bool EnergyManagementSystemProgramCallingManager_Impl::addProgram(const EnergyManagementSystemProgram& program) {
//add program to end of vector of programs
bool result = false;
WorkspaceExtensibleGroup group = getObject<ModelObject>().pushExtensibleGroup().cast<WorkspaceExtensibleGroup>();
result = group.setPointer(OS_EnergyManagementSystem_ProgramCallingManagerExtensibleFields::ProgramName, program.handle());
return result;
}
void ZoneHVACEquipmentList_Impl::setCoolingPriority(const ModelObject & equipment, unsigned priority)
{
std::vector<ModelObject> equipmentVector = equipmentInCoolingOrder();
OS_ASSERT( std::find(equipmentVector.begin(),equipmentVector.end(),equipment) != equipmentVector.end() );
if( priority > equipmentVector.size() ) priority = equipmentVector.size();
if( priority < 1 ) priority = 1;
equipmentVector.erase(std::find(equipmentVector.begin(),equipmentVector.end(),equipment));
equipmentVector.insert(equipmentVector.begin() + (priority - 1),equipment);
unsigned newPriority = 1;
for( std::vector<ModelObject>::iterator it = equipmentVector.begin();
it != equipmentVector.end();
++it )
{
WorkspaceExtensibleGroup eg = getGroupForModelObject(*it);
eg.setUnsigned(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipmentCoolingSequence,newPriority);
newPriority++;
}
}
bool AvailabilityManagerAssignmentList_Impl::addAvailabilityManager(const AvailabilityManager & avm)
{
WorkspaceExtensibleGroup eg = getObject<ModelObject>().pushExtensibleGroup().cast<WorkspaceExtensibleGroup>();
bool ok = eg.setPointer(OS_AvailabilityManagerAssignmentListExtensibleFields::AvailabilityManagerName, avm.handle());
return ok;
}
bool ModelObjectList_Impl::addModelObject(const ModelObject& modelObject ) {
WorkspaceExtensibleGroup eg = getObject<ModelObject>().pushExtensibleGroup().cast<WorkspaceExtensibleGroup>();
bool ok = eg.setPointer(OS_ModelObjectListExtensibleFields::ModelObject,modelObject.handle());
if( !ok ) {
getObject<ModelObject>().eraseExtensibleGroup(eg.groupIndex());
}
return ok;
}
void ZoneHVACEquipmentList_Impl::removeEquipment(const ModelObject & equipment)
{
std::vector<ModelObject> coolingVector = equipmentInCoolingOrder();
std::vector<ModelObject> heatingVector = equipmentInHeatingOrder();
std::vector<IdfExtensibleGroup> groups = extensibleGroups();
for( std::vector<IdfExtensibleGroup>::iterator it = groups.begin();
it != groups.end();
++it )
{
boost::optional<WorkspaceObject> wo = it->cast<WorkspaceExtensibleGroup>().getTarget(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipment);
OS_ASSERT(wo);
if( wo->handle() == equipment.handle() )
{
getObject<ModelObject>().eraseExtensibleGroup(it->groupIndex());
break;
}
}
coolingVector.erase(std::find(coolingVector.begin(),coolingVector.end(),equipment));
heatingVector.erase(std::find(heatingVector.begin(),heatingVector.end(),equipment));
unsigned priority = 1;
for( std::vector<ModelObject>::iterator it = coolingVector.begin();
it != coolingVector.end();
++it )
{
WorkspaceExtensibleGroup eg = getGroupForModelObject(*it);
eg.setUnsigned(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipmentCoolingSequence,priority);
priority++;
}
priority = 1;
for( std::vector<ModelObject>::iterator it = heatingVector.begin();
it != heatingVector.end();
++it )
{
WorkspaceExtensibleGroup eg = getGroupForModelObject(*it);
eg.setUnsigned(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipmentHeatingorNoLoadSequence,priority);
