Ejemplo n.º 1
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def create_beamline():
    perp_to_floor = 90.0
    beam_start = PositionAndAngle(y=0, z=0, angle=-2.5)
    s0 = Component("s0", movement_strategy=LinearMovement(0, 0, perp_to_floor))
    s1 = Component("s1", movement_strategy=LinearMovement(0, 1, perp_to_floor))
    frame_overlap_mirror = ReflectingComponent(
        "FOM", movement_strategy=LinearMovement(0, 2, perp_to_floor))
    frame_overlap_mirror.enabled = False
    polarising_mirror = ReflectingComponent("Polarising mirror",
                                            movement_strategy=LinearMovement(
                                                0, 3, perp_to_floor))
    polarising_mirror.enabled = False
    s2 = Component("s2", movement_strategy=LinearMovement(0, 4, perp_to_floor))
    ideal_sample_point = ReflectingComponent("Ideal Sample Point",
                                             movement_strategy=LinearMovement(
                                                 0, 5, perp_to_floor))
    s3 = Component("s3", movement_strategy=LinearMovement(0, 6, perp_to_floor))
    analyser = ReflectingComponent("analyser",
                                   movement_strategy=LinearMovement(
                                       0, 7, perp_to_floor))
    analyser.enabled = False
    s4 = Component("s4", movement_strategy=LinearMovement(0, 8, perp_to_floor))
    detector = Component("detector",
                         movement_strategy=LinearMovement(
                             0, 10, perp_to_floor))

    theta = Theta("theta", ideal_sample_point)
    beamline = Beamline([
        s0, s1, frame_overlap_mirror, polarising_mirror, s2,
        ideal_sample_point, s3, analyser, s4, detector
    ], [theta], [])
    beamline.set_incoming_beam(beam_start)
    beamline.active_mode = BeamlineMode("NR", ["theta"])

    return beamline
Ejemplo n.º 2
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    def test_GIVEN_unpolarised_mode_and_beamline_parameters_are_set_WHEN_move_THEN_components_move_onto_beam_line(self):
        slit2 = Component("s2", LinearMovement(0, z_position=10, angle=90))
        ideal_sample_point = ReflectingComponent("ideal_sample_point", LinearMovement(0, z_position=20, angle=90))
        detector = Component("detector", LinearMovement(0, z_position=30, angle=90))
        components = [slit2, ideal_sample_point, detector]

        parameters = [
            TrackingPosition("slit2height", slit2),
            TrackingPosition("height", ideal_sample_point),
            Theta("theta", ideal_sample_point),
            TrackingPosition("detectorheight", detector)]
                      #parameters["detectorAngle": TrackingAngle(detector)
        beam = PositionAndAngle(0, 0, -45)
        beamline = Beamline(components, parameters, [], [DataMother.BEAMLINE_MODE_NEUTRON_REFLECTION])
        beamline.set_incoming_beam(beam)
        beamline.active_mode = DataMother.BEAMLINE_MODE_NEUTRON_REFLECTION
        beamline.parameter("theta").sp_no_move = 45
        beamline.parameter("height").sp_no_move = 0
        beamline.parameter("slit2height").sp_no_move = 0
        beamline.parameter("detectorheight").sp_no_move = 0

        beamline.move = 1

        assert_that(slit2.sp_position(), is_(position(Position(-10, 10))))
        assert_that(ideal_sample_point.sp_position(), is_(position(Position(-20, 20))))
        assert_that(detector.sp_position(), is_(position(Position(-10, 30))))
    def test_GIVEN_beam_line_contains_one_passive_component_WHEN_beam_set_THEN_component_has_beam_out_same_as_beam_in(
            self):
        beam_start = PositionAndAngle(y=0, z=0, angle=0)
        jaws = Component("jaws", movement_strategy=LinearMovement(0, 2, 90))
        beamline = Beamline([jaws], [], [], [])
        beamline.set_incoming_beam(beam_start)

        result = beamline[0].get_outgoing_beam()

        assert_that(result, is_(position_and_angle(beam_start)))
Ejemplo n.º 4
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def create_beamline():
    beam_angle_natural = -45
    beam_start = PositionAndAngle(0.0, 0.0, beam_angle_natural)
    perp_to_floor = 90.0

