Current probing

This commit is contained in:
Maciej Suminski 2016-08-11 14:41:52 +02:00
parent 6e05d1656b
commit 0f993ba98c
7 changed files with 414 additions and 232 deletions

View File

@ -52,10 +52,21 @@ bool DIALOG_SIGNAL_LIST::TransferDataToWindow()
if( m_exporter )
{
// Voltage list
for( const auto& net : m_exporter->GetNetIndexMap() )
{
if( net.first != "GND" )
m_signals->Append( net.first );
m_signals->Append( wxString::Format( "V(%s)", net.first ) );
}
for( const auto& item : m_exporter->GetSpiceItems() )
{
// Add all possible currents for the primitive
for( const auto& current :
NETLIST_EXPORTER_PSPICE_SIM::GetCurrents( (SPICE_PRIMITIVE) item.m_primitive ) )
{
m_signals->Append( wxString::Format( "%s(%s)", current, item.m_refName ) );
}
}
}
@ -68,6 +79,24 @@ void DIALOG_SIGNAL_LIST::addSelectionToPlotFrame()
for( unsigned int i = 0; i < m_signals->GetCount(); ++i )
{
if( m_signals->IsSelected( i ) )
m_plotFrame->AddVoltagePlot( m_signals->GetString( i ) );
{
const wxString& plotName = m_signals->GetString( i );
// Get the part in the parentheses
wxString name = plotName.AfterFirst( '(' ).BeforeLast( ')' );
if( plotName[0] == 'V' )
{
m_plotFrame->AddVoltagePlot( name );
}
else if( plotName[0] == 'I' )
{
m_plotFrame->AddCurrentPlot( name, plotName.BeforeFirst( '(' ) );
}
else
{
wxASSERT_MSG( false, "Unhandled plot type" );
}
}
}
}

View File

@ -23,7 +23,84 @@
*/
#include "netlist_exporter_pspice_sim.h"
#include "sim_types.h"
wxString NETLIST_EXPORTER_PSPICE_SIM::GetSpiceVector( const wxString& aName, SIM_PLOT_TYPE aType,
const wxString& aParam ) const
{
wxString res;
// Some of the flags should exclude mutually
assert( ( ( aType & SPT_VOLTAGE ) == 0 ) != ( ( aType & SPT_CURRENT ) == 0 ) );
assert( ( ( aType & SPT_AC_PHASE ) == 0 ) || ( ( aType & SPT_AC_MAG ) == 0 ) );
if( aType & SPT_VOLTAGE )
{
const auto& netMapping = GetNetIndexMap();
auto it = netMapping.find( aName );
if( it == netMapping.end() )
return "";
return wxString::Format( "v(%d)", it->second );
}
/// @todo check is Lower() is required
else if( aType & SPT_CURRENT )
{
return wxString::Format( "@%s[%s]", GetSpiceDevice( aName ).Lower(),
aParam.IsEmpty() ? "i" : aParam.Lower() );
}
return res;
}
const std::vector<wxString>& NETLIST_EXPORTER_PSPICE_SIM::GetCurrents( SPICE_PRIMITIVE aPrimitive )
{
static const std::vector<wxString> passive = { "I" };
static const std::vector<wxString> diode = { "Id" };
static const std::vector<wxString> bjt = { "Ib", "Ic", "Ie" };
static const std::vector<wxString> mos = { "Ig", "Id", "Is" };
static const std::vector<wxString> empty;
switch( aPrimitive )
{
case SP_RESISTOR:
case SP_CAPACITOR:
case SP_INDUCTOR:
case SP_VSOURCE:
return passive;
case SP_DIODE:
return diode;
case SP_BJT:
return bjt;
case SP_MOSFET:
return mos;
default:
return empty;
}
}
wxString NETLIST_EXPORTER_PSPICE_SIM::GetSpiceDevice( const wxString& aComponent ) const
{
const auto& spiceItems = GetSpiceItems();
auto it = std::find_if( spiceItems.begin(), spiceItems.end(), [&]( const SPICE_ITEM& item ) {
return item.m_refName == aComponent;
} );
if( it == spiceItems.end() )
return wxEmptyString;
return wxString( it->m_primitive + it->m_refName );
}
wxString NETLIST_EXPORTER_PSPICE_SIM::GetSheetSimCommand()
{
@ -68,19 +145,43 @@ SIM_TYPE NETLIST_EXPORTER_PSPICE_SIM::CommandToSimType( const wxString& aCmd )
void NETLIST_EXPORTER_PSPICE_SIM::writeDirectives( OUTPUTFORMATTER* aFormatter, unsigned aCtl ) const
{
// Add a directive to obtain currents
//aFormatter->Print( 0, ".options savecurrents\n" ); // does not work :(
for( const auto& item : GetSpiceItems() )
{
for( const auto& current :
NETLIST_EXPORTER_PSPICE_SIM::GetCurrents( (SPICE_PRIMITIVE) item.m_primitive ) )
{
/// @todo is it required to switch to lowercase
aFormatter->Print( 0, ".save %s\n",
(const char*) GetSpiceVector( item.m_refName, SPT_CURRENT, current ).c_str() );
}
}
// If we print out .save directives for currents, then it needs to be done for voltages as well
for( const auto& netMap : GetNetIndexMap() )
{
aFormatter->Print( 0, ".save %s\n",
(const char*) GetSpiceVector( netMap.first, SPT_VOLTAGE ).c_str() );
}
if( m_simCommand.IsEmpty() )
{
// Fallback to the default behavior and just write all directives
NETLIST_EXPORTER_PSPICE::writeDirectives( aFormatter, aCtl );
}
// Dump all directives, but simulation commands
for( const auto& dir : GetDirectives() )
else
{
if( !IsSimCommand( dir ) )
aFormatter->Print( 0, "%s\n", (const char*) dir.c_str() );
// Dump all directives but simulation commands
for( const auto& dir : GetDirectives() )
{
if( !IsSimCommand( dir ) )
aFormatter->Print( 0, "%s\n", (const char*) dir.c_str() );
}
// Finish with our custom simulation command
aFormatter->Print( 0, "%s\n", (const char*) m_simCommand.c_str() );
}
// Finish with our custom simulation command
aFormatter->Print( 0, "%s\n", (const char*) m_simCommand.c_str() );
}

