コード例 #1
0
    def fn(robot_name, obj_name, obj_pose, obj_grasp):
        robot = task.mbp.GetModelInstanceByName(robot_name)
        joints = get_movable_joints(task.mbp, robot)
        collision_pairs = set(
            product(bodies_from_models(task.mbp, [robot, task.gripper]),
                    fixed))
        collision_fn = get_collision_fn(
            task.diagram,
            task.diagram_context,
            task.mbp,
            task.scene_graph,
            joints,
            collision_pairs=collision_pairs)  # TODO: while holding

        gripper_pose = obj_pose.transform.multiply(
            obj_grasp.transform.inverse())
        end_position = gripper_pose.multiply(approach_vector) + world_vector
        translation = end_position - gripper_pose.translation()
        gripper_path = list(
            interpolate_translation(gripper_pose,
                                    translation,
                                    step_size=step_size))

        attempts = 0
        last_success = 0
        while (attempts - last_success) < max_failures:
            attempts += 1
            obj_pose.assign(context)

            if door_bodies:
                for door_body in door_bodies:
                    positions = get_door_positions(door_body, DOOR_OPEN)
                    for door_joint in get_movable_joints(
                            task.plant, door_body.model_instance()):
                        if door_joint.child_body() == door_body:
                            set_joint_positions([door_joint], context,
                                                positions)

            path = plan_frame_motion(task.plant,
                                     joints,
                                     gripper_frame,
                                     gripper_path,
                                     initial_guess=initial_guess,
                                     collision_fn=collision_fn)
            if path is None:
                continue
            traj = Trajectory([Conf(joints, q) for q in path],
                              attachments=[obj_grasp])
            conf = traj.path[-1]
            yield (conf, traj)
            last_success = attempts
コード例 #2
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    def fn(robot_name, door_name, door_conf1, door_conf2):
        robot = task.mbp.GetModelInstanceByName(robot_name)
        robot_joints = get_movable_joints(task.mbp, robot)

        door_body = task.mbp.GetBodyByName(door_name)
        door_joints = door_conf1.joints
        combined_joints = robot_joints + door_joints
        if not np.allclose(get_door_positions(door_body, DOOR_CLOSED),
                           door_conf1.positions):
            return

        combined_waypoints = [
            list(home_conf) + list(door_conf.positions)
            for door_conf in [door_conf1, door_conf2]
        ]
        combined_joint_path = plan_waypoints_joint_motion(
            combined_joints, combined_waypoints, collision_fn=lambda q: False)
        if combined_joint_path is None:
            return

        robot_conf1 = Conf(robot_joints, home_conf)
        robot_conf2 = robot_conf1
        traj = Trajectory([
            Conf(combined_joints, combined_conf)
            for combined_conf in combined_joint_path
        ],
                          force_control=True)
        yield (robot_conf1, robot_conf2, traj)
コード例 #3
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def get_open_trajectory(plant, gripper):
    gripper_joints = get_movable_joints(plant, gripper)
    gripper_extend_fn = get_extend_fn(gripper_joints)
    gripper_closed_conf = get_close_wsg50_positions(plant, gripper)
    gripper_path = list(
        gripper_extend_fn(gripper_closed_conf,
                          get_open_wsg50_positions(plant, gripper)))
    gripper_path.insert(0, gripper_closed_conf)
    return Trajectory(Conf(gripper_joints, q) for q in gripper_path)
コード例 #4
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    def fn(robot_name, conf1, conf2, fluents=[]):
        robot = task.mbp.GetModelInstanceByName(robot_name)
        joints = get_movable_joints(task.mbp, robot)

        moving = bodies_from_models(task.mbp, [robot, gripper])
        obstacles = set(task.fixed_bodies())
        attachments = parse_fluents(fluents, context, obstacles)
        for grasp in attachments:
            moving.update(grasp.bodies)
        obstacles -= moving

        if teleport:
            traj = Trajectory([conf1, conf2], attachments=attachments)
            return (traj, )

        collision_pairs = set(product(moving,
                                      obstacles)) if collisions else set()
        collision_fn = get_collision_fn(task.diagram,
                                        task.diagram_context,
                                        task.mbp,
                                        task.scene_graph,
                                        joints,
                                        collision_pairs=collision_pairs,
                                        attachments=attachments)
        #sample_fn = get_sample_fn(joints, start_conf=conf1.positions,
        #                          end_conf=conf2.positions, collision_fn=collision_fn)
        sample_fn = None

