doxygen/pcb__tuning__pattern_8cpp_source.html

/*

 * This program source code file is part of KiCad, a free EDA CAD application.

 *

 * Copyright (C) 2023 Alex Shvartzkop <[email protected]>

 * Copyright (C) 2023 KiCad Developers, see AUTHORS.txt for contributors.

 *

 * 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 (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:

 * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html

 * or you may search the http://www.gnu.org website for the version 2 license,

 * or you may write to the Free Software Foundation, Inc.,

 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA

 */


#include <pcb_generator.h>

#include <generators_mgr.h>


#include <optional>

#include <magic_enum.hpp>


#include <wx/debug.h>

#include <gal/graphics_abstraction_layer.h>

#include <geometry/shape_circle.h>

#include <kiplatform/ui.h>

#include <dialogs/dialog_unit_entry.h>

#include <collectors.h>

#include <scoped_set_reset.h>


#include <board_design_settings.h>

#include <drc/drc_engine.h>

#include <pcb_track.h>

#include <pcb_shape.h>

#include <pcb_group.h>


#include <tool/edit_points.h>

#include <tools/drawing_tool.h>

#include <tools/generator_tool.h>

#include <tools/pcb_picker_tool.h>

#include <tools/pcb_selection_tool.h>

#include <tools/zone_filler_tool.h>


#include <preview_items/draw_context.h>

#include <preview_items/preview_utils.h>

#include <view/view.h>

#include <view/view_controls.h>


#include <router/pns_dp_meander_placer.h>

#include <router/pns_meander_placer_base.h>

#include <router/pns_meander.h>

#include <router/pns_kicad_iface.h>

#include <router/pns_segment.h>

#include <router/pns_arc.h>

#include <router/pns_solid.h>

#include <router/pns_topology.h>

#include <router/router_preview_item.h>


#include <dialogs/dialog_tuning_pattern_properties.h>


enum LENGTH_TUNING_MODE

{

 SINGLE,

 DIFF_PAIR,

 DIFF_PAIR_SKEW

};


class TUNING_STATUS_VIEW_ITEM : public EDA_ITEM

{

public:

 TUNING_STATUS_VIEW_ITEM( PCB_BASE_EDIT_FRAME* aFrame ) :

 EDA_ITEM( NOT_USED ), // Never added to anything - just a preview

 m_frame( aFrame ),

 m_min( 0.0 ),

 m_max( 0.0 ),

 m_current( 0.0 )

 { }


 wxString GetClass() const override { return wxT( "TUNING_STATUS" ); }


#if defined(DEBUG)

 void Show( int nestLevel, std::ostream& os ) const override {}

#endif


 VECTOR2I GetPosition() const override { return m_pos; }

 void SetPosition( const VECTOR2I& aPos ) override { m_pos = aPos; };


 void SetMinMax( double aMin, double aMax )

 {

 m_min = aMin;

 m_minText = m_frame->MessageTextFromValue( m_min, false );

 m_max = aMax;

 m_maxText = m_frame->MessageTextFromValue( m_max, false );

 }


 void ClearMinMax()

 {

 m_min = 0.0;

 m_minText = wxT( "---" );

 m_max = std::numeric_limits<double>::max();

 m_maxText = wxT( "---" );

 }


 void SetCurrent( double aCurrent, const wxString& aLabel )

 {

 m_current = aCurrent;

 m_currentText = m_frame->MessageTextFromValue( aCurrent );

 m_currentLabel = aLabel;

 }


 const BOX2I ViewBBox() const override

 {

 BOX2I tmp;


 // this is an edit-time artefact; no reason to try and be smart with the bounding box

 // (besides, we can't tell the text extents without a view to know what the scale is)

 tmp.SetMaximum();

 return tmp;

 }


 void ViewGetLayers( int aLayers[], int& aCount ) const override

 {

 aLayers[0] = LAYER_UI_START;

 aLayers[1] = LAYER_UI_START + 1;

 aCount = 2;

 }


 void ViewDraw( int aLayer, KIGFX::VIEW* aView ) const override

 {

 KIGFX::GAL* gal = aView->GetGAL();

 bool viewFlipped = gal->IsFlippedX();

 bool drawingDropShadows = ( aLayer == LAYER_UI_START );


 gal->Save();

 gal->Scale( { 1., 1. } );


 KIGFX::PREVIEW::TEXT_DIMS headerDims = KIGFX::PREVIEW::GetConstantGlyphHeight( gal, -2 );

 KIGFX::PREVIEW::TEXT_DIMS textDims = KIGFX::PREVIEW::GetConstantGlyphHeight( gal, -1 );

 KIFONT::FONT* font = KIFONT::FONT::GetFont();

 const KIFONT::METRICS& fontMetrics = KIFONT::METRICS::Default();

 TEXT_ATTRIBUTES textAttrs;


 int glyphWidth = textDims.GlyphSize.x;

 VECTOR2I margin( KiROUND( glyphWidth * 0.4 ), KiROUND( glyphWidth ) );

 VECTOR2I size( glyphWidth * 25 + margin.x * 2, headerDims.GlyphSize.y + textDims.GlyphSize.y );

 VECTOR2I offset( margin.x * 2, -( size.y + margin.y * 2 ) );


 if( drawingDropShadows )

 {

 gal->SetIsFill( true );

 gal->SetIsStroke( true );

 gal->SetLineWidth( gal->GetScreenWorldMatrix().GetScale().x * 2 );

 gal->SetStrokeColor( wxSystemSettings::GetColour( wxSYS_COLOUR_BTNTEXT ) );

 KIGFX::COLOR4D bgColor( wxSystemSettings::GetColour( wxSYS_COLOUR_BTNFACE ) );

 gal->SetFillColor( bgColor.WithAlpha( 0.9 ) );


 gal->DrawRectangle( GetPosition() + offset - margin,

 GetPosition() + offset + size + margin );

 gal->Restore();

 return;

 }


 COLOR4D bg = wxSystemSettings::GetColour( wxSYS_COLOUR_BTNFACE );

 COLOR4D normal = wxSystemSettings::GetColour( wxSYS_COLOUR_BTNTEXT );

 COLOR4D red;


 // Choose a red with reasonable contrasting with the background

 double bg_h, bg_s, bg_l;

 bg.ToHSL( bg_h, bg_s, bg_l );

 red.FromHSL( 0, 1.0, bg_l < 0.5 ? 0.7 : 0.3 );


 if( viewFlipped )

 textAttrs.m_Halign = GR_TEXT_H_ALIGN_RIGHT;

 else

 textAttrs.m_Halign = GR_TEXT_H_ALIGN_LEFT;


 gal->SetIsFill( false );

 gal->SetIsStroke( true );

 gal->SetStrokeColor( normal );

 textAttrs.m_Halign = GR_TEXT_H_ALIGN_LEFT;


 // Prevent text flipping when view is flipped

 if( gal->IsFlippedX() )

 {

 textAttrs.m_Mirrored = true;

 textAttrs.m_Halign = GR_TEXT_H_ALIGN_RIGHT;

 }


 textAttrs.m_Size = headerDims.GlyphSize;

 textAttrs.m_StrokeWidth = headerDims.StrokeWidth;


 VECTOR2I textPos = GetPosition() + offset;

 font->Draw( gal, m_currentLabel, textPos, textAttrs, KIFONT::METRICS::Default() );


 textPos.x += glyphWidth * 11 + margin.x;

 font->Draw( gal, _( "min" ), textPos, textAttrs, fontMetrics );


 textPos.x += glyphWidth * 7 + margin.x;

 font->Draw( gal, _( "max" ), textPos, textAttrs, fontMetrics );


 textAttrs.m_Size = textDims.GlyphSize;

 textAttrs.m_StrokeWidth = textDims.StrokeWidth;


 textPos = GetPosition() + offset;

 textPos.y += KiROUND( headerDims.LinePitch * 1.3 );

 font->Draw( gal, m_currentText, textPos, textAttrs, KIFONT::METRICS::Default() );


 textPos.x += glyphWidth * 11 + margin.x;

 gal->SetStrokeColor( m_current < m_min ? red : normal );

 font->Draw( gal, m_minText, textPos, textAttrs, fontMetrics );


 textPos.x += glyphWidth * 7 + margin.x;

 gal->SetStrokeColor( m_current > m_max ? red : normal );

 font->Draw( gal, m_maxText, textPos, textAttrs, fontMetrics );


 gal->Restore();

 }


protected:

 EDA_DRAW_FRAME* m_frame;

 VECTOR2I m_pos;

 double m_min;

 double m_max;

 double m_current;

 wxString m_currentLabel;

 wxString m_currentText;

 wxString m_minText;

 wxString m_maxText;

};


class PCB_TUNING_PATTERN : public PCB_GENERATOR

{

public:

 static const wxString GENERATOR_TYPE;

 static const wxString DISPLAY_NAME;


 PCB_TUNING_PATTERN( BOARD_ITEM* aParent = nullptr, PCB_LAYER_ID aLayer = F_Cu,

 LENGTH_TUNING_MODE aMode = LENGTH_TUNING_MODE::SINGLE );


 wxString GetGeneratorType() const override { return wxS( "tuning_pattern" ); }


 wxString GetItemDescription( UNITS_PROVIDER* aUnitsProvider ) const override

 {

 return wxString( _( "Tuning Pattern" ) );

 }


 wxString GetFriendlyName() const override

 {

 return wxString( _( "Tuning Pattern" ) );

 }


 wxString GetPluralName() const override

 {

 return wxString( _( "Tuning Patterns" ) );

 }


 static PCB_TUNING_PATTERN* CreateNew( GENERATOR_TOOL* aTool, PCB_BASE_EDIT_FRAME* aFrame,

 BOARD_CONNECTED_ITEM* aStartItem,

 LENGTH_TUNING_MODE aMode );


 void EditStart( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit ) override;


 bool Update( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit ) override;


 void EditPush( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit,

 const wxString& aCommitMsg = wxEmptyString, int aCommitFlags = 0 ) override;


 void EditRevert( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit ) override;


 void Remove( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit ) override;


 bool MakeEditPoints( std::shared_ptr<EDIT_POINTS> points ) const override;


 bool UpdateFromEditPoints( std::shared_ptr<EDIT_POINTS> aEditPoints,

 BOARD_COMMIT* aCommit ) override;


 bool UpdateEditPoints( std::shared_ptr<EDIT_POINTS> aEditPoints ) override;


 void Move( const VECTOR2I& aMoveVector ) override

 {

 m_origin += aMoveVector;

 m_end += aMoveVector;


 if( !this->HasFlag( IN_EDIT ) )

 {

 PCB_GROUP::Move( aMoveVector );


 if( m_baseLine )

 m_baseLine->Move( aMoveVector );


 if( m_baseLineCoupled )

 m_baseLineCoupled->Move( aMoveVector );

 }

 }


 void Rotate( const VECTOR2I& aRotCentre, const EDA_ANGLE& aAngle ) override

 {

 if( !this->HasFlag( IN_EDIT ) )

 {

 RotatePoint( m_origin, aRotCentre, aAngle );

 RotatePoint( m_end, aRotCentre, aAngle );

 PCB_GROUP::Rotate( aRotCentre, aAngle );


 if( m_baseLine )

 m_baseLine->Rotate( aAngle, aRotCentre );


 if( m_baseLineCoupled )

 m_baseLineCoupled->Rotate( aAngle, aRotCentre );

 }

 }


 const BOX2I GetBoundingBox() const override

 {

 return getOutline().BBox();

 }


 void ViewGetLayers( int aLayers[], int& aCount ) const override

 {

 aCount = 0;

 aLayers[aCount++] = LAYER_ANCHOR;

 aLayers[aCount++] = GetLayer();

 }


 bool HitTest( const VECTOR2I& aPosition, int aAccuracy = 0 ) const override

 {

 return getOutline().Collide( aPosition, aAccuracy );

 }


 bool HitTest( const BOX2I& aRect, bool aContained, int aAccuracy ) const override

 {

 BOX2I sel = aRect;


 if ( aAccuracy )

 sel.Inflate( aAccuracy );


 if( aContained )

 return sel.Contains( GetBoundingBox() );


 return sel.Intersects( GetBoundingBox() );

 }


 const BOX2I ViewBBox() const override { return GetBoundingBox(); }


 EDA_ITEM* Clone() const override { return new PCB_TUNING_PATTERN( *this ); }


 void ViewDraw( int aLayer, KIGFX::VIEW* aView ) const override final;


 const VECTOR2I& GetEnd() const { return m_end; }

 void SetEnd( const VECTOR2I& aValue ) { m_end = aValue; }


 int GetEndX() const { return m_end.x; }

 void SetEndX( int aValue ) { m_end.x = aValue; }


 int GetEndY() const { return m_end.y; }

 void SetEndY( int aValue ) { m_end.y = aValue; }


 LENGTH_TUNING_MODE GetTuningMode() const { return m_tuningMode; }


 PNS::ROUTER_MODE GetPNSMode()

 {

 switch( m_tuningMode )

 {

 case LENGTH_TUNING_MODE::SINGLE: return PNS::PNS_MODE_TUNE_SINGLE;

 case LENGTH_TUNING_MODE::DIFF_PAIR: return PNS::PNS_MODE_TUNE_DIFF_PAIR;

 case LENGTH_TUNING_MODE::DIFF_PAIR_SKEW: return PNS::PNS_MODE_TUNE_DIFF_PAIR_SKEW;

 default: return PNS::PNS_MODE_TUNE_SINGLE;

 }

 }


 PNS::MEANDER_SETTINGS& GetSettings() { return m_settings; }


 int GetMinAmplitude() const { return m_settings.m_minAmplitude; }

 void SetMinAmplitude( int aValue )

 {

 aValue = std::max( aValue, 0 );


 m_settings.m_minAmplitude = aValue;


 if( m_settings.m_maxAmplitude < m_settings.m_minAmplitude )

 m_settings.m_maxAmplitude = m_settings.m_minAmplitude;

 }


 int GetMaxAmplitude() const { return m_settings.m_maxAmplitude; }

 void SetMaxAmplitude( int aValue )

 {

 aValue = std::max( aValue, 0 );


 m_settings.m_maxAmplitude = aValue;


 if( m_settings.m_maxAmplitude < m_settings.m_minAmplitude )

 m_settings.m_minAmplitude = m_settings.m_maxAmplitude;

 }


 PNS::MEANDER_SIDE GetInitialSide() const { return m_settings.m_initialSide; }

 void SetInitialSide( PNS::MEANDER_SIDE aValue ) { m_settings.m_initialSide = aValue; }


 int GetSpacing() const { return m_settings.m_spacing; }

 void SetSpacing( int aValue ) { m_settings.m_spacing = aValue; }


 std::optional<int> GetTargetLength() const

 {

 if( m_settings.m_targetLength.Opt() == PNS::MEANDER_SETTINGS::LENGTH_UNCONSTRAINED )

 return std::optional<int>();

 else

 return m_settings.m_targetLength.Opt();

 }


 void SetTargetLength( std::optional<int> aValue )

 {

 if( aValue.has_value() )

 m_settings.SetTargetLength( aValue.value() );

 else

 m_settings.SetTargetLength( PNS::MEANDER_SETTINGS::LENGTH_UNCONSTRAINED );

 }


 int GetTargetSkew() const { return m_settings.m_targetSkew.Opt(); }

 void SetTargetSkew( int aValue ) { m_settings.SetTargetSkew( aValue ); }


 bool GetOverrideCustomRules() const { return m_settings.m_overrideCustomRules; }

 void SetOverrideCustomRules( bool aOverride ) { m_settings.m_overrideCustomRules = aOverride; }


 int GetCornerRadiusPercentage() const { return m_settings.m_cornerRadiusPercentage; }

 void SetCornerRadiusPercentage( int aValue ) { m_settings.m_cornerRadiusPercentage = aValue; }


 bool IsSingleSided() const { return m_settings.m_singleSided; }

 void SetSingleSided( bool aValue ) { m_settings.m_singleSided = aValue; }


 bool IsRounded() const { return m_settings.m_cornerStyle == PNS::MEANDER_STYLE_ROUND; }

 void SetRounded( bool aFlag ) { m_settings.m_cornerStyle = aFlag ? PNS::MEANDER_STYLE_ROUND

 : PNS::MEANDER_STYLE_CHAMFER; }


 std::vector<std::pair<wxString, wxVariant>> GetRowData() override

 {

 std::vector<std::pair<wxString, wxVariant>> data = PCB_GENERATOR::GetRowData();

 data.emplace_back( _HKI( "Net" ), m_lastNetName );

 data.emplace_back( _HKI( "Tuning" ), m_tuningInfo );

 return data;

 }


 const STRING_ANY_MAP GetProperties() const override;

 void SetProperties( const STRING_ANY_MAP& aProps ) override;


 void ShowPropertiesDialog( PCB_BASE_EDIT_FRAME* aEditFrame ) override;


 std::vector<EDA_ITEM*> GetPreviewItems( GENERATOR_TOOL* aTool, PCB_BASE_EDIT_FRAME* aFrame,

 bool aStatusItemsOnly = false ) override;


 void GetMsgPanelInfo( EDA_DRAW_FRAME* aFrame, std::vector<MSG_PANEL_ITEM>& aList ) override;


protected:

 void swapData( BOARD_ITEM* aImage ) override

 {

 wxASSERT( aImage->Type() == PCB_GENERATOR_T );


 std::swap( *this, *static_cast<PCB_TUNING_PATTERN*>( aImage ) );

 }


 bool recoverBaseline( PNS::ROUTER* aRouter );


 bool baselineValid();


 bool initBaseLine( PNS::ROUTER* aRouter, int aLayer, BOARD* aBoard, VECTOR2I& aStart,

 VECTOR2I& aEnd, NETINFO_ITEM* aNet,

 std::optional<SHAPE_LINE_CHAIN>& aBaseLine );


 bool initBaseLines( PNS::ROUTER* aRouter, int aLayer, BOARD* aBoard );


 bool removeToBaseline( PNS::ROUTER* aRouter, int aLayer, SHAPE_LINE_CHAIN& aBaseLine );


 bool resetToBaseline( GENERATOR_TOOL* aTool, int aLayer, SHAPE_LINE_CHAIN& aBaseLine,

 bool aPrimary );


 SHAPE_LINE_CHAIN getOutline() const;


protected:

 VECTOR2I m_end;


 PNS::MEANDER_SETTINGS m_settings;


 std::optional<SHAPE_LINE_CHAIN> m_baseLine;

 std::optional<SHAPE_LINE_CHAIN> m_baseLineCoupled;


 int m_trackWidth;

 int m_diffPairGap;


 LENGTH_TUNING_MODE m_tuningMode;


 wxString m_lastNetName;

 wxString m_tuningInfo;


 PNS::MEANDER_PLACER_BASE::TUNING_STATUS m_tuningStatus;

};


static LENGTH_TUNING_MODE tuningFromString( const std::string& aStr )

{

 if( aStr == "single" )

 return LENGTH_TUNING_MODE::SINGLE;

 else if( aStr == "diff_pair" )

 return LENGTH_TUNING_MODE::DIFF_PAIR;

 else if( aStr == "diff_pair_skew" )

 return LENGTH_TUNING_MODE::DIFF_PAIR_SKEW;

 else

 {

 wxFAIL_MSG( wxS( "Unknown length tuning token" ) );

 return LENGTH_TUNING_MODE::SINGLE;

 }

}


static std::string tuningToString( const LENGTH_TUNING_MODE aTuning )

{

 switch( aTuning )

 {

 case LENGTH_TUNING_MODE::SINGLE: return "single";

 case LENGTH_TUNING_MODE::DIFF_PAIR: return "diff_pair";

 case LENGTH_TUNING_MODE::DIFF_PAIR_SKEW: return "diff_pair_skew";

 default: wxFAIL; return "";

 }

}


static LENGTH_TUNING_MODE fromPNSMode( PNS::ROUTER_MODE aRouterMode )

{

 switch( aRouterMode )

 {

 case PNS::PNS_MODE_TUNE_SINGLE: return LENGTH_TUNING_MODE::SINGLE;

 case PNS::PNS_MODE_TUNE_DIFF_PAIR: return LENGTH_TUNING_MODE::DIFF_PAIR;

 case PNS::PNS_MODE_TUNE_DIFF_PAIR_SKEW: return LENGTH_TUNING_MODE::DIFF_PAIR_SKEW;

 default: return LENGTH_TUNING_MODE::SINGLE;

 }

}


static PNS::MEANDER_SIDE sideFromString( const std::string& aStr )

{

 if( aStr == "default" )

 return PNS::MEANDER_SIDE_DEFAULT;

 else if( aStr == "left" )

 return PNS::MEANDER_SIDE_LEFT;

 else if( aStr == "right" )

 return PNS::MEANDER_SIDE_RIGHT;

 else

 {

 wxFAIL_MSG( wxS( "Unknown length-tuning side token" ) );

 return PNS::MEANDER_SIDE_DEFAULT;

 }

}


static std::string statusToString( const PNS::MEANDER_PLACER_BASE::TUNING_STATUS aStatus )

{

 switch( aStatus )

 {

 case PNS::MEANDER_PLACER_BASE::TOO_LONG: return "too_long";

 case PNS::MEANDER_PLACER_BASE::TOO_SHORT: return "too_short";

 case PNS::MEANDER_PLACER_BASE::TUNED: return "tuned";

 default: wxFAIL; return "";

 }

}


static PNS::MEANDER_PLACER_BASE::TUNING_STATUS statusFromString( const std::string& aStr )

{

 if( aStr == "too_long" )

 return PNS::MEANDER_PLACER_BASE::TOO_LONG;

 else if( aStr == "too_short" )

 return PNS::MEANDER_PLACER_BASE::TOO_SHORT;

 else if( aStr == "tuned" )

 return PNS::MEANDER_PLACER_BASE::TUNED;

 else

 {

 wxFAIL_MSG( wxS( "Unknown tuning status token" ) );

 return PNS::MEANDER_PLACER_BASE::TUNED;