priority++;
}
}
bool WaterUseConnections_Impl::addWaterUseEquipment(const WaterUseEquipment & waterUseEquipment)
{
bool result = false;
if( waterUseEquipment.model() == model() )
{
WorkspaceExtensibleGroup group = getObject<WaterUseConnections>().pushExtensibleGroup().cast<WorkspaceExtensibleGroup>();
group.setPointer(OS_WaterUse_ConnectionsExtensibleFields::WaterUseEquipmentName,waterUseEquipment.handle());
result = true;
}
return result;
}
std::vector<EnergyManagementSystemProgram> EnergyManagementSystemProgramCallingManager_Impl::programs() const {
// loop through extensible groups and return vector of programs
std::vector<EnergyManagementSystemProgram> result;
auto groups = extensibleGroups();
for (const auto & elem : groups) {
WorkspaceExtensibleGroup group = elem.cast<WorkspaceExtensibleGroup>();
boost::optional<WorkspaceObject> wo = group.getTarget(OS_EnergyManagementSystem_ProgramCallingManagerExtensibleFields::ProgramName);
if (wo){
EnergyManagementSystemProgram program = wo->cast<EnergyManagementSystemProgram>();
result.push_back(program);
}
}
return result;
}
boost::optional<EnergyManagementSystemProgram> EnergyManagementSystemProgramCallingManager_Impl::getProgram(unsigned index) const {
//return program at index
boost::optional<EnergyManagementSystemProgram> result;
auto groups = extensibleGroups();
unsigned sizeOfGroup = numExtensibleGroups();
if ((index < sizeOfGroup) && (!groups[index].empty())) {
WorkspaceExtensibleGroup group = groups[index].cast<WorkspaceExtensibleGroup>();
boost::optional<WorkspaceObject> wo = group.getTarget(OS_EnergyManagementSystem_ProgramCallingManagerExtensibleFields::ProgramName);
if (wo) {
EnergyManagementSystemProgram program = wo->cast<EnergyManagementSystemProgram>();
result = program;
}
}
return result;
}
bool EnergyManagementSystemProgramCallingManager_Impl::setPrograms(const std::vector<EnergyManagementSystemProgram>& programs) {
//add programs to end of vector of programs
std::vector<bool> ok(programs.size(), false);
bool result = false;
for (auto &program : programs) {
WorkspaceExtensibleGroup group = getObject<ModelObject>().pushExtensibleGroup().cast<WorkspaceExtensibleGroup>();
result = group.setPointer(OS_EnergyManagementSystem_ProgramCallingManagerExtensibleFields::ProgramName, program.handle());
ok.at(OS_EnergyManagementSystem_ProgramCallingManagerExtensibleFields::ProgramName) = result;
}
//check if all the programs set true
result = true;
for (size_t i = 0; i<ok.size(); i++) {
if (!ok.at(i)) {//ok value is false
result = false; //not all values in array are true
}
}
return result;
}
void ZoneHVACEquipmentList_Impl::addEquipment(const ModelObject & equipment)
{
unsigned count = this->equipment().size();
WorkspaceExtensibleGroup eg = getObject<ModelObject>().pushExtensibleGroup().cast<WorkspaceExtensibleGroup>();
bool ok = eg.setPointer(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipment,equipment.handle());
if( ok )
{
eg.setUnsigned(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipmentCoolingSequence,count + 1);
eg.setUnsigned(OS_ZoneHVAC_EquipmentListExtensibleFields::ZoneEquipmentHeatingorNoLoadSequence,count + 1);
}
else
{
getObject<ModelObject>().eraseExtensibleGroup(eg.groupIndex());
}
}
std::vector<WaterUseEquipment> WaterUseConnections_Impl::waterUseEquipment() const
{
std::vector<WaterUseEquipment> result;
std::vector<IdfExtensibleGroup> groups = extensibleGroups();
