def test_set_separate_dimension_args(self): # Tests the case where .set() is called correctly. Use the # way of calling .set() where we pass in every dimension # separately. Verify the data is stored and can be retrieved # using .get(). doc = Entrypoint("CutSheet", self.taxonomy) # Write a TypeOfDevice and a DeviceCost: doc.set("solar:TypeOfDevice", "ModuleMember", duration="forever", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember") now = datetime.now() doc.set("solar:DeviceCost", 100, instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", unit_name="USD") typeFact = doc.get( "solar:TypeOfDevice", Context(duration="forever", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember")) self.assertEqual(typeFact.value, "ModuleMember") costFact = doc.get( "solar:DeviceCost", Context(instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember")) self.assertEqual(costFact.value, 100) self.assertEqual(costFact.unit, "USD")
def test_set_context_arg(self): # Tests the case where .set() is called correctly, using # the way of calling .set() where we pass in a Context # object. Verify the data is stored and can be retrieved # using .get(). doc = Entrypoint("CutSheet", self.taxonomy) ctx = Context(duration="forever", entity="JUPITER", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember") doc.set("solar:TypeOfDevice", "ModuleMember", context=ctx) now = datetime.now(), ctx = Context(instant=now, entity="JUPITER", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember") doc.set("solar:DeviceCost", 100, context=ctx, unit_name="USD") # Get the data bacK: typeFact = doc.get( "solar:TypeOfDevice", Context(duration="forever", entity="JUPITER", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember")) self.assertEqual(typeFact.value, "ModuleMember") costFact = doc.get( "solar:DeviceCost", Context(instant=now, entity="JUPITER", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember")) self.assertEqual(costFact.value, 100)
def test_get_table_for_concept(self): doc = Entrypoint("CutSheet", self.taxonomy) # The CutSheet instance should know that RevenueMeterFrequency # is a concept that belongs in the CutSheetDetailsTable table = doc.get_table_for_concept("solar:RevenueMeterFrequency") self.assertEqual(table.name(), "solar:CutSheetDetailsTable") table = doc.get_table_for_concept( "solar:InverterEfficiencyAtVmaxPercent") self.assertEqual(table.name(), "solar:InverterPowerLevelTable") # but if we ask for something that is not a line item concept, # we should get back the non-table: table = doc.get_table_for_concept("solar:CutSheetDetailsTable") self.assertEqual(table.name(), UNTABLE)
def test_instantiate_empty_entrypoint(self): doc = Entrypoint("CutSheet", self.taxonomy) # The newly initialized CutSheet should have a correct list of # allowable concepts as defined by the taxonomy for CutSheets. # TypeOfDevice is allowed in CutSheets: self.assertTrue(doc.can_write_concept('solar:TypeOfDevice')) # AppraisalCounterparties is not allowed in CutSheets: self.assertFalse( doc.can_write_concept('solar:AppraisalCounterparties')) # The newly initialized CutSheet should have a correct list of tables # and each table should have a correct list of axes, as defined by # the taxonomy for CutSheets: tables = doc.get_table_names() self._check_arrays_equivalent( tables, ["solar:InverterPowerLevelTable", "solar:CutSheetDetailsTable"]) self._check_arrays_equivalent( doc.get_table("solar:InverterPowerLevelTable").axes(), [ "solar:ProductIdentifierAxis", "solar:InverterPowerLevelPercentAxis" ]) self._check_arrays_equivalent( doc.get_table("solar:CutSheetDetailsTable").axes(), ["solar:ProductIdentifierAxis", "solar:TestConditionAxis"])
