Files
kicad-source-mirror/eeschema/dialogs/dialog_sim_command.cpp
T
Jeff Young 492ef62053 ADDED support to save contributions from all noise generators.
You must first check the checkbox in the Simulation Command dialog,
after which the signals will appear in the User Defined Signals
autocomplete lists.
2023-07-04 11:05:10 +01:00

625 lines
21 KiB
C++

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2016-2022 CERN
* Copyright (C) 2016-2022 KiCad Developers, see AUTHORS.txt for contributors.
* @author Maciej Suminski <maciej.suminski@cern.ch>
*
* 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 3
* of the License, or (at your option) 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, you may find one here:
* https://www.gnu.org/licenses/gpl-3.0.html
* or you may search the http://www.gnu.org website for the version 3 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "dialog_sim_command.h"
#include <sim/ngspice_circuit_model.h>
#include <sim/ngspice.h>
#include <confirm.h>
#include <wx/tokenzr.h>
#include <vector>
#include <utility>
/// @todo ngspice offers more types of analysis,
//so there are a few tabs missing (e.g. pole-zero, distortion, sensitivity)
// Helper function to shorten conditions
static bool empty( const wxTextEntryBase* aCtrl )
{
return aCtrl->GetValue().IsEmpty();
}
static void setStringSelection( wxChoice* aCtrl, const wxString& aStr )
{
aCtrl->SetSelection( aCtrl->FindString( aStr ) );
}
static wxString getStringSelection( const wxChoice* aCtrl )
{
return aCtrl->GetString( aCtrl->GetSelection() );
}
DIALOG_SIM_COMMAND::DIALOG_SIM_COMMAND( wxWindow* aParent,
std::shared_ptr<NGSPICE_CIRCUIT_MODEL> aCircuitModel,
std::shared_ptr<SPICE_SIMULATOR_SETTINGS>& aSettings ) :
DIALOG_SIM_COMMAND_BASE( aParent ),
m_circuitModel( aCircuitModel ),
m_settings( aSettings ),
m_spiceEmptyValidator( true )
{
m_posIntValidator.SetMin( 1 );
m_acPointsNumber->SetValidator( m_posIntValidator );
m_acFreqStart->SetValidator( m_spiceValidator );
m_acFreqStop->SetValidator( m_spiceValidator );
m_dcStart1->SetValidator( m_spiceValidator );
m_dcStop1->SetValidator( m_spiceValidator );
m_dcIncr1->SetValidator( m_spiceValidator );
m_dcStart2->SetValidator( m_spiceValidator );
m_dcStop2->SetValidator( m_spiceValidator );
m_dcIncr2->SetValidator( m_spiceValidator );
m_noisePointsNumber->SetValidator( m_posIntValidator );
m_noiseFreqStart->SetValidator( m_spiceValidator );
m_noiseFreqStop->SetValidator( m_spiceValidator );
m_transStep->SetValidator( m_spiceValidator );
m_transFinal->SetValidator( m_spiceValidator );
m_transInitial->SetValidator( m_spiceEmptyValidator );
m_transMaxStep->SetValidator( m_spiceEmptyValidator );
wxChar type1 = getStringSelection( m_dcSourceType1 ).Upper().GetChar( 0 );
updateDCSources( type1, m_dcSource1 );
wxChar type2 = getStringSelection( m_dcSourceType2 ).Upper().GetChar( 0 );
updateDCSources( type2, m_dcSource2 );
// NoiseRef is optional
m_noiseRef->Append( wxEmptyString );
for( const std::string& net : m_circuitModel->GetNets() )
{
m_noiseMeas->Append( net );
m_noiseRef->Append( net );
}
for( const SPICE_ITEM& item : m_circuitModel->GetItems() )
{
if( item.model->GetDeviceType() == SIM_MODEL::DEVICE_T::V )
m_noiseSrc->Append( item.refName );
}
refreshUIControls();
// Hide pages that aren't fully implemented yet
// wxPanel::Hide() isn't enough on some platforms
m_simPages->RemovePage( m_simPages->FindPage( m_pgDistortion ) );
m_simPages->RemovePage( m_simPages->FindPage( m_pgPoleZero ) );
m_simPages->RemovePage( m_simPages->FindPage( m_pgSensitivity ) );
m_simPages->RemovePage( m_simPages->FindPage( m_pgTransferFunction ) );
if( !dynamic_cast<NGSPICE_SIMULATOR_SETTINGS*>( aSettings.get() ) )
m_compatibilityMode->Show( false );
SetupStandardButtons();
}
bool DIALOG_SIM_COMMAND::TransferDataToWindow()
{
/// @todo one day it could interpret the sim command and fill out appropriate fields.