        open_wsg50_gripper(task.mbp, context, gripper)
        path = plan_joint_motion(joints,
                                 conf1.positions,
                                 conf2.positions,
                                 sample_fn=sample_fn,
                                 collision_fn=collision_fn,
                                 restarts=10,
                                 iterations=75,
                                 smooth=50)
        #restarts=25, iterations=25, smooth=0) # Disabled smoothing to see the path

        if path is None:
            return None
        # Sample within the ellipsoid
        traj = Trajectory([Conf(joints, q) for q in path],
                          attachments=attachments)
        return (traj, )
コード例 #5
0
ファイル: iiwa_utils.py プロジェクト: atwang16/6-881-examples
def open_wsg50_gripper(mbp, context, model_index):
    set_joint_positions(get_movable_joints(mbp, model_index), context,
                        get_open_wsg50_positions(mbp, model_index))
コード例 #6
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ファイル: iiwa_utils.py プロジェクト: atwang16/6-881-examples
def close_wsg50_gripper(mbp, context, model_index):  # 0.05
    set_joint_positions(get_movable_joints(mbp, model_index), context,
                        get_close_wsg50_positions(mbp, model_index))
コード例 #7
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def load_dope(time_step=0.0,
              dope_path=DOPE_PATH,
              goal_name='soup',
              is_visualizing=True,
              **kwargs):
    station = ManipulationStation(time_step, IiwaCollisionModel.kBoxCollision)
    plant = station.get_mutable_multibody_plant()
    scene_graph = station.get_mutable_scene_graph()
    station.AddCupboard()
    robot = plant.GetModelInstanceByName('iiwa')
    gripper = plant.GetModelInstanceByName('gripper')
    cupboard = plant.GetModelInstanceByName('cupboard')

    ceiling = AddModelFromSdfFile(file_name=PLANE_FILE_PATH,
                                  model_name="ceiling",
                                  plant=plant,
                                  scene_graph=scene_graph)
    weld_to_world(plant, ceiling,
                  create_transform(translation=[0.3257, 0, 1.1]))

    pose_from_name = read_poses_from_file(dope_path)
    model_from_name = {}
    for name in pose_from_name:
        model_from_name[name] = AddModelFromSdfFile(
            file_name=get_sdf_path(name),
            model_name=name,
            plant=plant,
            scene_graph=scene_graph)
    station.Finalize()

    door_names = [
        'left_door',
    ]
    doors = [plant.GetBodyByName(name).index() for name in door_names]

    initial_positions = {
        plant.GetJointByName('left_door_hinge'): -DOOR_CLOSED,
        plant.GetJointByName('right_door_hinge'): DOOR_CLOSED,
    }
    initial_conf = [0, 0, 0, -1.75, 0, 1.0, 0]
    initial_positions.update(
        zip(get_movable_joints(plant, robot), initial_conf))

    initial_poses = {
        model_from_name[name]: pose_from_name[name]
        for name in pose_from_name
    }

    goal_shelf = 'shelf_lower'
    print('Goal shelf:', goal_shelf)
    goal_surface = Surface(plant, cupboard, 'top_and_bottom',
                           CUPBOARD_SHELVES.index(goal_shelf))
    surfaces = [
        goal_surface,
    ]
    item = model_from_name[goal_name]

    diagram, state_machine = build_manipulation_station(
        station, visualize=is_visualizing, **kwargs)
    task = Task(
        diagram,
        plant,
        scene_graph,
        robot,
        gripper,
        movable=[item],
        surfaces=surfaces,
        doors=doors,
        initial_positions=initial_positions,
        initial_poses=initial_poses,
        #goal_holding=[item],
        goal_on=[(item, goal_surface)],
        reset_robot=True,
        reset_doors=False)
    task.set_initial()
    task.station = station

    return task, diagram, state_machine
コード例 #8
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def load_station(time_step=0.0, **kwargs):
    station = ManipulationStation(time_step, IiwaCollisionModel.kBoxCollision)
    plant = station.get_mutable_multibody_plant()
    scene_graph = station.get_mutable_scene_graph()
    station.AddCupboard()
    robot = plant.GetModelInstanceByName('iiwa')
    gripper = plant.GetModelInstanceByName('gripper')
    table = plant.GetModelInstanceByName('table')
    cupboard = plant.GetModelInstanceByName('cupboard')

    model_name = 'soup'
    item = AddModelFromSdfFile(file_name=get_sdf_path(model_name),
                               model_name=model_name,
                               plant=plant,
                               scene_graph=scene_graph)
    ceiling = AddModelFromSdfFile(file_name=PLANE_FILE_PATH,
                                  model_name="ceiling",
                                  plant=plant,
                                  scene_graph=scene_graph)
    weld_to_world(plant, ceiling,
                  create_transform(translation=[0.3257, 0, 1.0]))
    station.Finalize()