def test_conversion_to_json(self): doc = Entrypoint("CutSheet", self.taxonomy) doc.set( "solar:TypeOfDevice", "ModuleMember", entity="JUPITER", duration="forever", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", ) now = datetime.now() doc.set("solar:DeviceCost", 100, entity="JUPITER", instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", unit_name="USD") jsonstring = doc.to_JSON_string() root = json.loads(jsonstring) # should have 2 facts: self.assertEqual(len(root['facts']), 2) # each should have expected 'value' and 'aspects': typeFacts = [ x for x in root['facts'] if x['aspects']['xbrl:concept'] == 'solar:TypeOfDevice' ] self.assertEqual(len(typeFacts), 1) typeFact = typeFacts[0] self.assertEqual(typeFact['value'], "ModuleMember") self.assertEqual(typeFact['aspects']['solar:ProductIdentifierAxis'], 'placeholder') self.assertEqual(typeFact['aspects']['solar:TestConditionAxis'], "solar:StandardTestConditionMember") self.assertEqual(typeFact['aspects']['xbrl:entity'], 'JUPITER') self.assertEqual(typeFact['aspects']['xbrl:period'], 'forever') # TODO if there's no unit is it correct to write 'xbrl:unit':'None' or to leave out # xbrl:unit? Currently assuming we leave it out: self.assertNotIn("xbrl:unit", typeFact["aspects"]) costFacts = [ x for x in root['facts'] if x['aspects']['xbrl:concept'] == 'solar:DeviceCost' ] self.assertEqual(len(costFacts), 1) costFact = costFacts[0] self.assertEqual(costFact['value'], '100') self.assertEqual(costFact['aspects']['solar:ProductIdentifierAxis'], 'placeholder') self.assertEqual(costFact['aspects']['solar:TestConditionAxis'], "solar:StandardTestConditionMember") self.assertEqual(costFact['aspects']['xbrl:entity'], 'JUPITER') self.assertEqual(costFact['aspects']['xbrl:instant'], now.strftime("%Y-%m-%d")) self.assertEqual(costFact['aspects']['xbrl:unit'], 'USD')
def test_reject_missing_or_invalid_units(self): # issue #28 # -- reject attempt to set a fact if it doesn't have a unit and the unit is required # -- reject attempt to set a fact using a unit name that doesn't match taxonomy # -- reject attempt to set a fact using a unit that is the wrong type now = datetime.now() doc = Entrypoint("CutSheet", self.taxonomy) with self.assertRaises(Exception): # Unit is required but not provided, so this should fail: doc.set("solar:DeviceCost", 100, entity="JUPITER", instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember") with self.assertRaises(Exception): # Zorkmids is not a real unit, so this should fail: doc.set("solar:DeviceCost", 100, entity="JUPITER", instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", unit_name="zorkmids") with self.assertRaises(Exception): # kWh is a real unit but the wrong type, so this should fail: doc.set("solar:DeviceCost", 100, entity="JUPITER", instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", unit_name="kWh") # USD is a valid unit, so this should succeed: doc.set("solar:DeviceCost", 100, entity="JUPITER", instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", unit_name="USD")
def test_can_write_concept(self): doc = Entrypoint("CutSheet", self.taxonomy) # Not every concept is writable. For instance, we shouldn't be able # to write a value for an Abstract concept, a LineItem group, an Axis, # a Domain, etc. even though those are part of this entrypoint. self.assertFalse( doc.canWriteConcept('solar:ProductIdentifierModuleAbstract')) self.assertTrue(doc.canWriteConcept('solar:TypeOfDevice')) self.assertFalse(doc.canWriteConcept('solar:CutSheetDetailsLineItems')) self.assertFalse(doc.canWriteConcept('solar:CutSheetDetailsTable')) self.assertFalse(doc.canWriteConcept('solar:TestConditionDomain')) self.assertFalse(doc.canWriteConcept('solar:ProductIdentifierAxis')) self.assertTrue(doc.canWriteConcept('solar:ProductIdentifier'))