if( empty( m_customTxt ) )
loadDirectives();
m_fixIncludePaths->SetValue( m_settings->GetFixIncludePaths() );
NGSPICE_SIMULATOR_SETTINGS* ngspiceSettings =
dynamic_cast<NGSPICE_SIMULATOR_SETTINGS*>( m_settings.get() );
if( ngspiceSettings )
{
switch( ngspiceSettings->GetModelMode() )
{
case NGSPICE_MODEL_MODE::USER_CONFIG: m_compatibilityModeChoice->SetSelection( 0 ); break;
case NGSPICE_MODEL_MODE::NGSPICE: m_compatibilityModeChoice->SetSelection( 1 ); break;
case NGSPICE_MODEL_MODE::PSPICE: m_compatibilityModeChoice->SetSelection( 2 ); break;
case NGSPICE_MODEL_MODE::LTSPICE: m_compatibilityModeChoice->SetSelection( 3 ); break;
case NGSPICE_MODEL_MODE::LT_PSPICE: m_compatibilityModeChoice->SetSelection( 4 ); break;
case NGSPICE_MODEL_MODE::HSPICE: m_compatibilityModeChoice->SetSelection( 5 ); break;
default:
wxFAIL_MSG( wxString::Format( "Unknown NGSPICE_MODEL_MODE %d.",
ngspiceSettings->GetModelMode() ) );
break;
}
}
if( m_simCommand.IsEmpty() && !empty( m_customTxt ) )
parseCommand( m_customTxt->GetValue() );
return true;
}
wxString DIALOG_SIM_COMMAND::evaluateDCControls( wxChoice* aDcSource, wxTextCtrl* aDcStart,
wxTextCtrl* aDcStop, wxTextCtrl* aDcIncr )
{
wxString dcSource;
wxWindow* ctrlWithError = nullptr;
if( aDcSource->GetSelection() >= 0 )
dcSource = aDcSource->GetString( aDcSource->GetSelection() );
if( dcSource.IsEmpty() )
{
DisplayError( this, _( "A DC source must be specified." ) );
ctrlWithError = aDcSource;
}
else if( !aDcStart->Validate() )
ctrlWithError = aDcStart;
else if( !aDcStop->Validate() )
ctrlWithError = aDcStop;
else if( !aDcIncr->Validate() )
ctrlWithError = aDcIncr;
if( ctrlWithError )
{
ctrlWithError->SetFocus();
return wxEmptyString;
}
// pick device name from exporter when something different than temperature is selected
if( dcSource.Cmp( "TEMP" ) )
dcSource = m_circuitModel->GetItemName( std::string( dcSource.ToUTF8() ) );
return wxString::Format( "%s %s %s %s", dcSource,
SPICE_VALUE( aDcStart->GetValue() ).ToSpiceString(),
SPICE_VALUE( aDcStop->GetValue() ).ToSpiceString(),
SPICE_VALUE( aDcIncr->GetValue() ).ToSpiceString() );
}
bool DIALOG_SIM_COMMAND::TransferDataFromWindow()
{
if( !wxDialog::TransferDataFromWindow() )
return false;
// The simulator dependent settings always get transferred.
NGSPICE_SIMULATOR_SETTINGS* ngspiceSettings =
dynamic_cast<NGSPICE_SIMULATOR_SETTINGS*>( m_settings.get() );
if( ngspiceSettings )
{
switch( m_compatibilityModeChoice->GetSelection() )
{
case 0: ngspiceSettings->SetModelMode( NGSPICE_MODEL_MODE::USER_CONFIG ); break;
case 1: ngspiceSettings->SetModelMode( NGSPICE_MODEL_MODE::NGSPICE ); break;
case 2: ngspiceSettings->SetModelMode( NGSPICE_MODEL_MODE::PSPICE ); break;
case 3: ngspiceSettings->SetModelMode( NGSPICE_MODEL_MODE::LTSPICE ); break;
case 4: ngspiceSettings->SetModelMode( NGSPICE_MODEL_MODE::LT_PSPICE ); break;
case 5: ngspiceSettings->SetModelMode( NGSPICE_MODEL_MODE::HSPICE ); break;
}
}
wxString previousSimCommand = m_simCommand;
wxWindow* page = m_simPages->GetCurrentPage();
if( page == m_pgAC ) // AC analysis
{
if( !m_pgAC->Validate() )
return false;
m_simCommand.Printf( ".ac %s %s %s %s",
scaleToString( m_acScale->GetSelection() ),
m_acPointsNumber->GetValue(),
SPICE_VALUE( m_acFreqStart->GetValue() ).ToSpiceString(),
SPICE_VALUE( m_acFreqStop->GetValue() ).ToSpiceString() );
}
else if( page == m_pgDC ) // DC transfer analysis
{