    # COMPONENTS
    # s1 = Component("s1", LinearMovement(0.0, 7.3025, perp_to_beam_angle))
    # s2 = Component("s2", LinearMovement(0.0, 9.6885, perp_to_beam_angle))
    # s3 = Component("s3", LinearMovement(0.0, 10.651, perp_to_beam_angle))
    # s4 = Component("s4", LinearMovement(0.0, 11.983, perp_to_beam_angle))
    # super_mirror = ReflectingComponent("sm", LinearMovement(0.0, 7.7685, perp_to_beam_angle))
    # sample = ReflectingComponent("sample", LinearMovement(0.0, 10.25, perp_to_beam_angle))
    # point_det = TiltingJaws("pdet", LinearMovement(0.0, 12.113, perp_to_beam_angle))
    s1 = Component("s1", LinearMovement(0.0, 1, perp_to_floor))
    super_mirror = ReflectingComponent("sm",
                                       LinearMovement(0.0, 5, perp_to_floor))
    s2 = Component("s2", LinearMovement(0.0, 9, perp_to_floor))
    sample = ReflectingComponent("sample",
                                 LinearMovement(0.0, 10, perp_to_floor))
    s3 = Component("s3", LinearMovement(0.0, 15, perp_to_floor))
    s4 = Component("s4", LinearMovement(0.0, 19, perp_to_floor))
    point_det = TiltingJaws("det", LinearMovement(0.0, 20, perp_to_floor))
    comps = [s1, super_mirror, s2, sample, s3, s4, point_det]

    # BEAMLINE PARAMETERS
    sm_enabled = ComponentEnabled("smenabled", super_mirror, True)
    sm_angle = ReflectionAngle("smangle", super_mirror, True)
    slit2_pos = TrackingPosition("slit2pos", s2, True)
    sample_pos = TrackingPosition("samplepos", sample, True)
    theta = Theta("theta", sample, True)
    slit3_pos = TrackingPosition("slit3pos", s3, True)
    slit4_pos = TrackingPosition("slit4pos", s4, True)
    det = TrackingPosition("detpos", point_det, True)
    params = [
        sm_enabled, sm_angle, slit2_pos, sample_pos, theta, slit3_pos,
        slit4_pos, det
    ]

    nr_inits = {"smenabled": False, "smangle": 0.0}
    pnr_inits = {"smenabled": True, "smangle": 0.5}

    nr_mode = BeamlineMode(
        "nr",
        [param for param in PARAMS_FIELDS.keys() if param is not "smangle"],
        nr_inits)
    pnr_mode = BeamlineMode("pnr", PARAMS_FIELDS.keys(), pnr_inits)
    disabled_mode = BeamlineMode("disabled", [])

    modes = [nr_mode, pnr_mode, disabled_mode]

    # init beamline
    bl = Beamline(comps, params, [], modes)
    bl.set_incoming_beam(beam_start)
    bl.active_mode = nr_mode
    return bl, modes
 def setup_beamline(self, initial_mirror_angle, mirror_position,
                    beam_start):
     jaws = Component("jaws", movement_strategy=LinearMovement(0, 0, 90))
     mirror = ReflectingComponent("mirror",
                                  movement_strategy=LinearMovement(
                                      0, mirror_position, 90))
     mirror.angle = initial_mirror_angle
     jaws3 = Component("jaws3", movement_strategy=LinearMovement(0, 20, 90))
     beamline = Beamline([jaws, mirror, jaws3], [], [], [])
     beamline.set_incoming_beam(beam_start)
     return beamline, mirror
Ejemplo n.º 6
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    def test_GIVEN_mode_has_initial_value_for_param_not_in_beamline_WHEN_setting_mode_THEN_keyerror_raised(self):
        sm_angle = 0.0
        super_mirror = ReflectingComponent("super mirror", LinearMovement(z_position=10, y_position=0, angle=90))
        super_mirror.angle = sm_angle
        smangle = ReflectionAngle("smangle", super_mirror)
        smangle.sp_no_move = sm_angle
        sp_inits = {"nonsense name": sm_angle}
        beamline_mode = BeamlineMode("mode name", [smangle.name], sp_inits)
        beamline = Beamline([super_mirror], [smangle], [], [beamline_mode])

