doxygen/cadstar__sch__archive__loader_8cpp_source.html

/*

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

 *

 * Copyright (C) 2020-2021 Roberto Fernandez Bautista <[email protected]>

 * Copyright The 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 <http://www.gnu.org/licenses/>.

 */


#include <sch_io/cadstar/cadstar_sch_archive_loader.h>

#include <io/cadstar/cadstar_parts_lib_parser.h>


#include <bus_alias.h>

#include <core/mirror.h>

#include <core/kicad_algo.h>

#include <eda_text.h>

#include <macros.h>

#include <progress_reporter.h>

#include <string_utils.h>

#include <sch_bus_entry.h>

#include <sch_edit_frame.h> //SYMBOL_ORIENTATION_T

#include <sch_io/sch_io_mgr.h>

#include <sch_junction.h>

#include <sch_line.h>

#include <sch_screen.h>

#include <sch_shape.h>

#include <sch_sheet.h>

#include <sch_sheet_path.h>

#include <sch_sheet_pin.h>

#include <sch_label.h>

#include <schematic.h>

#include <sim/sim_model.h>

#include <trigo.h>

#include <wildcards_and_files_ext.h>


const wxString PartNameFieldName = "Part Name";

const wxString PartNumberFieldName = "Part Number";

const wxString PartVersionFieldName = "Part Version";

const wxString PartAcceptanceFieldName = "Part Acceptance";


wxString CADSTAR_SCH_ARCHIVE_LOADER::CreateLibName( const wxFileName& aFileName,

                                                    const SCH_SHEET* aRootSheet )

{

    wxString libName = aFileName.GetName();


    if( libName.IsEmpty() && aRootSheet )

    {

        wxFileName fn( aRootSheet->GetFileName() );

        libName = fn.GetName();

    }


    if( libName.IsEmpty() )

        libName = "noname";


    libName = LIB_ID::FixIllegalChars( libName, true ).wx_str();


    return libName;

}


std::vector<LIB_SYMBOL*> CADSTAR_SCH_ARCHIVE_LOADER::LoadPartsLib( const wxString& aFilename )

{

    if( m_progressReporter )

        m_progressReporter->SetNumPhases( 3 ); // (0) Read csa, (1) Parse csa, (3) Load lib


    Parse();


    CADSTAR_PARTS_LIB_PARSER p;


    if( !p.CheckFileHeader( aFilename.utf8_string() ) )

        THROW_IO_ERROR( _( "File does not appear to be a CADSTAR parts Library file" ) );


    // TODO: we could add progress reporting for reading .lib

    CADSTAR_PARTS_LIB_MODEL csLib = p.ReadFile( aFilename.utf8_string() );


    if( m_progressReporter )

    {

        m_progressReporter->BeginPhase( 2 );

        long numSteps = csLib.m_PartEntries.size();

        m_progressReporter->SetMaxProgress( numSteps );

    }


    std::vector<LIB_SYMBOL*> retVal;


    for( const CADSTAR_PART_ENTRY& part : csLib.m_PartEntries )

    {

        std::unique_ptr<LIB_SYMBOL> loadedPart = loadLibPart( part );


        checkPoint();


        if( loadedPart )

            retVal.push_back( loadedPart.release() );

    }


    return retVal;

}


std::unique_ptr<LIB_SYMBOL>

CADSTAR_SCH_ARCHIVE_LOADER::loadLibPart( const CADSTAR_PART_ENTRY& aPart )

{

    wxString                    escapedPartName = EscapeString( aPart.m_Name, CTX_LIBID );

    std::unique_ptr<LIB_SYMBOL> retSym;


    int unit = 0;


    for( const CADSTAR_PART_SYMBOL_ENTRY& sym : aPart.m_Symbols )

    {

        ++unit;

        wxString  alternateName = sym.m_SymbolAlternateName.value_or( "" );

        SYMDEF_ID symbolID = getSymDefFromName( sym.m_SymbolName, alternateName );


        if( !Library.SymbolDefinitions.count( symbolID ) )

        {

            m_reporter->Report( wxString::Format( _( "Unable to find symbol %s, referenced by part "

                                                     "%s. The part was not loaded." ),

                                                  generateLibName( sym.m_SymbolName, alternateName ),

                                                  aPart.m_Name ),

                                RPT_SEVERITY_ERROR );


            return nullptr;

        }


        // Load the graphical symbol for this gate

        std::unique_ptr<LIB_SYMBOL> kiSymDef( loadSymdef( symbolID )->Duplicate() );


        if( (int)sym.m_Pins.size() != kiSymDef->GetPinCount() )

        {

            m_reporter->Report( wxString::Format( _( "Inconsistent pin numbers in symbol %s "

                                                     "compared to the one defined in part %s. The "

                                                     "part was not loaded." ),

                                                  generateLibName( sym.m_SymbolName, alternateName ),

                                                  aPart.m_Name ),

                                RPT_SEVERITY_ERROR );


            return nullptr;

        }


        wxASSERT( m_symDefTerminalsMap.count( symbolID ) ); //loadSymDef should have populated this


        // Update the pin numbers to match those defined in the Cadstar part

        for( auto& [storedPinNum, termID] : m_symDefTerminalsMap[symbolID] )

        {

            wxCHECK( termID > 0 && sym.m_Pins.size() >= size_t( termID ), nullptr );

            SCH_PIN* pin = kiSymDef->GetPin( storedPinNum );

            size_t   termIdx = size_t( termID ) - 1;


            // For now leave numerical pin number. Otherwise, when loading the

            // .cpa file we won't be able to link up to the footprint pads, but if

            // we solve this, we could then load alphanumeric pin numbers as below:

            //

            // if( aPart.m_PinNamesMap.count( termID ) )

            //  partPinNum = wxString( aPart.m_PinNamesMap.at( termID ) );

            //

            wxString partPinNum = wxString::Format( "%ld", sym.m_Pins[termIdx].m_Identifier );

            pin->SetNumber( partPinNum );


            if( aPart.m_PinNamesMap.count( termID ) )

                pin->SetName( HandleTextOverbar( aPart.m_PinNamesMap.at( termID ) ) );

            else if( aPart.m_PinLabelsMap.count( termID ) )

                pin->SetName( HandleTextOverbar( aPart.m_PinLabelsMap.at( termID ) ) );


            pin->SetType( getKiCadPinType( sym.m_Pins[termIdx].m_Type ) );


            // @todo: Load pin/gate swapping information once kicad supports this

        }


        if( unit == 1 )

        {

            wxCHECK( kiSymDef->GetUnitCount() == 1, nullptr );

            // The first unit can just be moved to the part symbol

            retSym = std::move( kiSymDef );


            retSym->SetUnitCount( aPart.m_Symbols.size(), true );


            retSym->SetName( escapedPartName );

            retSym->GetReferenceField().SetText( aPart.m_ComponentStem );

            retSym->GetValueField().SetText( aPart.m_Value.value_or( "" ) );

            addNewFieldToSymbol( PartNameFieldName, retSym )->SetText( aPart.m_Name );

            retSym->SetDescription( aPart.m_Description.value_or( "" ) );


            auto addFieldIfHasValue =

                    [&]( const wxString& name, const std::optional<std::string>& value )

                    {

                        if( value.has_value() )

                            addNewFieldToSymbol( name, retSym )->SetText( value.value() );

                    };


            addFieldIfHasValue( PartNumberFieldName,        aPart.m_Number );

            addFieldIfHasValue( PartVersionFieldName,       aPart.m_Version );

            addFieldIfHasValue( PartAcceptanceFieldName,    aPart.m_AcceptancePartName );


            setFootprintOnSymbol( retSym, aPart.m_Pcb_component,

                                  aPart.m_Pcb_alternate.value_or( "" ) );


            if( aPart.m_SpiceModel.has_value() )

            {

                wxString modelVal = wxString::Format( "model=\"%s\"", aPart.m_SpiceModel.value() );

                addNewFieldToSymbol( SIM_DEVICE_FIELD, retSym )->SetText( "SPICE" );

                addNewFieldToSymbol( SIM_PARAMS_FIELD, retSym )->SetText( modelVal );

            }


            // Load all part attributes, regardless of original cadstar type, to the symbol


            // @todo some cadstar part attributes have a "read-only" flag. We should load this

            // when KiCad supports read-only fields.


            for( auto& [fieldName, value] : aPart.m_UserAttributes )

                addNewFieldToSymbol( fieldName, retSym )->SetText( value );


            for( auto& [fieldName, attrValue] : aPart.m_SchAttributes )

                addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );


            for( auto& [fieldName, attrValue] : aPart.m_PcbAttributes )

                addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );


            for( auto& [fieldName, attrValue] : aPart.m_SchAndPcbAttributes )

                addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );


            for( auto& [fieldName, attrValue] : aPart.m_PartAttributes )

                addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );


            // Load all hidden pins onto the first unit of the symbol in KiCad

            // We load them in a spiral sequence, starting at the center of the symbol BBOX

            VECTOR2I symCenter = retSym->GetBodyBoundingBox( unit, 0, false, false ).GetCenter();

            symCenter.y = -symCenter.y; // need to invert the y coord for lib symbols.


            VECTOR2I delta( 0, 1 );

            VECTOR2I direction( 0, -1 );

            int spacing = schIUScale.MilsToIU( 50 ); // for now, place on a 50mil grid


            for( auto& [signalName, csPinVector] : aPart.m_HiddenPins )

            {

                for(  const CADSTAR_PART_PIN& csPin : csPinVector )

                {

                    std::unique_ptr<SCH_PIN> pin = std::make_unique<SCH_PIN>( retSym.get() );


                    long pinNum = csPin.m_Identifier;

                    pin->SetNumber( wxString::Format( "%ld", pinNum ) );

                    pin->SetName( signalName );

                    pin->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN );


                    pin->SetVisible( false );


                    // Generate the coordinate for the pin. We don't want overlapping pins

                    // and ideally close to the center of the symbol, so we load pins in a

                    // spiral sequence around the center

                    if( delta.x == delta.y

                        || ( delta.x < 0 && delta.x == -delta.y )

                        || ( delta.x > 0 && delta.x == 1 - delta.y ) )

                    {

                        // change direction

                        direction = { -direction.y, direction.x };

                    }


                    delta += direction;

                    VECTOR2I offset = delta * spacing;

                    pin->SetPosition( symCenter + offset );

                    pin->SetLength( 0 ); //CADSTAR Pins are just a point (have no length)

                    pin->SetShape( GRAPHIC_PINSHAPE::LINE );

                    pin->SetUnit( unit );

                    retSym->AddDrawItem( pin.release() );

                }

            }

        }

        else

        {                 // Source:   Dest:

            copySymbolItems( kiSymDef, retSym, unit, false /* aOverrideFields */ );

        }


        retSym->SetShowPinNames( aPart.m_PinsVisible );

        retSym->SetShowPinNumbers( aPart.m_PinsVisible );

    }


    return retSym;

}


void CADSTAR_SCH_ARCHIVE_LOADER::copySymbolItems( std::unique_ptr<LIB_SYMBOL>& aSourceSym,

                                                  std::unique_ptr<LIB_SYMBOL>& aDestSym,

                                                  int aDestUnit, bool aOverrideFields )

{

    // Ensure there are no items on the unit we want to load onto

    for( SCH_ITEM* item : aDestSym->GetUnitDrawItems( aDestUnit, 0 /*aConvert*/ ) )

        aDestSym->RemoveDrawItem( item );


    // Copy all draw items

    for( SCH_ITEM* newItem : aSourceSym->GetUnitDrawItems( 1, 0 /*aConvert*/ ) )

    {

        SCH_ITEM* itemCopy = static_cast<SCH_ITEM*>( newItem->Clone() );

        itemCopy->SetParent( aDestSym.get() );

        itemCopy->SetUnit( aDestUnit );

        aDestSym->AddDrawItem( itemCopy );

    }


    //Copy / override all fields

    if( aOverrideFields )

    {

        std::vector<SCH_FIELD*> fieldsToCopy;

        aSourceSym->GetFields( fieldsToCopy );


        for( SCH_FIELD* templateField : fieldsToCopy )

        {

            SCH_FIELD* appliedField = addNewFieldToSymbol( templateField->GetName(), aDestSym );

            templateField->Copy( appliedField );

        }

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::Load( SCHEMATIC* aSchematic, SCH_SHEET* aRootSheet )

{

    wxCHECK( aSchematic, /* void */ );


    if( m_progressReporter )

        m_progressReporter->SetNumPhases( 3 ); // (0) Read file, (1) Parse file, (2) Load file


    Parse();


    checkDesignLimits(); // Throws if error found


    // Assume the center at 0,0 since we are going to be translating the design afterwards anyway

    m_designCenter = { 0, 0 };


    m_schematic = aSchematic;

    m_rootSheet = aRootSheet;


    if( m_progressReporter )

    {

        m_progressReporter->BeginPhase( 2 );

        long numSteps = 11; // one step for each of below functions + one at the end of import


        // Step 4 is by far the longest - add granularity in reporting

        numSteps += Parts.PartDefinitions.size();


        m_progressReporter->SetMaxProgress( numSteps );

    }


    loadTextVariables(); // Load text variables right at the start to ensure bounding box

                         // calculations work correctly for text items

    checkPoint(); // Step 1

    loadSheets();

    checkPoint(); // Step 2

    loadHierarchicalSheetPins();

    checkPoint(); // Step 3

    loadPartsLibrary();

    checkPoint(); // Step 4, Subdivided into extra steps

    loadSchematicSymbolInstances();

    checkPoint(); // Step 5

    loadBusses();

    checkPoint(); // Step 6

    loadNets();

    checkPoint(); // Step 7

    loadFigures();

    checkPoint(); // Step 8

    loadTexts();

    checkPoint(); // Step 9

    loadDocumentationSymbols();

    checkPoint(); // Step 10


    if( Schematic.VariantHierarchy.Variants.size() > 0 )

    {

        m_reporter->Report( wxString::Format( _( "The CADSTAR design contains variants which has "

                                                 "no KiCad equivalent. Only the master variant "

                                                 "('%s') was loaded." ),

                                              Schematic.VariantHierarchy.Variants.at( "V0" ).Name ),

                            RPT_SEVERITY_WARNING );

    }


    if( Schematic.Groups.size() > 0 )

    {

        m_reporter->Report( _( "The CADSTAR design contains grouped items which has no KiCad "

                               "equivalent. Any grouped items have been ungrouped." ),

                            RPT_SEVERITY_WARNING );

    }


    if( Schematic.ReuseBlocks.size() > 0 )

    {

        m_reporter->Report( _( "The CADSTAR design contains re-use blocks which has no KiCad "

                               "equivalent. The re-use block information has been discarded during "

                               "the import." ),

                            RPT_SEVERITY_WARNING );

    }


    // For all sheets, center all elements and re calculate the page size:

    for( std::pair<LAYER_ID, SCH_SHEET*> sheetPair : m_sheetMap )

    {

        SCH_SHEET* sheet = sheetPair.second;


        // Calculate the new sheet size.