for( const auto & elem : groups )
{
WorkspaceExtensibleGroup group = elem.cast<WorkspaceExtensibleGroup>();
boost::optional<WorkspaceObject> wo = group.getTarget(OS_WaterUse_ConnectionsExtensibleFields::WaterUseEquipmentName);
if( wo )
{
WaterUseEquipment equipment = wo->cast<WaterUseEquipment>();
result.push_back(equipment);
}
}
return result;
}
OptionalModelObject ReverseTranslator::translateZoneList( const WorkspaceObject & workspaceObject )
{
if( workspaceObject.iddObject().type() != IddObjectType::Zone ){
LOG(Error, "WorkspaceObject is not IddObjectType: Zone");
return boost::none;
}
openstudio::model::SpaceType spaceType( m_model );
OptionalString s = workspaceObject.name();
if(s){
spaceType.setName(*s);
}
for (const IdfExtensibleGroup& idfGroup : workspaceObject.extensibleGroups()){
WorkspaceExtensibleGroup workspaceGroup = idfGroup.cast<WorkspaceExtensibleGroup>();
OptionalWorkspaceObject target = workspaceGroup.getTarget(0);
if (target){
OptionalModelObject modelObject = translateAndMapWorkspaceObject(*target);
if (modelObject){
if (modelObject->optionalCast<Space>()){
Space space = modelObject->cast<Space>();
if (space.spaceType()){
LOG(Warn, "Overriding previously assigned SpaceType for Space '" << space.name().get() << "'");
}
space.setSpaceType(spaceType);
}
}
}
}
return spaceType;
}
void ModelObjectList_Impl::removeModelObject(const ModelObject& modelObject ) {
WorkspaceExtensibleGroup eg = getGroupForModelObject(modelObject);
getObject<ModelObject>().eraseExtensibleGroup(eg.groupIndex());
}
OptionalModelObject ReverseTranslator::translateSizingZone( const WorkspaceObject & workspaceObject )
{
boost::optional<WorkspaceObject> target = workspaceObject.getTarget(Sizing_ZoneFields::ZoneorZoneListName);
std::vector<ThermalZone> thermalZones;
if( target ) {
// just one thermal zone
boost::optional<ModelObject> mo;
if (target->iddObject().type() == IddObjectType::Zone) {
mo = translateAndMapWorkspaceObject(target.get());
if( mo ) {
if( boost::optional<Space> space = mo->optionalCast<Space>() ) {
boost::optional<ThermalZone> thermalZone = space->thermalZone();
if (thermalZone) {
thermalZones.push_back(*thermalZone);
}
}
}
} else if (target->iddObject().type() == IddObjectType::ZoneList) {
// get all thermal zones in zone list
for (const IdfExtensibleGroup& idfGroup : target->extensibleGroups()) {
WorkspaceExtensibleGroup workspaceGroup = idfGroup.cast<WorkspaceExtensibleGroup>();
OptionalWorkspaceObject owo = workspaceGroup.getTarget(0);
if (owo) {
mo = translateAndMapWorkspaceObject(owo.get());
if( mo ) {
if( boost::optional<Space> space = mo->optionalCast<Space>() ) {
boost::optional<ThermalZone> thermalZone = space->thermalZone();
if (thermalZone) {
thermalZones.push_back(*thermalZone);
}
}
}
}
}
}
}
if(thermalZones.empty())
{
LOG(Error, "Error importing object: "
<< workspaceObject.briefDescription()
<< " Can't find associated ThermalZone(s).");
return boost::none;
}
boost::optional<ModelObject> result;
for (ThermalZone thermalZone : thermalZones) {
// sizing zone is constructed in thermal zone ctor
openstudio::model::SizingZone sizingZone = thermalZone.sizingZone();
// return first sizing zone
if (!result) {
result = sizingZone;
}
boost::optional<std::string> s;
boost::optional<double> value;
// ZoneCoolingDesignSupplyAirTemperature
value = workspaceObject.getDouble(Sizing_ZoneFields::ZoneCoolingDesignSupplyAirTemperature);
if( value )