 }

}


static std::string sideToString( const PNS::MEANDER_SIDE aValue )

{

 switch( aValue )

 {

 case PNS::MEANDER_SIDE_DEFAULT: return "default";

 case PNS::MEANDER_SIDE_LEFT: return "left";

 case PNS::MEANDER_SIDE_RIGHT: return "right";

 default: wxFAIL; return "";

 }

}


PCB_TUNING_PATTERN::PCB_TUNING_PATTERN( BOARD_ITEM* aParent, PCB_LAYER_ID aLayer,

 LENGTH_TUNING_MODE aMode ) :

 PCB_GENERATOR( aParent, aLayer ),

 m_trackWidth( 0 ),

 m_diffPairGap( 0 ),

 m_tuningMode( aMode ),

 m_tuningStatus( PNS::MEANDER_PLACER_BASE::TUNING_STATUS::TUNED )

{

 m_generatorType = GENERATOR_TYPE;

 m_name = DISPLAY_NAME;

 m_end = VECTOR2I( pcbIUScale.mmToIU( 10 ), 0 );

 m_settings.m_initialSide = PNS::MEANDER_SIDE_LEFT;

}


static VECTOR2I snapToNearestTrack( const VECTOR2I& aP, BOARD* aBoard, NETINFO_ITEM* aNet,

 PCB_TRACK** aNearestTrack )

{

 SEG::ecoord minDist_sq = VECTOR2I::ECOORD_MAX;

 VECTOR2I closestPt = aP;


 for( PCB_TRACK *track : aBoard->Tracks() )

 {

 if( aNet && track->GetNet() != aNet )

 continue;


 VECTOR2I nearest;


 if( track->Type() == PCB_ARC_T )

 {

 PCB_ARC* pcbArc = static_cast<PCB_ARC*>( track );

 SHAPE_ARC arc( pcbArc->GetStart(), pcbArc->GetMid(), pcbArc->GetEnd(),

 pcbArc->GetWidth() );


 nearest = arc.NearestPoint( aP );

 }

 else

 {

 SEG seg( track->GetStart(), track->GetEnd() );

 nearest = seg.NearestPoint( aP );

 }


 SEG::ecoord dist_sq = ( nearest - aP ).SquaredEuclideanNorm();


 if( dist_sq < minDist_sq )

 {

 minDist_sq = dist_sq;

 closestPt = nearest;


 if( aNearestTrack )

 *aNearestTrack = track;

 }

 }


 return closestPt;

}


bool PCB_TUNING_PATTERN::baselineValid()

{

 if( m_tuningMode == DIFF_PAIR || m_tuningMode == DIFF_PAIR_SKEW )

 {

 return( m_baseLine && m_baseLine->PointCount() > 1

 && m_baseLineCoupled && m_baseLineCoupled->PointCount() > 1 );

 }

 else

 {

 return( m_baseLine && m_baseLine->PointCount() > 1 );

 }

}


PCB_TUNING_PATTERN* PCB_TUNING_PATTERN::CreateNew( GENERATOR_TOOL* aTool,

 PCB_BASE_EDIT_FRAME* aFrame,

 BOARD_CONNECTED_ITEM* aStartItem,

 LENGTH_TUNING_MODE aMode )

{

 BOARD* board = aStartItem->GetBoard();

 BOARD_DESIGN_SETTINGS& bds = board->GetDesignSettings();

 DRC_CONSTRAINT constraint;

 PCB_LAYER_ID layer = aStartItem->GetLayer();


 PCB_TUNING_PATTERN* pattern = new PCB_TUNING_PATTERN( board, layer, aMode );


 switch( aMode )

 {

 case SINGLE: pattern->m_settings = bds.m_SingleTrackMeanderSettings; break;

 case DIFF_PAIR: pattern->m_settings = bds.m_DiffPairMeanderSettings; break;

 case DIFF_PAIR_SKEW: pattern->m_settings = bds.m_SkewMeanderSettings; break;

 }


 constraint = bds.m_DRCEngine->EvalRules( LENGTH_CONSTRAINT, aStartItem, nullptr, layer );


 if( !constraint.IsNull() )

 {

 if( aMode == DIFF_PAIR_SKEW )

 pattern->m_settings.SetTargetSkew( constraint.GetValue() );

 else

 pattern->m_settings.SetTargetLength( constraint.GetValue() );

 }


 pattern->SetFlags( IS_NEW );


 return pattern;

}


void PCB_TUNING_PATTERN::EditStart( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit )

{

 if( aCommit )

 {

 if( IsNew() )

 aCommit->Add( this );

 else

 aCommit->Modify( this );

 }


 SetFlags( IN_EDIT );


 int layer = GetLayer();

 PNS::ROUTER* router = aTool->Router();


 aTool->ClearRouterChanges();

 router->SyncWorld();


 PNS::RULE_RESOLVER* resolver = router->GetRuleResolver();

 PNS::CONSTRAINT constraint;


 if( !baselineValid() )

 initBaseLines( router, layer, aBoard );


 if( !m_settings.m_overrideCustomRules )

 {

 PCB_TRACK* track = nullptr;

 PNS::SEGMENT pnsItem;


 m_origin = snapToNearestTrack( m_origin, aBoard, nullptr, &track );

 wxCHECK( track, /* void */ );


 NETINFO_ITEM* net = track->GetNet();


 pnsItem.SetParent( track );

 pnsItem.SetNet( net );


 if( m_tuningMode == SINGLE )

 {

 if( resolver->QueryConstraint( PNS::CONSTRAINT_TYPE::CT_LENGTH,

 &pnsItem, nullptr, layer, &constraint ) )

 {

 m_settings.SetTargetLength( constraint.m_Value );

 aTool->GetManager()->PostEvent( EVENTS::SelectedItemsModified );

 }

 }

 else

 {

 PCB_TRACK* coupledTrack = nullptr;

 PNS::SEGMENT pnsCoupledItem;

 NETINFO_ITEM* coupledNet = aBoard->DpCoupledNet( net );


 if( coupledNet )

 snapToNearestTrack( m_origin, aBoard, coupledNet, &coupledTrack );


 pnsCoupledItem.SetParent( coupledTrack );

 pnsCoupledItem.SetNet( coupledNet );


 if( m_tuningMode == DIFF_PAIR )

 {

 if( resolver->QueryConstraint( PNS::CONSTRAINT_TYPE::CT_LENGTH,

 &pnsItem, &pnsCoupledItem, layer, &constraint ) )

 {

 m_settings.SetTargetLength( constraint.m_Value );

 aTool->GetManager()->PostEvent( EVENTS::SelectedItemsModified );

 }

 }

 else

 {

 if( resolver->QueryConstraint( PNS::CONSTRAINT_TYPE::CT_DIFF_PAIR_SKEW,

 &pnsItem, &pnsCoupledItem, layer, &constraint ) )

 {

 m_settings.m_targetSkew = constraint.m_Value;

 aTool->GetManager()->PostEvent( EVENTS::SelectedItemsModified );

 }

 }

 }

 }

}


static PNS::LINKED_ITEM* pickSegment( PNS::ROUTER* aRouter, const VECTOR2I& aWhere, int aLayer,

 VECTOR2I& aPointOut,

 const SHAPE_LINE_CHAIN& aBaseline = SHAPE_LINE_CHAIN() )

{

 int maxSlopRadius = aRouter->Sizes().Clearance() + aRouter->Sizes().TrackWidth() / 2;


 static const int candidateCount = 2;

 PNS::LINKED_ITEM* prioritized[candidateCount];

 SEG::ecoord dist[candidateCount];

 SEG::ecoord distBaseline[candidateCount];

 VECTOR2I point[candidateCount];


 for( int i = 0; i < candidateCount; i++ )

 {

 prioritized[i] = nullptr;

 dist[i] = VECTOR2I::ECOORD_MAX;

 distBaseline[i] = VECTOR2I::ECOORD_MAX;

 }


 for( int slopRadius : { 0, maxSlopRadius } )

 {

 PNS::ITEM_SET candidates = aRouter->QueryHoverItems( aWhere, slopRadius );


 for( PNS::ITEM* item : candidates.Items() )

 {

 if( !item->OfKind( PNS::ITEM::SEGMENT_T | PNS::ITEM::ARC_T ) )

 continue;


 if( !item->IsRoutable() )

 continue;


 if( !item->Layers().Overlaps( aLayer ) )

 continue;


 PNS::LINKED_ITEM* linked = static_cast<PNS::LINKED_ITEM*>( item );


 if( item->Kind() & PNS::ITEM::ARC_T )

 {

 PNS::ARC* pnsArc = static_cast<PNS::ARC*>( item );


 VECTOR2I nearest = pnsArc->Arc().NearestPoint( aWhere );

 SEG::ecoord d0 = ( nearest - aWhere ).SquaredEuclideanNorm();


 if( d0 > dist[1] )

 continue;


 if( aBaseline.PointCount() > 0 )

 {

 SEG::ecoord dcBaseline;

 VECTOR2I target = pnsArc->Arc().GetArcMid();


 if( aBaseline.SegmentCount() > 0 )

 dcBaseline = aBaseline.SquaredDistance( target );

 else

 dcBaseline = ( aBaseline.CPoint( 0 ) - target ).SquaredEuclideanNorm();


 if( dcBaseline > distBaseline[1] )

 continue;


 distBaseline[1] = dcBaseline;

 }


 prioritized[1] = linked;

 dist[1] = d0;

 point[1] = nearest;

 }

 else if( item->Kind() & PNS::ITEM::SEGMENT_T )

 {

 PNS::SEGMENT* segm = static_cast<PNS::SEGMENT*>( item );


 VECTOR2I nearest = segm->CLine().NearestPoint( aWhere, false );

 SEG::ecoord dd = ( aWhere - nearest ).SquaredEuclideanNorm();


 if( dd > dist[1] )

 continue;


 if( aBaseline.PointCount() > 0 )

 {

 SEG::ecoord dcBaseline;

 VECTOR2I target = segm->Shape()->Centre();


 if( aBaseline.SegmentCount() > 0 )

 dcBaseline = aBaseline.SquaredDistance( target );

 else

 dcBaseline = ( aBaseline.CPoint( 0 ) - target ).SquaredEuclideanNorm();


 if( dcBaseline > distBaseline[1] )

 continue;


 distBaseline[1] = dcBaseline;

 }


 prioritized[1] = segm;

 dist[1] = dd;

 point[1] = nearest;

 }

 }

 }


 PNS::LINKED_ITEM* rv = nullptr;


 for( int i = 0; i < candidateCount; i++ )

 {

 PNS::LINKED_ITEM* item = prioritized[i];


 if( item && ( aLayer < 0 || item->Layers().Overlaps( aLayer ) ) )

 {

 rv = item;

 aPointOut = point[i];

 break;

 }

 }


 return rv;

}


static std::optional<PNS::LINE> getPNSLine( const VECTOR2I& aStart, const VECTOR2I& aEnd,

 PNS::ROUTER* router, int layer, VECTOR2I& aStartOut,

 VECTOR2I& aEndOut )

{

 PNS::NODE* world = router->GetWorld();


 PNS::LINKED_ITEM* startItem = pickSegment( router, aStart, layer, aStartOut );

 PNS::LINKED_ITEM* endItem = pickSegment( router, aEnd, layer, aEndOut );


 //wxCHECK( startItem && endItem, std::nullopt );


 for( PNS::LINKED_ITEM* testItem : { startItem, endItem } )

 {

 if( !testItem )

 continue;


 PNS::LINE line = world->AssembleLine( testItem, nullptr, false, false );

 SHAPE_LINE_CHAIN oldChain = line.CLine();


 if( oldChain.PointOnEdge( aStartOut, 1 ) && oldChain.PointOnEdge( aEndOut, 1 ) )

 return line;

 }


 return std::nullopt;

}


bool PCB_TUNING_PATTERN::initBaseLine( PNS::ROUTER* aRouter, int aLayer, BOARD* aBoard,

 VECTOR2I& aStart, VECTOR2I& aEnd, NETINFO_ITEM* aNet,

 std::optional<SHAPE_LINE_CHAIN>& aBaseLine )

{

 PNS::NODE* world = aRouter->GetWorld();


 aStart = snapToNearestTrack( aStart, aBoard, aNet, nullptr );

 aEnd = snapToNearestTrack( aEnd, aBoard, aNet, nullptr );


 VECTOR2I startSnapPoint, endSnapPoint;


 PNS::LINKED_ITEM* startItem = pickSegment( aRouter, aStart, aLayer, startSnapPoint );

 PNS::LINKED_ITEM* endItem = pickSegment( aRouter, aEnd, aLayer, endSnapPoint );


 wxASSERT( startItem );

 wxASSERT( endItem );


 if( !startItem || !endItem )

 return false;


 PNS::LINE line = world->AssembleLine( startItem );

 const SHAPE_LINE_CHAIN& chain = line.CLine();


 wxASSERT( line.ContainsLink( endItem ) );


 wxASSERT( chain.PointOnEdge( startSnapPoint, 40000 ) );

 wxASSERT( chain.PointOnEdge( endSnapPoint, 40000 ) );


 SHAPE_LINE_CHAIN pre;

 SHAPE_LINE_CHAIN mid;

 SHAPE_LINE_CHAIN post;


 chain.Split( startSnapPoint, endSnapPoint, pre, mid, post );


 aBaseLine = mid;


 return true;

}


bool PCB_TUNING_PATTERN::initBaseLines( PNS::ROUTER* aRouter, int aLayer, BOARD* aBoard )

{

 m_baseLineCoupled.reset();


 PCB_TRACK* track = nullptr;


 m_origin = snapToNearestTrack( m_origin, aBoard, nullptr, &track );

 wxCHECK( track, false );


 NETINFO_ITEM* net = track->GetNet();


 if( !initBaseLine( aRouter, aLayer, aBoard, m_origin, m_end, net, m_baseLine ) )

 return false;


 // Generate both baselines even if we're skewing. We need the coupled baseline to run the

 // DRC rules against.

 if( m_tuningMode == DIFF_PAIR || m_tuningMode == DIFF_PAIR_SKEW )

 {

 if( NETINFO_ITEM* coupledNet = aBoard->DpCoupledNet( net ) )

 {

 VECTOR2I coupledStart = snapToNearestTrack( m_origin, aBoard, coupledNet, nullptr );

 VECTOR2I coupledEnd = snapToNearestTrack( m_end, aBoard, coupledNet, nullptr );


 return initBaseLine( aRouter, aLayer, aBoard, coupledStart, coupledEnd, coupledNet,

 m_baseLineCoupled );

 }


 return false;

 }


 return true;

}


bool PCB_TUNING_PATTERN::removeToBaseline( PNS::ROUTER* aRouter, int aLayer,

 SHAPE_LINE_CHAIN& aBaseLine )

{

 VECTOR2I startSnapPoint, endSnapPoint;


 std::optional<PNS::LINE> pnsLine = getPNSLine( aBaseLine.CPoint( 0 ), aBaseLine.CPoint( -1 ),

 aRouter, aLayer, startSnapPoint, endSnapPoint );


 wxCHECK( pnsLine, false );


 SHAPE_LINE_CHAIN pre;

 SHAPE_LINE_CHAIN mid;

 SHAPE_LINE_CHAIN post;

 pnsLine->CLine().Split( startSnapPoint, endSnapPoint, pre, mid, post );


 for( PNS::LINKED_ITEM* li : pnsLine->Links() )

 aRouter->GetInterface()->RemoveItem( li );


 aRouter->GetWorld()->Remove( *pnsLine );


 SHAPE_LINE_CHAIN straightChain;

 straightChain.Append( pre );

 straightChain.Append( aBaseLine );

 straightChain.Append( post );

 straightChain.Simplify();


 PNS::LINE straightLine( *pnsLine, straightChain );


 aRouter->GetWorld()->Add( straightLine, false );


 for( PNS::LINKED_ITEM* li : straightLine.Links() )

 aRouter->GetInterface()->AddItem( li );


 return true;

}


void PCB_TUNING_PATTERN::Remove( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit )

{

 SetFlags( IN_EDIT );


 aTool->Router()->SyncWorld();


 PNS::ROUTER* router = aTool->Router();

 int layer = GetLayer();


 // Ungroup first so that undo works

 if( !GetItems().empty() )

 {

 PCB_GENERATOR* group = this;


 for( BOARD_ITEM* member : group->GetItems() )

 aCommit->Stage( member, CHT_UNGROUP );


 group->GetItems().clear();

 }


 aCommit->Remove( this );


 aTool->ClearRouterChanges();


 if( baselineValid() )

 {

 bool success = true;


 success &= removeToBaseline( router, layer, *m_baseLine );


 if( m_tuningMode == DIFF_PAIR )

 success &= removeToBaseline( router, layer, *m_baseLineCoupled );


 if( !success )

 recoverBaseline( router );

 }


 const std::vector<GENERATOR_PNS_CHANGES>& allPnsChanges = aTool->GetRouterChanges();


 for( const GENERATOR_PNS_CHANGES& pnsChanges : allPnsChanges )

 {

 const std::set<BOARD_ITEM*> routerRemovedItems = pnsChanges.removedItems;

 const std::set<BOARD_ITEM*> routerAddedItems = pnsChanges.addedItems;


 /*std::cout << "Push commits << " << allPnsChanges.size() << " routerRemovedItems "

 << routerRemovedItems.size() << " routerAddedItems " << routerAddedItems.size()

 << " m_removedItems " << m_removedItems.size() << std::endl;*/


 for( BOARD_ITEM* item : routerRemovedItems )

 {

 item->ClearSelected();

 aCommit->Remove( item );

 }


 for( BOARD_ITEM* item : routerAddedItems )

 aCommit->Add( item );

 }


 aCommit->Push( "Remove Tuning Pattern" );

}


bool PCB_TUNING_PATTERN::recoverBaseline( PNS::ROUTER* aRouter )

{

 PNS::SOLID queryItem;


 SHAPE_LINE_CHAIN* chain = static_cast<SHAPE_LINE_CHAIN*>( getOutline().Clone() );

 queryItem.SetShape( chain ); // PNS::SOLID takes ownership

 queryItem.SetLayer( m_layer );


 int lineWidth = 0;


 PNS::NODE::OBSTACLES obstacles;

 PNS::COLLISION_SEARCH_OPTIONS opts;

 opts.m_useClearanceEpsilon = false;


 PNS::NODE* world = aRouter->GetWorld();

 PNS::NODE* branch = world->Branch();


 branch->QueryColliding( &queryItem, obstacles, opts );


 for( const PNS::OBSTACLE& obs : obstacles )

 {

 PNS::ITEM* item = obs.m_item;


 if( !item->OfKind( PNS::ITEM::SEGMENT_T | PNS::ITEM::ARC_T ) )

 continue;


 if( PNS::LINKED_ITEM* li = dynamic_cast<PNS::LINKED_ITEM*>( item ) )

 {

 if( lineWidth == 0 || li->Width() < lineWidth )

 lineWidth = li->Width();

 }


 if( chain->PointInside( item->Anchor( 0 ), 10 )

 && chain->PointInside( item->Anchor( 1 ), 10 ) )

 {

 branch->Remove( item );

 }

 }


 if( lineWidth == 0 )

 lineWidth = pcbIUScale.mmToIU( 0.1 ); // Fallback


 if( baselineValid() )

 {

 NETINFO_ITEM* recoverNet = GetBoard()->FindNet( m_lastNetName );

 PNS::LINE recoverLine;


 recoverLine.SetLayer( m_layer );

 recoverLine.SetWidth( lineWidth );

 recoverLine.Line() = *m_baseLine;

 recoverLine.SetNet( recoverNet );

 branch->Add( recoverLine, false );


 if( m_tuningMode == DIFF_PAIR || m_tuningMode == DIFF_PAIR_SKEW )

 {

 NETINFO_ITEM* recoverCoupledNet = GetBoard()->DpCoupledNet( recoverNet );

 PNS::LINE recoverLineCoupled;


 recoverLineCoupled.SetLayer( m_layer );

 recoverLineCoupled.SetWidth( lineWidth );

 recoverLineCoupled.Line() = *m_baseLineCoupled;

 recoverLineCoupled.SetNet( recoverCoupledNet );

 branch->Add( recoverLineCoupled, false );

 }

 }


 aRouter->CommitRouting( branch );


 //wxLogWarning( "PNS baseline recovered" );


 return true;

}


bool PCB_TUNING_PATTERN::resetToBaseline( GENERATOR_TOOL* aTool, int aLayer,

 SHAPE_LINE_CHAIN& aBaseLine, bool aPrimary )

{

 PNS_KICAD_IFACE* iface = aTool->GetInterface();

 PNS::ROUTER* router = aTool->Router();

 PNS::NODE* world = router->GetWorld();

 VECTOR2I startSnapPoint, endSnapPoint;


 std::optional<PNS::LINE> pnsLine = getPNSLine( aBaseLine.CPoint( 0 ), aBaseLine.CPoint( -1 ),

 router, aLayer, startSnapPoint, endSnapPoint );


 if( !pnsLine )

 {

 // TODO

 //recoverBaseline( aRouter );

 return true;

 }


 PNS::NODE* branch = world->Branch();


 SHAPE_LINE_CHAIN straightChain;

 {

 SHAPE_LINE_CHAIN pre, mid, post;

 pnsLine->CLine().Split( startSnapPoint, endSnapPoint, pre, mid, post );


 straightChain.Append( pre );

 straightChain.Append( aBaseLine );

 straightChain.Append( post );

 straightChain.Simplify();

 }


 branch->Remove( *pnsLine );


 SHAPE_LINE_CHAIN newLineChain;


 if( aPrimary )

 {

 m_origin = straightChain.NearestPoint( m_origin );

 m_end = straightChain.NearestPoint( m_end );


 // Don't allow points too close

 if( ( m_end - m_origin ).EuclideanNorm() < pcbIUScale.mmToIU( 0.1 ) )

