Exemple #1
0
    def setUpClass(cls):
        cls.directory = Path(tempfile.gettempdir())
        target = Target(layers=[
            Layer("layer1", [
                Element.from_string("Li 1.0")
            ], 0.01, 0.01, start_depth=0.0),
            Layer("layer2", [
                Element.from_string("Li 0.048"),
                Element.from_string("O 0.649"),
                Element.from_string("Mn 0.303")
            ], 90.0, 4.0, start_depth=0.01),
            Layer("subtrate", [
                Element.from_string("Si 1.0")
            ], 1000.0, 2.32, start_depth=90.01)
        ])
        cls.mcerd = MCERD(101, {
            "recoil_element": mo.get_recoil_element(),
            "sim_dir": tempfile.gettempdir(),
            "simulation_type": SimulationType.ERD,
            "target": target,
            "detector": mo.get_detector(),
            "beam": mo.get_beam(),

            # Following simulation parameters have been determined by the
            # rigorous application of the Stetson-Harrison method.
            "minimum_scattering_angle": 5.5,
            "minimum_main_scattering_angle": 6.5,
            "minimum_energy_of_ions": 8.15,
            "number_of_recoils": 15,
            "simulation_mode": SimulationMode.NARROW,
            "number_of_scaling_ions": 14,
            "number_of_ions_in_presimu": 100,
            "number_of_ions": 1000
        }, mo.get_element_simulation().get_full_name())
Exemple #2
0
    def setUp(self):
        beam = mo.get_beam()
        det = mo.get_detector()
        self.rec_file = Path(tempfile.gettempdir(), "rec")
        self.erd_file = Path(tempfile.gettempdir(), "erd")

        self.espe = GetEspe(
            beam.ion.get_prefix(), beam.energy, det.detector_theta,
            mo.get_target().target_theta, det.calculate_tof_length(),
            det.calculate_solid(), self.rec_file, self.erd_file)
Exemple #3
0
    def test_serialization(self):
        with tempfile.TemporaryDirectory() as tmp_dir:
            fp = Path(tmp_dir, "test.simu")
            sim = Simulation(Path(tmp_dir, "foo.simulation"),
                             mo.get_request(),
                             name="foo",
                             description="bar",
                             save_on_creation=False,
                             run=mo.get_run(),
                             detector=mo.get_detector(),
                             target=mo.get_target(),
                             enable_logging=False,
                             use_request_settings=False)

            sim.to_file(fp)

            sim2 = Simulation.from_file(mo.get_request(),
                                        fp,
                                        detector=mo.get_detector(),
                                        target=mo.get_target(),
                                        run=mo.get_run(),
                                        enable_logging=False,
                                        save_on_creation=False)

            self.assertEqual(sim.name, sim2.name)
            self.assertEqual(sim.description, sim2.description)
            self.assertEqual(sim.measurement_setting_file_description,
                             sim2.measurement_setting_file_description)
            self.assertEqual(sim.measurement_setting_file_name,
                             sim2.measurement_setting_file_name)
            self.assertEqual(sim.use_request_settings,
                             sim2.use_request_settings)

            self.assertEqual(sim.detector.name, sim2.detector.name)
            self.assertEqual(sim.detector.angle_offset,
                             sim2.detector.angle_offset)

            self.assertEqual(sim.target.scattering_element,
                             sim2.target.scattering_element)
            self.assertEqual(sim.target.target_type, sim2.target.target_type)

            self.assertEqual(sim.run.fluence, sim2.run.fluence)
Exemple #4
0
    def setUp(self):
        self.detector = mo.get_detector()
        self.request = mo.get_request()
        self.eff_files = [
            "H.eff", "1H.eff", "1H-comment.eff", "2H.eff", "O.efff"]

        self.detector.update_directories(self.DETECTOR_DIR)
        for eff in self.eff_files:
            fp = self.DETECTOR_DIR / eff
            open(fp, "a").close()
            self.detector.add_efficiency_file(fp)
Exemple #5
0
    def setUp(self):
        self.beam = mo.get_beam()
        self.detector = mo.get_detector()
        self.target = mo.get_target()

        self.default_kwargs = {
            "beam_ion": self.beam.ion.get_prefix(),
            "energy": self.beam.energy,
            "theta": self.detector.detector_theta,
            "toflen": self.detector.calculate_tof_length(),
            "tangle": self.target.target_theta,
            "solid": self.detector.calculate_solid(),
            "recoil_file": _RECOIL_FILE,
            "erd_file": _ERD_FILE,
            "reference_density": 4.98e22,
            "ch": 0.025,
            "fluence": 5.00e+11,
            "timeres": self.detector.timeres,
        }
Exemple #6
0
    def test_initialization(self, mock_exec):
        """A simple test to see if various dialogs get initialized properly.
        """
        e = ElementLossesDialog(Mock(), mo.get_measurement())
        e.close()

        c = CalibrationDialog([mo.get_measurement()], mo.get_detector(),
                              mo.get_run())
        c.close()

        # AttributeError is raised if simulation has no sample
        self.assertRaises(
            AttributeError,
            lambda: OptimizationDialog(mo.get_simulation(), Mock()))

        sample = mo.get_sample()
        sim = mo.get_simulation()
        sim.sample = sample
        o = OptimizationDialog(sim, Mock())
        self.assertFalse(o.pushButton_OK.isEnabled())
        o.close()

        assert mock_exec.call_count == 3