コード例 #1
0
def test_measurement_reassignment():
    """Check that a measurement run can be re-assigned to a new material run."""
    sample1 = MaterialRun("Sample 1")
    sample2 = MaterialRun("Sample 2")
    mass = MeasurementRun("Mass of sample", material=sample1)
    volume = MeasurementRun("Volume of sample", material=sample1)
    assert mass.material == sample1
    assert set(sample1.measurements) == {mass, volume}
    assert sample2.measurements == []

    mass.material = sample2
    assert mass.material == sample2
    assert sample1.measurements == [volume]
    assert sample2.measurements == [mass]

    mass.material = None
    assert mass.material is None
    assert sample2.measurements == []
コード例 #2
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def ingest_table(material_run, table):
    """Ingest a material run into an existing table."""
    for _, row in table.iterrows():
        exp = MeasurementRun()
        for prop_name in known_properties:
            if prop_name in row:
                exp.properties.append(Property(name=prop_name,
                                               value=NominalReal(row[prop_name], '')))
        for cond_name in known_conditions:
            if cond_name in row:
                exp.conditions.append(Condition(name=cond_name,
                                                value=NominalReal(row[cond_name], '')))
        exp.material = material_run

    return material_run
コード例 #3
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def test_material_soft_link():
    """Test that a measurement run can link to a material run, and that it survives serde."""
    dye = MaterialRun("rhodamine",
                      file_links=FileLink(filename='a.csv', url='/a/path'))
    assert dye.measurements == [], "default value of .measurements should be an empty list"

    # The .measurements member should not be settable
    with pytest.raises(AttributeError):
        dye.measurements = [MeasurementRun("Dummy")]

    absorbance = MeasurementRun(name="Absorbance",
                                uids={'id': str(uuid4())},
                                properties=[
                                    Property(name='Abs at 500 nm',
                                             value=NominalReal(0.1, ''))
                                ])
    assert absorbance.material is None, "Measurements should have None as the material by default"
    absorbance.material = dye
    assert absorbance.material == dye, "Material not set correctly for measurement"
    assert dye.measurements == [
        absorbance
    ], "Soft-link from material to measurement not created"

    fluorescence = MeasurementRun(name="Fluorescence",
                                  uids={'id': str(uuid4())},
                                  properties=[
                                      Property(name='PL counts at 550 nm',
                                               value=NominalReal(30000, ''))
                                  ],
                                  material=dye)

    assert fluorescence.material == dye, "Material not set correctly for measurement"
    assert dye.measurements == [absorbance, fluorescence], \
        "Soft-link from material to measurements not created"

    assert loads(dumps(absorbance)) == absorbance, \
        "Measurement should remain unchanged when serialized"
    assert loads(dumps(fluorescence)) == fluorescence, \
        "Measurement should remain unchanged when serialized"

    assert 'measurements' in repr(dye)
    assert 'material' in repr(fluorescence)
    assert 'material' in repr(absorbance)

    subbed = substitute_links(dye)
    assert 'measurements' in repr(subbed)
コード例 #4
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def make_data_island(density,
                     bulk_modulus,
                     firing_temperature,
                     binders,
                     powders,
                     tag=None):
    """Helper function to create a relatively involved data island."""
    binder_specs = keymap(lambda x: MaterialSpec(name=x), binders)
    powder_specs = keymap(lambda x: MaterialSpec(name=x), powders)

    binder_runs = keymap(lambda x: MaterialRun(name=x.name, spec=x),
                         binder_specs)
    powder_runs = keymap(lambda x: MaterialRun(name=x.name, spec=x),
                         powder_specs)

    all_input_materials = keymap(lambda x: x.spec.name,
                                 merge(binder_runs, powder_runs))
    mixing_composition = Condition(
        name="composition", value=NominalComposition(all_input_materials))
    mixing_process = ProcessRun(name="Mixing",
                                tags=["mixing"],
                                conditions=[mixing_composition])
    binder_ingredients = []
    for run in binder_runs:
        binder_ingredients.append(
            IngredientRun(
                material=run,
                process=mixing_process,
                mass_fraction=NominalReal(binders[run.spec.name], ''),
            ))

    powder_ingredients = []
    for run in powder_runs:
        powder_ingredients.append(
            IngredientRun(
                material=run,
                process=mixing_process,
                mass_fraction=NominalReal(powders[run.spec.name], ''),
            ))

    green_sample = MaterialRun("Green", process=mixing_process)

    measured_firing_temperature = Condition(
        name="Firing Temperature",
        value=UniformReal(firing_temperature - 0.5, firing_temperature + 0.5,
                          'degC'),
        template=firing_temperature_template)

    specified_firing_setting = Parameter(name="Firing setting",
                                         value=DiscreteCategorical("hot"))
    firing_spec = ProcessSpec("Firing", template=firing_template)
    firing_process = ProcessRun(name=firing_spec.name,
                                conditions=[measured_firing_temperature],
                                parameters=[specified_firing_setting],
                                spec=firing_spec)
    IngredientRun(material=green_sample,
                  process=firing_process,
                  mass_fraction=NormalReal(1.0, 0.0, ''),
                  volume_fraction=NormalReal(1.0, 0.0, ''),
                  number_fraction=NormalReal(1.0, 0.0, ''))

    measured_density = Property(name="Density",
                                value=NominalReal(density, ''),
                                template=density_template)
    measured_modulus = Property(name="Bulk modulus",
                                value=NormalReal(bulk_modulus,
                                                 bulk_modulus / 100.0, ''))
    measurement_spec = MeasurementSpec("Mechanical Properties",
                                       template=measurement_template)
    measurement = MeasurementRun(
        measurement_spec.name,
        properties=[measured_density, measured_modulus],
        spec=measurement_spec)

    tags = [tag] if tag else []

    material_spec = MaterialSpec("Coupon", template=material_template)
    material_run = MaterialRun(material_spec.name,
                               process=firing_process,
                               tags=tags,
                               spec=material_spec)
    measurement.material = material_run
    return material_run
コード例 #5
0
def ingest_material_run(data, material_spec=None, process_run=None):
    """Ingest material run with data, a material spec, and an originating process run."""
    if isinstance(data, list):
        return [ingest_material_run(x, material_spec) for x in data]

    if not isinstance(data, dict):
        raise ValueError("This ingester operates on dict, but got {}".format(type(data)))

    material = MaterialRun()

    sample_id = data.get("sample_id")
    if sample_id:
        material.add_uid("given_sample_id", sample_id)

    tags = data.get("tags")
    if tags:
        material.tags = tags

    for experiment in data.get("experiments", []):
        measurement = MeasurementRun()

        for name in set(known_properties.keys()).intersection(experiment.keys()):
            prop = Property(
                name=name,
                template=known_properties[name],
                value=_parse_value(experiment[name])
            )
            measurement.properties.append(prop)

        for name in set(known_conditions.keys()).intersection(experiment.keys()):
            cond = Condition(
                name=name,
                template=known_conditions[name],
                value=_parse_value(experiment[name])
            )
            measurement.conditions.append(cond)

        for name in set(known_parameters.keys()).intersection(experiment.keys()):
            param = Parameter(
                name=name,
                template=known_parameters[name],
                value=_parse_value(experiment[name])
            )
            measurement.parameters.append(param)

        scan_id = experiment.get("scan_id")
        if scan_id:
            measurement.add_uid("given_scan_id", scan_id)

        tags = experiment.get("tags")
        if tags:
            measurement.tags = tags

        measurement.material = material

    if material_spec:
        material.material_spec = material_spec

    if process_run:
        material.process = process_run

    return material