_shape is not None:
            I, J, K = vol_shape
            centershift = img_to_ras_coords(np.array([[I/2., J/2., K/2.]]), affine)
            centeraffine = from_matvec(np.eye(3), centershift.squeeze())
            affine[:3,3] = affine[:3, 3] - centeraffine[:3, 3]
        self.glaffine = (GLfloat * 16)(*tuple(affine.T.ravel()))
        self.glaff = affine
         
        self.mouse_x=None
        self.mouse_y=None

        self.buffers = buffers
        

        self.clusters = clusters
        self.save_init_set = True
         
        # MBKM:
        Manipulator.__init__(self, initial_clusters=clusters, clustering_function=mbkm_wrapper)

        # We keep the representative_ids as list to preserve order,
        # which is necessary for presentation purposes:
        self.representative_ids_ordered = sorted(self.clusters.keys())

        self.representatives_alpha = representatives_alpha

        # representative buffers:
        if representative_buffers is None:
            representative_buffers = compute_buffers_representatives(buffers, self.representative_ids_ordered)

        self.representatives_buffer = representative_buffers['buffer']
        self.representatives_colors = representative_buffers['colors']
        self.representatives_first = representative_buffers['first']
        self.representatives_count = representative_buffers['count']

        self.representatives = buffer2coordinates(self.representatives_buffer,
                                                  self.representatives_first,
                                                  self.representatives_count)

        # full tractography buffers:
        self.streamlines_buffer = buffers['buffer']
        self.streamlines_colors = buffers['colors']
        self.streamlines_first = buffers['first']
        self.streamlines_count = buffers['count']
        
        print('MBytes %f' % (self.streamlines_buffer.nbytes/2.**20,))

        self.hide_representatives = False
        self.expand = False
        self.knnreset = False
        self.representatives_line_width = representatives_line_width
        self.streamlines_line_width = streamlines_line_width
        self.vertices = self.streamlines_buffer # this is apparently requested by Actor
        
        self.color_storage = {}
        # This is the color of a selected representative.
        self.color_selected = np.array([1.0, 1.0, 1.0, 1.0], dtype='f4')

        # This are the visualized streamlines.
        # (Note: maybe a copy is not strictly necessary here)
        self.streamlines_visualized_first = self.streamlines_first.copy()
        self.streamlines_visualized_count = self.streamlines_count.copy()
        
        # Clustering:
        self.clustering_parameter = clustering_parameter
        self.clustering_parameter_max = clustering_parameter_max
        self.full_dissimilarity_matrix = full_dissimilarity_matrix
        self.cantroi = 0
Beispiel #16
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 def test_input1(self):
     man = Manipulator("man-err1.conf.json")
     with self.assertRaises(KeyError):
         man.generateSource()
Beispiel #17
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        print("*** Position %d of %d ***" % (i, len(poss)-1))
        m.move(poss[i].pos)
        time.sleep(1)

        while True:
            img = cam.read()
            retval, _, img2 = pose.find_chessboard(img, draw_axes=True)
            if retval:
                utils.imshow2(img2)
                utils.save(img)
                print("# chessboard found!")
                break
            else:
                utils.imshow2(img)
                print("# chessboard is not found, retrying ...")

# ------------------------------------------------------

cam = Camera()
pose = Pose()

cal_scenario = Scenario(scenario_file)
poss = cal_scenario.positions

m = Manipulator(homing=False, dry_run=True)

try:
    move_n_capture(m, poss, cam, pose):
finally:
    # return to zero position
    m.move(poss[0].pos)
Beispiel #18
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parse.add_argument('-i',
                   '--init_pcap',
                   type=str,
                   default='./_empty.pcap',
                   help="preparatory traffic (ignore this if you don't need)")

parse.add_argument('-o',
                   '--sta_file',
                   type=str,
                   default='./example/statistics.pkl',
                   help="file saving the final statistics (.pkl)")

arg = parse.parse_args()

m = Manipulator(arg.mal_pcap, arg.mimic_set, arg.normalizer, arg.init_pcap)

max_iter, particle_num, local_grp_size = 3, 6, 3
# max_iter,particle_num,local_grp_size = 4,8,4
# max_iter,particle_num,local_grp_size = 5,10,5
# max_iter,particle_num,local_grp_size = 3,10,5

m.change_particle_params(w=0.7298, c1=1.49618, c2=1.49618)
m.change_pso_params(max_iter=max_iter,
                    particle_num=particle_num,
                    grp_size=local_grp_size)
m.change_manipulator_params(grp_size=100,
                            min_time_extend=3.,
                            max_time_extend=6.,
                            max_cft_pkt=1,
                            max_crafted_pkt_prob=0.01)
Beispiel #19
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import os
from tools import init_logger, env_variable_to_int
from manipulator import Manipulator

