/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2022 Chetan Subhash Shinde * Copyright (C) 2023 CERN * Copyright (C) 2022-2023 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 3 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ /** * @brief Parses the datastructure produced by the LTSPICE_SCHEMATIC into a KiCad * schematic file. */ #include #include #include #include #include #include #include #include #include #include #include #include void LTSPICE_SCH_PARSER::Parse( SCH_SHEET_PATH* aSheet, std::vector& outLT_ASCs, const std::vector& aAsyFileNames ) { // Center created objects in Kicad page BOX2I bbox; for( const LTSPICE_SCHEMATIC::LT_ASC& asc : outLT_ASCs ) bbox.Merge( asc.BoundingBox ); m_originOffset = { 0, 0 }; bbox.SetOrigin( ToKicadCoords( bbox.GetOrigin() ) ); bbox.SetSize( ToKicadCoords( bbox.GetSize() ) ); VECTOR2I pageSize = aSheet->LastScreen()->GetPageSettings().GetSizeIU( schIUScale.IU_PER_MILS ); int grid = schIUScale.MilsToIU( 50 ); int margin = grid * 10; m_originOffset = ( pageSize / 2 ) - bbox.GetCenter(); if( bbox.GetWidth() > pageSize.x - margin ) m_originOffset.x = margin - bbox.GetLeft(); if( bbox.GetHeight() > pageSize.y - margin ) m_originOffset.y = margin - bbox.GetTop(); m_originOffset = ( m_originOffset / grid ) * grid; readIncludes( outLT_ASCs ); CreateKicadSYMBOLs( aSheet, outLT_ASCs, aAsyFileNames ); CreateKicadSCH_ITEMs( aSheet, outLT_ASCs ); } void LTSPICE_SCH_PARSER::readIncludes( std::vector& outLT_ASCs ) { wxString ltSubDir = m_lt_schematic->GetLTspiceDataDir().GetFullPath() + wxS( "lib/sub/" ); wxString path; for( const LTSPICE_SCHEMATIC::LT_ASC& asc : outLT_ASCs ) { for( const LTSPICE_SCHEMATIC::TEXT& lt_text : asc.Texts ) { for( wxString& line : wxSplit( lt_text.Value, '\n' ) ) { if( line.StartsWith( wxS( ".inc " ), &path ) ) { path.Replace( '\\', '/' ); wxFileName fileName( path ); if( fileName.IsAbsolute() ) { m_includes[ fileName.GetName() ] = fileName.GetFullPath(); } else { wxFileName absolute( ltSubDir + path ); m_includes[ absolute.GetName() ] = absolute.GetFullPath(); } } } } } } void LTSPICE_SCH_PARSER::CreateLines( LIB_SYMBOL* aSymbol, LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, LIB_SHAPE* shape ) { LTSPICE_SCHEMATIC::LINE& lt_line = aLTSymbol.Lines[aIndex]; shape->AddPoint( ToInvertedKicadCoords( lt_line.End ) ); shape->AddPoint( ToInvertedKicadCoords( lt_line.Start ) ); shape->SetStroke( getStroke( lt_line.LineWidth, lt_line.LineStyle ) ); } void LTSPICE_SCH_PARSER::CreateLines( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::LINE& lt_line = aLTSymbol.Lines[aIndex]; SCH_SHAPE* shape = new SCH_SHAPE( SHAPE_T::POLY ); shape->AddPoint( ToKicadCoords( lt_line.End ) ); shape->AddPoint( ToKicadCoords( lt_line.Start ) ); shape->SetStroke( getStroke( lt_line.LineWidth, lt_line.LineStyle ) ); shape->Move( ToKicadCoords( aLTSymbol.Offset ) + m_originOffset ); RotateMirrorShape( aLTSymbol, shape ); aSheet->LastScreen()->Append( shape ); } void LTSPICE_SCH_PARSER::CreateKicadSYMBOLs( SCH_SHEET_PATH* aSheet, std::vector& outLT_ASCs, const std::vector& aAsyFiles ) { for( LTSPICE_SCHEMATIC::LT_ASC& lt_asc : outLT_ASCs ) { std::vector symbols = lt_asc.Symbols; std::map existingSymbol; std::map existingSchematicSymbol; for( LTSPICE_SCHEMATIC::LT_SYMBOL& lt_symbol : symbols ) { if( !alg::contains( aAsyFiles, lt_symbol.Name ) ) { LIB_SYMBOL* lib_symbol; if( existingSymbol.count( lt_symbol.Name ) == 0 ) { lib_symbol = new LIB_SYMBOL( lt_symbol.Name ); CreateSymbol( lt_symbol, lib_symbol ); existingSymbol.emplace( lt_symbol.Name, lib_symbol ); } else { lib_symbol = existingSymbol[lt_symbol.Name]; } LIB_ID libId( wxS( "ltspice" ), lt_symbol.Name ); SCH_SYMBOL* sch_symbol = new SCH_SYMBOL( *lib_symbol, libId, aSheet, 1 ); CreateFields( lt_symbol, sch_symbol, aSheet ); for( int j = 0; j < (int) lt_symbol.Wires.size(); j++ ) CreateWires( lt_symbol, j, aSheet ); sch_symbol->Move( ToKicadCoords( lt_symbol.Offset ) + m_originOffset ); RotateMirror( lt_symbol, sch_symbol ); aSheet->LastScreen()->Append( sch_symbol ); } else { for( int j = 0; j < (int) lt_symbol.Lines.size(); j++ ) CreateLines( lt_symbol, j, aSheet ); for( int j = 0; j < (int) lt_symbol.Circles.size(); j++ ) CreateCircle( lt_symbol, j, aSheet ); for( int j = 0; j < (int) lt_symbol.Arcs.size(); j++ ) CreateArc( lt_symbol, j, aSheet ); for( int j = 0; j < (int) lt_symbol.Rectangles.size(); j++ ) CreateRect( lt_symbol, j, aSheet ); // Calculating bounding box BOX2I bbox; std::vector tempVector; LTSPICE_SCHEMATIC::LT_SYMBOL tempSymbol; LTSPICE_FILE tempAsyFile( lt_symbol.Name + ".asy", { 0, 0 } ); LTSPICE_SCHEMATIC::LT_ASC dummyAsc; tempVector.push_back( tempAsyFile ); tempSymbol = m_lt_schematic->SymbolBuilder( lt_symbol.Name, dummyAsc ); LIB_SYMBOL* tempLibSymbol = new LIB_SYMBOL( lt_symbol.Name ); CreateSymbol( tempSymbol, tempLibSymbol ); bbox = tempLibSymbol->GetBoundingBox(); int topLeftX = lt_symbol.Offset.x + ToLtSpiceCoords( bbox.GetOrigin().x ); int topLeftY = lt_symbol.Offset.y + ToLtSpiceCoords( bbox.GetOrigin().y ); int botRightX = lt_symbol.Offset.x + ToLtSpiceCoords( bbox.GetOrigin().x ) + ToLtSpiceCoords( bbox.GetSize().x ); int botRightY = lt_symbol.Offset.y + ToLtSpiceCoords( bbox.GetOrigin().y ) + ToLtSpiceCoords( bbox.GetSize().y ); for( LTSPICE_SCHEMATIC::LT_PIN& pin : lt_symbol.Pins ) { VECTOR2I pinPos = pin.PinLocation; for( LTSPICE_SCHEMATIC::WIRE& wire : lt_asc.Wires ) { if( wire.Start == ( pinPos + lt_symbol.Offset ) ) { //wire is vertical if( wire.End.x == ( pinPos + lt_symbol.Offset ).x ) { if( wire.End.y <= topLeftY ) wire.Start = VECTOR2I( wire.Start.x, topLeftY + 3 ); else if( wire.End.y >= botRightY ) wire.Start = VECTOR2I( wire.Start.x, botRightY ); else if( wire.End.y < botRightY && wire.End.y > topLeftY ) wire.Start = VECTOR2I( topLeftX, wire.Start.y ); } //wire is horizontal else if( wire.End.y == ( pinPos + lt_symbol.Offset ).y ) { if( wire.End.x <= topLeftX ) wire.Start = VECTOR2I( topLeftX, wire.Start.y ); else if( wire.End.x >= botRightX ) wire.Start = VECTOR2I( botRightX, wire.Start.y ); else if( wire.End.x < botRightX && wire.End.x > topLeftX ) wire.Start = VECTOR2I( botRightX, wire.Start.y ); } } else if( wire.End == ( pinPos + lt_symbol.Offset ) ) { //wire is Vertical if( wire.Start.x == ( pinPos + lt_symbol.Offset ).x ) { if( wire.Start.y <= topLeftY ) wire.End = VECTOR2I( wire.End.x, topLeftY ); else if( wire.Start.y > botRightY ) wire.End = VECTOR2I( wire.End.x, botRightY ); else if( wire.Start.y < botRightY && wire.End.y > topLeftY ) wire.End = VECTOR2I( wire.End.x, botRightY ); } //wire is Horizontal else if( wire.Start.y == ( pinPos + lt_symbol.Offset ).y ) { if( wire.Start.x <= topLeftX ) wire.End = VECTOR2I( topLeftX, wire.End.y ); else if( wire.Start.x >= botRightX ) wire.End = VECTOR2I( botRightX, wire.End.y ); else if( wire.Start.x < botRightX && wire.Start.x > topLeftX ) wire.End = VECTOR2I( botRightX, wire.End.y ); } } } } } } } } void LTSPICE_SCH_PARSER::CreateSymbol( LTSPICE_SCHEMATIC::LT_SYMBOL& aLtSymbol, LIB_SYMBOL* aLibSymbol ) { for( int j = 0; j < (int) aLtSymbol.Lines.size(); j++ ) { LIB_SHAPE* line = new LIB_SHAPE( aLibSymbol, SHAPE_T::POLY ); CreateLines( aLibSymbol, aLtSymbol, j, line ); aLibSymbol->AddDrawItem( line ); } for( int j = 0; j < (int) aLtSymbol.Circles.size(); j++ ) { LIB_SHAPE* circle = new LIB_SHAPE( aLibSymbol, SHAPE_T::CIRCLE ); CreateCircle( aLtSymbol, j, circle ); aLibSymbol->AddDrawItem( circle ); } for( int j = 0; j < (int) aLtSymbol.Arcs.size(); j++ ) { LIB_SHAPE* arc = new LIB_SHAPE( aLibSymbol, SHAPE_T::ARC ); CreateArc( aLtSymbol, j, arc ); aLibSymbol->AddDrawItem( arc ); } for( int j = 0; j < (int) aLtSymbol.Rectangles.size(); j++ ) { LIB_SHAPE* rectangle = new LIB_SHAPE( aLibSymbol, SHAPE_T::RECT ); CreateRect( aLtSymbol, j, rectangle ); aLibSymbol->AddDrawItem( rectangle ); } for( int j = 0; j < (int) aLtSymbol.Pins.size(); j++ ) { LIB_PIN* pin = new LIB_PIN( aLibSymbol ); CreatePin( aLtSymbol, j, pin ); aLibSymbol->AddDrawItem( pin ); } aLibSymbol->SetShowPinNumbers( false ); } int LTSPICE_SCH_PARSER::ToKicadCoords( int aCoordinate ) { return schIUScale.MilsToIU( rescale( 50, aCoordinate, 16 ) ); } VECTOR2I LTSPICE_SCH_PARSER::ToKicadCoords( const VECTOR2I& aPos ) { return VECTOR2I( ToKicadCoords( aPos.x ), ToKicadCoords( aPos.y ) ); } VECTOR2I LTSPICE_SCH_PARSER::ToInvertedKicadCoords( const VECTOR2I& aPos ) { return VECTOR2I( ToKicadCoords( aPos.x ), -ToKicadCoords( aPos.y ) ); } VECTOR2I LTSPICE_SCH_PARSER::ToKicadFontSize( int aLTFontSize ) { auto MILS_SIZE = []( int mils ) { return VECTOR2I( schIUScale.MilsToIU( mils ), schIUScale.MilsToIU( mils ) ); }; if( aLTFontSize == 1 ) return MILS_SIZE( 36 ); else if( aLTFontSize == 2 ) return MILS_SIZE( 42 ); else if( aLTFontSize == 3 ) return MILS_SIZE( 50 ); else if( aLTFontSize == 4 ) return MILS_SIZE( 60 ); else if( aLTFontSize == 5 ) return MILS_SIZE( 72 ); else if( aLTFontSize == 6 ) return MILS_SIZE( 88 ); else if( aLTFontSize == 7 ) return MILS_SIZE( 108 ); else return ToKicadFontSize( 2 ); } int LTSPICE_SCH_PARSER::ToLtSpiceCoords( int aCoordinate ) { return schIUScale.IUToMils( rescale( 16, aCoordinate, 50 ) ); } void LTSPICE_SCH_PARSER::RotateMirrorShape( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, SCH_SHAPE* aShape ) { if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R90 ) { aShape->Rotate( VECTOR2I() ); aShape->Rotate( VECTOR2I() ); aShape->Rotate( VECTOR2I() ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R180 ) { aShape->Rotate( VECTOR2I() ); aShape->Rotate( VECTOR2I() ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R270 ) { aShape->Rotate( VECTOR2I() ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M0 ) { aShape->MirrorVertically( 0 ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M90 ) { aShape->MirrorVertically( 0 ); aShape->Rotate( VECTOR2I() ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M180 ) { aShape->MirrorHorizontally( 0 ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M270 ) { aShape->MirrorVertically( 0 ); aShape->Rotate( VECTOR2I() ); aShape->Rotate( VECTOR2I() ); aShape->Rotate( VECTOR2I() ); } } void LTSPICE_SCH_PARSER::RotateMirror( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, SCH_SYMBOL* aSchSymbol ) { if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R0 ) { aSchSymbol->SetOrientation( SYM_ORIENT_0 ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R90 ) { aSchSymbol->SetOrientation( SYM_ORIENT_180 ); aSchSymbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R180 ) { aSchSymbol->SetOrientation( SYM_ORIENT_180 ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::R270 ) { aSchSymbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M0 ) { aSchSymbol->SetOrientation( SYM_MIRROR_Y ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M90 ) { aSchSymbol->SetOrientation( SYM_MIRROR_Y ); aSchSymbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M180 ) { aSchSymbol->SetOrientation( SYM_MIRROR_X ); } else if( aLTSymbol.SymbolOrientation == LTSPICE_SCHEMATIC::ORIENTATION::M270 ) { aSchSymbol->SetOrientation( SYM_MIRROR_Y ); aSchSymbol->SetOrientation( SYM_ROTATE_CLOCKWISE ); } } void LTSPICE_SCH_PARSER::CreateWires( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, SCH_SHEET_PATH* aSheet ) { SCH_LINE* segment = new SCH_LINE(); segment->SetLineWidth( getLineWidth( LTSPICE_SCHEMATIC::LINEWIDTH::Normal ) ); segment->SetLineStyle( PLOT_DASH_TYPE::SOLID ); segment->SetStartPoint( aLTSymbol.Wires[aIndex].Start ); segment->SetEndPoint( aLTSymbol.Wires[aIndex].End ); aSheet->LastScreen()->Append( segment ); } void LTSPICE_SCH_PARSER::CreateKicadSCH_ITEMs( SCH_SHEET_PATH* aSheet, std::vector& outLT_ASCs ) { SCH_SCREEN* screen = aSheet->LastScreen(); for( LTSPICE_SCHEMATIC::LT_ASC& lt_asc : outLT_ASCs ) { for( int j = 0; j < (int) lt_asc.Lines.size(); j++ ) CreateLine( lt_asc, j, aSheet ); for( int j = 0; j < (int) lt_asc.Circles.size(); j++ ) CreateCircle( lt_asc, j, aSheet ); for( int j = 0; j < (int) lt_asc.Arcs.size(); j++ ) CreateArc( lt_asc, j, aSheet ); for( int j = 0; j < (int) lt_asc.Rectangles.size(); j++ ) CreateRect( lt_asc, j, aSheet ); for( int j = 0; j < (int) lt_asc.Bustap.size(); j++ ) CreateBusEntry( lt_asc, j, aSheet ); /** * *NOTE: This current code is used for plotting sch sheet pins on the sheet, we are working on * finding how to place the pin on the intersection of line and sheet. * * if( aSubSchematicStructure ) { SCH_HIERLABEL* sheetPin = new SCH_SHEET_PIN( aRootSheet, VECTOR2I(), lt_asc.Flags[index].Value ); sheetPin->SetText( "PIN" ); sheetPin->SetPosition( VECTOR2I( schIUScale.MilsToIU( rescale( 50, 592, 16 ) ), schIUScale.MilsToIU( rescale( 50, 133, 16 ) ) ) ); sheetPin->SetVisible( true ); aRootSheet->AddPin( (SCH_SHEET_PIN*) sheetPin ); }*/ for( int j = 0; j < (int) lt_asc.Wires.size(); j++ ) CreateWire( lt_asc, j, aSheet, SCH_LAYER_ID::LAYER_WIRE ); for( int j = 0; j < (int) lt_asc.Iopins.size(); j++ ) CreatePin( lt_asc, j, aSheet ); for( const LTSPICE_SCHEMATIC::FLAG& lt_flag : lt_asc.Flags ) { if( lt_flag.Value == wxS( "0" ) ) { screen->Append( CreatePowerSymbol( lt_flag.Offset, lt_flag.Value, lt_flag.FontSize, aSheet, lt_asc.Wires ) ); } else { screen->Append( CreateSCH_LABEL( SCH_LABEL_T, lt_flag.Offset, lt_flag.Value, lt_flag.FontSize ) ); } } for( const LTSPICE_SCHEMATIC::TEXT& lt_text : lt_asc.Texts ) { screen->Append( CreateSCH_TEXT( lt_text.Offset, lt_text.Value, lt_text.FontSize, lt_text.Justification ) ); } for( const LTSPICE_SCHEMATIC::DATAFLAG& lt_flag : lt_asc.DataFlags ) { screen->Append( CreateSCH_LABEL( SCH_DIRECTIVE_LABEL_T, lt_flag.Offset, lt_flag.Expression, lt_flag.FontSize ) ); } } } void LTSPICE_SCH_PARSER::CreateBusEntry( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::BUSTAP& bustap = aAscfile.Bustap[aIndex]; for( int k = 0; k < (int) aAscfile.Wires.size(); k++ ) { if( ( aAscfile.Wires[k].Start == bustap.Start ) || ( aAscfile.Wires[k].End == bustap.Start ) ) { CreateWire( aAscfile, k, aSheet, SCH_LAYER_ID::LAYER_BUS ); aAscfile.Wires.erase( aAscfile.Wires.begin() + k ); } } SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( ToKicadCoords( { bustap.Start.x, bustap.Start.y - 16 } ) ); busEntry->SetSize( { ToKicadCoords( 16 ), ToKicadCoords( 16 ) } ); aSheet->LastScreen()->Append( busEntry ); } LABEL_FLAG_SHAPE getLabelShape( LTSPICE_SCHEMATIC::POLARITY aPolarity ) { if( aPolarity == LTSPICE_SCHEMATIC::POLARITY::INPUT ) return LABEL_FLAG_SHAPE::L_INPUT; else if( aPolarity == LTSPICE_SCHEMATIC::POLARITY::OUTPUT ) return LABEL_FLAG_SHAPE::L_OUTPUT; else return LABEL_FLAG_SHAPE::L_BIDI; } void LTSPICE_SCH_PARSER::CreatePin( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::IOPIN& iopin = aAscfile.Iopins[aIndex]; wxString ioPinName; for( unsigned int k = 0; k < aAscfile.Flags.size(); k++ ) { if( ( aAscfile.Flags[k].Offset.x == iopin.Location.x ) && ( aAscfile.Flags[k].Offset.y == iopin.Location.y ) ) { ioPinName = aAscfile.Flags[k].Value; aAscfile.Flags.erase( aAscfile.Flags.begin() + k ); } } SCH_HIERLABEL* sheetPin = new SCH_HIERLABEL( ToKicadCoords( iopin.Location ), ioPinName, SCH_HIER_LABEL_T ); sheetPin->Move( m_originOffset ); sheetPin->SetShape( getLabelShape( iopin.Polarity ) ); aSheet->LastScreen()->Append( sheetPin ); } void LTSPICE_SCH_PARSER::CreateLine( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::LINE& lt_line = aAscfile.Lines[aIndex]; SCH_LINE* line = new SCH_LINE( ToKicadCoords( lt_line.Start ), SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( ToKicadCoords( lt_line.End ) ); line->SetStroke( getStroke( lt_line.LineWidth, lt_line.LineStyle ) ); line->Move( m_originOffset ); aSheet->LastScreen()->Append( line ); } void LTSPICE_SCH_PARSER::CreateCircle( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::CIRCLE& lt_circle = aAscfile.Circles[aIndex]; SCH_SHAPE* circle = new SCH_SHAPE( SHAPE_T::CIRCLE ); VECTOR2I c = ( lt_circle.TopLeft + lt_circle.BotRight ) / 2; int r = ( lt_circle.TopLeft.x - lt_circle.BotRight.x ) / 2; circle->SetPosition( ToKicadCoords( c ) ); circle->SetEnd( ToKicadCoords( c ) + VECTOR2I( abs( ToKicadCoords( r ) ), 0 ) ); circle->SetStroke( getStroke( lt_circle.LineWidth, lt_circle.LineStyle ) ); circle->Move( m_originOffset ); aSheet->LastScreen()->Append( circle ); } void LTSPICE_SCH_PARSER::CreateArc( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::ARC& lt_arc = aAscfile.Arcs[aIndex]; SCH_SHAPE* arc = new SCH_SHAPE( SHAPE_T::ARC ); arc->SetCenter( ToKicadCoords( ( lt_arc.TopLeft + lt_arc.BotRight ) / 2 ) ); arc->SetEnd( ToKicadCoords( lt_arc.ArcEnd ) ); arc->SetStart( ToKicadCoords( lt_arc.ArcStart ) ); arc->SetStroke( getStroke( lt_arc.LineWidth, lt_arc.LineStyle ) ); arc->Move( m_originOffset ); aSheet->LastScreen()->Append( arc ); } void LTSPICE_SCH_PARSER::CreateRect( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::RECTANGLE& lt_rect = aAscfile.Rectangles[aIndex]; SCH_SHAPE* rectangle = new SCH_SHAPE( SHAPE_T::RECT ); rectangle->SetPosition( ToKicadCoords( lt_rect.TopLeft ) ); rectangle->SetEnd( ToKicadCoords( lt_rect.BotRight ) ); rectangle->SetStroke( getStroke( lt_rect.LineWidth, lt_rect.LineStyle ) ); rectangle->Move( m_originOffset ); aSheet->LastScreen()->Append( rectangle ); } int LTSPICE_SCH_PARSER::getLineWidth( const LTSPICE_SCHEMATIC::LINEWIDTH& aLineWidth ) { if( aLineWidth == LTSPICE_SCHEMATIC::LINEWIDTH::Normal ) return schIUScale.MilsToIU( 6 ); else if( aLineWidth == LTSPICE_SCHEMATIC::LINEWIDTH::Wide ) return schIUScale.MilsToIU( 12 ); else return schIUScale.MilsToIU( 6 ); } PLOT_DASH_TYPE LTSPICE_SCH_PARSER::getLineStyle( const LTSPICE_SCHEMATIC::LINESTYLE& aLineStyle ) { switch( aLineStyle ) { case LTSPICE_SCHEMATIC::LINESTYLE::SOLID: return PLOT_DASH_TYPE::SOLID; case LTSPICE_SCHEMATIC::LINESTYLE::DOT: return PLOT_DASH_TYPE::DOT; case LTSPICE_SCHEMATIC::LINESTYLE::DASHDOTDOT: return PLOT_DASH_TYPE::DASHDOTDOT; case LTSPICE_SCHEMATIC::LINESTYLE::DASHDOT: return PLOT_DASH_TYPE::DASHDOT; case LTSPICE_SCHEMATIC::LINESTYLE::DASH: return PLOT_DASH_TYPE::DASH; default: return PLOT_DASH_TYPE::SOLID; } } STROKE_PARAMS LTSPICE_SCH_PARSER::getStroke( const LTSPICE_SCHEMATIC::LINEWIDTH& aLineWidth, const LTSPICE_SCHEMATIC::LINESTYLE& aLineStyle ) { return STROKE_PARAMS( getLineWidth( aLineWidth ), getLineStyle( aLineStyle ) ); } void LTSPICE_SCH_PARSER::setTextJustification( EDA_TEXT* aText, LTSPICE_SCHEMATIC::JUSTIFICATION aJustification ) { switch( aJustification ) { case LTSPICE_SCHEMATIC::JUSTIFICATION::LEFT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VLEFT: aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT ); aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::CENTER: case LTSPICE_SCHEMATIC::JUSTIFICATION::VCENTER: aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER ); aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::RIGHT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VRIGHT: aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT ); aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::BOTTOM: case LTSPICE_SCHEMATIC::JUSTIFICATION::VBOTTOM: aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER ); aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::TOP: case LTSPICE_SCHEMATIC::JUSTIFICATION::VTOP: aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER ); aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP ); break; default: break; } switch( aJustification ) { case LTSPICE_SCHEMATIC::JUSTIFICATION::LEFT: case LTSPICE_SCHEMATIC::JUSTIFICATION::CENTER: case LTSPICE_SCHEMATIC::JUSTIFICATION::RIGHT: case LTSPICE_SCHEMATIC::JUSTIFICATION::BOTTOM: case LTSPICE_SCHEMATIC::JUSTIFICATION::TOP: aText->SetTextAngle( ANGLE_HORIZONTAL ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::VLEFT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VCENTER: case LTSPICE_SCHEMATIC::JUSTIFICATION::VRIGHT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VBOTTOM: case LTSPICE_SCHEMATIC::JUSTIFICATION::VTOP: aText->SetTextAngle( ANGLE_VERTICAL ); break; default: break; } // Center, Left, Right aligns by first line in multiline text if( wxSplit( aText->GetText(), '\n', '\0' ).size() > 1 ) { switch( aJustification ) { case LTSPICE_SCHEMATIC::JUSTIFICATION::LEFT: case LTSPICE_SCHEMATIC::JUSTIFICATION::CENTER: case LTSPICE_SCHEMATIC::JUSTIFICATION::RIGHT: aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP ); aText->Offset( VECTOR2I( 0, -aText->GetTextHeight() / 2 ) ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::VLEFT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VCENTER: case LTSPICE_SCHEMATIC::JUSTIFICATION::VRIGHT: aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP ); aText->Offset( VECTOR2I( -aText->GetTextHeight() / 2, 0 ) ); break; default: break; } } } SCH_TEXT* LTSPICE_SCH_PARSER::CreateSCH_TEXT( VECTOR2I aOffset, const wxString& aText, int aFontSize, LTSPICE_SCHEMATIC::JUSTIFICATION aJustification ) { VECTOR2I pos = ToKicadCoords( aOffset ) + m_originOffset; SCH_TEXT* textItem = new SCH_TEXT( pos, aText, SCH_TEXT_T ); textItem->SetTextSize( ToKicadFontSize( aFontSize ) ); textItem->SetVisible( true ); textItem->SetMultilineAllowed( true ); setTextJustification( textItem, aJustification ); return textItem; } void LTSPICE_SCH_PARSER::CreateWire( LTSPICE_SCHEMATIC::LT_ASC& aAscfile, int aIndex, SCH_SHEET_PATH* aSheet, SCH_LAYER_ID aLayer ) { SCH_LINE* segment = new SCH_LINE(); segment->SetLineWidth( getLineWidth( LTSPICE_SCHEMATIC::LINEWIDTH::Normal ) ); segment->SetLineStyle( PLOT_DASH_TYPE::SOLID ); segment->SetLayer( aLayer ); segment->SetStartPoint( ToKicadCoords( aAscfile.Wires[aIndex].Start ) + m_originOffset ); segment->SetEndPoint( ToKicadCoords( aAscfile.Wires[aIndex].End ) + m_originOffset ); aSheet->LastScreen()->Append( segment ); } SCH_SYMBOL* LTSPICE_SCH_PARSER::CreatePowerSymbol( const VECTOR2I& aOffset, const wxString& aValue, int aFontSize, SCH_SHEET_PATH* aSheet, std::vector& aWires ) { LIB_SYMBOL* lib_symbol = new LIB_SYMBOL( wxS( "GND" ) ); LIB_SHAPE* shape = new LIB_SHAPE( lib_symbol, SHAPE_T::POLY ); shape->AddPoint( ToInvertedKicadCoords( { 16, 0 } ) ); shape->AddPoint( ToInvertedKicadCoords( { -16, 0 } ) ); shape->AddPoint( ToInvertedKicadCoords( { 0, 15 } ) ); shape->AddPoint( ToInvertedKicadCoords( { 16, 0 } ) ); shape->AddPoint( ToInvertedKicadCoords( { -16, 0 } ) ); shape->AddPoint( ToInvertedKicadCoords( { 0, 15 } ) ); shape->SetStroke( STROKE_PARAMS( getLineWidth( LTSPICE_SCHEMATIC::LINEWIDTH::Normal ), PLOT_DASH_TYPE::SOLID ) ); lib_symbol->AddDrawItem( shape ); lib_symbol->SetPower(); LIB_PIN* pin = new LIB_PIN( lib_symbol ); pin->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN ); pin->SetPosition( ToInvertedKicadCoords( { 0, 0 } ) ); pin->SetLength( 5 ); pin->SetShape( GRAPHIC_PINSHAPE::LINE ); lib_symbol->AddDrawItem( pin ); LIB_ID libId( wxS( "ltspice" ), wxS( "GND" ) ); SCH_SYMBOL* sch_symbol = new SCH_SYMBOL( *lib_symbol, libId, aSheet, 1 ); sch_symbol->SetRef( aSheet, wxString::Format( wxS( "#GND%03d" ), m_powerSymbolIndex++ ) ); sch_symbol->GetField( REFERENCE_FIELD )->SetVisible( false ); sch_symbol->SetValueFieldText( wxS( "0" ) ); sch_symbol->GetField( VALUE_FIELD )->SetTextSize( ToKicadFontSize( aFontSize ) ); sch_symbol->GetField( VALUE_FIELD )->SetVisible( false ); sch_symbol->Move( ToKicadCoords( aOffset ) + m_originOffset ); for( LTSPICE_SCHEMATIC::WIRE& wire : aWires ) { if( aOffset == wire.Start ) { if( wire.Start.x == wire.End.x ) { if( wire.Start.y < wire.End.y ) { sch_symbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); sch_symbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); } } else { if( wire.Start.x < wire.End.x ) sch_symbol->SetOrientation( SYM_ROTATE_CLOCKWISE ); else if( wire.Start.x > wire.End.x ) sch_symbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); } } else if( aOffset == wire.End ) { if( wire.Start.x == wire.End.x ) { if( wire.Start.y > wire.End.y ) { sch_symbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); sch_symbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); } } else { if( wire.Start.x < wire.End.x ) sch_symbol->SetOrientation( SYM_ROTATE_COUNTERCLOCKWISE ); else if( wire.Start.x > wire.End.x ) sch_symbol->SetOrientation( SYM_ROTATE_CLOCKWISE ); } } } return sch_symbol; } SCH_LABEL_BASE* LTSPICE_SCH_PARSER::CreateSCH_LABEL( KICAD_T aType, const VECTOR2I& aOffset, const wxString& aValue, int aFontSize ) { SCH_LABEL_BASE* label = nullptr; if( aType == SCH_LABEL_T ) { label = new SCH_LABEL(); label->SetText( aValue ); label->SetTextSize( ToKicadFontSize( aFontSize ) ); label->SetTextSpinStyle( TEXT_SPIN_STYLE::RIGHT ); } else if( aType == SCH_DIRECTIVE_LABEL_T ) { label = new SCH_DIRECTIVE_LABEL(); label->SetTextSpinStyle( TEXT_SPIN_STYLE::RIGHT ); SCH_FIELD field( { 0, 0 }, -1, label, wxS( "DATAFLAG" ) ); field.SetText( aValue ); field.SetTextSize( ToKicadFontSize( aFontSize ) ); field.SetVisible( true ); label->AddField( field ); label->AutoplaceFields( nullptr, false ); } else { UNIMPLEMENTED_FOR( aType ); } if( label ) { label->SetPosition( ToKicadCoords( aOffset ) + m_originOffset ); label->SetVisible( true ); } return label; } void LTSPICE_SCH_PARSER::CreateFields( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, SCH_SYMBOL* aSymbol, SCH_SHEET_PATH* aSheet ) { wxString libPath = m_lt_schematic->GetLTspiceDataDir().GetFullPath() + wxS( "lib/" ); wxString symbolName = aLTSymbol.Name.Upper(); wxString type = aLTSymbol.SymAttributes[ wxS( "TYPE" ) ].Upper(); wxString prefix = aLTSymbol.SymAttributes[ wxS( "PREFIX" ) ].Upper(); wxString instName = aLTSymbol.SymAttributes[ wxS( "INSTNAME" ) ].Upper(); wxString value = aLTSymbol.SymAttributes[ wxS( "VALUE" ) ]; aSymbol->SetRef( aSheet, instName ); aSymbol->SetValueFieldText( value ); auto setupNonInferredPassive = [&]( const wxString& aPrefix ) { SCH_FIELD deviceField( { 0, 0 }, -1, aSymbol, wxS( "Sim.Device" ) ); deviceField.SetText( aPrefix ); aSymbol->AddField( deviceField ); SCH_FIELD