wxString simCmd = wxString( ".dc " );
wxString src1 = evaluateDCControls( m_dcSource1, m_dcStart1, m_dcStop1, m_dcIncr1 );
if( src1.IsEmpty() )
return false;
else
simCmd += src1;
if( m_dcEnable2->IsChecked() )
{
wxString src2 = evaluateDCControls( m_dcSource2, m_dcStart2, m_dcStop2, m_dcIncr2 );
if( src2.IsEmpty() )
return false;
else
simCmd += " " + src2;
if( m_dcSource1->GetStringSelection() == m_dcSource2->GetStringSelection() )
{
DisplayError( this, _( "Source 1 and Source 2 must be different." ) );
return false;
}
}
m_simCommand = simCmd;
}
else if( page == m_pgNoise ) // Noise analysis
{
wxString output = m_noiseMeas->GetStringSelection();
wxString ref = m_noiseRef->GetStringSelection();
wxString noiseSource = m_noiseSrc->GetStringSelection();
if( m_noiseFreqStart->IsEmpty() || m_noiseFreqStop->IsEmpty() )
{
DisplayError( this, _( "A frequency range must be specified." ) );
return false;
}
if( !ref.IsEmpty() )
ref = wxS( "," ) + m_circuitModel->GetItemName( std::string( ref.ToUTF8() ) );
m_simCommand.Printf( ".noise v(%s%s) %s %s %s %s %s %s",
output,
ref,
noiseSource,
scaleToString( m_noiseScale->GetSelection() ),
m_noisePointsNumber->GetValue(),
SPICE_VALUE( m_noiseFreqStart->GetValue() ).ToSpiceString(),
SPICE_VALUE( m_noiseFreqStop->GetValue() ).ToSpiceString(),
m_saveAllNoise->GetValue() ? "1" : "" );
}
else if( page == m_pgOP ) // DC operating point analysis
{
m_simCommand = wxString( ".op" );
}
else if( page == m_pgTransient ) // Transient analysis
{
if( !m_pgTransient->Validate() )
return false;
const wxString spc = wxS( " " );
const SPICE_VALUE timeStep( m_transStep->GetValue() );
const SPICE_VALUE finalTime( m_transFinal->GetValue() );
SPICE_VALUE startTime( 0 );
if( !empty( m_transInitial ) )
startTime = SPICE_VALUE( m_transInitial->GetValue() );
wxString optionals;
if( m_useInitialConditions->GetValue() )
optionals = wxS( "uic" );
if( !empty( m_transMaxStep ) )
{
optionals = SPICE_VALUE( m_transMaxStep->GetValue() ).ToSpiceString() + spc + optionals;
}
else if( !optionals.IsEmpty() )
{
SPICE_VALUE maxStep = ( finalTime - startTime ) / 50.0;
if( maxStep > timeStep )
maxStep = timeStep;
optionals = maxStep.ToSpiceString() + spc + optionals;
}
if( !empty( m_transInitial ) )
optionals = startTime.ToSpiceString() + spc + optionals;
else if( !optionals.IsEmpty() )
optionals = wxS( "0 " ) + optionals;
m_simCommand.Printf( wxS( ".tran %s %s %s" ), timeStep.ToSpiceString(),
finalTime.ToSpiceString(), optionals );
}
else if( page == m_pgCustom ) // Custom directives
{
m_simCommand = m_customTxt->GetValue();
}
else
{
if( m_simCommand.IsEmpty() )
{
KIDIALOG dlg( this, _( "No valid simulation is configured." ), _( "Warning" ),
wxOK | wxCANCEL | wxICON_EXCLAMATION | wxCENTER );
dlg.SetExtendedMessage( _( "A valid simulation can be configured by selecting a "
"simulation tab, setting the simulation parameters and "
"clicking the OK button with the tab selected." ) );
dlg.SetOKCancelLabels(
wxMessageDialog::ButtonLabel( _( "Exit Without Valid Simulation" ) ),
wxMessageDialog::ButtonLabel( _( "Configure Valid Simulation" ) ) );
dlg.DoNotShowCheckbox( __FILE__, __LINE__ );
if( dlg.ShowModal() == wxID_OK )
return true;
}
return false;
}
if( previousSimCommand != m_simCommand )
m_simCommand.Trim();
m_settings->SetFixIncludePaths( m_fixIncludePaths->GetValue() );
return true;
}
void DIALOG_SIM_COMMAND::updateDCSources( wxChar aType, wxChoice* aSource )
{