 {

 m_origin = startSnapPoint;

 m_end = endSnapPoint;

 }


 {

 SHAPE_LINE_CHAIN pre, mid, post;

 straightChain.Split( m_origin, m_end, pre, mid, post );


 newLineChain.Append( pre );

 newLineChain.Append( mid );

 newLineChain.Append( post );


 m_baseLine = mid;

 }

 }

 else

 {

 VECTOR2I start = straightChain.NearestPoint( m_origin );

 VECTOR2I end = straightChain.NearestPoint( m_end );


 {

 SHAPE_LINE_CHAIN pre, mid, post;

 straightChain.Split( start, end, pre, mid, post );


 newLineChain.Append( pre );

 newLineChain.Append( mid );

 newLineChain.Append( post );


 m_baseLineCoupled = mid;

 }

 }


 PNS::LINE newLine( *pnsLine, newLineChain );


 branch->Add( newLine, false );

 router->CommitRouting( branch );


 int clearance = router->GetRuleResolver()->Clearance( &newLine, nullptr );


 iface->DisplayItem( &newLine, clearance, true, PNS_COLLISION );


 return true;

}


bool PCB_TUNING_PATTERN::Update( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit )

{

 if( !( GetFlags() & IN_EDIT ) )

 return false;


 KIGFX::VIEW* view = aTool->GetManager()->GetView();

 PNS::ROUTER* router = aTool->Router();

 PNS_KICAD_IFACE* iface = aTool->GetInterface();

 int layer = GetLayer();


 auto hideRemovedItems = [&]( bool aHide )

 {

 if( view )

 {

 for( const GENERATOR_PNS_CHANGES& pnsCommit : aTool->GetRouterChanges() )

 {

 for( BOARD_ITEM* item : pnsCommit.removedItems )

 {

 if( view )

 view->Hide( item, aHide, aHide );

 }

 }

 }

 };


 iface->SetStartLayer( layer );


 if( router->RoutingInProgress() )

 {

 router->StopRouting();

 }


 if( !baselineValid() )

 {

 initBaseLines( router, layer, aBoard );

 }

 else

 {

 if( resetToBaseline( aTool, layer, *m_baseLine, true ) )

 {

 m_origin = m_baseLine->CPoint( 0 );

 m_end = m_baseLine->CPoint( -1 );

 }

 else

 {

 //initBaseLines( router, layer, aBoard );

 return false;

 }


 if( m_tuningMode == DIFF_PAIR )

 {

 if( !resetToBaseline( aTool, layer, *m_baseLineCoupled, false ) )

 {

 initBaseLines( router, layer, aBoard );

 return false;

 }

 }

 }


 hideRemovedItems( true );

 // Snap points

 VECTOR2I startSnapPoint, endSnapPoint;


 wxCHECK( m_baseLine, false );


 PNS::LINKED_ITEM* startItem = pickSegment( router, m_origin, layer, startSnapPoint, *m_baseLine);

 PNS::LINKED_ITEM* endItem = pickSegment( router, m_end, layer, endSnapPoint, *m_baseLine );


 wxASSERT( startItem );

 wxASSERT( endItem );


 if( !startItem || !endItem )

 return false;


 router->SetMode( GetPNSMode() );


 if( !router->StartRouting( startSnapPoint, startItem, layer ) )

 {

 //recoverBaseline( router );

 return false;

 }


 PNS::MEANDER_PLACER_BASE* placer = static_cast<PNS::MEANDER_PLACER_BASE*>( router->Placer() );


 m_settings.m_keepEndpoints = true; // Required for re-grouping

 placer->UpdateSettings( m_settings );


 router->Move( m_end, nullptr );


 if( PNS::DP_MEANDER_PLACER* dpPlacer = dynamic_cast<PNS::DP_MEANDER_PLACER*>( placer ) )

 {

 m_trackWidth = dpPlacer->GetOriginPair().Width();

 m_diffPairGap = dpPlacer->GetOriginPair().Gap();

 }

 else

 {

 m_trackWidth = startItem->Width();

 m_diffPairGap = router->Sizes().DiffPairGap();

 }


 m_settings = placer->MeanderSettings();

 m_lastNetName = iface->GetNetName( startItem->Net() );

 m_tuningStatus = placer->TuningStatus();


 wxString statusMessage;


 switch ( m_tuningStatus )

 {

 case PNS::MEANDER_PLACER_BASE::TOO_LONG: statusMessage = _( "too long" ); break;

 case PNS::MEANDER_PLACER_BASE::TOO_SHORT: statusMessage = _( "too short" ); break;

 case PNS::MEANDER_PLACER_BASE::TUNED: statusMessage = _( "tuned" ); break;

 default: statusMessage = _( "unknown" ); break;

 }


 wxString result;

 EDA_UNITS userUnits = EDA_UNITS::MILLIMETRES;


 if( aTool->GetManager()->GetSettings() )

 userUnits = static_cast<EDA_UNITS>( aTool->GetManager()->GetSettings()->m_System.units );


 result = EDA_UNIT_UTILS::UI::MessageTextFromValue( pcbIUScale, userUnits,

 (double) placer->TuningResult() );


 m_tuningInfo.Printf( wxS( "%s (%s)" ), result, statusMessage );


 return true;

}


void PCB_TUNING_PATTERN::EditPush( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit,

 const wxString& aCommitMsg, int aCommitFlags )

{

 if( !( GetFlags() & IN_EDIT ) )

 return;


 ClearFlags( IN_EDIT );


 KIGFX::VIEW* view = aTool->GetManager()->GetView();

 PNS::ROUTER* router = aTool->Router();

 PNS_KICAD_IFACE* iface = aTool->GetInterface();

 SHAPE_LINE_CHAIN bounds = getOutline();

 int epsilon = aBoard->GetDesignSettings().GetDRCEpsilon();


 iface->EraseView();


 if( router->RoutingInProgress() )

 {

 bool forceFinish = true;

 bool forceCommit = false;


 router->FixRoute( m_end, nullptr, forceFinish, forceCommit );

 router->StopRouting();

 }


 const std::vector<GENERATOR_PNS_CHANGES>& pnsCommits = aTool->GetRouterChanges();


 for( const GENERATOR_PNS_CHANGES& pnsCommit : pnsCommits )

 {

 const std::set<BOARD_ITEM*> routerRemovedItems = pnsCommit.removedItems;

 const std::set<BOARD_ITEM*> routerAddedItems = pnsCommit.addedItems;


 //std::cout << "Push commits << " << allPnsChanges.size() << " routerRemovedItems "

 // << routerRemovedItems.size() << " routerAddedItems " << routerAddedItems.size()

 // << " m_removedItems " << m_removedItems.size() << std::endl;


 for( BOARD_ITEM* item : routerRemovedItems )

 {

 if( view )

 view->Hide( item, false );


 aCommit->Remove( item );

 }


 for( BOARD_ITEM* item : routerAddedItems )

 {

 if( PCB_TRACK* track = dynamic_cast<PCB_TRACK*>( item ) )

 {

 if( bounds.PointInside( track->GetStart(), epsilon )

 && bounds.PointInside( track->GetEnd(), epsilon ) )

 {

 AddItem( item );

 aCommit->Stage( item, CHT_GROUP );

 }

 }


 aCommit->Add( item );

 }

 }


 if( aCommitMsg.IsEmpty() )

 aCommit->Push( _( "Edit Tuning Pattern" ), aCommitFlags );

 else

 aCommit->Push( aCommitMsg, aCommitFlags );

}


void PCB_TUNING_PATTERN::EditRevert( GENERATOR_TOOL* aTool, BOARD* aBoard, BOARD_COMMIT* aCommit )

{

 if( !( GetFlags() & IN_EDIT ) )

 return;


 ClearFlags( IN_EDIT );


 PNS_KICAD_IFACE* iface = aTool->GetInterface();


 iface->EraseView();


 if( KIGFX::VIEW* view = aTool->GetManager()->GetView() )

 {

 for( const GENERATOR_PNS_CHANGES& pnsCommit : aTool->GetRouterChanges() )

 {

 for( BOARD_ITEM* item : pnsCommit.removedItems )

 view->Hide( item, false );

 }

 }


 aTool->Router()->StopRouting();


 if( aCommit )

 aCommit->Revert();

}


bool PCB_TUNING_PATTERN::MakeEditPoints( std::shared_ptr<EDIT_POINTS> points ) const

{

 VECTOR2I centerlineOffset;

 VECTOR2I centerlineOffsetEnd;


 if( m_tuningMode == DIFF_PAIR && m_baseLineCoupled && m_baseLineCoupled->SegmentCount() > 0 )

 {

 centerlineOffset = ( m_baseLineCoupled->CPoint( 0 ) - m_origin ) / 2;

 centerlineOffsetEnd = ( m_baseLineCoupled->CPoint( -1 ) - m_end ) / 2;

 }


 points->AddPoint( m_origin + centerlineOffset );

 points->AddPoint( m_end + centerlineOffsetEnd );


 SEG base = m_baseLine && m_baseLine->SegmentCount() > 0 ? m_baseLine->CSegment( 0 )

 : SEG( m_origin, m_end );


 base.A += centerlineOffset;

 base.B += centerlineOffset;


 int amplitude = m_settings.m_maxAmplitude + KiROUND( m_trackWidth / 2.0 );


 if( m_tuningMode == DIFF_PAIR )

 amplitude += m_trackWidth + m_diffPairGap;


 if( m_settings.m_initialSide == -1 )

 amplitude *= -1;


 VECTOR2I widthHandleOffset = ( base.B - base.A ).Perpendicular().Resize( amplitude );


 points->AddPoint( base.A + widthHandleOffset );

 points->Point( 2 ).SetGridConstraint( IGNORE_GRID );


 VECTOR2I spacingHandleOffset =

 widthHandleOffset + ( base.B - base.A ).Resize( KiROUND( m_settings.m_spacing * 1.5 ) );


 points->AddPoint( base.A + spacingHandleOffset );

 points->Point( 3 ).SetGridConstraint( IGNORE_GRID );


 return true;

}


bool PCB_TUNING_PATTERN::UpdateFromEditPoints( std::shared_ptr<EDIT_POINTS> aEditPoints,

 BOARD_COMMIT* aCommit )

{

 VECTOR2I centerlineOffset;

 VECTOR2I centerlineOffsetEnd;


 if( m_tuningMode == DIFF_PAIR && m_baseLineCoupled && m_baseLineCoupled->SegmentCount() > 0 )

 {

 centerlineOffset = ( m_baseLineCoupled->CPoint( 0 ) - m_origin ) / 2;

 centerlineOffsetEnd = ( m_baseLineCoupled->CPoint( -1 ) - m_end ) / 2;

 }


 SEG base = m_baseLine && m_baseLine->SegmentCount() > 0 ? m_baseLine->CSegment( 0 )

 : SEG( m_origin, m_end );


 base.A += centerlineOffset;

 base.B += centerlineOffset;


 m_origin = aEditPoints->Point( 0 ).GetPosition() - centerlineOffset;

 m_end = aEditPoints->Point( 1 ).GetPosition() - centerlineOffsetEnd;


 if( aEditPoints->Point( 2 ).IsActive() )

 {

 VECTOR2I wHandle = aEditPoints->Point( 2 ).GetPosition();


 int value = base.LineDistance( wHandle );


 value -= KiROUND( m_trackWidth / 2.0 );


 if( m_tuningMode == DIFF_PAIR )

 value -= m_trackWidth + m_diffPairGap;


 SetMaxAmplitude( KiROUND( value / pcbIUScale.mmToIU( 0.01 ) ) * pcbIUScale.mmToIU( 0.01 ) );


 int side = base.Side( wHandle );


 if( side < 0 )

 m_settings.m_initialSide = PNS::MEANDER_SIDE_LEFT;

 else

 m_settings.m_initialSide = PNS::MEANDER_SIDE_RIGHT;

 }


 if( aEditPoints->Point( 3 ).IsActive() )

 {

 VECTOR2I wHandle = aEditPoints->Point( 2 ).GetPosition();

 VECTOR2I sHandle = aEditPoints->Point( 3 ).GetPosition();


 int value = KiROUND( SEG( base.A, wHandle ).LineDistance( sHandle ) / 1.5 );


 SetSpacing( KiROUND( value / pcbIUScale.mmToIU( 0.01 ) ) * pcbIUScale.mmToIU( 0.01 ) );

 }


 return true;

}


bool PCB_TUNING_PATTERN::UpdateEditPoints( std::shared_ptr<EDIT_POINTS> aEditPoints )

{

 VECTOR2I centerlineOffset;

 VECTOR2I centerlineOffsetEnd;


 if( m_tuningMode == DIFF_PAIR && m_baseLineCoupled && m_baseLineCoupled->SegmentCount() > 0 )

 {

 centerlineOffset = ( m_baseLineCoupled->CPoint( 0 ) - m_origin ) / 2;

 centerlineOffsetEnd = ( m_baseLineCoupled->CPoint( -1 ) - m_end ) / 2;

 }


 SEG base = m_baseLine && m_baseLine->SegmentCount() > 0 ? m_baseLine->CSegment( 0 )

 : SEG( m_origin, m_end );


 base.A += centerlineOffset;

 base.B += centerlineOffset;


 int amplitude = m_settings.m_maxAmplitude + KiROUND( m_trackWidth / 2.0 );


 if( m_tuningMode == DIFF_PAIR )

 amplitude += m_trackWidth + m_diffPairGap;


 if( m_settings.m_initialSide == -1 )

 amplitude *= -1;


 VECTOR2I widthHandleOffset = ( base.B - base.A ).Perpendicular().Resize( amplitude );


 aEditPoints->Point( 0 ).SetPosition( m_origin + centerlineOffset );

 aEditPoints->Point( 1 ).SetPosition( m_end + centerlineOffsetEnd );


 aEditPoints->Point( 2 ).SetPosition( base.A + widthHandleOffset );


 VECTOR2I spacingHandleOffset =

 widthHandleOffset + ( base.B - base.A ).Resize( KiROUND( m_settings.m_spacing * 1.5 ) );


 aEditPoints->Point( 3 ).SetPosition( base.A + spacingHandleOffset );


 return true;

}


SHAPE_LINE_CHAIN PCB_TUNING_PATTERN::getOutline() const

{

 if( m_baseLine )

 {

 int clampedMaxAmplitude = m_settings.m_maxAmplitude;

 int minAllowedAmplitude = 0;

 int baselineOffset = m_tuningMode == DIFF_PAIR ? ( m_diffPairGap + m_trackWidth ) / 2 : 0;


 if( m_settings.m_cornerStyle == PNS::MEANDER_STYLE::MEANDER_STYLE_ROUND )

 {

 minAllowedAmplitude = baselineOffset + m_trackWidth;

 }

 else

 {

 int correction = m_trackWidth * tan( 1 - tan( DEG2RAD( 22.5 ) ) );

 minAllowedAmplitude = baselineOffset + correction;

 }


 clampedMaxAmplitude = std::max( clampedMaxAmplitude, minAllowedAmplitude );


 if( m_settings.m_singleSided )

 {

 SHAPE_LINE_CHAIN clBase = *m_baseLine;

 SHAPE_LINE_CHAIN left, right;


 if( m_tuningMode != DIFF_PAIR )

 {

 int amplitude = clampedMaxAmplitude + KiROUND( m_trackWidth / 2.0 );


 SHAPE_LINE_CHAIN chain;


 if( clBase.OffsetLine( amplitude, CORNER_STRATEGY::ROUND_ALL_CORNERS, ARC_LOW_DEF,

 left, right, true ) )

 {

 chain.Append( m_settings.m_initialSide >= 0 ? right : left );

 chain.Append( clBase.Reverse() );

 chain.SetClosed( true );


 return chain;

 }

 }

 else if( m_tuningMode == DIFF_PAIR && m_baseLineCoupled )

 {

 int amplitude = clampedMaxAmplitude + m_trackWidth + KiROUND( m_diffPairGap / 2.0 );


 SHAPE_LINE_CHAIN clCoupled = *m_baseLineCoupled;

 SHAPE_LINE_CHAIN chain1, chain2;


 if( clBase.OffsetLine( amplitude, CORNER_STRATEGY::ROUND_ALL_CORNERS, ARC_LOW_DEF,

 left, right, true ) )

 {

 if( m_settings.m_initialSide >= 0 )

 chain1.Append( right );

 else

 chain1.Append( left );


 if( clBase.OffsetLine( KiROUND( m_trackWidth / 2.0 ),

 CORNER_STRATEGY::ROUND_ALL_CORNERS, ARC_LOW_DEF, left,

 right, true ) )

 {

 if( m_settings.m_initialSide >= 0 )

 chain1.Append( left.Reverse() );

 else

 chain1.Append( right.Reverse() );

 }


 chain1.SetClosed( true );

 }


 if( clCoupled.OffsetLine( amplitude, CORNER_STRATEGY::ROUND_ALL_CORNERS,

 ARC_LOW_DEF, left, right, true ) )

 {

 if( m_settings.m_initialSide >= 0 )

 chain2.Append( right );

 else

 chain2.Append( left );


 if( clCoupled.OffsetLine( KiROUND( m_trackWidth / 2.0 ),

 CORNER_STRATEGY::ROUND_ALL_CORNERS, ARC_LOW_DEF, left,

 right, true ) )

 {

 if( m_settings.m_initialSide >= 0 )

 chain2.Append( left.Reverse() );

 else

 chain2.Append( right.Reverse() );

 }


 chain2.SetClosed( true );

 }


 SHAPE_POLY_SET merged;

 merged.BooleanAdd( chain1, chain2, SHAPE_POLY_SET::PM_STRICTLY_SIMPLE );


 if( merged.OutlineCount() > 0 )

 return merged.Outline( 0 );

 }

 }


 // Not single-sided / fallback

 SHAPE_POLY_SET poly;

 SHAPE_LINE_CHAIN cl = *m_baseLine;


 int amplitude = 0;


 if( m_tuningMode == DIFF_PAIR )

 amplitude = clampedMaxAmplitude + m_diffPairGap / 2 + KiROUND( m_trackWidth );

 else

 amplitude = clampedMaxAmplitude + KiROUND( m_trackWidth / 2.0 );


 poly.OffsetLineChain( *m_baseLine, amplitude, CORNER_STRATEGY::ROUND_ALL_CORNERS,

 ARC_LOW_DEF, false );


 if( m_tuningMode == DIFF_PAIR && m_baseLineCoupled )

 {

 SHAPE_POLY_SET polyCoupled;

 polyCoupled.OffsetLineChain( *m_baseLineCoupled, amplitude,

 CORNER_STRATEGY::ROUND_ALL_CORNERS, ARC_LOW_DEF, false );


 SHAPE_POLY_SET merged;

 merged.BooleanAdd( poly, polyCoupled, SHAPE_POLY_SET::PM_STRICTLY_SIMPLE );


 if( merged.OutlineCount() > 0 )

 return merged.Outline( 0 );

 }


 if( poly.OutlineCount() > 0 )

 return poly.Outline( 0 );

 }


 return SHAPE_LINE_CHAIN();

}


void PCB_TUNING_PATTERN::ViewDraw( int aLayer, KIGFX::VIEW* aView ) const

{

 if( !IsSelected() && !IsNew() )

 return;


 KIGFX::PREVIEW::DRAW_CONTEXT ctx( *aView );


 int size = KiROUND( aView->ToWorld( EDIT_POINT::POINT_SIZE ) * 0.8 );

 size = std::max( size, pcbIUScale.mmToIU( 0.05 ) );


 if( !HasFlag( IN_EDIT ) )

 {

 if( m_baseLine )

 {

 for( int i = 0; i < m_baseLine->SegmentCount(); i++ )

 {

 SEG seg = m_baseLine->CSegment( i );

 ctx.DrawLineDashed( seg.A, seg.B, size, size / 6, true );

 }

 }

 else

 {

 ctx.DrawLineDashed( m_origin, m_end, size, size / 6, false );

 }


 if( m_tuningMode == DIFF_PAIR && m_baseLineCoupled )

 {

 for( int i = 0; i < m_baseLineCoupled->SegmentCount(); i++ )

 {

 SEG seg = m_baseLineCoupled->CSegment( i );

 ctx.DrawLineDashed( seg.A, seg.B, size, size / 6, true );

 }

 }

 }


 SHAPE_LINE_CHAIN chain = getOutline();


 for( int i = 0; i < chain.SegmentCount(); i++ )

 {

 SEG seg = chain.Segment( i );

 ctx.DrawLineDashed( seg.A, seg.B, size, size / 2, false );

 }

}


const STRING_ANY_MAP PCB_TUNING_PATTERN::GetProperties() const

{

 STRING_ANY_MAP props = PCB_GENERATOR::GetProperties();


 props.set( "tuning_mode", tuningToString( m_tuningMode ) );

 props.set( "initial_side", sideToString( m_settings.m_initialSide ) );

 props.set( "last_status", statusToString( m_tuningStatus ) );


 props.set( "end", m_end );

 props.set( "corner_radius_percent", m_settings.m_cornerRadiusPercentage );

 props.set( "single_sided", m_settings.m_singleSided );

 props.set( "rounded", m_settings.m_cornerStyle == PNS::MEANDER_STYLE_ROUND );


 props.set_iu( "max_amplitude", m_settings.m_maxAmplitude );

 props.set_iu( "min_amplitude", m_settings.m_minAmplitude );

 props.set_iu( "min_spacing", m_settings.m_spacing );

 props.set_iu( "target_length_min", m_settings.m_targetLength.Min() );

 props.set_iu( "target_length", m_settings.m_targetLength.Opt() );

 props.set_iu( "target_length_max", m_settings.m_targetLength.Max() );

 props.set_iu( "target_skew_min", m_settings.m_targetSkew.Min() );

 props.set_iu( "target_skew", m_settings.m_targetSkew.Opt() );

 props.set_iu( "target_skew_max", m_settings.m_targetSkew.Max() );

 props.set_iu( "last_track_width", m_trackWidth );

 props.set_iu( "last_diff_pair_gap", m_diffPairGap );


 props.set( "last_netname", m_lastNetName );

 props.set( "last_tuning", m_tuningInfo );

 props.set( "override_custom_rules", m_settings.m_overrideCustomRules );


 if( m_baseLine )

 props.set( "base_line", wxAny( *m_baseLine ) );


 if( m_baseLineCoupled )

 props.set( "base_line_coupled", wxAny( *m_baseLineCoupled ) );


 return props;