def test_concepts_can_type_check(self): # Try passing in wrong data type to a typed concept: doc = Entrypoint("CutSheet", self.taxonomy) concept = doc.get_concept_by_name( "solar:TrackerNumberOfControllers") # integer self.assertTrue(concept.validate_datatype("3")) self.assertFalse(concept.validate_datatype("3.5")) self.assertFalse(concept.validate_datatype("a few")) concept = doc.get_concept_by_name("solar:TransformerStyle") # string self.assertTrue(concept.validate_datatype("Autobot")) self.assertTrue(concept.validate_datatype("Decepticon")) self.assertFalse(concept.validate_datatype(99.99)) concept = doc.get_concept_by_name( "solar:TransformerDesignFactor") # decimal self.assertTrue(concept.validate_datatype("0.99")) self.assertTrue(concept.validate_datatype("1")) self.assertFalse(concept.validate_datatype("pretty good")) concept = doc.get_concept_by_name("solar:MeterRevenueGrade") # boolean self.assertTrue(concept.validate_datatype("True")) self.assertTrue(concept.validate_datatype("False")) self.assertTrue(concept.validate_datatype(True)) self.assertTrue(concept.validate_datatype(False)) self.assertFalse(concept.validate_datatype("yes")) self.assertFalse(concept.validate_datatype("7"))
def test_hypercube_rejects_context_with_unwanted_axes(self): # Test that giving a context an *extra* axis that is invalid for the table # causes it to be rejected as well. doc = Entrypoint("CutSheet", self.taxonomy) twoAxisContext = Context( ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", instant=datetime.now()) self.assertTrue( doc.sufficient_context("solar:DeviceCost", twoAxisContext)) threeAxisContext = Context( ProductIdentifierAxis="placeholder", InverterPowerLevelPercentAxis= 'solar:InverterPowerLevel50PercentMember', TestConditionAxis="solar:StandardTestConditionMember", instant=datetime.now()) # InverterPowerLevelPercentAxis is a valid axis and this is a valid value for it, # but the table that holds DeviceCost doesn't want this axis: with self.assertRaises(Exception): doc.sufficient_context("solar:DeviceCost", threeAxisContext)
def test_set_raises_exception(self): # Tests the case where .set() is called incorrectly. It should # raise exceptions if required information is missing. doc = Entrypoint("CutSheet", self.taxonomy) with self.assertRaises(Exception): doc.set("solar:TypeOfDevice", "ModuleMember", {}) with self.assertRaises(Exception): doc.set("solar:DeviceCost", 100, {})
def test_sufficient_context_instant_vs_duration(self): doc = Entrypoint("CutSheet", self.taxonomy) # in order to set a concept value, sufficient context must be # provided. what is sufficient context varies by concept. # in general the context must provide the correct time information # (either duration or instant) # We shouldn't even be able to instantiate a context with no time info: with self.assertRaises(Exception): noTimeContext = Context( ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember") # solar:DeviceCost has period_type instant # so it requires a context with an instant. A context without an instant # should be insufficient: instantContext = Context( ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", instant=datetime.now()) durationContext = Context( ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", duration="forever") self.assertTrue( doc.sufficient_context("solar:DeviceCost", instantContext)) # A context with a duration instead of an instant should also be # rejected: with self.assertRaises(Exception): doc.sufficient_context("solar:DeviceCost", durationContext) # solar:ModuleNameplateCapacity has period_type duration. # A context with an instant instead of a duration should also be # rejected: with self.assertRaises(Exception): doc.sufficient_context("solar:ModuleNameplateCapacity", instantContext) self.assertTrue( doc.sufficient_context("solar:ModuleNameplateCapacity", durationContext))
def test_set_and_get(self): # Tests the case where .set() is called correctly. Verify the # data is stored and can be retrieved using .get(). doc = Entrypoint("CutSheet") # Write a TypeOfDevice and a DeviceCost: doc.set( "solar:TypeOfDevice", "Module", { "duration": "forever", "solar:ProductIdentifierAxis": "placeholder", "solar:TestConditionAxis": "placeholder" }) doc.set( "solar:DeviceCost", 100, { "instant": datetime.now(), "solar:ProductIdentifierAxis": "placeholder", "solar:TestConditionAxis": "placeholder" }) self.assertEqual(doc.get("solar:TypeOfDevice", {}), "Module") self.assertEqual(doc.get("solar:DeviceCost", {}), 100)