    diagram, state_machine = build_manipulation_station(station, **kwargs)
    box_from_geom = get_box_from_geom(scene_graph)

    table_body = plant.GetBodyByName('amazon_table', table)
    table_index = 0
    #table_surface = Surface(plant, table, table_body.name(), table_index),
    start_z = get_z_placement(plant, box_from_geom, item, table_body,
                              table_index)

    shelf_body = plant.GetBodyByName('top_and_bottom', cupboard)
    shelf_index = CUPBOARD_SHELVES.index('shelf_lower')
    goal_surface = Surface(plant, cupboard, shelf_body.name(), shelf_index)

    door_names = [
        'left_door',
        #'right_door',
    ]
    doors = [plant.GetBodyByName(name).index() for name in door_names]

    initial_positions = {
        plant.GetJointByName('left_door_hinge'): -DOOR_CLOSED,
        plant.GetJointByName('right_door_hinge'): DOOR_CLOSED,
    }

    initial_conf = [0, 0, 0, -1.75, 0, 1.0, 0]
    initial_positions.update(
        zip(get_movable_joints(plant, robot), initial_conf))

    start_x, start_y, start_theta = 0.4, -0.2, np.pi / 2
    initial_poses = {
        item:
        create_transform(translation=[start_x, start_y, start_z],
                         rotation=[0, 0, start_theta]),
    }

    surfaces = [
        #table_surface,
        goal_surface,
    ]

    task = Task(
        diagram,
        plant,
        scene_graph,
        robot,
        gripper,
        movable=[item],
        surfaces=surfaces,
        doors=doors,
        initial_positions=initial_positions,
        initial_poses=initial_poses,
        #goal_holding=[item],
        goal_on=[(item, goal_surface)],
        #goal_poses=goal_poses,
        reset_robot=True,
        reset_doors=False)
    task.set_initial()
    task.station = station

    return task, diagram, state_machine
コード例 #9
0
    def fn(robot_name, door_name, door_conf1, door_conf2):
        """
        :param robot_name: The name of the robot (should be iiwa)
        :param door_name: The name of the door (should be left_door or right_door)
        :param door_conf1: The initial door configuration
        :param door_conf2: The final door configuration
        :return: A triplet composed of the initial robot configuration, final robot configuration,
                 and combined robot & door position trajectory to execute the pull
        """
        robot = task.mbp.GetModelInstanceByName(robot_name)
        robot_joints = get_movable_joints(task.mbp, robot)
        collision_pairs = set(
            product(bodies_from_models(task.mbp, [robot, task.gripper]),
                    fixed))
        collision_fn = get_collision_fn(task.diagram,
                                        task.diagram_context,
                                        task.mbp,
                                        task.scene_graph,
                                        robot_joints,
                                        collision_pairs=collision_pairs)

        door_body = task.mbp.GetBodyByName(door_name)
        door_joints = door_conf1.joints
        combined_joints = robot_joints + door_joints
        # The transformation from the door frame to the gripper frame that corresponds to grasping the door handle
        gripper_from_door = get_door_grasp(door_body, box_from_geom)

        extend_fn = get_extend_fn(door_joints,
                                  resolutions=step_size *
                                  np.ones(len(door_joints)))
        door_joint_path = [door_conf1.positions] + list(
            extend_fn(door_conf1.positions, door_conf2.positions))
        door_body_path = get_body_path(door_body, context, door_joints,
                                       door_joint_path)
        gripper_body_path = [
            door_pose.multiply(gripper_from_door.inverse())
            for door_pose in door_body_path
        ]

        for _ in range(max_attempts):
            robot_joint_waypoints = plan_workspace_motion(
                task.mbp,
                robot_joints,
                gripper_frame,
                gripper_body_path,
                collision_fn=collision_fn)
            if robot_joint_waypoints is None:
                continue
            combined_waypoints = [
                list(rq) + list(dq)
                for rq, dq in zip(robot_joint_waypoints, door_joint_path)
            ]
            combined_joint_path = plan_waypoints_joint_motion(
                combined_joints,
                combined_waypoints,
                collision_fn=lambda q: False)
            if combined_joint_path is None:
                continue

            # combined_joint_path is a joint position path for the concatenated robot and door joints.
            # It should be a list of 8 DOF configurations (7 robot DOFs + 1 door DOF).
            # Additionally, combined_joint_path[0][len(robot_joints):] should equal door_conf1.positions
            # and combined_joint_path[-1][len(robot_joints):] should equal door_conf2.positions.