        BOX2I sheetBoundingBox;


        for( SCH_ITEM* item : sheet->GetScreen()->Items() )

        {

            BOX2I bbox;


            // Only use the visible fields of the symbols to calculate their bounding box

            // (hidden fields could be very long and artificially enlarge the sheet bounding box)

            if( item->Type() == SCH_SYMBOL_T )

            {

                SCH_SYMBOL* comp = static_cast<SCH_SYMBOL*>( item );

                bbox = comp->GetBodyAndPinsBoundingBox();


                for( const SCH_FIELD& field : comp->GetFields() )

                {

                    if( field.IsVisible() )

                        bbox.Merge( field.GetBoundingBox() );

                }

            }

            else if( item->Type() == SCH_TEXT_T )

            {

                SCH_TEXT* txtItem = static_cast<SCH_TEXT*>( item );

                wxString  txt = txtItem->GetText();


                if( txt.Contains( "${" ) )

                    continue; // We can't calculate bounding box of text items with variables

                else

                    bbox = txtItem->GetBoundingBox();

            }

            else

            {

                bbox = item->GetBoundingBox();

            }


            sheetBoundingBox.Merge( bbox );

        }


        // Find the screen grid of the original CADSTAR design

        int grid = Assignments.Grids.ScreenGrid.Param1;


        if( Assignments.Grids.ScreenGrid.Type == GRID_TYPE::FRACTIONALGRID )

            grid = grid / Assignments.Grids.ScreenGrid.Param2;

        else if( Assignments.Grids.ScreenGrid.Param2 > grid )

            grid = Assignments.Grids.ScreenGrid.Param2;


        grid = getKiCadLength( grid );


        auto roundToNearestGrid =

                [&]( int aNumber ) -> int

                {

                    int error = aNumber % grid;

                    int absError = sign( error ) * error;


                    if( absError > ( grid / 2 ) )

                        return aNumber + ( sign( error ) * grid ) - error;

                    else

                        return aNumber - error;

                };


        // When exporting to pdf, CADSTAR applies a margin of 3percent of the longest dimension (height

        // or width) to all 4 sides (top, bottom, left right). For the import, we are also rounding

        // the margin to the nearest grid, ensuring all items remain on the grid.

        VECTOR2I targetSheetSize = sheetBoundingBox.GetSize();

        int      longestSide = std::max( targetSheetSize.x, targetSheetSize.y );

        int      margin = ( (double) longestSide * 0.03 );

        margin = roundToNearestGrid( margin );

        targetSheetSize += margin * 2;


        // Update page size always

        PAGE_INFO pageInfo = sheet->GetScreen()->GetPageSettings();

        pageInfo.SetWidthMils( schIUScale.IUToMils( targetSheetSize.x ) );

        pageInfo.SetHeightMils( schIUScale.IUToMils( targetSheetSize.y ) );


        // Set the new sheet size.

        sheet->GetScreen()->SetPageSettings( pageInfo );


        VECTOR2I pageSizeIU = sheet->GetScreen()->GetPageSettings().GetSizeIU( schIUScale.IU_PER_MILS );

        VECTOR2I sheetcentre( pageSizeIU.x / 2, pageSizeIU.y / 2 );

        VECTOR2I itemsCentre = sheetBoundingBox.Centre();


        // round the translation to nearest point on the grid

        VECTOR2I translation = sheetcentre - itemsCentre;

        translation.x = roundToNearestGrid( translation.x );

        translation.y = roundToNearestGrid( translation.y );


        // Translate the items.

        std::vector<SCH_ITEM*> allItems;


        std::copy( sheet->GetScreen()->Items().begin(), sheet->GetScreen()->Items().end(),

                   std::back_inserter( allItems ) );


        for( SCH_ITEM* item : allItems )

        {

            item->Move( translation );

            item->ClearFlags();

            sheet->GetScreen()->Update( item );

        }

    }


    checkPoint();


    m_reporter->Report( _( "CADSTAR fonts are different to the ones in KiCad. This will likely "

                           "result in alignment issues. Please review the imported text elements "

                           "carefully and correct manually if required." ),

                        RPT_SEVERITY_WARNING );


    m_reporter->Report( _( "The CADSTAR design has been imported successfully.\n"

                           "Please review the import errors and warnings (if any)." ) );

}


void CADSTAR_SCH_ARCHIVE_LOADER::checkDesignLimits()

{

    LONGPOINT designLimit = Assignments.Settings.DesignLimit;


    //Note: can't use getKiCadPoint() due VECTOR2I being int - need long long to make the check

    long long designSizeXkicad = (long long) designLimit.x / KiCadUnitDivider;

    long long designSizeYkicad = (long long) designLimit.y / KiCadUnitDivider;


    // Max size limited by the positive dimension of VECTOR2I (which is an int)

    constexpr long long maxDesignSizekicad = std::numeric_limits<int>::max();


    if( designSizeXkicad > maxDesignSizekicad || designSizeYkicad > maxDesignSizekicad )

    {

        THROW_IO_ERROR( wxString::Format(

                _( "The design is too large and cannot be imported into KiCad. \n"

                   "Please reduce the maximum design size in CADSTAR by navigating to: \n"

                   "Design Tab -> Properties -> Design Options -> Maximum Design Size. \n"

                   "Current Design size: %.2f, %.2f millimeters. \n" //format:allow

                   "Maximum permitted design size: %.2f, %.2f millimeters.\n" ), //format:allow

                (double) designSizeXkicad / SCH_IU_PER_MM,

                (double) designSizeYkicad / SCH_IU_PER_MM,

                (double) maxDesignSizekicad / SCH_IU_PER_MM,

                (double) maxDesignSizekicad / SCH_IU_PER_MM ) );

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadSheets()

{

    const std::vector<LAYER_ID>& orphanSheets = findOrphanSheets();

    SCH_SHEET_PATH               rootPath;

    rootPath.push_back( m_rootSheet );

    rootPath.SetPageNumber( wxT( "1" ) );


    if( orphanSheets.size() > 1 )

    {

        int x = 1;

        int y = 1;


        for( LAYER_ID sheetID : orphanSheets )

        {

            VECTOR2I pos( x * schIUScale.MilsToIU( 1000 ), y * schIUScale.MilsToIU( 1000 ) );

            VECTOR2I siz( schIUScale.MilsToIU( 1000 ), schIUScale.MilsToIU( 1000 ) );


            loadSheetAndChildSheets( sheetID, pos, siz, rootPath );


            x += 2;


            if( x > 10 ) // start next row

            {

                x = 1;

                y += 2;

            }

        }

    }

    else if( orphanSheets.size() > 0 )

    {

        LAYER_ID rootSheetID = orphanSheets.at( 0 );


        wxFileName loadedFilePath = wxFileName( Filename );


        std::string filename = wxString::Format( "%s_%02d", loadedFilePath.GetName(),

                                                 getSheetNumber( rootSheetID ) )

                                       .ToStdString();

        ReplaceIllegalFileNameChars( &filename );

        filename += wxT( "." ) + wxString( FILEEXT::KiCadSchematicFileExtension );


        wxFileName fn( m_schematic->Project().GetProjectPath() + filename );

        m_rootSheet->GetScreen()->SetFileName( fn.GetFullPath() );


        m_sheetMap.insert( { rootSheetID, m_rootSheet } );

        loadChildSheets( rootSheetID, rootPath );

    }

    else if( Header.Format.Type == "SYMBOL" )

    {

        THROW_IO_ERROR( _( "The selected file is a CADSTAR symbol library. It does not contain a "

                           "schematic design so cannot be imported/opened in this way." ) );

    }

    else

    {

        THROW_IO_ERROR( _( "The CADSTAR schematic might be corrupt: there is no root sheet." ) );

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadHierarchicalSheetPins()

{

    for( std::pair<BLOCK_ID, BLOCK> blockPair : Schematic.Blocks )

    {

        BLOCK&   block   = blockPair.second;

        LAYER_ID sheetID = "";


        if( block.Type == BLOCK::TYPE::PARENT )

            sheetID = block.LayerID;

        else if( block.Type == BLOCK::TYPE::CHILD )

            sheetID = block.AssocLayerID;

        else

            continue;


        if( m_sheetMap.find( sheetID ) != m_sheetMap.end() )

        {

            SCH_SHEET* sheet = m_sheetMap.at( sheetID );


            for( std::pair<TERMINAL_ID, TERMINAL> termPair : block.Terminals )

            {

                TERMINAL term = termPair.second;

                wxString name = "YOU SHOULDN'T SEE THIS TEXT. THIS IS A BUG.";


                SCH_HIERLABEL* sheetPin = nullptr;


                if( block.Type == BLOCK::TYPE::PARENT )

                    sheetPin = new SCH_HIERLABEL();

                else if( block.Type == BLOCK::TYPE::CHILD )

                    sheetPin = new SCH_SHEET_PIN( sheet );


                sheetPin->SetText( name );

                sheetPin->SetShape( LABEL_FLAG_SHAPE::L_UNSPECIFIED );

                sheetPin->SetSpinStyle( getSpinStyle( term.OrientAngle, false ) );

                sheetPin->SetPosition( getKiCadPoint( term.Position ) );


                if( sheetPin->Type() == SCH_SHEET_PIN_T )

                    sheet->AddPin( (SCH_SHEET_PIN*) sheetPin );

                else

                    sheet->GetScreen()->Append( sheetPin );


                BLOCK_PIN_ID blockPinID = std::make_pair( block.ID, term.ID );

                m_sheetPinMap.insert( { blockPinID, sheetPin } );

            }

        }

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadPartsLibrary()

{

    for( std::pair<PART_ID, PART> partPair : Parts.PartDefinitions )

    {

        PART_ID partID = partPair.first;

        PART    part = partPair.second;


        wxString    escapedPartName = EscapeString( part.Name, CTX_LIBID );

        LIB_SYMBOL* kiSym = new LIB_SYMBOL( escapedPartName );


        kiSym->SetUnitCount( part.Definition.GateSymbols.size() );

        bool ok = true;


        for( std::pair<GATE_ID, PART::DEFINITION::GATE> gatePair : part.Definition.GateSymbols )

        {

            GATE_ID                gateID   = gatePair.first;

            PART::DEFINITION::GATE gate     = gatePair.second;

            SYMDEF_ID              symbolID = getSymDefFromName( gate.Name, gate.Alternate );


            if( symbolID.IsEmpty() )

            {

                m_reporter->Report( wxString::Format( _( "Part definition '%s' references symbol "

                                                         "'%s' (alternate '%s') which could not be "

                                                         "found in the symbol library. The part has "

                                                         "not been loaded into the KiCad library." ),

                                                      part.Name,

                                                      gate.Name,

                                                      gate.Alternate ),

                                    RPT_SEVERITY_WARNING);


                ok = false;

                break;

            }


            m_partSymbolsMap.insert( { { partID, gateID }, symbolID } );

            loadSymbolGateAndPartFields( symbolID, part, gateID, kiSym );

        }


        if( ok && part.Definition.GateSymbols.size() != 0 )

        {

            m_loadedSymbols.push_back( kiSym );

        }

        else

        {

            if( part.Definition.GateSymbols.size() == 0 )

            {

                m_reporter->Report( wxString::Format( _( "Part definition '%s' has an incomplete "

                                                         "definition (no symbol definitions are "

                                                         "associated with it). The part has not "

                                                         "been loaded into the KiCad library." ),

                                                      part.Name ),

                                    RPT_SEVERITY_WARNING );

            }


            // Don't save in the library, but still keep it cached as some of the units might have

            // been loaded correctly (saving us time later on), plus the part definition contains

            // the part name, which is important to load

        }


        m_partMap.insert( { partID, kiSym } );


        checkPoint();

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadSchematicSymbolInstances()

{

    for( std::pair<SYMBOL_ID, SYMBOL> symPair : Schematic.Symbols )

    {

        SYMBOL sym = symPair.second;


        if( !sym.VariantID.empty() && sym.VariantParentSymbolID != sym.ID )

            continue; // Only load master Variant


        if( sym.IsComponent )

        {

            if( m_partMap.find( sym.PartRef.RefID ) == m_partMap.end() )

            {

                m_reporter->Report( wxString::Format( _( "Symbol '%s' references part '%s' which "

                                                         "could not be found in the library. The "

                                                         "symbol was not loaded" ),

                                                      sym.ComponentRef.Designator,

                                                      sym.PartRef.RefID ),

                                    RPT_SEVERITY_ERROR );


                continue;

            }


            if( sym.GateID.IsEmpty() )

                sym.GateID = wxT( "A" ); // Assume Gate "A" if unspecified


            PART_GATE_ID partSymbolID = { sym.PartRef.RefID, sym.GateID };

            LIB_SYMBOL*  kiSym = m_partMap.at( sym.PartRef.RefID );

            bool         copy = false;


            // The symbol definition in the part either does not exist for this gate number

            // or is different to the symbol instance. We need to reload the gate for this

            // symbol

            if( m_partSymbolsMap.find( partSymbolID ) == m_partSymbolsMap.end()

                || m_partSymbolsMap.at( partSymbolID ) != sym.SymdefID )

            {

                kiSym = new LIB_SYMBOL( *kiSym ); // Make a copy

                copy = true;

                const PART& part = Parts.PartDefinitions.at( sym.PartRef.RefID );

                loadSymbolGateAndPartFields( sym.SymdefID, part, sym.GateID, kiSym );

            }


            LIB_SYMBOL* scaledPart = getScaledLibPart( kiSym, sym.ScaleRatioNumerator,

                                                       sym.ScaleRatioDenominator );


            EDA_ANGLE   symOrient = ANGLE_0;

            SCH_SYMBOL* symbol = loadSchematicSymbol( sym, *scaledPart, symOrient );


            delete scaledPart;


            if( copy )

                delete kiSym;


            SCH_FIELD* refField = symbol->GetField( FIELD_T::REFERENCE );


            sym.ComponentRef.Designator.Replace( wxT( "\n" ), wxT( "\\n" ) );

            sym.ComponentRef.Designator.Replace( wxT( "\r" ), wxT( "\\r" ) );

            sym.ComponentRef.Designator.Replace( wxT( "\t" ), wxT( "\\t" ) );

            sym.ComponentRef.Designator.Replace( wxT( " " ), wxT( "_" ) );


            refField->SetText( sym.ComponentRef.Designator );

            loadSymbolFieldAttribute( sym.ComponentRef.AttrLoc, symOrient, sym.Mirror, refField );


            if( sym.HasPartRef )

            {

                SCH_FIELD* partField = symbol->GetField( PartNameFieldName );


                if( !partField )

                    partField = symbol->AddField( SCH_FIELD( symbol, FIELD_T::USER, PartNameFieldName ) );


                wxASSERT( partField->GetName() == PartNameFieldName );


                wxString partname = getPart( sym.PartRef.RefID ).Name;

                partname.Replace( wxT( "\n" ), wxT( "\\n" ) );

                partname.Replace( wxT( "\r" ), wxT( "\\r" ) );

                partname.Replace( wxT( "\t" ), wxT( "\\t" ) );

                partField->SetText( partname );


                loadSymbolFieldAttribute( sym.PartRef.AttrLoc, symOrient, sym.Mirror, partField );


                partField->SetVisible( SymbolPartNameColor.IsVisible );

            }


            for( auto& attr : sym.AttributeValues )

            {

                ATTRIBUTE_VALUE attrVal = attr.second;


                if( attrVal.HasLocation )

                {

                    wxString attrName = getAttributeName( attrVal.AttributeID );

                    SCH_FIELD* attrField = symbol->GetField( attrName );


                    if( !attrField )

                        attrField = symbol->AddField( SCH_FIELD( symbol, FIELD_T::USER, attrName ) );


                    wxASSERT( attrField->GetName() == attrName );


                    attrVal.Value.Replace( wxT( "\n" ), wxT( "\\n" ) );

                    attrVal.Value.Replace( wxT( "\r" ), wxT( "\\r" ) );

                    attrVal.Value.Replace( wxT( "\t" ), wxT( "\\t" ) );

                    attrField->SetText( attrVal.Value );


                    loadSymbolFieldAttribute( attrVal.AttributeLocation, symOrient, sym.Mirror,

                                              attrField );

                    attrField->SetVisible( isAttributeVisible( attrVal.AttributeID ) );

                }

            }

        }

        else if( sym.IsSymbolVariant )

        {

            if( Library.SymbolDefinitions.find( sym.SymdefID ) == Library.SymbolDefinitions.end() )

            {

                THROW_IO_ERROR( wxString::Format( _( "Symbol ID '%s' references library symbol "

                                                     "'%s' which could not be found in the "

                                                     "library. Did you export all items of the "

                                                     "design?" ),

                                                  sym.ID,

                                                  sym.PartRef.RefID ) );