}


void PCB_TUNING_PATTERN::SetProperties( const STRING_ANY_MAP& aProps )

{

 PCB_GENERATOR::SetProperties( aProps );


 wxString tuningMode;

 aProps.get_to( "tuning_mode", tuningMode );

 m_tuningMode = tuningFromString( tuningMode.utf8_string() );


 wxString side;

 aProps.get_to( "initial_side", side );

 m_settings.m_initialSide = sideFromString( side.utf8_string() );


 wxString status;

 aProps.get_to( "last_status", status );

 m_tuningStatus = statusFromString( status.utf8_string() );


 aProps.get_to( "end", m_end );

 aProps.get_to( "corner_radius_percent", m_settings.m_cornerRadiusPercentage );

 aProps.get_to( "single_sided", m_settings.m_singleSided );

 aProps.get_to( "side", m_settings.m_initialSide );


 bool rounded = false;

 aProps.get_to( "rounded", rounded );

 m_settings.m_cornerStyle = rounded ? PNS::MEANDER_STYLE_ROUND : PNS::MEANDER_STYLE_CHAMFER;


 long long int val;


 aProps.get_to_iu( "target_length", val );

 m_settings.SetTargetLength( val );


 if( aProps.get_to_iu( "target_length_min", val ) )

 m_settings.m_targetLength.SetMin( val );


 if( aProps.get_to_iu( "target_length_max", val ) )

 m_settings.m_targetLength.SetMax( val );


 int int_val;


 aProps.get_to_iu( "target_skew", int_val );

 m_settings.SetTargetSkew( int_val );


 if( aProps.get_to_iu( "target_skew_min", int_val ) )

 m_settings.m_targetSkew.SetMin( int_val );


 if( aProps.get_to_iu( "target_skew_max", int_val ) )

 m_settings.m_targetSkew.SetMax( int_val );


 aProps.get_to_iu( "max_amplitude", m_settings.m_maxAmplitude );

 aProps.get_to_iu( "min_amplitude", m_settings.m_minAmplitude );

 aProps.get_to_iu( "min_spacing", m_settings.m_spacing );

 aProps.get_to_iu( "last_track_width", m_trackWidth );

 aProps.get_to_iu( "last_diff_pair_gap", m_diffPairGap );

 aProps.get_to( "override_custom_rules", m_settings.m_overrideCustomRules );


 aProps.get_to( "last_netname", m_lastNetName );

 aProps.get_to( "last_tuning", m_tuningInfo );


 if( auto baseLine = aProps.get_opt<SHAPE_LINE_CHAIN>( "base_line" ) )

 m_baseLine = *baseLine;


 if( auto baseLineCoupled = aProps.get_opt<SHAPE_LINE_CHAIN>( "base_line_coupled" ) )

 m_baseLineCoupled = *baseLineCoupled;

}


void PCB_TUNING_PATTERN::ShowPropertiesDialog( PCB_BASE_EDIT_FRAME* aEditFrame )

{

 PNS::MEANDER_SETTINGS settings = m_settings;

 DRC_CONSTRAINT constraint;


 if( !m_items.empty() )

 {

 BOARD_ITEM* startItem = *m_items.begin();

 std::shared_ptr<DRC_ENGINE>& drcEngine = GetBoard()->GetDesignSettings().m_DRCEngine;


 constraint = drcEngine->EvalRules( LENGTH_CONSTRAINT, startItem, nullptr, GetLayer() );


 if( !constraint.IsNull() && !settings.m_overrideCustomRules )

 settings.SetTargetLength( constraint.GetValue() );

 }


 DIALOG_TUNING_PATTERN_PROPERTIES dlg( aEditFrame, settings, GetPNSMode(), constraint );


 if( dlg.ShowModal() == wxID_OK )

 {

 BOARD_COMMIT commit( aEditFrame );

 commit.Modify( this );

 m_settings = settings;


 GENERATOR_TOOL* generatorTool = aEditFrame->GetToolManager()->GetTool<GENERATOR_TOOL>();

 EditStart( generatorTool, GetBoard(), &commit );

 Update( generatorTool, GetBoard(), &commit );

 EditPush( generatorTool, GetBoard(), &commit );

 }

}


std::vector<EDA_ITEM*> PCB_TUNING_PATTERN::GetPreviewItems( GENERATOR_TOOL* aTool,

 PCB_BASE_EDIT_FRAME* aFrame,

 bool aStatusItemsOnly )

{

 std::vector<EDA_ITEM*> previewItems;

 KIGFX::VIEW* view = aFrame->GetCanvas()->GetView();


 if( auto* placer = dynamic_cast<PNS::MEANDER_PLACER_BASE*>( aTool->Router()->Placer() ) )

 {

 if( !aStatusItemsOnly )

 {

 PNS::ITEM_SET items = placer->TunedPath();


 for( PNS::ITEM* item : items )

 previewItems.push_back( new ROUTER_PREVIEW_ITEM( item, view, PNS_HOVER_ITEM ) );

 }


 TUNING_STATUS_VIEW_ITEM* statusItem = new TUNING_STATUS_VIEW_ITEM( aFrame );


 if( m_tuningMode == DIFF_PAIR_SKEW )

 {

 statusItem->SetMinMax( m_settings.m_targetSkew.Min(), m_settings.m_targetSkew.Max() );

 }

 else

 {

 if( m_settings.m_targetLength.Opt() == PNS::MEANDER_SETTINGS::LENGTH_UNCONSTRAINED )

 {

 statusItem->ClearMinMax();

 }

 else

 {

 statusItem->SetMinMax( (double) m_settings.m_targetLength.Min(),

 (double) m_settings.m_targetLength.Max() );

 }

 }


 if( m_tuningMode == DIFF_PAIR_SKEW )

 statusItem->SetCurrent( (double) placer->TuningResult(), _( "current skew" ) );

 else

 statusItem->SetCurrent( (double) placer->TuningResult(), _( "current length" ) );


 statusItem->SetPosition( aFrame->GetToolManager()->GetMousePosition() );

 previewItems.push_back( statusItem );

 }


 return previewItems;

}


void PCB_TUNING_PATTERN::GetMsgPanelInfo( EDA_DRAW_FRAME* aFrame,

 std::vector<MSG_PANEL_ITEM>& aList )

{

 wxString msg;

 NETINFO_ITEM* primaryNet = nullptr;

 NETINFO_ITEM* coupledNet = nullptr;

 PCB_TRACK* primaryItem = nullptr;

 PCB_TRACK* coupledItem = nullptr;

 NETCLASS* netclass = nullptr;

 int width = 0;

 bool mixedWidth = false;


 aList.emplace_back( _( "Type" ), GetFriendlyName() );


 for( BOARD_ITEM* member : GetItems() )

 {

 if( PCB_TRACK* track = dynamic_cast<PCB_TRACK*>( member ) )

 {

 if( !primaryNet )

 {

 primaryItem = track;

 primaryNet = track->GetNet();

 }

 else if( !coupledNet && track->GetNet() != primaryNet )

 {

 coupledItem = track;

 coupledNet = track->GetNet();

 }


 if( !netclass )

 netclass = track->GetEffectiveNetClass();


 if( !width )

 width = track->GetWidth();

 else if( width != track->GetWidth() )

 mixedWidth = true;

 }

 }


 if( coupledNet )

 {

 aList.emplace_back( _( "Nets" ), UnescapeString( primaryNet->GetNetname() )

 + wxS( ", " )

 + UnescapeString( coupledNet->GetNetname() ) );

 }

 else if( primaryNet )

 {

 aList.emplace_back( _( "Net" ), UnescapeString( primaryNet->GetNetname() ) );

 }


 if( netclass )

 aList.emplace_back( _( "Resolved Netclass" ), UnescapeString( netclass->GetName() ) );


 aList.emplace_back( _( "Layer" ), layerMaskDescribe() );


 if( width && !mixedWidth )

 aList.emplace_back( _( "Width" ), aFrame->MessageTextFromValue( width ) );


 BOARD* board = GetBoard();

 std::shared_ptr<DRC_ENGINE>& drcEngine = board->GetDesignSettings().m_DRCEngine;

 DRC_CONSTRAINT constraint;


 // Display full track length (in Pcbnew)

 if( board && primaryItem && primaryItem->GetNetCode() > 0 )

 {

 int count;

 double trackLen;

 double lenPadToDie;


 std::tie( count, trackLen, lenPadToDie ) = board->GetTrackLength( *primaryItem );


 if( coupledItem && coupledItem->GetNetCode() > 0 )

 {

 double coupledLen;

 std::tie( count, coupledLen, lenPadToDie ) = board->GetTrackLength( *coupledItem );


 aList.emplace_back( _( "Routed Lengths" ), aFrame->MessageTextFromValue( trackLen )

 + wxS( ", " )

 + aFrame->MessageTextFromValue( coupledLen ) );

 }

 else

 {

 aList.emplace_back( _( "Routed Length" ), aFrame->MessageTextFromValue( trackLen ) );

 }


 if( lenPadToDie != 0 )

 {

 msg = aFrame->MessageTextFromValue( lenPadToDie );

 aList.emplace_back( _( "Pad To Die Length" ), msg );


 msg = aFrame->MessageTextFromValue( trackLen + lenPadToDie );

 aList.emplace_back( _( "Full Length" ), msg );

 }

 }


 if( m_tuningMode == DIFF_PAIR_SKEW )

 {

 constraint = drcEngine->EvalRules( SKEW_CONSTRAINT, primaryItem, coupledItem, m_layer );


 if( constraint.IsNull() || m_settings.m_overrideCustomRules )

 {

 msg = aFrame->MessageTextFromValue( m_settings.m_targetSkew.Opt() );


 aList.emplace_back( wxString::Format( _( "Target Skew: %s" ), msg ),

 wxString::Format( _( "(from tuning pattern properties)" ) ) );

 }

 else

 {

 msg = aFrame->MessageTextFromMinOptMax( constraint.GetValue() );


 if( !msg.IsEmpty() )

 {

 aList.emplace_back( wxString::Format( _( "Skew Constraints: %s" ), msg ),

 wxString::Format( _( "(from %s)" ), constraint.GetName() ) );

 }

 }

 }

 else

 {

 constraint = drcEngine->EvalRules( LENGTH_CONSTRAINT, primaryItem, coupledItem, m_layer );


 if( constraint.IsNull() || m_settings.m_overrideCustomRules )

 {

 msg = aFrame->MessageTextFromValue( (double) m_settings.m_targetLength.Opt() );


 aList.emplace_back( wxString::Format( _( "Target Length: %s" ), msg ),

 wxString::Format( _( "(from tuning pattern properties)" ) ) );

 }

 else

 {

 msg = aFrame->MessageTextFromMinOptMax( constraint.GetValue() );


 if( !msg.IsEmpty() )

 {

 aList.emplace_back( wxString::Format( _( "Length Constraints: %s" ), msg ),

 wxString::Format( _( "(from %s)" ), constraint.GetName() ) );

 }

 }

 }

}


const wxString PCB_TUNING_PATTERN::DISPLAY_NAME = _HKI( "Tuning Pattern" );

const wxString PCB_TUNING_PATTERN::GENERATOR_TYPE = wxS( "tuning_pattern" );


using SCOPED_DRAW_MODE = SCOPED_SET_RESET<DRAWING_TOOL::MODE>;


#define HITTEST_THRESHOLD_PIXELS 5


int DRAWING_TOOL::PlaceTuningPattern( const TOOL_EVENT& aEvent )

{

 if( m_isFootprintEditor )

 return 0;


 if( m_inDrawingTool )

 return 0;


 REENTRANCY_GUARD guard( &m_inDrawingTool );


 m_toolMgr->RunAction( PCB_ACTIONS::selectionClear );


 m_frame->PushTool( aEvent );

 Activate();


 BOARD* board = m_frame->GetBoard();

 std::shared_ptr<DRC_ENGINE>& drcEngine = board->GetDesignSettings().m_DRCEngine;

 GENERATOR_TOOL* generatorTool = m_toolMgr->GetTool<GENERATOR_TOOL>();

 PNS::ROUTER* router = generatorTool->Router();

 LENGTH_TUNING_MODE mode = fromPNSMode( aEvent.Parameter<PNS::ROUTER_MODE>() );


 KIGFX::VIEW_CONTROLS* controls = getViewControls();

 PCB_SELECTION_TOOL* selectionTool = m_toolMgr->GetTool<PCB_SELECTION_TOOL>();

 GENERAL_COLLECTORS_GUIDE guide = m_frame->GetCollectorsGuide();

 SCOPED_DRAW_MODE scopedDrawMode( m_mode, MODE::TUNING );


 m_pickerItem = nullptr;

 m_tuningPattern = nullptr;


 // Add a VIEW_GROUP that serves as a preview for the new item

 m_preview.Clear();

 m_view->Add( &m_preview );


 auto setCursor =

 [&]()

 {

 m_frame->GetCanvas()->SetCurrentCursor( KICURSOR::BULLSEYE );

 controls->ShowCursor( true );

 };


 auto updateHoverStatus =

 [&]()

 {

 std::unique_ptr<PCB_TUNING_PATTERN> dummyPattern;


 if( m_pickerItem )

 {

 dummyPattern.reset( PCB_TUNING_PATTERN::CreateNew( generatorTool, m_frame,

 m_pickerItem, mode ) );

 dummyPattern->SetPosition( m_pickerItem->GetFocusPosition() );

 dummyPattern->SetEnd( m_pickerItem->GetFocusPosition() );

 }


 if( dummyPattern )

 {

 dummyPattern->EditStart( generatorTool, m_board, nullptr );

 dummyPattern->Update( generatorTool, m_board, nullptr );


 m_preview.FreeItems();


 for( EDA_ITEM* item : dummyPattern->GetPreviewItems( generatorTool, m_frame ) )

 m_preview.Add( item );


 generatorTool->Router()->StopRouting();


 m_view->Update( &m_preview );

 }

 else

 {

 m_preview.FreeItems();

 m_view->Update( &m_preview );

 }

 };


 auto updateTuningPattern =

 [&]()

 {

 if( m_tuningPattern && m_tuningPattern->GetPosition() != m_tuningPattern->GetEnd() )

 {

 m_tuningPattern->EditStart( generatorTool, m_board, nullptr );

 m_tuningPattern->Update( generatorTool, m_board, nullptr );


 m_preview.FreeItems();


 for( EDA_ITEM* item : m_tuningPattern->GetPreviewItems( generatorTool, m_frame,

 true ) )

 {

 m_preview.Add( item );

 }


 m_view->Update( &m_preview );

 }

 };


 // Set initial cursor

 setCursor();


 while( TOOL_EVENT* evt = Wait() )

 {

 setCursor();

 VECTOR2D cursorPos = controls->GetMousePosition();


 if( evt->IsCancelInteractive() || evt->IsActivate()

 || ( m_tuningPattern && evt->IsAction( &ACTIONS::undo ) ) )

 {

 if( m_tuningPattern )

 {

 // First click already made; clean up tuning pattern preview

 m_tuningPattern->EditRevert( generatorTool, m_board, nullptr );


 delete m_tuningPattern;

 m_tuningPattern = nullptr;

 }


 break;

 }

 else if( evt->IsMotion() )

 {

 if( !m_tuningPattern )

 {

 // First click not yet made; we're in highlight-net-under-cursor mode


 GENERAL_COLLECTOR collector;

 collector.m_Threshold = KiROUND( getView()->ToWorld( HITTEST_THRESHOLD_PIXELS ) );


 if( m_frame->GetDisplayOptions().m_ContrastModeDisplay != HIGH_CONTRAST_MODE::NORMAL )

 guide.SetIncludeSecondary( false );

 else

 guide.SetIncludeSecondary( true );


 collector.Collect( board, { PCB_TRACE_T, PCB_ARC_T }, cursorPos, guide );


 if( collector.GetCount() > 1 )

 selectionTool->GuessSelectionCandidates( collector, cursorPos );


 m_pickerItem = nullptr;


 if( collector.GetCount() > 0 )

 {

 double min_dist_sq = std::numeric_limits<double>::max();


 for( EDA_ITEM* candidate : collector )

 {

 VECTOR2I candidatePos;


 if( candidate->Type() == PCB_TRACE_T )

 {

 candidatePos = static_cast<PCB_TRACK*>( candidate )->GetCenter();

 }

 else if( candidate->Type() == PCB_ARC_T )

 {

 candidatePos = static_cast<PCB_ARC*>( candidate )->GetMid();

 }


 double dist_sq = ( cursorPos - candidatePos ).SquaredEuclideanNorm();


 if( dist_sq < min_dist_sq )

 {

 min_dist_sq = dist_sq;

 m_pickerItem = static_cast<BOARD_CONNECTED_ITEM*>( candidate );

 }

 }

 }


 updateHoverStatus();

 }

 else

 {

 // First click already made; we're in preview-tuning-pattern mode


 m_tuningPattern->SetEnd( cursorPos );

 updateTuningPattern();

 }

 }

 else if( evt->IsClick( BUT_LEFT ) )

 {

 if( m_pickerItem && !m_tuningPattern )

 {

 // First click; create a tuning pattern


 if( dynamic_cast<PCB_TUNING_PATTERN*>( m_pickerItem->GetParentGroup() ) )

 {

 m_frame->ShowInfoBarWarning( _( "Unable to tune segments inside other "

 "tuning patterns." ) );

 }

 else

 {

 m_preview.FreeItems();


 m_frame->SetActiveLayer( m_pickerItem->GetLayer() );

 m_tuningPattern = PCB_TUNING_PATTERN::CreateNew( generatorTool, m_frame,

 m_pickerItem, mode );


 int dummyDist;

 int dummyClearance = std::numeric_limits<int>::max() / 2;

 VECTOR2I closestPt;


 // With an artificially-large clearance this can't *not* collide, but the

 // if stmt keeps Coverity happy....

 if( m_pickerItem->GetEffectiveShape()->Collide( cursorPos, dummyClearance,

 &dummyDist, &closestPt ) )

 {

 m_tuningPattern->SetPosition( closestPt );

 m_tuningPattern->SetEnd( closestPt );

 }


 m_preview.Add( m_tuningPattern->Clone() );

 }

 }

 else if( m_pickerItem && m_tuningPattern )

 {

 // Second click; we're done

 BOARD_COMMIT commit( m_frame );


 m_tuningPattern->EditStart( generatorTool, m_board, &commit );

 m_tuningPattern->Update( generatorTool, m_board, &commit );

 m_tuningPattern->EditPush( generatorTool, m_board, &commit, _( "Tune" ) );


 for( BOARD_ITEM* item : m_tuningPattern->GetItems() )

 item->SetSelected();


 break;

 }

 }

 else if( evt->IsClick( BUT_RIGHT ) )

 {

 PCB_SELECTION dummy;

 m_menu.ShowContextMenu( dummy );

 }

 else if( evt->IsAction( &PCB_ACTIONS::spacingIncrease )

 || evt->IsAction( &PCB_ACTIONS::spacingDecrease ) )

 {

 if( m_tuningPattern )

 {

 auto* placer = static_cast<PNS::MEANDER_PLACER_BASE*>( router->Placer() );


 placer->SpacingStep( evt->IsAction( &PCB_ACTIONS::spacingIncrease ) ? 1 : -1 );

 m_tuningPattern->SetSpacing( placer->MeanderSettings().m_spacing );

 updateTuningPattern();

 }

 else

 {

 m_frame->ShowInfoBarWarning( _( "Select a track to tune first." ) );

 }

 }

 else if( evt->IsAction( &PCB_ACTIONS::amplIncrease )

 || evt->IsAction( &PCB_ACTIONS::amplDecrease ) )

 {

 if( m_tuningPattern )

 {

 auto* placer = static_cast<PNS::MEANDER_PLACER_BASE*>( router->Placer() );


 placer->AmplitudeStep( evt->IsAction( &PCB_ACTIONS::amplIncrease ) ? 1 : -1 );

 m_tuningPattern->SetMaxAmplitude( placer->MeanderSettings().m_maxAmplitude );

 updateTuningPattern();

 }

 else

 {

 m_frame->ShowInfoBarWarning( _( "Select a track to tune first." ) );

 }

 }

 else if( evt->IsAction( &PCB_ACTIONS::properties )

 || evt->IsAction( &PCB_ACTIONS::lengthTunerSettings ) )

 {

 if( m_tuningPattern )

 {

 DRC_CONSTRAINT constraint;


 if( !m_tuningPattern->GetItems().empty() )

 {

 BOARD_ITEM* startItem = *m_tuningPattern->GetItems().begin();


 constraint = drcEngine->EvalRules( LENGTH_CONSTRAINT, startItem, nullptr,

 startItem->GetLayer() );

 }


 DIALOG_TUNING_PATTERN_PROPERTIES dlg( m_frame, m_tuningPattern->GetSettings(),

 m_tuningPattern->GetPNSMode(), constraint );


 if( dlg.ShowModal() == wxID_OK )

 updateTuningPattern();

 }

 else

 {

 m_frame->ShowInfoBarWarning( _( "Select a track to tune first." ) );

 }

 }

 // TODO: It'd be nice to be able to say "don't allow any non-trivial editing actions",

 // but we don't at present have that, so we just knock out some of the egregious ones.

 else if( ZONE_FILLER_TOOL::IsZoneFillAction( evt ) )

 {

 wxBell();

 }

 else

 {

 evt->SetPassEvent();