        with self.assertRaises(KeyError):
            beamline.active_mode = beamline_mode
Ejemplo n.º 7
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    def test_GIVEN_mode_has_initial_parameter_value_WHEN_setting_mode_THEN_component_sp_updated_but_rbv_unchanged(self):
        sm_angle = 0.0
        sm_angle_to_set = 45.0
        super_mirror = ReflectingComponent("super mirror", LinearMovement(z_position=10, y_position=0, angle=90))
        super_mirror.angle = sm_angle
        smangle = ReflectionAngle("smangle", super_mirror)
        smangle.sp_no_move = sm_angle
        sp_inits = {smangle.name: sm_angle_to_set}
        beamline_mode = BeamlineMode("mode name", [smangle.name], sp_inits)
        beamline = Beamline([super_mirror], [smangle], [], [beamline_mode])
        beamline.set_incoming_beam(PositionAndAngle(0, 0, 0))

        beamline.active_mode = beamline_mode

        assert_that(smangle.sp, is_(sm_angle_to_set))
        assert_that(smangle.sp_changed, is_(True))
        assert_that(super_mirror.angle, is_(sm_angle))
Ejemplo n.º 8
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    def beamline_with_3_empty_parameters():
        """

        Returns: a beamline with three empty parameters, all in a mode

        """
        one = EmptyBeamlineParameter("one")
        two = EmptyBeamlineParameter("two")
        three = EmptyBeamlineParameter("three")
        beamline_parameters = [one, two, three]
        mode = BeamlineMode("all", [
            beamline_parameter.name
            for beamline_parameter in beamline_parameters
        ])

        beamline = Beamline([], beamline_parameters, [], [mode])

        beamline.active_mode = mode

        return beamline_parameters, beamline
    def setUp(self):
        beam_start = PositionAndAngle(y=0, z=0, angle=2.5)
        s0 = Component("s0", movement_strategy=LinearMovement(0, 0, 90))
        s1 = Component("s1", movement_strategy=LinearMovement(0, 1, 90))
        frame_overlap_mirror = ReflectingComponent(
            "FOM", movement_strategy=LinearMovement(0, 2, 90))
        frame_overlap_mirror.enabled = False
        self.polarising_mirror = ReflectingComponent(
            "Polariser", movement_strategy=LinearMovement(0, 3, 90))
        self.polarising_mirror.enabled = False
        self.polarising_mirror.angle = 0
        s2 = Component("s2", movement_strategy=LinearMovement(0, 4, 90))
        self.ideal_sample_point = ReflectingComponent(
            "ideal sample point", movement_strategy=LinearMovement(0, 5, 90))
        s3 = Component("s3", movement_strategy=LinearMovement(0, 6, 90))
        analyser = ReflectingComponent("analyser",
                                       movement_strategy=LinearMovement(
                                           0, 7, 90))
        analyser.enabled = False
        s4 = Component("s4", movement_strategy=LinearMovement(0, 8, 90))
        detector = Component("detector",
                             movement_strategy=LinearMovement(0, 10, 90))

        theta = Theta("theta", self.ideal_sample_point)
        theta.sp_no_move = 0
        smangle = ReflectionAngle("smangle", self.polarising_mirror)
        smangle.sp_no_move = 0