View File

@ -26,6 +26,8 @@
#define NETLIST_EXPORTER_PSPICE_SIM_H
#include <netlist_exporters/netlist_exporter_pspice.h>
#include <vector>
#include "sim_types.h"
/// Special netlist exporter flavor that allows to override simulation commands
@ -38,6 +40,30 @@ public:
{
}
/**
* @brief Returns name of Spice dataset for a specific plot.
* @param aName is name of the measured net or device
* @param aType describes the type of expected plot
* @param aParam is an optional parameter for devices, if absent it will return current (only
* for passive devices).
* @return Empty string if query is invalid, otherwise a plot name that
* can be requested from the simulator.
*/
wxString GetSpiceVector( const wxString& aName, SIM_PLOT_TYPE aType,
const wxString& aParam = wxEmptyString ) const;
/**
* @brief Returns name of Spice device corresponding to a schematic component.
* @param aComponent is the component reference.
* @return Spice device name or empty string if there is no such component in the netlist.
*/
wxString GetSpiceDevice( const wxString& aComponent ) const;
/**
* @brief Returns a list of currents that can be probed in a Spice primitive.
*/
static const std::vector<wxString>& GetCurrents( SPICE_PRIMITIVE aPrimitive );
void SetSimCommand( const wxString& aCmd )
{
m_simCommand = aCmd;

