void ProjectDatabaseRecord::updatePathData(ProjectDatabase database, const openstudio::path& originalBase, const openstudio::path& newBase) { bool didStartTransaction = database.startTransaction(); ProjectDatabaseRecord record = getProjectDatabaseRecord(database); record.getImpl<detail::ProjectDatabaseRecord_Impl>()->updatePathData(originalBase,newBase); if (didStartTransaction) { bool test = database.commitTransaction(); OS_ASSERT(test); } }
// Test not yet to scale re: data points. TEST_F(ProjectFixture,Profile_SaveAnalysis) { Analysis analysis = getAnalysisToRun(100,500); // time the process of saving to database ptime start = microsec_clock::local_time(); ProjectDatabase db = getCleanDatabase(toPath("./SaveAnalysis")); ASSERT_TRUE(db.startTransaction()); AnalysisRecord record(analysis,db); db.save(); ASSERT_TRUE(db.commitTransaction()); time_duration saveTime = microsec_clock::local_time() - start; std::cout << "Time: " << to_simple_string(saveTime) << std::endl; }
// Test not yet to scale re: total data points. TEST_F(ProjectFixture,Profile_UpdateAnalysis) { Analysis analysis = getAnalysisToRun(100,500); // save to database ProjectDatabase db = getCleanDatabase(toPath("./UpdateAnalysis")); ASSERT_TRUE(db.startTransaction()); AnalysisRecord record(analysis,db); db.save(); ASSERT_TRUE(db.commitTransaction()); // add output data to 1 data point DataPointVector dataPoints = analysis.dataPoints(); boost::mt19937 mt; typedef boost::uniform_real<> uniform_dist_type; typedef boost::variate_generator<boost::mt19937&, uniform_dist_type> uniform_gen_type; uniform_gen_type responseGenerator(mt,uniform_dist_type(50.0,500.0)); for (int i = 0; i < 1; ++i) { std::stringstream ss; ss << "dataPoint" << i + 1; DoubleVector responseValues; for (int j = 0, n = analysis.problem().responses().size(); j < n; ++j) { responseValues.push_back(responseGenerator()); } openstudio::path runDir = toPath(ss.str()); dataPoints[i] = DataPoint(dataPoints[i].uuid(), createUUID(), dataPoints[i].name(), dataPoints[i].displayName(), dataPoints[i].description(), analysis.problem(), true, false, true, DataPointRunType::Local, dataPoints[i].variableValues(), responseValues, runDir, FileReference(runDir / toPath("ModelToIdf/in.osm")), FileReference(runDir / toPath("ModelToIdf/out.idf")), FileReference(runDir / toPath("EnergyPlus/eplusout.sql")), FileReferenceVector(1u,FileReference(runDir / toPath("Ruby/report.xml"))), boost::optional<runmanager::Job>(), std::vector<openstudio::path>(), TagVector(), AttributeVector()); dataPoints[i].setName(dataPoints[i].name()); // set dirty } analysis = Analysis(analysis.uuid(), analysis.versionUUID(), analysis.name(), analysis.displayName(), analysis.description(), analysis.problem(), analysis.algorithm(), analysis.seed(), analysis.weatherFile(), dataPoints, false, false); analysis.setName(analysis.name()); // set dirty // time the process of updating the database ptime start = microsec_clock::local_time(); db.unloadUnusedCleanRecords(); ASSERT_TRUE(db.startTransaction()); record = AnalysisRecord(analysis,db); db.save(); ASSERT_TRUE(db.commitTransaction()); time_duration updateTime = microsec_clock::local_time() - start; std::cout << "Time: " << to_simple_string(updateTime) << std::endl; }
TEST_F(ProjectFixture, RubyMeasureRecord_RubyScript) { // Measures MeasureVector measures; // Null Measure measures.push_back(NullMeasure()); openstudio::path rubyLibDirPath = openstudio::toPath(rubyLibDir()); openstudio::path perturbScript = rubyLibDirPath/openstudio::toPath("openstudio/runmanager/rubyscripts/PerturbObject.rb"); RubyMeasure rubyMeasure(perturbScript, FileReferenceType::OSM, FileReferenceType::OSM); rubyMeasure.addArgument("inputPath", "in.osm"); rubyMeasure.addArgument("outputPath", "out.osm"); rubyMeasure.addArgument("objectType", "OS:Material"); rubyMeasure.addArgument("nameRegex", "I02 50mm insulation