示例#1
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    def test_prismatic_joint(self):
        ks = ArticulationModel()

        a  = Position('a')
        b  = Position('b')
        c  = Position('c')
        parent_pose     = frame3_axis_angle(vector3(0,1,0), a, point3(0, b, 5))
        joint_transform = translation3(7, -5, 33)
        axis            = vector3(1, -3, 7)
        position        = c
        child_pose      = parent_pose * joint_transform * translation3(*(axis[:,:3] * position))

        ks.apply_operation('create parent', CreateComplexObject(Path('parent'), KinematicLink('', parent_pose)))
        ks.apply_operation('create child', CreateComplexObject(Path('child'),  KinematicLink('', se.eye(4))))
        self.assertTrue(ks.has_data('parent/pose'))
        self.assertTrue(ks.has_data('child/pose'))

        ks.apply_operation('connect parent child', 
                           SetPrismaticJoint(Path('parent/pose'), 
                                             Path('child/pose'), 
                                             Path('fixed_joint'), 
                                             joint_transform,
                                             axis,
                                             position,
                                             -1, 2, 0.5))
        self.assertTrue(ks.has_data('fixed_joint'))
        self.assertEquals(ks.get_data('child/pose'), child_pose)
示例#2
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    def test_fixed_joint(self):
        ks = ArticulationModel()

        a  = Position('a')
        b  = Position('b')
        parent_pose     = frame3_axis_angle(vector3(0,1,0), a, point3(0, b, 5))
        joint_transform = translation3(7, -5, 33)
        child_pose      = parent_pose * joint_transform

        ks.apply_operation('create parent', CreateComplexObject(Path('parent'), KinematicLink('', parent_pose)))
        ks.apply_operation('create child', CreateComplexObject(Path('child'),  KinematicLink('', se.eye(4))))
        self.assertTrue(ks.has_data('parent/pose'))
        self.assertTrue(ks.has_data('child/pose'))

        ks.apply_operation('connect parent child', SetFixedJoint(Path('parent/pose'), Path('child/pose'), Path('fixed_joint'), joint_transform))
        self.assertTrue(ks.has_data('fixed_joint'))
        self.assertEquals(ks.get_data('child/pose'), child_pose)
示例#3
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    def test_revolute_and_continuous_joint(self):
        ks = ArticulationModel()

        a  = Position('a')
        b  = Position('b')
        c  = Position('c')
        parent_pose     = frame3_axis_angle(vector3(0,1,0), a, point3(0, b, 5))
        joint_transform = translation3(7, -5, 33)
        axis            = vector3(1, -3, 7)
        axis            = axis / norm(axis)
        position        = c
        child_pose      = parent_pose * joint_transform * rotation3_axis_angle(axis, position)

        ks.apply_operation('create parent', CreateComplexObject(Path('parent'), KinematicLink('', parent_pose)))
        ks.apply_operation('create child', CreateComplexObject(Path('child'),  KinematicLink('', se.eye(4))))
        self.assertTrue(ks.has_data('parent/pose'))
        self.assertTrue(ks.has_data('child/pose'))

        ks.apply_operation('connect parent child', 
                           SetRevoluteJoint(Path('parent/pose'), 
                                            Path('child/pose'), 
                                            Path('fixed_joint'), 
                                            joint_transform,
                                            axis,
                                            position,
                                            -1, 2, 0.5))
        self.assertTrue(ks.has_data('fixed_joint'))
        self.assertEquals(ks.get_data('child/pose'), child_pose)
        ks.remove_operation('connect parent child')
        ks.apply_operation('connect parent child',
                           SetContinuousJoint(Path('parent/pose'), 
                                              Path('child/pose'), 
                                              Path('fixed_joint'), 
                                              joint_transform,
                                              axis,
                                              position, 0.5))
示例#4
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    def track(self, model_path, alias):
        with self.lock:
            if type(model_path) is not str:
                model_path = str(model_path)

            start_tick = len(self.tracked_poses) == 0 and self._use_timer

            if model_path not in self.tracked_poses:
                syms = [
                    Position(Path(model_path) + (x, ))
                    for x in ['x', 'y', 'z', 'qx', 'qy', 'qz', 'qw']
                ]

                def rf(msg, state):
                    state[syms[0]] = msg.position.x
                    state[syms[1]] = msg.position.y
                    state[syms[2]] = msg.position.z
                    state[syms[3]] = msg.orientation.x
                    state[syms[4]] = msg.orientation.y
                    state[syms[5]] = msg.orientation.z
                    state[syms[6]] = msg.orientation.w

                def process_model_update(data):
                    self._generate_pose_constraints(model_path, data)

                axis = vector3(*syms[:3])
                self.aliases[alias] = model_path
                self.tracked_poses[model_path] = TrackerEntry(
                    frame3_quaternion(*syms), rf, process_model_update)
                self._unintialized_poses.add(model_path)

                if type(self.km_client) == ModelClient:
                    self.km_client.register_on_model_changed(
                        Path(model_path), process_model_update)
                else:
                    process_model_update(self.km_client.get_data(model_path))

            if start_tick:
                self.timer = rospy.Timer(rospy.Duration(1.0 / 50),
                                         self.cb_tick)
        mesh='package://kineverse_experiment_world/urdf/faucet_head.obj')
    rb_head = RigidBody(Path('world'),
                        cm.eye(4),
                        geometry={0: geom_head},
                        collision={0: geom_head})

    geom_base = Geometry(
        Path('base'),
        cm.eye(4),
        'mesh',
        mesh='package://kineverse_experiment_world/urdf/faucet_base.obj')
    rb_base = RigidBody(Path('world'),
                        cm.eye(4),
                        geometry={0: geom_base},
                        collision={0: geom_base})

    km.apply_operation('create base', OP_CCO(Path('base'), rb_base))
    km.apply_operation('create head', OP_CCO(Path('head'), rb_head))

    km.apply_operation(
        'connect base head',
        OP_SBJ(Path('base/pose'), Path('head/pose'), Path('ball_joint'),
               translation3(0.006, 0, 0.118), Position('axis_x'),
               Position('axis_y'), Position('axis_z'), 0.2, 1.2))

    km.clean_structure()
    km.dispatch_events()

    with open('faucet.json', 'w') as f:
        km.save_to_file(f)
示例#6
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def P(n, x, i):
    return Position('{}_{}_{}'.format(n, x, i))