View File

@ -37,6 +37,13 @@
#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:
@ -76,6 +83,23 @@ private:
};
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 )
{
// Spice vector generation
m_spiceVector = aExporter.GetSpiceVector( aName, aType, 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 )
{
@ -157,27 +181,13 @@ SIM_PLOT_PANEL* SIM_PLOT_FRAME::NewPlotPanel( SIM_TYPE aSimType )
void SIM_PLOT_FRAME::AddVoltagePlot( const wxString& aNetName )
{
SIM_TYPE simType = m_exporter->GetSimType();
addPlot( aNetName, SPT_VOLTAGE, "V" );
}
if( !SIM_PLOT_PANEL::IsPlottable( simType ) )
return; // TODO else write out in console?
int nodeNumber = getNodeNumber( aNetName );
if( nodeNumber >= -1 )
{
// Create a new plot if the current one displays a different type
SIM_PLOT_PANEL* plotPanel = CurrentPlot();
if( plotPanel == nullptr || plotPanel->GetType() != simType )
plotPanel = NewPlotPanel( simType );
if( updatePlot( wxString::Format( "V(%d)", nodeNumber ), aNetName, plotPanel ) )
{
updateSignalList();
plotPanel->Fit();
}
}
void SIM_PLOT_FRAME::AddCurrentPlot( const wxString& aDeviceName, const wxString& aParam )
{
addPlot( aDeviceName, SPT_CURRENT, aParam );
}
@ -195,7 +205,7 @@ void SIM_PLOT_FRAME::AddTuner( SCH_COMPONENT* aComponent )
return;
const wxString& componentName = aComponent->GetField( REFERENCE )->GetText();
auto& tunerList = m_tuners[plotPanel];
auto& tunerList = m_plots[plotPanel].m_tuners;
// Do not add multiple instances for the same component
auto tunerIt = std::find_if( tunerList.begin(), tunerList.end(), [&]( const TUNER_SLIDER* t )
@ -228,7 +238,7 @@ void SIM_PLOT_FRAME::RemoveTuner( TUNER_SLIDER* aTuner )
if( !plotPanel )
return;
m_tuners[plotPanel].remove( aTuner );
m_plots[plotPanel].m_tuners.remove( aTuner );
aTuner->Destroy();
Layout();
}
@ -240,6 +250,45 @@ SIM_PLOT_PANEL* SIM_PLOT_FRAME::CurrentPlot() const
}
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 == nullptr || plotPanel->GetType() != simType )
plotPanel = NewPlotPanel( simType );
TRACE_DESC descriptor( *m_exporter, aName, aType, aParam );
bool updated = false;
if( GetXAxisType( simType ) == SPT_FREQUENCY )
{
// Add two plots: magnitude & phase
TRACE_DESC mag_desc( *m_exporter, descriptor, descriptor.GetType() | SPT_AC_MAG );
TRACE_DESC phase_desc( *m_exporter, descriptor, descriptor.GetType() | SPT_AC_PHASE );
updated |= updatePlot( mag_desc, plotPanel );
updated |= updatePlot( phase_desc, plotPanel );
}
else
{
updated = updatePlot( descriptor, plotPanel );
}
if( updated )
{
updateSignalList();
plotPanel->Fit();
}
}
void SIM_PLOT_FRAME::updateNetlistExporter()
{
m_exporter.reset( new NETLIST_EXPORTER_PSPICE_SIM( m_schematicFrame->BuildNetListBase(),
@ -247,65 +296,51 @@ void SIM_PLOT_FRAME::updateNetlistExporter()
}
bool SIM_PLOT_FRAME::updatePlot( const wxString& aName, SIM_PLOT_TYPE aType, SIM_PLOT_PANEL* aPanel )
bool SIM_PLOT_FRAME::updatePlot( const TRACE_DESC& aDescriptor, SIM_PLOT_PANEL* aPanel )
{
if( !m_simulator )
return false;
// First, handle the x axis
wxString xAxisName;
SIM_TYPE simType = m_exporter->GetSimType();
wxString spiceVector = aDescriptor.GetSpiceVector();
if( !SIM_PLOT_PANEL::IsPlottable( simType ) )
{
// There is no plot to be shown
m_simulator->Command( wxString::Format( "print %s", aSpiceName ).ToStdString() );