wxString prevSelection;
if( !aSource->IsEmpty() )
prevSelection = aSource->GetString( aSource->GetSelection() );
std::set<wxString> sourcesList;
bool enableSrcSelection = true;
if( aType != 'T' )
{
for( const SPICE_ITEM& item : m_circuitModel->GetItems() )
{
if( ( aType == 'R' && item.model->GetDeviceType() == SIM_MODEL::DEVICE_T::R )
|| ( aType == 'V' && item.model->GetDeviceType() == SIM_MODEL::DEVICE_T::V )
|| ( aType == 'I' && item.model->GetDeviceType() == SIM_MODEL::DEVICE_T::I ) )
{
sourcesList.insert( item.refName );
}
}
if( aSource == m_dcSource2 && !m_dcEnable2->IsChecked() )
enableSrcSelection = false;
}
else
{
prevSelection = wxT( "TEMP" );
sourcesList.insert( prevSelection );
enableSrcSelection = false;
}
aSource->Enable( enableSrcSelection );
aSource->Clear();
for( const wxString& src : sourcesList )
aSource->Append( src );
// Try to restore the previous selection, if possible
aSource->SetStringSelection( prevSelection );
}
void DIALOG_SIM_COMMAND::parseCommand( const wxString& aCommand )
{
if( aCommand.IsEmpty() )
return;
wxStringTokenizer tokenizer( aCommand, " " );
wxString token = tokenizer.GetNextToken().Lower();
if( token == ".ac" )
{
m_simPages->SetSelection( m_simPages->FindPage( m_pgAC ) );
token = tokenizer.GetNextToken().Lower();
for( SCALE_TYPE candidate : { DECADE, OCTAVE, LINEAR } )
{
if( scaleToString( candidate ) == token )
{
m_acScale->SetSelection( candidate );
break;
}
}
m_acPointsNumber->SetValue( tokenizer.GetNextToken() );
m_acFreqStart->SetValue( SPICE_VALUE( tokenizer.GetNextToken() ).ToSpiceString() );
m_acFreqStop->SetValue( SPICE_VALUE( tokenizer.GetNextToken() ).ToSpiceString() );
}
else if( token == ".dc" )
{
m_simPages->SetSelection( m_simPages->FindPage( m_pgDC ) );
SPICE_DC_PARAMS src1, src2;
src2.m_vincrement = SPICE_VALUE( -1 );
m_circuitModel->ParseDCCommand( aCommand, &src1, &src2 );
if( src1.m_source.IsSameAs( wxT( "TEMP" ), false ) )
setStringSelection( m_dcSourceType1, wxT( "TEMP" ) );
else
setStringSelection( m_dcSourceType1, src1.m_source.GetChar( 0 ) );
updateDCSources( src1.m_source.GetChar( 0 ), m_dcSource1 );
m_dcSource1->SetStringSelection( src1.m_source );
m_dcStart1->SetValue( src1.m_vstart.ToSpiceString() );
m_dcStop1->SetValue( src1.m_vend.ToSpiceString() );
m_dcIncr1->SetValue( src1.m_vincrement.ToSpiceString() );
if( src2.m_vincrement.ToDouble() != -1 )
{
if( src2.m_source.IsSameAs( wxT( "TEMP" ), false ) )
setStringSelection( m_dcSourceType2, wxT( "TEMP" ) );
else
setStringSelection( m_dcSourceType2, src2.m_source.GetChar( 0 ) );
updateDCSources( src2.m_source.GetChar( 0 ), m_dcSource2 );
m_dcSource2->SetStringSelection( src2.m_source );
m_dcStart2->SetValue( src2.m_vstart.ToSpiceString() );
m_dcStop2->SetValue( src2.m_vend.ToSpiceString() );
m_dcIncr2->SetValue( src2.m_vincrement.ToSpiceString() );
m_dcEnable2->SetValue( true );
}
refreshUIControls();
}
else if( token == ".noise" )
{
m_simPages->SetSelection( m_simPages->FindPage( m_pgNoise ) );
wxString output;
wxString ref;
wxString source;
wxString scale;
SPICE_VALUE pts;
SPICE_VALUE fStart;
SPICE_VALUE fStop;
bool saveAll;
m_circuitModel->ParseNoiseCommand( aCommand, &output, &ref, &source, &scale, &pts,
&fStart, &fStop, &saveAll );
m_noiseMeas->SetStringSelection( output );
m_noiseRef->SetStringSelection( ref );
m_noiseSrc->SetStringSelection( source );
for( SCALE_TYPE candidate : { DECADE, OCTAVE, LINEAR } )
{
