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/*
* Copyright (C) 2017 Thales Lima Oliveira <thales@ufu.br>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "PropertiesData.h"
#include "SimulationsSettingsForm.h"
SimulationsSettingsForm::SimulationsSettingsForm(wxWindow* parent, PropertiesData* properties)
: SimulationsSettingsFormBase(parent)
{
m_properties = properties;
auto data = m_properties->GetSimulationPropertiesData();
m_textCtrlbasePower->SetValue(Element::StringFromDouble(data.basePower));
switch(data.basePowerUnit) {
case ElectricalUnit::UNIT_VA: {
m_choiceBasePower->SetSelection(0);
} break;
case ElectricalUnit::UNIT_kVA: {
m_choiceBasePower->SetSelection(1);
} break;
case ElectricalUnit::UNIT_MVA: {
m_choiceBasePower->SetSelection(2);
} break;
default: {
m_choiceBasePower->SetSelection(wxNOT_FOUND);
} break;
}
m_checkBoxFaultAfterPF->SetValue(data.faultAfterPowerFlow);
m_checkBoxSCPowerAfterPF->SetValue(data.scPowerAfterPowerFlow);
m_checkBoxTHDAfterPF->SetValue(data.harmDistortionAfterPowerFlow);
switch(data.powerFlowMethod) {
case GAUSS_SEIDEL: {
m_choicePFMethod->SetSelection(0);
} break;
case NEWTON_RAPHSON: {
m_choicePFMethod->SetSelection(1);
} break;
case GAUSS_NEWTON: {
m_choicePFMethod->SetSelection(2);
} break;
default: {
m_choicePFMethod->SetSelection(wxNOT_FOUND);
} break;
}
m_textCtrlAccFactor->SetValue(Element::StringFromDouble(data.accFator));
m_textCtrlPFTolerance->SetValue(wxString::Format("%g", data.powerFlowTolerance));
m_textCtrlPFMaxIterations->SetValue(wxString::Format("%d", data.powerFlowMaxIterations));
m_textCtrlPFSlackBusAngle->SetValue(Element::StringFromDouble(data.initAngle));
m_textCtrlPFNewtonInertia->SetValue(Element::StringFromDouble(data.newtonInertia));
m_textCtrlPFGaussTolerance->SetValue(wxString::Format("%g", data.gaussTolerance));
m_textCtrlTimeStep->SetValue(wxString::Format("%g", data.timeStep));
m_textCtrlSimTime->SetValue(Element::StringFromDouble(data.stabilitySimulationTime));
m_textCtrlFreq->SetValue(Element::StringFromDouble(data.stabilityFrequency));
m_textCtrlStabTolerance->SetValue(wxString::Format("%g", data.stabilityTolerance));
m_textCtrlStabMaxIterations->SetValue(wxString::Format("%d", data.stabilityMaxIterations));
m_textCtrlCtrlStepRatio->SetValue(wxString::Format("%d", data.controlTimeStepRatio));
m_textCtrlPrintTime->SetValue(wxString::Format("%g", data.plotTime));
m_checkBoxUseCOI->SetValue(data.useCOI);
m_checkBoxUseCompLoads->SetValue(data.useCompLoads);
m_textCtrlActivePowerImp->SetValue(Element::StringFromDouble(data.constImpedanceActive));
m_textCtrlActivePowerCur->SetValue(Element::StringFromDouble(data.constCurrentActive));
m_textCtrlActivePowerPow->SetValue(Element::StringFromDouble(data.constPowerActive));
m_textCtrlReactivePowerImp->SetValue(Element::StringFromDouble(data.constImpedanceReactive));
m_textCtrlReactivePowerCur->SetValue(Element::StringFromDouble(data.constCurrentReactive));
m_textCtrlReactivePowerPow->SetValue(Element::StringFromDouble(data.constPowerReactive));
m_textCtrlUVCur->SetValue(Element::StringFromDouble(data.underVoltageConstCurrent));
m_textCtrlUVPow->SetValue(Element::StringFromDouble(data.underVoltageConstPower));
UpdateZIPLoadFieldStatus();
UpdatePFFieldStatus();
}
SimulationsSettingsForm::~SimulationsSettingsForm() {}
void SimulationsSettingsForm::OnButtonOKClick(wxCommandEvent& event)
{
if(ValidateData()) EndModal(wxID_OK);
}
bool SimulationsSettingsForm::ValidateData()
{
auto data = m_properties->GetSimulationPropertiesData();
if(!Element::DoubleFromString(this, m_textCtrlbasePower->GetValue(), data.basePower,
_("Value entered incorrectly in the field \"Base power\".")))
return false;
switch(m_choiceBasePower->GetSelection()) {
case 0: {
data.basePowerUnit = ElectricalUnit::UNIT_VA;
} break;
case 1: {
data.basePowerUnit = ElectricalUnit::UNIT_kVA;
} break;
default: {
data.basePowerUnit = ElectricalUnit::UNIT_MVA;
} break;
}
data.faultAfterPowerFlow = m_checkBoxFaultAfterPF->GetValue();
data.scPowerAfterPowerFlow = m_checkBoxSCPowerAfterPF->GetValue();
data.harmDistortionAfterPowerFlow = m_checkBoxTHDAfterPF->GetValue();
switch(m_choicePFMethod->GetSelection()) {
case 0: {
data.powerFlowMethod = GAUSS_SEIDEL;
} break;
case 1: {
data.powerFlowMethod = NEWTON_RAPHSON;
} break;
case 2: {
data.powerFlowMethod = GAUSS_NEWTON;
} break;
}
if(!Element::DoubleFromString(this, m_textCtrlAccFactor->GetValue(), data.accFator,
_("Value entered incorrectly in the field \"Acceleration factor\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlPFTolerance->GetValue(), data.powerFlowTolerance,
_("Value entered incorrectly in the field \"Tolerance (Power flow)\".")))
