std::vector<ModelObject> ComponentData_Impl::componentObjects() const {
ModelObjectVector result;
for (unsigned i = 0, n = numComponentObjects(); i < n; ++i) {
result.push_back(getComponentObject(i));
}
return result;
}
std::vector<ModelObject> BoilerHotWater_Impl::children() const {
ModelObjectVector result = StraightComponent_Impl::children();
if (OptionalCurve curve = normalizedBoilerEfficiencyCurve()) {
result.push_back(*curve);
}
return result;
}
boost::optional<IdfObject> ForwardTranslator::createAirLoopHVACSupplyPath( AirLoopHVAC & airLoopHVAC )
{
std::string s;
IdfObject supplyPathIdf(openstudio::IddObjectType::AirLoopHVAC_SupplyPath);
m_idfObjects.push_back(supplyPathIdf);
supplyPathIdf.createName();
s = airLoopHVAC.demandInletNodes().front().name().get();
supplyPathIdf.setString(openstudio::AirLoopHVAC_SupplyPathFields::SupplyAirPathInletNodeName,s);
ModelObjectVector modelObjects;
modelObjects = airLoopHVAC.demandComponents( airLoopHVAC.demandInletNodes().front(),
airLoopHVAC.demandOutletNode(),
openstudio::IddObjectType::OS_AirLoopHVAC_ZoneSplitter );
if( modelObjects.size() == 1 )
{
ModelObject modelObject = modelObjects.front();
OptionalAirLoopHVACZoneSplitter zoneSplitter = modelObject.optionalCast<AirLoopHVACZoneSplitter>();
translateAndMapModelObject(*zoneSplitter);
s = stripOS2(zoneSplitter->iddObject().name());
supplyPathIdf.setString(2,s);
s = zoneSplitter->name().get();
supplyPathIdf.setString(3,s);
}
return boost::optional<IdfObject>(supplyPathIdf);
}
boost::optional<ParentObject> ScheduleDay_Impl::parent() const {
OptionalParentObject result;
// parented by ScheduleRuleset or ScheduleRule
ModelObjectVector users = getObject<ScheduleDay>().getModelObjectSources<ModelObject>();
if (users.size() == 1u) {
if (OptionalScheduleRuleset scheduleRuleset = users[0].optionalCast<ScheduleRuleset>()) {
result = *scheduleRuleset;
}
if (OptionalScheduleRule scheduleRule = users[0].optionalCast<ScheduleRule>()) {
result = *scheduleRule;
}
}
return result;
}
bool SetpointManagerSingleZoneReheat_Impl::addToNode(Node & node)
{
bool added = SetpointManager_Impl::addToNode( node );
if( added ) {
if( boost::optional<AirLoopHVAC> _airLoop = node.airLoopHVAC() ) {
ModelObjectVector modelObjectVector = _airLoop->demandComponents(openstudio::IddObjectType::OS_ThermalZone);
if( !modelObjectVector.empty() ) {
ModelObject mo = modelObjectVector.front();
ThermalZone thermalZone = mo.cast<ThermalZone>();
this->setControlZone(thermalZone);
}
return true;
}
}
return false;
}
boost::optional<IdfObject> ForwardTranslator::translateAirLoopHVACOutdoorAirSystem( AirLoopHVACOutdoorAirSystem & modelObject )
{
OptionalString s;
IdfObject idfObject(IddObjectType::AirLoopHVAC_OutdoorAirSystem);
m_idfObjects.push_back(idfObject);
// Name
std::string name = modelObject.name().get();
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::Name,name);
// Controller List
IdfObject _controllerList(IddObjectType::AirLoopHVAC_ControllerList);
_controllerList.setName(name + " Controller List");
_controllerList.clearExtensibleGroups();
m_idfObjects.push_back(_controllerList);
ControllerOutdoorAir controllerOutdoorAir = modelObject.getControllerOutdoorAir();
boost::optional<IdfObject> _controllerOutdoorAir = translateAndMapModelObject(controllerOutdoorAir);
OS_ASSERT(_controllerOutdoorAir);
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::ControllerListName,_controllerList.name().get());
IdfExtensibleGroup eg = _controllerList.pushExtensibleGroup();
eg.setString(AirLoopHVAC_ControllerListExtensibleFields::ControllerObjectType,_controllerOutdoorAir->iddObject().name());
eg.setString(AirLoopHVAC_ControllerListExtensibleFields::ControllerName,_controllerOutdoorAir->name().get());
std::vector<ModelObject> controllers;
auto components = modelObject.components();
for( const auto & component : components ) {
boost::optional<ControllerWaterCoil> controller;
if( auto coil = component.optionalCast<CoilCoolingWater>() ) {
controller = coil->controllerWaterCoil();
} else if ( auto coil = component.optionalCast<CoilHeatingWater>() ) {
controller = coil->controllerWaterCoil();
}
if( controller ) {
controllers.push_back(controller.get());
}
}
for( auto & controller: controllers ) {
auto _controller = translateAndMapModelObject(controller);
