// Test in context of Workspace, since order needs objectGetter. TEST_F(IdfFixture,WorkspaceObjectOrder) { Workspace workspace(IdfFixture::epIdfFile,openstudio::StrictnessLevel::Draft); WorkspaceObjectOrder wsOrder = workspace.order(); EXPECT_TRUE(wsOrder.inOrder(workspace.objects()[0].handle())); // save current order OptionalHandleVector workspaceOrder = wsOrder.directOrder(); ASSERT_TRUE(workspaceOrder); // order by enum wsOrder.setOrderByIddEnum(); WorkspaceObjectVector objects = workspace.objects(true); for (WorkspaceObjectVector::const_iterator it = objects.begin(), itEnd = objects.end() - 1; it != itEnd; ++ it) { WorkspaceObjectVector::const_iterator nxt = it; ++nxt; EXPECT_TRUE(it->iddObject().type() <= nxt->iddObject().type()); } // restore order wsOrder.setDirectOrder(*workspaceOrder); HandleVector handles = workspace.handles(true); // handles does not include version object, while direct order does HandleVector tempOrder = *workspaceOrder; HandleVector::iterator it = std::find(tempOrder.begin(),tempOrder.end(),workspace.versionObject()->handle()); tempOrder.erase(it); EXPECT_TRUE(tempOrder == handles); // move objects directly wsOrder.insert(handles[32],handles[12]); HandleVector newOrder = workspace.handles(true); EXPECT_EQ(handles.size(),newOrder.size()); EXPECT_TRUE(handles[32] == newOrder[12]); EXPECT_TRUE(handles[12] == newOrder[13]); wsOrder.swap(handles[80],handles[100]); newOrder = workspace.handles(true); EXPECT_EQ(handles.size(),newOrder.size()); EXPECT_TRUE(handles[80] == newOrder[100]); EXPECT_TRUE(handles[100] == newOrder[80]); }
TEST_F(ModelFixture, MeterFromModel) { Model model; IdfObjectVector idfObjects; idfObjects.push_back(IdfObject(IddObjectType::OS_Meter)); idfObjects.back().setString(OS_MeterFields::Name,"Electricity:Facility"); idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"monthly"); idfObjects.back().setString(OS_MeterFields::MeterFileOnly,"false"); LOG(Debug,"Meter text: " << std::endl << idfObjects.back()); idfObjects.push_back(IdfObject(IddObjectType::OS_Meter)); idfObjects.back().setString(OS_MeterFields::Name,"Gas:Building"); idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"hourly"); idfObjects.push_back(IdfObject(IddObjectType::OS_Meter)); idfObjects.back().setString(OS_MeterFields::Name,"InteriorLights:Electricity"); idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"runperiod"); idfObjects.back().setString(OS_MeterFields::MeterFileOnly,"false"); idfObjects.back().setString(OS_MeterFields::Cumulative,"true"); idfObjects.push_back(IdfObject(IddObjectType::OS_Meter)); idfObjects.back().setString(OS_MeterFields::Name,"General:InteriorLights:Electricity:Zone:North Zone"); idfObjects.back().setString(OS_MeterFields::ReportingFrequency,"daily"); idfObjects.back().setString(OS_MeterFields::Cumulative,"true"); EXPECT_EQ(static_cast<unsigned>(4), idfObjects.size()); HandleVector handles = getHandles(model.addObjects(idfObjects)); ASSERT_EQ(static_cast<unsigned>(4), handles.size()); EXPECT_EQ(static_cast<unsigned>(4), model.getModelObjects<Meter>().size()); //"Output:Meter,Electricity:Facility,monthly;" OptionalMeter meter = model.getModelObject<Meter>(handles[0]); ASSERT_TRUE(meter); EXPECT_EQ("Electricity:Facility", meter->name()); EXPECT_FALSE(meter->cumulative()); EXPECT_FALSE(meter->specificEndUse()); EXPECT_FALSE(meter->endUseType()); ASSERT_TRUE(meter->fuelType()); EXPECT_EQ(FuelType::Electricity, meter->fuelType().get().value()); ASSERT_TRUE(meter->installLocationType()); EXPECT_EQ(InstallLocationType::Facility, meter->installLocationType().get().value()); EXPECT_FALSE(meter->specificInstallLocation()); //"Output:Meter:MeterFileOnly,Gas:Building,hourly;" meter = model.getModelObject<Meter>(handles[1]); ASSERT_TRUE(meter); EXPECT_EQ("Gas:Building", meter->name()); EXPECT_FALSE(meter->cumulative()); EXPECT_FALSE(meter->specificEndUse()); EXPECT_FALSE(meter->endUseType()); ASSERT_TRUE(meter->fuelType()); EXPECT_EQ(FuelType::Gas, meter->fuelType().get().value()); ASSERT_TRUE(meter->installLocationType()); EXPECT_EQ(InstallLocationType::Building, meter->installLocationType().get().value()); EXPECT_FALSE(meter->specificInstallLocation()); //"Output:Meter:Cumulative,InteriorLights:Electricity,runperiod;" meter = model.getModelObject<Meter>(handles[2]); ASSERT_TRUE(meter); EXPECT_EQ("InteriorLights:Electricity", meter->name()); EXPECT_TRUE(meter->cumulative()); EXPECT_FALSE(meter->specificEndUse()); ASSERT_TRUE(meter->endUseType()); EXPECT_EQ(EndUseType::InteriorLights, meter->endUseType().get().value()); ASSERT_TRUE(meter->fuelType()); EXPECT_EQ(FuelType::Electricity, meter->fuelType().get().value()); EXPECT_FALSE(meter->installLocationType()); EXPECT_FALSE(meter->specificInstallLocation()); //"Output:Meter:Cumulative:MeterFileOnly,General:InteriorLights:Electricity:Zone:North Zone,daily;" meter = model.getModelObject<Meter>(handles[3]); ASSERT_TRUE(meter); EXPECT_EQ("General:InteriorLights:Electricity:Zone:North Zone", meter->name()); EXPECT_TRUE(meter->cumulative()); ASSERT_TRUE(meter->specificEndUse()); EXPECT_EQ("General", meter->specificEndUse().get()); ASSERT_TRUE(meter->endUseType()); EXPECT_EQ(EndUseType::InteriorLights, meter->endUseType().get().value()); ASSERT_TRUE(meter->fuelType()); EXPECT_EQ(FuelType::Electricity, meter->fuelType().get().value()); ASSERT_TRUE(meter->installLocationType()); EXPECT_EQ(InstallLocationType::Zone, meter->installLocationType().get().value()); ASSERT_TRUE(meter->specificInstallLocation()); EXPECT_EQ("North Zone", meter->specificInstallLocation().get()); }