/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016-2023 CERN * Copyright (C) 2016-2023 KiCad Developers, see AUTHORS.txt for contributors. * * @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 */ #ifndef __SIM_PLOT_PANEL_H #define __SIM_PLOT_PANEL_H #include "sim_types.h" #include #include #include #include #include "sim_plot_panel_base.h" #include "sim_plot_colors.h" class SIMULATOR_FRAME; class SIM_PLOT_PANEL; class TRACE; /** * * The SIMULATOR_FRAME holds the main user-interface for running simulations. * * It contains a workbook with multiple tabs, each tab holding a SIM_PLOT_PANEL, a specific * simulation command (.TRAN, .AC, etc.), and simulation settings (save all currents, etc.). * * Each plot can have multiple TRACEs. While internally each TRACE can have multiple cursors, * the GUI supports only two cursors (and a differential cursor) for each plot. * * TRACEs are identified by a signal (V(OUT), I(R2), etc.) and a type (SPT_VOLTAGE, SPT_AC_PHASE, * etc.). * * The simulator outputs simple signals in a vector of the same name. Complex signals (such as * V(OUT) / V(IN)) are stored in vectors of the format "user%d". * */ ///< Cursor attached to a trace to follow its values: class CURSOR : public mpInfoLayer { public: CURSOR( TRACE* aTrace, SIM_PLOT_PANEL* aPlotPanel ) : mpInfoLayer( wxRect( 0, 0, DRAG_MARGIN, DRAG_MARGIN ), wxTRANSPARENT_BRUSH ), m_trace( aTrace ), m_updateRequired( true ), m_updateRef( false ), m_coords( 0.0, 0.0 ), m_window( nullptr ) { SetDrawOutsideMargins( false ); } void Plot( wxDC& aDC, mpWindow& aWindow ) override; void SetX( int aX ) { m_reference.x = 0; m_updateRef = true; Move( wxPoint( aX, 0 ) ); } void Update() { m_updateRequired = true; } bool Inside( const wxPoint& aPoint ) const override; void Move( wxPoint aDelta ) override { Update(); mpInfoLayer::Move( aDelta ); } void UpdateReference() override; const wxRealPoint& GetCoords() const { return m_coords; } void SetCoordX( double aValue ); private: void doSetCoordX( double aValue ); wxString getID(); private: TRACE* m_trace; bool m_updateRequired; bool m_updateRef; wxRealPoint m_coords; mpWindow* m_window; static constexpr int DRAG_MARGIN = 10; }; class TRACE : public mpFXYVector { public: TRACE( const wxString& aName, SIM_TRACE_TYPE aType ) : mpFXYVector( aName ), m_type( aType ) { SetContinuity( true ); SetDrawOutsideMargins( false ); ShowName( false ); SetName( aName ); } void SetName( const wxString& aName ) override { for( auto& [ idx, cursor ] : m_cursors ) { if( cursor ) cursor->SetName( aName ); } mpFXYVector::SetName( aName ); if( m_type & SPT_AC_MAG ) m_displayName = aName + _( " (gain)" ); else if( m_type & SPT_AC_PHASE ) m_displayName = aName + _( " (phase)" ); else m_displayName = aName; } /** * Assigns new data set for the trace. aX and aY need to have the same length. * * @param aX are the X axis values. * @param aY are the Y axis values. */ void SetData( const std::vector& aX, const std::vector& aY ) override { for( auto& [ idx, cursor ] : m_cursors ) { if( cursor ) cursor->Update(); } mpFXYVector::SetData( aX, aY ); } const std::vector& GetDataX() const { return m_xs; } const std::vector& GetDataY() const { return m_ys; } bool HasCursor( int aCursorId ) { return m_cursors[ aCursorId ] != nullptr; } void SetCursor( int aCursorId, CURSOR* aCursor ) { m_cursors[ aCursorId ] = aCursor; } CURSOR* GetCursor( int aCursorId ) { return m_cursors[ aCursorId ]; } std::map& GetCursors() { return m_cursors; } SIM_TRACE_TYPE GetType() const { return m_type; } void SetTraceColour( const wxColour& aColour ) { m_traceColour = aColour; } wxColour