def test_set_context_arg(self): # Tests the case where .set() is called correctly, using # the way of calling .set() where we pass in a Context # object. Verify the data is stored and can be retrieved # using .get(). doc = Entrypoint("CutSheet", self.taxonomy) ctx = Context(duration="forever", entity="JUPITER", ProductIdentifierAxis="placeholder", TestConditionAxis="placeholder") doc.set("solar:TypeOfDevice", "Module", context=ctx) ctx = Context(instant=datetime.now(), entity="JUPITER", ProductIdentifierAxis="placeholder", TestConditionAxis="placeholder") doc.set("solar:DeviceCost", 100, context=ctx, unit="dollars")
def test_sufficient_context_axes(self): doc = Entrypoint("CutSheet", self.taxonomy) # The context must also provide all of the axes needed to place the # fact within the right table. # DeviceCost is on the CutSheetDetailsTable so it needs a value # for ProductIdentifierAxis and TestConditionAxis. with self.assertRaises(Exception): doc.sufficientContext("solar:DeviceCost", {}) context = Context(instant=datetime.now(), ProductIdentifierAxis="placeholder", TestConditionAxis="placeholder") self.assertTrue(doc.sufficientContext("solar:DeviceCost", context)) badContext = Context(instant=datetime.now(), TestConditionAxis="placeholder") with self.assertRaises(Exception): doc.sufficientContext("solar:DeviceCost", badContext) badContext = Context(instant=datetime.now(), ProductIdentifierAxis="placeholder") with self.assertRaises(Exception): doc.sufficientContext("solar:DeviceCost", badContext) # How do we know what are valid values for ProductIdentifierAxis and # TestConditionAxis? (I think they are meant to be UUIDs.) # Note: TestConditionAxis is part of the following relationships: # solar:TestConditionAxis -> dimension-domain -> solar:TestConditionDomain # solar:TestConditionAxis -> dimension-default -> solar:TestConditionDomain # i wonder what that "dimension-default" means #'solar:InverterOutputRatedPowerAC' is on the 'solar:InverterPowerLevelTable' which requires axes: [u'solar:ProductIdentifierAxis', u'solar:InverterPowerLevelPercentAxis']. it's a duration. concept = 'solar:InverterOutputRatedPowerAC' context = Context(duration="forever", ProductIdentifierAxis="placeholder", InverterPowerLevelPercentAxis="placeholder") self.assertTrue(doc.sufficientContext(concept, context)) badContext = Context(instant=datetime.now(), InverterPowerLevelPercentAxis="placeholder") with self.assertRaises(Exception): doc.sufficientContext(concept, badContext) badContext = Context(instant=datetime.now(), ProductIdentifierAxis="placeholder") with self.assertRaises(Exception): doc.sufficientContext(concept, badContext)
def test_sufficient_context(self): doc = Entrypoint("CutSheet") # in order to set a concept value, sufficient context must be # provided. what is sufficient context varies by concept. # in general the context must provide the correct time information # (either duration or instant) # solar:DeviceCost has period_type instant # so it requires a context with an instant. A context without an instant # should be insufficient: noTimeContext = { "solar:ProductIdentifierAxis": "placeholder", "solar:TestConditionAxis": "placeholder" } instantContext = { "solar:ProductIdentifierAxis": "placeholder", "solar:TestConditionAxis": "placeholder", "instant": datetime.now() } durationContext = { "solar:ProductIdentifierAxis": "placeholder", "solar:TestConditionAxis": "placeholder", "duration": "forever" } with self.assertRaises(Exception): doc.sufficientContext("solar:DeviceCost", noTimeContext) self.assertTrue( doc.sufficientContext("solar:DeviceCost", instantContext)) # A context with a duration instead of an instant should also be # rejected: with self.assertRaises(Exception): doc.sufficientContext("solar:DeviceCost", durationContext) # solar:ModuleNameplateCapacity has period_type duration. A context # without a duration should be insufficient: with self.assertRaises(Exception): doc.sufficientContext("solar:ModuleNameplateCapacity", noTimeContext) # A context with an instant instead of a duration should also be # rejected: with self.assertRaises(Exception): doc.sufficientContext("solar:ModuleNameplateCapacity", instantContext) self.assertTrue( doc.sufficientContext("solar:ModuleNameplateCapacity", durationContext))
