def _assert_doc_core(doc, is_update): """Assert core information.""" tu.assert_iter(doc.reports, 1) r = doc.reports[0] tu.assert_date(r.date, '2011-05-01 12:00:00') tu.assert_object(r.evaluator, cim.v1.ResponsibleParty) tu.assert_str(r.evaluator.individual_name, '*****@*****.**') tu.assert_str(r.evaluator.role, 'pointofContact')
def _assert_doc_core(doc, is_update): """Assert core information.""" tu.assert_str(doc.description, "The HadGEM2-A model", True) if not is_update: tu.assert_str(doc.long_name, "Hadley Global Environment Model 2 - Atmosphere") tu.assert_date(doc.release_date, "2009") tu.assert_str(doc.short_name, "HadGEM2-A") tu.assert_str(doc.type, "model") tu.assert_int(doc.types, 2) tu.assert_str(doc.types[1], "model")
def _assert_doc_report_evaluation(doc, is_update): """Assert report evaluation information.""" r = doc.reports[0] tu.assert_object(r.evaluation, cim.v1.Evaluation) e = r.evaluation tu.assert_date(e.date, '2012-11-05') tu.assert_str(e.description, 'evaluationMethodType=indirect', True) tu.assert_str(e.explanation, 'The quality results for this ESG', True) tu.assert_str(e.specification, 'The CMIP5/AR5 Model Data Quality Control') tu.assert_str(e.specification_hyperlink, 'http://cmip5qc.wdc-climate.de') tu.assert_str(e.type, 'QC Level 2 Results') tu.assert_str(e.type_hyperlink, 'http://cera-www.dkrz.de/WDCC/CMIP5/QCResult.jsp?experiment=cmip5/output1/NCC/NorESM1-ME/rcp45')
def _assert_doc_member_change(doc, is_update): """Assert ensemble members information.""" member = doc.members[1] tu.assert_iter(member.simulation_reference.changes, 1, cim.v1.Change) c = member.simulation_reference.changes[0] tu.assert_str(c.name, "IC mod") tu.assert_str(c.type, "InitialCondition") tu.assert_date(c.date, "1850-01-01T00:00:00Z") tu.assert_iter(c.details, 1, cim.v1.ChangeProperty) cp = c.details[0] tu.assert_str(cp.description, "ICs come from different points in the control run")
def _assert_doc_core(doc, is_update): """Assert core information.""" tu.assert_str(doc.authors, "C. Jones, J. Hughes", True) tu.assert_object(doc.date_range, cim.v1.ClosedDateRange) tu.assert_str(doc.date_range.duration, "P30Y") tu.assert_date(doc.date_range.start, "1978-12-01 00:00:00+00:00") tu.assert_str(doc.description, "Main amip ensemble simulations", True) tu.assert_str(doc.long_name, "3.3 AMIP and AMIP Ensemble", True) tu.assert_iter(doc.projects, 1, str) tu.assert_iter(doc.projects[0], "CMIP5") tu.assert_iter(doc.responsible_parties, 4, cim.v1.ResponsibleParty) tu.assert_str(doc.short_name, "amip") tu.assert_object(doc.spinup_date_range, cim.v1.ClosedDateRange) tu.assert_str(doc.spinup_date_range.duration, "P30Y") tu.assert_date(doc.spinup_date_range.start, "1978-12-01 00:00:00+00:00")
def _assert_doc_core(doc, is_update): """Assert core information.""" tu.assert_str(doc.authors, "C. Jones, J. Hughes", True) tu.assert_object(doc.date_range, cim.v1.ClosedDateRange) tu.assert_str(doc.date_range.duration, "P30Y") tu.assert_date(doc.date_range.start, "1978-12-01 00:00:00+00:00") tu.assert_str(doc.description, "Main amip ensemble simulations", True) tu.assert_str(doc.long_name, "3.3 AMIP and AMIP Ensemble", True) tu.assert_iter(doc.projects, 1, str) tu.assert_str(doc.projects[0], "CMIP5") tu.assert_iter(doc.responsible_parties, 4, cim.v1.ResponsibleParty) tu.assert_str(doc.short_name, "amip") tu.assert_object(doc.spinup_date_range, cim.v1.ClosedDateRange) tu.assert_str(doc.spinup_date_range.duration, "P30Y") tu.assert_date(doc.spinup_date_range.start, "1978-12-01 00:00:00+00:00")