board"); rubyMeasure.addArgument("field", "3"); rubyMeasure.addArgument("value", "0.10"); // RubyMeasure measures.push_back(rubyMeasure); // Variables VariableVector variables; variables.push_back(MeasureGroup("Wall Construction",measures)); // Workflow openstudio::runmanager::Workflow workflow; // Problem Problem problem("Variable",variables,workflow); // Save to database { ProjectDatabase database = getCleanDatabase("RubyMeasureRecord_RubyScript"); bool didStartTransaction = database.startTransaction(); EXPECT_TRUE(didStartTransaction); // Problem Record ProblemRecord problemRecord = ProblemRecord::factoryFromProblem(problem,database); database.save(); if (didStartTransaction) { EXPECT_TRUE(database.commitTransaction()); } // Variable Records InputVariableRecordVector measureGroupRecords = problemRecord.inputVariableRecords(); EXPECT_EQ(1u,measureGroupRecords.size()); // Discrete Variable Record MeasureGroupRecord measureGroupRecord = measureGroupRecords.at(0).cast<MeasureGroupRecord>(); EXPECT_EQ(2u,measureGroupRecord.measureRecordIds(true).size()); EXPECT_EQ(2u,measureGroupRecord.measureRecords(true).size()); RubyMeasureRecord rubyMeasureRecord(rubyMeasure,measureGroupRecord,0); EXPECT_EQ("MeasureRecords",rubyMeasureRecord.databaseTableName()); ObjectRecordVector objectRecordVector = rubyMeasureRecord.children(); EXPECT_EQ(6u,objectRecordVector.size()); // arguments objectRecordVector = rubyMeasureRecord.resources(); EXPECT_EQ(1u,objectRecordVector.size()); // script FileReferenceRecord scriptRecord = rubyMeasureRecord.fileReferenceRecord(); EXPECT_EQ("FileReferenceRecords",scriptRecord.databaseTableName()); Measure measure = rubyMeasureRecord.measure(); EXPECT_EQ(true,measure.isSelected()); ASSERT_TRUE(measure.optionalCast<RubyMeasure>()); RubyMeasure rubyMeasureCopy = measure.cast<RubyMeasure>(); EXPECT_FALSE(rubyMeasureCopy.usesBCLMeasure()); EXPECT_FALSE(rubyMeasureCopy.isUserScript()); EXPECT_EQ(6u,rubyMeasureCopy.arguments().size()); MeasureGroupRecord measureGroupRecordFromRuby = rubyMeasureRecord.measureGroupRecord().get(); EXPECT_EQ(measureGroupRecord.databaseTableName(),measureGroupRecordFromRuby.databaseTableName()); EXPECT_EQ(measureGroupRecord.id(),measureGroupRecordFromRuby.id()); } // Reopen database { ProjectDatabase database = getExistingDatabase("RubyMeasureRecord_RubyScript"); ProblemRecordVector problemRecords = ProblemRecord::getProblemRecords(database); ASSERT_FALSE(problemRecords.empty()); EXPECT_EQ(1u,problemRecords.size()); ProblemRecord problemRecord = problemRecords[0]; // COPY-PASTED FROM ABOVE // Variable Records InputVariableRecordVector measureGroupRecords = problemRecord.inputVariableRecords(); EXPECT_EQ(1u,measureGroupRecords.size()); // Discrete Variable Record MeasureGroupRecord measureGroupRecord = measureGroupRecords.at(0).cast<MeasureGroupRecord>(); EXPECT_EQ(2u,measureGroupRecord.measureRecordIds(true).size()); EXPECT_EQ(2u,measureGroupRecord.measureRecords(true).size()); RubyMeasureRecord rubyMeasureRecord(rubyMeasure,measureGroupRecord,0); EXPECT_EQ("MeasureRecords",rubyMeasureRecord.databaseTableName()); ObjectRecordVector objectRecordVector = rubyMeasureRecord.children(); EXPECT_EQ(6u,objectRecordVector.size()); // arguments objectRecordVector = rubyMeasureRecord.resources(); EXPECT_EQ(1u,objectRecordVector.size()); // script FileReferenceRecord scriptRecord = rubyMeasureRecord.fileReferenceRecord(); EXPECT_EQ("FileReferenceRecords",scriptRecord.databaseTableName()); Measure measure = rubyMeasureRecord.measure(); EXPECT_EQ(true,measure.isSelected()); ASSERT_TRUE(measure.optionalCast<RubyMeasure>()); RubyMeasure rubyMeasureCopy = measure.cast<RubyMeasure>(); EXPECT_FALSE(rubyMeasureCopy.usesBCLMeasure()); EXPECT_FALSE(rubyMeasureCopy.isUserScript()); EXPECT_EQ(6u,rubyMeasureCopy.arguments().size()); MeasureGroupRecord measureGroupRecordFromRuby = rubyMeasureRecord.measureGroupRecord().get(); EXPECT_EQ(measureGroupRecord.databaseTableName(),measureGroupRecordFromRuby.databaseTableName()); EXPECT_EQ(measureGroupRecord.id(),measureGroupRecordFromRuby.id()); } }