            }


            SYMDEF_SCM libSymDef = Library.SymbolDefinitions.at( sym.SymdefID );


            if( libSymDef.Terminals.size() != 1 )

            {

                THROW_IO_ERROR( wxString::Format( _( "Symbol ID '%s' is a signal reference or "

                                                     "global signal but it has too many pins. The "

                                                     "expected number of pins is 1 but %d were "

                                                     "found." ),

                                                  sym.ID,

                                                  libSymDef.Terminals.size() ) );

            }


            if( sym.SymbolVariant.Type == SYMBOLVARIANT::TYPE::GLOBALSIGNAL )

            {

                SYMDEF_ID symID  = sym.SymdefID;

                LIB_SYMBOL* kiPart = nullptr;


                // In CADSTAR "GlobalSignal" is a special type of symbol which defines

                // a Power Symbol. The "Alternate" name defines the default net name of

                // the power symbol but this can be overridden in the design itself.

                wxString libraryNetName = Library.SymbolDefinitions.at( symID ).Alternate;


                // Name of the net that the symbol instance in CADSTAR refers to:

                wxString symbolInstanceNetName = sym.SymbolVariant.Reference;

                symbolInstanceNetName = EscapeString( symbolInstanceNetName, CTX_LIBID );


                // Name of the symbol we will use for saving the part in KiCad

                // Note: In CADSTAR all power symbols will start have the reference name be

                // "GLOBALSIGNAL" followed by the default net name, so it makes sense to save

                // the symbol in KiCad as the default net name as well.

                wxString libPartName = libraryNetName;


                // In CADSTAR power symbol instances can refer to a different net to that defined

                // in the library. This causes problems in KiCad v6 as it breaks connectivity when

                // the user decides to update all symbols from library. We handle this by creating

                // individual versions of the power symbol for each net name.

                if( libPartName != symbolInstanceNetName )

                {

                    libPartName += wxT( " (" ) + symbolInstanceNetName + wxT( ")" );

                }


                if( m_powerSymLibMap.find( libPartName ) == m_powerSymLibMap.end() )

                {

                    const LIB_SYMBOL* templatePart = loadSymdef( symID );

                    wxCHECK( templatePart, /*void*/ );


                    kiPart = new LIB_SYMBOL( *templatePart );

                    kiPart->SetGlobalPower();

                    kiPart->SetName( libPartName );

                    kiPart->GetValueField().SetText( symbolInstanceNetName );

                    kiPart->SetShowPinNames( false );

                    kiPart->SetShowPinNumbers( false );


                    std::vector<SCH_PIN*> pins = kiPart->GetPins();

                    wxCHECK( pins.size() == 1, /*void*/ );


                    pins.at( 0 )->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN );

                    pins.at( 0 )->SetName( symbolInstanceNetName );


                    if( libSymDef.TextLocations.find( SIGNALNAME_ORIGIN_ATTRID )

                        != libSymDef.TextLocations.end() )

                    {

                        TEXT_LOCATION& txtLoc =

                                libSymDef.TextLocations.at( SIGNALNAME_ORIGIN_ATTRID );


                        VECTOR2I valPos = getKiCadLibraryPoint( txtLoc.Position, libSymDef.Origin );


                        kiPart->GetValueField().SetPosition( valPos );

                        kiPart->GetValueField().SetVisible( true );

                    }

                    else

                    {

                        kiPart->GetValueField().SetVisible( false );

                    }


                    kiPart->GetReferenceField().SetText( "#PWR" );

                    kiPart->GetReferenceField().SetVisible( false );

                    m_loadedSymbols.push_back( kiPart );

                    m_powerSymLibMap.insert( { libPartName, kiPart } );

                }

                else

                {

                    kiPart = m_powerSymLibMap.at( libPartName );

                    wxASSERT( kiPart->GetValueField().GetText() == symbolInstanceNetName );

                }


                LIB_SYMBOL* scaledPart = getScaledLibPart( kiPart, sym.ScaleRatioNumerator,

                                                           sym.ScaleRatioDenominator );


                EDA_ANGLE   returnedOrient = ANGLE_0;

                SCH_SYMBOL* symbol = loadSchematicSymbol( sym, *scaledPart, returnedOrient );

                m_powerSymMap.insert( { sym.ID, symbol } );


                delete scaledPart;

            }

            else if( sym.SymbolVariant.Type == SYMBOLVARIANT::TYPE::SIGNALREF )

            {

                // There should only be one pin and we'll use that to set the position

                TERMINAL& symbolTerminal = libSymDef.Terminals.begin()->second;

                VECTOR2I  terminalPosOffset = symbolTerminal.Position - libSymDef.Origin;

                EDA_ANGLE rotate = getAngle( sym.OrientAngle );


                if( sym.Mirror )

                    rotate += ANGLE_180;


                RotatePoint( terminalPosOffset, -rotate );


                SCH_GLOBALLABEL* netLabel = new SCH_GLOBALLABEL;

                netLabel->SetPosition( getKiCadPoint( (VECTOR2I)sym.Origin + terminalPosOffset ) );

                netLabel->SetText( "***UNKNOWN NET****" ); // This should be later updated when we load the netlist

                netLabel->SetTextSize( VECTOR2I( schIUScale.MilsToIU( 50 ), schIUScale.MilsToIU( 50 ) ) );


                SYMDEF_SCM symbolDef = Library.SymbolDefinitions.at( sym.SymdefID );


                if( symbolDef.TextLocations.count( LINK_ORIGIN_ATTRID ) )

                {

                    TEXT_LOCATION linkOrigin = symbolDef.TextLocations.at( LINK_ORIGIN_ATTRID );

                    applyTextSettings( netLabel, linkOrigin.TextCodeID, linkOrigin.Alignment,

                                       linkOrigin.Justification );

                }


                netLabel->SetSpinStyle( getSpinStyle( sym.OrientAngle, sym.Mirror ) );


                if( libSymDef.Alternate.Lower().Contains( "in" ) )

                    netLabel->SetShape( LABEL_FLAG_SHAPE::L_INPUT );

                else if( libSymDef.Alternate.Lower().Contains( "bi" ) )

                    netLabel->SetShape( LABEL_FLAG_SHAPE::L_BIDI );

                else if( libSymDef.Alternate.Lower().Contains( "out" ) )

                    netLabel->SetShape( LABEL_FLAG_SHAPE::L_OUTPUT );

                else

                    netLabel->SetShape( LABEL_FLAG_SHAPE::L_UNSPECIFIED );


                SCH_SCREEN* screen = m_sheetMap.at( sym.LayerID )->GetScreen();


                // autoplace intersheet refs

                netLabel->AutoplaceFields( screen, AUTOPLACE_AUTO );


                screen->Append( netLabel );

                m_globalLabelsMap.insert( { sym.ID, netLabel } );

            }

            else

            {

                wxASSERT_MSG( false, "Unknown Symbol Variant." );

            }

        }

        else

        {

            m_reporter->Report( wxString::Format( _( "Symbol ID '%s' is of an unknown type. It is "

                                                     "neither a symbol or a net power / symbol. "

                                                     "The symbol was not loaded." ),

                                                  sym.ID ),

                                RPT_SEVERITY_ERROR );

        }


        if( sym.ScaleRatioDenominator != 1 || sym.ScaleRatioNumerator != 1 )

        {

            wxString symbolName = sym.ComponentRef.Designator;


            if( symbolName.empty() )

                symbolName = wxString::Format( "ID: %s", sym.ID );

            else

                symbolName += sym.GateID;


            m_reporter->Report( wxString::Format( _( "Symbol '%s' is scaled in the original "

                                                     "CADSTAR schematic but this is not supported "

                                                     "in KiCad. When the symbol is reloaded from "

                                                     "the library, it will revert to the original "

                                                     "1:1 scale." ),

                                                  symbolName,

                                                  sym.PartRef.RefID ),

                                RPT_SEVERITY_ERROR );

        }

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadBusses()

{

    for( std::pair<BUS_ID, BUS> busPair : Schematic.Buses )

    {

        BUS    bus     = busPair.second;

        bool   firstPt = true;

        VERTEX last;


        if( bus.LayerID != wxT( "NO_SHEET" ) )

        {

            SCH_SCREEN*                screen     = m_sheetMap.at( bus.LayerID )->GetScreen();

            std::shared_ptr<BUS_ALIAS> kiBusAlias = std::make_shared<BUS_ALIAS>();


            kiBusAlias->SetName( bus.Name );

            kiBusAlias->SetParent( screen );

            screen->AddBusAlias( kiBusAlias );

            m_busesMap.insert( { bus.ID, kiBusAlias } );


            SCH_LABEL* label = new SCH_LABEL();


            wxString busname = HandleTextOverbar( bus.Name );


            label->SetText( wxT( "{" ) + busname + wxT( "}" ) );

            label->SetVisible( true );

            screen->Append( label );


            SHAPE_LINE_CHAIN busLineChain; // to compute nearest segment to bus label


            for( const VERTEX& cur : bus.Shape.Vertices )

            {

                busLineChain.Append( getKiCadPoint( cur.End ) );


                if( firstPt )

                {

                    last    = cur;

                    firstPt = false;


                    if( !bus.HasBusLabel )

                    {

                        // Add a bus label on the starting point if the original CADSTAR design

                        // does not have an explicit label

                        label->SetPosition( getKiCadPoint( last.End ) );

                    }


                    continue;

                }


                SCH_LINE* kiBus = new SCH_LINE();


                kiBus->SetStartPoint( getKiCadPoint( last.End ) );

                kiBus->SetEndPoint( getKiCadPoint( cur.End ) );

                kiBus->SetLayer( LAYER_BUS );

                kiBus->SetLineWidth( getLineThickness( bus.LineCodeID ) );

                screen->Append( kiBus );


                last = cur;

            }


            if( bus.HasBusLabel )

            {

                //lets find the closest point in the busline to the label

                VECTOR2I busLabelLoc = getKiCadPoint( bus.BusLabel.Position );

                VECTOR2I nearestPt = busLineChain.NearestPoint( busLabelLoc );


                label->SetPosition( nearestPt );


                applyTextSettings( label, bus.BusLabel.TextCodeID, bus.BusLabel.Alignment,

                                   bus.BusLabel.Justification );


                // Re-set bus name as it might have been "double-escaped" after applyTextSettings

                label->SetText( wxT( "{" ) + busname + wxT( "}" ) );


                // Note orientation of the bus label will be determined in loadNets

                // (the position of the wire will determine how best to place the bus label)

            }

        }

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadNets()

{

    for( std::pair<NET_ID, NET_SCH> netPair : Schematic.Nets )

    {

        NET_SCH                             net     = netPair.second;

        wxString                            netName = net.Name;

        std::map<NETELEMENT_ID, SCH_LABEL*> netlabels;


        if( netName.IsEmpty() )

            netName = wxString::Format( "$%ld", net.SignalNum );


        netName = HandleTextOverbar( netName );


        for( std::pair<NETELEMENT_ID, NET_SCH::SYM_TERM> terminalPair : net.Terminals )

        {

            NET_SCH::SYM_TERM netTerm = terminalPair.second;


            if( m_powerSymMap.find( netTerm.SymbolID ) != m_powerSymMap.end() )

            {

                SCH_FIELD* val = m_powerSymMap.at( netTerm.SymbolID )->GetField( FIELD_T::VALUE );

                val->SetText( netName );

                val->SetBold( false );

                val->SetVisible( false );


                if( netTerm.HasNetLabel )

                {

                    val->SetVisible( true );

                    val->SetPosition( getKiCadPoint( netTerm.NetLabel.Position ) );


                    applyTextSettings( val, netTerm.NetLabel.TextCodeID, netTerm.NetLabel.Alignment,

                                       netTerm.NetLabel.Justification, netTerm.NetLabel.OrientAngle,

                                       netTerm.NetLabel.Mirror  );

                }

            }

            else if( m_globalLabelsMap.find( netTerm.SymbolID ) != m_globalLabelsMap.end() )

            {

                m_globalLabelsMap.at( netTerm.SymbolID )->SetText( netName );


                LAYER_ID sheet = Schematic.Symbols.at( netTerm.SymbolID ).LayerID;


                if( m_sheetMap.count( sheet ) )

                {

                    SCH_SCREEN* screen = m_sheetMap.at( sheet )->GetScreen();


                    // autoplace intersheet refs again since we've changed the name

                    m_globalLabelsMap.at( netTerm.SymbolID )->AutoplaceFields( screen, AUTOPLACE_AUTO );

                }

            }

            else if( !net.Name.IsEmpty() && Schematic.Symbols.count( netTerm.SymbolID )

                     && netTerm.HasNetLabel )

            {

                // This is a named net that connects to a schematic symbol pin - we need to put a label

                SCH_LABEL* label = new SCH_LABEL();

                label->SetText( netName );


                POINT pinLocation = getLocationOfNetElement( net, netTerm.ID );

                label->SetPosition( getKiCadPoint( pinLocation ) );

                label->SetVisible( true );


                applyTextSettings( label, netTerm.NetLabel.TextCodeID, netTerm.NetLabel.Alignment,

                                   netTerm.NetLabel.Justification );


                netlabels.insert( { netTerm.ID, label } );


                LAYER_ID sheet = Schematic.Symbols.at( netTerm.SymbolID ).LayerID;

                m_sheetMap.at( sheet )->GetScreen()->Append( label );

            }

        }


        auto getHierarchicalLabel =

                [&]( const NETELEMENT_ID& aNode ) -> SCH_HIERLABEL*

                {

                    if( aNode.Contains( "BLKT" ) )

                    {

                        NET_SCH::BLOCK_TERM blockTerm = net.BlockTerminals.at( aNode );

                        BLOCK_PIN_ID blockPinID = std::make_pair( blockTerm.BlockID,

                                                                  blockTerm.TerminalID );


                        if( m_sheetPinMap.find( blockPinID ) != m_sheetPinMap.end() )

                            return m_sheetPinMap.at( blockPinID );

                    }


                    return nullptr;

                };


        //Add net name to all hierarchical pins (block terminals in CADSTAR)

        for( std::pair<NETELEMENT_ID, NET_SCH::BLOCK_TERM> blockPair : net.BlockTerminals )

        {

            SCH_HIERLABEL* label = getHierarchicalLabel( blockPair.first );


            if( label )

                label->SetText( netName );

        }


        // Load all bus entries and add net label if required

        for( std::pair<NETELEMENT_ID, NET_SCH::BUS_TERM> busPair : net.BusTerminals )

        {

            NET_SCH::BUS_TERM busTerm = busPair.second;

            BUS               bus     = Schematic.Buses.at( busTerm.BusID );


            if( !alg::contains( m_busesMap.at( bus.ID )->Members(), netName ) )

                m_busesMap.at( bus.ID )->Members().emplace_back( netName );


            SCH_BUS_WIRE_ENTRY* busEntry =

                    new SCH_BUS_WIRE_ENTRY( getKiCadPoint( busTerm.FirstPoint ), false );


            VECTOR2I size =

                    getKiCadPoint( busTerm.SecondPoint ) - getKiCadPoint( busTerm.FirstPoint );

            busEntry->SetSize( VECTOR2I( size.x, size.y ) );


            m_sheetMap.at( bus.LayerID )->GetScreen()->Append( busEntry );


            // Always add a label at bus terminals to ensure connectivity.

            // If the original design does not have a label, just make it very small

            // to keep connectivity but make the design look visually similar to

            // the original.