return false;
if(!Element::IntFromString(this, m_textCtrlPFMaxIterations->GetValue(), data.powerFlowMaxIterations,
_("Value entered incorrectly in the field \"Max. iterations (Power flow)\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlPFSlackBusAngle->GetValue(), data.initAngle,
_("Value entered incorrectly in the field \"Slack bus angle\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlPFNewtonInertia->GetValue(), data.newtonInertia,
_("Value entered incorrectly in the field \"Newton inertia (Power flow)\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlPFGaussTolerance->GetValue(), data.gaussTolerance,
_("Value entered incorrectly in the field \"Gauss tolerance (Power flow)\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlTimeStep->GetValue(), data.timeStep,
_("Value entered incorrectly in the field \"Time step\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlSimTime->GetValue(), data.stabilitySimulationTime,
_("Value entered incorrectly in the field \"Simulation time\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlFreq->GetValue(), data.stabilityFrequency,
_("Value entered incorrectly in the field \"System frequency\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlStabTolerance->GetValue(), data.stabilityTolerance,
_("Value entered incorrectly in the field \"Tolerance (stability)\".")))
return false;
if(!Element::IntFromString(this, m_textCtrlStabMaxIterations->GetValue(), data.stabilityMaxIterations,
_("Value entered incorrectly in the field \"Max. iterations (stability)\".")))
return false;
if(!Element::IntFromString(this, m_textCtrlCtrlStepRatio->GetValue(), data.controlTimeStepRatio,
_("Value entered incorrectly in the field \"Controls step ratio\".")))
return false;
if(!Element::DoubleFromString(this, m_textCtrlPrintTime->GetValue(), data.plotTime,
_("Value entered incorrectly in the field \"Plot time\".")))
return false;
data.useCOI = m_checkBoxUseCOI->GetValue();
data.useCompLoads = m_checkBoxUseCompLoads->GetValue();
if(!Element::DoubleFromString(
this, m_textCtrlActivePowerImp->GetValue(), data.constImpedanceActive,
_("Value entered incorrectly in the field \"Constant impedance portion of active power (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlActivePowerCur->GetValue(), data.constCurrentActive,
_("Value entered incorrectly in the field \"Constant current portion of active power (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlActivePowerPow->GetValue(), data.constPowerActive,
_("Value entered incorrectly in the field \"Constant power portion of active power (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlReactivePowerImp->GetValue(), data.constImpedanceReactive,
_("Value entered incorrectly in the field \"Constant impedance portion of reactive power (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlReactivePowerCur->GetValue(), data.constCurrentReactive,
_("Value entered incorrectly in the field \"Constant current portion of reactive power (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlReactivePowerPow->GetValue(), data.constPowerReactive,
_("Value entered incorrectly in the field \"Constant power portion of reactive power (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlUVCur->GetValue(), data.underVoltageConstCurrent,
_("Value entered incorrectly in the field \"Constant current undervoltage limit (ZIP load)\".")))
return false;
if(!Element::DoubleFromString(
this, m_textCtrlUVPow->GetValue(), data.underVoltageConstPower,
_("Value entered incorrectly in the field \"Constant power undervoltage limit (ZIP load)\".")))
return false;
double sum = data.constImpedanceActive + data.constCurrentActive + data.constPowerActive;
if(sum > 100.01 || sum < 99.99) {
wxMessageDialog msgDialog(this, _("The sum of active power load composition must be 100%."), _("Error"),
wxOK | wxCENTRE | wxICON_ERROR);
msgDialog.ShowModal();
return false;
}
sum = data.constImpedanceReactive + data.constCurrentReactive + data.constPowerReactive;
if(sum > 100.01 || sum < 99.99) {
wxMessageDialog msgDialog(this, _("The sum of reactive power load composition must be 100%."), _("Error"),
wxOK | wxCENTRE | wxICON_ERROR);
msgDialog.ShowModal();
return false;
}
m_properties->SetSimulationPropertiesData(data);
return true;
}
void SimulationsSettingsForm::OnPFMethodChoiceSelected(wxCommandEvent& event) { UpdatePFFieldStatus(); }
void SimulationsSettingsForm::UpdateZIPLoadFieldStatus()
{
m_textCtrlActivePowerImp->Enable(m_checkBoxUseCompLoads->GetValue());
m_textCtrlActivePowerCur->Enable(m_checkBoxUseCompLoads->GetValue());
m_textCtrlActivePowerPow->Enable(m_checkBoxUseCompLoads->GetValue());
m_textCtrlReactivePowerImp->Enable(m_checkBoxUseCompLoads->GetValue());
m_textCtrlReactivePowerCur->Enable(m_checkBoxUseCompLoads->GetValue());
m_textCtrlReactivePowerPow->Enable(m_checkBoxUseCompLoads->GetValue());
}
void SimulationsSettingsForm::UpdatePFFieldStatus()
{
if(m_choicePFMethod->GetSelection() == 0 || m_choicePFMethod->GetSelection() == 2)
m_textCtrlAccFactor->Enable();
else
m_textCtrlAccFactor->Enable(false);
if(m_choicePFMethod->GetSelection() == 2)
m_textCtrlPFGaussTolerance->Enable();
else
m_textCtrlPFGaussTolerance->Enable(false);
if(m_choicePFMethod->GetSelection() == 1 || m_choicePFMethod->GetSelection() == 2)
m_textCtrlPFNewtonInertia->Enable();
else
m_textCtrlPFNewtonInertia->Enable(false);
}
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