if( scaleToString( candidate ) == scale )
{
m_noiseScale->SetSelection( candidate );
break;
}
}
m_noisePointsNumber->SetValue( pts.ToSpiceString() );
m_noiseFreqStart->SetValue( fStart.ToSpiceString() );
m_noiseFreqStop->SetValue( fStop.ToSpiceString() );
m_saveAllNoise->SetValue( saveAll );
}
else if( token == ".tran" )
{
m_simPages->SetSelection( m_simPages->FindPage( m_pgTransient ) );
// If the fields below are empty, it will be caught by the exception handler
m_transStep->SetValue( SPICE_VALUE( tokenizer.GetNextToken() ).ToSpiceString() );
m_transFinal->SetValue( SPICE_VALUE( tokenizer.GetNextToken() ).ToSpiceString() );
// Initial time is an optional field
token = tokenizer.GetNextToken();
if( !token.IsEmpty() )
m_transInitial->SetValue( SPICE_VALUE( token ).ToSpiceString() );
// Max step is an optional field
token = tokenizer.GetNextToken();
if( !token.IsEmpty() )
m_transMaxStep->SetValue( SPICE_VALUE( token ).ToSpiceString() );
// uic is an optional field
token = tokenizer.GetNextToken();
if( token.IsSameAs( wxS( "uic" ) ) )
m_useInitialConditions->SetValue( true );
}
else if( token == ".op" )
{
m_simPages->SetSelection( m_simPages->FindPage( m_pgOP ) );
}
else if( !empty( m_customTxt ) ) // Custom directives
{
m_simPages->SetSelection( m_simPages->FindPage( m_pgCustom ) );
}
}
void DIALOG_SIM_COMMAND::onSwapDCSources( wxCommandEvent& event )
{
std::vector<std::pair<wxTextEntry*, wxTextEntry*>> textCtrl = { { m_dcStart1, m_dcStart2 },
{ m_dcStop1, m_dcStop2 },
{ m_dcIncr1, m_dcIncr2 } };
for( auto& couple : textCtrl )
{
wxString tmp = couple.first->GetValue();
couple.first->SetValue( couple.second->GetValue() );
couple.second->SetValue( tmp );
}
int src1 = m_dcSource1->GetSelection();
int src2 = m_dcSource2->GetSelection();
int sel = m_dcSourceType1->GetSelection();
m_dcSourceType1->SetSelection( m_dcSourceType2->GetSelection() );
m_dcSourceType2->SetSelection( sel );
wxChar type1 = getStringSelection( m_dcSourceType1 ).Upper().GetChar( 0 );
updateDCSources( type1, m_dcSource1 );
wxChar type2 = getStringSelection( m_dcSourceType2 ).Upper().GetChar( 0 );
updateDCSources( type2, m_dcSource2 );
m_dcSource1->SetSelection( src2 );
m_dcSource2->SetSelection( src1 );
updateDCUnits( type1, m_dcSource1, m_src1DCStartValUnit, m_src1DCEndValUnit, m_src1DCStepUnit );
updateDCUnits( type2, m_dcSource2, m_src2DCStartValUnit, m_src2DCEndValUnit, m_src2DCStepUnit );
}
void DIALOG_SIM_COMMAND::onDCEnableSecondSource( wxCommandEvent& event )
{
bool is2ndSrcEnabled = m_dcEnable2->IsChecked();
wxChar type = getStringSelection( m_dcSourceType2 ).Upper().GetChar( 0 );
m_dcSourceType2->Enable( is2ndSrcEnabled );
m_dcSource2->Enable( is2ndSrcEnabled && type != 'T' );
m_dcStart2->Enable( is2ndSrcEnabled );
m_dcStop2->Enable( is2ndSrcEnabled );
m_dcIncr2->Enable( is2ndSrcEnabled );
}
void DIALOG_SIM_COMMAND::updateDCUnits( wxChar aType, wxChoice* aSource,
wxStaticText* aStartValUnit, wxStaticText* aEndValUnit,
wxStaticText* aStepUnit )
{
wxString unit;
switch( aType )
{
case 'V': unit = wxS( "V" ); break;
case 'I': unit = wxS( "A" ); break;
case 'R': unit = wxS( "Ω" ); break;
case 'T': unit = wxS( "°C" ); break;
}
aStartValUnit->SetLabel( unit );
aEndValUnit->SetLabel( unit );
aStepUnit->SetLabel( unit );
m_pgDC->Refresh();
}
void DIALOG_SIM_COMMAND::loadDirectives()
{
if( m_circuitModel )
m_customTxt->SetValue( m_circuitModel->GetSchTextSimCommand() );
}