            SCH_LABEL* label = new SCH_LABEL();

            label->SetText( netName );

            label->SetPosition( getKiCadPoint( busTerm.SecondPoint ) );

            label->SetVisible( true );


            if( busTerm.HasNetLabel )

            {

                applyTextSettings( label, busTerm.NetLabel.TextCodeID, busTerm.NetLabel.Alignment,

                                   busTerm.NetLabel.Justification );

            }

            else

            {

                label->SetTextSize( VECTOR2I( SMALL_LABEL_SIZE, SMALL_LABEL_SIZE ) );

            }


            netlabels.insert( { busTerm.ID, label } );

            m_sheetMap.at( bus.LayerID )->GetScreen()->Append( label );

        }


        for( std::pair<NETELEMENT_ID, NET_SCH::DANGLER> danglerPair : net.Danglers )

        {

            NET_SCH::DANGLER dangler = danglerPair.second;


            SCH_LABEL* label = new SCH_LABEL();

            label->SetPosition( getKiCadPoint( dangler.Position ) );

            label->SetVisible( true );


            if( dangler.HasNetLabel )

            {

                applyTextSettings( label, dangler.NetLabel.TextCodeID, dangler.NetLabel.Alignment,

                                   dangler.NetLabel.Justification );

            }


            label->SetText( netName ); // set text after applying settings to avoid double-escaping

            netlabels.insert( { dangler.ID, label } );


            m_sheetMap.at( dangler.LayerID )->GetScreen()->Append( label );

        }


        for( NET_SCH::CONNECTION_SCH conn : net.Connections )

        {

            if( conn.LayerID == wxT( "NO_SHEET" ) )

                continue; // No point loading virtual connections. KiCad handles that internally


            POINT start = getLocationOfNetElement( net, conn.StartNode );

            POINT end = getLocationOfNetElement( net, conn.EndNode );


            if( start.x == UNDEFINED_VALUE || end.x == UNDEFINED_VALUE )

                continue;


            // Connections in CADSTAR are always implied between symbols even if the route

            // doesn't start and end exactly at the connection points

            if( conn.Path.size() < 1 || conn.Path.front() != start )

                conn.Path.insert( conn.Path.begin(), start );


            if( conn.Path.size() < 2 || conn.Path.back() != end )

                conn.Path.push_back( end );


            bool      firstPt  = true;

            bool      secondPt = false;

            VECTOR2I  last;

            SCH_LINE* wire = nullptr;


            SHAPE_LINE_CHAIN wireChain; // Create a temp. line chain representing the connection


            for( const POINT& pt : conn.Path )

                wireChain.Append( getKiCadPoint( pt ) );


            // AUTO-FIX SHEET PINS

            //--------------------

            // KiCad constrains the sheet pin on the edge of the sheet object whereas in

            // CADSTAR it can be anywhere. Let's find the intersection of the wires with the sheet

            // and place the hierarchical

            std::vector<NETELEMENT_ID> nodes;

            nodes.push_back( conn.StartNode );

            nodes.push_back( conn.EndNode );


            for( const NETELEMENT_ID& node : nodes )

            {

                SCH_HIERLABEL* sheetPin = getHierarchicalLabel( node );


                if( sheetPin )

                {

                    if( sheetPin->Type() == SCH_SHEET_PIN_T

                            && SCH_SHEET::ClassOf( sheetPin->GetParent() ) )

                    {

                        SCH_SHEET* parentSheet   = static_cast<SCH_SHEET*>( sheetPin->GetParent() );

                        VECTOR2I   sheetSize = parentSheet->GetSize();

                        VECTOR2I   sheetPosition = parentSheet->GetPosition();


                        int leftSide  = sheetPosition.x;

                        int rightSide = sheetPosition.x + sheetSize.x;

                        int topSide   = sheetPosition.y;

                        int botSide   = sheetPosition.y + sheetSize.y;


                        SHAPE_LINE_CHAIN sheetEdge;


                        sheetEdge.Append( leftSide, topSide );

                        sheetEdge.Append( rightSide, topSide );

                        sheetEdge.Append( rightSide, botSide );

                        sheetEdge.Append( leftSide, botSide );

                        sheetEdge.Append( leftSide, topSide );


                        SHAPE_LINE_CHAIN::INTERSECTIONS wireToSheetIntersects;


                        if( !wireChain.Intersect( sheetEdge, wireToSheetIntersects ) )

                        {

                            // The block terminal is outside the block shape in the original

                            // CADSTAR design. Since KiCad's Sheet Pin will already be constrained

                            // on the edge, we will simply join to it with a straight line.

                            if( node == conn.StartNode )

                                wireChain = wireChain.Reverse();


                            wireChain.Append( sheetPin->GetPosition() );


                            if( node == conn.StartNode )

                                wireChain = wireChain.Reverse();

                        }

                        else

                        {

                            // The block terminal is either inside or on the shape edge. Lets use

                            // the first intersection point.

                            VECTOR2I intsctPt   = wireToSheetIntersects.at( 0 ).p;

                            int      intsctIndx = wireChain.FindSegment( intsctPt );

                            wxASSERT_MSG( intsctIndx != -1, "Can't find intersecting segment" );


                            if( node == conn.StartNode )

                                wireChain.Replace( 0, intsctIndx, intsctPt );

                            else

                                wireChain.Replace( intsctIndx + 1, /*end index*/ -1, intsctPt );


                            sheetPin->SetPosition( intsctPt );

                        }

                    }

                }

            }


            auto fixNetLabelsAndSheetPins =

                    [&]( const EDA_ANGLE& aWireAngle, NETELEMENT_ID& aNetEleID )

                    {

                        SPIN_STYLE spin = getSpinStyle( aWireAngle );


                        if( netlabels.find( aNetEleID ) != netlabels.end() )

                            netlabels.at( aNetEleID )->SetSpinStyle( spin.MirrorY() );


                        SCH_HIERLABEL* sheetPin = getHierarchicalLabel( aNetEleID );


                        if( sheetPin )

                            sheetPin->SetSpinStyle( spin.MirrorX() );

                    };


            // Now we can load the wires and fix the label orientations

            for( const VECTOR2I& pt : wireChain.CPoints() )

            {

                if( firstPt )

                {

                    last     = pt;

                    firstPt  = false;

                    secondPt = true;

                    continue;

                }


                if( secondPt )

                {

                    secondPt = false;


                    EDA_ANGLE wireAngle( last - pt );

                    fixNetLabelsAndSheetPins( wireAngle, conn.StartNode );

                }


                wire = new SCH_LINE();


                wire->SetStartPoint( last );

                wire->SetEndPoint( pt );

                wire->SetLayer( LAYER_WIRE );


                if( !conn.ConnectionLineCode.IsEmpty() )

                    wire->SetLineWidth( getLineThickness( conn.ConnectionLineCode ) );


                last = pt;


                m_sheetMap.at( conn.LayerID )->GetScreen()->Append( wire );

            }


            //Fix labels on the end wire

            if( wire )

            {

                EDA_ANGLE wireAngle( wire->GetEndPoint() - wire->GetStartPoint() );

                fixNetLabelsAndSheetPins( wireAngle, conn.EndNode );

            }

        }


        for( std::pair<NETELEMENT_ID, NET_SCH::JUNCTION_SCH> juncPair : net.Junctions )

        {

            NET_SCH::JUNCTION_SCH junc = juncPair.second;


            SCH_JUNCTION* kiJunc = new SCH_JUNCTION();


            kiJunc->SetPosition( getKiCadPoint( junc.Location ) );

            m_sheetMap.at( junc.LayerID )->GetScreen()->Append( kiJunc );


            if( junc.HasNetLabel )

            {

                // In CADSTAR the label can be placed anywhere, but in KiCad it has to be placed

                // in the same location as the junction for it to be connected to it.

                SCH_LABEL* label = new SCH_LABEL();

                label->SetText( netName );

                label->SetPosition( getKiCadPoint( junc.Location ) );

                label->SetVisible( true );


                EDA_ANGLE  labelAngle = getAngle( junc.NetLabel.OrientAngle );

                SPIN_STYLE spin = getSpinStyle( labelAngle );


                label->SetSpinStyle( spin );


                m_sheetMap.at( junc.LayerID )->GetScreen()->Append( label );

            }

        }

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadFigures()

{

    for( std::pair<FIGURE_ID, FIGURE> figPair : Schematic.Figures )

    {

        FIGURE fig = figPair.second;


        loadFigure( fig, fig.LayerID, LAYER_NOTES );

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadTexts()

{

    for( std::pair<TEXT_ID, TEXT> textPair : Schematic.Texts )

    {

        TEXT txt = textPair.second;


        SCH_TEXT* kiTxt = getKiCadSchText( txt );

        loadItemOntoKiCadSheet( txt.LayerID, kiTxt );

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadDocumentationSymbols()

{

    for( std::pair<DOCUMENTATION_SYMBOL_ID, DOCUMENTATION_SYMBOL> docSymPair :

         Schematic.DocumentationSymbols )

    {

        DOCUMENTATION_SYMBOL docSym = docSymPair.second;


        if( Library.SymbolDefinitions.find( docSym.SymdefID ) == Library.SymbolDefinitions.end() )

        {

            m_reporter->Report( wxString::Format( _( "Documentation Symbol '%s' refers to symbol "

                                                     "definition ID '%s' which does not exist in "

                                                     "the library. The symbol was not loaded." ),

                                                  docSym.ID,

                                                  docSym.SymdefID ),

                                RPT_SEVERITY_ERROR );

            continue;

        }


        SYMDEF_SCM docSymDef  = Library.SymbolDefinitions.at( docSym.SymdefID );

        VECTOR2I   moveVector = getKiCadPoint( docSym.Origin ) - getKiCadPoint( docSymDef.Origin );

        EDA_ANGLE  rotationAngle     = getAngle( docSym.OrientAngle );

        double     scalingFactor     = (double) docSym.ScaleRatioNumerator

                                        / (double) docSym.ScaleRatioDenominator;

        VECTOR2I   centreOfTransform = getKiCadPoint( docSymDef.Origin );

        bool       mirrorInvert      = docSym.Mirror;


        for( std::pair<FIGURE_ID, FIGURE> figPair : docSymDef.Figures )

        {

            FIGURE fig = figPair.second;


            loadFigure( fig, docSym.LayerID, LAYER_NOTES, moveVector, rotationAngle, scalingFactor,

                        centreOfTransform, mirrorInvert );

        }


        for( std::pair<TEXT_ID, TEXT> textPair : docSymDef.Texts )

        {

            TEXT txt = textPair.second;


            txt.Mirror = ( txt.Mirror ) ? !mirrorInvert : mirrorInvert;

            txt.OrientAngle = docSym.OrientAngle - txt.OrientAngle;


            SCH_TEXT* kiTxt = getKiCadSchText( txt );


            VECTOR2I newPosition = applyTransform( kiTxt->GetPosition(), moveVector, rotationAngle,

                                                   scalingFactor, centreOfTransform, mirrorInvert );


            int     newTxtWidth     = KiROUND( kiTxt->GetTextWidth() * scalingFactor );

            int     newTxtHeight    = KiROUND( kiTxt->GetTextHeight() * scalingFactor );

            int     newTxtThickness = KiROUND( kiTxt->GetTextThickness() * scalingFactor );


            kiTxt->SetPosition( newPosition );

            kiTxt->SetTextWidth( newTxtWidth );

            kiTxt->SetTextHeight( newTxtHeight );

            kiTxt->SetTextThickness( newTxtThickness );


            loadItemOntoKiCadSheet( docSym.LayerID, kiTxt );

        }

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadTextVariables()

{

    auto findAndReplaceTextField =

            [&]( TEXT_FIELD_NAME aField, wxString aValue )

            {

                if( m_context.TextFieldToValuesMap.find( aField ) != m_context.TextFieldToValuesMap.end() )

                {

                    if( m_context.TextFieldToValuesMap.at( aField ) != aValue )

                    {

                        m_context.TextFieldToValuesMap.at( aField ) = aValue;

                        m_context.InconsistentTextFields.insert( aField );

                        return false;

                    }

                }

                else

                {

                    m_context.TextFieldToValuesMap.insert( { aField, aValue } );

                }


                return true;

            };


    PROJECT* pj = &m_schematic->Project();


    if( pj )

    {

        std::map<wxString, wxString>& txtVars = pj->GetTextVars();


        // Most of the design text fields can be derived from other elements

        if( Schematic.VariantHierarchy.Variants.size() > 0 )

        {

            VARIANT loadedVar = Schematic.VariantHierarchy.Variants.begin()->second;


            findAndReplaceTextField( TEXT_FIELD_NAME::VARIANT_NAME, loadedVar.Name );

            findAndReplaceTextField( TEXT_FIELD_NAME::VARIANT_DESCRIPTION, loadedVar.Description );

        }


        findAndReplaceTextField( TEXT_FIELD_NAME::DESIGN_TITLE, Header.JobTitle );


        for( std::pair<TEXT_FIELD_NAME, wxString> txtvalue : m_context.TextFieldToValuesMap )

        {

            wxString varName  = CADSTAR_TO_KICAD_FIELDS.at( txtvalue.first );

            wxString varValue = txtvalue.second;


            txtVars.insert( { varName, varValue } );

        }


        for( std::pair<wxString, wxString> txtvalue : m_context.FilenamesToTextMap )

        {

            wxString varName  = txtvalue.first;

            wxString varValue = txtvalue.second;


            txtVars.insert( { varName, varValue } );

        }

    }

    else

    {

        m_reporter->Report( _( "Text Variables could not be set as there is no project attached." ),

                            RPT_SEVERITY_ERROR );

    }

}


SCH_FIELD*

CADSTAR_SCH_ARCHIVE_LOADER::addNewFieldToSymbol( const wxString&              aFieldName,

                                                 std::unique_ptr<LIB_SYMBOL>& aKiCadSymbol )

{

    // First Check if field already exists

    if( SCH_FIELD* existingField = aKiCadSymbol->GetField( aFieldName ) )

        return existingField;


    SCH_FIELD* newfield = new SCH_FIELD( aKiCadSymbol.get(), FIELD_T::USER, aFieldName );

    newfield->SetVisible( false );

    aKiCadSymbol->AddField( newfield );

    /*

    @todo we should load that a field is a URL by checking if it starts with "Link"

    e.g.:

    if( aFieldName.Lower().StartsWith( "link" ) )

        newfield->SetAsURL*/


    return newfield;

}


const LIB_SYMBOL* CADSTAR_SCH_ARCHIVE_LOADER::loadSymdef( const SYMDEF_ID& aSymdefID )

{

    wxCHECK( Library.SymbolDefinitions.find( aSymdefID ) != Library.SymbolDefinitions.end(), nullptr );


    if( m_symDefMap.count( aSymdefID ) )

        return m_symDefMap.at( aSymdefID ).get(); // return a non-owning ptr


    SYMDEF_SCM csSym = Library.SymbolDefinitions.at( aSymdefID );

    std::unique_ptr<LIB_SYMBOL> kiSym = std::make_unique<LIB_SYMBOL>( csSym.BuildLibName() );

    const int                   gateNumber = 1; // Always load to gate "A" - we will change the unit later


    // Load Graphical Figures

    for( std::pair<FIGURE_ID, FIGURE> figPair : csSym.Figures )

    {

        FIGURE         fig = figPair.second;

        int            lineThickness = getLineThickness( fig.LineCodeID );

        LINE_STYLE     linestyle = getLineStyle( fig.LineCodeID );


        if( fig.Shape.Type == SHAPE_TYPE::OPENSHAPE )

        {

            loadLibrarySymbolShapeVertices( fig.Shape.Vertices, csSym.Origin, kiSym.get(),

                                            gateNumber,

                                            lineThickness );

        }

        else

        {

            SCH_SHAPE* shape = new SCH_SHAPE( SHAPE_T::POLY, LAYER_DEVICE );


            shape->SetPolyShape( fig.Shape.ConvertToPolySet(

                    [&]( const VECTOR2I& aPt )

                    {

                        return getKiCadLibraryPoint( aPt, csSym.Origin );

                    },

                    ARC_ACCURACY ) );


            shape->SetUnit( gateNumber );


            shape->SetStroke( STROKE_PARAMS( lineThickness, linestyle ) );


            if( fig.Shape.Type == SHAPE_TYPE::SOLID )

                shape->SetFillMode( FILL_T::FILLED_SHAPE );

            else if( fig.Shape.Type == SHAPE_TYPE::OUTLINE )

                shape->SetFillMode( FILL_T::NO_FILL );

            else if( fig.Shape.Type == SHAPE_TYPE::HATCHED ) // We don't have an equivalent

                shape->SetFillMode( FILL_T::FILLED_WITH_BG_BODYCOLOR );


            kiSym->AddDrawItem( shape );