m_simulator->Command( wxString::Format( "print %s", spiceVector ).ToStdString() );
return false;
}
switch( simType )
{
/// @todo x axis names should be moved to simulator iface, so they are not hardcoded for ngspice
case ST_AC:
case ST_NOISE:
xAxisName = "frequency";
break;
// First, handle the x axis
wxString xAxisName( m_simulator->GetXAxis( simType ) );
case ST_DC:
xAxisName = "v-sweep";
break;
case ST_TRANSIENT:
xAxisName = "time";
break;
case ST_OP:
break;
default:
break;
}
if( xAxisName.IsEmpty() )
return false;
auto data_x = m_simulator->GetMagPlot( (const char*) xAxisName.c_str() );
int size = data_x.size();
unsigned int size = data_x.size();
if( data_x.empty() )
return false;
SIM_PLOT_TYPE plotType = aDescriptor.GetType();
std::vector<double> data_y;
// Now, Y axis data
switch( m_exporter->GetSimType() )
{
/// @todo x axis names should be moved to simulator iface
case ST_AC:
{
auto data_mag = m_simulator->GetMagPlot( (const char*) aSpiceName.c_str() );
auto data_phase = m_simulator->GetPhasePlot( (const char*) aSpiceName.c_str() );
wxASSERT_MSG( !( ( plotType & SPT_AC_MAG ) && ( plotType & SPT_AC_PHASE ) ),
"Cannot set both AC_PHASE and AC_MAG bits" );
if( data_mag.empty() || data_phase.empty() )
return false;
aPanel->AddTrace( aSpiceName, aName, size, data_x.data(), data_mag.data(), SPF_AC_MAG );
aPanel->AddTrace( aSpiceName, aName, size, data_x.data(), data_phase.data(), SPF_AC_PHASE );
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;
@ -313,12 +348,7 @@ bool SIM_PLOT_FRAME::updatePlot( const wxString& aName, SIM_PLOT_TYPE aType, SIM
case ST_DC:
case ST_TRANSIENT:
{
auto data_y = m_simulator->GetMagPlot( (const char*) aSpiceName.c_str() );
if( data_y.empty() )
return false;
aPanel->AddTrace( aSpiceName, aName, size, data_x.data(), data_y.data(), 0 );
data_y = m_simulator->GetMagPlot( (const char*) spiceVector.c_str() );
}
break;
@ -327,6 +357,15 @@ bool SIM_PLOT_FRAME::updatePlot( const wxString& aName, SIM_PLOT_TYPE aType, SIM
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;
}
@ -341,8 +380,8 @@ void SIM_PLOT_FRAME::updateSignalList()
// Fill the signals listbox
m_signals->Clear();
for( const auto& trace : plotPanel->GetTraces() )
m_signals->Append( trace.second->GetName() );
for( const auto& trace : m_plots[plotPanel].m_traces )
m_signals->Append( trace.first );
}
@ -358,7 +397,7 @@ void SIM_PLOT_FRAME::updateTuners()
m_tuneSizer->Clear();
for( auto tuner : m_tuners[plotPanel] )
for( auto tuner : m_plots[plotPanel].m_tuners )
{
m_tuneSizer->Add( tuner );
tuner->Show();
@ -368,15 +407,23 @@ void SIM_PLOT_FRAME::updateTuners()
}
int SIM_PLOT_FRAME::getNodeNumber( const wxString& aNetName )
SIM_PLOT_TYPE SIM_PLOT_FRAME::GetXAxisType( SIM_TYPE aType ) const
{
const auto& netMapping = m_exporter->GetNetIndexMap();
auto it = netMapping.find( aNetName );
switch( aType )
{
case ST_AC:
return SPT_FREQUENCY;
if( it == netMapping.end() )
return -1;
case ST_DC:
return SPT_SWEEP;
return it->second;
case ST_TRANSIENT:
return SPT_TIME;
default:
wxASSERT_MSG( false, "Unhandled simulation type" );
return (SIM_PLOT_TYPE) 0;
}
}
@ -429,7 +476,7 @@ void SIM_PLOT_FRAME::menuSaveCsv( wxCommandEvent& event )
timeWritten = true;
}
out.Write( wxString::Format( "%s%c", t.first.GetDescription(), SEPARATOR ) );