 }


 controls->CaptureCursor( m_tuningPattern != nullptr );

 controls->SetAutoPan( m_tuningPattern != nullptr );

 }


 controls->CaptureCursor( false );

 controls->SetAutoPan( false );

 controls->ForceCursorPosition( false );

 controls->ShowCursor( false );

 m_frame->GetCanvas()->SetCurrentCursor( KICURSOR::ARROW );


 m_preview.FreeItems();

 m_view->Remove( &m_preview );


 m_frame->GetCanvas()->Refresh();


 if( m_tuningPattern )

 selectionTool->AddItemToSel( m_tuningPattern );


 m_frame->PopTool( aEvent );

 return 0;

}


static struct PCB_TUNING_PATTERN_DESC

{

 PCB_TUNING_PATTERN_DESC()

 {

 ENUM_MAP<LENGTH_TUNING_MODE>::Instance()

 .Map( LENGTH_TUNING_MODE::SINGLE, _HKI( "Single track" ) )

 .Map( LENGTH_TUNING_MODE::DIFF_PAIR, _HKI( "Differential pair" ) )

 .Map( LENGTH_TUNING_MODE::DIFF_PAIR_SKEW, _HKI( "Diff pair skew" ) );


 ENUM_MAP<PNS::MEANDER_SIDE>::Instance()

 .Map( PNS::MEANDER_SIDE_LEFT, _HKI( "Left" ) )

 .Map( PNS::MEANDER_SIDE_RIGHT, _HKI( "Right" ) )

 .Map( PNS::MEANDER_SIDE_DEFAULT, _HKI( "Default" ) );


 PROPERTY_MANAGER& propMgr = PROPERTY_MANAGER::Instance();

 REGISTER_TYPE( PCB_TUNING_PATTERN );

 propMgr.AddTypeCast( new TYPE_CAST<PCB_TUNING_PATTERN, PCB_GENERATOR> );

 propMgr.AddTypeCast( new TYPE_CAST<PCB_TUNING_PATTERN, BOARD_ITEM> );

 propMgr.InheritsAfter( TYPE_HASH( PCB_TUNING_PATTERN ), TYPE_HASH( PCB_GENERATOR ) );

 propMgr.InheritsAfter( TYPE_HASH( PCB_TUNING_PATTERN ), TYPE_HASH( BOARD_ITEM ) );


 const wxString groupTab = _HKI( "Pattern Properties" );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "End X" ), &PCB_TUNING_PATTERN::SetEndX,

 &PCB_TUNING_PATTERN::GetEndX, PROPERTY_DISPLAY::PT_SIZE,

 ORIGIN_TRANSFORMS::ABS_X_COORD ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "End Y" ), &PCB_TUNING_PATTERN::SetEndY,

 &PCB_TUNING_PATTERN::GetEndY, PROPERTY_DISPLAY::PT_SIZE,

 ORIGIN_TRANSFORMS::ABS_Y_COORD ),

 groupTab );


 propMgr.AddProperty( new PROPERTY_ENUM<PCB_TUNING_PATTERN, LENGTH_TUNING_MODE>(

 _HKI( "Tuning Mode" ),

 NO_SETTER( PCB_TUNING_PATTERN, LENGTH_TUNING_MODE ),

 &PCB_TUNING_PATTERN::GetTuningMode ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "Min Amplitude" ),

 &PCB_TUNING_PATTERN::SetMinAmplitude,

 &PCB_TUNING_PATTERN::GetMinAmplitude,

 PROPERTY_DISPLAY::PT_SIZE, ORIGIN_TRANSFORMS::ABS_X_COORD ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "Max Amplitude" ),

 &PCB_TUNING_PATTERN::SetMaxAmplitude,

 &PCB_TUNING_PATTERN::GetMaxAmplitude,

 PROPERTY_DISPLAY::PT_SIZE, ORIGIN_TRANSFORMS::ABS_X_COORD ),

 groupTab );


 propMgr.AddProperty( new PROPERTY_ENUM<PCB_TUNING_PATTERN, PNS::MEANDER_SIDE>(

 _HKI( "Initial Side" ),

 &PCB_TUNING_PATTERN::SetInitialSide,

 &PCB_TUNING_PATTERN::GetInitialSide ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "Min Spacing" ), &PCB_TUNING_PATTERN::SetSpacing,

 &PCB_TUNING_PATTERN::GetSpacing, PROPERTY_DISPLAY::PT_SIZE,

 ORIGIN_TRANSFORMS::ABS_X_COORD ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "Corner Radius %" ),

 &PCB_TUNING_PATTERN::SetCornerRadiusPercentage,

 &PCB_TUNING_PATTERN::GetCornerRadiusPercentage,

 PROPERTY_DISPLAY::PT_DEFAULT, ORIGIN_TRANSFORMS::NOT_A_COORD ),

 groupTab );


 auto isSkew =

 []( INSPECTABLE* aItem ) -> bool

 {

 if( PCB_TUNING_PATTERN* pattern = dynamic_cast<PCB_TUNING_PATTERN*>( aItem ) )

 return pattern->GetTuningMode() == DIFF_PAIR_SKEW;


 return false;

 };


 auto notIsSkew =

 [&]( INSPECTABLE* aItem ) -> bool

 {

 return !isSkew( aItem );

 };


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, std::optional<int>>(

 _HKI( "Target Length" ),

 &PCB_TUNING_PATTERN::SetTargetLength,

 &PCB_TUNING_PATTERN::GetTargetLength,

 PROPERTY_DISPLAY::PT_SIZE, ORIGIN_TRANSFORMS::ABS_X_COORD ),

 groupTab )

 .SetAvailableFunc( notIsSkew );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, int>(

 _HKI( "Target Skew" ), &PCB_TUNING_PATTERN::SetTargetSkew,

 &PCB_TUNING_PATTERN::GetTargetSkew,

 PROPERTY_DISPLAY::PT_SIZE, ORIGIN_TRANSFORMS::ABS_X_COORD ),

 groupTab )

 .SetAvailableFunc( isSkew );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, bool>(

 _HKI( "Override Custom Rules" ),

 &PCB_TUNING_PATTERN::SetOverrideCustomRules,

 &PCB_TUNING_PATTERN::GetOverrideCustomRules ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, bool>(

 _HKI( "Single-sided" ),

 &PCB_TUNING_PATTERN::SetSingleSided,

 &PCB_TUNING_PATTERN::IsSingleSided ),

 groupTab );


 propMgr.AddProperty( new PROPERTY<PCB_TUNING_PATTERN, bool>(

 _HKI( "Rounded" ), &PCB_TUNING_PATTERN::SetRounded,

 &PCB_TUNING_PATTERN::IsRounded ),

 groupTab );

 }

} _PCB_TUNING_PATTERN_DESC;


ENUM_TO_WXANY( LENGTH_TUNING_MODE )

ENUM_TO_WXANY( PNS::MEANDER_SIDE )


static GENERATORS_MGR::REGISTER<PCB_TUNING_PATTERN> registerMe;


// Also register under the 7.99 name

template <typename T>

struct REGISTER_LEGACY_TUNING_PATTERN

{

 REGISTER_LEGACY_TUNING_PATTERN()

 {

 GENERATORS_MGR::Instance().Register( wxS( "meanders" ), T::DISPLAY_NAME,

 []()

 {

 return new T;

 } );

 }

};


static REGISTER_LEGACY_TUNING_PATTERN<PCB_TUNING_PATTERN> registerMeToo;

pcbIUScale
constexpr EDA_IU_SCALE pcbIUScale
Definition: base_units.h:108

ARC_LOW_DEF
constexpr int ARC_LOW_DEF
Definition: base_units.h:119

BITMAPS::right
@ right

BITMAPS::left
@ left

BITMAPS::red
@ red

BITMAPS::group
@ group

BITMAPS::normal
@ normal

board_design_settings.h

ACTIONS::undo
static TOOL_ACTION undo
Definition: actions.h:66

APP_SETTINGS_BASE::m_System
SYSTEM m_System
Definition: app_settings.h:170

BOARD_COMMIT
Definition: board_commit.h:47

BOARD_COMMIT::Push
virtual void Push(const wxString &aMessage=wxEmptyString, int aCommitFlags=0) override
Revert the commit by restoring the modified items state.
Definition: board_commit.cpp:159

BOARD_COMMIT::Stage
COMMIT & Stage(EDA_ITEM *aItem, CHANGE_TYPE aChangeType, BASE_SCREEN *aScreen=nullptr) override
Definition: board_commit.cpp:86

BOARD_COMMIT::Revert
virtual void Revert() override
Definition: board_commit.cpp:610

BOARD_CONNECTED_ITEM
A base class derived from BOARD_ITEM for items that can be connected and have a net,...
Definition: board_connected_item.h:41

BOARD_CONNECTED_ITEM::GetNet
NETINFO_ITEM * GetNet() const
Return #NET_INFO object for a given item.
Definition: board_connected_item.h:77

BOARD_CONNECTED_ITEM::GetNetCode
int GetNetCode() const
Definition: board_connected_item.cpp:90

BOARD_DESIGN_SETTINGS
Container for design settings for a BOARD object.
Definition: board_design_settings.h:246

BOARD_DESIGN_SETTINGS::m_DRCEngine
std::shared_ptr< DRC_ENGINE > m_DRCEngine
Definition: board_design_settings.h:705

BOARD_DESIGN_SETTINGS::GetDRCEpsilon
int GetDRCEpsilon() const
Definition: board_design_settings.cpp:1448

BOARD_DESIGN_SETTINGS::m_DiffPairMeanderSettings
PNS::MEANDER_SETTINGS m_DiffPairMeanderSettings
Definition: board_design_settings.h:680

BOARD_DESIGN_SETTINGS::m_SingleTrackMeanderSettings
PNS::MEANDER_SETTINGS m_SingleTrackMeanderSettings
Definition: board_design_settings.h:679

BOARD_DESIGN_SETTINGS::m_SkewMeanderSettings
PNS::MEANDER_SETTINGS m_SkewMeanderSettings
Definition: board_design_settings.h:681

BOARD_ITEM
A base class for any item which can be embedded within the BOARD container class, and therefore insta...
Definition: board_item.h:77

BOARD_ITEM::GetLayer
virtual PCB_LAYER_ID GetLayer() const
Return the primary layer this item is on.
Definition: board_item.h:226

BOARD_ITEM::GetParentGroup
PCB_GROUP * GetParentGroup() const
Definition: board_item.h:91

BOARD_ITEM::m_layer
PCB_LAYER_ID m_layer
Definition: board_item.h:393

BOARD_ITEM::GetEffectiveShape
virtual std::shared_ptr< SHAPE > GetEffectiveShape(PCB_LAYER_ID aLayer=UNDEFINED_LAYER, FLASHING aFlash=FLASHING::DEFAULT) const
Some pad shapes can be complex (rounded/chamfered rectangle), even without considering custom shapes.
Definition: board_item.cpp:228

BOARD_ITEM::GetBoard
virtual const BOARD * GetBoard() const
Return the BOARD in which this BOARD_ITEM resides, or NULL if none.
Definition: board_item.cpp:46

BOARD_ITEM::layerMaskDescribe
virtual wxString layerMaskDescribe() const
Return a string (to be shown to the user) describing a layer mask.
Definition: board_item.cpp:115

BOARD
Information pertinent to a Pcbnew printed circuit board.
Definition: board.h:282

BOARD::DpCoupledNet
NETINFO_ITEM * DpCoupledNet(const NETINFO_ITEM *aNet)
Definition: board.cpp:1874

BOARD::FindNet
NETINFO_ITEM * FindNet(int aNetcode) const
Search for a net with the given netcode.
Definition: board.cpp:1803

BOARD::Tracks
const TRACKS & Tracks() const
Definition: board.h:321

BOARD::GetTrackLength
std::tuple< int, double, double > GetTrackLength(const PCB_TRACK &aTrack) const
Return data on the length and number of track segments connected to a given track.
Definition: board.cpp:2181

BOARD::GetDesignSettings
BOARD_DESIGN_SETTINGS & GetDesignSettings() const
Definition: board.cpp:794

BOX2< VECTOR2I >

BOX2::SetMaximum
void SetMaximum()
Definition: box2.h:70

BOX2::Intersects
bool Intersects(const BOX2< Vec > &aRect) const
Definition: box2.h:294

BOX2::Contains
bool Contains(const Vec &aPoint) const
Definition: box2.h:158

BOX2::Inflate
BOX2< Vec > & Inflate(coord_type dx, coord_type dy)
Inflates the rectangle horizontally by dx and vertically by dy.
Definition: box2.h:541

COLLECTOR::GetCount
int GetCount() const
Return the number of objects in the list.
Definition: collector.h:81

COLLECTOR::m_Threshold
int m_Threshold
Definition: collector.h:234

COMMIT::Remove
COMMIT & Remove(EDA_ITEM *aItem, BASE_SCREEN *aScreen=nullptr)
Notify observers that aItem has been removed.
Definition: commit.h:92

COMMIT::Modify
COMMIT & Modify(EDA_ITEM *aItem, BASE_SCREEN *aScreen=nullptr)
Create an undo entry for an item that has been already modified.
Definition: commit.h:105

COMMIT::Add
COMMIT & Add(EDA_ITEM *aItem, BASE_SCREEN *aScreen=nullptr)
Notify observers that aItem has been added.
Definition: commit.h:80

DIALOG_TUNING_PATTERN_PROPERTIES
Definition: dialog_tuning_pattern_properties.h:40

DRAWING_TOOL::m_preview
PCB_SELECTION m_preview
Definition: drawing_tool.h:362

DRAWING_TOOL::m_view
KIGFX::VIEW * m_view
Definition: drawing_tool.h:351

DRAWING_TOOL::m_pickerItem
BOARD_CONNECTED_ITEM * m_pickerItem
Definition: drawing_tool.h:363

DRAWING_TOOL::MODE::TUNING
@ TUNING

DRAWING_TOOL::m_inDrawingTool
bool m_inDrawingTool
Definition: drawing_tool.h:356

DRAWING_TOOL::m_mode
MODE m_mode
Definition: drawing_tool.h:355

DRAWING_TOOL::PlaceTuningPattern
int PlaceTuningPattern(const TOOL_EVENT &aEvent)
Definition: pcb_tuning_pattern.cpp:2145

DRAWING_TOOL::m_board
BOARD * m_board
Definition: drawing_tool.h:353

DRAWING_TOOL::m_frame
PCB_BASE_EDIT_FRAME * m_frame
Definition: drawing_tool.h:354

DRAWING_TOOL::m_tuningPattern
PCB_TUNING_PATTERN * m_tuningPattern
Definition: drawing_tool.h:364

DRC_CONSTRAINT
Definition: drc_rule.h:122

DRC_CONSTRAINT::GetName
wxString GetName() const
Definition: drc_rule.h:149

DRC_CONSTRAINT::GetValue
const MINOPTMAX< int > & GetValue() const
Definition: drc_rule.h:141

DRC_CONSTRAINT::IsNull
bool IsNull() const
Definition: drc_rule.h:136

EDA_ANGLE
Definition: eda_angle.h:37

EDA_BASE_FRAME::ShowInfoBarWarning
void ShowInfoBarWarning(const wxString &aWarningMsg, bool aShowCloseButton=false)
Show the WX_INFOBAR displayed on the top of the canvas with a message and a warning icon on the left ...
Definition: eda_base_frame.cpp:959

EDA_DRAW_FRAME
The base class for create windows for drawing purpose.
Definition: eda_draw_frame.h:82

EDA_DRAW_PANEL_GAL::SetCurrentCursor
void SetCurrentCursor(KICURSOR aCursor)
Set the current cursor shape for this panel.
Definition: draw_panel_gal.cpp:649

EDA_DRAW_PANEL_GAL::Refresh
virtual void Refresh(bool aEraseBackground=true, const wxRect *aRect=nullptr) override
Definition: draw_panel_gal.cpp:385

EDA_ITEM
A base class for most all the KiCad significant classes used in schematics and boards.
Definition: eda_item.h:88

EDA_ITEM::GetFocusPosition
virtual const VECTOR2I GetFocusPosition() const
Similar to GetPosition, but allows items to return their visual center rather than their anchor.
Definition: eda_item.h:249

EDA_ITEM::SetFlags
void SetFlags(EDA_ITEM_FLAGS aMask)
Definition: eda_item.h:126

EDA_ITEM::Type
KICAD_T Type() const
Returns the type of object.
Definition: eda_item.h:100

EDA_ITEM::ClearFlags
void ClearFlags(EDA_ITEM_FLAGS aMask=EDA_ITEM_ALL_FLAGS)
Definition: eda_item.h:128

EDA_ITEM::IsSelected
bool IsSelected() const
Definition: eda_item.h:109

EDA_ITEM::HasFlag
bool HasFlag(EDA_ITEM_FLAGS aFlag) const
Definition: eda_item.h:130

EDA_ITEM::GetFlags
EDA_ITEM_FLAGS GetFlags() const
Definition: eda_item.h:129

EDA_ITEM::IsNew
bool IsNew() const
Definition: eda_item.h:106

EDIT_POINT::POINT_SIZE
static const int POINT_SIZE
Definition: edit_points.h:190

ENUM_MAP::Instance
static ENUM_MAP< T > & Instance()
Definition: property.h:663

EVENTS::SelectedItemsModified
static const TOOL_EVENT SelectedItemsModified
Selected items were moved, this can be very high frequency on the canvas, use with care.
Definition: actions.h:267

GENERAL_COLLECTORS_GUIDE
A general implementation of a COLLECTORS_GUIDE.
Definition: collectors.h:323

GENERAL_COLLECTOR
Used when the right click button is pressed, or when the select tool is in effect.
Definition: collectors.h:206

GENERAL_COLLECTOR::Collect
void Collect(BOARD_ITEM *aItem, const std::vector< KICAD_T > &aScanList, const VECTOR2I &aRefPos, const COLLECTORS_GUIDE &aGuide)
Scan a BOARD_ITEM using this class's Inspector method, which does the collection.
Definition: collectors.cpp:482

GENERATORS_MGR
A factory which returns an instance of a PCB_GENERATOR.
Definition: generators_mgr.h:45

GENERATORS_MGR::Register
void Register(const wxString &aTypeStr, const wxString &aName, std::function< PCB_GENERATOR *(void)> aCreateFunc)
Associate a type string to display name and create function.
Definition: generators_mgr.cpp:35

GENERATORS_MGR::Instance
static GENERATORS_MGR & Instance()
Definition: generators_mgr.cpp:28

GENERATOR_TOOL_PNS_PROXY::ClearRouterChanges
void ClearRouterChanges()
Definition: generator_tool_pns_proxy.cpp:102

GENERATOR_TOOL_PNS_PROXY::GetRouterChanges
const std::vector< GENERATOR_PNS_CHANGES > & GetRouterChanges()
Definition: generator_tool_pns_proxy.cpp:108

GENERATOR_TOOL
Handle actions specific to filling copper zones.
Definition: generator_tool.h:42

INSPECTABLE
Class that other classes need to inherit from, in order to be inspectable.
Definition: inspectable.h:36

KIFONT::FONT
FONT is an abstract base class for both outline and stroke fonts.
Definition: font.h:131

KIFONT::FONT::GetFont
static FONT * GetFont(const wxString &aFontName=wxEmptyString, bool aBold=false, bool aItalic=false)
Definition: font.cpp:146

KIFONT::FONT::Draw
void Draw(KIGFX::GAL *aGal, const wxString &aText, const VECTOR2I &aPosition, const VECTOR2I &aCursor, const TEXT_ATTRIBUTES &aAttributes, const METRICS &aFontMetrics) const
Draw a string.
Definition: font.cpp:257

KIFONT::METRICS
Definition: font.h:94

KIFONT::METRICS::Default
static const METRICS & Default()
Definition: font.cpp:52

KIGFX::COLOR4D
A color representation with 4 components: red, green, blue, alpha.
Definition: color4d.h:104

KIGFX::COLOR4D::WithAlpha
COLOR4D WithAlpha(double aAlpha) const
Return a color with the same color, but the given alpha.
Definition: color4d.h:311

KIGFX::COLOR4D::ToHSL
void ToHSL(double &aOutHue, double &aOutSaturation, double &aOutLightness) const
Converts current color (stored in RGB) to HSL format.
Definition: color4d.cpp:296

KIGFX::GAL
Abstract interface for drawing on a 2D-surface.
Definition: graphics_abstraction_layer.h:61

KIGFX::GAL::SetIsFill
virtual void SetIsFill(bool aIsFillEnabled)
Enable/disable fill.
Definition: graphics_abstraction_layer.h:284

KIGFX::GAL::DrawRectangle
virtual void DrawRectangle(const VECTOR2D &aStartPoint, const VECTOR2D &aEndPoint)
Draw a rectangle.
Definition: graphics_abstraction_layer.h:184

KIGFX::GAL::SetFillColor
virtual void SetFillColor(const COLOR4D &aColor)
Set the fill color.
Definition: graphics_abstraction_layer.h:304

KIGFX::GAL::GetScreenWorldMatrix
const MATRIX3x3D & GetScreenWorldMatrix() const
Get the screen <-> world transformation matrix.
Definition: graphics_abstraction_layer.h:537

KIGFX::GAL::Restore
virtual void Restore()
Restore the context.
Definition: graphics_abstraction_layer.h:461

KIGFX::GAL::SetLineWidth
virtual void SetLineWidth(float aLineWidth)
Set the line width.
Definition: graphics_abstraction_layer.h:344

KIGFX::GAL::SetStrokeColor
virtual void SetStrokeColor(const COLOR4D &aColor)
Set the stroke color.
Definition: graphics_abstraction_layer.h:324

KIGFX::GAL::SetIsStroke
virtual void SetIsStroke(bool aIsStrokeEnabled)
Enable/disable stroked outlines.
Definition: graphics_abstraction_layer.h:294

KIGFX::GAL::IsFlippedX
bool IsFlippedX() const
Definition: graphics_abstraction_layer.h:624

KIGFX::GAL::Scale
virtual void Scale(const VECTOR2D &aScale)
Scale the context.
Definition: graphics_abstraction_layer.h:455

KIGFX::GAL::Save
virtual void Save()
Save the context.
Definition: graphics_abstraction_layer.h:458

KIGFX::PREVIEW::DRAW_CONTEXT
A KIGFX::PREVIEW::DRAW_CONTEXT is a wrapper around a GAL and some other settings that makes it easy t...
Definition: draw_context.h:45

KIGFX::PREVIEW::DRAW_CONTEXT::DrawLineDashed
void DrawLineDashed(const VECTOR2I &aStart, const VECTOR2I &aEn, int aDashStep, int aDashFill, bool aDeEmphasised)
Draw a dashed line on the current layer.
Definition: draw_context.cpp:98

KIGFX::VIEW_CONTROLS
An interface for classes handling user events controlling the view behavior such as zooming,...
Definition: view_controls.h:135

KIGFX::VIEW_CONTROLS::CaptureCursor
virtual void CaptureCursor(bool aEnabled)
Force the cursor to stay within the drawing panel area.
Definition: view_controls.h:319

KIGFX::VIEW_CONTROLS::ForceCursorPosition
virtual void ForceCursorPosition(bool aEnabled, const VECTOR2D &aPosition=VECTOR2D(0, 0))
Place the cursor immediately at a given point.
Definition: view_controls.h:269

KIGFX::VIEW_CONTROLS::ShowCursor
virtual void ShowCursor(bool aEnabled)
Enable or disables display of cursor.
Definition: view_controls.cpp:34

KIGFX::VIEW_CONTROLS::GetMousePosition
virtual VECTOR2D GetMousePosition(bool aWorldCoordinates=true) const =0
Return the current mouse pointer position.