        }

    }


    PINNUM_TO_TERMINAL_MAP pinNumToTerminals;


    // Load Pins

    for( std::pair<TERMINAL_ID, TERMINAL> termPair : csSym.Terminals )

    {

        TERMINAL term = termPair.second;

        wxString pinNum = wxString::Format( "%ld", term.ID );

        wxString pinName = wxEmptyString;

        std::unique_ptr<SCH_PIN> pin = std::make_unique<SCH_PIN>( kiSym.get() );


        // Assume passive pin for now (we will set it later once we load the parts)

        pin->SetType( ELECTRICAL_PINTYPE::PT_PASSIVE );


        pin->SetPosition( getKiCadLibraryPoint( term.Position, csSym.Origin ) );

        pin->SetLength( 0 ); //CADSTAR Pins are just a point (have no length)

        pin->SetShape( GRAPHIC_PINSHAPE::LINE );

        pin->SetUnit( gateNumber );

        pin->SetNumber( pinNum );

        pin->SetName( pinName );


        // TC0 is the default CADSTAR text size for name/number if none specified

        int pinNumberHeight = getTextHeightFromTextCode( wxT( "TC0" ) );

        int pinNameHeight = getTextHeightFromTextCode( wxT( "TC0" ) );


        if( csSym.PinNumberLocations.count( term.ID ) )

        {

            PIN_NUM_LABEL_LOC pinNumLocation = csSym.PinNumberLocations.at( term.ID );

            pinNumberHeight = getTextHeightFromTextCode( pinNumLocation.TextCodeID );

        }


        if( csSym.PinLabelLocations.count( term.ID ) )

        {

            PIN_NUM_LABEL_LOC pinNameLocation = csSym.PinLabelLocations.at( term.ID );

            pinNameHeight = getTextHeightFromTextCode( pinNameLocation.TextCodeID );

        }


        pin->SetNumberTextSize( pinNumberHeight );

        pin->SetNameTextSize( pinNameHeight );


        pinNumToTerminals.insert( { pin->GetNumber(), term.ID } );

        kiSym->AddDrawItem( pin.release() );

    }


    m_symDefTerminalsMap.insert( { aSymdefID, pinNumToTerminals } );

    fixUpLibraryPins( kiSym.get(), gateNumber );


    // Load Text items

    for( std::pair<TEXT_ID, TEXT> textPair : csSym.Texts )

    {

        TEXT csText = textPair.second;

        VECTOR2I pos = getKiCadLibraryPoint( csText.Position, csSym.Origin );

        auto     libtext = std::make_unique<SCH_TEXT>( pos, csText.Text, LAYER_DEVICE );


        libtext->SetUnit( gateNumber );

        libtext->SetPosition( getKiCadLibraryPoint( csText.Position, csSym.Origin ) );

        libtext->SetMultilineAllowed( true ); // temporarily so that we calculate bbox correctly


        applyTextSettings( libtext.get(), csText.TextCodeID, csText.Alignment, csText.Justification,

                           csText.OrientAngle, csText.Mirror );


        // Split out multi line text items into individual text elements

        if( csText.Text.Contains( "\n" ) )

        {

            wxArrayString strings;

            wxStringSplit( csText.Text, strings, '\n' );


            for( size_t ii = 0; ii < strings.size(); ++ii )

            {

                BOX2I    bbox = libtext->GetTextBox( nullptr, ii );

                VECTOR2I linePos = { bbox.GetLeft(), -bbox.GetBottom() };


                RotatePoint( linePos, libtext->GetTextPos(), -libtext->GetTextAngle() );


                SCH_TEXT* textLine = static_cast<SCH_TEXT*>( libtext->Duplicate( IGNORE_PARENT_GROUP ) );

                textLine->SetText( strings[ii] );

                textLine->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );

                textLine->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );

                textLine->SetTextPos( linePos );


                // Multiline text not allowed in LIB_TEXT

                textLine->SetMultilineAllowed( false );

                kiSym->AddDrawItem( textLine );

            }

        }

        else

        {

            // Multiline text not allowed in LIB_TEXT

            libtext->SetMultilineAllowed( false );

            kiSym->AddDrawItem( libtext.release() );

        }

    }


    // CADSTAR uses TC1 when fields don't have explicit text/attribute location

    static const TEXTCODE_ID defaultTextCode = "TC1";


    // Load field locations (Attributes in CADSTAR)


    // Symbol name (e.g. R1)

    if( csSym.TextLocations.count( SYMBOL_NAME_ATTRID ) )

    {

        TEXT_LOCATION& textLoc = csSym.TextLocations.at( SYMBOL_NAME_ATTRID );

        applyToLibraryFieldAttribute( textLoc, csSym.Origin, &kiSym->GetReferenceField() );

    }

    else

    {

        applyTextCodeIfExists( &kiSym->GetReferenceField(), defaultTextCode );

    }


    // Always add the part name field (even if it doesn't have a specific location defined)

    SCH_FIELD* partField = addNewFieldToSymbol( PartNameFieldName, kiSym );

    wxCHECK( partField, nullptr );

    wxASSERT( partField->GetName() == PartNameFieldName );


    if( csSym.TextLocations.count( PART_NAME_ATTRID ) )

    {

        TEXT_LOCATION& textLoc = csSym.TextLocations.at( PART_NAME_ATTRID );

        applyToLibraryFieldAttribute( textLoc, csSym.Origin, partField );

    }

    else

    {

        applyTextCodeIfExists( partField, defaultTextCode );

    }


    partField->SetVisible( SymbolPartNameColor.IsVisible );


    for( auto& [attributeId, textLocation] : csSym.TextLocations )

    {

        if( attributeId == PART_NAME_ATTRID || attributeId == SYMBOL_NAME_ATTRID

            || attributeId == SIGNALNAME_ORIGIN_ATTRID || attributeId == LINK_ORIGIN_ATTRID )

        {

            continue;

        }


        wxString attributeName = getAttributeName( attributeId );

        SCH_FIELD* field = addNewFieldToSymbol( attributeName, kiSym );

        applyToLibraryFieldAttribute( textLocation, csSym.Origin, field );

    }


    for( auto& [attributeId, attrValue] : csSym.AttributeValues )

    {

        if( attributeId == PART_NAME_ATTRID || attributeId == SYMBOL_NAME_ATTRID

            || attributeId == SIGNALNAME_ORIGIN_ATTRID || attributeId == LINK_ORIGIN_ATTRID )

        {

            continue;

        }


        wxString   attributeName = getAttributeName( attributeId );

        SCH_FIELD* field = addNewFieldToSymbol( attributeName, kiSym );


        if( attrValue.HasLocation )

            applyToLibraryFieldAttribute( attrValue.AttributeLocation, csSym.Origin, field );

        else

            applyTextCodeIfExists( field, defaultTextCode );

    }


    m_symDefMap.insert( { aSymdefID, std::move( kiSym ) } );


    return m_symDefMap.at( aSymdefID ).get(); // return a non-owning ptr

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadSymbolGateAndPartFields( const SYMDEF_ID& aSymdefID,

                                                              const PART& aCadstarPart,

                                                              const GATE_ID& aGateID,

                                                              LIB_SYMBOL* aSymbol )

{

    wxCHECK( Library.SymbolDefinitions.find( aSymdefID ) != Library.SymbolDefinitions.end(), /*void*/ );


    std::unique_ptr<LIB_SYMBOL> kiSymDef( loadSymdef( aSymdefID )->Duplicate() );

    wxCHECK( kiSymDef, /*void*/ );


    //todo: need to use unique_ptr more. For now just create it here and release at end of function

    std::unique_ptr<LIB_SYMBOL> tempSymbol( aSymbol );


    // Update the pin numbers to match those defined in the Cadstar part

    TERMINAL_TO_PINNUM_MAP pinNumMap;


    for( auto&& [storedPinNum, termID] : m_symDefTerminalsMap[aSymdefID] )

    {

        PART::DEFINITION::PIN csPin = getPartDefinitionPin( aCadstarPart, aGateID, termID );

        SCH_PIN*              pin = kiSymDef->GetPin( storedPinNum );


        wxString pinName = HandleTextOverbar( csPin.Label );

        wxString pinNum = HandleTextOverbar( csPin.Name );


        if( pinNum.IsEmpty() )

        {

            if( !csPin.Identifier.IsEmpty() )

                pinNum = csPin.Identifier;

            else if( csPin.ID == UNDEFINED_VALUE )

                pinNum = wxString::Format( "%ld", termID );

            else

                pinNum = wxString::Format( "%ld", csPin.ID );

        }


        pin->SetType( getKiCadPinType( csPin.Type ) );

        pin->SetNumber( pinNum );

        pin->SetName( pinName );


        pinNumMap.insert( { termID, pinNum } );

    }


    m_pinNumsMap.insert( { aCadstarPart.ID + aGateID, pinNumMap } );


    // COPY ITEMS

    int gateNumber = getKiCadUnitNumberFromGate( aGateID );

    copySymbolItems( kiSymDef, tempSymbol, gateNumber );


    // Hide the value field for now (it might get unhidden if an attribute exists in the cadstar

    // design with the text "Value"

    tempSymbol->GetValueField().SetVisible( false );


    if( SCH_FIELD* partNameField = tempSymbol->GetField( PartNameFieldName ) )

        partNameField->SetText( EscapeFieldText( aCadstarPart.Name ) );


    const POINT& symDefOrigin = Library.SymbolDefinitions.at( aSymdefID ).Origin;

    wxString     footprintRefName = wxEmptyString;

    wxString     footprintAlternateName = wxEmptyString;


    auto loadLibraryField = [&]( const ATTRIBUTE_VALUE& aAttributeVal )

    {

        wxString attrName = getAttributeName( aAttributeVal.AttributeID );


        // Remove invalid field characters

        wxString attributeValue = aAttributeVal.Value;

        attributeValue.Replace( wxT( "\n" ), wxT( "\\n" ) );

        attributeValue.Replace( wxT( "\r" ), wxT( "\\r" ) );

        attributeValue.Replace( wxT( "\t" ), wxT( "\\t" ) );


        //TODO: Handle "links": In cadstar a field can be a "link" if its name starts

        // with the characters "Link ". Need to figure out how to convert them to

        // equivalent in KiCad.


        if( attrName == wxT( "(PartDefinitionNameStem)" ) )

        {

            //Space not allowed in Reference field

            attributeValue.Replace( wxT( " " ), "_" );

            tempSymbol->GetReferenceField().SetText( attributeValue );

            return;

        }

        else if( attrName == wxT( "(PartDescription)" ) )

        {

            tempSymbol->SetDescription( attributeValue );

            return;

        }

        else if( attrName == wxT( "(PartDefinitionReferenceName)" ) )

        {

            footprintRefName = attributeValue;

            return;

        }

        else if( attrName == wxT( "(PartDefinitionAlternateName)" ) )

        {

            footprintAlternateName = attributeValue;

            return;

        }


        bool       attrIsNew = tempSymbol->GetField( attrName ) == nullptr;

        SCH_FIELD* attrField = addNewFieldToSymbol( attrName, tempSymbol );


        wxASSERT( attrField->GetName() == attrName );

        attrField->SetText( aAttributeVal.Value );

        attrField->SetUnit( gateNumber );


        const ATTRIBUTE_ID& attrid = aAttributeVal.AttributeID;

        attrField->SetVisible( isAttributeVisible( attrid ) );


        if( aAttributeVal.HasLocation )

        {

            // Check if the part itself defined a location for the field

            applyToLibraryFieldAttribute( aAttributeVal.AttributeLocation, symDefOrigin,

                                          attrField );

        }

        else if( attrIsNew )

        {

            attrField->SetVisible( false );

            applyTextSettings( attrField, wxT( "TC1" ), ALIGNMENT::NO_ALIGNMENT,

                               JUSTIFICATION::LEFT, false, true );

        }

    };


    // Load all attributes in the Part Definition

    for( auto& [attrId, attrVal] : aCadstarPart.Definition.AttributeValues )

        loadLibraryField( attrVal );


    // Load all attributes in the Part itself.

    for( auto& [attrId, attrVal] : aCadstarPart.AttributeValues )

        loadLibraryField( attrVal );


    setFootprintOnSymbol( tempSymbol, footprintRefName, footprintAlternateName );


    if( aCadstarPart.Definition.HidePinNames )

    {

        tempSymbol->SetShowPinNames( false );

        tempSymbol->SetShowPinNumbers( false );

    }


    // Update aSymbol just to keep lint happy.

    aSymbol = tempSymbol.release();

}


void CADSTAR_SCH_ARCHIVE_LOADER::setFootprintOnSymbol( std::unique_ptr<LIB_SYMBOL>& aKiCadSymbol,

                                                       const wxString& aFootprintName,

                                                       const wxString& aFootprintAlternate )

{

    wxString fpNameInLibrary = generateLibName( aFootprintName, aFootprintAlternate );


    if( !fpNameInLibrary.IsEmpty() )

    {

        wxArrayString fpFilters;

        fpFilters.Add( aFootprintName ); // In cadstar one footprint has several "alternates"


        if( !aFootprintAlternate.IsEmpty() )

            fpFilters.Add( fpNameInLibrary );


        aKiCadSymbol->SetFPFilters( fpFilters );


        LIB_ID libID( m_footprintLibName, fpNameInLibrary );

        aKiCadSymbol->GetFootprintField().SetText( libID.Format() );

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadLibrarySymbolShapeVertices( const std::vector<VERTEX>& aCadstarVertices,

                                                                 const VECTOR2I& aSymbolOrigin,

                                                                 LIB_SYMBOL* aSymbol,

                                                                 int aGateNumber,

                                                                 int aLineThickness )

{

    const VERTEX* prev = &aCadstarVertices.at( 0 );

    const VERTEX* cur;


    wxASSERT_MSG( prev->Type == VERTEX_TYPE::VT_POINT, "First vertex should always be a point." );


    for( size_t i = 1; i < aCadstarVertices.size(); i++ )

    {

        cur = &aCadstarVertices.at( i );


        SCH_SHAPE* shape      = nullptr;

        bool       cw         = false;

        VECTOR2I   startPoint = getKiCadLibraryPoint( prev->End, aSymbolOrigin );

        VECTOR2I   endPoint   = getKiCadLibraryPoint( cur->End, aSymbolOrigin );

        VECTOR2I   centerPoint;


        if( cur->Type == VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE

                || cur->Type == VERTEX_TYPE::CLOCKWISE_SEMICIRCLE )

        {

            centerPoint = ( startPoint + endPoint ) / 2;

        }

        else

        {

            centerPoint = getKiCadLibraryPoint( cur->Center, aSymbolOrigin );

        }


        switch( cur->Type )

        {

        case VERTEX_TYPE::VT_POINT:

            shape = new SCH_SHAPE( SHAPE_T::POLY, LAYER_DEVICE );

            shape->AddPoint( startPoint );

            shape->AddPoint( endPoint );

            break;


        case VERTEX_TYPE::CLOCKWISE_SEMICIRCLE:

        case VERTEX_TYPE::CLOCKWISE_ARC:

            cw = true;

            KI_FALLTHROUGH;


        case VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE:

        case VERTEX_TYPE::ANTICLOCKWISE_ARC:

            shape = new SCH_SHAPE( SHAPE_T::ARC, LAYER_DEVICE );


            shape->SetPosition( centerPoint );


            if( cw )

            {

                shape->SetStart( endPoint );

                shape->SetEnd( startPoint );

            }

            else

            {

                shape->SetStart( startPoint );

                shape->SetEnd( endPoint );

            }


            break;