def test_set_default_context_values(self): # Test setting default values, for example something like: doc = Entrypoint("CutSheet", self.taxonomy) now = datetime.now() doc.set_default_context({ "entity": "JUPITER", "solar:TestConditionAxis": "solar:StandardTestConditionMember", PeriodType.instant: now, PeriodType.duration: "forever" }) # Could also support setting default unit, even though that's not part of context: # If we set a fact that wants an instant context, it should use 'now': doc.set("solar:DeviceCost", "100", unit_name="USD", ProductIdentifierAxis="placeholder") # This would normally raise an exception because it's missing instant, entity, and # TestConditionAxis. But we set defaults for those, so they should be filled in: fact = doc.get( "solar:DeviceCost", Context(ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", entity="JUPITER", instant=now)) self.assertEqual(fact.value, "100") self.assertEqual(fact.unit, "USD") self.assertEqual(fact.context.entity, "JUPITER") self.assertEqual(fact.context.instant, now) # TODO test method of calling set() where we pass in Context object. # If we set a fact that wants a duration context, it should use jan 1 - jan 31: doc.set("solar:ModuleNameplateCapacity", "0.3", unit_name="W", ProductIdentifierAxis="placeholder") # Would normally raise an exception because missing duration, entity, and # TestConditionAxis. But we set defaults for those, so they should be filled in: fact = doc.get( "solar:ModuleNameplateCapacity", Context(ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", entity="JUPITER", duration="forever")) self.assertEqual(fact.value, "0.3") self.assertEqual(fact.unit, "W") self.assertEqual(fact.context.entity, "JUPITER") self.assertEqual(fact.context.duration, "forever") # Try setting ALL the fields in set_default_context and then pass in NO context fields, # that should work too: doc.set_default_context({ "entity": "JUPITER", "solar:TestConditionAxis": "solar:StandardTestConditionMember", PeriodType.instant: now, "solar:ProductIdentifierAxis": "placeholder" }) doc.set("solar:DeviceCost", "99", unit_name="USD") fact = doc.get( "solar:DeviceCost", Context(ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", entity="JUPITER", instant=now)) self.assertEqual(fact.value, "99")
def test_conversion_to_xml(self): doc = Entrypoint("CutSheet", self.taxonomy) doc.set("solar:TypeOfDevice", "ModuleMember", entity="JUPITER", duration="forever", ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember") now = datetime.now() doc.set("solar:DeviceCost", 100, entity="JUPITER", instant=now, ProductIdentifierAxis="placeholder", TestConditionAxis="solar:StandardTestConditionMember", unit_name="USD") xml = doc.to_XML_string() root = etree.fromstring(xml) self.assertEqual(len(root.getchildren()), 6) # top-level xml should have child <link:schemaRef>, one <unit>, two <context>s and two <fact>s. schemaRef = root.getchildren()[0] self.assertEqual(schemaRef.tag, "{http://www.xbrl.org/2003/linkbase}schemaRef") # expect to see 2 contexts with id "solar:CutSheetDetailsTable_0" and "solar:CutSheetDetailsTable_1" contexts = root.findall('{http://www.xbrl.org/2003/instance}context') self.assertEqual(len(contexts), 2) for context in contexts: # both should have entity tag containing identifier containing text JUPITER self.assertTrue( context.attrib["id"] == 'solar:CutSheetDetailsTable_0' or \ context.attrib["id"] == 'solar:CutSheetDetailsTable_1' ) entity = context.find("{http://www.xbrl.org/2003/instance}entity") identifier = entity.find( "{http://www.xbrl.org/2003/instance}identifier") self.assertEqual(identifier.text, "JUPITER") # both should have segment containing xbrldi:explicitMember dimension="<axis name>" # containing text "placeholder" # (wait i have segment inside