#include "SyncMachineForm.h" #include "SyncMotor.h" SyncMotor::SyncMotor() : Machines() { } SyncMotor::SyncMotor(wxString name) : Machines() { m_electricalData.name = name; } SyncMotor::~SyncMotor() {} void SyncMotor::DrawSymbol() const { DrawArc(m_position, 12, 30, 330, 10, GL_LINE_STRIP); } bool SyncMotor::GetContextMenu(wxMenu& menu) { menu.Append(ID_EDIT_ELEMENT, _("Edit Synchronous Condenser")); GeneralMenuItens(menu); return true; } bool SyncMotor::ShowForm(wxWindow* parent, Element* element) { SyncMachineForm* syncMotorForm = new SyncMachineForm(parent, this); syncMotorForm->SetTitle(_("Synchronous Condenser")); if(syncMotorForm->ShowModal() == wxID_OK) { syncMotorForm->Destroy(); return true; } syncMotorForm->Destroy(); return false; } SyncMotorElectricalData SyncMotor::GetPUElectricalData(double systemPowerBase) { SyncMotorElectricalData data = m_electricalData; switch(data.activePowerUnit) { case UNIT_W: { data.activePower = data.activePower / systemPowerBase; data.activePowerUnit = UNIT_PU; } break; case UNIT_kW: { data.activePower = (data.activePower * 1e3) / systemPowerBase; data.activePowerUnit = UNIT_PU; } break; case UNIT_MW: { data.activePower = (data.activePower * 1e6) / systemPowerBase; data.activePowerUnit = UNIT_PU; } break; default: break; } switch(data.reactivePowerUnit) { case UNIT_VAr: { data.reactivePower = data.reactivePower / systemPowerBase; data.reactivePowerUnit = UNIT_PU; } break; case UNIT_kVAr: { data.reactivePower = (data.reactivePower * 1e3) / systemPowerBase; data.reactivePowerUnit = UNIT_PU; } break; case UNIT_MVAr: { data.reactivePower = (data.reactivePower * 1e6) / systemPowerBase; data.reactivePowerUnit = UNIT_PU; } break; default: break; } switch(data.maxReactiveUnit) { case UNIT_VAr: { data.maxReactive = data.maxReactive / systemPowerBase; data.maxReactiveUnit = UNIT_PU; } break; case UNIT_kVAr: { data.maxReactive = (data.maxReactive * 1e3) / systemPowerBase; data.maxReactiveUnit = UNIT_PU; } break; case UNIT_MVAr: { data.maxReactive = (data.maxReactive * 1e6) / systemPowerBase; data.maxReactiveUnit = UNIT_PU; } break; default: break; } switch(data.minReactiveUnit) { case UNIT_VAr: { data.minReactive = data.minReactive / systemPowerBase; data.minReactiveUnit = UNIT_PU; } break; case UNIT_kVAr: { data.minReactive = (data.minReactive * 1e3) / systemPowerBase; data.minReactiveUnit = UNIT_PU; } break; case UNIT_MVAr: { data.minReactive = (data.minReactive * 1e6) / systemPowerBase; data.minReactiveUnit = UNIT_PU; } break; default: break; } return data; } Element* SyncMotor::GetCopy() { SyncMotor* copy = new SyncMotor(); *copy = *this; return copy; } wxString SyncMotor::GetTipText() const { wxString tipText = m_electricalData.name; tipText += "\n"; tipText += _("\nP = ") + wxString::FromDouble(m_electricalData.activePower, 5); switch(m_electricalData.activePowerUnit) { case UNIT_PU: { tipText += _(" p.u."); } break; case UNIT_W: { tipText += _(" W"); } break; case UNIT_kW: { tipText += _(" kW"); } break; case UNIT_MW: { tipText += _(" MW"); } break; default: break; } tipText += _("\nQ = ") + wxString::FromDouble(m_electricalData.reactivePower, 5); switch(m_electricalData.reactivePowerUnit) { case UNIT_PU: { tipText += _(" p.u."); } break; case UNIT_VAr: { tipText += _(" VAr"); } break; case UNIT_kVAr: { tipText += _(" kVAr"); } break; case UNIT_MVAr: { tipText += _(" MVAr"); } break; default: break; } return tipText; }