        }


        shape->SetUnit( aGateNumber );

        shape->SetStroke( STROKE_PARAMS( aLineThickness, LINE_STYLE::SOLID ) );

        aSymbol->AddDrawItem( shape, false );


        prev = cur;

    }


    aSymbol->GetDrawItems().sort();

}


void CADSTAR_SCH_ARCHIVE_LOADER::applyToLibraryFieldAttribute( const ATTRIBUTE_LOCATION& aCadstarAttrLoc,

                                                               const VECTOR2I& aSymbolOrigin,

                                                               SCH_FIELD* aKiCadField )

{

    aKiCadField->SetTextPos( getKiCadLibraryPoint( aCadstarAttrLoc.Position, aSymbolOrigin ) );


    applyTextSettings( aKiCadField, aCadstarAttrLoc.TextCodeID, aCadstarAttrLoc.Alignment,

                       aCadstarAttrLoc.Justification, aCadstarAttrLoc.OrientAngle,

                       aCadstarAttrLoc.Mirror );

}


SCH_SYMBOL* CADSTAR_SCH_ARCHIVE_LOADER::loadSchematicSymbol( const SYMBOL& aCadstarSymbol,

                                                             const LIB_SYMBOL& aKiCadPart,

                                                             EDA_ANGLE& aComponentOrientation )

{

    wxString libName = CreateLibName( m_footprintLibName, m_rootSheet );


    LIB_ID libId;

    libId.SetLibItemName( aKiCadPart.GetName() );

    libId.SetLibNickname( libName );


    int unit = getKiCadUnitNumberFromGate( aCadstarSymbol.GateID );


    SCH_SHEET_PATH sheetpath;

    SCH_SHEET* kiSheet = m_sheetMap.at( aCadstarSymbol.LayerID );

    m_rootSheet->LocatePathOfScreen( kiSheet->GetScreen(), &sheetpath );


    SCH_SYMBOL* symbol = new SCH_SYMBOL( aKiCadPart, libId, &sheetpath, unit );


    if( aCadstarSymbol.IsComponent )

        symbol->SetRef( &sheetpath, aCadstarSymbol.ComponentRef.Designator );


    symbol->SetPosition( getKiCadPoint( aCadstarSymbol.Origin ) );


    EDA_ANGLE compAngle = getAngle( aCadstarSymbol.OrientAngle );

    int       compOrientation = 0;


    if( aCadstarSymbol.Mirror )

    {

        compAngle = -compAngle;

        compOrientation += SYMBOL_ORIENTATION_T::SYM_MIRROR_Y;

    }


    compOrientation += getComponentOrientation( compAngle, aComponentOrientation );

    EDA_ANGLE test1( compAngle );

    EDA_ANGLE test2( aComponentOrientation );


    if( test1.Normalize180() != test2.Normalize180() )

    {

        m_reporter->Report( wxString::Format( _( "Symbol '%s' is rotated by an angle of %.1f " //format:allow

                                                 "degrees in the original CADSTAR design but "

                                                 "KiCad only supports rotation angles multiples "

                                                 "of 90 degrees. The connecting wires will need "

                                                 "manual fixing." ),

                                              aCadstarSymbol.ComponentRef.Designator,

                                              compAngle.AsDegrees() ),

                            RPT_SEVERITY_ERROR );

    }


    symbol->SetOrientation( compOrientation );


    if( m_sheetMap.find( aCadstarSymbol.LayerID ) == m_sheetMap.end() )

    {

        m_reporter->Report( wxString::Format( _( "Symbol '%s' references sheet ID '%s' which does "

                                                 "not exist in the design. The symbol was not "

                                                 "loaded." ),

                                              aCadstarSymbol.ComponentRef.Designator,

                                              aCadstarSymbol.LayerID ),

                            RPT_SEVERITY_ERROR );


        delete symbol;

        return nullptr;

    }


    wxString gate = ( aCadstarSymbol.GateID.IsEmpty() ) ? wxString( wxT( "A" ) ) : aCadstarSymbol.GateID;

    wxString partGateIndex = aCadstarSymbol.PartRef.RefID + gate;


    //Handle pin swaps

    if( m_pinNumsMap.find( partGateIndex ) != m_pinNumsMap.end() )

    {

        TERMINAL_TO_PINNUM_MAP termNumMap = m_pinNumsMap.at( partGateIndex );


        std::map<wxString, SCH_PIN*> pinNumToLibPinMap;


        for( auto& term : termNumMap )

        {

            wxString pinNum = term.second;

            pinNumToLibPinMap.insert( { pinNum,

                                        symbol->GetLibSymbolRef()->GetPin( term.second ) } );

        }


        auto replacePinNumber =

                [&]( wxString aOldPinNum, wxString aNewPinNum )

                {

                    if( aOldPinNum == aNewPinNum )

                        return;


                    SCH_PIN* libpin = pinNumToLibPinMap.at( aOldPinNum );

                    libpin->SetNumber( HandleTextOverbar( aNewPinNum ) );

                };


        //Older versions of Cadstar used pin numbers

        for( auto& pinPair : aCadstarSymbol.PinNumbers )

        {

            SYMBOL::PIN_NUM pin = pinPair.second;


            replacePinNumber( termNumMap.at( pin.TerminalID ),

                              wxString::Format( "%ld", pin.PinNum ) );

        }


        //Newer versions of Cadstar use pin names

        for( auto& pinPair : aCadstarSymbol.PinNames )

        {

            SYMPINNAME_LABEL pin = pinPair.second;

            replacePinNumber( termNumMap.at( pin.TerminalID ), pin.NameOrLabel );

        }


        symbol->UpdatePins();

    }


    kiSheet->GetScreen()->Append( symbol );


    return symbol;

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadSymbolFieldAttribute( const ATTRIBUTE_LOCATION& aCadstarAttrLoc,

                                                           const EDA_ANGLE& aComponentOrientation,

                                                           bool aIsMirrored,

                                                           SCH_FIELD* aKiCadField )

{

    aKiCadField->SetPosition( getKiCadPoint( aCadstarAttrLoc.Position ) );

    aKiCadField->SetVisible( true );


    ALIGNMENT alignment = aCadstarAttrLoc.Alignment;

    EDA_ANGLE textAngle = getAngle( aCadstarAttrLoc.OrientAngle );


    if( aIsMirrored )

    {

        // We need to change the aligment when the symbol is mirrored based on the text orientation

        // To ensure the anchor point is the same in KiCad.


        int textIsVertical = KiROUND( textAngle.AsDegrees() / 90.0 ) % 2;


        if( textIsVertical )

            alignment = rotate180( alignment );


        alignment = mirrorX( alignment );

    }


    applyTextSettings( aKiCadField, aCadstarAttrLoc.TextCodeID, alignment,

                       aCadstarAttrLoc.Justification,

                       getCadstarAngle( textAngle - aComponentOrientation ),

                       aCadstarAttrLoc.Mirror );

}


int CADSTAR_SCH_ARCHIVE_LOADER::getComponentOrientation( const EDA_ANGLE& aOrientAngle,

                                                         EDA_ANGLE& aReturnedOrientation )

{

    int compOrientation = SYMBOL_ORIENTATION_T::SYM_ORIENT_0;


    EDA_ANGLE oDeg = aOrientAngle;

    oDeg.Normalize180();


    if( oDeg >= -ANGLE_45 && oDeg <= ANGLE_45 )

    {

        compOrientation      = SYMBOL_ORIENTATION_T::SYM_ORIENT_0;

        aReturnedOrientation = ANGLE_0;

    }

    else if( oDeg >= ANGLE_45 && oDeg <= ANGLE_135 )

    {

        compOrientation      = SYMBOL_ORIENTATION_T::SYM_ORIENT_90;

        aReturnedOrientation = ANGLE_90;

    }

    else if( oDeg >= ANGLE_135 || oDeg <= -ANGLE_135 )

    {

        compOrientation      = SYMBOL_ORIENTATION_T::SYM_ORIENT_180;

        aReturnedOrientation = ANGLE_180;

    }

    else

    {

        compOrientation      = SYMBOL_ORIENTATION_T::SYM_ORIENT_270;

        aReturnedOrientation = ANGLE_270;

    }


    return compOrientation;

}


CADSTAR_SCH_ARCHIVE_LOADER::POINT

CADSTAR_SCH_ARCHIVE_LOADER::getLocationOfNetElement( const NET_SCH&       aNet,

                                                     const NETELEMENT_ID& aNetElementID )

{

    // clang-format off

    auto logUnknownNetElementError =

        [&]()

        {

            m_reporter->Report( wxString::Format( _( "Net %s references unknown net element %s. "

                                                     "The net was not properly loaded and may "

                                                     "require manual fixing." ),

                                                  getNetName( aNet ),

                                                  aNetElementID ),

                                RPT_SEVERITY_ERROR );


            return POINT();

        };

    // clang-format on


    if( aNetElementID.Contains( "J" ) ) // Junction

    {

        if( aNet.Junctions.find( aNetElementID ) == aNet.Junctions.end() )

            return logUnknownNetElementError();


        return aNet.Junctions.at( aNetElementID ).Location;

    }

    else if( aNetElementID.Contains( "P" ) ) // Terminal/Pin of a symbol

    {

        if( aNet.Terminals.find( aNetElementID ) == aNet.Terminals.end() )

            return logUnknownNetElementError();


        SYMBOL_ID   symid  = aNet.Terminals.at( aNetElementID ).SymbolID;

        TERMINAL_ID termid = aNet.Terminals.at( aNetElementID ).TerminalID;


        if( Schematic.Symbols.find( symid ) == Schematic.Symbols.end() )

            return logUnknownNetElementError();


        SYMBOL    sym          = Schematic.Symbols.at( symid );

        SYMDEF_ID symdefid     = sym.SymdefID;

        VECTOR2I  symbolOrigin = sym.Origin;


        if( Library.SymbolDefinitions.find( symdefid ) == Library.SymbolDefinitions.end() )

            return logUnknownNetElementError();


        VECTOR2I libpinPosition =

                Library.SymbolDefinitions.at( symdefid ).Terminals.at( termid ).Position;

        VECTOR2I libOrigin = Library.SymbolDefinitions.at( symdefid ).Origin;


        VECTOR2I pinOffset = libpinPosition - libOrigin;

        pinOffset.x = ( pinOffset.x * sym.ScaleRatioNumerator ) / sym.ScaleRatioDenominator;

        pinOffset.y = ( pinOffset.y * sym.ScaleRatioNumerator ) / sym.ScaleRatioDenominator;


        VECTOR2I  pinPosition = symbolOrigin + pinOffset;

        EDA_ANGLE compAngle = getAngle( sym.OrientAngle );


        if( sym.Mirror )

            pinPosition.x = ( 2 * symbolOrigin.x ) - pinPosition.x;


        EDA_ANGLE adjustedOrientation;

        getComponentOrientation( compAngle, adjustedOrientation );


        RotatePoint( pinPosition, symbolOrigin, -adjustedOrientation );


        POINT retval;

        retval.x = pinPosition.x;

        retval.y = pinPosition.y;


        return retval;

    }

    else if( aNetElementID.Contains( "BT" ) ) // Bus Terminal

    {

        if( aNet.BusTerminals.find( aNetElementID ) == aNet.BusTerminals.end() )

            return logUnknownNetElementError();


        return aNet.BusTerminals.at( aNetElementID ).SecondPoint;

    }

    else if( aNetElementID.Contains( "BLKT" ) ) // Block Terminal (sheet hierarchy connection)

    {

        if( aNet.BlockTerminals.find( aNetElementID ) == aNet.BlockTerminals.end() )

            return logUnknownNetElementError();


        BLOCK_ID    blockid = aNet.BlockTerminals.at( aNetElementID ).BlockID;

        TERMINAL_ID termid  = aNet.BlockTerminals.at( aNetElementID ).TerminalID;


        if( Schematic.Blocks.find( blockid ) == Schematic.Blocks.end() )

            return logUnknownNetElementError();


        return Schematic.Blocks.at( blockid ).Terminals.at( termid ).Position;

    }

    else if( aNetElementID.Contains( "D" ) ) // Dangler

    {

        if( aNet.Danglers.find( aNetElementID ) == aNet.Danglers.end() )

            return logUnknownNetElementError();


        return aNet.Danglers.at( aNetElementID ).Position;

    }

    else

    {

        return logUnknownNetElementError();

    }

}


wxString CADSTAR_SCH_ARCHIVE_LOADER::getNetName( const NET_SCH& aNet )

{

    wxString netname = aNet.Name;


    if( netname.IsEmpty() )

        netname = wxString::Format( "$%ld", aNet.SignalNum );


    return netname;

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadShapeVertices( const std::vector<VERTEX>& aCadstarVertices,

                                                    LINECODE_ID aCadstarLineCodeID,

                                                    LAYER_ID aCadstarSheetID,

                                                    SCH_LAYER_ID aKiCadSchLayerID,

                                                    const VECTOR2I& aMoveVector,

                                                    const EDA_ANGLE& aRotation,

                                                    const double& aScalingFactor,

                                                    const VECTOR2I& aTransformCentre,

                                                    const bool& aMirrorInvert )

{

    int lineWidth = KiROUND( getLineThickness( aCadstarLineCodeID ) * aScalingFactor );

    LINE_STYLE lineStyle = getLineStyle( aCadstarLineCodeID );


    const VERTEX* prev = &aCadstarVertices.at( 0 );

    const VERTEX* cur;


    wxASSERT_MSG( prev->Type == VERTEX_TYPE::VT_POINT,

                  "First vertex should always be a point vertex" );


    auto pointTransform =

            [&]( const VECTOR2I& aV )

            {

                return applyTransform( getKiCadPoint( aV ), aMoveVector, aRotation,

                                       aScalingFactor, aTransformCentre, aMirrorInvert );

            };


    for( size_t ii = 1; ii < aCadstarVertices.size(); ii++ )

    {

        cur = &aCadstarVertices.at( ii );


        VECTOR2I transformedStartPoint = pointTransform( prev->End );

        VECTOR2I transformedEndPoint = pointTransform( cur->End );


        switch( cur->Type )

        {

        case VERTEX_TYPE::CLOCKWISE_SEMICIRCLE:

        case VERTEX_TYPE::CLOCKWISE_ARC:

        case VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE:

        case VERTEX_TYPE::ANTICLOCKWISE_ARC:

        {

            SHAPE_ARC tempArc = cur->BuildArc( transformedStartPoint, pointTransform );


            SCH_SHAPE* arcShape = new SCH_SHAPE( SHAPE_T::ARC, LAYER_NOTES, lineWidth );

            arcShape->SetArcGeometry( tempArc.GetP0(), tempArc.GetArcMid(), tempArc.GetP1() );


            loadItemOntoKiCadSheet( aCadstarSheetID, arcShape );

            break;

        }


        case VERTEX_TYPE::VT_POINT:

        {

            SCH_LINE* segment = new SCH_LINE();


            segment->SetLayer( aKiCadSchLayerID );

            segment->SetLineWidth( lineWidth );

            segment->SetLineStyle( lineStyle );


            segment->SetStartPoint( transformedStartPoint );

            segment->SetEndPoint( transformedEndPoint );


            loadItemOntoKiCadSheet( aCadstarSheetID, segment );

            break;

        }


        default:

            wxFAIL_MSG( "Unknown CADSTAR Vertex type" );

        }


        prev = cur;

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadFigure( const FIGURE& aCadstarFigure,

                                             const LAYER_ID& aCadstarSheetIDOverride,

                                             SCH_LAYER_ID aKiCadSchLayerID,

                                             const VECTOR2I& aMoveVector,

                                             const EDA_ANGLE& aRotation,

                                             const double& aScalingFactor,

                                             const VECTOR2I& aTransformCentre,

                                             const bool& aMirrorInvert )