def _assert_doc_extent(doc, is_update): """Assert extent information.""" tu.assert_object(doc.extent, cim.v1.DataExtent) e = doc.extent tu.assert_object(e.geographical, cim.v1.DataExtentGeographical) tu.assert_float(e.geographical.east, 360.0) tu.assert_float(e.geographical.north, 90.0) tu.assert_float(e.geographical.south, -90.0) tu.assert_object(e.temporal, cim.v1.DataExtentTemporal) tu.assert_date(e.temporal.begin, "1859-12-01 00:00:00") tu.assert_date(e.temporal.end, "1999-12-30 00:00:00") tu.assert_object(e.temporal.time_interval, cim.v1.DataExtentTimeInterval) ti = e.temporal.time_interval tu.assert_int(ti.factor, -1) tu.assert_int(ti.radix, 50430) tu.assert_str(ti.unit, "day")
def _assert_doc_requirements(doc, is_update): """Assert experiment requirements.""" tu.assert_iter(doc.requirements, 13, cim.v1.NumericalRequirement) # Initial condition. req = doc.requirements[0] tu.assert_object(req, cim.v1.InitialCondition) tu.assert_str(req.description, "Initial conditions are from", True) tu.assert_str(req.id, "ic.003") tu.assert_str(req.name, "3.3.ic") tu.assert_str(req.requirement_type, "initialCondition") # Boundary condition. req = doc.requirements[1] tu.assert_object(req, cim.v1.BoundaryCondition) tu.assert_str(req.requirement_type, "boundaryCondition") tu.assert_str(req.description, "Imposed changing concentrations", True) tu.assert_none(req.id) tu.assert_str(req.name, "3.3.bc.sls") # Boundary condition - options. tu.assert_iter(req.options, 2, cim.v1.NumericalRequirementOption) opt = req.options[0] tu.assert_str(opt.relationship, "XOR") tu.assert_object(opt.requirement, cim.v1.BoundaryCondition) # ... sub-requirement req = opt.requirement tu.assert_str(req.requirement_type, "boundaryCondition") tu.assert_str(req.description, "Concentrations") tu.assert_str(req.id, "bc.013") tu.assert_str(req.name, "3.3.bc.sls_conc") # Spatio Temporal Constraint. req = doc.requirements[12] tu.assert_object(req, cim.v1.SpatioTemporalConstraint) tu.assert_object(req.date_range, cim.v1.ClosedDateRange) tu.assert_str(req.date_range.duration, "P30Y") tu.assert_date(req.date_range.end, "2008-12-30 00:00:00+00:00") tu.assert_date(req.date_range.start, "1979-01-01 00:00:00+00:00") tu.assert_str(req.description, "Begin in 1979 and", True) tu.assert_str(req.id, "stc.027") tu.assert_str(req.name, "3.3.stc.1979_30yr") tu.assert_str(req.requirement_type, "spatioTemporalConstraint")
def _assert_doc_sub_components(doc, is_update): """Assert sub-components.""" tu.assert_int(doc.sub_components, 4) sc = doc.sub_components[0] tu.assert_int(sc.citations, 1) tu.assert_str(sc.description, "The model includes interactive schemes", True) tu.assert_uuid(sc.meta.id, "7a44cb24-03ca-11e1-a36a-00163e9152a5") tu.assert_int(sc.meta.version, 1) tu.assert_date(sc.meta.create_date, "2012-04-23 14:59:04.757315") tu.assert_str(sc.long_name, "Aerosols") tu.assert_int(sc.properties, 4) tu.assert_int(sc.responsible_parties, 4) tu.assert_int(sc.sub_components, 3) tu.assert_str(sc.short_name, "Aerosols") tu.assert_str(sc.type, "Aerosols") tu.assert_int(sc.types, 3) # Property. p = sc.properties[0] tu.assert_bool(p.is_represented, True) tu.assert_str(p.long_name, "Aerosols") tu.assert_str(p.short_name, "Aerosol Key Properties") tu.assert_int(p.sub_properties, 6) p = sc.properties[2] tu.assert_int(p.standard_names, 1) tu.assert_str(p.standard_names[0], "tendency_of_atmosphere", True) tu.assert_str(p.units, "kg/m2/s") # Sub-property. p = sc.properties[0].sub_properties[0] tu.assert_str(p.short_name, "AerosolSchemeScope") tu.assert_str(p.long_name, "AerosolSchemeScope") tu.assert_int(p.values, 1) tu.assert_str(p.values[0], "Whole atmosphere")