GetTraceColour() const { return m_traceColour; } protected: std::map m_cursors; // No ownership; the mpWindow owns the CURSORs SIM_TRACE_TYPE m_type; wxColour m_traceColour; }; class SIM_PLOT_PANEL : public SIM_PLOT_PANEL_BASE { public: SIM_PLOT_PANEL( const wxString& aCommand, int aOptions, wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = 0, const wxString& name = wxPanelNameStr ); virtual ~SIM_PLOT_PANEL(); wxString GetLabelX() const { return m_axis_x ? m_axis_x->GetName() : wxString( wxS( "" ) ); } wxString GetLabelY1() const { return m_axis_y1 ? m_axis_y1->GetName() : wxString( wxS( "" ) ); } wxString GetLabelY2() const { return m_axis_y2 ? m_axis_y2->GetName() : wxString( wxS( "" ) ); } wxString GetLabelY3() const { return m_axis_y3 ? m_axis_y3->GetName() : wxString( wxS( "" ) ); } wxString GetUnitsX() const; wxString GetUnitsY1() const; wxString GetUnitsY2() const; wxString GetUnitsY3() const; const std::map& GetTraces() const { return m_traces; } TRACE* GetTrace( const wxString& aVecName, int aType ) const { auto trace = m_traces.find( getTraceId( aVecName, aType ) ); return trace == m_traces.end() ? nullptr : trace->second; } void ShowGrid( bool aEnable ) { m_axis_x->SetTicks( !aEnable ); m_axis_y1->SetTicks( !aEnable ); m_axis_y2->SetTicks( !aEnable ); m_axis_y3->SetTicks( !aEnable ); m_plotWin->UpdateAll(); } bool IsGridShown() const { if( !m_axis_x || !m_axis_y1 ) return false; assert( m_axis_x->GetTicks() == m_axis_y1->GetTicks() ); return !m_axis_x->GetTicks(); } void ShowLegend( bool aEnable ) { m_legend->SetVisible( aEnable ); m_plotWin->UpdateAll(); } bool IsLegendShown() const { return m_legend->IsVisible(); } wxPoint GetLegendPosition() const { return m_legend->GetPosition(); } void SetLegendPosition( const wxPoint& aPosition ) { m_legend->Move( aPosition ); m_legend->UpdateReference(); } /** * Draw secondary signal traces (current or phase) with dotted lines */ void SetDottedSecondary( bool aEnable ) { m_dotted_cp = aEnable; for( const auto& tr : m_traces ) UpdateTraceStyle( tr.second ); m_plotWin->UpdateAll(); } bool GetDottedSecondary() const { return m_dotted_cp; } ///< Toggle cursor for a particular trace. void EnableCursor( const wxString& aVectorName, int aType, int aCursorId, bool aEnable, const wxString& aSignalName ); ///< Reset scale ranges to fit the current traces. void ResetScales( bool aIncludeX ); ///< Update trace line style void UpdateTraceStyle( TRACE* trace ); ///< Update plot colors void UpdatePlotColors(); void OnLanguageChanged() override; ///< Getter for math plot window mpWindow* GetPlotWin() const { return m_plotWin; } TRACE* AddTrace( const wxString& aVectorName, int aType ); void SetTraceData( TRACE* aTrace, unsigned int aPoints, const double* aX, const double* aY ); bool DeleteTrace( const wxString& aVectorName, int aTraceType ); void DeleteTrace( TRACE* aTrace ); private: wxString getTraceId( const wxString& aVectorName, int aType ) const { return wxString::Format( wxS( "%s%d" ), aVectorName, aType & SPT_Y_AXIS_MASK ); } ///< @brief Construct the plot axes for DC simulation plot. void prepareDCAxes( int aNewTraceType ); ///< Create/Ensure axes are available for plotting void updateAxes( int aNewTraceType = SIM_TRACE_TYPE::SPT_UNKNOWN ); private: SIM_PLOT_COLORS m_colors; // Top-level plot window mpWindow* m_plotWin; wxBoxSizer* m_sizer; // Traces to be plotted std::map m_traces; mpScaleXBase* m_axis_x; mpScaleY* m_axis_y1; mpScaleY* m_axis_y2; mpScaleY* m_axis_y3; mpInfoLegend* m_legend; bool m_dotted_cp; }; wxDECLARE_EVENT( EVT_SIM_CURSOR_UPDATE, wxCommandEvent ); #endif