        self.nr_mode = BeamlineMode("NR Mode", [theta.name])
        self.polarised_mode = BeamlineMode("NR Mode",
                                           [smangle.name, theta.name])

        self.beamline = Beamline([
            s0, s1, frame_overlap_mirror, self.polarising_mirror, s2,
            self.ideal_sample_point, s3, analyser, s4, detector
        ], [smangle, theta], [], [self.nr_mode, self.polarised_mode])
        self.beamline.set_incoming_beam(beam_start)
Ejemplo n.º 10
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    def test_GIVEN_a_mode_with_a_single_beamline_parameter_in_WHEN_move_THEN_beamline_parameter_is_calculated_on_move(self):
        angle_to_set = 45.0
        ideal_sample_point = ReflectingComponent("ideal_sample_point", LinearMovement(y_position=0, z_position=20, angle=90))
        theta = Theta("theta", ideal_sample_point)
        beamline_mode = BeamlineMode("mode name", [theta.name])
        beamline = Beamline([ideal_sample_point], [theta], [], [beamline_mode])
        beam = PositionAndAngle(0, 0, 0)

        theta.sp_no_move = angle_to_set
        beamline.set_incoming_beam(beam)
        beamline.active_mode = beamline_mode
        beamline.move = 1

        assert_that(ideal_sample_point.angle, is_(angle_to_set))
Ejemplo n.º 11
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    def test_GIVEN_parameter_in_mode_and_not_changed_and_no_previous_parameter_changed_WHEN_moving_beamline_THEN_parameter_unchanged(self):
        initial_s2_height = 0.0
        super_mirror = ReflectingComponent("sm", LinearMovement(0.0, 10, 90.0))
        s2 = Component("s2", LinearMovement(initial_s2_height, 20, 90.0))

        sm_angle = ReflectionAngle("smangle", super_mirror, True)
        slit2_pos = TrackingPosition("slit2pos", s2, True)

        mode = BeamlineMode("both_params", [sm_angle.name, slit2_pos.name])

        beamline = Beamline([super_mirror, s2], [sm_angle, slit2_pos], [], [mode])
        beamline.set_incoming_beam(PositionAndAngle(0, 0, 0))
        beamline.active_mode = mode

        beamline.move = 1

        assert_that(s2.sp_position().y, is_(initial_s2_height))
Ejemplo n.º 12
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    def test_GIVEN_parameter_changed_and_not_in_mode_and_no_previous_parameter_changed_WHEN_moving_beamline_THEN_parameter_moved_to_sp(self):
        initial_s2_height = 0.0
        target_s2_height = 1.0
        super_mirror = ReflectingComponent("sm", LinearMovement(0.0, 10, 90.0))
        s2 = Component("s2", LinearMovement(initial_s2_height, 20, 90.0))

        sm_angle = ReflectionAngle("smangle", super_mirror)
        slit2_pos = TrackingPosition("slit2pos", s2)

        empty_mode = BeamlineMode("empty", [])

        beamline = Beamline([super_mirror, s2], [sm_angle, slit2_pos], [], [empty_mode])
        beamline.set_incoming_beam(PositionAndAngle(0, 0, 0))
        beamline.active_mode = empty_mode

        slit2_pos.sp_no_move = target_s2_height
        beamline.move = 1

        assert_that(s2.sp_position().y, is_(target_s2_height))
Ejemplo n.º 13
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    def test_GIVEN_a_mode_with_a_two_beamline_parameter_in_WHEN_move_first_THEN_second_beamline_parameter_is_calculated_and_moved_to(self):
        angle_to_set = 45.0
        ideal_sample_point = ReflectingComponent("ideal_sample_point", LinearMovement(y_position=0, z_position=20, angle=90))
        theta = Theta("theta", ideal_sample_point)
        super_mirror = ReflectingComponent("super mirror", LinearMovement(y_position=0, z_position=10, angle=90))
        smangle = ReflectionAngle("smangle", super_mirror)