if( _controller ) {
IdfExtensibleGroup eg = _controllerList.pushExtensibleGroup();
eg.setString(AirLoopHVAC_ControllerListExtensibleFields::ControllerObjectType,_controller->iddObject().name());
eg.setString(AirLoopHVAC_ControllerListExtensibleFields::ControllerName,_controller->name().get());
}
}
// Field: Availability Manager List Name //////////////////////////////////
IdfObject availabilityManagerListIdf(IddObjectType::AvailabilityManagerAssignmentList);
availabilityManagerListIdf.setName(name + " Availability Manager List");
m_idfObjects.push_back(availabilityManagerListIdf);
IdfObject availabilityManagerScheduledIdf = IdfObject(openstudio::IddObjectType::AvailabilityManager_Scheduled);
availabilityManagerScheduledIdf.setName(name + " Availability Manager");
m_idfObjects.push_back(availabilityManagerScheduledIdf);
Schedule alwaysOn = modelObject.model().alwaysOnDiscreteSchedule();
IdfObject alwaysOnIdf = translateAndMapModelObject(alwaysOn).get();
s = availabilityManagerListIdf.getString(openstudio::AvailabilityManagerAssignmentListFields::Name);
if(s)
{
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::AvailabilityManagerListName,*s);
}
availabilityManagerListIdf.setString(1 + openstudio::AvailabilityManagerAssignmentListExtensibleFields::AvailabilityManagerObjectType,
availabilityManagerScheduledIdf.iddObject().name());
availabilityManagerListIdf.setString(1 + openstudio::AvailabilityManagerAssignmentListExtensibleFields::AvailabilityManagerName,
availabilityManagerScheduledIdf.name().get());
availabilityManagerScheduledIdf.setString(openstudio::AvailabilityManager_ScheduledFields::ScheduleName,alwaysOnIdf.name().get());
// OA Node List
s = modelObject.outboardOANode()->name();
IdfObject oaNodeListIdf(openstudio::IddObjectType::OutdoorAir_NodeList);
if(s)
{
oaNodeListIdf.setString(0,*s);
}
m_idfObjects.push_back(oaNodeListIdf);
///////////////////////////////////////////////////////////////////////////
// Field: Outdoor Air Equipment List Name /////////////////////////////////
IdfObject equipmentListIdf(IddObjectType::AirLoopHVAC_OutdoorAirSystem_EquipmentList);
equipmentListIdf.setName(name + " Equipment List");
m_idfObjects.push_back(equipmentListIdf);
IdfObject outdoorAirMixerIdf(IddObjectType::OutdoorAir_Mixer);
outdoorAirMixerIdf.setName(name + " Outdoor Air Mixer");
m_idfObjects.push_back(outdoorAirMixerIdf);
s = modelObject.mixedAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::MixedAirNodeName,*s);
}
s = modelObject.outdoorAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::OutdoorAirStreamNodeName,*s);
}
s = modelObject.reliefAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::ReliefAirStreamNodeName,*s);
}
s = modelObject.returnAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::ReturnAirStreamNodeName,*s);
}
s = outdoorAirMixerIdf.iddObject().name();
equipmentListIdf.setString(1,*s);
s = outdoorAirMixerIdf.name();
equipmentListIdf.setString(2,*s);
unsigned i = 3;
ModelObjectVector oaModelObjects = modelObject.oaComponents();
for( ModelObjectVector::iterator oaIt = oaModelObjects.begin();
oaIt != oaModelObjects.end();
++oaIt )
{
if( ! oaIt->optionalCast<Node>() )
{
if( boost::optional<IdfObject> idfObject = translateAndMapModelObject(*oaIt) )
{
equipmentListIdf.setString(i,idfObject->iddObject().name());
i++;
equipmentListIdf.setString(i,idfObject->name().get());
i++;
}
}
}
ModelObjectVector reliefModelObjects = modelObject.reliefComponents();
for( ModelObjectVector::iterator reliefIt = reliefModelObjects.begin();
reliefIt != reliefModelObjects.end();
++reliefIt )
{
if( (! reliefIt->optionalCast<Node>()) && (! reliefIt->optionalCast<AirToAirComponent>()) )
{
if( boost::optional<IdfObject> idfObject = translateAndMapModelObject(*reliefIt) )
{
equipmentListIdf.setString(i,idfObject->iddObject().name());
i++;
equipmentListIdf.setString(i,idfObject->name().get());
i++;
}
}
}
s = equipmentListIdf.name();
if(s)
{
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::OutdoorAirEquipmentListName,*s);
}
return boost::optional<IdfObject>(idfObject);
}
boost::optional<IdfObject> ForwardTranslator::translateAirLoopHVACOutdoorAirSystem( AirLoopHVACOutdoorAirSystem & modelObject )
{
OptionalString s;
IdfObject idfObject(IddObjectType::AirLoopHVAC_OutdoorAirSystem);
m_idfObjects.push_back(idfObject);