{

    loadShapeVertices( aCadstarFigure.Shape.Vertices, aCadstarFigure.LineCodeID,

                       aCadstarSheetIDOverride, aKiCadSchLayerID, aMoveVector, aRotation,

                       aScalingFactor, aTransformCentre, aMirrorInvert );


    for( const CUTOUT& cutout : aCadstarFigure.Shape.Cutouts )

    {

        loadShapeVertices( cutout.Vertices, aCadstarFigure.LineCodeID, aCadstarSheetIDOverride,

                           aKiCadSchLayerID, aMoveVector, aRotation, aScalingFactor,

                           aTransformCentre, aMirrorInvert );

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadSheetAndChildSheets( const LAYER_ID&       aCadstarSheetID,

                                                          const VECTOR2I&       aPosition,

                                                          const VECTOR2I&       aSheetSize,

                                                          const SCH_SHEET_PATH& aParentSheet )

{

    wxCHECK_MSG( m_sheetMap.find( aCadstarSheetID ) == m_sheetMap.end(), ,

                 "Sheet already loaded!" );


    SCH_SHEET*     sheet = new SCH_SHEET(

        /* aParent */ aParentSheet.Last(),

        /* aPosition */ aPosition,

        /* aSize */ VECTOR2I( aSheetSize ) );

    SCH_SCREEN*    screen = new SCH_SCREEN( m_schematic );

    SCH_SHEET_PATH instance( aParentSheet );


    sheet->SetScreen( screen );


    wxString name = Sheets.SheetNames.at( aCadstarSheetID );


    sheet->GetField( FIELD_T::SHEET_NAME )->SetText( name );


    int         sheetNum = getSheetNumber( aCadstarSheetID );

    wxString    loadedFilename = wxFileName( Filename ).GetName();

    std::string filename = wxString::Format( "%s_%02d", loadedFilename, sheetNum ).ToStdString();


    ReplaceIllegalFileNameChars( &filename );

    filename += wxT( "." ) + wxString( FILEEXT::KiCadSchematicFileExtension );


    sheet->GetField( FIELD_T::SHEET_FILENAME )->SetText( filename );


    wxFileName fn( m_schematic->Project().GetProjectPath() + filename );

    sheet->GetScreen()->SetFileName( fn.GetFullPath() );

    aParentSheet.Last()->GetScreen()->Append( sheet );

    instance.push_back( sheet );


    wxString pageNumStr = wxString::Format( "%d", getSheetNumber( aCadstarSheetID ) );

    instance.SetPageNumber( pageNumStr );


    sheet->AutoplaceFields( nullptr, AUTOPLACE_AUTO );


    m_sheetMap.insert( { aCadstarSheetID, sheet } );


    loadChildSheets( aCadstarSheetID, instance );

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadChildSheets( const LAYER_ID& aCadstarSheetID,

                                                  const SCH_SHEET_PATH& aSheet )

{

    wxCHECK_MSG( m_sheetMap.find( aCadstarSheetID ) != m_sheetMap.end(), ,

                 "FIXME! Parent sheet should be loaded before attempting to load subsheets" );


    for( std::pair<BLOCK_ID, BLOCK> blockPair : Schematic.Blocks )

    {

        BLOCK& block = blockPair.second;


        if( block.LayerID == aCadstarSheetID && block.Type == BLOCK::TYPE::CHILD )

        {

            if( block.AssocLayerID == wxT( "NO_LINK" ) )

            {

                if( block.Figures.size() > 0 )

                {

                    m_reporter->Report( wxString::Format( _( "The block ID %s (Block name: '%s') "

                                                             "is drawn on sheet '%s' but is not "

                                                             "linked to another sheet in the "

                                                             "design. KiCad requires all sheet "

                                                             "symbols to be associated to a sheet, "

                                                             "so the block was not loaded." ),

                                                          block.ID, block.Name,

                                                          Sheets.SheetNames.at( aCadstarSheetID ) ),

                                        RPT_SEVERITY_ERROR );

                }


                continue;

            }


            // In KiCad you can only draw rectangular shapes whereas in Cadstar arbitrary shapes

            // are allowed. We will calculate the extents of the Cadstar shape and draw a rectangle


            std::pair<VECTOR2I, VECTOR2I> blockExtents;


            if( block.Figures.size() > 0 )

            {

                blockExtents = getFigureExtentsKiCad( block.Figures.begin()->second );

            }

            else

            {

                THROW_IO_ERROR( wxString::Format( _( "The CADSTAR schematic might be corrupt: "

                                                     "Block %s references a child sheet but has no "

                                                     "Figure defined." ),

                                                  block.ID ) );

            }


            loadSheetAndChildSheets( block.AssocLayerID, blockExtents.first, blockExtents.second,

                                     aSheet );


            // Hide all KiCad sheet properties (sheet name/filename is not applicable in CADSTAR)

            SCH_SHEET* loadedSheet = m_sheetMap.at( block.AssocLayerID );

            SCH_FIELDS fields = loadedSheet->GetFields();


            for( SCH_FIELD& field : fields )

            {

                field.SetVisible( false );

            }


            if( block.HasBlockLabel )

            {

                //@todo use below code when KiCad supports multi-line fields

                /*

                // Add the block label as a separate field

                SCH_FIELD blockNameField( getKiCadPoint( block.BlockLabel.Position ), 2,

                        loadedSheet, wxString( "Block name" ) );

                blockNameField.SetText( block.Name );

                blockNameField.SetVisible( true );


                applyTextSettings( &blockNameField,

                                    block.BlockLabel.TextCodeID,

                                    block.BlockLabel.Alignment,

                                    block.BlockLabel.Justification,

                                    block.BlockLabel.OrientAngle,

                                    block.BlockLabel.Mirror );


                fields.push_back( blockNameField );*/


                // For now as as a text item (supports multi-line properly)

                SCH_TEXT* kiTxt = new SCH_TEXT();


                kiTxt->SetParent( m_schematic );

                kiTxt->SetPosition( getKiCadPoint( block.BlockLabel.Position ) );

                kiTxt->SetText( block.Name );


                applyTextSettings( kiTxt, block.BlockLabel.TextCodeID, block.BlockLabel.Alignment,

                                   block.BlockLabel.Justification, block.BlockLabel.OrientAngle,

                                   block.BlockLabel.Mirror );


                loadItemOntoKiCadSheet( aCadstarSheetID, kiTxt );

            }


            loadedSheet->SetFields( fields );

        }

    }

}


std::vector<CADSTAR_SCH_ARCHIVE_LOADER::LAYER_ID> CADSTAR_SCH_ARCHIVE_LOADER::findOrphanSheets()

{

    std::vector<LAYER_ID> childSheets, orphanSheets;


    //Find all sheets that are child of another

    for( std::pair<BLOCK_ID, BLOCK> blockPair : Schematic.Blocks )

    {

        BLOCK&    block        = blockPair.second;

        LAYER_ID& assocSheetID = block.AssocLayerID;


        if( block.Type == BLOCK::TYPE::CHILD )

            childSheets.push_back( assocSheetID );

    }


    //Add sheets that do not have a parent

    for( const LAYER_ID& sheetID : Sheets.SheetOrder )

    {

        if( std::find( childSheets.begin(), childSheets.end(), sheetID ) == childSheets.end() )

            orphanSheets.push_back( sheetID );

    }


    return orphanSheets;

}


int CADSTAR_SCH_ARCHIVE_LOADER::getSheetNumber( const LAYER_ID& aCadstarSheetID )

{

    int i = 1;


    for( const LAYER_ID& sheetID : Sheets.SheetOrder )

    {

        if( sheetID == aCadstarSheetID )

            return i;


        ++i;

    }


    return -1;

}


void CADSTAR_SCH_ARCHIVE_LOADER::loadItemOntoKiCadSheet( const LAYER_ID& aCadstarSheetID,

                                                         SCH_ITEM* aItem )

{

    wxCHECK_MSG( aItem, /*void*/, wxT( "aItem is null" ) );


    if( aCadstarSheetID == "ALL_SHEETS" )

    {

        SCH_ITEM* duplicateItem = nullptr;


        for( std::pair<LAYER_ID, SHEET_NAME> sheetPair : Sheets.SheetNames )

        {

            LAYER_ID sheetID = sheetPair.first;

            duplicateItem    = aItem->Duplicate( IGNORE_PARENT_GROUP );

            m_sheetMap.at( sheetID )->GetScreen()->Append( aItem->Duplicate( IGNORE_PARENT_GROUP ) );

        }


        //Get rid of the extra copy:

        delete aItem;

        aItem = duplicateItem;

    }

    else if( aCadstarSheetID == "NO_SHEET" )

    {

        wxFAIL_MSG( wxT( "Trying to add an item to NO_SHEET? This might be a documentation symbol." ) );

    }

    else

    {

        if( m_sheetMap.find( aCadstarSheetID ) != m_sheetMap.end() )

        {

            m_sheetMap.at( aCadstarSheetID )->GetScreen()->Append( aItem );

        }

        else

        {

            delete aItem;

            wxFAIL_MSG( wxT( "Unknown Sheet ID." ) );

        }

    }

}


CADSTAR_SCH_ARCHIVE_LOADER::SYMDEF_ID

CADSTAR_SCH_ARCHIVE_LOADER::getSymDefFromName( const wxString& aSymdefName,

                                               const wxString& aSymDefAlternate )

{

    if( m_SymDefNamesCache.size() != Library.SymbolDefinitions.size() )

    {

        // Re-initialise

        m_SymDefNamesCache.clear();

        m_DefaultSymDefNamesCache.clear();


        // Create a lower case cache to avoid searching each time

        for( auto& [id, symdef] : Library.SymbolDefinitions )

        {

            wxString refKey = symdef.ReferenceName.Lower();

            wxString altKey = symdef.Alternate.Lower();


            m_SymDefNamesCache[{ refKey, altKey }] = id;


            // Secondary cache to find symbols just by the Name (e.g. if the alternate

            // does not exist, we still want to return a symbo - the same behaviour

            // as CADSTAR


            if( !m_DefaultSymDefNamesCache.count( refKey ) )

            {

                m_DefaultSymDefNamesCache.insert( { refKey, id } );

            }

            else if( altKey.IsEmpty() )

            {

                // Always use the empty alternate if it exists

                m_DefaultSymDefNamesCache[refKey] = id;

            }

        }

    }


    wxString refKeyToFind = aSymdefName.Lower();

    wxString altKeyToFind = aSymDefAlternate.Lower();


    if( m_SymDefNamesCache.count( { refKeyToFind, altKeyToFind } ) )

    {

        return m_SymDefNamesCache[{ refKeyToFind, altKeyToFind }];

    }

    else if( m_DefaultSymDefNamesCache.count( refKeyToFind ) )

    {

        return m_DefaultSymDefNamesCache[refKeyToFind];

    }


    return SYMDEF_ID();

}


bool CADSTAR_SCH_ARCHIVE_LOADER::isAttributeVisible( const ATTRIBUTE_ID& aCadstarAttributeID )

{

    // Use CADSTAR visibility settings to determine if an attribute is visible

    if( AttrColors.AttributeColors.find( aCadstarAttributeID ) != AttrColors.AttributeColors.end() )

        return AttrColors.AttributeColors.at( aCadstarAttributeID ).IsVisible;


    return false; // If there is no visibility setting, assume not displayed

}


int CADSTAR_SCH_ARCHIVE_LOADER::getLineThickness( const LINECODE_ID& aCadstarLineCodeID )

{

    wxCHECK( Assignments.Codedefs.LineCodes.find( aCadstarLineCodeID )

                     != Assignments.Codedefs.LineCodes.end(),

             schIUScale.MilsToIU( DEFAULT_WIRE_WIDTH_MILS ) );


    return getKiCadLength( Assignments.Codedefs.LineCodes.at( aCadstarLineCodeID ).Width );

}


LINE_STYLE CADSTAR_SCH_ARCHIVE_LOADER::getLineStyle( const LINECODE_ID& aCadstarLineCodeID )

{

    wxCHECK( Assignments.Codedefs.LineCodes.find( aCadstarLineCodeID )

                     != Assignments.Codedefs.LineCodes.end(),

             LINE_STYLE::SOLID );


    // clang-format off

    switch( Assignments.Codedefs.LineCodes.at( aCadstarLineCodeID ).Style )

    {

    case LINESTYLE::DASH:       return LINE_STYLE::DASH;

    case LINESTYLE::DASHDOT:    return LINE_STYLE::DASHDOT;

    case LINESTYLE::DASHDOTDOT: return LINE_STYLE::DASHDOT; //TODO: update in future

    case LINESTYLE::DOT:        return LINE_STYLE::DOT;

    case LINESTYLE::SOLID:      return LINE_STYLE::SOLID;

    default:                    return LINE_STYLE::DEFAULT;

    }

    // clang-format on

}


CADSTAR_SCH_ARCHIVE_LOADER::TEXTCODE

CADSTAR_SCH_ARCHIVE_LOADER::getTextCode( const TEXTCODE_ID& aCadstarTextCodeID )

{

    wxCHECK( Assignments.Codedefs.TextCodes.find( aCadstarTextCodeID )

                     != Assignments.Codedefs.TextCodes.end(),

             TEXTCODE() );


    return Assignments.Codedefs.TextCodes.at( aCadstarTextCodeID );

}


int CADSTAR_SCH_ARCHIVE_LOADER::getTextHeightFromTextCode( const TEXTCODE_ID& aCadstarTextCodeID )

{

    TEXTCODE txtCode = getTextCode( aCadstarTextCodeID );


    return KiROUND( (double) getKiCadLength( txtCode.Height ) * TXT_HEIGHT_RATIO );

}


wxString CADSTAR_SCH_ARCHIVE_LOADER::getAttributeName( const ATTRIBUTE_ID& aCadstarAttributeID )

{

    wxCHECK( Assignments.Codedefs.AttributeNames.find( aCadstarAttributeID )

                     != Assignments.Codedefs.AttributeNames.end(),

             aCadstarAttributeID );


    return Assignments.Codedefs.AttributeNames.at( aCadstarAttributeID ).Name;

}


CADSTAR_SCH_ARCHIVE_LOADER::PART

CADSTAR_SCH_ARCHIVE_LOADER::getPart( const PART_ID& aCadstarPartID )

{

    wxCHECK( Parts.PartDefinitions.find( aCadstarPartID ) != Parts.PartDefinitions.end(), PART() );


    return Parts.PartDefinitions.at( aCadstarPartID );

}


CADSTAR_SCH_ARCHIVE_LOADER::ROUTECODE

CADSTAR_SCH_ARCHIVE_LOADER::getRouteCode( const ROUTECODE_ID& aCadstarRouteCodeID )

{

    wxCHECK( Assignments.Codedefs.RouteCodes.find( aCadstarRouteCodeID )

                     != Assignments.Codedefs.RouteCodes.end(),

             ROUTECODE() );


    return Assignments.Codedefs.RouteCodes.at( aCadstarRouteCodeID );

}


CADSTAR_SCH_ARCHIVE_LOADER::PART::DEFINITION::PIN

CADSTAR_SCH_ARCHIVE_LOADER::getPartDefinitionPin( const PART& aCadstarPart, const GATE_ID& aGateID,

                                                  const TERMINAL_ID& aTerminalID )

{

    for( std::pair<PART_DEFINITION_PIN_ID, PART::DEFINITION::PIN> pinPair :

         aCadstarPart.Definition.Pins )

    {

        PART::DEFINITION::PIN partPin = pinPair.second;


        if( partPin.TerminalGate == aGateID && partPin.TerminalPin == aTerminalID )

            return partPin;

    }


    return PART::DEFINITION::PIN();

}


ELECTRICAL_PINTYPE CADSTAR_SCH_ARCHIVE_LOADER::getKiCadPinType( const CADSTAR_PIN_TYPE& aPinType )

{

    switch( aPinType )