MANIPULATOR_HOST = os.getenv('MANIPULATOR_HOST')
MANIPULATOR_PORT = env_variable_to_int('MANIPULATOR_PORT')
DEBUG_LOG = True if env_variable_to_int('DEBUG') else False

if __name__ == '__main__':

    logger = init_logger('manipulator', '/var/log/manipulator/info.log',
                         '/var/log/manipulator/debug.log',
                         '/var/log/manipulator/error.log', DEBUG_LOG)

    logger.info('Manipulator app starting with the following params:'
                '\nMANIPULATOR_HOST: {}'
                '\nMANIPULATOR_PORT: {}'
                '\nDEBUG: {}'.format(MANIPULATOR_HOST, MANIPULATOR_PORT,
                                     DEBUG_LOG))
    a = Manipulator(MANIPULATOR_HOST, MANIPULATOR_PORT, logger=logger)
    a.run_server()
Beispiel #20
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    # fall-through from axis movement commands
    return ('move', [axis, delta])


# def measure(scenario, m):
#     m.move(scenario.get_first_pos())
#     for pos in scenario.positions[1:]:
#         pos.timing1 = m.measure1(pos.pos)
#     m.move(scenario.get_first_pos())
#     for pos in scenario.positions[1:]:
#         pos.timing2 = m.measure2(pos.pos)
#     m.move(scenario.get_first_pos())

kb = KBHit()

m = Manipulator(homing=False, dry_run=False)
scenarios = [
    Scenario('scenario-1.csv'),
    Scenario('scenario-2.csv'),
    Scenario('scenario-3.csv')
]
curr_scenario = 0

scenario = scenarios[curr_scenario]
pos = scenario.get_first_pos()
m.move(pos.pos)

while True:
    print("# %s line %d %s" % (scenario.file, pos.nline, pos.pos))

    while not kb.kbhit():
Beispiel #21
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def main():
    sys.argv.append("robot_description:=panda/robot_description")
    sys.argv.append("joint_states:=panda/joint_states")
    sys.argv.append("move_group:=panda/move_group")
    sys.argv.append("pickup:=panda/pickup")
    sys.argv.append("place:=panda/place")
    sys.argv.append("execute_trajectory:=panda/execute_trajectory")
    #sys.argv.append("trajectory_execution_event:=panda/trajectory_execution_event")
    #sys.argv.append("collision_object:=panda/collision_object")
    #sys.argv.append("attached_collision_object:=panda/attached_collision_object")
    #sys.argv.append("error_recovery:=panda/error_recovery")
    #sys.argv.append("franka_gripper_node:=panda/franka_gripper_node")
    #sys.argv.append("joint_state_controller:=panda/franka_state_controller")
    #sys.argv.append("planning_scene:=panda/planning_scene")
    #sys.argv.append("planning_scene_world:=panda/planning_scene_world")
    #sys.argv.append("joint_trajectory_controller:=panda/position_joint_trajectory_controller")
    moveit_commander.roscpp_initialize(sys.argv)
    rospy.init_node('panda_shell', anonymous=True)
    manipulator = Manipulator()
    push_action = Push(manipulator)