TEST_F(ProjectFixture, RubyMeasureRecord_BCLMeasure) { // Construct problem with RubyMeasure that points to BCLMeasure Problem problem("Problem",VariableVector(),runmanager::Workflow()); MeasureGroup dvar("Variable",MeasureVector()); problem.push(dvar); openstudio::path measuresPath = resourcesPath() / toPath("/utilities/BCL/Measures"); openstudio::path dir = measuresPath / toPath("SetWindowToWallRatioByFacade"); BCLMeasure measure = BCLMeasure::load(dir).get(); RubyMeasure rpert(measure); dvar.push(rpert); OSArgument arg = OSArgument::makeDoubleArgument("wwr"); arg.setValue(0.4); rpert.setArgument(arg); arg = OSArgument::makeIntegerArgument("typo_arg"); arg.setDefaultValue(1); rpert.setArgument(arg); // Serialize to database { ProjectDatabase database = getCleanDatabase("RubyMeasureRecord_BCLMeasure"); bool didStartTransaction = database.startTransaction(); EXPECT_TRUE(didStartTransaction); // Problem Record ProblemRecord problemRecord = ProblemRecord::factoryFromProblem(problem,database); database.save(); if (didStartTransaction) { EXPECT_TRUE(database.commitTransaction()); } } // Re-open database, de-serialize, verify that RubyMeasure is intact. openstudio::path tempDir1 = measuresPath / toPath(toString(createUUID())); { ProjectDatabase database = getExistingDatabase("RubyMeasureRecord_BCLMeasure"); ASSERT_EQ(1u,ProblemRecord::getProblemRecords(database).size()); ASSERT_EQ(1u,MeasureGroupRecord::getMeasureGroupRecords(database).size()); EXPECT_EQ(1u,RubyMeasureRecord::getRubyMeasureRecords(database).size()); MeasureRecordVector dprs = MeasureGroupRecord::getMeasureGroupRecords(database)[0].measureRecords(false); ASSERT_EQ(1u,dprs.size()); ASSERT_TRUE(dprs[0].optionalCast<RubyMeasureRecord>()); RubyMeasureRecord rpr = dprs[0].cast<RubyMeasureRecord>(); RubyMeasure rp = rpr.rubyMeasure(); EXPECT_TRUE(rp.usesBCLMeasure()); EXPECT_TRUE(rp.measure()); EXPECT_EQ(dir,rp.measureDirectory()); EXPECT_EQ(measure.uuid(),rp.measureUUID()); EXPECT_EQ(measure.versionUUID(),rp.measureVersionUUID()); EXPECT_ANY_THROW(rp.perturbationScript()); EXPECT_EQ(2u,rp.arguments().size()); EXPECT_FALSE(rp.hasIncompleteArguments()); // Update measure and save BCLMeasure newVersion = measure.clone(tempDir1).get(); newVersion.setDescription("Window to wall ratio with sill height configurable."); newVersion.save(); EXPECT_NE(measure.versionUUID(),newVersion.versionUUID()); OSArgumentVector args; args.push_back(OSArgument::makeDoubleArgument("wwr")); args.push_back(OSArgument::makeDoubleArgument("sillHeight")); Problem problemCopy = ProblemRecord::getProblemRecords(database)[0].problem(); problemCopy.updateMeasure(newVersion,args,false); bool didStartTransaction = database.startTransaction(); EXPECT_TRUE(didStartTransaction); // Problem Record ProblemRecord problemRecord = ProblemRecord::factoryFromProblem(problemCopy,database); database.save(); if (didStartTransaction) { EXPECT_TRUE(database.commitTransaction()); } } // Re-open database, check that old argument records are gone, check that de-serialized object ok openstudio::path tempDir2 = measuresPath / toPath(toString(createUUID())); { ProjectDatabase database = getExistingDatabase("RubyMeasureRecord_BCLMeasure"); ASSERT_EQ(1u,ProblemRecord::getProblemRecords(database).size()); EXPECT_EQ(1u,MeasureGroupRecord::getMeasureGroupRecords(database).size()); EXPECT_EQ(1u,RubyMeasureRecord::getRubyMeasureRecords(database).size()); EXPECT_EQ(1u,FileReferenceRecord::getFileReferenceRecords(database).size()); EXPECT_EQ(2u,OSArgumentRecord::getOSArgumentRecords(database).size()); Problem problemCopy = ProblemRecord::getProblemRecords(database)[0].problem(); InputVariableVector vars = problemCopy.variables(); ASSERT_FALSE(vars.empty()); ASSERT_TRUE(vars[0].optionalCast<MeasureGroup>()); MeasureVector