of entity? is that correct?) segment = entity.find("{http://www.xbrl.org/2003/instance}segment") axes = segment.findall("{http://xbrl.org/2006/xbrldi}typedMember") axis_names = [x.attrib["dimension"] for x in axes] self._check_arrays_equivalent( axis_names, ['solar:ProductIdentifierAxis', 'solar:TestConditionAxis']) for axis in axes: if axis.attrib["dimension"] == 'solar:ProductIdentifierAxis': self.assertEqual( axis.getchildren()[0].tag, "{http://xbrl.us/Solar/v1.2/2018-03-31/solar}ProductIdentifierDomain" ) self.assertEqual(axis.getchildren()[0].text, "placeholder") elif axis.attrib["dimension"] == 'solar:TestConditionsAxis': self.assertEqual( axis.getchildren()[0].tag, "{http://xbrl.us/Solar/v1.2/2018-03-31/solar}TestConditionDomain" ) self.assertEqual(axis.getchildren()[0].text, "solar:StandardTestConditionMember") # one should have period containing <forever/> other should have period containing <instant> containing today's date. period = context.find("{http://www.xbrl.org/2003/instance}period") tag = period.getchildren()[0].tag self.assertTrue(tag == "{http://www.xbrl.org/2003/instance}instant" or\ tag == "{http://www.xbrl.org/2003/instance}forever") # Expect one unit tag with id=USD containing <measure>units:USD</measure> unit_tag = root.findall("{http://www.xbrl.org/2003/instance}unit") self.assertEqual(len(unit_tag), 1) self.assertEqual(unit_tag[0].attrib["id"], "USD") self.assertEqual(unit_tag[0].getchildren()[0].text, "units:USD") # Expect to see two facts solar:DeviceCost and solar:TypeOfDevice, # each containing text of the fact value costFact = root.find( '{http://xbrl.us/Solar/v1.2/2018-03-31/solar}DeviceCost') typeFact = root.find( '{http://xbrl.us/Solar/v1.2/2018-03-31/solar}TypeOfDevice') self.assertEqual(costFact.text, "100") self.assertEqual(typeFact.text, "ModuleMember") # They should have contextRef and (in the case of cost) unitRef attributes: self.assertEqual(typeFact.attrib['contextRef'], "solar:CutSheetDetailsTable_0") self.assertEqual(costFact.attrib['unitRef'], "USD") self.assertEqual(costFact.attrib['contextRef'], "solar:CutSheetDetailsTable_1")
def test_valid_unit_method(self): doc = Entrypoint("CutSheet", self.taxonomy) # Basic data types: self.assertTrue( doc.valid_unit("solar:TrackerNumberOfControllers", None)) # pure integer self.assertTrue(doc.valid_unit("solar:TransformerStyle", None)) # string self.assertTrue(doc.valid_unit("solar:TransformerDesignFactor", None)) # decimal self.assertTrue(doc.valid_unit("solar:MeterRevenueGrade", None)) # boolean # Advanced data types: self.assertTrue(doc.valid_unit("solar:DeviceCost", "USD")) # xbrli:monetaryItemType self.assertTrue(doc.valid_unit("solar:CutSheetDocumentLink", None)) #:xbrlianyURIItemType self.assertTrue(doc.valid_unit("solar:CECListingDate", None)) #xbrli:dateItemType self.assertTrue(doc.valid_unit("solar:InverterHarmonicsTheshold", None)) #num:percentItemType # Physics data types: self.assertTrue(doc.valid_unit("solar:RevenueMeterFrequency", "Hz")) #num-us:frequencyItemType self.assertTrue(doc.valid_unit("solar:InverterWidth", "cm")) #:num:lengthItemType self.assertTrue(doc.valid_unit("solar:BatteryRating", "kW")) #:num:powerItemType self.assertTrue( doc.valid_unit("solar:InverterInputMaximumOperatingCurrentDC", "A")) #:num-us:electricCurrentItemType self.assertTrue( doc.valid_unit("solar:InverterInputMaximumVoltageDC", "V")) #:num-us:voltageItemType self.assertTrue( doc.valid_unit("solar:InverterOperatingTemperatureRangeMaximum", "Cel")) #:num-us:temperatureItemType # self.assertTrue( doc.valid_unit("solar:TrackerStowWindSpeed:num-us:speedItemType", "???")) self.assertTrue( doc.valid_unit("solar:OrientationMaximumTrackerRotationLimit", "Degree")) #:num-us:planeAngleItemType self.assertTrue(doc.valid_unit("solar:TrackerStyle", None)) #solar-types:trackerItemType self.assertTrue(doc.valid_unit( "solar:BatteryStyle", None)) #solar-types:batteryChemistryItemType self.assertTrue(doc.valid_unit("solar:TypeOfDevice", None)) #solar-types:deviceItemType