KIGFX::VIEW_CONTROLS::SetAutoPan
virtual void SetAutoPan(bool aEnabled)
Turn on/off auto panning (this feature is used when there is a tool active (eg.
Definition: view_controls.h:164

KIGFX::VIEW_GROUP::FreeItems
void FreeItems()
Free all the items that were added to the group.
Definition: view_group.cpp:204

KIGFX::VIEW
Hold a (potentially large) number of VIEW_ITEMs and renders them on a graphics device provided by the...
Definition: view.h:68

KIGFX::VIEW::Add
virtual void Add(VIEW_ITEM *aItem, int aDrawPriority=-1)
Add a VIEW_ITEM to the view.
Definition: view.cpp:315

KIGFX::VIEW::Remove
virtual void Remove(VIEW_ITEM *aItem)
Remove a VIEW_ITEM from the view.
Definition: view.cpp:354

KIGFX::VIEW::Update
virtual void Update(const VIEW_ITEM *aItem, int aUpdateFlags) const
For dynamic VIEWs, inform the associated VIEW that the graphical representation of this item has chan...
Definition: view.cpp:1631

KIGFX::VIEW::GetGAL
GAL * GetGAL() const
Return the #GAL this view is using to draw graphical primitives.
Definition: view.h:197

KIGFX::VIEW::ToWorld
VECTOR2D ToWorld(const VECTOR2D &aCoord, bool aAbsolute=true) const
Converts a screen space point/vector to a point/vector in world space coordinates.
Definition: view.cpp:449

KIGFX::VIEW::Hide
void Hide(VIEW_ITEM *aItem, bool aHide=true, bool aHideOverlay=false)
Temporarily hide the item in the view (e.g.
Definition: view.cpp:1579

MATRIX3x3::GetScale
VECTOR2< T > GetScale() const
Get the scale components of the matrix.
Definition: matrix3x3.h:295

MINOPTMAX::Min
T Min() const
Definition: minoptmax.h:33

MINOPTMAX::SetMin
void SetMin(T v)
Definition: minoptmax.h:41

MINOPTMAX::SetMax
void SetMax(T v)
Definition: minoptmax.h:42

MINOPTMAX::Max
T Max() const
Definition: minoptmax.h:34

MINOPTMAX::Opt
T Opt() const
Definition: minoptmax.h:35

NETCLASS
A collection of nets and the parameters used to route or test these nets.
Definition: netclass.h:44

NETCLASS::GetName
const wxString GetName() const
Definition: netclass.h:62

NETINFO_ITEM
Handle the data for a net.
Definition: netinfo.h:56

NETINFO_ITEM::GetNetname
const wxString & GetNetname() const
Definition: netinfo.h:114

ORIGIN_TRANSFORMS::ABS_X_COORD
@ ABS_X_COORD
Definition: origin_transforms.h:50

ORIGIN_TRANSFORMS::NOT_A_COORD
@ NOT_A_COORD
Definition: origin_transforms.h:49

ORIGIN_TRANSFORMS::ABS_Y_COORD
@ ABS_Y_COORD
Definition: origin_transforms.h:51

PCB_ACTIONS::properties
static TOOL_ACTION properties
Activation of the edit tool.
Definition: pcb_actions.h:176

PCB_ACTIONS::selectionClear
static TOOL_ACTION selectionClear
Clear the current selection.
Definition: pcb_actions.h:68

PCB_ACTIONS::spacingDecrease
static TOOL_ACTION spacingDecrease
Definition: pcb_actions.h:207

PCB_ACTIONS::amplIncrease
static TOOL_ACTION amplIncrease
Definition: pcb_actions.h:208

PCB_ACTIONS::amplDecrease
static TOOL_ACTION amplDecrease
Definition: pcb_actions.h:209

PCB_ACTIONS::lengthTunerSettings
static TOOL_ACTION lengthTunerSettings
Definition: pcb_actions.h:210

PCB_ACTIONS::spacingIncrease
static TOOL_ACTION spacingIncrease
Definition: pcb_actions.h:206

PCB_ARC
Definition: pcb_track.h:289

PCB_ARC::GetMid
const VECTOR2I & GetMid() const
Definition: pcb_track.h:316

PCB_BASE_EDIT_FRAME
Common, abstract interface for edit frames.
Definition: pcb_base_edit_frame.h:44

PCB_BASE_FRAME::GetDisplayOptions
const PCB_DISPLAY_OPTIONS & GetDisplayOptions() const
Display options control the way tracks, vias, outlines and other things are shown (for instance solid...
Definition: pcb_base_frame.h:171

PCB_BASE_FRAME::GetCanvas
PCB_DRAW_PANEL_GAL * GetCanvas() const override
Return a pointer to GAL-based canvas of given EDA draw frame.
Definition: pcb_base_frame.cpp:1028

PCB_BASE_FRAME::GetBoard
BOARD * GetBoard() const
Definition: pcb_base_frame.h:200

PCB_BASE_FRAME::GetCollectorsGuide
GENERAL_COLLECTORS_GUIDE GetCollectorsGuide()
Definition: pcb_base_frame.cpp:758

PCB_BASE_FRAME::SetActiveLayer
virtual void SetActiveLayer(PCB_LAYER_ID aLayer)
Definition: pcb_base_frame.h:353

PCB_DISPLAY_OPTIONS::m_ContrastModeDisplay
HIGH_CONTRAST_MODE m_ContrastModeDisplay
How inactive layers are displayed.
Definition: pcb_display_options.h:50

PCB_DRAW_PANEL_GAL::GetView
virtual KIGFX::PCB_VIEW * GetView() const override
Return a pointer to the #VIEW instance used in the panel.
Definition: pcb_draw_panel_gal.cpp:742

PCB_GENERATOR
Definition: pcb_generator.h:43

PCB_GENERATOR::SetProperties
virtual void SetProperties(const STRING_ANY_MAP &aProps)
Definition: pcb_generator.cpp:174

PCB_GENERATOR::m_generatorType
wxString m_generatorType
Definition: pcb_generator.h:120

PCB_GENERATOR::AddItem
bool AddItem(BOARD_ITEM *aItem) override
Add item to group.
Definition: pcb_generator.cpp:130

PCB_GENERATOR::m_origin
VECTOR2I m_origin
Definition: pcb_generator.h:122

PCB_GENERATOR::SetPosition
void SetPosition(const VECTOR2I &aPos) override
Definition: pcb_generator.h:82

PCB_GENERATOR::GetPosition
VECTOR2I GetPosition() const override
Definition: pcb_generator.h:81

PCB_GENERATOR::GetRowData
virtual std::vector< std::pair< wxString, wxVariant > > GetRowData()
Definition: pcb_generator.cpp:184

PCB_GENERATOR::GetProperties
virtual const STRING_ANY_MAP GetProperties() const
Definition: pcb_generator.cpp:160

PCB_GROUP::m_items
std::unordered_set< BOARD_ITEM * > m_items
Definition: pcb_group.h:216

PCB_GROUP::GetItems
std::unordered_set< BOARD_ITEM * > & GetItems()
Definition: pcb_group.h:68

PCB_GROUP::Rotate
void Rotate(const VECTOR2I &aRotCentre, const EDA_ANGLE &aAngle) override
Rotate this object.
Definition: pcb_group.cpp:352

PCB_GROUP::Move
void Move(const VECTOR2I &aMoveVector) override
Move this object.
Definition: pcb_group.cpp:345

PCB_GROUP::m_name
wxString m_name
Definition: pcb_group.h:217

PCB_SELECTION_TOOL
The selection tool: currently supports:
Definition: pcb_selection_tool.h:66

PCB_SELECTION_TOOL::GuessSelectionCandidates
void GuessSelectionCandidates(GENERAL_COLLECTOR &aCollector, const VECTOR2I &aWhere) const
Try to guess best selection candidates in case multiple items are clicked, by doing some brain-dead h...
Definition: pcb_selection_tool.cpp:3455

PCB_SELECTION
Definition: pcb_selection.h:32

PCB_TOOL_BASE::controls
KIGFX::VIEW_CONTROLS * controls() const
Definition: pcb_tool_base.h:160

PCB_TOOL_BASE::board
BOARD * board() const
Definition: pcb_tool_base.h:170

PCB_TOOL_BASE::m_isFootprintEditor
bool m_isFootprintEditor
Definition: pcb_tool_base.h:186

PCB_TRACK
Definition: pcb_track.h:80

PCB_TRACK::GetWidth
int GetWidth() const
Definition: pcb_track.h:108

PCB_TRACK::GetStart
const VECTOR2I & GetStart() const
Definition: pcb_track.h:114

PCB_TRACK::GetEnd
const VECTOR2I & GetEnd() const
Definition: pcb_track.h:111

PCB_TUNING_PATTERN
Definition: pcb_tuning_pattern.cpp:243

PCB_TUNING_PATTERN::SetTargetSkew
void SetTargetSkew(int aValue)
Definition: pcb_tuning_pattern.cpp:428

PCB_TUNING_PATTERN::baselineValid
bool baselineValid()
Definition: pcb_tuning_pattern.cpp:660

PCB_TUNING_PATTERN::GetProperties
const STRING_ANY_MAP GetProperties() const override
Definition: pcb_tuning_pattern.cpp:1808

PCB_TUNING_PATTERN::HitTest
bool HitTest(const BOX2I &aRect, bool aContained, int aAccuracy) const override
Test if aRect intersects this item.
Definition: pcb_tuning_pattern.cpp:340

PCB_TUNING_PATTERN::SetEnd
void SetEnd(const VECTOR2I &aValue)
Definition: pcb_tuning_pattern.cpp:360

PCB_TUNING_PATTERN::GetSpacing
int GetSpacing() const
Definition: pcb_tuning_pattern.cpp:408

PCB_TUNING_PATTERN::SetMinAmplitude
void SetMinAmplitude(int aValue)
Definition: pcb_tuning_pattern.cpp:384

PCB_TUNING_PATTERN::SetSpacing
void SetSpacing(int aValue)
Definition: pcb_tuning_pattern.cpp:409

PCB_TUNING_PATTERN::initBaseLines
bool initBaseLines(PNS::ROUTER *aRouter, int aLayer, BOARD *aBoard)
Definition: pcb_tuning_pattern.cpp:973

PCB_TUNING_PATTERN::GetGeneratorType
wxString GetGeneratorType() const override
Definition: pcb_tuning_pattern.cpp:251

PCB_TUNING_PATTERN::DISPLAY_NAME
static const wxString DISPLAY_NAME
Definition: pcb_tuning_pattern.cpp:246

PCB_TUNING_PATTERN::GetMsgPanelInfo
void GetMsgPanelInfo(EDA_DRAW_FRAME *aFrame, std::vector< MSG_PANEL_ITEM > &aList) override
Populate aList of MSG_PANEL_ITEM objects with it's internal state for display purposes.
Definition: pcb_tuning_pattern.cpp:1993

PCB_TUNING_PATTERN::GetPNSMode
PNS::ROUTER_MODE GetPNSMode()
Definition: pcb_tuning_pattern.cpp:370

PCB_TUNING_PATTERN::GetItemDescription
wxString GetItemDescription(UNITS_PROVIDER *aUnitsProvider) const override
Return a user-visible description string of this item.
Definition: pcb_tuning_pattern.cpp:253

PCB_TUNING_PATTERN::PCB_TUNING_PATTERN
PCB_TUNING_PATTERN(BOARD_ITEM *aParent=nullptr, PCB_LAYER_ID aLayer=F_Cu, LENGTH_TUNING_MODE aMode=LENGTH_TUNING_MODE::SINGLE)
Definition: pcb_tuning_pattern.cpp:602

PCB_TUNING_PATTERN::ViewGetLayers
void ViewGetLayers(int aLayers[], int &aCount) const override
Return the all the layers within the VIEW the object is painted on.
Definition: pcb_tuning_pattern.cpp:328

PCB_TUNING_PATTERN::m_tuningInfo
wxString m_tuningInfo
Definition: pcb_tuning_pattern.cpp:500

PCB_TUNING_PATTERN::ViewBBox
const BOX2I ViewBBox() const override
Return the bounding box of the item covering all its layers.
Definition: pcb_tuning_pattern.cpp:353

PCB_TUNING_PATTERN::swapData
void swapData(BOARD_ITEM *aImage) override
Definition: pcb_tuning_pattern.cpp:462

PCB_TUNING_PATTERN::recoverBaseline
bool recoverBaseline(PNS::ROUTER *aRouter)
Definition: pcb_tuning_pattern.cpp:1105

PCB_TUNING_PATTERN::EditRevert
void EditRevert(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
Definition: pcb_tuning_pattern.cpp:1463

PCB_TUNING_PATTERN::GetInitialSide
PNS::MEANDER_SIDE GetInitialSide() const
Definition: pcb_tuning_pattern.cpp:405

PCB_TUNING_PATTERN::GetEnd
const VECTOR2I & GetEnd() const
Definition: pcb_tuning_pattern.cpp:359

PCB_TUNING_PATTERN::UpdateEditPoints
bool UpdateEditPoints(std::shared_ptr< EDIT_POINTS > aEditPoints) override
Definition: pcb_tuning_pattern.cpp:1589

PCB_TUNING_PATTERN::SetInitialSide
void SetInitialSide(PNS::MEANDER_SIDE aValue)
Definition: pcb_tuning_pattern.cpp:406

PCB_TUNING_PATTERN::GetFriendlyName
wxString GetFriendlyName() const override
Definition: pcb_tuning_pattern.cpp:258

PCB_TUNING_PATTERN::GetTuningMode
LENGTH_TUNING_MODE GetTuningMode() const
Definition: pcb_tuning_pattern.cpp:368

PCB_TUNING_PATTERN::Move
void Move(const VECTOR2I &aMoveVector) override
Move this object.
Definition: pcb_tuning_pattern.cpp:290

PCB_TUNING_PATTERN::Rotate
void Rotate(const VECTOR2I &aRotCentre, const EDA_ANGLE &aAngle) override
Rotate this object.
Definition: pcb_tuning_pattern.cpp:307

PCB_TUNING_PATTERN::GetPreviewItems
std::vector< EDA_ITEM * > GetPreviewItems(GENERATOR_TOOL *aTool, PCB_BASE_EDIT_FRAME *aFrame, bool aStatusItemsOnly=false) override
Definition: pcb_tuning_pattern.cpp:1944

PCB_TUNING_PATTERN::GetMinAmplitude
int GetMinAmplitude() const
Definition: pcb_tuning_pattern.cpp:383

PCB_TUNING_PATTERN::EditStart
void EditStart(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
Definition: pcb_tuning_pattern.cpp:708

PCB_TUNING_PATTERN::resetToBaseline
bool resetToBaseline(GENERATOR_TOOL *aTool, int aLayer, SHAPE_LINE_CHAIN &aBaseLine, bool aPrimary)
Definition: pcb_tuning_pattern.cpp:1179

PCB_TUNING_PATTERN::GetEndX
int GetEndX() const
Definition: pcb_tuning_pattern.cpp:362

PCB_TUNING_PATTERN::Clone
EDA_ITEM * Clone() const override
Create a duplicate of this item with linked list members set to NULL.
Definition: pcb_tuning_pattern.cpp:355

PCB_TUNING_PATTERN::SetOverrideCustomRules
void SetOverrideCustomRules(bool aOverride)
Definition: pcb_tuning_pattern.cpp:431

PCB_TUNING_PATTERN::SetRounded
void SetRounded(bool aFlag)
Definition: pcb_tuning_pattern.cpp:440

PCB_TUNING_PATTERN::m_trackWidth
int m_trackWidth
Definition: pcb_tuning_pattern.cpp:494

PCB_TUNING_PATTERN::m_tuningMode
LENGTH_TUNING_MODE m_tuningMode
Definition: pcb_tuning_pattern.cpp:497

PCB_TUNING_PATTERN::GetRowData
std::vector< std::pair< wxString, wxVariant > > GetRowData() override
Definition: pcb_tuning_pattern.cpp:443

PCB_TUNING_PATTERN::GENERATOR_TYPE
static const wxString GENERATOR_TYPE
Definition: pcb_tuning_pattern.cpp:245

PCB_TUNING_PATTERN::IsRounded
bool IsRounded() const
Definition: pcb_tuning_pattern.cpp:439

PCB_TUNING_PATTERN::m_diffPairGap
int m_diffPairGap
Definition: pcb_tuning_pattern.cpp:495

PCB_TUNING_PATTERN::SetCornerRadiusPercentage
void SetCornerRadiusPercentage(int aValue)
Definition: pcb_tuning_pattern.cpp:434

PCB_TUNING_PATTERN::m_tuningStatus
PNS::MEANDER_PLACER_BASE::TUNING_STATUS m_tuningStatus
Definition: pcb_tuning_pattern.cpp:502

PCB_TUNING_PATTERN::UpdateFromEditPoints
bool UpdateFromEditPoints(std::shared_ptr< EDIT_POINTS > aEditPoints, BOARD_COMMIT *aCommit) override
Definition: pcb_tuning_pattern.cpp:1533

PCB_TUNING_PATTERN::m_baseLineCoupled
std::optional< SHAPE_LINE_CHAIN > m_baseLineCoupled
Definition: pcb_tuning_pattern.cpp:492

PCB_TUNING_PATTERN::SetProperties
void SetProperties(const STRING_ANY_MAP &aProps) override
Definition: pcb_tuning_pattern.cpp:1847

PCB_TUNING_PATTERN::removeToBaseline
bool removeToBaseline(PNS::ROUTER *aRouter, int aLayer, SHAPE_LINE_CHAIN &aBaseLine)
Definition: pcb_tuning_pattern.cpp:1006

PCB_TUNING_PATTERN::GetPluralName
wxString GetPluralName() const override
Definition: pcb_tuning_pattern.cpp:263

PCB_TUNING_PATTERN::ViewDraw
void ViewDraw(int aLayer, KIGFX::VIEW *aView) const override final
Draw the parts of the object belonging to layer aLayer.
Definition: pcb_tuning_pattern.cpp:1763

PCB_TUNING_PATTERN::Remove
void Remove(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
Definition: pcb_tuning_pattern.cpp:1043

PCB_TUNING_PATTERN::m_end
VECTOR2I m_end
Definition: pcb_tuning_pattern.cpp:487

PCB_TUNING_PATTERN::m_baseLine
std::optional< SHAPE_LINE_CHAIN > m_baseLine
Definition: pcb_tuning_pattern.cpp:491

PCB_TUNING_PATTERN::GetMaxAmplitude
int GetMaxAmplitude() const
Definition: pcb_tuning_pattern.cpp:394

PCB_TUNING_PATTERN::m_settings
PNS::MEANDER_SETTINGS m_settings
Definition: pcb_tuning_pattern.cpp:489

PCB_TUNING_PATTERN::SetEndX
void SetEndX(int aValue)
Definition: pcb_tuning_pattern.cpp:363

PCB_TUNING_PATTERN::ShowPropertiesDialog
void ShowPropertiesDialog(PCB_BASE_EDIT_FRAME *aEditFrame) override
Definition: pcb_tuning_pattern.cpp:1912

PCB_TUNING_PATTERN::Update
bool Update(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit) override
Definition: pcb_tuning_pattern.cpp:1267

PCB_TUNING_PATTERN::GetOverrideCustomRules
bool GetOverrideCustomRules() const
Definition: pcb_tuning_pattern.cpp:430

PCB_TUNING_PATTERN::SetMaxAmplitude
void SetMaxAmplitude(int aValue)
Definition: pcb_tuning_pattern.cpp:395

PCB_TUNING_PATTERN::EditPush
void EditPush(GENERATOR_TOOL *aTool, BOARD *aBoard, BOARD_COMMIT *aCommit, const wxString &aCommitMsg=wxEmptyString, int aCommitFlags=0) override
Definition: pcb_tuning_pattern.cpp:1396

PCB_TUNING_PATTERN::m_lastNetName
wxString m_lastNetName
Definition: pcb_tuning_pattern.cpp:499

PCB_TUNING_PATTERN::GetSettings
PNS::MEANDER_SETTINGS & GetSettings()
Definition: pcb_tuning_pattern.cpp:381