dps = vars[0].cast<MeasureGroup>().measures(false); ASSERT_FALSE(dps.empty()); ASSERT_TRUE(dps[0].optionalCast<RubyMeasure>()); RubyMeasure rp = dps[0].cast<RubyMeasure>(); EXPECT_TRUE(rp.usesBCLMeasure()); EXPECT_TRUE(rp.measure()); EXPECT_EQ(tempDir1,rp.measureDirectory()); EXPECT_EQ(measure.uuid(),rp.measureUUID()); EXPECT_NE(measure.versionUUID(),rp.measureVersionUUID()); EXPECT_ANY_THROW(rp.perturbationScript()); ASSERT_EQ(2u,rp.arguments().size()); EXPECT_TRUE(rp.hasIncompleteArguments()); EXPECT_EQ("wwr",rp.arguments()[0].name()); ASSERT_EQ(1u,rp.incompleteArguments().size()); EXPECT_EQ("sillHeight",rp.incompleteArguments()[0].name()); // Set to different measure BCLMeasure measure2 = measure.clone(tempDir2).get(); measure2.changeUID(); measure2.incrementVersionId(); measure2.save(); measure2 = BCLMeasure::load(tempDir2).get(); EXPECT_NE(measure.uuid(),measure2.uuid()); EXPECT_NE(measure.versionUUID(),measure2.versionUUID()); rp.setMeasure(measure2); EXPECT_TRUE(rp.isDirty()); EXPECT_TRUE(problemCopy.isDirty()); bool didStartTransaction = database.startTransaction(); EXPECT_TRUE(didStartTransaction); // Problem Record ProblemRecord problemRecord = ProblemRecord::factoryFromProblem(problemCopy,database); database.save(); if (didStartTransaction) { EXPECT_TRUE(database.commitTransaction()); } } // Re-open database, check that old measure and all argument records are gone { ProjectDatabase database = getExistingDatabase("RubyMeasureRecord_BCLMeasure"); ASSERT_EQ(1u,ProblemRecord::getProblemRecords(database).size()); EXPECT_EQ(1u,MeasureGroupRecord::getMeasureGroupRecords(database).size()); EXPECT_EQ(1u,RubyMeasureRecord::getRubyMeasureRecords(database).size()); EXPECT_EQ(1u,FileReferenceRecord::getFileReferenceRecords(database).size()); EXPECT_EQ(0u,OSArgumentRecord::getOSArgumentRecords(database).size()); Problem problemCopy = ProblemRecord::getProblemRecords(database)[0].problem(); InputVariableVector vars = problemCopy.variables(); ASSERT_FALSE(vars.empty()); ASSERT_TRUE(vars[0].optionalCast<MeasureGroup>()); MeasureVector dps = vars[0].cast<MeasureGroup>().measures(false); ASSERT_FALSE(dps.empty()); ASSERT_TRUE(dps[0].optionalCast<RubyMeasure>()); RubyMeasure rp = dps[0].cast<RubyMeasure>(); EXPECT_TRUE(rp.usesBCLMeasure()); EXPECT_TRUE(rp.measure()); EXPECT_EQ(tempDir2,rp.measureDirectory()); EXPECT_NE(measure.uuid(),rp.measureUUID()); EXPECT_NE(measure.versionUUID(),rp.measureVersionUUID()); EXPECT_ANY_THROW(rp.perturbationScript()); ASSERT_EQ(0u,rp.arguments().size()); EXPECT_FALSE(rp.hasIncompleteArguments()); } boost::filesystem::remove_all(tempDir1); boost::filesystem::remove_all(tempDir2); }
TEST_F(ProjectFixture,DataPoint_DataPointRecord_Synchronization) { // create analysis with one data point ProjectDatabase database = getCleanDatabase("DataPoint_DataPointRecord_Synchronization"); analysis::Analysis analysis( "Test Analysis", analysis::Problem("Test Problem",analysis::VariableVector(),runmanager::Workflow()), analysis::DesignOfExperiments(analysis::DesignOfExperimentsOptions( analysis::DesignOfExperimentsType::FullFactorial)), FileReference(toPath("in.osm"))); std::vector<QVariant> variableValues; analysis::DataPoint original = analysis.problem().createDataPoint(variableValues).get(); analysis.addDataPoint(original); // save analysis to database { bool didStartTransaction = database.startTransaction(); AnalysisRecord analysisRecord(analysis,database); DataPointRecordVector dataPointRecords = DataPointRecord::getDataPointRecords(database); ASSERT_EQ(1u,dataPointRecords.size()); DataPointRecord dataPointRecord = dataPointRecords[0]; EXPECT_FALSE(dataPointRecord.isComplete()); database.save(); if (didStartTransaction) { database.commitTransaction(); } } // reload analysis, change data point, save back to database // verify that change shows up in database OptionalAnalysis