{
sizingZone.setZoneCoolingDesignSupplyAirTemperature(value.get());
}
// ZoneHeatingDesignSupplyAirTemperature
value = workspaceObject.getDouble(Sizing_ZoneFields::ZoneHeatingDesignSupplyAirTemperature);
if( value )
{
sizingZone.setZoneHeatingDesignSupplyAirTemperature(value.get());
}
// ZoneCoolingDesignSupplyAirHumidityRatio
value = workspaceObject.getDouble(Sizing_ZoneFields::ZoneHeatingDesignSupplyAirHumidityRatio);
if( value )
{
sizingZone.setZoneHeatingDesignSupplyAirHumidityRatio(value.get());
}
// ZoneHeatingDesignSupplyAirHumidityRatio
value = workspaceObject.getDouble(Sizing_ZoneFields::ZoneHeatingDesignSupplyAirHumidityRatio);
if( value )
{
sizingZone.setZoneHeatingDesignSupplyAirHumidityRatio(value.get());
}
// DesignSpecificationOutdoorAirObjectName
target = workspaceObject.getTarget(Sizing_ZoneFields::DesignSpecificationOutdoorAirObjectName);
if (target) {
OptionalModelObject mo = translateDesignSpecificationOutdoorAir(*target);
if (mo) {
if (mo->optionalCast<DesignSpecificationOutdoorAir>()) {
std::vector<Space> spaces = thermalZone.spaces();
OS_ASSERT(spaces.size() == 1);
spaces[0].setDesignSpecificationOutdoorAir(mo->cast<DesignSpecificationOutdoorAir>());
}
}
}
// ZoneHeatingSizingFactor
value = workspaceObject.getDouble(Sizing_ZoneFields::ZoneHeatingSizingFactor);
if( value )
{
sizingZone.setZoneHeatingSizingFactor(value.get());
}
// ZoneCoolingSizingFactor
value = workspaceObject.getDouble(Sizing_ZoneFields::ZoneCoolingSizingFactor);
if( value )
{
sizingZone.setZoneCoolingSizingFactor(value.get());
}
// CoolingDesignAirFlowMethod
s = workspaceObject.getString(Sizing_ZoneFields::CoolingDesignAirFlowMethod);
if( s )
{
sizingZone.setCoolingDesignAirFlowMethod(s.get());
}
// CoolingDesignAirFlowRate
value = workspaceObject.getDouble(Sizing_ZoneFields::CoolingDesignAirFlowRate);
if( value )
{
sizingZone.setCoolingDesignAirFlowRate(value.get());
}
// CoolingMinimumAirFlowperZoneFloorArea
value = workspaceObject.getDouble(Sizing_ZoneFields::CoolingMinimumAirFlowperZoneFloorArea);
if( value )
{
sizingZone.setCoolingMinimumAirFlowperZoneFloorArea(value.get());
}
// CoolingMinimumAirFlow
value = workspaceObject.getDouble(Sizing_ZoneFields::CoolingMinimumAirFlow);
if( value )
{
sizingZone.setCoolingMinimumAirFlow(value.get());
}
// CoolingMinimumAirFlowFraction
value = workspaceObject.getDouble(Sizing_ZoneFields::CoolingMinimumAirFlowFraction);
if( value )
{
sizingZone.setCoolingMinimumAirFlowFraction(value.get());
}
// HeatingDesignAirFlowMethod
s = workspaceObject.getString(Sizing_ZoneFields::HeatingDesignAirFlowMethod);
if( s )
{
sizingZone.setHeatingDesignAirFlowMethod(s.get());
}
// HeatingDesignAirFlowRate
value = workspaceObject.getDouble(Sizing_ZoneFields::HeatingDesignAirFlowRate);
if( value )
{
sizingZone.setHeatingDesignAirFlowRate(value.get());
}
// HeatingMaximumAirFlowperZoneFloorArea
value = workspaceObject.getDouble(Sizing_ZoneFields::HeatingMaximumAirFlowperZoneFloorArea);
if( value )
{
sizingZone.setHeatingMaximumAirFlowperZoneFloorArea(value.get());
}
// HeatingMaximumAirFlow
value = workspaceObject.getDouble(Sizing_ZoneFields::HeatingMaximumAirFlow);
if( value )
{
sizingZone.setHeatingMaximumAirFlow(value.get());
}
// HeatingMaximumAirFlowFraction
value = workspaceObject.getDouble(Sizing_ZoneFields::HeatingMaximumAirFlowFraction);
if( value )
{
sizingZone.setHeatingMaximumAirFlowFraction(value.get());
}
//DesignSpecification_ZoneAirDistribution