    while True:
        raw = raw_input('panda@shell:$ ')
        if len(raw) == 0:
            continue
        cmd_input = raw.split(' ')
        cmd = cmd_input[0]
        if cmd == 'exit':
            break
        elif cmd == 'get_pose':
            print manipulator.arm.get_pose()
        elif cmd == 'get_rotation':
            print manipulator.arm.get_rotation()
        elif cmd == 'change_arm_joint_angles':
            args = cmd_input[1]
            angles = [float(num) for num in args.split(',')]
            manipulator.arm.change_joint_angles(angles)
            manipulator.arm.ang_cmd(angles, 5.0)
        elif cmd == 'test':
            manipulator.arm.test_joint_plan()
        elif cmd == 'get_joints':
            print manipulator.arm.get_joints(ik=False)
        elif cmd == 'go_home':
            manipulator.arm.go_home()
        elif cmd == 'execute_trajectory':
            args = cmd_input[1]
            angles = [float(num) for num in args.split(',')]
            manipulator.arm.execute_trajectory(angles, [1.0])
        elif cmd == 'close_gripper':
            manipulator.hand.close_gripper()
        elif cmd == 'open_gripper':
            manipulator.hand.open_gripper()
        elif cmd == 'get_state':
            print manipulator.arm.get_state()
        elif cmd == 'test_poses_plan':
            p1 = [
                0.109784330654, -0.201825250008, 0.927634606574,
                0.953892131709, -0.259908849954, 0.112249454584,
                0.0996857598901
            ]
            manipulator.arm.plan_poses([p1])
        elif cmd == 'test_jt':
            # EXERCISE WITH CAUTION
            manipulator.arm.execute_trajectory(
                [[
                    -0.0029068310484290124, -0.5389024951798576,
                    -0.32719744423457553, -1.0994862112317767,
                    -0.46650070729425974, 0.8834752980981554,
                    0.6584624329124178
                ],
                 [
                     0.6360157456696034, -0.1287396351950509,
                     -0.854471571615764, -1.1812223290034702,
                     -0.2326772375021662, 1.8844526242188044,
                     0.6579868964978627
                 ],
                 [
                     0.6102343267330101, 0.15414944928033011,
                     -0.8639917395796095, -0.8486092205047607,
                     -0.23309919845206398, 1.9201719971043723,
                     0.6168578206987253
                 ], [0, 0, 0, 0, 0, 0, 0.75]], [2, 4, 6, 9])
        elif cmd == 'get_fk':
            print manipulator.arm.get_FK()
        elif cmd == 'get_ik':
            print manipulator.arm.get_joints(ik=True)
        elif cmd == 'home':
            manipulator.arm.execute_trajectory([[0, 0, 0, 0, 0, 0, 0.75]], [5])
        elif cmd == 'gc':
            manipulator.arm.gravity_compensation()
        elif cmd == 'exit_gc':
            manipulator.arm.exit_gravity_compensation()
        elif cmd == 'close_gripper':
            manipulator.hand.close_gripper()
        elif cmd == 'open_gripper':
            manipulator.hand.open_gripper()
Beispiel #22
0
from yaml import safe_load

from sys import exit

from frontend import Frontend
from manipulator import Manipulator
from udp_comms import UDPComms

if __name__ == "__main__":
    # TODO: XInput doesn't work with *nix devices, so we need to look into a different module

    try:
        with open("config/config.yml") as f:
            config = safe_load(f)
    except:
        print("Please copy config/template.yml to config/config.yml")
        exit(0)

    comms = UDPComms(config, debug=True)

    frontend = Frontend()
    manipulator = Manipulator()

    manipulator.start()
    frontend.start()
Beispiel #23
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from werkzeug.wrappers import Request, Response
from werkzeug.serving import run_simple
from jsonrpc import JSONRPCResponseManager, dispatcher
from manipulator import Manipulator
from log import logger
import logging
from action.send_wx_message import send_wx_message
from pyautogui import screenshot


werkzeug_log = logging.getLogger("werkzeug")
werkzeug_log.info = werkzeug_log.debug


# 我的机械手
manipulator = Manipulator()


@dispatcher.add_method
def foobar(**kwargs):
    return kwargs["foo"] + kwargs["bar"]


# 设置机械助手位置
def set_position(x, y):
    print('debug: 设置窗口位置', x, y)


# 获取机械助手位置
def get_position():
     return {
Beispiel #24
0
]
objects = [
    p.loadURDF("cube_small.urdf", 0.950000, -0.100000, 0.700000, 0.000000,
               0.000000, 0.707107, 0.707107)
]
objects = [
    p.loadURDF("sphere_small.urdf", 0.850000, -0.400000, 0.700000, 0.000000,
               0.000000, 0.707107, 0.707107)
]
objects = [
    p.loadURDF("duck_vhacd.urdf", 0.850000, -0.400000, 0.900000, 0.000000,
               0.000000, 0.707107, 0.707107)
]

# Initialize the manipulator class
manipulator = Manipulator(jaco, cid, endEffectorIndex, 'p', [6, 7, 8])
#jointPositions=[ 0, 3.14, 3.14/2, -3.14/2, -3.14/2, 0, 0, 0, 0] #set joint position goal
jointPositions = [0, 3.14, 3.14 / 2, -3.14 / 2, 0, 0, 0, 0,
                  0]  # set joint position goal
manipulator.set_joint_position_goal(jointPositions)
manipulator.update()  #update joint position
time.sleep(1)
pose = manipulator.get_end_effector_pose()
goal_pos = pose[0:3]
goal_rot = pose[3:7]

while (1):

