/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016 CERN * @author Tomasz Wlostowski * @author Maciej Suminski * * 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 #include #include #include #include #include #include #include "netlist_exporter_pspice_sim.h" #include "sim_plot_frame.h" #include "sim_plot_panel.h" #include "spice_simulator.h" #include "spice_reporter.h" SIM_PLOT_TYPE operator|( SIM_PLOT_TYPE aFirst, SIM_PLOT_TYPE aSecond ) { int res = (int) aFirst | (int) aSecond; return (SIM_PLOT_TYPE) res; } class SIM_THREAD_REPORTER : public SPICE_REPORTER { public: SIM_THREAD_REPORTER( SIM_PLOT_FRAME* aParent ) : m_parent( aParent ) { } REPORTER& Report( const wxString& aText, SEVERITY aSeverity = RPT_UNDEFINED ) override { wxCommandEvent* event = new wxCommandEvent( EVT_SIM_REPORT ); event->SetString( aText ); wxQueueEvent( m_parent, event ); return *this; } void OnSimStateChange( SPICE_SIMULATOR* aObject, SIM_STATE aNewState ) override { wxCommandEvent* event = NULL; switch( aNewState ) { case SIM_IDLE: event = new wxCommandEvent( EVT_SIM_FINISHED ); break; case SIM_RUNNING: event = new wxCommandEvent( EVT_SIM_STARTED ); break; } wxQueueEvent( m_parent, event ); } private: SIM_PLOT_FRAME* m_parent; }; TRACE_DESC::TRACE_DESC( const NETLIST_EXPORTER_PSPICE_SIM& aExporter, const wxString& aName, SIM_PLOT_TYPE aType, const wxString& aParam ) : m_name( aName ), m_type( aType ), m_param( aParam ) { // Title generation m_title = wxString::Format( "%s(%s)", aParam, aName ); if( aType & SPT_AC_MAG ) m_title += " (mag)"; else if( aType & SPT_AC_PHASE ) m_title += " (phase)"; } SIM_PLOT_FRAME::SIM_PLOT_FRAME( KIWAY* aKiway, wxWindow* aParent ) : SIM_PLOT_FRAME_BASE( aParent ), m_settingsDlg( this ), m_lastSimPlot( nullptr ) { SetKiway( this, aKiway ); m_schematicFrame = (SCH_EDIT_FRAME*) Kiway().Player( FRAME_SCH, false ); if( m_schematicFrame == NULL ) throw std::runtime_error( "There is no schematic window" ); updateNetlistExporter(); Connect( wxEVT_CLOSE_WINDOW, wxCloseEventHandler( SIM_PLOT_FRAME::onClose ), NULL, this ); Connect( EVT_SIM_UPDATE, wxCommandEventHandler( SIM_PLOT_FRAME::onSimUpdate ), NULL, this ); Connect( EVT_SIM_REPORT, wxCommandEventHandler( SIM_PLOT_FRAME::onSimReport ), NULL, this ); Connect( EVT_SIM_STARTED, wxCommandEventHandler( SIM_PLOT_FRAME::onSimStarted ), NULL, this ); Connect( EVT_SIM_FINISHED, wxCommandEventHandler( SIM_PLOT_FRAME::onSimFinished ), NULL, this ); Connect( EVT_SIM_CURSOR_UPDATE, wxCommandEventHandler( SIM_PLOT_FRAME::onCursorUpdate ), NULL, this ); // Toolbar buttons m_toolSimulate = m_toolBar->AddTool( ID_SIM_RUN, _( "Run/Stop Simulation" ), KiBitmap( sim_run_xpm ), _( "Run Simulation" ), wxITEM_NORMAL ); m_toolAddSignals = m_toolBar->AddTool( ID_SIM_ADD_SIGNALS, _( "Add Signals" ), KiBitmap( sim_add_signal_xpm ), _( "Add signals to plot" ), wxITEM_NORMAL ); m_toolProbe = m_toolBar->AddTool( ID_SIM_PROBE, _( "Probe" ), KiBitmap( sim_probe_xpm ), _( "Probe signals on the schematic" ), wxITEM_NORMAL ); m_toolTune = m_toolBar->AddTool( ID_SIM_TUNE, _( "Tune" ), KiBitmap( sim_tune_xpm ), _( "Tune component values" ), wxITEM_NORMAL ); m_toolSettings = m_toolBar->AddTool( wxID_ANY, _( "Settings" ), KiBitmap( sim_settings_xpm ), _( "Simulation settings" ), wxITEM_NORMAL ); Connect( m_toolSimulate->GetId(), wxEVT_COMMAND_TOOL_CLICKED, wxCommandEventHandler( SIM_PLOT_FRAME::onSimulate ), NULL, this ); Connect( m_toolAddSignals->GetId(), wxEVT_COMMAND_TOOL_CLICKED, wxCommandEventHandler( SIM_PLOT_FRAME::onAddSignal ), NULL, this ); Connect( m_toolProbe->GetId(), wxEVT_COMMAND_TOOL_CLICKED, wxCommandEventHandler( SIM_PLOT_FRAME::onProbe ), NULL, this ); Connect( m_toolTune->GetId(), wxEVT_COMMAND_TOOL_CLICKED, wxCommandEventHandler( SIM_PLOT_FRAME::onTune ), NULL, this ); Connect( m_toolSettings->GetId(), wxEVT_COMMAND_TOOL_CLICKED, wxCommandEventHandler( SIM_PLOT_FRAME::onSettings ), NULL, this ); // Bind toolbar buttons event to existing menu event handlers, so they behave the same Bind( wxEVT_COMMAND_MENU_SELECTED, &SIM_PLOT_FRAME::onSimulate, this, m_runSimulation->GetId() ); Bind( wxEVT_COMMAND_MENU_SELECTED, &SIM_PLOT_FRAME::onAddSignal, this, m_addSignals->GetId() ); Bind( wxEVT_COMMAND_MENU_SELECTED, &SIM_PLOT_FRAME::onProbe, this, m_probeSignals->GetId() ); Bind( wxEVT_COMMAND_MENU_SELECTED, &SIM_PLOT_FRAME::onTune, this, m_tuneValue->GetId() ); Bind( wxEVT_COMMAND_MENU_SELECTED, &SIM_PLOT_FRAME::onSettings, this, m_settings->GetId() ); m_toolBar->Realize(); m_plotNotebook->SetPageText( 0, _( "Welcome!" ) ); m_simulator.reset( SPICE_SIMULATOR::CreateInstance( "ngspice" ) ); } SIM_PLOT_FRAME::~SIM_PLOT_FRAME() { } void SIM_PLOT_FRAME::StartSimulation() { STRING_FORMATTER formatter; SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !m_simulator ) { DisplayError( this, wxT( "Could not create simulator instance" ) ); return; } m_simConsole->Clear(); updateNetlistExporter(); if( plotPanel ) m_exporter->SetSimCommand( m_plots[plotPanel].m_simCommand ); if( !m_exporter->Format( &formatter, m_settingsDlg.GetNetlistOptions() ) ) { DisplayError( this, wxT( "There were errors during netlist export, aborted." ) ); return; } if( m_exporter->GetSimType() == ST_UNKNOWN ) { DisplayInfoMessage( this, wxT( "You need to select the simulation settings first." ) ); return; } m_simulator->SetReporter( new SIM_THREAD_REPORTER( this ) ); m_simulator->Init(); m_simulator->LoadNetlist( formatter.GetString() ); updateTuners(); applyTuners(); m_simulator->Run(); } void SIM_PLOT_FRAME::StopSimulation() { if( m_simulator ) m_simulator->Stop(); } bool SIM_PLOT_FRAME::IsSimulationRunning() { return m_simulator ? m_simulator->IsRunning() : false; } SIM_PLOT_PANEL* SIM_PLOT_FRAME::NewPlotPanel( SIM_TYPE aSimType ) { SIM_PLOT_PANEL* plotPanel = new SIM_PLOT_PANEL( aSimType, m_plotNotebook, wxID_ANY ); if( m_welcomePanel ) { m_plotNotebook->DeletePage( 0 ); m_welcomePanel = nullptr; } m_plotNotebook->AddPage( plotPanel, wxString::Format( wxT( "Plot%u" ), (unsigned int) m_plotNotebook->GetPageCount() + 1 ), true ); m_plots[plotPanel] = PLOT_INFO(); return plotPanel; } void SIM_PLOT_FRAME::AddVoltagePlot( const wxString& aNetName ) { addPlot( aNetName, SPT_VOLTAGE, "V" ); } void SIM_PLOT_FRAME::AddCurrentPlot( const wxString& aDeviceName, const wxString& aParam ) { addPlot( aDeviceName, SPT_CURRENT, aParam ); } void SIM_PLOT_FRAME::AddTuner( SCH_COMPONENT* aComponent ) { SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !plotPanel ) return; // For now limit the tuner tool to RLC components char primitiveType = NETLIST_EXPORTER_PSPICE::GetSpiceField( SF_PRIMITIVE, aComponent, 0 )[0]; if( primitiveType != SP_RESISTOR && primitiveType != SP_CAPACITOR && primitiveType != SP_INDUCTOR ) return; const wxString& componentName = aComponent->GetField( REFERENCE )->GetText(); // Do not add multiple instances for the same component auto tunerIt = std::find_if( m_tuners.begin(), m_tuners.end(), [&]( const TUNER_SLIDER* t ) { return t->GetComponentName() == componentName; } ); if( tunerIt != m_tuners.end() ) return; // We already have it try { TUNER_SLIDER* tuner = new TUNER_SLIDER( this, m_sidePanel, aComponent ); m_tuneSizer->Add( tuner ); m_tuners.push_back( tuner ); m_sidePanel->Layout(); } catch( ... ) { // Sorry, no bonus } } void SIM_PLOT_FRAME::RemoveTuner( TUNER_SLIDER* aTuner, bool aErase ) { if( aErase ) m_tuners.remove( aTuner ); aTuner->Destroy(); m_sidePanel->Layout(); } SIM_PLOT_PANEL* SIM_PLOT_FRAME::CurrentPlot() const { wxWindow* curPage = m_plotNotebook->GetCurrentPage(); return ( curPage == m_welcomePanel ) ? nullptr : static_cast( curPage ); } void SIM_PLOT_FRAME::addPlot( const wxString& aName, SIM_PLOT_TYPE aType, const wxString& aParam ) { SIM_TYPE simType = m_exporter->GetSimType(); if( !SIM_PLOT_PANEL::IsPlottable( simType ) ) return; // TODO else write out in console? // Create a new plot if the current one displays a different type SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !plotPanel || plotPanel->GetType() != simType ) plotPanel = NewPlotPanel( simType ); TRACE_DESC descriptor( *m_exporter, aName, aType, aParam ); bool updated = false; SIM_PLOT_TYPE xAxisType = GetXAxisType( simType ); if( xAxisType == SPT_LIN_FREQUENCY || xAxisType == SPT_LOG_FREQUENCY ) { int baseType = descriptor.GetType() & ~( SPT_AC_MAG | SPT_AC_PHASE ); // Add two plots: magnitude & phase TRACE_DESC mag_desc( *m_exporter, descriptor, (SIM_PLOT_TYPE)( baseType | SPT_AC_MAG ) ); TRACE_DESC phase_desc( *m_exporter, descriptor, (SIM_PLOT_TYPE)( baseType | SPT_AC_PHASE ) ); updated |= updatePlot( mag_desc, plotPanel ); updated |= updatePlot( phase_desc, plotPanel ); } else { updated = updatePlot( descriptor, plotPanel ); } if( updated ) { updateSignalList(); } } void SIM_PLOT_FRAME::removePlot( const wxString& aPlotName, bool aErase ) { SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !plotPanel ) return; if( aErase ) { auto& traceMap = m_plots[plotPanel].m_traces; auto traceIt = traceMap.find( aPlotName ); wxASSERT( traceIt != traceMap.end() ); traceMap.erase( traceIt ); } wxASSERT( plotPanel->IsShown( aPlotName ) ); plotPanel->DeleteTrace( aPlotName ); plotPanel->Fit(); updateSignalList(); updateCursors(); } void SIM_PLOT_FRAME::updateNetlistExporter() { m_exporter.reset( new