PCB_TUNING_PATTERN::SetSingleSided
void SetSingleSided(bool aValue)
Definition: pcb_tuning_pattern.cpp:437

PCB_TUNING_PATTERN::initBaseLine
bool initBaseLine(PNS::ROUTER *aRouter, int aLayer, BOARD *aBoard, VECTOR2I &aStart, VECTOR2I &aEnd, NETINFO_ITEM *aNet, std::optional< SHAPE_LINE_CHAIN > &aBaseLine)
Definition: pcb_tuning_pattern.cpp:933

PCB_TUNING_PATTERN::GetTargetLength
std::optional< int > GetTargetLength() const
Definition: pcb_tuning_pattern.cpp:411

PCB_TUNING_PATTERN::HitTest
bool HitTest(const VECTOR2I &aPosition, int aAccuracy=0) const override
Test if aPosition is inside or on the boundary of this item.
Definition: pcb_tuning_pattern.cpp:335

PCB_TUNING_PATTERN::GetCornerRadiusPercentage
int GetCornerRadiusPercentage() const
Definition: pcb_tuning_pattern.cpp:433

PCB_TUNING_PATTERN::GetBoundingBox
const BOX2I GetBoundingBox() const override
Return the orthogonal bounding box of this object for display purposes.
Definition: pcb_tuning_pattern.cpp:323

PCB_TUNING_PATTERN::getOutline
SHAPE_LINE_CHAIN getOutline() const
Definition: pcb_tuning_pattern.cpp:1630

PCB_TUNING_PATTERN::SetEndY
void SetEndY(int aValue)
Definition: pcb_tuning_pattern.cpp:366

PCB_TUNING_PATTERN::SetTargetLength
void SetTargetLength(std::optional< int > aValue)
Definition: pcb_tuning_pattern.cpp:419

PCB_TUNING_PATTERN::GetEndY
int GetEndY() const
Definition: pcb_tuning_pattern.cpp:365

PCB_TUNING_PATTERN::IsSingleSided
bool IsSingleSided() const
Definition: pcb_tuning_pattern.cpp:436

PCB_TUNING_PATTERN::CreateNew
static PCB_TUNING_PATTERN * CreateNew(GENERATOR_TOOL *aTool, PCB_BASE_EDIT_FRAME *aFrame, BOARD_CONNECTED_ITEM *aStartItem, LENGTH_TUNING_MODE aMode)
Definition: pcb_tuning_pattern.cpp:674

PCB_TUNING_PATTERN::MakeEditPoints
bool MakeEditPoints(std::shared_ptr< EDIT_POINTS > points) const override
Definition: pcb_tuning_pattern.cpp:1490

PCB_TUNING_PATTERN::GetTargetSkew
int GetTargetSkew() const
Definition: pcb_tuning_pattern.cpp:427

PNS::ARC
Definition: pns_arc.h:38

PNS::ARC::Arc
SHAPE_ARC & Arc()
Definition: pns_arc.h:115

PNS::DP_MEANDER_PLACER
Differential Pair length-matching/meandering tool.
Definition: pns_dp_meander_placer.h:49

PNS::ITEM_SET
Definition: pns_itemset.h:37

PNS::ITEM_SET::Items
std::vector< ITEM * > & Items()
Definition: pns_itemset.h:87

PNS::ITEM
Base class for PNS router board items.
Definition: pns_item.h:97

PNS::ITEM::Net
virtual NET_HANDLE Net() const
Definition: pns_item.h:193

PNS::ITEM::SetNet
void SetNet(NET_HANDLE aNet)
Definition: pns_item.h:192

PNS::ITEM::SetLayer
void SetLayer(int aLayer)
Definition: pns_item.h:198

PNS::ITEM::ARC_T
@ ARC_T
Definition: pns_item.h:106

PNS::ITEM::SEGMENT_T
@ SEGMENT_T
Definition: pns_item.h:105

PNS::ITEM::SetParent
void SetParent(BOARD_ITEM *aParent)
Definition: pns_item.h:184

PNS::ITEM::OfKind
bool OfKind(int aKindMask) const
Definition: pns_item.h:174

PNS::ITEM::Anchor
virtual VECTOR2I Anchor(int n) const
Definition: pns_item.h:236

PNS::LINE
Represents a track on a PCB, connecting two non-trivial joints (that is, vias, pads,...
Definition: pns_line.h:61

PNS::LINE::CLine
const SHAPE_LINE_CHAIN & CLine() const
Definition: pns_line.h:136

PNS::LINE::Line
SHAPE_LINE_CHAIN & Line()
Definition: pns_line.h:135

PNS::LINE::SetWidth
void SetWidth(int aWidth)
Return line width.
Definition: pns_line.h:148

PNS::LINKED_ITEM
Definition: pns_linked_item.h:30

PNS::LINKED_ITEM::Width
virtual int Width() const
Definition: pns_linked_item.h:39

PNS::LINK_HOLDER::ContainsLink
bool ContainsLink(const LINKED_ITEM *aItem) const
Definition: pns_link_holder.h:56

PNS::LINK_HOLDER::Links
std::vector< LINKED_ITEM * > & Links()
Definition: pns_link_holder.h:47

PNS::MEANDER_PLACER_BASE
Base class for Single trace & Differential pair meandering tools, as both of them share a lot of code...
Definition: pns_meander_placer_base.h:46

PNS::MEANDER_PLACER_BASE::UpdateSettings
virtual void UpdateSettings(const MEANDER_SETTINGS &aSettings)
Definition: pns_meander_placer_base.cpp:84

PNS::MEANDER_PLACER_BASE::TUNING_STATUS
TUNING_STATUS
< Result of the length tuning operation
Definition: pns_meander_placer_base.h:49

PNS::MEANDER_PLACER_BASE::TOO_SHORT
@ TOO_SHORT
Definition: pns_meander_placer_base.h:50

PNS::MEANDER_PLACER_BASE::TOO_LONG
@ TOO_LONG
Definition: pns_meander_placer_base.h:51

PNS::MEANDER_PLACER_BASE::TUNED
@ TUNED
Definition: pns_meander_placer_base.h:52

PNS::MEANDER_PLACER_BASE::SpacingStep
virtual void SpacingStep(int aSign)
Increase/decrease the current meandering spacing by one step.
Definition: pns_meander_placer_base.cpp:58

PNS::MEANDER_PLACER_BASE::TuningStatus
virtual TUNING_STATUS TuningStatus() const =0
Return the tuning status (too short, too long, etc.) of the trace(s) being tuned.

PNS::MEANDER_PLACER_BASE::MeanderSettings
virtual const MEANDER_SETTINGS & MeanderSettings() const
Return the current meandering configuration.
Definition: pns_meander_placer_base.cpp:292

PNS::MEANDER_PLACER_BASE::TuningResult
virtual long long int TuningResult() const =0
Return the resultant length or skew of the tuned traces.

PNS::MEANDER_PLACER_BASE::AmplitudeStep
virtual void AmplitudeStep(int aSign)
Increase/decreases the current meandering amplitude by one step.
Definition: pns_meander_placer_base.cpp:49

PNS::MEANDER_SETTINGS
Dimensions for the meandering algorithm.
Definition: pns_meander.h:68

PNS::MEANDER_SETTINGS::m_minAmplitude
int m_minAmplitude
Maximum meandering amplitude.
Definition: pns_meander.h:82

PNS::MEANDER_SETTINGS::SetTargetLength
void SetTargetLength(long long int aOpt)
Definition: pns_meander.cpp:54

PNS::MEANDER_SETTINGS::LENGTH_UNCONSTRAINED
static const long long int LENGTH_UNCONSTRAINED
Definition: pns_meander.h:71

PNS::MEANDER_SETTINGS::m_cornerRadiusPercentage
int m_cornerRadiusPercentage
Place meanders on one side.
Definition: pns_meander.h:108

PNS::MEANDER_SETTINGS::m_initialSide
MEANDER_SIDE m_initialSide
Allowable tuning error.
Definition: pns_meander.h:114

PNS::MEANDER_SETTINGS::m_singleSided
bool m_singleSided
Initial side when placing meanders at segment.
Definition: pns_meander.h:111

PNS::MEANDER_SETTINGS::m_targetLength
MINOPTMAX< long long int > m_targetLength
Target skew value for diff pair de-skewing.
Definition: pns_meander.h:97

PNS::MEANDER_SETTINGS::SetTargetSkew
void SetTargetSkew(int aOpt)
Definition: pns_meander.cpp:83

PNS::MEANDER_SETTINGS::m_targetSkew
MINOPTMAX< int > m_targetSkew
Definition: pns_meander.h:100

PNS::MEANDER_SETTINGS::m_cornerStyle
MEANDER_STYLE m_cornerStyle
Rounding percentage (0 - 100).
Definition: pns_meander.h:105

PNS::MEANDER_SETTINGS::m_keepEndpoints
bool m_keepEndpoints
Definition: pns_meander.h:120

PNS::MEANDER_SETTINGS::m_maxAmplitude
int m_maxAmplitude
Meandering period/spacing (see dialog picture for explanation).
Definition: pns_meander.h:85

PNS::MEANDER_SETTINGS::m_overrideCustomRules
bool m_overrideCustomRules
Type of corners for the meandered line.
Definition: pns_meander.h:102

PNS::MEANDER_SETTINGS::m_spacing
int m_spacing
Amplitude/spacing adjustment step.
Definition: pns_meander.h:88

PNS::NODE
Keep the router "world" - i.e.
Definition: pns_node.h:207

PNS::NODE::Branch
NODE * Branch()
Create a lightweight copy (called branch) of self that tracks the changes (added/removed items) wrs t...
Definition: pns_node.cpp:143

PNS::NODE::Add
bool Add(std::unique_ptr< SEGMENT > aSegment, bool aAllowRedundant=false)
Add an item to the current node.
Definition: pns_node.cpp:663

PNS::NODE::OBSTACLES
std::set< OBSTACLE > OBSTACLES
Definition: pns_node.h:219

PNS::NODE::QueryColliding
int QueryColliding(const ITEM *aItem, OBSTACLES &aObstacles, const COLLISION_SEARCH_OPTIONS &aOpts=COLLISION_SEARCH_OPTIONS()) const
Find items colliding (closer than clearance) with the item aItem.
Definition: pns_node.cpp:252

PNS::NODE::Remove
void Remove(ARC *aArc)
Remove an item from this branch.
Definition: pns_node.cpp:884

PNS::NODE::AssembleLine
const LINE AssembleLine(LINKED_ITEM *aSeg, int *aOriginSegmentIndex=nullptr, bool aStopAtLockedJoints=false, bool aFollowLockedSegments=false)
Follow the joint map to assemble a line connecting two non-trivial joints starting from segment aSeg.
Definition: pns_node.cpp:1014

PNS::ROUTER_IFACE::RemoveItem
virtual void RemoveItem(ITEM *aItem)=0

PNS::ROUTER_IFACE::AddItem
virtual void AddItem(ITEM *aItem)=0

PNS::ROUTER
Definition: pns_router.h:120

PNS::ROUTER::SetMode
void SetMode(ROUTER_MODE aMode)
Definition: pns_router.cpp:1032

PNS::ROUTER::StopRouting
void StopRouting()
Definition: pns_router.cpp:905

PNS::ROUTER::Placer
PLACEMENT_ALGO * Placer()
Definition: pns_router.h:216

PNS::ROUTER::GetInterface
ROUTER_IFACE * GetInterface() const
Definition: pns_router.h:218

PNS::ROUTER::CommitRouting
void CommitRouting()
Definition: pns_router.cpp:896

PNS::ROUTER::QueryHoverItems
const ITEM_SET QueryHoverItems(const VECTOR2I &aP, int aSlopRadius=0)
Definition: pns_router.cpp:123

PNS::ROUTER::SyncWorld
void SyncWorld()
Definition: pns_router.cpp:94

PNS::ROUTER::GetRuleResolver
RULE_RESOLVER * GetRuleResolver() const
Definition: pns_router.h:180

PNS::ROUTER::RoutingInProgress
bool RoutingInProgress() const
Definition: pns_router.cpp:117

PNS::ROUTER::StartRouting
bool StartRouting(const VECTOR2I &aP, ITEM *aItem, int aLayer)
Definition: pns_router.cpp:390

PNS::ROUTER::Sizes
SIZES_SETTINGS & Sizes()
Definition: pns_router.h:211

PNS::ROUTER::FixRoute
bool FixRoute(const VECTOR2I &aP, ITEM *aItem, bool aForceFinish, bool aForceCommit)
Definition: pns_router.cpp:858

PNS::ROUTER::GetWorld
NODE * GetWorld() const
Definition: pns_router.h:164

PNS::ROUTER::Move
bool Move(const VECTOR2I &aP, ITEM *aItem)
Definition: pns_router.cpp:450

PNS::RULE_RESOLVER
Definition: pns_node.h:137

PNS::RULE_RESOLVER::Clearance
virtual int Clearance(const ITEM *aA, const ITEM *aB, bool aUseClearanceEpsilon=true)=0

PNS::SEGMENT
Definition: pns_segment.h:39

PNS::SEGMENT::CLine
const SHAPE_LINE_CHAIN CLine() const
Definition: pns_segment.h:89

PNS::SEGMENT::Shape
const SHAPE * Shape() const override
Return the geometrical shape of the item.
Definition: pns_segment.h:69

PNS::SIZES_SETTINGS::Clearance
int Clearance() const
Definition: pns_sizes_settings.h:64

PNS::SIZES_SETTINGS::TrackWidth
int TrackWidth() const
Definition: pns_sizes_settings.h:71

PNS::SIZES_SETTINGS::DiffPairGap
int DiffPairGap() const
Definition: pns_sizes_settings.h:81

PNS::SOLID
Definition: pns_solid.h:36

PNS::SOLID::SetShape
void SetShape(SHAPE *shape)
Definition: pns_solid.h:98

PNS::TOOL_BASE::Router
ROUTER * Router() const
Definition: pns_tool_base.cpp:412

PNS::TOOL_BASE::GetInterface
PNS_KICAD_IFACE * GetInterface() const
Definition: pns_tool_base.cpp:418

PNS_KICAD_IFACE_BASE::SetStartLayer
void SetStartLayer(int aLayer)
Definition: pns_kicad_iface.h:84

PNS_KICAD_IFACE
Definition: pns_kicad_iface.h:115

PNS_KICAD_IFACE::DisplayItem
void DisplayItem(const PNS::ITEM *aItem, int aClearance, bool aEdit=false, int aFlags=0) override
Definition: pns_kicad_iface.cpp:1648

PNS_KICAD_IFACE::EraseView
void EraseView() override
Definition: pns_kicad_iface.cpp:1624

PNS_KICAD_IFACE::GetNetName
wxString GetNetName(PNS::NET_HANDLE aNet) const override
Definition: pns_kicad_iface.cpp:2054

PROPERTY_BASE::SetAvailableFunc
PROPERTY_BASE & SetAvailableFunc(std::function< bool(INSPECTABLE *)> aFunc)
Set a callback function to determine whether an object provides this property.
Definition: property.h:257

PROPERTY_ENUM
Definition: property.h:537

PROPERTY_MANAGER
Provide class metadata.Helper macro to map type hashes to names.
Definition: property_mgr.h:85

PROPERTY_MANAGER::InheritsAfter
void InheritsAfter(TYPE_ID aDerived, TYPE_ID aBase)
Declare an inheritance relationship between types.
Definition: property_mgr.cpp:174

PROPERTY_MANAGER::Instance
static PROPERTY_MANAGER & Instance()
Definition: property_mgr.h:87

PROPERTY_MANAGER::AddProperty
PROPERTY_BASE & AddProperty(PROPERTY_BASE *aProperty, const wxString &aGroup=wxEmptyString)
Register a property.
Definition: property_mgr.cpp:134

PROPERTY_MANAGER::AddTypeCast
void AddTypeCast(TYPE_CAST_BASE *aCast)
Register a type converter.
Definition: property_mgr.cpp:164

PROPERTY
Definition: property.h:444

ROUTER_PREVIEW_ITEM
Definition: router_preview_item.h:55

SCOPED_SET_RESET
RAII class that sets an value at construction and resets it to the original value at destruction.
Definition: scoped_set_reset.h:47

SEG
Definition: seg.h:42

SEG::A
VECTOR2I A
Definition: seg.h:49

SEG::LineDistance
int LineDistance(const VECTOR2I &aP, bool aDetermineSide=false) const
Return the closest Euclidean distance between point aP and the line defined by the ends of segment (t...
Definition: seg.cpp:341

SEG::ecoord
VECTOR2I::extended_type ecoord
Definition: seg.h:44

SEG::B
VECTOR2I B
Definition: seg.h:50

SEG::NearestPoint
const VECTOR2I NearestPoint(const VECTOR2I &aP) const
Compute a point on the segment (this) that is closest to point aP.
Definition: seg.cpp:269

SEG::Side
int Side(const VECTOR2I &aP) const
Determine on which side of directed line passing via segment ends point aP lies.
Definition: seg.h:143

SELECTION_TOOL::AddItemToSel
int AddItemToSel(const TOOL_EVENT &aEvent)
Definition: selection_tool.cpp:108

SELECTION::Add
virtual void Add(EDA_ITEM *aItem)
Definition: selection.cpp:42

SELECTION::Clear
virtual void Clear() override
Remove all the stored items from the group.
Definition: selection.h:93

SHAPE_ARC
Definition: shape_arc.h:37

SHAPE_ARC::GetArcMid
const VECTOR2I & GetArcMid() const
Definition: shape_arc.h:115

SHAPE_ARC::NearestPoint
VECTOR2I NearestPoint(const VECTOR2I &aP) const
Definition: shape_arc.cpp:391

SHAPE_LINE_CHAIN_BASE::PointOnEdge
bool PointOnEdge(const VECTOR2I &aP, int aAccuracy=0) const
Check if point aP lies on an edge or vertex of the line chain.
Definition: shape_line_chain.cpp:1726

SHAPE_LINE_CHAIN_BASE::PointInside
bool PointInside(const VECTOR2I &aPt, int aAccuracy=0, bool aUseBBoxCache=false) const override
Check if point aP lies inside a closed shape.
Definition: shape_line_chain.cpp:1674

SHAPE_LINE_CHAIN
Represent a polyline containing arcs as well as line segments: A chain of connected line and/or arc s...
Definition: shape_line_chain.h:83

SHAPE_LINE_CHAIN::Reverse
const SHAPE_LINE_CHAIN Reverse() const
Reverse point order in the line chain.
Definition: shape_line_chain.cpp:699

SHAPE_LINE_CHAIN::Split
int Split(const VECTOR2I &aP, bool aExact=false)
Insert the point aP belonging to one of the our segments, splitting the adjacent segment in two.
Definition: shape_line_chain.cpp:971

SHAPE_LINE_CHAIN::SetClosed
void SetClosed(bool aClosed)
Mark the line chain as closed (i.e.
Definition: shape_line_chain.h:242

SHAPE_LINE_CHAIN::Simplify
void Simplify(int aMaxError=0)
Simplify the line chain by removing colinear adjacent segments and duplicate vertices.
Definition: shape_line_chain.cpp:2381

SHAPE_LINE_CHAIN::Collide
virtual bool Collide(const VECTOR2I &aP, int aClearance=0, int *aActual=nullptr, VECTOR2I *aLocation=nullptr) const override
Check if point aP lies closer to us than aClearance.
Definition: shape_line_chain.cpp:472

SHAPE_LINE_CHAIN::Segment
SEG Segment(int aIndex) const
Return a copy of the aIndex-th segment in the line chain.
Definition: shape_line_chain.cpp:1075

SHAPE_LINE_CHAIN::Append
void Append(int aX, int aY, bool aAllowDuplication=false)
Append a new point at the end of the line chain.
Definition: shape_line_chain.h:472

SHAPE_LINE_CHAIN::CPoint
const VECTOR2I & CPoint(int aIndex) const
Return a reference to a given point in the line chain.
Definition: shape_line_chain.h:370

SHAPE_LINE_CHAIN::NearestPoint
const VECTOR2I NearestPoint(const VECTOR2I &aP, bool aAllowInternalShapePoints=true) const
Find a point on the line chain that is closest to point aP.
Definition: shape_line_chain.cpp:2056

SHAPE_LINE_CHAIN::SegmentCount
int SegmentCount() const
Return the number of segments in this line chain.
Definition: shape_line_chain.h:281

SHAPE_LINE_CHAIN::BBox
const BOX2I BBox(int aClearance=0) const override
Compute a bounding box of the shape, with a margin of aClearance a collision.
Definition: shape_line_chain.h:410

SHAPE_LINE_CHAIN::Clone
SHAPE * Clone() const override
Return a dynamically allocated copy of the shape.
Definition: shape_line_chain.cpp:2216

SHAPE_LINE_CHAIN::OffsetLine
bool OffsetLine(int aAmount, CORNER_STRATEGY aCornerStrategy, int aMaxError, SHAPE_LINE_CHAIN &aLeft, SHAPE_LINE_CHAIN &aRight, bool aSimplify=false) const
Creates line chains aLeft and aRight offset to this line chain.
Definition: shape_line_chain.cpp:2486

SHAPE_POLY_SET
Represent a set of closed polygons.
Definition: shape_poly_set.h:68

SHAPE_POLY_SET::PM_STRICTLY_SIMPLE
@ PM_STRICTLY_SIMPLE
Definition: shape_poly_set.h:999

SHAPE_POLY_SET::BooleanAdd
void BooleanAdd(const SHAPE_POLY_SET &b, POLYGON_MODE aFastMode)
Perform boolean polyset union For aFastMode meaning, see function booleanOp.
Definition: shape_poly_set.cpp:959

SHAPE_POLY_SET::Outline
SHAPE_LINE_CHAIN & Outline(int aIndex)
Return the reference to aIndex-th outline in the set.
Definition: shape_poly_set.h:726