        beamline_mode = BeamlineMode("mode name", [theta.name, smangle.name])
        beamline = Beamline([super_mirror, ideal_sample_point], [smangle, theta], [], [beamline_mode])
        beam = PositionAndAngle(0, 0, 0)
        theta.sp_no_move = angle_to_set
        smangle.sp_no_move = 0
        beamline.set_incoming_beam(beam)
        beamline.active_mode = beamline_mode
        beamline.move = 1

        smangle_to_set = -10
        smangle.sp = smangle_to_set

        assert_that(ideal_sample_point.angle, is_(smangle_to_set*2 + angle_to_set))
class TestComponentBeamline(unittest.TestCase):
    def setUp(self):
        beam_start = PositionAndAngle(y=0, z=0, angle=2.5)
        s0 = Component("s0", movement_strategy=LinearMovement(0, 0, 90))
        s1 = Component("s1", movement_strategy=LinearMovement(0, 1, 90))
        frame_overlap_mirror = ReflectingComponent(
            "FOM", movement_strategy=LinearMovement(0, 2, 90))
        frame_overlap_mirror.enabled = False
        self.polarising_mirror = ReflectingComponent(
            "Polariser", movement_strategy=LinearMovement(0, 3, 90))
        self.polarising_mirror.enabled = False
        self.polarising_mirror.angle = 0
        s2 = Component("s2", movement_strategy=LinearMovement(0, 4, 90))
        self.ideal_sample_point = ReflectingComponent(
            "ideal sample point", movement_strategy=LinearMovement(0, 5, 90))
        s3 = Component("s3", movement_strategy=LinearMovement(0, 6, 90))
        analyser = ReflectingComponent("analyser",
                                       movement_strategy=LinearMovement(
                                           0, 7, 90))
        analyser.enabled = False
        s4 = Component("s4", movement_strategy=LinearMovement(0, 8, 90))
        detector = Component("detector",
                             movement_strategy=LinearMovement(0, 10, 90))

        theta = Theta("theta", self.ideal_sample_point)
        theta.sp_no_move = 0
        smangle = ReflectionAngle("smangle", self.polarising_mirror)
        smangle.sp_no_move = 0

        self.nr_mode = BeamlineMode("NR Mode", [theta.name])
        self.polarised_mode = BeamlineMode("NR Mode",
                                           [smangle.name, theta.name])

        self.beamline = Beamline([
            s0, s1, frame_overlap_mirror, self.polarising_mirror, s2,
            self.ideal_sample_point, s3, analyser, s4, detector
        ], [smangle, theta], [], [self.nr_mode, self.polarised_mode])
        self.beamline.set_incoming_beam(beam_start)

    def test_GIVEN_beam_line_contains_multiple_component_WHEN_set_theta_THEN_angle_between_incoming_and_outgoing_beam_is_correct(
            self):
        self.beamline.active_mode = self.nr_mode

        theta_set = 10.0
        self.beamline.parameter("theta").sp = theta_set

        reflection_angle = self.ideal_sample_point.get_outgoing_beam(
        ).angle - self.ideal_sample_point.incoming_beam.angle
        assert_that(reflection_angle, is_(theta_set * 2.0))

    def test_GIVEN_beam_line_contains_active_super_mirror_WHEN_set_theta_THEN_angle_between_incoming_and_outgoing_beam_is_correct(
            self):
        self.beamline.active_mode = self.polarised_mode
        theta_set = 10.0
        self.polarising_mirror.enabled = True
        self.beamline.parameter("smangle").sp = 10

        self.beamline.parameter("theta").sp = theta_set

        reflection_angle = self.ideal_sample_point.get_outgoing_beam(
        ).angle - self.ideal_sample_point.incoming_beam.angle
        assert_that(reflection_angle, is_(theta_set * 2.0))