            robot_conf1 = Conf(robot_joints,
                               combined_joint_path[0][:len(robot_joints)])
            robot_conf2 = Conf(robot_joints,
                               combined_joint_path[-1][:len(robot_joints)])
            traj = Trajectory(
                Conf(combined_joints, combined_conf)
                for combined_conf in combined_joint_path)
            yield (robot_conf1, robot_conf2, traj)
コード例 #10
0
ファイル: run.py プロジェクト: atwang16/6-881-examples
def get_pddlstream_problem(task,
                           context,
                           collisions=True,
                           use_impedance=False):
    domain_pddl = read(get_file_path(__file__, 'domain.pddl'))
    stream_pddl = read(get_file_path(__file__, 'stream.pddl'))
    constant_map = {}

    plant = task.mbp
    robot = task.robot
    robot_name = get_model_name(plant, robot)

    world = plant.world_frame()  # mbp.world_body()
    robot_joints = get_movable_joints(plant, robot)
    robot_conf = Conf(robot_joints, get_configuration(plant, context, robot))
    init = [
        ('Robot', robot_name),
        ('CanMove', robot_name),
        ('Conf', robot_name, robot_conf),
        ('AtConf', robot_name, robot_conf),
        ('HandEmpty', robot_name),
    ]
    goal_literals = []
    if task.reset_robot:
        goal_literals.append(('AtConf', robot_name, robot_conf), )

    for obj in task.movable:
        obj_name = get_model_name(plant, obj)
        obj_pose = Pose(plant, world, obj, get_world_pose(plant, context, obj))
        init += [('Graspable', obj_name), ('Pose', obj_name, obj_pose),
                 ('InitPose', obj_name, obj_pose),
                 ('AtPose', obj_name, obj_pose)]
        for surface in task.surfaces:
            init += [('Stackable', obj_name, surface)]

    for surface in task.surfaces:
        surface_name = get_model_name(plant, surface.model_index)
        if 'sink' in surface_name:
            init += [('Sink', surface)]
        if 'stove' in surface_name:
            init += [('Stove', surface)]

    for door in task.doors:
        door_body = plant.tree().get_body(door)
        door_name = door_body.name()
        door_joints = get_parent_joints(plant, door_body)
        door_conf = Conf(door_joints,
                         get_joint_positions(door_joints, context))
        init += [
            ('Door', door_name),
            ('Conf', door_name, door_conf),
            ('AtConf', door_name, door_conf),
        ]
        for positions in [get_door_positions(door_body, DOOR_OPEN)]:
            conf = Conf(door_joints, positions)
            init += [('Conf', door_name, conf)]
        if task.reset_doors:
            goal_literals += [('AtConf', door_name, door_conf)]

    for obj, transform in task.goal_poses.items():
        obj_name = get_model_name(plant, obj)
        obj_pose = Pose(plant, world, obj, transform)
        init += [
            ('Pose', obj_name, obj_pose),
        ]
        goal_literals.append(('AtPose', obj_name, obj_pose))
    for obj in task.goal_holding:
        goal_literals.append(
            ('Holding', robot_name, get_model_name(plant, obj)))
    for obj, surface in task.goal_on:
        goal_literals.append(('On', get_model_name(plant, obj), surface))
    for obj in task.goal_cooked:
        goal_literals.append(('Cooked', get_model_name(plant, obj)))

    goal = And(*goal_literals)
    print('Initial:', init)
    print('Goal:', goal)

    stream_map = {
        'sample-reachable-grasp':
        from_gen_fn(
            get_reachable_grasp_gen_fn(task, context, collisions=collisions)),
        'sample-reachable-pose':
        from_gen_fn(
            get_reachable_pose_gen_fn(task, context, collisions=collisions)),
        'plan-ik':
        from_gen_fn(get_ik_gen_fn(task, context, collisions=collisions)),
        'plan-motion':
        from_fn(get_motion_fn(task, context, collisions=collisions)),
        'TrajPoseCollision':
        get_collision_test(task, context, collisions=collisions),
        'TrajConfCollision':
        get_collision_test(task, context, collisions=collisions),
    }
    if use_impedance:
        stream_map['plan-pull'] = from_gen_fn(
            get_force_pull_fn(task, context, collisions=collisions))
    else:
        stream_map['plan-pull'] = from_gen_fn(
            get_pull_fn(task, context, collisions=collisions))
    #stream_map = 'debug' # Runs PDDLStream with "placeholder streams" for debugging

    return PDDLProblem(domain_pddl, constant_map, stream_pddl, stream_map,
                       init, goal)