out.Write( wxString::Format( "%s%c", t.first, SEPARATOR ) );
for( double v : trace->GetDataY() )
out.Write( wxString::Format( "%f%c", v, SEPARATOR ) );
@ -515,14 +562,22 @@ void SIM_PLOT_FRAME::onSignalDblClick( wxCommandEvent& event )
{
// Remove signal from the plot on double click
int idx = m_signals->GetSelection();
SIM_PLOT_PANEL* plot = CurrentPlot();
SIM_PLOT_PANEL* plotPanel = CurrentPlot();
if( idx != wxNOT_FOUND )
{
const wxString& netName = m_signals->GetString( idx );
const wxString& plotName = m_signals->GetString( idx );
auto& traceMap = m_plots[plotPanel].m_traces;
auto traceIt = traceMap.find( plotName );
wxASSERT( traceIt != traceMap.end() );
traceMap.erase( traceIt );
wxASSERT( plotPanel->IsShown( plotName ) );
plotPanel->DeleteTrace( plotName );
plotPanel->Fit();
m_signals->Delete( idx );
wxASSERT( plot->IsShown( netName ) );
plot->DeleteTrace( netName );
}
}
@ -565,6 +620,14 @@ void SIM_PLOT_FRAME::onSettings( wxCommandEvent& event )
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();
}
@ -612,7 +675,7 @@ void SIM_PLOT_FRAME::onCursorUpdate( wxCommandEvent& event )
if( CURSOR* cursor = trace.second->GetCursor() )
{
const wxRealPoint coords = cursor->GetCoords();
long idx = m_cursors->InsertItem( SIGNAL_COL, trace.first.GetDescription() );
long idx = m_cursors->InsertItem( SIGNAL_COL, trace.first );
m_cursors->SetItem( idx, X_COL, wxString::Format( "%f", coords.x ) );
m_cursors->SetItem( idx, Y_COL, wxString::Format( "%f", coords.y ) );
}
@ -645,8 +708,8 @@ void SIM_PLOT_FRAME::onSimFinished( wxCommandEvent& aEvent )
// If there are any signals plotted, update them
if( SIM_PLOT_PANEL::IsPlottable( simType ) )
{
for( const auto& trace : plotPanel->GetTraces() )
updatePlot( trace.second->GetSpiceName(), trace.first.GetName(), plotPanel );
for( const auto& trace : m_plots[plotPanel].m_traces )
updatePlot( trace.second, plotPanel );
plotPanel->UpdateAll();
}
@ -676,7 +739,7 @@ void SIM_PLOT_FRAME::onSimUpdate( wxCommandEvent& aEvent )
// Apply tuned values
if( SIM_PLOT_PANEL* plotPanel = CurrentPlot() )
{
for( auto tuner : m_tuners[plotPanel] )
for( auto tuner : m_plots[plotPanel].m_tuners )
{
/// @todo no ngspice hardcoding
std::string command( "alter @" + tuner->GetSpiceName()
@ -703,21 +766,14 @@ SIM_PLOT_FRAME::SIGNAL_CONTEXT_MENU::SIGNAL_CONTEXT_MENU( const wxString& aSigna
{
SIM_PLOT_PANEL* plot = m_plotFrame->CurrentPlot();
if( plot->IsShown( m_signal ) )
{
Append( HIDE_SIGNAL, wxT( "Hide signal" ) );
Append( HIDE_SIGNAL, wxT( "Hide signal" ) );
TRACE* trace = plot->GetTrace( m_signal );
TRACE* trace = plot->GetTrace( m_signal );
if( trace->HasCursor() )
Append( HIDE_CURSOR, wxT( "Hide cursor" ) );
else
Append( SHOW_CURSOR, wxT( "Show cursor" ) );
}
if( trace->HasCursor() )
Append( HIDE_CURSOR, wxT( "Hide cursor" ) );
else
{
Append( SHOW_SIGNAL, wxT( "Show signal" ) );
}
Append( SHOW_CURSOR, wxT( "Show cursor" ) );
Connect( wxEVT_COMMAND_MENU_SELECTED, wxMenuEventHandler( SIGNAL_CONTEXT_MENU::onMenuEvent ), NULL, this );
}
@ -729,11 +785,6 @@ void SIM_PLOT_FRAME::SIGNAL_CONTEXT_MENU::onMenuEvent( wxMenuEvent& aEvent )
switch( aEvent.GetId() )
{
case SHOW_SIGNAL:
m_plotFrame->AddVoltagePlot( m_signal );
break;
break;
case HIDE_SIGNAL:
plot->DeleteTrace( m_signal );
break;