    def test_GIVEN_beam_line_contains_active_super_mirror_WHEN_angle_set_THEN_angle_between_incoming_and_outgoing_beam_is_correct(
            self):
        self.beamline.active_mode = self.polarised_mode
        theta_set = 10.0
        self.beamline.parameter("theta").sp = theta_set
        self.polarising_mirror.enabled = True

        self.beamline.parameter("smangle").sp = 10

        reflection_angle = self.ideal_sample_point.get_outgoing_beam(
        ).angle - self.ideal_sample_point.incoming_beam.angle
        assert_that(reflection_angle, is_(theta_set * 2.0))
    def test_GIVEN_multiple_components_in_beamline_WHEN_triggering_move_THEN_components_move_at_speed_of_slowest_axis(
            self):
        sm_angle = 0.0
        sm_angle_to_set = 22.5
        supermirror = ReflectingComponent("supermirror",
                                          movement_strategy=LinearMovement(
                                              y_position=0.0,
                                              z_position=10.0,
                                              angle=90.0))
        sm_height_axis = create_mock_axis("SM:HEIGHT", 0.0, 10.0)
        sm_angle_axis = create_mock_axis("SM:ANGLE", sm_angle, 10.0)
        supermirror.angle = sm_angle
        supermirror_driver = HeightAndAngleDriver(supermirror, sm_height_axis,
                                                  sm_angle_axis)

        slit_2 = Component("slit_2",
                           movement_strategy=LinearMovement(y_position=0.0,
                                                            z_position=20.0,
                                                            angle=90.0))
        slit_2_height_axis = create_mock_axis("SLIT2:HEIGHT", 0.0, 10.0)
        slit_2_driver = HeightDriver(slit_2, slit_2_height_axis)

        slit_3 = Component("slit_3",
                           movement_strategy=LinearMovement(y_position=0.0,
                                                            z_position=30.0,
                                                            angle=90.0))
        slit_3_height_axis = create_mock_axis("SLIT3:HEIGHT", 0.0, 10.0)
        slit_3_driver = HeightDriver(slit_3, slit_3_height_axis)

        detector = TiltingJaws(
            "jaws",
            movement_strategy=LinearMovement(y_position=0.0,
                                             z_position=40.0,
                                             angle=90.0))
        detector_height_axis = create_mock_axis("DETECTOR:HEIGHT", 0.0, 10.0)
        detector_tilt_axis = create_mock_axis("DETECTOR:TILT", 0.0, 10.0)
        detector_driver = HeightAndTiltDriver(detector, detector_height_axis,
                                              detector_tilt_axis)

        smangle = ReflectionAngle("smangle", supermirror)
        slit_2_pos = TrackingPosition("s2_pos", slit_2)
        slit_3_pos = TrackingPosition("s3_pos", slit_3)
        det_pos = TrackingPosition("det_pos", detector)
        components = [supermirror, slit_2, slit_3, detector]
        beamline_parameters = [smangle, slit_2_pos, slit_3_pos, det_pos]
        drivers = [
            supermirror_driver, slit_2_driver, slit_3_driver, detector_driver
        ]
        mode = BeamlineMode(
            "mode name",
            [smangle.name, slit_2_pos.name, slit_3_pos.name, det_pos.name])
        beamline = Beamline(components, beamline_parameters, drivers, [mode])

        beamline.active_mode = mode

        beam_start = PositionAndAngle(0.0, 0.0, 0.0)
        beamline.set_incoming_beam(beam_start)
        slit_2_pos.sp_no_move = 0.0
        slit_3_pos.sp_no_move = 0.0
        det_pos.sp_no_move = 0.0

        # detector angle axis takes longest
        expected_max_duration = 4.5

        smangle.sp_no_move = sm_angle_to_set
        with patch.object(beamline, '_move_drivers') as mock:
            beamline.move = 1

            mock.assert_called_with(expected_max_duration)