Exemplo n.º 1
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 def test_instantiation(self, test_name):
     """
     Test that each IonizationState test case can be instantiated.
     """
     try:
         self.instances[test_name] = IonizationState(**test_cases[test_name])
     except Exception:
         pytest.fail(f"Unable to create IonizationState instance for test case {test_name}.")
Exemplo n.º 2
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 def setup_class(self):
     self.element = 'H'
     self.valid_number_densities = u.Quantity([0.1, 0.2], unit=u.m**-3)
     self.expected_n_elem = np.sum(self.valid_number_densities)
     self.expected_ionic_fractions = self.valid_number_densities / self.expected_n_elem
     try:
         self.instance = IonizationState(self.element)
     except Exception:
         pytest.fail("Unable to instantiate IonizationState with no ionic fractions.")
Exemplo n.º 3
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def test_nans():
    """
    Test that when no ionic fractions or temperature are inputted,
    the result is an array full of `~numpy.nan` of the right size.
    """
    element = 'He'
    nstates = atomic_number(element) + 1
    instance = IonizationState(element)
    assert len(instance.ionic_fractions) == nstates, \
        f"Incorrect number of ionization states for {element}"
    assert np.all([np.isnan(instance.ionic_fractions)]), (
        f"The ionic fractions for IonizationState are not defaulting "
        f"to numpy.nan when not set by user.")
Exemplo n.º 4
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def test_setting_ionic_fractions():
    instance = IonizationState('He')
    new_ionic_fractions = [0.2, 0.5, 0.3]
    instance.ionic_fractions = new_ionic_fractions
    assert np.allclose(instance.ionic_fractions, new_ionic_fractions)
Exemplo n.º 5
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    'element': 'He',
    'atomic_number': 2,
    'Z_mean': 1.3,
    'Z_rms': 1.51657508881031,
    'n_e': 1.3e19 * u.m**-3,
    'n_elem': 1e19 * u.m**-3,
    'integer_charges': [0, 1, 2],
    'ionic_fractions': np.array([0.2, 0.3, 0.5]),
    'ionic_symbols': ['He-4 0+', 'He-4 1+', 'He-4 2+'],
    '_is_normalized()': True,
    'number_densities': np.array([2e18, 3e18, 5e18]) * u.m**-3,
    'tol': 2e-14,
    '__str__()': "<IonizationState instance for He-4>",
}

instance = IonizationState(**kwargs)


@pytest.mark.parametrize('key', expected_properties.keys())
def test_IonizationState_attributes(key):
    """
    Test a specific case that the `IonizationState` attributes are
    working as expected.
    """
    expected = expected_properties[key]
    actual = eval(f'instance.{key}')

    if isinstance(expected, u.Quantity):
        assert expected.unit == actual.unit, f"Unit mismatch for IonizationState.{key}"
        assert np.allclose(expected, actual, atol=1e-15 * expected.unit), \
            f"Quantity.value mismatch for IonizationState.{key}"