std::vector<std::string> EvaporativeFluidCoolerSingleSpeed::blowdownCalculationModeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_EvaporativeFluidCooler_SingleSpeedFields::BlowdownCalculationMode);
}
Example #2
0
std::vector<std::string> BoilerHotWater::validBoilerFlowModeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Boiler_HotWaterFields::BoilerFlowMode);
}
Example #3
0
std::vector<std::string> SizingPlant::loopTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Sizing_PlantFields::LoopType);
}
std::vector<std::string> ControllerMechanicalVentilation::systemOutdoorAirMethodValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Controller_MechanicalVentilationFields::SystemOutdoorAirMethod);
}
Example #5
0
std::vector<std::string> ScheduleRule::validDateSpecificationTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Schedule_RuleFields::DateSpecificationType);
}
std::vector<std::string> RefrigerationWalkInZoneBoundary::stockingDoorOpeningProtectionTypeFacingZoneValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Refrigeration_WalkIn_ZoneBoundaryFields::StockingDoorOpeningProtectionTypeFacingZone);
}
std::vector<std::string> HeatBalanceAlgorithm::algorithmValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_HeatBalanceAlgorithmFields::Algorithm);
}
std::vector<std::string> ZoneHVACTerminalUnitVariableRefrigerantFlow::supplyAirFanplacementValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_ZoneHVAC_TerminalUnit_VariableRefrigerantFlowFields::SupplyAirFanplacement);
}
std::vector<std::string> CoilCoolingDXMultiSpeed::fuelTypeValues() {
    return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                          OS_Coil_Cooling_DX_MultiSpeedFields::FuelType);
}
std::vector<std::string> SolarCollectorIntegralCollectorStorage::bottomSurfaceBoundaryConditionsTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_SolarCollector_IntegralCollectorStorageFields::BottomSurfaceBoundaryConditionsType);
}
std::vector<std::string> CoilWaterHeatingAirToWaterHeatPumpWrapped::evaporatorAirTemperatureTypeforCurveObjectsValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Coil_WaterHeating_AirToWaterHeatPump_WrappedFields::EvaporatorAirTemperatureTypeforCurveObjects);
}
Example #12
0
std::vector<std::string> RefrigerationSystem::intercoolerTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Refrigeration_SystemFields::IntercoolerType);
}
Example #13
0
std::vector<std::string> RefrigerationSystem::suctionTemperatureControlTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Refrigeration_SystemFields::SuctionTemperatureControlType);
}
Example #14
0
std::vector<std::string> ScheduleTypeLimits::unitTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_ScheduleTypeLimitsFields::UnitType);
}
std::vector<std::string> ChillerAbsorptionIndirect::chillerFlowModeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Chiller_Absorption_IndirectFields::ChillerFlowMode);
}
Example #16
0
std::vector<std::string> ControllerWaterCoil::validActuatorVariableValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Controller_WaterCoilFields::ActuatorVariable);
}
std::vector<std::string> ChillerAbsorptionIndirect::generatorHeatSourceTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Chiller_Absorption_IndirectFields::GeneratorHeatSourceType);
}
std::vector<std::string> PeopleDefinition::numberofPeopleCalculationMethodValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_People_DefinitionFields::NumberofPeopleCalculationMethod);
}
std::vector<std::string> CurveRectangularHyperbola2::validOutputUnitTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Curve_RectangularHyperbola2Fields::OutputUnitType);
}
std::vector<std::string> PeopleDefinition::meanRadiantTemperatureCalculationTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_People_DefinitionFields::MeanRadiantTemperatureCalculationType);
}
Example #21
0
std::vector<std::string> CurveCubic::validOutputUnitTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Curve_CubicFields::OutputUnitType);
}
std::vector<std::string> PeopleDefinition::thermalComfortModelTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_People_DefinitionExtensibleFields::ThermalComfortModelType);
}
std::vector<std::string> CoilCoolingLowTempRadiantConstFlow::condensationControlTypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Coil_Cooling_LowTemperatureRadiant_ConstantFlowFields::CondensationControlType);
}
Example #24
0
std::vector<std::string> CurveQuartic::validInputUnitTypeforXValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Curve_QuarticFields::InputUnitTypeforX);
}
Example #25
0
std::vector<std::string> BoilerHotWater::validEfficiencyCurveTemperatureEvaluationVariableValues() 
{
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_Boiler_HotWaterFields::EfficiencyCurveTemperatureEvaluationVariable);
}
Example #26
0
std::vector<std::string> Screen::reflectedBeamTransmittanceAccountingMethodValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_WindowMaterial_ScreenFields::ReflectedBeamTransmittanceAccountingMethod);
}
Example #27
0
std::vector<std::string> GasMixture::gas4TypeValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_WindowMaterial_GasMixtureFields::Gas4Type);
}
Example #28
0
std::vector<std::string> Screen::angleofResolutionforScreenTransmittanceOutputMapValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_WindowMaterial_ScreenFields::AngleofResolutionforScreenTransmittanceOutputMap);
}
std::vector<std::string> SetpointManagerSingleZoneHumidityMaximum::controlVariableValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_SetpointManager_SingleZone_Humidity_MaximumFields::ControlVariable);
}
std::vector<std::string> EvaporativeFluidCoolerSingleSpeed::capacityControlValues() {
  return getIddKeyNames(IddFactory::instance().getObject(iddObjectType()).get(),
                        OS_EvaporativeFluidCooler_SingleSpeedFields::CapacityControl);
}