// Name
std::string name = modelObject.name().get();
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::Name,name);
// Controller List
IdfObject controllerListIdf(IddObjectType::AirLoopHVAC_ControllerList);
controllerListIdf.setName(name + " Controller List");
controllerListIdf.clearExtensibleGroups();
m_idfObjects.push_back(controllerListIdf);
ControllerOutdoorAir controllerOutdoorAir = modelObject.getControllerOutdoorAir();
boost::optional<IdfObject> temp = translateAndMapModelObject(controllerOutdoorAir);
s = controllerListIdf.name();
if(s)
{
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::ControllerListName,*s);
}
s = temp->iddObject().name();
StringVector groupFields(2u);
bool addGroup(false);
if(s)
{
groupFields[0] = *s;
addGroup = true;
}
s = temp->name();
if(s)
{
groupFields[1] = *s;
addGroup = true;
}
if (addGroup) {
IdfExtensibleGroup eg = controllerListIdf.pushExtensibleGroup(groupFields);
OS_ASSERT(!eg.empty());
}
// Field: Availability Manager List Name //////////////////////////////////
IdfObject availabilityManagerListIdf(IddObjectType::AvailabilityManagerAssignmentList);
availabilityManagerListIdf.setName(name + " Availability Manager");
m_idfObjects.push_back(availabilityManagerListIdf);
IdfObject availabilityManagerScheduledIdf = IdfObject(openstudio::IddObjectType::AvailabilityManager_Scheduled);
availabilityManagerScheduledIdf.createName();
m_idfObjects.push_back(availabilityManagerScheduledIdf);
Schedule alwaysOn = modelObject.model().alwaysOnDiscreteSchedule();
IdfObject alwaysOnIdf = translateAndMapModelObject(alwaysOn).get();
s = availabilityManagerListIdf.getString(openstudio::AvailabilityManagerAssignmentListFields::Name);
if(s)
{
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::AvailabilityManagerListName,*s);
}
availabilityManagerListIdf.setString(1 + openstudio::AvailabilityManagerAssignmentListExtensibleFields::AvailabilityManagerObjectType,
availabilityManagerScheduledIdf.iddObject().name());
availabilityManagerListIdf.setString(1 + openstudio::AvailabilityManagerAssignmentListExtensibleFields::AvailabilityManagerName,
availabilityManagerScheduledIdf.name().get());
availabilityManagerScheduledIdf.setString(openstudio::AvailabilityManager_ScheduledFields::ScheduleName,alwaysOnIdf.name().get());
// OA Node List
s = modelObject.outboardOANode()->name();
IdfObject oaNodeListIdf(openstudio::IddObjectType::OutdoorAir_NodeList);
if(s)
{
oaNodeListIdf.setString(0,*s);
}
m_idfObjects.push_back(oaNodeListIdf);
///////////////////////////////////////////////////////////////////////////
// Field: Outdoor Air Equipment List Name /////////////////////////////////
IdfObject equipmentListIdf(IddObjectType::AirLoopHVAC_OutdoorAirSystem_EquipmentList);
equipmentListIdf.setName(name + " Equipment List");
m_idfObjects.push_back(equipmentListIdf);
IdfObject outdoorAirMixerIdf(IddObjectType::OutdoorAir_Mixer);
outdoorAirMixerIdf.setName(name + " Outdoor Air Mixer");
m_idfObjects.push_back(outdoorAirMixerIdf);
s = modelObject.mixedAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::MixedAirNodeName,*s);
}
s = modelObject.outdoorAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::OutdoorAirStreamNodeName,*s);
}
s = modelObject.reliefAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::ReliefAirStreamNodeName,*s);
}
s = modelObject.returnAirModelObject()->name();
if(s)
{
outdoorAirMixerIdf.setString(OutdoorAir_MixerFields::ReturnAirStreamNodeName,*s);
}
s = outdoorAirMixerIdf.iddObject().name();
equipmentListIdf.setString(1,*s);
s = outdoorAirMixerIdf.name();
equipmentListIdf.setString(2,*s);
ModelObjectVector oaModelObjects = modelObject.oaComponents();
ModelObjectVector::iterator oaIt;
unsigned i = 3;
for( oaIt = oaModelObjects.begin();
oaIt != oaModelObjects.end();
++oaIt )
{
if( ! oaIt->optionalCast<Node>() )
{
s = stripOS2(oaIt->iddObject().name());
if(s)
equipmentListIdf.setString(i,*s);
i++;
s = oaIt->name();
if(s)
equipmentListIdf.setString(i,*s);
i++;
}
}
s = equipmentListIdf.name();
if(s)
{
idfObject.setString(openstudio::AirLoopHVAC_OutdoorAirSystemFields::OutdoorAirEquipmentListName,*s);
}
for( oaIt = oaModelObjects.begin();
oaIt != oaModelObjects.end();
++oaIt )
{
translateAndMapModelObject(*oaIt);
}
return boost::optional<IdfObject>(idfObject);
}