View File

@ -49,6 +49,64 @@ class NETLIST_EXPORTER_PSPICE_SIM;
class SIM_PLOT_PANEL;
class TUNER_SLIDER;
/// @todo description
class TRACE_DESC
{
public:
TRACE_DESC( const NETLIST_EXPORTER_PSPICE_SIM& aExporter, const wxString& aName,
SIM_PLOT_TYPE aType, const wxString& aParam );
///> Modifies an existing TRACE_DESC simulation type
TRACE_DESC( const NETLIST_EXPORTER_PSPICE_SIM& aExporter,
const TRACE_DESC& aDescription, SIM_PLOT_TYPE aNewType )
: TRACE_DESC( aExporter, aDescription.GetName(), aNewType, aDescription.GetParam() )
{
}
const wxString& GetTitle() const
{
return m_title;
}
const wxString& GetName() const
{
return m_name;
}
const wxString& GetParam() const
{
return m_param;
}
SIM_PLOT_TYPE GetType() const
{
return m_type;
}
const wxString& GetSpiceVector() const
{
return m_spiceVector;
}
private:
// Three basic parameters
///> Name of the measured net/device
wxString m_name;
///> Type of the signal
SIM_PLOT_TYPE m_type;
///> Name of the signal parameter
wxString m_param;
// Generated data
///> Title displayed in the signal list/plot legend
wxString m_title;
///> Spice vector name
wxString m_spiceVector;
};
/** Implementing SIM_PLOT_FRAME_BASE */
class SIM_PLOT_FRAME : public SIM_PLOT_FRAME_BASE
{
@ -70,26 +128,28 @@ class SIM_PLOT_FRAME : public SIM_PLOT_FRAME_BASE
SIM_PLOT_PANEL* NewPlotPanel( SIM_TYPE aSimType );
void AddVoltagePlot( const wxString& aNetName );
void AddCurrentPlot( const wxString& aDeviceName, const wxString& aParam );
void AddTuner( SCH_COMPONENT* aComponent );
void RemoveTuner( TUNER_SLIDER* aTuner );
SIM_PLOT_PANEL* CurrentPlot() const;
private:
void addPlot( const wxString& aName, SIM_PLOT_TYPE aType, const wxString& aParam );
void updateNetlistExporter();
/**
* @brief Updates plot in a particular SIM_PLOT_PANEL. If the panel does not contain
* the plot, it will be added.
* @param aSpiceName is the plot name in the format accepted by the current simulator instance
* (for NGSPICE it is e.g. "V(1)").
* @param aName is the name used in the legend.
* @param aName is the net/device name.
* @param aType is the plot type (@see SIM_PLOT_TYPES).
* @param aPanel is the panel that should receive the update.
* @return True if a plot was successfully added/updated.
* TODO update description
*/
bool updatePlot( const wxString& aSpiceName, const wxString& aName, SIM_PLOT_PANEL* aPanel );
bool updatePlot( const TRACE_DESC& aDescriptor, SIM_PLOT_PANEL* aPanel );
/**
* @brief Updates the list of currently plotted signals.
@ -101,12 +161,7 @@ class SIM_PLOT_FRAME : public SIM_PLOT_FRAME_BASE
*/
void updateTuners();
/**
* @brief Returns node number for a given net.
* @param aNetName is the net number.
* @return Corresponding net number or -1 if there is no such net.
*/
int getNodeNumber( const wxString& aNetName );
SIM_PLOT_TYPE GetXAxisType( SIM_TYPE aType ) const;
// Menu handlers
void menuNewPlot( wxCommandEvent& aEvent ) override;
@ -151,7 +206,17 @@ class SIM_PLOT_FRAME : public SIM_PLOT_FRAME_BASE
SCH_EDIT_FRAME* m_schematicFrame;
std::unique_ptr<NETLIST_EXPORTER_PSPICE_SIM> m_exporter;
std::unique_ptr<SPICE_SIMULATOR> m_simulator;
std::map<SIM_PLOT_PANEL*, std::list<TUNER_SLIDER*> > m_tuners;
typedef std::map<wxString, TRACE_DESC> TRACE_MAP;
typedef std::list<TUNER_SLIDER*> TUNER_LIST;
struct PLOT_INFO
{
TUNER_LIST m_tuners;
TRACE_MAP m_traces;
};
std::map<SIM_PLOT_PANEL*, PLOT_INFO> m_plots;
// Trick to preserve settings between runs
DIALOG_SIM_SETTINGS m_settingsDlg;
@ -170,12 +235,12 @@ class SIM_PLOT_FRAME : public SIM_PLOT_FRAME_BASE
enum SIGNAL_CONTEXT_MENU_EVENTS
{
SHOW_SIGNAL,
HIDE_SIGNAL,
SHOW_CURSOR,
HIDE_CURSOR
};
};
};
// Commands