boost::optional<WorkspaceObject> _designSpecification
= workspaceObject.getTarget(Sizing_ZoneFields::DesignSpecificationZoneAirDistributionObjectName);
if( _designSpecification )
{
// ZoneAirDistributionEffectivenessinCoolingMode
value = _designSpecification->getDouble(
DesignSpecification_ZoneAirDistributionFields::ZoneAirDistributionEffectivenessinCoolingMode);
if( value )
{
sizingZone.setDesignZoneAirDistributionEffectivenessinCoolingMode(value.get());
}
// ZoneAirDistributionEffectivenessinHeatingMode
value = _designSpecification->getDouble(
DesignSpecification_ZoneAirDistributionFields::ZoneAirDistributionEffectivenessinHeatingMode);
if( value )
{
sizingZone.setDesignZoneAirDistributionEffectivenessinHeatingMode(value.get());
}
}
}
return result;
}
OptionalModelObject ReverseTranslator::translateAirLoopHVAC( const WorkspaceObject & workspaceObject )
{
if( workspaceObject.iddObject().type() != IddObjectType::AirLoopHVAC )
{
LOG(Error, "WorkspaceObject is not IddObjectType: AirLoopHVAC");
return boost::none;
}
OptionalModelObject result;
boost::optional<double> val;
boost::optional<std::string> optionalString;
Workspace _workspace = workspaceObject.workspace();
openstudio::model::AirLoopHVAC airLoopHVAC( m_model );
boost::optional<std::string> supplyInletNodeName = workspaceObject.getString(AirLoopHVACFields::SupplySideInletNodeName);
boost::optional<std::string> supplyOutletNodeName = workspaceObject.getString(AirLoopHVACFields::SupplySideOutletNodeNames);
boost::optional<std::string> demandInletNodeName = workspaceObject.getString(AirLoopHVACFields::DemandSideInletNodeNames);
boost::optional<std::string> demandOutletNodeName = workspaceObject.getString(AirLoopHVACFields::DemandSideOutletNodeName);
Node supplyInletNode = airLoopHVAC.supplyInletNode();
Node supplyOutletNode = airLoopHVAC.supplyOutletNode();
Node demandInletNode = airLoopHVAC.demandInletNode();
Node demandOutletNode = airLoopHVAC.demandOutletNode();
if( supplyInletNodeName ) { supplyInletNode.setName(supplyInletNodeName.get()); }
if( supplyOutletNodeName ) { supplyOutletNode.setName(supplyOutletNodeName.get()); }
if( demandInletNodeName ) { demandInletNode.setName(demandInletNodeName.get()); }
if( demandOutletNodeName ) { demandOutletNode.setName(demandOutletNodeName.get()); }
optionalString = workspaceObject.getString(AirLoopHVACFields::Name);
if( optionalString )
{
airLoopHVAC.setName(optionalString.get());
}
optionalString = workspaceObject.getString(AirLoopHVACFields::DesignSupplyAirFlowRate);
if( optionalString && istringEqual(optionalString.get(),"AutoSize") )
{
airLoopHVAC.autosizeDesignSupplyAirFlowRate();
}
else if( (val = workspaceObject.getDouble(AirLoopHVACFields::DesignSupplyAirFlowRate)) )
{
airLoopHVAC.setDesignSupplyAirFlowRate(val.get());
}
// Go find the supply branch.
// Currently only supporting one supply branch.
// Dual ducts are not supported.
OptionalWorkspaceObject _supplyBranchList;
OptionalWorkspaceObject _supplyBranch;
_supplyBranchList = workspaceObject.getTarget(AirLoopHVACFields::BranchListName);
if( _supplyBranchList )
{
_supplyBranch = _supplyBranchList->getExtensibleGroup(0).cast<WorkspaceExtensibleGroup>().getTarget(BranchListExtensibleFields::BranchName);
if( ! _supplyBranch )
{
LOG(Error, _supplyBranchList->briefDescription() << ": Missing supply branch");
}
else
{
// March through the equipment on the supply branch and convert them.
