def test_nested_serialization():
"""Create a bunch of nested objects and make sure that nothing breaks."""
# helper
def make_ingredient(material: MaterialRun):
return IngredientRun(name=material.name, material=material)
icing = ProcessRun(name="Icing")
cake = MaterialRun(name='Final cake', process=icing)
cake.process.ingredients.append(make_ingredient(MaterialRun('Baked Cake')))
cake.process.ingredients.append(make_ingredient(MaterialRun('Frosting')))
baked = cake.process.ingredients[0].material
baked.process = ProcessRun(name='Baking')
baked.process.ingredients.append(make_ingredient(MaterialRun('Batter')))
batter = baked.process.ingredients[0].material
batter.process = ProcessRun(name='Mixing batter')
batter.process.ingredients.append(
make_ingredient(material=MaterialRun('Butter')))
batter.process.ingredients.append(
make_ingredient(material=MaterialRun('Sugar')))
batter.process.ingredients.append(
make_ingredient(material=MaterialRun('Flour')))
batter.process.ingredients.append(
make_ingredient(material=MaterialRun('Milk')))
cake.dump()
def test_object_pointer_serde():
"""Test that an object can point to another object, and that this survives serde."""
baking = ProcessRun("Bake a cake")
cake = MaterialRun("A cake", process=baking)
reconstituted_cake = MaterialRun.build(cake.dump())
assert isinstance(reconstituted_cake.process, ProcessRun)
assert isinstance(reconstituted_cake.process.output_material, MaterialRun)
def test_process_attachment():
"""Test that a process can be attached to a material, and that the connection survives serde"""
cake = MaterialRun('Final cake')
cake.process = ProcessRun('Icing')
cake_data = cake.dump()
cake_copy = loads(dumps(cake_data)).as_dict()
assert cake_copy['name'] == cake.name
assert cake_copy['uids'] == cake.uids
assert cake.process.uids['id'] == cake_copy['process'].uids['id']
reconstituted_cake = MaterialRun.build(cake_copy)
assert isinstance(reconstituted_cake, MaterialRun)
assert isinstance(reconstituted_cake.process, ProcessRun)
def test_register_data_concepts(dataset):
"""Check that register routes to the correct collections"""
expected = {
MaterialTemplateCollection:
MaterialTemplate("foo"),
MaterialSpecCollection:
MaterialSpec("foo"),
MaterialRunCollection:
MaterialRun("foo"),
ProcessTemplateCollection:
ProcessTemplate("foo"),
ProcessSpecCollection:
ProcessSpec("foo"),
ProcessRunCollection:
ProcessRun("foo"),
MeasurementTemplateCollection:
MeasurementTemplate("foo"),
MeasurementSpecCollection:
MeasurementSpec("foo"),
MeasurementRunCollection:
MeasurementRun("foo"),
IngredientSpecCollection:
IngredientSpec("foo"),
IngredientRunCollection:
IngredientRun(),
PropertyTemplateCollection:
PropertyTemplate("bar", bounds=IntegerBounds(0, 1)),
ParameterTemplateCollection:
ParameterTemplate("bar", bounds=IntegerBounds(0, 1)),
ConditionTemplateCollection:
ConditionTemplate("bar", bounds=IntegerBounds(0, 1))
}
for collection, obj in expected.items():
assert len(obj.uids) == 0
registered = dataset.register(obj)
assert len(obj.uids) == 1
assert len(registered.uids) == 1
assert basename(dataset.session.calls[-1].path) == basename(
collection._path_template)
for pair in obj.uids.items():
assert pair[1] == registered.uids[pair[0]]
def test_simple_deserialization(valid_data):
"""Ensure that a deserialized Process Run looks sane."""