View File

@ -237,44 +237,6 @@ void CURSOR::Plot( wxDC& aDC, mpWindow& aWindow )
}
TRACE_DESC::TRACE_DESC( const wxString& aDescription )
: m_name( aDescription )
{
for( const auto& desc : m_descMap )
{
if( m_name.EndsWith( desc.second ) )
{
m_type = desc.first;
m_name.Replace( desc.second, "" );
}
}
}
wxString TRACE_DESC::GetDescription() const
{
wxString res( m_name );
for( const auto& desc : m_descMap )
{
if( m_type == desc.first )
{
res += desc.second;
break;
}
}
return res;
}
const std::map<SIM_PLOT_FLAGS, wxString> TRACE_DESC::m_descMap =
{
{ SPF_AC_PHASE, wxT( " (phase)" ) },
{ SPF_AC_MAG, wxT( " (mag)" ) }
};
SIM_PLOT_PANEL::SIM_PLOT_PANEL( SIM_TYPE aType, wxWindow* parent, wxWindowID id, const wxPoint& pos,
const wxSize& size, long style, const wxString& name )
: mpWindow( parent, id, pos, size, style ), m_colorIdx( 0 ),
@ -374,20 +336,13 @@ bool SIM_PLOT_PANEL::IsPlottable( SIM_TYPE aSimType )
}
bool SIM_PLOT_PANEL::AddTrace( const wxString& aSpiceName, const wxString& aName, int aPoints,
const double* aT, const double* aY, int aFlags )
bool SIM_PLOT_PANEL::AddTrace( const wxString& aName, int aPoints,
const double* aX, const double* aY, SIM_PLOT_TYPE aFlags )
{
TRACE* t = NULL;
wxString name( aName );
if( aFlags == SPF_AC_MAG )
name += " (mag)";
else if( aFlags == SPF_AC_PHASE )
name += " (phase)";
// Find previous entry, if there is one
auto prev = m_traces.find( TRACE_DESC( aName, (SIM_PLOT_FLAGS) aFlags ) );
auto prev = m_traces.find( aName );
bool addedNewEntry = ( prev == m_traces.end() );
if( addedNewEntry )
@ -396,18 +351,18 @@ bool SIM_PLOT_PANEL::AddTrace( const wxString& aSpiceName, const wxString& aName
switch ( m_type )
{
case ST_TRANSIENT:
t = new TRACE_TRANSIENT( name, aSpiceName );
t = new TRACE_TRANSIENT( aName );
break;
case ST_AC:
//printf("makeFreqResp!\n");
t = new TRACE_FREQ_RESPONSE( name, aSpiceName );
t = new TRACE_FREQ_RESPONSE( aName );
break;
default:
assert(false);
}
t->SetPen( wxPen( generateColor(), 2, wxSOLID ) );
m_traces[TRACE_DESC( aName, (SIM_PLOT_FLAGS) aFlags )] = t;
m_traces[aName] = t;
// It is a trick to keep legend & coords always on the top
for( mpLayer* l : m_topLevel )
@ -427,7 +382,7 @@ bool SIM_PLOT_PANEL::AddTrace( const wxString& aSpiceName, const wxString& aName
if( m_type == ST_AC )
{
if( aFlags & SPF_AC_PHASE )
if( aFlags & SPT_AC_PHASE )
{
for(int i = 0; i < aPoints; i++ )
tmp[i] = tmp[i] * 180.0 / M_PI;
@ -439,9 +394,9 @@ bool SIM_PLOT_PANEL::AddTrace( const wxString& aSpiceName, const wxString& aName
}
}
t->SetData( std::vector<double>( aT, aT + aPoints ), tmp );
t->SetData( std::vector<double>( aX, aX + aPoints ), tmp );
if( aFlags & SPF_AC_PHASE )
if( aFlags & SPT_AC_PHASE )
t->SetScale( m_axis_x, m_axis_y2 );
else
t->SetScale( m_axis_x, m_axis_y1 );
@ -454,7 +409,7 @@ bool SIM_PLOT_PANEL::AddTrace( const wxString& aSpiceName, const wxString& aName
bool SIM_PLOT_PANEL::DeleteTrace( const wxString& aName )
{
auto it = m_traces.find( TRACE_DESC( aName ) );
auto it = m_traces.find( aName );
if( it != m_traces.end() )
{
@ -477,7 +432,7 @@ void SIM_PLOT_PANEL::DeleteAllTraces()
{
for( auto& t : m_traces )
{
DeleteTrace( t.first.GetDescription() );
DeleteTrace( t.first );
}
m_traces.clear();