paramsField( { 0, 0 }, -1, aSymbol, wxS( "Sim.Params" ) ); paramsField.SetText( aPrefix + wxS( "=${VALUE}" ) ); aSymbol->AddField( paramsField ); }; if( symbolName == wxS( "RES" ) ) { if( !instName.StartsWith( 'R' ) ) setupNonInferredPassive( wxS( "R" ) ); } else if( symbolName == wxS( "CAP" ) ) { if( !instName.StartsWith( 'C' ) ) setupNonInferredPassive( wxS( "C" ) ); } else if( symbolName == wxS( "IND" ) ) { if( !instName.StartsWith( 'L' ) ) setupNonInferredPassive( wxS( "L" ) ); } else if( symbolName == wxS( "VOLTAGE" ) || symbolName == wxS( "CURRENT" ) ) { // inference had better work.... } else { wxString libFile = aLTSymbol.SymAttributes[ wxS( "MODELFILE" ) ]; if( prefix == wxS( "X" ) ) { // A prefix of X overrides the simulation model for other symbols (npn, etc.) type = wxS( "X" ); } else if( libFile.IsEmpty() ) { if( type.IsEmpty() ) type = symbolName; if( type == "DIODE" ) libFile = libPath + wxS( "cmp/standard.dio" ); else if( type == "NPN" || type == "PNP" ) libFile = libPath + wxS( "cmp/standard.bjt" ); else if( type == "NJF" || type == "PJF" ) libFile = libPath + wxS( "cmp/standard.jft" ); else if( type == "NMOS" || type == "PMOS" ) libFile = libPath + wxS( "cmp/standard.mos" ); } if( libFile.IsEmpty() ) libFile = m_includes[ value ]; if( !libFile.IsEmpty() ) { SCH_FIELD libField( { 0, 0 }, -1, aSymbol, wxS( "Sim.Library" ) ); libField.SetText( libFile ); aSymbol->AddField( libField ); } SCH_FIELD nameField( { 0, 0 }, -1, aSymbol, wxS( "Sim.Name" ) ); nameField.SetText( wxS( "${VALUE}" ) ); aSymbol->AddField( nameField ); if( type == wxS( "X" ) ) { SCH_FIELD deviceField( { 0, 0 }, -1, aSymbol, wxS( "Sim.Device" ) ); deviceField.SetText( wxS( "SUBCKT" ) ); aSymbol->AddField( deviceField ); } wxString spiceLine = aLTSymbol.SymAttributes[ wxS( "SPICELINE" ) ]; if( !spiceLine.IsEmpty() ) { SCH_FIELD paramsField( { 0, 0 }, -1, aSymbol, wxS( "Sim.Params" ) ); paramsField.SetText( spiceLine ); aSymbol->AddField( paramsField ); } } for( LTSPICE_SCHEMATIC::LT_WINDOW& lt_window : aLTSymbol.Windows ) { SCH_FIELD* field = nullptr; switch( lt_window.WindowNumber ) { case -1: /* PartNum */ break; case 0: /* InstName */ field = aSymbol->GetField( REFERENCE_FIELD ); break; case 1: /* Type */ break; case 2: /* RefName */ break; case 3: /* Value */ field = aSymbol->GetField( VALUE_FIELD ); break; case 5: /* QArea */ break; case 8: /* Width */ break; case 9: /* Length */ break; case 10: /* Multi */ break; case 16: /* Nec */ break; case 38: /* SpiceModel */ field = aSymbol->FindField( wxS( "Sim.Name" ) ); break; case 39: /* SpiceLine */ field = aSymbol->FindField( wxS( "Sim.Params" ) ); break; case 40: /* SpiceLine2 */ break; /* 47 Def_Sub 50 Digital_Timing_Model 51 Digital_Extracts 52 Digital_IO_Model 53 Digital_Line 54 Digital_Primitive 55 Digital_MNTYMXDLY 56 Digital_IO_LEVEL 57 Digital_StdCell 58 Digital_File 105 Cell 106 W/L 107 PSIZE 108 NSIZE 109 sheets 110 sh# 111 Em_Scale 112 Epi 113 Sinker 114 Multi5 118 AQ 119 AQSUB 120 ZSIZE 121 ESR 123 Value2 124 COUPLE 125 Voltage 126 Area1 127 Area2 128 Area3 129 Area4 130 Multi1 131 Multi2 132 Multi3 133 Multi4 134 DArea 135 DPerim 136 CArea 137 CPerim 138 Shrink 139 Gate_Resize 142 BP 143 BN 144 Sim_Level 146 G_Voltage 150 SpiceLine3 153 D_VOLTAGES 156 Version 157 Comment 158 XDef_Sub 159 LVS_Area 162 User1 163 User2 164 User3 165 User4 166 User5 167 Root 168 Class 169 Geometry 170 WL_Delimiter 175 T1 176 T2 184 DsgnName 185 Designer 190 RTN 191 PWR 192 BW 201 CAPROWS 202 CAPCOLS 203 NF 204 SLICES 205 CUR 206 TEMPRISE 207 STRIPS 208 WEM 209 LEM 210 BASES 211 COLS 212 XDef_Tub */ default: break; } if( field ) { field->SetPosition( ToKicadCoords( lt_window.Position ) ); field->SetTextSize( ToKicadFontSize( lt_window.FontSize ) ); if( lt_window.FontSize == 0 ) field->SetVisible( false ); setTextJustification( field, lt_window.Justification ); } } } void LTSPICE_SCH_PARSER::CreateRect( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, LIB_SHAPE* aRectangle ) { LTSPICE_SCHEMATIC::RECTANGLE& lt_rect = aLTSymbol.Rectangles[aIndex]; aRectangle->SetPosition( ToInvertedKicadCoords( lt_rect.BotRight ) ); aRectangle->SetEnd( ToInvertedKicadCoords( lt_rect.TopLeft ) ); aRectangle->SetStroke( getStroke( lt_rect.LineWidth, lt_rect.LineStyle ) ); if( aLTSymbol.SymAttributes[wxS( "Prefix" )] == wxS( "X" ) ) aRectangle->SetFillMode( FILL_T::FILLED_WITH_BG_BODYCOLOR ); } void LTSPICE_SCH_PARSER::CreateRect( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::RECTANGLE& lt_rect = aLTSymbol.Rectangles[aIndex]; SCH_SHAPE* rectangle = new SCH_SHAPE( SHAPE_T::RECT ); rectangle->SetPosition( ToInvertedKicadCoords( lt_rect.BotRight ) ); rectangle->SetEnd( ToInvertedKicadCoords( lt_rect.TopLeft ) ); rectangle->SetStroke( getStroke( lt_rect.LineWidth, lt_rect.LineStyle ) ); rectangle->Move( aLTSymbol.Offset ); RotateMirrorShape( aLTSymbol, rectangle ); aSheet->LastScreen()->Append( rectangle ); } void LTSPICE_SCH_PARSER::CreatePin( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, LIB_PIN* aPin ) { LTSPICE_SCHEMATIC::LT_PIN& lt_pin = aLTSymbol.Pins[aIndex]; wxString device = aLTSymbol.Name.Lower(); if( aLTSymbol.Pins.size() == 2 && ( device == wxS( "res" ) || device == wxS( "cap" ) || device == wxS( "ind" ) ) ) { // drop A/B pin names from simple LRCs as they're not terribly useful (and prevent // other pin names on the net from driving the net name). } else { aPin->SetName( lt_pin.PinAttribute[ wxS( "PinName" ) ] ); if( lt_pin.PinJustification == LTSPICE_SCHEMATIC::JUSTIFICATION::NONE ) aPin->SetNameTextSize( 0 ); } aPin->SetNumber( wxString::Format( wxS( "%d" ), aIndex + 1 ) ); aPin->SetType( ELECTRICAL_PINTYPE::PT_PASSIVE ); aPin->SetPosition( ToInvertedKicadCoords( lt_pin.PinLocation ) ); aPin->SetLength( 5 ); aPin->SetShape( GRAPHIC_PINSHAPE::LINE ); switch( lt_pin.PinJustification ) { case LTSPICE_SCHEMATIC::JUSTIFICATION::LEFT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VLEFT: aPin->SetOrientation( PIN_RIGHT ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::RIGHT: case LTSPICE_SCHEMATIC::JUSTIFICATION::VRIGHT: aPin->SetOrientation( PIN_LEFT ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::BOTTOM: case LTSPICE_SCHEMATIC::JUSTIFICATION::VBOTTOM: aPin->SetOrientation( PIN_UP ); break; case LTSPICE_SCHEMATIC::JUSTIFICATION::TOP: case LTSPICE_SCHEMATIC::JUSTIFICATION::VTOP: aPin->SetOrientation( PIN_DOWN ); break; default: break; } } void LTSPICE_SCH_PARSER::CreateArc( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, LIB_SHAPE* aArc ) { LTSPICE_SCHEMATIC::ARC& lt_arc = aLTSymbol.Arcs[aIndex]; aArc->SetCenter( ToInvertedKicadCoords( ( lt_arc.TopLeft + lt_arc.BotRight ) / 2 ) ); aArc->SetEnd( ToInvertedKicadCoords( lt_arc.ArcEnd ) ); aArc->SetStart( ToInvertedKicadCoords( lt_arc.ArcStart ) ); aArc->SetStroke( getStroke( lt_arc.LineWidth, lt_arc.LineStyle ) ); } void LTSPICE_SCH_PARSER::CreateArc( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::ARC& lt_arc = aLTSymbol.Arcs[aIndex]; SCH_SHAPE* arc = new SCH_SHAPE( SHAPE_T::ARC ); arc->SetCenter( ToInvertedKicadCoords( ( lt_arc.TopLeft + lt_arc.BotRight ) / 2 ) ); arc->SetEnd( ToInvertedKicadCoords( lt_arc.ArcEnd ) ); arc->SetStart( ToInvertedKicadCoords( lt_arc.ArcStart ) ); arc->SetStroke( getStroke( lt_arc.LineWidth, lt_arc.LineStyle ) ); arc->Move( ToKicadCoords( aLTSymbol.Offset ) + m_originOffset ); RotateMirrorShape( aLTSymbol, arc ); aSheet->LastScreen()->Append( arc ); } void LTSPICE_SCH_PARSER::CreateCircle( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, SCH_SHEET_PATH* aSheet ) { LTSPICE_SCHEMATIC::CIRCLE& lt_circle = aLTSymbol.Circles[aIndex]; SCH_SHAPE* circle = new SCH_SHAPE( SHAPE_T::CIRCLE ); VECTOR2I c = ( lt_circle.TopLeft + lt_circle.BotRight ) / 2; int r = ( lt_circle.TopLeft.x - lt_circle.BotRight.x ) / 2; circle->SetPosition( ToInvertedKicadCoords( c ) ); circle->SetEnd( ToInvertedKicadCoords( c ) + VECTOR2I( abs( ToKicadCoords( r ) ), 0 ) ); circle->SetStroke( getStroke( lt_circle.LineWidth, lt_circle.LineStyle ) ); circle->Move( aLTSymbol.Offset ); RotateMirrorShape( aLTSymbol, circle ); aSheet->LastScreen()->Append( circle ); } void LTSPICE_SCH_PARSER::CreateCircle( LTSPICE_SCHEMATIC::LT_SYMBOL& aLTSymbol, int aIndex, LIB_SHAPE* aCircle ) { LTSPICE_SCHEMATIC::CIRCLE& lt_circle = aLTSymbol.Circles[aIndex]; VECTOR2I c = ( lt_circle.TopLeft + lt_circle.BotRight ) / 2; int r = ( lt_circle.TopLeft.x - lt_circle.BotRight.x ) / 2; aCircle->SetPosition( ToInvertedKicadCoords( c ) ); aCircle->SetEnd( ToInvertedKicadCoords( c ) + VECTOR2I( abs( ToKicadCoords( r ) ), 0 ) ); aCircle->SetStroke( getStroke( lt_circle.LineWidth, lt_circle.LineStyle ) ); }