for( unsigned i = 0; ! _supplyBranch->getExtensibleGroup(i).empty(); i++ )
{
WorkspaceExtensibleGroup eg = _supplyBranch->getExtensibleGroup(i).cast<WorkspaceExtensibleGroup>();
boost::optional<std::string> componentName = eg.getString(BranchExtensibleFields::ComponentName);
boost::optional<std::string> componentType = eg.getString(BranchExtensibleFields::ComponentObjectType);
boost::optional<std::string> componentInletNodeName = eg.getString(BranchExtensibleFields::ComponentInletNodeName);
boost::optional<std::string> componentOutletNodeName = eg.getString(BranchExtensibleFields::ComponentOutletNodeName);
boost::optional<WorkspaceObject> wo;
OptionalNode node;
OptionalModelObject targetModelObject;
if( componentName && (componentName.get() != "") && componentType && (componentType.get() != "") )
{
IddObjectType iddType(componentType.get());
wo = _workspace.getObjectByTypeAndName(iddType,componentName.get());
}
if( wo )
{
targetModelObject = translateAndMapWorkspaceObject( wo.get() );
if( !targetModelObject)
{
LOG(Error, "Error importing object: " << wo->briefDescription() );
continue;
}
if( OptionalHVACComponent hvacComponent = targetModelObject->optionalCast<HVACComponent>() )
{
Node node = airLoopHVAC.supplyOutletNode();
if( hvacComponent->addToNode(node) )
{
if( boost::optional<StraightComponent> straightComponent = hvacComponent->optionalCast<StraightComponent>() )
{
Node outletNode = straightComponent->outletModelObject()->cast<Node>();
Node inletNode = straightComponent->inletModelObject()->cast<Node>();
if( componentOutletNodeName )
{
outletNode.setName(componentOutletNodeName.get());
}
if( componentInletNodeName )
{
inletNode.setName(componentInletNodeName.get());
}
}
else if( boost::optional<AirLoopHVACOutdoorAirSystem> oaSystem = hvacComponent->optionalCast<AirLoopHVACOutdoorAirSystem>() )
{
Node outletNode = oaSystem->mixedAirModelObject()->cast<Node>();
Node inletNode = oaSystem->returnAirModelObject()->cast<Node>();
if( componentOutletNodeName )
{
outletNode.setName(componentOutletNodeName.get());
}
if( componentInletNodeName )
{
inletNode.setName(componentInletNodeName.get());
}
}
}
}
}
else
{
LOG(Error, _supplyBranch->briefDescription() << ": Missing object listed at ComponentName " << i);
}
}
}
}
else
{
LOG( Error, workspaceObject.briefDescription() << ": Missing supply branch list, "
<< "Supply equipment will be incomplete");
}
// March through the zone on the demand side and add branches for them.
if( demandOutletNodeName )
{
// Find the zone mixer for this air loop
std::vector<WorkspaceObject> _airLoopHVACZoneMixers;
_airLoopHVACZoneMixers = workspaceObject.workspace().getObjectsByType(IddObjectType::AirLoopHVAC_ZoneMixer);
boost::optional<WorkspaceObject> _airLoopHVACZoneMixer;
for( const auto & elem : _airLoopHVACZoneMixers )
{
boost::optional<std::string> mixerOutletNodeName;
mixerOutletNodeName = elem.getString(AirLoopHVAC_ZoneMixerFields::OutletNodeName);
if( mixerOutletNodeName && mixerOutletNodeName.get() == demandOutletNodeName.get() )
{
_airLoopHVACZoneMixer = elem;
break;
}
}
if( _airLoopHVACZoneMixer )
{
for( int i = 2;
_airLoopHVACZoneMixer->getString(i);
i++ )
{
std::vector<WorkspaceObject> _zoneHVACEquipmentConnections;
std::string mixerInletNodeName = _airLoopHVACZoneMixer->getString(i).get();
_zoneHVACEquipmentConnections = _workspace.getObjectsByType(IddObjectType::ZoneHVAC_EquipmentConnections);
for( const auto & _zoneHVACEquipmentConnection : _zoneHVACEquipmentConnections )
{
OptionalString returnAirNodeName = _zoneHVACEquipmentConnection.getString(ZoneHVAC_EquipmentConnectionsFields::ZoneReturnAirNodeName);
OptionalString inletAirNodeName = _zoneHVACEquipmentConnection.getString(ZoneHVAC_EquipmentConnectionsFields::ZoneAirInletNodeorNodeListName);
OptionalString zoneName = _zoneHVACEquipmentConnection.getString(ZoneHVAC_EquipmentConnectionsFields::ZoneName);