loadedAnalysis; { AnalysisRecordVector loadedAnalysisRecords = AnalysisRecord::getAnalysisRecords(database); ASSERT_EQ(1u,loadedAnalysisRecords.size()); loadedAnalysis = loadedAnalysisRecords[0].analysis(); analysis::DataPointVector loadedDataPoints = loadedAnalysis->dataPoints(); ASSERT_EQ(1u,loadedDataPoints.size()); loadedDataPoints[0].getImpl<analysis::detail::DataPoint_Impl>()->markComplete(); EXPECT_TRUE(loadedDataPoints[0].isComplete()); } ASSERT_TRUE(loadedAnalysis); { bool didStartTransaction = database.startTransaction(); database.unloadUnusedCleanRecords(); AnalysisRecord analysisRecord(*loadedAnalysis,database); database.save(); if (didStartTransaction) { database.commitTransaction(); } EXPECT_EQ(1u,AnalysisRecord::getAnalysisRecords(database).size()); DataPointRecordVector dataPointRecords = DataPointRecord::getDataPointRecords(database); ASSERT_EQ(1u,dataPointRecords.size()); DataPointRecord dataPointRecord = dataPointRecords[0]; EXPECT_TRUE(dataPointRecord.isComplete()); } }
TEST_F(ProjectFixture,AnalysisRecord_AddAndRemoveDataPoints) { // create an analysis with data points, no results Analysis analysis("My Analysis", Problem("My Problem",VariableVector(),runmanager::Workflow()), FileReferenceType::OSM); Problem problem = analysis.problem(); DiscretePerturbationVector perturbations; int pi = 1; std::stringstream ss; for (int i = 0; i < 3; ++i) { perturbations.push_back(NullPerturbation()); for (int j = 0; j < 4; ++j) { ss << "measure" << pi << ".rb"; perturbations.push_back(RubyPerturbation(toPath(ss.str()), FileReferenceType::OSM, FileReferenceType::OSM,true)); ss.str(""); ++pi; } ss << "Variable " << i+1; problem.push(DiscreteVariable(ss.str(),perturbations)); perturbations.clear(); ss.str(""); } EXPECT_EQ(3u,analysis.problem().variables().size()); ASSERT_FALSE(problem.variables().empty()); EXPECT_EQ(5u,problem.variables()[0].cast<DiscreteVariable>().numPerturbations(true)); problem.pushResponse( LinearFunction("Energy Use", VariableVector(1u,OutputAttributeVariable("Energy Use","Total.Energy.Use")))); EXPECT_EQ(1u,problem.responses().size()); std::vector<QVariant> values(3u,0); OptionalDataPoint dataPoint = problem.createDataPoint(values); ASSERT_TRUE(dataPoint); bool test = analysis.addDataPoint(*dataPoint); EXPECT_TRUE(test); values[1] = 3; dataPoint = problem.createDataPoint(values); ASSERT_TRUE(dataPoint); test = analysis.addDataPoint(*dataPoint); EXPECT_TRUE(test); values[0] = 1; values[1] = 2; values[2] = 4; dataPoint = problem.createDataPoint(values); ASSERT_TRUE(dataPoint); test = analysis.addDataPoint(*dataPoint); EXPECT_TRUE(test); EXPECT_TRUE(analysis.isDirty()); EXPECT_TRUE(problem.isDirty()); BOOST_FOREACH(const Variable& variable, problem.variables()) { EXPECT_TRUE(variable.isDirty()); ASSERT_TRUE(variable.optionalCast<DiscreteVariable>()); BOOST_FOREACH(const DiscretePerturbation& perturbation,variable.cast<DiscreteVariable>().perturbations(false)) { EXPECT_TRUE(perturbation.isDirty()); } } BOOST_FOREACH(const Function& response, problem.responses()) { EXPECT_TRUE(response.isDirty()); } BOOST_FOREACH(const DataPoint& dataPoint, analysis.dataPoints()) { EXPECT_TRUE(dataPoint.isDirty()); } // save to database, make sure everything is there, make sure clean signal filters down ProjectDatabase database = getCleanDatabase("AnalysisRecord_AddAndRemoveDataPoints"); { bool transactionStarted = database.startTransaction(); EXPECT_TRUE(transactionStarted); AnalysisRecord analysisRecord(analysis,database); database.save(); test = database.commitTransaction(); EXPECT_TRUE(test); EXPECT_EQ(analysis.uuid(),analysisRecord.handle()); EXPECT_EQ(analysis.versionUUID(),analysisRecord.uuidLast()); ASSERT_NO_THROW(analysisRecord.problemRecord()); ProblemRecord problemRecord = analysisRecord.problemRecord(); InputVariableRecordVector variableRecords = problemRecord.inputVariableRecords(); EXPECT_EQ(3u,variableRecords.size()); ASSERT_FALSE(variableRecords.empty()); ASSERT_TRUE(variableRecords[0].optionalCast<DiscreteVariableRecord>()); DiscretePerturbationRecordVector perturbationRecords = variableRecords[0].cast<DiscreteVariableRecord>().discretePerturbationRecords(false); EXPECT_EQ(5u,perturbationRecords.size()); ASSERT_TRUE(perturbationRecords.size() > 1); EXPECT_TRUE(perturbationRecords[0].optionalCast<NullPerturbationRecord>()); EXPECT_TRUE(perturbationRecords[1].optionalCast<RubyPerturbationRecord>()); EXPECT_EQ(3u,analysisRecord.dataPointRecords().size()); EXPECT_TRUE(analysisRecord.completeDataPointRecords().empty()); } analysis.clearDirtyFlag(); EXPECT_FALSE(analysis.isDirty()); EXPECT_FALSE(problem.isDirty()); BOOST_FOREACH(const Variable& variable, problem.variables()) { EXPECT_FALSE(variable.isDirty()); ASSERT_TRUE(variable.optionalCast<DiscreteVariable>()); BOOST_FOREACH(const DiscretePerturbation& perturbation,variable.cast<DiscreteVariable>().perturbations(false)) { EXPECT_FALSE(perturbation.isDirty()); } } BOOST_FOREACH(const Function& response, problem.responses()) { EXPECT_FALSE(response.isDirty()); } BOOST_FOREACH(const DataPoint& dataPoint, analysis.dataPoints()) { EXPECT_FALSE(dataPoint.isDirty()); } // make some more data points and make sure dirty flag bubbles up values[0] = 3; values[1] = 2; values[2] = 2; dataPoint = problem.createDataPoint(values); ASSERT_TRUE(dataPoint); test = analysis.addDataPoint(*dataPoint); EXPECT_TRUE(test); values[0] = 0; values[1] = 4; values[2] = 0; dataPoint = problem.createDataPoint(values); ASSERT_TRUE(dataPoint); test = analysis.addDataPoint(*dataPoint); EXPECT_TRUE(test); EXPECT_EQ(5u,analysis.dataPoints().size()); EXPECT_TRUE(analysis.isDirty()); EXPECT_FALSE(problem.isDirty()); BOOST_FOREACH(const Variable& variable, problem.variables()) { EXPECT_FALSE(variable.isDirty()); ASSERT_TRUE(variable.optionalCast<DiscreteVariable>()); BOOST_FOREACH(const DiscretePerturbation& perturbation,variable.cast<DiscreteVariable>().perturbations(false)) { EXPECT_FALSE(perturbation.isDirty()); } } BOOST_FOREACH(const Function& response, problem.responses()) { EXPECT_FALSE(response.isDirty()); } int i = 0; BOOST_FOREACH(const DataPoint& dataPoint, analysis.dataPoints()) { if (i < 3) { EXPECT_FALSE(dataPoint.isDirty()); } else { EXPECT_TRUE(dataPoint.isDirty()); } ++i; } // save to database, make sure changes made it in { bool transactionStarted = database.startTransaction(); EXPECT_TRUE(transactionStarted); database.unloadUnusedCleanRecords(); // ETH@20130201 - Having to call this is awkward. // Where is the best place? AnalysisRecord analysisRecord(analysis,database); database.save(); test = database.commitTransaction(); EXPECT_TRUE(test); EXPECT_EQ(analysis.uuid(),analysisRecord.handle()); EXPECT_EQ(analysis.versionUUID(),analysisRecord.uuidLast()); ASSERT_NO_THROW(analysisRecord.problemRecord()); ProblemRecord problemRecord = analysisRecord.problemRecord(); EXPECT_EQ(problemRecord.handle(),analysisRecord.problemRecord().handle()); EXPECT_EQ(problemRecord.uuidLast(),analysisRecord.problemRecord().uuidLast()); InputVariableRecordVector variableRecords = problemRecord.inputVariableRecords(); EXPECT_EQ(3u,variableRecords.size()); ASSERT_FALSE(variableRecords.empty()); ASSERT_TRUE(variableRecords[0].optionalCast<DiscreteVariableRecord>()); DiscretePerturbationRecordVector perturbationRecords = variableRecords[0].cast<DiscreteVariableRecord>().discretePerturbationRecords(false); EXPECT_EQ(5u,perturbationRecords.size()); ASSERT_TRUE(perturbationRecords.size() > 1); EXPECT_TRUE(perturbationRecords[0].optionalCast<NullPerturbationRecord>()); EXPECT_TRUE(perturbationRecords[1].optionalCast<RubyPerturbationRecord>()); EXPECT_EQ(5u,analysisRecord.dataPointRecords().size()); EXPECT_TRUE(analysisRecord.completeDataPointRecords().empty()); } analysis.clearDirtyFlag(); EXPECT_FALSE(analysis.isDirty()); EXPECT_FALSE(problem.isDirty()); BOOST_FOREACH(const