NETLIST_EXPORTER_PSPICE_SIM( m_schematicFrame->BuildNetListBase(), Prj().SchLibs(), Prj().SchSearchS() ) ); } bool SIM_PLOT_FRAME::updatePlot( const TRACE_DESC& aDescriptor, SIM_PLOT_PANEL* aPanel ) { if( !m_simulator ) return false; SIM_TYPE simType = m_exporter->GetSimType(); wxString spiceVector = m_exporter->GetSpiceVector( aDescriptor.GetName(), aDescriptor.GetType(), aDescriptor.GetParam() ); if( !SIM_PLOT_PANEL::IsPlottable( simType ) ) { // There is no plot to be shown m_simulator->Command( wxString::Format( "print %s", spiceVector ).ToStdString() ); return false; } // First, handle the x axis wxString xAxisName( m_simulator->GetXAxis( simType ) ); if( xAxisName.IsEmpty() ) return false; auto data_x = m_simulator->GetMagPlot( (const char*) xAxisName.c_str() ); unsigned int size = data_x.size(); if( data_x.empty() ) return false; SIM_PLOT_TYPE plotType = aDescriptor.GetType(); std::vector data_y; // Now, Y axis data switch( m_exporter->GetSimType() ) { case ST_AC: { wxASSERT_MSG( !( ( plotType & SPT_AC_MAG ) && ( plotType & SPT_AC_PHASE ) ), "Cannot set both AC_PHASE and AC_MAG bits" ); if( plotType & SPT_AC_MAG ) data_y = m_simulator->GetMagPlot( (const char*) spiceVector.c_str() ); else if( plotType & SPT_AC_PHASE ) data_y = m_simulator->GetPhasePlot( (const char*) spiceVector.c_str() ); else wxASSERT_MSG( false, "Plot type missing AC_PHASE or AC_MAG bit" ); } break; case ST_NOISE: case ST_DC: case ST_TRANSIENT: { data_y = m_simulator->GetMagPlot( (const char*) spiceVector.c_str() ); } break; default: wxASSERT_MSG( false, "Unhandled plot type" ); return false; } if( data_y.size() != size ) return false; if( aPanel->AddTrace( aDescriptor.GetTitle(), size, data_x.data(), data_y.data(), aDescriptor.GetType() ) ) { m_plots[aPanel].m_traces.insert( std::make_pair( aDescriptor.GetTitle(), aDescriptor ) ); } return true; } void SIM_PLOT_FRAME::updateSignalList() { SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !plotPanel ) return; // Fill the signals listbox m_signals->Clear(); for( const auto& trace : m_plots[plotPanel].m_traces ) m_signals->Append( trace.first ); } void SIM_PLOT_FRAME::updateCursors() { wxQueueEvent( this, new wxCommandEvent( EVT_SIM_CURSOR_UPDATE ) ); } void SIM_PLOT_FRAME::updateTuners() { const auto& spiceItems = m_exporter->GetSpiceItems(); for( auto it = m_tuners.begin(); it != m_tuners.end(); /* iteration inside the loop */ ) { const wxString& ref = (*it)->GetComponentName(); if( std::find_if( spiceItems.begin(), spiceItems.end(), [&]( const SPICE_ITEM& item ) { return item.m_refName == ref; }) == spiceItems.end() ) { // The component does not exist anymore, remove the associated tuner TUNER_SLIDER* tuner = *it; it = m_tuners.erase( it ); RemoveTuner( tuner, false ); } else { ++it; } } } void SIM_PLOT_FRAME::applyTuners() { for( auto& tuner : m_tuners ) { /// @todo no ngspice hardcoding std::string command( "alter @" + tuner->GetSpiceName() + "=" + tuner->GetValue().ToSpiceString() ); m_simulator->Command( command ); } } bool SIM_PLOT_FRAME::loadWorkbook( const wxString& aPath ) { m_plots.clear(); m_plotNotebook->DeleteAllPages(); wxTextFile file( aPath ); if( !file.Open() ) return false; long plotsCount; if( !file.GetFirstLine().ToLong( &plotsCount ) ) // GetFirstLine instead of GetNextLine return false; for( long i = 0; i < plotsCount; ++i ) { long plotType, tracesCount; if( !file.GetNextLine().ToLong( &plotType ) ) return false; SIM_PLOT_PANEL* plotPanel = NewPlotPanel( (SIM_TYPE) plotType ); m_plots[plotPanel].m_simCommand = file.GetNextLine(); StartSimulation(); // Perform simulation, so plots can be added with values do { wxThread::This()->Sleep( 50 ); } while( IsSimulationRunning() ); if( !file.GetNextLine().ToLong( &tracesCount ) ) return false; for( long j = 0; j < tracesCount; ++j ) { long traceType; wxString name, param; if( !file.GetNextLine().ToLong( &traceType ) ) return false; name = file.GetNextLine(); param = file.GetNextLine(); if( name.IsEmpty() || param.IsEmpty() ) return false; addPlot( name, (SIM_PLOT_TYPE) traceType, param ); } } return true; } bool SIM_PLOT_FRAME::saveWorkbook( const wxString& aPath ) { wxTextFile file( aPath ); if( file.Exists() ) { if( !file.Open() ) return false; file.Clear(); } else { file.Create(); } file.AddLine( wxString::Format( "%lu", m_plots.size() ) ); for( const auto& plot : m_plots ) { file.AddLine( wxString::Format( "%d", plot.first->GetType() ) ); file.AddLine( plot.second.m_simCommand ); file.AddLine( wxString::Format( "%lu", plot.second.m_traces.size() ) ); for( const auto& trace : plot.second.m_traces ) { file.AddLine( wxString::Format( "%d", trace.second.GetType() ) ); file.AddLine( trace.second.GetName() ); file.AddLine( trace.second.GetParam() ); } } bool res = file.Write(); file.Close(); return res; } SIM_PLOT_TYPE SIM_PLOT_FRAME::GetXAxisType( SIM_TYPE aType ) const { switch( aType ) { case ST_AC: return SPT_LIN_FREQUENCY; /// @todo SPT_LOG_FREQUENCY case ST_DC: return SPT_SWEEP; case ST_TRANSIENT: return SPT_TIME; default: wxASSERT_MSG( false, "Unhandled simulation type" ); return (SIM_PLOT_TYPE) 0; } } void SIM_PLOT_FRAME::menuNewPlot( wxCommandEvent& aEvent ) { SIM_TYPE type = m_exporter->GetSimType(); if( SIM_PLOT_PANEL::IsPlottable( type ) ) { SIM_PLOT_PANEL* prevPlot = CurrentPlot(); SIM_PLOT_PANEL* newPlot = NewPlotPanel( type ); // If the previous plot had the same type, copy the simulation command if( prevPlot ) m_plots[newPlot].m_simCommand = m_plots[prevPlot].m_simCommand; } } void SIM_PLOT_FRAME::menuOpenWorkbook( wxCommandEvent& event ) { wxFileDialog openDlg( this, wxT( "Open simulation workbook" ), "", "", "Workbook file (*.wbk)|*.wbk", wxFD_OPEN | wxFD_FILE_MUST_EXIST ); if( openDlg.ShowModal() == wxID_CANCEL ) return; if( !loadWorkbook( openDlg.GetPath() ) ) DisplayError( this, wxT( "There was an error while opening the workbook file" ) ); } void SIM_PLOT_FRAME::menuSaveWorkbook( wxCommandEvent& event ) { if( !CurrentPlot() ) return; wxFileDialog saveDlg( this, wxT( "Save simulation workbook" ), "", "", "Workbook file (*.wbk)|*.wbk", wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); if( saveDlg.ShowModal() == wxID_CANCEL ) return; if( !saveWorkbook( saveDlg.GetPath() ) ) DisplayError( this, wxT( "There was an error while saving the workbook file" ) ); } void SIM_PLOT_FRAME::menuSaveImage( wxCommandEvent& event ) { if( !CurrentPlot() ) return; wxFileDialog saveDlg( this, wxT( "Save plot as image" ), "", "", "PNG file (*.png)|*.png", wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); if( saveDlg.ShowModal() == wxID_CANCEL ) return; CurrentPlot()->SaveScreenshot( saveDlg.GetPath(), wxBITMAP_TYPE_PNG ); } void SIM_PLOT_FRAME::menuSaveCsv( wxCommandEvent& event ) { if( !CurrentPlot() ) return; const wxChar SEPARATOR = ';'; wxFileDialog saveDlg( this, wxT( "Save plot data" ), "", "", "CSV file (*.csv)|*.csv", wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); if( saveDlg.ShowModal() == wxID_CANCEL ) return; wxFile out( saveDlg.GetPath(), wxFile::write ); bool timeWritten = false; for( const auto& t : CurrentPlot()->GetTraces() ) { const TRACE* trace = t.second; if( !timeWritten ) { out.Write( wxString::Format( "Time%c", SEPARATOR ) ); for( double v : trace->GetDataX() ) out.Write( wxString::Format( "%f%c", v, SEPARATOR ) ); out.Write( "\r\n" ); timeWritten = true; } out.Write( wxString::Format( "%s%c", t.first, SEPARATOR ) ); for( double v : trace->GetDataY() ) out.Write( wxString::Format( "%f%c", v, SEPARATOR ) ); out.Write( "\r\n" ); } out.Close(); } void SIM_PLOT_FRAME::menuZoomIn( wxCommandEvent& event ) { if( CurrentPlot() ) CurrentPlot()->ZoomIn(); } void SIM_PLOT_FRAME::menuZoomOut( wxCommandEvent& event ) { if( CurrentPlot() ) CurrentPlot()->ZoomOut(); } void SIM_PLOT_FRAME::menuZoomFit( wxCommandEvent& event ) { if( CurrentPlot() ) CurrentPlot()->Fit(); } void SIM_PLOT_FRAME::menuShowGrid( wxCommandEvent& event ) { SIM_PLOT_PANEL* plot = CurrentPlot(); if( plot ) plot->ShowGrid( !plot->IsGridShown() ); } void SIM_PLOT_FRAME::menuShowGridUpdate( wxUpdateUIEvent& event ) { SIM_PLOT_PANEL* plot = CurrentPlot(); if( plot ) event.Check( plot ? plot->IsGridShown() : false ); } void SIM_PLOT_FRAME::menuShowLegend( wxCommandEvent& event ) { SIM_PLOT_PANEL* plot = CurrentPlot(); if( plot ) plot->ShowLegend( !plot->IsLegendShown() ); } void SIM_PLOT_FRAME::menuShowLegendUpdate( wxUpdateUIEvent& event ) { SIM_PLOT_PANEL* plot = CurrentPlot(); event.Check( plot ? plot->IsLegendShown() : false ); } void SIM_PLOT_FRAME::onPlotClose( wxAuiNotebookEvent& event ) { int idx = event.GetSelection(); if( idx == wxNOT_FOUND ) return; SIM_PLOT_PANEL* plotPanel = dynamic_cast( m_plotNotebook->GetPage( idx ) ); if( !plotPanel ) return; m_plots.erase( plotPanel ); updateSignalList(); updateCursors(); } void SIM_PLOT_FRAME::onPlotChanged( wxAuiNotebookEvent& event ) { updateSignalList(); updateCursors(); } void SIM_PLOT_FRAME::onSignalDblClick( wxCommandEvent& event ) { // Remove signal from the plot panel when double clicked int idx = m_signals->GetSelection(); if( idx != wxNOT_FOUND ) removePlot( m_signals->GetString( idx ) ); } void SIM_PLOT_FRAME::onSignalRClick( wxMouseEvent& event ) { int idx = m_signals->HitTest( event.GetPosition() ); if( idx != wxNOT_FOUND ) m_signals->SetSelection( idx ); idx = m_signals->GetSelection(); if( idx != wxNOT_FOUND ) { const wxString& netName = m_signals->GetString( idx ); SIGNAL_CONTEXT_MENU ctxMenu( netName, this ); m_signals->PopupMenu( &ctxMenu ); } } void SIM_PLOT_FRAME::onSimulate( wxCommandEvent& event ) { if( IsSimulationRunning() ) StopSimulation(); else StartSimulation(); } void SIM_PLOT_FRAME::onSettings( wxCommandEvent& event ) { SIM_PLOT_PANEL* plotPanel = CurrentPlot(); // Initial processing is required to e.g. display a list of power sources updateNetlistExporter(); if( !m_exporter->ProcessNetlist( NET_ALL_FLAGS ) ) { DisplayError( this, wxT( "There were errors during netlist export, aborted." ) ); return; } if( plotPanel ) m_settingsDlg.SetSimCommand( m_plots[plotPanel].m_simCommand ); m_settingsDlg.SetNetlistExporter( m_exporter.get() ); if( m_settingsDlg.ShowModal() == wxID_OK ) { wxString newCommand = m_settingsDlg.GetSimCommand(); SIM_TYPE newSimType = NETLIST_EXPORTER_PSPICE_SIM::CommandToSimType( newCommand ); // If it is a new simulation type, open a new plot if( !plotPanel || ( plotPanel && plotPanel->GetType() != newSimType ) ) { plotPanel = NewPlotPanel( newSimType ); } m_plots[plotPanel].m_simCommand = newCommand; } } void SIM_PLOT_FRAME::onAddSignal( wxCommandEvent& event ) { SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !plotPanel || !m_exporter || plotPanel->GetType() != m_exporter->GetSimType() ) { DisplayInfoMessage( this, wxT( "You need to run simulation first." ) ); return; } DIALOG_SIGNAL_LIST dialog( this, m_exporter.get() ); dialog.ShowModal(); } void SIM_PLOT_FRAME::onProbe( wxCommandEvent& event ) { if( m_schematicFrame == NULL ) return; wxQueueEvent( m_schematicFrame, new wxCommandEvent( wxEVT_TOOL, ID_SIM_PROBE ) ); m_schematicFrame->Raise(); } void SIM_PLOT_FRAME::onTune( wxCommandEvent& event ) { if( m_schematicFrame == NULL ) return; wxQueueEvent( m_schematicFrame, new wxCommandEvent( wxEVT_TOOL, ID_SIM_TUNE ) ); m_schematicFrame->Raise(); } void SIM_PLOT_FRAME::onClose( wxCloseEvent& aEvent ) { if( IsSimulationRunning() ) m_simulator->Stop(); Destroy(); } void SIM_PLOT_FRAME::onCursorUpdate( wxCommandEvent& event ) { wxSize size = m_cursors->GetClientSize(); SIM_PLOT_PANEL* plotPanel = CurrentPlot(); m_cursors->ClearAll(); if( !plotPanel ) return; const long SIGNAL_COL = m_cursors->AppendColumn( wxT( "Signal" ), wxLIST_FORMAT_LEFT, size.x / 2 ); const long X_COL = m_cursors->AppendColumn( plotPanel->GetLabelX(), wxLIST_FORMAT_LEFT, size.x / 4 ); wxString labelY1 = plotPanel->GetLabelY1(); wxString labelY2 = plotPanel->GetLabelY2(); wxString labelY; if( !labelY2.IsEmpty() ) labelY = labelY1 + " / " + labelY2; else labelY = labelY1; const long Y_COL = m_cursors->AppendColumn( labelY, wxLIST_FORMAT_LEFT, size.x / 4 ); // Update cursor values for( const auto& trace : plotPanel->GetTraces() ) { if( CURSOR* cursor = trace.second->GetCursor() ) { const wxRealPoint coords = cursor->GetCoords(); long idx = m_cursors->InsertItem( SIGNAL_COL, trace.first ); m_cursors->SetItem( idx, X_COL, SPICE_VALUE( coords.x ).ToSpiceString() ); m_cursors->SetItem( idx, Y_COL, SPICE_VALUE( coords.y ).ToSpiceString() ); } } } void SIM_PLOT_FRAME::onSimStarted( wxCommandEvent& aEvent ) { m_toolBar->SetToolNormalBitmap( ID_SIM_RUN, KiBitmap( sim_stop_xpm ) ); SetCursor( wxCURSOR_ARROWWAIT ); } void SIM_PLOT_FRAME::onSimFinished( wxCommandEvent& aEvent ) { m_toolBar->SetToolNormalBitmap( ID_SIM_RUN, KiBitmap( sim_run_xpm ) ); SetCursor( wxCURSOR_ARROW ); SIM_TYPE simType = m_exporter->GetSimType(); if( simType == ST_UNKNOWN ) return; SIM_PLOT_PANEL* plotPanel = CurrentPlot(); if( !plotPanel || plotPanel->GetType() != simType ) plotPanel = NewPlotPanel( simType ); if( IsSimulationRunning() ) return; // If there are any signals plotted, update them if( SIM_PLOT_PANEL::IsPlottable( simType ) ) { TRACE_MAP& traceMap = m_plots[plotPanel].m_traces; for( auto it = traceMap.begin(); it != traceMap.end(); /* iteration occurs in the loop */) { if( !updatePlot( it->second, plotPanel ) ) { removePlot( it->first, false ); it = traceMap.erase( it ); // remove a plot that does not exist anymore } else { ++it; } } updateSignalList(); plotPanel->UpdateAll(); plotPanel->ResetScales(); } else { /// @todo do not make it hardcoded for ngspice for( const auto& net : m_exporter->GetNetIndexMap() ) { int node = net.second; if( node > 0 ) m_simulator->Command( wxString::Format( "print v(%d)", node ).ToStdString() ); } } } void SIM_PLOT_FRAME::onSimUpdate( wxCommandEvent& aEvent ) { if( !m_simulator ) return; if( IsSimulationRunning() ) StopSimulation(); if( CurrentPlot() != m_lastSimPlot ) { // We need to rerun simulation, as the simulator currently stores // results for another plot StartSimulation(); } else { // Incremental update m_simConsole->Clear(); // Do not export netlist, it is already stored in the simulator applyTuners(); m_simulator->Run(); } } void SIM_PLOT_FRAME::onSimReport( wxCommandEvent& aEvent ) { m_simConsole->AppendText( aEvent.GetString() + "\n" ); m_simConsole->SetInsertionPointEnd(); } SIM_PLOT_FRAME::SIGNAL_CONTEXT_MENU::SIGNAL_CONTEXT_MENU( const wxString& aSignal, SIM_PLOT_FRAME* aPlotFrame ) : m_signal( aSignal ), m_plotFrame( aPlotFrame ) { SIM_PLOT_PANEL* plot = m_plotFrame->CurrentPlot(); Append( HIDE_SIGNAL, wxT( "Hide signal" ) ); TRACE* trace = plot->GetTrace( m_signal ); if( trace->HasCursor() ) Append( HIDE_CURSOR, wxT( "Hide cursor" ) ); else Append( SHOW_CURSOR, wxT( "Show cursor" ) ); Connect( wxEVT_COMMAND_MENU_SELECTED, wxMenuEventHandler( SIGNAL_CONTEXT_MENU::onMenuEvent ), NULL, this ); } void SIM_PLOT_FRAME::SIGNAL_CONTEXT_MENU::onMenuEvent( wxMenuEvent& aEvent ) { SIM_PLOT_PANEL* plot = m_plotFrame->CurrentPlot(); switch( aEvent.GetId() ) { case HIDE_SIGNAL: m_plotFrame->removePlot( m_signal ); break; case SHOW_CURSOR: plot->EnableCursor( m_signal, true ); break; case HIDE_CURSOR: plot->EnableCursor( m_signal, false ); break; } } wxDEFINE_EVENT( EVT_SIM_UPDATE, wxCommandEvent ); wxDEFINE_EVENT( EVT_SIM_REPORT, wxCommandEvent ); wxDEFINE_EVENT( EVT_SIM_STARTED, wxCommandEvent ); wxDEFINE_EVENT( EVT_SIM_FINISHED, wxCommandEvent );