process_run: ProcessRun = ProcessRun.build(valid_data)
assert process_run.uids == {'id': valid_data['uids']['id'], 'my_id': 'process1-v1'}
assert process_run.tags == ['baking::cakes', 'danger::low']
assert process_run.conditions[0] == Condition(name='oven temp',
value=NominalReal(203.0, ''),
origin='measured')
assert process_run.parameters == []
assert process_run.file_links == []
assert process_run.template is None
assert process_run.output_material is None
assert process_run.spec == \
ProcessSpec(name="Spec for proc 1",
uids={'id': valid_data['spec']['uids']['id']},
conditions=[Condition(name='oven temp', value=UniformReal(175, 225, ''),
origin='specified')]
)
assert process_run.name == 'Process 1'
assert process_run.notes == 'make sure to use oven mitts'
assert process_run.typ == 'process_run'
def test_register_all_data_concepts(dataset):
"""Check that register_all registers everything and routes to all collections"""
bounds = IntegerBounds(0, 1)
property_template = PropertyTemplate("bar", bounds=bounds)
parameter_template = ParameterTemplate("bar", bounds=bounds)
condition_template = ConditionTemplate("bar", bounds=bounds)
foo_process_template = ProcessTemplate(
"foo",
conditions=[[condition_template, bounds]],
parameters=[[parameter_template, bounds]])
foo_process_spec = ProcessSpec("foo", template=foo_process_template)
foo_process_run = ProcessRun("foo", spec=foo_process_spec)
foo_material_template = MaterialTemplate(
"foo", properties=[[property_template, bounds]])
foo_material_spec = MaterialSpec("foo",
template=foo_material_template,
process=foo_process_spec)
foo_material_run = MaterialRun("foo",
spec=foo_material_spec,
process=foo_process_run)
baz_template = MaterialTemplate("baz")
foo_measurement_template = MeasurementTemplate(
"foo",
conditions=[[condition_template, bounds]],
parameters=[[parameter_template, bounds]],
properties=[[property_template, bounds]])
foo_measurement_spec = MeasurementSpec("foo",
template=foo_measurement_template)
foo_measurement_run = MeasurementRun("foo",
spec=foo_measurement_spec,
material=foo_material_run)
foo_ingredient_spec = IngredientSpec("foo",
material=foo_material_spec,
process=foo_process_spec)
foo_ingredient_run = IngredientRun(spec=foo_ingredient_spec,
material=foo_material_run,
process=foo_process_run)
baz_run = MeasurementRun("baz")
# worst order possible
expected = {
foo_ingredient_run: IngredientRunCollection,
foo_ingredient_spec: IngredientSpecCollection,
foo_measurement_run: MeasurementRunCollection,
foo_measurement_spec: MeasurementSpecCollection,
foo_measurement_template: MeasurementTemplateCollection,
foo_material_run: MaterialRunCollection,
foo_material_spec: MaterialSpecCollection,
foo_material_template: MaterialTemplateCollection,
foo_process_run: ProcessRunCollection,
foo_process_spec: ProcessSpecCollection,
foo_process_template: ProcessTemplateCollection,
baz_template: MaterialTemplateCollection,
baz_run: MeasurementRunCollection,
property_template: PropertyTemplateCollection,
parameter_template: ParameterTemplateCollection,
condition_template: ConditionTemplateCollection
}
for obj in expected:
assert len(obj.uids) == 0 # All should be without ids
registered = dataset.register_all(expected.keys())
assert len(registered) == len(expected)
seen_ids = set()
for obj in expected:
assert len(obj.uids) == 1 # All should now have exactly 1 id
for pair in obj.uids.items():
assert pair not in seen_ids # All ids are different
seen_ids.add(pair)
for obj in registered:
for pair in obj.uids.items():
assert pair in seen_ids # registered items have the same ids
call_basenames = [
call.path.split('/')[-2] for call in dataset.session.calls
]
collection_basenames = [
basename(collection._path_template)
for collection in expected.values()
]
assert set(call_basenames) == set(collection_basenames)
assert len(set(call_basenames)) == len(
call_basenames) # calls are batched internally
# spot check order. Does not check every constraint
assert call_basenames.index(
basename(
IngredientRunCollection._path_template)) > call_basenames.index(
basename(IngredientSpecCollection._path_template))
assert call_basenames.index(basename(
MaterialRunCollection._path_template)) > call_basenames.index(
basename(MaterialSpecCollection._path_template))
assert call_basenames.index(
basename(
MeasurementRunCollection._path_template)) > call_basenames.index(
basename(MeasurementSpecCollection._path_template))
assert call_basenames.index(basename(
ProcessRunCollection._path_template)) > call_basenames.index(
basename(ProcessSpecCollection._path_template))
assert call_basenames.index(basename(
MaterialSpecCollection._path_template)) > call_basenames.index(
basename(MaterialTemplateCollection._path_template))
assert call_basenames.index(
basename(
MeasurementSpecCollection._path_template)) > call_basenames.index(
basename(MeasurementTemplateCollection._path_template))
assert call_basenames.index(basename(
ProcessSpecCollection._path_template)) > call_basenames.index(
basename(ProcessTemplateCollection._path_template))
assert call_basenames.index(basename(
MaterialSpecCollection._path_template)) > call_basenames.index(
basename(ProcessSpecCollection._path_template))
assert call_basenames.index(basename(
MaterialSpecCollection._path_template)) > call_basenames.index(
basename(MeasurementSpecCollection._path_template))
assert call_basenames.index(
basename(MeasurementTemplateCollection._path_template)
) > call_basenames.index(
basename(ConditionTemplateCollection._path_template))
assert call_basenames.index(
basename(MeasurementTemplateCollection._path_template)
) > call_basenames.index(
basename(ParameterTemplateCollection._path_template))
assert call_basenames.index(
basename(
MaterialTemplateCollection._path_template)) > call_basenames.index(
basename(PropertyTemplateCollection._path_template))
def test_serialization(valid_data):
"""Ensure that a serialized Process Run looks sane."""
process_run: ProcessRun = ProcessRun.build(valid_data)
serialized = process_run.dump()
assert serialized == valid_data
def test_soft_process_material_attachment():
"""Test that soft attachments are formed from process to output material"""
baking = ProcessRun("Bake a cake")
cake = MaterialRun("A cake", process=baking)
assert baking.output_material == cake