Variable& variable, problem.variables()) { EXPECT_FALSE(variable.isDirty()); ASSERT_TRUE(variable.optionalCast<DiscreteVariable>()); BOOST_FOREACH(const DiscretePerturbation& perturbation,variable.cast<DiscreteVariable>().perturbations(false)) { EXPECT_FALSE(perturbation.isDirty()); } } BOOST_FOREACH(const Function& response, problem.responses()) { EXPECT_FALSE(response.isDirty()); } BOOST_FOREACH(const DataPoint& dataPoint, analysis.dataPoints()) { EXPECT_FALSE(dataPoint.isDirty()); } // remove a data point and save database. make sure point actually disappears DataPoint toRemove = analysis.dataPoints()[3]; test = analysis.removeDataPoint(toRemove); EXPECT_TRUE(test); EXPECT_TRUE(analysis.isDirty()); { bool transactionStarted = database.startTransaction(); EXPECT_TRUE(transactionStarted); database.unloadUnusedCleanRecords(); // ETH@20130201 - Having to call this is awkward. // Where is the best place? AnalysisRecord analysisRecord(analysis,database); database.save(); test = database.commitTransaction(); EXPECT_TRUE(test); EXPECT_EQ(analysis.uuid(),analysisRecord.handle()); EXPECT_EQ(analysis.versionUUID(),analysisRecord.uuidLast()); ASSERT_NO_THROW(analysisRecord.problemRecord()); ProblemRecord problemRecord = analysisRecord.problemRecord(); EXPECT_EQ(problemRecord.handle(),analysisRecord.problemRecord().handle()); EXPECT_EQ(problemRecord.uuidLast(),analysisRecord.problemRecord().uuidLast()); InputVariableRecordVector variableRecords = problemRecord.inputVariableRecords(); EXPECT_EQ(3u,variableRecords.size()); ASSERT_FALSE(variableRecords.empty()); ASSERT_TRUE(variableRecords[0].optionalCast<DiscreteVariableRecord>()); DiscretePerturbationRecordVector perturbationRecords = variableRecords[0].cast<DiscreteVariableRecord>().discretePerturbationRecords(false); EXPECT_EQ(5u,perturbationRecords.size()); ASSERT_TRUE(perturbationRecords.size() > 1); EXPECT_TRUE(perturbationRecords[0].optionalCast<NullPerturbationRecord>()); EXPECT_TRUE(perturbationRecords[1].optionalCast<RubyPerturbationRecord>()); EXPECT_EQ(4u,analysisRecord.dataPointRecords().size()); OptionalDataPointRecord searchResult = database.getObjectRecordByHandle<DataPointRecord>(toRemove.uuid()); EXPECT_FALSE(searchResult); EXPECT_EQ(4u,DataPointRecord::getDataPointRecords(database).size()); } EXPECT_EQ(4u,analysis.dataPoints().size()); test = analysis.clearDirtyFlag(); EXPECT_TRUE(test); }
TEST_F(ProjectFixture,AnalysisRecord_SetProblem) { // create an analysis with data points Problem problem1("Minimal Problem",VariableVector(),runmanager::Workflow()); Analysis analysis("Analysis", problem1, FileReferenceType::OSM); OptionalDataPoint dataPoint = problem1.createDataPoint(std::vector<QVariant>()); ASSERT_TRUE(dataPoint); bool test = analysis.addDataPoint(*dataPoint); EXPECT_TRUE(test); // save to database, make sure everything is there, make sure clean signal filters down ProjectDatabase database = getCleanDatabase("AnalysisRecord_SetProblem"); { bool transactionStarted = database.startTransaction(); EXPECT_TRUE(transactionStarted); AnalysisRecord analysisRecord(analysis,database); database.save(); test = database.commitTransaction(); EXPECT_TRUE(test); ASSERT_NO_THROW(analysisRecord.problemRecord()); ProblemRecord problemRecord = analysisRecord.problemRecord(); EXPECT_EQ(problem1.uuid(),problemRecord.handle()); EXPECT_EQ(problem1.versionUUID(),problemRecord.uuidLast()); EXPECT_EQ(1u,analysisRecord.dataPointRecords().size()); } analysis.clearDirtyFlag(); EXPECT_FALSE(analysis.isDirty()); EXPECT_FALSE(problem1.isDirty()); BOOST_FOREACH(const DataPoint& dataPoint, analysis.dataPoints()) { EXPECT_FALSE(dataPoint.isDirty()); } EXPECT_FALSE(analysis.dataPointsAreInvalid()); // set analysis to have new problem // make sure dirty flag bubbles up, data points marked invalid Problem problem2 = problem1.clone().cast<Problem>(); problem2.setName("Real