SHAPE_POLY_SET::OffsetLineChain
void OffsetLineChain(const SHAPE_LINE_CHAIN &aLine, int aAmount, CORNER_STRATEGY aCornerStrategy, int aMaxError, bool aSimplify)
Perform offsetting of a line chain.
Definition: shape_poly_set.cpp:1348

SHAPE_POLY_SET::OutlineCount
int OutlineCount() const
Return the number of outlines in the set.
Definition: shape_poly_set.h:704

SHAPE::Centre
virtual VECTOR2I Centre() const
Compute a center-of-mass of the shape.
Definition: shape.h:232

STRING_ANY_MAP
A name/value tuple with unique names and wxAny values.
Definition: string_any_map.h:36

STRING_ANY_MAP::set_iu
void set_iu(const std::string &aKey, const T &aVar)
Definition: string_any_map.h:87

STRING_ANY_MAP::get_to
bool get_to(const std::string &aKey, T &aVar) const
Definition: string_any_map.h:44

STRING_ANY_MAP::get_opt
std::optional< T > get_opt(const std::string &aKey) const
Definition: string_any_map.h:98

STRING_ANY_MAP::set
void set(const std::string &aKey, const T &aVar)
Definition: string_any_map.h:81

STRING_ANY_MAP::get_to_iu
bool get_to_iu(const std::string &aKey, T &aVar) const
Definition: string_any_map.h:53

TEXT_ATTRIBUTES
Definition: text_attributes.h:65

TEXT_ATTRIBUTES::m_StrokeWidth
int m_StrokeWidth
Definition: text_attributes.h:80

TEXT_ATTRIBUTES::m_Halign
GR_TEXT_H_ALIGN_T m_Halign
Definition: text_attributes.h:76

TEXT_ATTRIBUTES::m_Size
VECTOR2I m_Size
Definition: text_attributes.h:88

TEXT_ATTRIBUTES::m_Mirrored
bool m_Mirrored
Definition: text_attributes.h:86

TOOLS_HOLDER::PopTool
virtual void PopTool(const TOOL_EVENT &aEvent)
Pops a tool from the stack.
Definition: tools_holder.cpp:77

TOOLS_HOLDER::PushTool
virtual void PushTool(const TOOL_EVENT &aEvent)
NB: the definition of "tool" is different at the user level.
Definition: tools_holder.cpp:56

TOOLS_HOLDER::GetToolManager
TOOL_MANAGER * GetToolManager() const
Return the MVC controller.
Definition: tools_holder.h:55

TOOL_BASE::GetManager
TOOL_MANAGER * GetManager() const
Return the instance of TOOL_MANAGER that takes care of the tool.
Definition: tool_base.h:145

TOOL_BASE::getViewControls
KIGFX::VIEW_CONTROLS * getViewControls() const
Return the instance of VIEW_CONTROLS object used in the application.
Definition: tool_base.cpp:42

TOOL_BASE::m_toolMgr
TOOL_MANAGER * m_toolMgr
Definition: tool_base.h:217

TOOL_BASE::getView
KIGFX::VIEW * getView() const
Returns the instance of #VIEW object used in the application.
Definition: tool_base.cpp:36

TOOL_EVENT
Generic, UI-independent tool event.
Definition: tool_event.h:167

TOOL_EVENT::Parameter
T Parameter() const
Return a parameter assigned to the event.
Definition: tool_event.h:460

TOOL_INTERACTIVE::m_menu
TOOL_MENU m_menu
The functions below are not yet implemented - their interface may change.
Definition: tool_interactive.h:125

TOOL_INTERACTIVE::Wait
TOOL_EVENT * Wait(const TOOL_EVENT_LIST &aEventList=TOOL_EVENT(TC_ANY, TA_ANY))
Suspend execution of the tool until an event specified in aEventList arrives.
Definition: tool_interactive.cpp:61

TOOL_INTERACTIVE::Activate
void Activate()
Run the tool.
Definition: tool_interactive.cpp:55

TOOL_MANAGER::PostEvent
void PostEvent(const TOOL_EVENT &aEvent)
Put an event to the event queue to be processed at the end of event processing cycle.
Definition: tool_manager.cpp:420

TOOL_MANAGER::GetTool
T * GetTool()
Definition: tool_manager.h:324

TOOL_MANAGER::RunAction
bool RunAction(const std::string &aActionName, T aParam)
Run the specified action immediately, pausing the current action to run the new one.
Definition: tool_manager.h:150

TOOL_MANAGER::GetMousePosition
VECTOR2D GetMousePosition() const
Definition: tool_manager.cpp:310

TOOL_MANAGER::GetSettings
APP_SETTINGS_BASE * GetSettings() const
Definition: tool_manager.h:400

TOOL_MANAGER::GetView
KIGFX::VIEW * GetView() const
Definition: tool_manager.h:391

TOOL_MENU::ShowContextMenu
void ShowContextMenu(SELECTION &aSelection)
Helper function to set and immediately show a CONDITIONAL_MENU in concert with the given SELECTION.
Definition: tool_menu.cpp:57

TUNING_STATUS_VIEW_ITEM
Definition: pcb_tuning_pattern.cpp:79

TUNING_STATUS_VIEW_ITEM::ViewGetLayers
void ViewGetLayers(int aLayers[], int &aCount) const override
Return the all the layers within the VIEW the object is painted on.
Definition: pcb_tuning_pattern.cpp:131

TUNING_STATUS_VIEW_ITEM::m_pos
VECTOR2I m_pos
Definition: pcb_tuning_pattern.cpp:231

TUNING_STATUS_VIEW_ITEM::GetClass
wxString GetClass() const override
Return the class name.
Definition: pcb_tuning_pattern.cpp:89

TUNING_STATUS_VIEW_ITEM::m_currentLabel
wxString m_currentLabel
Definition: pcb_tuning_pattern.cpp:235

TUNING_STATUS_VIEW_ITEM::m_currentText
wxString m_currentText
Definition: pcb_tuning_pattern.cpp:236

TUNING_STATUS_VIEW_ITEM::GetPosition
VECTOR2I GetPosition() const override
Definition: pcb_tuning_pattern.cpp:95

TUNING_STATUS_VIEW_ITEM::m_max
double m_max
Definition: pcb_tuning_pattern.cpp:233

TUNING_STATUS_VIEW_ITEM::ClearMinMax
void ClearMinMax()
Definition: pcb_tuning_pattern.cpp:106

TUNING_STATUS_VIEW_ITEM::SetMinMax
void SetMinMax(double aMin, double aMax)
Definition: pcb_tuning_pattern.cpp:98

TUNING_STATUS_VIEW_ITEM::ViewDraw
void ViewDraw(int aLayer, KIGFX::VIEW *aView) const override
Draw the parts of the object belonging to layer aLayer.
Definition: pcb_tuning_pattern.cpp:138

TUNING_STATUS_VIEW_ITEM::m_frame
EDA_DRAW_FRAME * m_frame
Definition: pcb_tuning_pattern.cpp:230

TUNING_STATUS_VIEW_ITEM::m_maxText
wxString m_maxText
Definition: pcb_tuning_pattern.cpp:238

TUNING_STATUS_VIEW_ITEM::SetCurrent
void SetCurrent(double aCurrent, const wxString &aLabel)
Definition: pcb_tuning_pattern.cpp:114

TUNING_STATUS_VIEW_ITEM::m_current
double m_current
Definition: pcb_tuning_pattern.cpp:234

TUNING_STATUS_VIEW_ITEM::m_min
double m_min
Definition: pcb_tuning_pattern.cpp:232

TUNING_STATUS_VIEW_ITEM::TUNING_STATUS_VIEW_ITEM
TUNING_STATUS_VIEW_ITEM(PCB_BASE_EDIT_FRAME *aFrame)
Definition: pcb_tuning_pattern.cpp:81

TUNING_STATUS_VIEW_ITEM::m_minText
wxString m_minText
Definition: pcb_tuning_pattern.cpp:237

TUNING_STATUS_VIEW_ITEM::ViewBBox
const BOX2I ViewBBox() const override
Return the bounding box of the item covering all its layers.
Definition: pcb_tuning_pattern.cpp:121

TUNING_STATUS_VIEW_ITEM::SetPosition
void SetPosition(const VECTOR2I &aPos) override
Definition: pcb_tuning_pattern.cpp:96

TYPE_CAST
Definition: property.h:629

UNITS_PROVIDER
Definition: units_provider.h:33

UNITS_PROVIDER::MessageTextFromMinOptMax
wxString MessageTextFromMinOptMax(const MINOPTMAX< int > &aValue) const
Definition: units_provider.h:115

UNITS_PROVIDER::MessageTextFromValue
wxString MessageTextFromValue(double aValue, bool aAddUnitLabel=true, EDA_DATA_TYPE aType=EDA_DATA_TYPE::DISTANCE) const
A lower-precision version of StringFromValue().
Definition: units_provider.h:101

VECTOR2< int >

VECTOR2::x
T x
Definition: vector2d.h:78

VECTOR2< int >::ECOORD_MAX
static constexpr extended_type ECOORD_MAX
Definition: vector2d.h:75

VECTOR2::y
T y
Definition: vector2d.h:78

VECTOR2::Resize
VECTOR2< T > Resize(T aNewLength) const
Return a vector of the same direction, but length specified in aNewLength.
Definition: vector2d.h:354

ZONE_FILLER_TOOL::IsZoneFillAction
static bool IsZoneFillAction(const TOOL_EVENT *aEvent)
Definition: zone_filler_tool.cpp:474

collectors.h

CHT_GROUP
@ CHT_GROUP
Definition: commit.h:45

CHT_UNGROUP
@ CHT_UNGROUP
Definition: commit.h:46

_HKI
#define _HKI(x)
Definition: dialog_page_settings.cpp:56

empty
static bool empty(const wxTextEntryBase *aCtrl)
Definition: dialog_sim_command.cpp:41

dialog_tuning_pattern_properties.h

dialog_unit_entry.h

draw_context.h

drawing_tool.h

drc_engine.h

LENGTH_CONSTRAINT
@ LENGTH_CONSTRAINT
Definition: drc_rule.h:64

SKEW_CONSTRAINT
@ SKEW_CONSTRAINT
Definition: drc_rule.h:65

_
#define _(s)
Definition: eda_3d_actions.cpp:35

IS_NEW
#define IS_NEW
New item, just created.
Definition: eda_item_flags.h:40

IN_EDIT
#define IN_EDIT
Item currently edited.
Definition: eda_item_flags.h:38

EDA_UNITS
EDA_UNITS
Definition: eda_units.h:46

IGNORE_GRID
@ IGNORE_GRID
Definition: edit_constraints.h:41

edit_points.h

HITTEST_THRESHOLD_PIXELS
#define HITTEST_THRESHOLD_PIXELS
Definition: ee_selection_tool.cpp:159

resolver
static FILENAME_RESOLVER * resolver
Definition: export_idf.cpp:53

generator_tool.h

generators_mgr.h

graphics_abstraction_layer.h

LAYER_UI_START
@ LAYER_UI_START
Definition: layer_ids.h:265

LAYER_ANCHOR
@ LAYER_ANCHOR
anchor of items having an anchor point (texts, footprints)
Definition: layer_ids.h:205

PCB_LAYER_ID
PCB_LAYER_ID
A quick note on layer IDs:
Definition: layer_ids.h:60

F_Cu
@ F_Cu
Definition: layer_ids.h:64

EDA_UNIT_UTILS::UI::MessageTextFromValue
KICOMMON_API wxString MessageTextFromValue(const EDA_IU_SCALE &aIuScale, EDA_UNITS aUnits, double aValue, bool aAddUnitsText=true, EDA_DATA_TYPE aType=EDA_DATA_TYPE::DISTANCE)
A helper to convert the double length aValue to a string in inches, millimeters, or unscaled units.
Definition: eda_units.cpp:408

KIGFX::PREVIEW::GetConstantGlyphHeight
TEXT_DIMS GetConstantGlyphHeight(KIGFX::GAL *aGal, int aRelativeSize=0)
Set the GAL glyph height to a constant scaled value, so that it always looks the same on screen.
Definition: preview_utils.cpp:67

PNS
Push and Shove diff pair dimensions (gap) settings dialog.
Definition: dialog_pns_diff_pair_dimensions.h:33

PNS::CONSTRAINT_TYPE::CT_DIFF_PAIR_SKEW
@ CT_DIFF_PAIR_SKEW

PNS::CONSTRAINT_TYPE::CT_LENGTH
@ CT_LENGTH

PNS::MEANDER_SIDE
MEANDER_SIDE
Definition: pns_meander.h:58

PNS::MEANDER_SIDE_RIGHT
@ MEANDER_SIDE_RIGHT
Definition: pns_meander.h:61

PNS::MEANDER_SIDE_DEFAULT
@ MEANDER_SIDE_DEFAULT
Definition: pns_meander.h:60

PNS::MEANDER_SIDE_LEFT
@ MEANDER_SIDE_LEFT
Definition: pns_meander.h:59

PNS::MEANDER_STYLE_ROUND
@ MEANDER_STYLE_ROUND
Definition: pns_meander.h:52

PNS::MEANDER_STYLE_CHAMFER
@ MEANDER_STYLE_CHAMFER
Definition: pns_meander.h:53

PNS::ROUTER_MODE
ROUTER_MODE
Definition: pns_router.h:62

PNS::PNS_MODE_TUNE_DIFF_PAIR
@ PNS_MODE_TUNE_DIFF_PAIR
Definition: pns_router.h:66

PNS::PNS_MODE_TUNE_SINGLE
@ PNS_MODE_TUNE_SINGLE
Definition: pns_router.h:65

PNS::PNS_MODE_TUNE_DIFF_PAIR_SKEW
@ PNS_MODE_TUNE_DIFF_PAIR_SKEW
Definition: pns_router.h:67

pcb_generator.h

pcb_group.h
Class to handle a set of BOARD_ITEMs.

pcb_picker_tool.h

pcb_selection_tool.h

pcb_shape.h

pcb_track.h

sideFromString
static PNS::MEANDER_SIDE sideFromString(const std::string &aStr)
Definition: pcb_tuning_pattern.cpp:546

tuningFromString
static LENGTH_TUNING_MODE tuningFromString(const std::string &aStr)
Definition: pcb_tuning_pattern.cpp:506

tuningToString
static std::string tuningToString(const LENGTH_TUNING_MODE aTuning)
Definition: pcb_tuning_pattern.cpp:522

_PCB_TUNING_PATTERN_DESC
static struct PCB_TUNING_PATTERN_DESC _PCB_TUNING_PATTERN_DESC

fromPNSMode
static LENGTH_TUNING_MODE fromPNSMode(PNS::ROUTER_MODE aRouterMode)
Definition: pcb_tuning_pattern.cpp:534

statusFromString
static PNS::MEANDER_PLACER_BASE::TUNING_STATUS statusFromString(const std::string &aStr)
Definition: pcb_tuning_pattern.cpp:574

sideToString
static std::string sideToString(const PNS::MEANDER_SIDE aValue)
Definition: pcb_tuning_pattern.cpp:590

statusToString
static std::string statusToString(const PNS::MEANDER_PLACER_BASE::TUNING_STATUS aStatus)
Definition: pcb_tuning_pattern.cpp:562

registerMe
static GENERATORS_MGR::REGISTER< PCB_TUNING_PATTERN > registerMe
Definition: pcb_tuning_pattern.cpp:2594

pickSegment
static PNS::LINKED_ITEM * pickSegment(PNS::ROUTER *aRouter, const VECTOR2I &aWhere, int aLayer, VECTOR2I &aPointOut, const SHAPE_LINE_CHAIN &aBaseline=SHAPE_LINE_CHAIN())
Definition: pcb_tuning_pattern.cpp:789

getPNSLine
static std::optional< PNS::LINE > getPNSLine(const VECTOR2I &aStart, const VECTOR2I &aEnd, PNS::ROUTER *router, int layer, VECTOR2I &aStartOut, VECTOR2I &aEndOut)
Definition: pcb_tuning_pattern.cpp:906

LENGTH_TUNING_MODE
LENGTH_TUNING_MODE
Definition: pcb_tuning_pattern.cpp:71

DIFF_PAIR
@ DIFF_PAIR
Definition: pcb_tuning_pattern.cpp:73

SINGLE
@ SINGLE
Definition: pcb_tuning_pattern.cpp:72

DIFF_PAIR_SKEW
@ DIFF_PAIR_SKEW
Definition: pcb_tuning_pattern.cpp:74

snapToNearestTrack
static VECTOR2I snapToNearestTrack(const VECTOR2I &aP, BOARD *aBoard, NETINFO_ITEM *aNet, PCB_TRACK **aNearestTrack)
Definition: pcb_tuning_pattern.cpp:617

registerMeToo
static REGISTER_LEGACY_TUNING_PATTERN< PCB_TUNING_PATTERN > registerMeToo
Definition: pcb_tuning_pattern.cpp:2610

pns_arc.h

pns_dp_meander_placer.h

pns_kicad_iface.h

pns_meander.h

pns_meander_placer_base.h

pns_segment.h

pns_solid.h

pns_topology.h

preview_utils.h

TYPE_HASH
#define TYPE_HASH(x)
Definition: property.h:71

NO_SETTER
#define NO_SETTER(owner, type)
Definition: property.h:774

ENUM_TO_WXANY
#define ENUM_TO_WXANY(type)
Macro to define read-only fields (no setter method available)
Definition: property.h:765

REGISTER_TYPE
#define REGISTER_TYPE(x)
Definition: property_mgr.h:371

correction
constexpr double correction
Definition: render_settings.cpp:60

epsilon
const double epsilon
Definition: resistor_substitution_utils.h:30

router_preview_item.h

PNS_HOVER_ITEM
#define PNS_HOVER_ITEM
Definition: router_preview_item.h:49

PNS_COLLISION
#define PNS_COLLISION
Definition: router_preview_item.h:51

scoped_set_reset.h

shape_circle.h

dummy
std::vector< FAB_LAYER_COLOR > dummy
Definition: stackup_predefined_prms.cpp:97

UnescapeString
wxString UnescapeString(const wxString &aSource)
Definition: string_utils.cpp:273

APP_SETTINGS_BASE::SYSTEM::units
int units
Definition: app_settings.h:142

EDA_IU_SCALE::mmToIU
constexpr int mmToIU(double mm) const
Definition: base_units.h:88

GENERATOR_PNS_CHANGES
Definition: generator_tool_pns_proxy.h:34

KIGFX::PREVIEW::TEXT_DIMS
Definition: preview_utils.h:40

KIGFX::PREVIEW::TEXT_DIMS::StrokeWidth
int StrokeWidth
Definition: preview_utils.h:42

KIGFX::PREVIEW::TEXT_DIMS::LinePitch
double LinePitch
Definition: preview_utils.h:44

KIGFX::PREVIEW::TEXT_DIMS::GlyphSize
VECTOR2I GlyphSize
Definition: preview_utils.h:41

PCB_TUNING_PATTERN_DESC
Definition: pcb_tuning_pattern.cpp:2467

PCB_TUNING_PATTERN_DESC::PCB_TUNING_PATTERN_DESC
PCB_TUNING_PATTERN_DESC()
Definition: pcb_tuning_pattern.cpp:2468

PNS::COLLISION_SEARCH_OPTIONS
Definition: pns_node.h:113

PNS::COLLISION_SEARCH_OPTIONS::m_useClearanceEpsilon
bool m_useClearanceEpsilon
Definition: pns_node.h:118

PNS::CONSTRAINT
An abstract function object, returning a design rule (clearance, diff pair gap, etc) required between...
Definition: pns_node.h:73

PNS::CONSTRAINT::m_Value
MINOPTMAX< int > m_Value
Definition: pns_node.h:75

PNS::OBSTACLE
Hold an object colliding with another object, along with some useful data about the collision.
Definition: pns_node.h:87

REENTRANCY_GUARD
Definition: tool_interactive.h:39

REGISTER_LEGACY_TUNING_PATTERN
Definition: pcb_tuning_pattern.cpp:2599

REGISTER_LEGACY_TUNING_PATTERN::REGISTER_LEGACY_TUNING_PATTERN
REGISTER_LEGACY_TUNING_PATTERN()
Definition: pcb_tuning_pattern.cpp:2600

GR_TEXT_H_ALIGN_RIGHT
@ GR_TEXT_H_ALIGN_RIGHT
Definition: text_attributes.h:46

GR_TEXT_H_ALIGN_LEFT
@ GR_TEXT_H_ALIGN_LEFT
Definition: text_attributes.h:44

BUT_LEFT
@ BUT_LEFT
Definition: tool_event.h:131

BUT_RIGHT
@ BUT_RIGHT
Definition: tool_event.h:132

RotatePoint
void RotatePoint(int *pX, int *pY, const EDA_ANGLE &aAngle)
Calculate the new point of coord coord pX, pY, for a rotation center 0, 0.
Definition: trigo.cpp:228

DEG2RAD
double DEG2RAD(double deg)
Definition: trigo.h:200

EuclideanNorm
double EuclideanNorm(const VECTOR2I &vector)
Definition: trigo.h:128

PCB_GENERATOR_T
@ PCB_GENERATOR_T
class PCB_GENERATOR, generator on a layer
Definition: typeinfo.h:91

NOT_USED
@ NOT_USED
the 3d code uses this value
Definition: typeinfo.h:79

PCB_ARC_T
@ PCB_ARC_T
class PCB_ARC, an arc track segment on a copper layer
Definition: typeinfo.h:98

PCB_TRACE_T
@ PCB_TRACE_T
class PCB_TRACK, a track segment (segment on a copper layer)
Definition: typeinfo.h:96

ui.h

KiROUND
constexpr ret_type KiROUND(fp_type v)
Round a floating point number to an integer using "round halfway cases away from zero".
Definition: util.h:118

VECTOR2I
VECTOR2< int > VECTOR2I
Definition: vector2d.h:602

view.h

view_controls.h

zone_filler_tool.h