OptionalString zoneEquipListName = _zoneHVACEquipmentConnection.getString(ZoneHVAC_EquipmentConnectionsFields::ZoneConditioningEquipmentListName);
OptionalWorkspaceObject _zone;
OptionalWorkspaceObject _zoneEquipmentList;
OptionalWorkspaceObject _zoneEquipment;
OptionalWorkspaceObject _airTerminal;
if( returnAirNodeName &&
returnAirNodeName.get() == mixerInletNodeName &&
zoneName &&
zoneEquipListName )
{
_zone = _workspace.getObjectByTypeAndName(IddObjectType::Zone,*zoneName);
_zoneEquipmentList = _workspace.getObjectByTypeAndName(IddObjectType::ZoneHVAC_EquipmentList,zoneEquipListName.get());
if( ! _zone )
{
LOG( Error,
airLoopHVAC.briefDescription()
<< " is connected to a zone that does not exist." );
break;
}
if( ! _zoneEquipmentList )
{
LOG( Error,
_zone->briefDescription()
<< " does not have a zone equipment list, but it is attached to a loop." );
break;
}
for( int j = 1; (optionalString = _zoneEquipmentList->getString(j)); j = j + 4 )
{
boost::optional<std::string> zoneEquipmentName = _zoneEquipmentList->getString(j+1) ;
// Possible Zone Equipment
//
// ZoneHVAC:AirDistributionUnit
// AirTerminal:SingleDuct:Uncontrolled
// ZoneHVAC:EnergyRecoveryVentilator
// ZoneHVAC:FourPipeFanCoil
// ZoneHVAC:OutdoorAirUnit
// ZoneHVAC:PackagedTerminalAirConditioner
// ZoneHVAC:PackagedTerminalHeatPump
// ZoneHVAC:UnitHeater
// ZoneHVAC:UnitVentilator
// ZoneHVAC:VentilatedSlab
// ZoneHVAC:WaterToAirHeatPump
// ZoneHVAC:WindowAirConditioner
// ZoneHVAC:Baseboard:RadiantConvective:Electric
// ZoneHVAC:Baseboard:RadiantConvective:Water
// ZoneHVAC:Baseboard:RadiantConvective:Steam
// ZoneHVAC:Baseboard:Convective:Electric
// ZoneHVAC:Baseboard:Convective:Water
// ZoneHVAC:HighTemperatureRadiant
// ZoneHVAC:LowTemperatureRadiant:VariableFlow
// ZoneHVAC:LowTemperatureRadiant:ConstantFlow
// ZoneHVAC:LowTemperatureRadiant:Electric
// ZoneHVAC:Dehumidifier:DX
// ZoneHVAC:IdealLoadsAirSystem
// Fan:ZoneExhaust
// WaterHeater:HeatPump
//
if( zoneEquipmentName )
{
if( istringEqual(optionalString.get(),"AirTerminal:SingleDuct:Uncontrolled") )
{
_airTerminal = _workspace.getObjectByTypeAndName(IddObjectType::AirTerminal_SingleDuct_Uncontrolled,zoneEquipmentName.get());
break;
}
else if( istringEqual(optionalString.get(),"ZoneHVAC:AirDistributionUnit") )
{
boost::optional<WorkspaceObject> _airDistributionUnit =
_workspace.getObjectByTypeAndName(IddObjectType::ZoneHVAC_AirDistributionUnit,zoneEquipmentName.get());
if( _airDistributionUnit )
{
boost::optional<std::string> airUnitName;
boost::optional<std::string> airUnitType;
airUnitType = _airDistributionUnit->getString(ZoneHVAC_AirDistributionUnitFields::AirTerminalObjectType);
airUnitName = _airDistributionUnit->getString(ZoneHVAC_AirDistributionUnitFields::AirTerminalName);
if( airUnitName && airUnitType )
{
_airTerminal = _workspace.getObjectByTypeAndName(IddObjectType(airUnitType.get()),airUnitName.get());
}
}
break;
}
}
}
OptionalModelObject airTerminalModelObject;
OptionalSpace space;
OptionalStraightComponent straightComponent;
OptionalThermalZone thermalZone;
if( _airTerminal )
{
airTerminalModelObject = translateAndMapWorkspaceObject( _airTerminal.get() );
}
if( _zone )
{
if( OptionalModelObject mo = translateAndMapWorkspaceObject( _zone.get() ) )
{
space = mo->optionalCast<Space>();
}
}
if( space )
{
thermalZone = space->thermalZone();
}
if( airTerminalModelObject )
{
straightComponent = airTerminalModelObject->optionalCast<StraightComponent>();
}
bool success = false;
if( straightComponent && thermalZone )
{
success = airLoopHVAC.addBranchForZone(thermalZone.get(),straightComponent.get());
}
else if( thermalZone )
{
Model m;
success = airLoopHVAC.addBranchForZone(thermalZone.get(),boost::none);
}
if( success )
{
if( inletAirNodeName ) { thermalZone->inletPortList().airLoopHVACModelObject()->cast<Node>().setName(inletAirNodeName.get()); }
if( returnAirNodeName ) { thermalZone->returnAirModelObject()->cast<Node>().setName(returnAirNodeName.get()); }
}
}
}
}
}
}
return airLoopHVAC;
}