Problem"); EXPECT_NE(problem1.uuid(),problem2.uuid()); analysis.setProblem(problem2); EXPECT_TRUE(analysis.isDirty()); EXPECT_FALSE(problem1.isDirty()); EXPECT_TRUE(problem2.isDirty()); EXPECT_TRUE(analysis.dataPointsAreInvalid()); RubyPerturbation userScript(toPath("measure.rb"), FileReferenceType::IDF, FileReferenceType::IDF, true); RubyContinuousVariable cvar("Script Argument Variable", ruleset::OSArgument::makeDoubleArgument("COP"), userScript); test = problem2.push(cvar); EXPECT_FALSE(test); // IDF not compatible with seed EXPECT_TRUE(problem2.variables().empty()); test = userScript.setPerturbationScript(toPath("measure.rb"), FileReferenceType::OSM, FileReferenceType::OSM, true); EXPECT_TRUE(test); test = problem2.push(cvar); EXPECT_TRUE(test); EXPECT_EQ(1u,analysis.problem().variables().size()); EXPECT_EQ(1u,analysis.dataPoints().size()); dataPoint = problem2.createDataPoint(std::vector<QVariant>(1u,3.5)); ASSERT_TRUE(dataPoint); test = analysis.addDataPoint(*dataPoint); EXPECT_FALSE(test); // save to database, make sure dataPointsAreInvalid flag was saved, old problem // should still be there, new problem there, and clean signal won't go through Analysis analysisCopy = analysis; // will replace with deserialized version momentarily { bool transactionStarted = database.startTransaction(); EXPECT_TRUE(transactionStarted); database.unloadUnusedCleanRecords(); // ETH@20130201 - Having to call this is awkward. // (As are the brackets) Where is the best place? AnalysisRecord analysisRecord(analysis,database); database.save(); test = database.commitTransaction(); EXPECT_TRUE(test); ASSERT_NO_THROW(analysisRecord.problemRecord()); ProblemRecord problemRecord = analysisRecord.problemRecord(); EXPECT_EQ(problem2.uuid(),problemRecord.handle()); EXPECT_EQ(problem2.versionUUID(),problemRecord.uuidLast()); EXPECT_EQ(2u,ProblemRecord::getProblemRecords(database).size()); // old one still around EXPECT_EQ(1u,analysisRecord.dataPointRecords().size()); test = analysis.clearDirtyFlag(); EXPECT_FALSE(test); Analysis analysisCopy = analysisRecord.analysis(); // should work b/c both problems around } EXPECT_EQ(analysis.uuid(),analysisCopy.uuid()); EXPECT_EQ(analysis.versionUUID(),analysisCopy.versionUUID()); EXPECT_TRUE(analysisCopy.isDirty()); EXPECT_TRUE(analysisCopy.dataPointsAreInvalid()); ASSERT_FALSE(analysisCopy.dataPoints().empty()); EXPECT_NE(analysisCopy.problem().uuid(),analysisCopy.dataPoints()[0].problem().uuid()); test = analysisCopy.clearDirtyFlag(); EXPECT_FALSE(test); // remove data points, save again, make sure dataPointsAreInvalid flag a-okay, new problem // still there and ok, old problem is going to hang around because didn't get rid of it when // analysisRecord still pointing to it, clean signal filters all the way down analysisCopy.removeAllDataPoints(); { bool transactionStarted = database.startTransaction(); EXPECT_TRUE(transactionStarted); database.unloadUnusedCleanRecords(); // ETH@20130201 - Having to call this is awkward. // Where is the best place? AnalysisRecord analysisRecord(analysisCopy,database); database.save(); test = database.commitTransaction(); EXPECT_TRUE(test); ASSERT_NO_THROW(analysisRecord.problemRecord()); ProblemRecord problemRecord = analysisRecord.problemRecord(); EXPECT_EQ(problem2.uuid(),problemRecord.handle()); EXPECT_EQ(problem2.versionUUID(),problemRecord.uuidLast()); // old problem record still hanging around. // TODO: Have use count as child, resource, and be able to (selectively) purge. EXPECT_EQ(2u,ProblemRecord::getProblemRecords(database).size()); EXPECT_TRUE(analysisRecord.dataPointRecords().empty()); analysis = analysisRecord.analysis(); } test = analysis.clearDirtyFlag(); EXPECT_TRUE(test); EXPECT_FALSE(analysis.isDirty()); EXPECT_FALSE(analysis.dataPointsAreInvalid()); EXPECT_FALSE(analysis.resultsAreInvalid()); EXPECT_TRUE(analysis.dataPoints().empty()); }