    # Check key press
    cmd = update_keys()
Beispiel #25
0
from pbm import Pbm
from mask import Mask
from manipulator import Manipulator
from text import Text
# Exemplo: Imagens/grupo_07_imagem_1_linhas_30_colunas_2_palavras_277.pbm
path = input('Digite o caminho do arquivo: ')
pbm = Pbm(path)
mask = Mask('Mascaras/mask-dilation.txt')

manipulator = Manipulator(pbm)
manipulator.applyMedian()
manipulator.applyDilation(mask)

text = Text(pbm)
text.markWords()
text.showInfo()

name = path.split('.')[0].split('/')[1]
pbm.save(name)
Beispiel #26
0
    p.configureDebugVisualizer(p.COV_ENABLE_SHADOWS, 0)
    p.setGravity(0, 0, -10)
    p.setRealTimeSimulation(1)

    # Get the current directory
    currentdir = os.path.dirname(os.path.abspath(inspect.getfile(inspect.currentframe())))  # get current directory

    # Spawn the Jaco manipulator
    armStartPos = [1, 0, 0.1]
    armStartOrientation = p.getQuaternionFromEuler([0, 0, 0])
    endEffectorIndex = 8
    jaco = [p.loadURDF(currentdir + "/models/urdf/jaco.urdf")]  # load arm
    p.resetBasePositionAndOrientation(jaco[0], armStartPos, armStartOrientation)

    # Initialize the manipulator class
    manipulator = Manipulator(jaco, cid, endEffectorIndex, 'p')
    jointPositions = [0, 3.14, 3.14 / 2, -3.14 / 2, 0, 0, 0, 0, 0]  # set joint position goal
    manipulator.set_joint_position_goal(jointPositions)
    manipulator.update()  # update joint position
    time.sleep(1)

    # Spawn environment
    p.loadURDF("plane.urdf", 0.000000, 0.000000, 0.000000, 0.000000, 0.000000, 0.000000, 1.000000)  # load plane
    #p.loadURDF("table/table.urdf", 0.500000,-0.200000,0.000000,0.000000,0.000000,0,1)
    #objects = [p.loadURDF("jenga/jenga.urdf", 1.300000,-0.700000,0.750000,0.000000,0.707107,0.000000,0.707107)]
    #objects = [p.loadURDF("jenga/jenga.urdf", 1.200000,-0.700000,0.750000,0.000000,0.707107,0.000000,0.707107)]
    #objects = [p.loadURDF("jenga/jenga.urdf", 1.100000,-0.700000,0.750000,0.000000,0.707107,0.000000,0.707107)]
    #objects = [p.loadURDF("jenga/jenga.urdf", 1.000000,-0.700000,0.750000,0.000000,0.707107,0.000000,0.707107)]
    #objects = [p.loadURDF("jenga/jenga.urdf", 0.900000,-0.700000,0.750000,0.000000,0.707107,0.000000,0.707107)]
    #objects = [p.loadSDF("kiva_shelf/model.sdf")]
    p.loadURDF("sphere2.urdf", 0.000000, 0.000000, 0.000000, 0.000000, 0.000000, 0.000000, 1.000000)
Beispiel #27
0
            clear = True
            i += 1
        elif sys.argv[i] == "--gui" or sys.argv[i] == "-G":
            some = True
            gui = True
            i += 1
    if not some:
        usage()


#main

manageFlag()

if gui:
    g = Gui()
elif conf != "":
    ce = CompilationEngine(conf)
    m = Manipulator(conf)
    if clear:
        ce.clear()
    else:
        m.generateSource()
        ce.createExes()
        complist = ce.getReport()
        vt = VirusTotal()
        report = vt.getScore(complist)
        print(complist)
        print(report)
else:
    usage()
Beispiel #28
0
def create_manipulator(urdf_path, ee_ind, base_pos, base_rot):
    jaco = [p.loadURDF(urdf_path)]  # load arm
    p.resetBasePositionAndOrientation(jaco[0], base_pos, base_rot)
    manipulator = Manipulator(jaco, cid, ee_ind, 'p')
    return manipulator
Beispiel #29
0
import sys
import os
from manipulator import Manipulator

# pylint: disable=no-name-in-module

if __name__ == '__main__':

    for arg in sys.argv[1:]:

        if arg.find('--getdir') == 0:
            print Manipulator().get_data_path()
            run_test = False

        elif arg.find('--start') == 0:
            Manipulator().start()
            run_test = False

        elif arg.find('--stop') == 0:
            Manipulator().stop()
            run_test = False