View File

@ -90,8 +90,8 @@ private:
class TRACE : public mpFXYVector
{
public:
TRACE( const wxString& aName, const wxString& aSpiceName ) :
mpFXYVector( aName ), m_spiceName( aSpiceName ), m_cursor( nullptr )
TRACE( const wxString& aName ) :
mpFXYVector( aName ), m_cursor( nullptr )
{
SetContinuity( true );
SetDrawOutsideMargins( false );
@ -99,11 +99,6 @@ public:
}
const wxString& GetSpiceName() const
{
return m_spiceName;
}
const std::vector<double>& GetDataX() const
{
return m_xs;
@ -130,15 +125,14 @@ public:
}
protected:
wxString m_spiceName;
CURSOR* m_cursor;
};
class TRACE_FREQ_RESPONSE : public TRACE
{
public:
TRACE_FREQ_RESPONSE( const wxString& aName, const wxString& aSpiceName ) :
TRACE( aName, aSpiceName )
TRACE_FREQ_RESPONSE( const wxString& aName ) :
TRACE( aName )
{
printf("makeFreqResponse!\n");
}
@ -148,52 +142,13 @@ public:
class TRACE_TRANSIENT : public TRACE
{
public:
TRACE_TRANSIENT( const wxString& aName, const wxString& aSpiceName ) :
TRACE( aName, aSpiceName )
TRACE_TRANSIENT( const wxString& aName ) :
TRACE( aName )
{
}
};
enum SIM_PLOT_FLAGS {
SPF_AC_PHASE = 0x01,
SPF_AC_MAG = 0x02
};
class TRACE_DESC
{
public:
TRACE_DESC( const wxString& aName, SIM_PLOT_FLAGS aType )
: m_name( aName ), m_type( aType )
{
}
TRACE_DESC( const wxString& aDescription );
wxString GetDescription() const;
const wxString& GetName() const
{
return m_name;
}
SIM_PLOT_FLAGS GetType() const
{
return m_type;
}
bool operator<( const TRACE_DESC& aOther ) const
{
return ( m_name < aOther.m_name ) || ( m_name == aOther.m_name && m_type < aOther.m_type );
}
private:
wxString m_name;
SIM_PLOT_FLAGS m_type;
static const std::map<SIM_PLOT_FLAGS, wxString> m_descMap;
};
class SIM_PLOT_PANEL : public mpWindow
{
public:
@ -224,8 +179,8 @@ public:
return m_axis_y2 ? m_axis_y2->GetName() : "";
}
bool AddTrace( const wxString& aSpiceName, const wxString& aName, int aPoints,
const double* aT, const double* aY, int aFlags );
bool AddTrace( const wxString& aName, int aPoints,
const double* aX, const double* aY, SIM_PLOT_TYPE aFlags );
bool DeleteTrace( const wxString& aName );
@ -233,17 +188,17 @@ public:
bool IsShown( const wxString& aName ) const
{
return m_traces.count( TRACE_DESC( aName ) ) > 0;
return m_traces.count( aName ) > 0;
}
const std::map<TRACE_DESC, TRACE*>& GetTraces() const
const std::map<wxString, TRACE*>& GetTraces() const
{
return m_traces;
}
TRACE* GetTrace( const wxString& aName ) const
{
auto trace = m_traces.find( TRACE_DESC( aName ) );
auto trace = m_traces.find( aName );
return trace == m_traces.end() ? NULL : trace->second;
}
@ -294,7 +249,7 @@ private:
unsigned int m_colorIdx;
// Traces to be plotted
std::map<TRACE_DESC, TRACE*> m_traces;
std::map<wxString, TRACE*> m_traces;
mpScaleXBase* m_axis_x;
mpScaleY* m_axis_y1;