    {

    case CADSTAR_PIN_TYPE::UNCOMMITTED:        return ELECTRICAL_PINTYPE::PT_PASSIVE;

    case CADSTAR_PIN_TYPE::PIN_INPUT:              return ELECTRICAL_PINTYPE::PT_INPUT;

    case CADSTAR_PIN_TYPE::OUTPUT_OR:          return ELECTRICAL_PINTYPE::PT_OPENCOLLECTOR;

    case CADSTAR_PIN_TYPE::OUTPUT_NOT_OR:      return ELECTRICAL_PINTYPE::PT_OUTPUT;

    case CADSTAR_PIN_TYPE::OUTPUT_NOT_NORM_OR: return ELECTRICAL_PINTYPE::PT_OUTPUT;

    case CADSTAR_PIN_TYPE::POWER:              return ELECTRICAL_PINTYPE::PT_POWER_IN;

    case CADSTAR_PIN_TYPE::GROUND:             return ELECTRICAL_PINTYPE::PT_POWER_IN;

    case CADSTAR_PIN_TYPE::TRISTATE_BIDIR:     return ELECTRICAL_PINTYPE::PT_BIDI;

    case CADSTAR_PIN_TYPE::TRISTATE_INPUT:     return ELECTRICAL_PINTYPE::PT_INPUT;

    case CADSTAR_PIN_TYPE::TRISTATE_DRIVER:    return ELECTRICAL_PINTYPE::PT_OUTPUT;

    }


    return ELECTRICAL_PINTYPE::PT_UNSPECIFIED;

}


int CADSTAR_SCH_ARCHIVE_LOADER::getKiCadUnitNumberFromGate( const GATE_ID& aCadstarGateID )

{

    if( aCadstarGateID.IsEmpty() )

        return 1;


    return (int) aCadstarGateID.Upper().GetChar( 0 ) - (int) wxUniChar( 'A' ) + 1;

}


SPIN_STYLE CADSTAR_SCH_ARCHIVE_LOADER::getSpinStyle( const long long& aCadstarOrientation,

                                                     bool aMirror )

{

    EDA_ANGLE  orientation = getAngle( aCadstarOrientation );

    SPIN_STYLE spinStyle   = getSpinStyle( orientation );


    if( aMirror )

    {

        spinStyle = spinStyle.RotateCCW();

        spinStyle = spinStyle.RotateCCW();

    }


    return spinStyle;

}


SPIN_STYLE CADSTAR_SCH_ARCHIVE_LOADER::getSpinStyle( const EDA_ANGLE& aOrientation )

{

    SPIN_STYLE spinStyle = SPIN_STYLE::LEFT;


    EDA_ANGLE oDeg = aOrientation;

    oDeg.Normalize180();


    if( oDeg >= -ANGLE_45 && oDeg <= ANGLE_45 )

        spinStyle = SPIN_STYLE::RIGHT;                  // 0deg

    else if( oDeg >= ANGLE_45 && oDeg <= ANGLE_135 )

        spinStyle = SPIN_STYLE::UP;                     // 90deg

    else if( oDeg >= ANGLE_135 || oDeg <= -ANGLE_135 )

        spinStyle = SPIN_STYLE::LEFT;                   // 180deg

    else

        spinStyle = SPIN_STYLE::BOTTOM;                 // 270deg


    return spinStyle;

}


CADSTAR_SCH_ARCHIVE_LOADER::ALIGNMENT

CADSTAR_SCH_ARCHIVE_LOADER::mirrorX( const ALIGNMENT& aCadstarAlignment )

{

    switch( aCadstarAlignment )

    {

    // Change left to right:

    case ALIGNMENT::NO_ALIGNMENT:

    case ALIGNMENT::BOTTOMLEFT:    return ALIGNMENT::BOTTOMRIGHT;

    case ALIGNMENT::CENTERLEFT:    return ALIGNMENT::CENTERRIGHT;

    case ALIGNMENT::TOPLEFT:       return ALIGNMENT::TOPRIGHT;


    //Change right to left:

    case ALIGNMENT::BOTTOMRIGHT:   return ALIGNMENT::BOTTOMLEFT;

    case ALIGNMENT::CENTERRIGHT:   return ALIGNMENT::CENTERLEFT;

    case ALIGNMENT::TOPRIGHT:      return ALIGNMENT::TOPLEFT;


    // Center alignment does not mirror:

    case ALIGNMENT::BOTTOMCENTER:

    case ALIGNMENT::CENTERCENTER:

    case ALIGNMENT::TOPCENTER:     return aCadstarAlignment;


    // Shouldn't be here

    default: wxFAIL_MSG( "Unknown Cadstar Alignment" ); return aCadstarAlignment;

    }

}


CADSTAR_SCH_ARCHIVE_LOADER::ALIGNMENT

CADSTAR_SCH_ARCHIVE_LOADER::rotate180( const ALIGNMENT& aCadstarAlignment )

{

    switch( aCadstarAlignment )

    {

    case ALIGNMENT::NO_ALIGNMENT:

    case ALIGNMENT::BOTTOMLEFT:    return ALIGNMENT::TOPRIGHT;

    case ALIGNMENT::BOTTOMCENTER:  return ALIGNMENT::TOPCENTER;

    case ALIGNMENT::BOTTOMRIGHT:   return ALIGNMENT::TOPLEFT;

    case ALIGNMENT::TOPLEFT:       return ALIGNMENT::BOTTOMRIGHT;

    case ALIGNMENT::TOPCENTER:     return ALIGNMENT::BOTTOMCENTER;

    case ALIGNMENT::TOPRIGHT:      return ALIGNMENT::BOTTOMLEFT;

    case ALIGNMENT::CENTERLEFT:    return ALIGNMENT::CENTERRIGHT;

    case ALIGNMENT::CENTERCENTER:  return ALIGNMENT::CENTERCENTER;

    case ALIGNMENT::CENTERRIGHT:   return ALIGNMENT::CENTERLEFT;


    // Shouldn't be here

    default: wxFAIL_MSG( "Unknown Cadstar Alignment" ); return aCadstarAlignment;

    }

}


void CADSTAR_SCH_ARCHIVE_LOADER::applyTextCodeIfExists( EDA_TEXT*          aKiCadTextItem,

                                                        const TEXTCODE_ID& aCadstarTextCodeID )

{

    // Ensure we have no Cadstar overbar characters

    wxString escapedText = HandleTextOverbar( aKiCadTextItem->GetText() );

    aKiCadTextItem->SetText( escapedText );


    if( !Assignments.Codedefs.TextCodes.count( aCadstarTextCodeID ) )

        return;


    TEXTCODE textCode = getTextCode( aCadstarTextCodeID );

    int      textHeight = KiROUND( (double) getKiCadLength( textCode.Height ) * TXT_HEIGHT_RATIO );

    int      textWidth = getKiCadLength( textCode.Width );


    // The width is zero for all non-cadstar fonts. Using a width equal to 2/3 the height seems

    // to work well for most fonts.

    if( textWidth == 0 )

        textWidth = getKiCadLength( 2LL * textCode.Height / 3LL );


    aKiCadTextItem->SetTextWidth( textWidth );

    aKiCadTextItem->SetTextHeight( textHeight );


#if 0

    // EEschema currently supports only normal vs bold for text thickness.

    aKiCadTextItem->SetTextThickness( getKiCadLength( textCode.LineWidth ) );

#endif


    // Must come after SetTextSize()

    aKiCadTextItem->SetBold( textCode.Font.Modifier1 == FONT_BOLD );

    aKiCadTextItem->SetItalic( textCode.Font.Italic );

}


void CADSTAR_SCH_ARCHIVE_LOADER::applyTextSettings( EDA_TEXT*            aKiCadTextItem,

                                                    const TEXTCODE_ID&   aCadstarTextCodeID,

                                                    const ALIGNMENT&     aCadstarAlignment,

                                                    const JUSTIFICATION& aCadstarJustification,

                                                    const long long      aCadstarOrientAngle,

                                                    bool                 aMirrored )

{

    applyTextCodeIfExists( aKiCadTextItem, aCadstarTextCodeID );

    aKiCadTextItem->SetTextAngle( getAngle( aCadstarOrientAngle ) );


    // Justification ignored for now as not supported in Eeschema, but leaving this code in

    // place for future upgrades.

    // TODO update this when Eeschema supports justification independent of anchor position.

    ALIGNMENT textAlignment = aCadstarAlignment;


    // KiCad mirrors the justification and alignment when the symbol is mirrored but CADSTAR

    // specifies it post-mirroring. In contrast, if the text item itself is mirrored (not

    // supported in KiCad), CADSTAR specifies the alignment and justification pre-mirroring

    if( aMirrored )

        textAlignment = mirrorX( aCadstarAlignment );


    auto setAlignment =

            [&]( EDA_TEXT* aText, ALIGNMENT aAlignment )

            {

                switch( aAlignment )

                {

                case ALIGNMENT::NO_ALIGNMENT: // Bottom left of the first line

                    //No exact KiCad equivalent, so lets move the position of the text

                    FixTextPositionNoAlignment( aText );

                    KI_FALLTHROUGH;

                case ALIGNMENT::BOTTOMLEFT:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );

                    break;


                case ALIGNMENT::BOTTOMCENTER:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );

                    break;


                case ALIGNMENT::BOTTOMRIGHT:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );

                    break;


                case ALIGNMENT::CENTERLEFT:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );

                    break;


                case ALIGNMENT::CENTERCENTER:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );

                    break;


                case ALIGNMENT::CENTERRIGHT:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );

                    break;


                case ALIGNMENT::TOPLEFT:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );

                    break;


                case ALIGNMENT::TOPCENTER:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );

                    break;


                case ALIGNMENT::TOPRIGHT:

                    aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );

                    aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );

                    break;

                }

            };


    SPIN_STYLE spin = getSpinStyle( aCadstarOrientAngle, aMirrored );

    EDA_ITEM*  textEdaItem = dynamic_cast<EDA_ITEM*>( aKiCadTextItem );

    wxCHECK( textEdaItem, /* void */ ); // ensure this is a EDA_ITEM


    if( textEdaItem->Type() == SCH_FIELD_T )

    {

        // Spin style not used. All text justifications are permitted. However, only orientations

        // of 0 deg or 90 deg are supported

        EDA_ANGLE angle = aKiCadTextItem->GetTextAngle();

        angle.Normalize();


        int quadrant = KiROUND( angle.AsDegrees() / 90.0 );

        quadrant %= 4;


        switch( quadrant )

        {

        case 0:

            angle = ANGLE_HORIZONTAL;

            break;

        case 1:

            angle = ANGLE_VERTICAL;

            break;

        case 2:

            angle = ANGLE_HORIZONTAL;

            textAlignment = rotate180( textAlignment );

            break;

        case 3:

            angle = ANGLE_VERTICAL;

            textAlignment = rotate180( textAlignment );

            break;

        default:

            wxFAIL_MSG( "Unknown Quadrant" );

        }


        aKiCadTextItem->SetTextAngle( angle );

        setAlignment( aKiCadTextItem, textAlignment );

    }

    else if( textEdaItem->Type() == SCH_TEXT_T )

    {

        // Note spin style in a SCH_TEXT results in a vertical alignment GR_TEXT_V_ALIGN_BOTTOM

        // so need to adjust the location of the text element based on Cadstar's original text

        // alignment (anchor position).

        setAlignment( aKiCadTextItem, textAlignment );

        BOX2I    bb = textEdaItem->GetBoundingBox();

        int      off = static_cast<SCH_TEXT*>( aKiCadTextItem )->GetTextOffset();

        VECTOR2I pos;


        // Change the anchor point of the text item to make it match the same bounding box

        // And correct the error introduced by the text offsetting in KiCad

        switch( spin )

        {

        case SPIN_STYLE::BOTTOM: pos = { bb.GetRight() - off, bb.GetTop()          }; break;

        case SPIN_STYLE::UP:     pos = { bb.GetRight() - off, bb.GetBottom()       }; break;

        case SPIN_STYLE::LEFT:   pos = { bb.GetRight()      , bb.GetBottom() + off }; break;

        case SPIN_STYLE::RIGHT:  pos = { bb.GetLeft()       , bb.GetBottom() + off }; break;

        default:                 wxFAIL_MSG( "Unexpected Spin Style" );               break;

        }


        aKiCadTextItem->SetTextPos( pos );


        switch( spin )

        {

        case SPIN_STYLE::RIGHT:            // Horiz Normal Orientation

            aKiCadTextItem->SetTextAngle( ANGLE_HORIZONTAL );

            aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );

            break;


        case SPIN_STYLE::UP:               // Vert Orientation UP

            aKiCadTextItem->SetTextAngle( ANGLE_VERTICAL );

            aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );

            break;


        case SPIN_STYLE::LEFT:             // Horiz Orientation - Right justified

            aKiCadTextItem->SetTextAngle( ANGLE_HORIZONTAL );

            aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );

            break;


        case SPIN_STYLE::BOTTOM:           //  Vert Orientation BOTTOM

            aKiCadTextItem->SetTextAngle( ANGLE_VERTICAL );

            aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );

            break;


        default:

            wxFAIL_MSG( "Unexpected Spin Style" );

            break;

        }


        aKiCadTextItem->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );

    }

    else if( SCH_LABEL_BASE* label = dynamic_cast<SCH_LABEL_BASE*>( aKiCadTextItem ) )

    {

        // We don't want to change position of net labels as that would break connectivity

        label->SetSpinStyle( spin );

    }

    else

    {

        wxFAIL_MSG( "Unexpected item type" );

    }

}


SCH_TEXT* CADSTAR_SCH_ARCHIVE_LOADER::getKiCadSchText( const TEXT& aCadstarTextElement )

{

    SCH_TEXT* kiTxt = new SCH_TEXT();


    kiTxt->SetParent( m_schematic ); // set to the schematic for now to avoid asserts

    kiTxt->SetPosition( getKiCadPoint( aCadstarTextElement.Position ) );

    kiTxt->SetText( aCadstarTextElement.Text );


    applyTextSettings( kiTxt, aCadstarTextElement.TextCodeID, aCadstarTextElement.Alignment,

                       aCadstarTextElement.Justification, aCadstarTextElement.OrientAngle,

                       aCadstarTextElement.Mirror );


    return kiTxt;

}


LIB_SYMBOL* CADSTAR_SCH_ARCHIVE_LOADER::getScaledLibPart( const LIB_SYMBOL* aSymbol,

                                                          long long aScalingFactorNumerator,

                                                          long long aScalingFactorDenominator )

{

    LIB_SYMBOL* retval = new LIB_SYMBOL( *aSymbol );


    if( aScalingFactorNumerator == aScalingFactorDenominator )

        return retval; // 1:1 scale, nothing to do


    auto scaleLen =

        [&]( int aLength ) -> int

        {

            return( aLength * aScalingFactorNumerator ) / aScalingFactorDenominator;

        };


    auto scalePt =

        [&]( VECTOR2I aCoord ) -> VECTOR2I

        {

            return VECTOR2I( scaleLen( aCoord.x ), scaleLen( aCoord.y ) );

        };


    auto scaleSize =

        [&]( VECTOR2I aSize ) -> VECTOR2I

        {

            return VECTOR2I( scaleLen( aSize.x ), scaleLen( aSize.y ) );

        };


    LIB_ITEMS_CONTAINER& items = retval->GetDrawItems();


    for( SCH_ITEM& item : items )

    {

        switch( item.Type() )

        {

        case KICAD_T::SCH_SHAPE_T:

        {

            SCH_SHAPE& shape = static_cast<SCH_SHAPE&>( item );


            if( shape.GetShape() == SHAPE_T::ARC )

            {

                shape.SetPosition( scalePt( shape.GetPosition() ) );

                shape.SetStart( scalePt( shape.GetStart() ) );

                shape.SetEnd( scalePt( shape.GetEnd() ) );

            }

            else if( shape.GetShape() == SHAPE_T::POLY )

            {

                SHAPE_LINE_CHAIN& poly = shape.GetPolyShape().Outline( 0 );


                for( size_t ii = 0; ii < poly.GetPointCount(); ++ii )

                    poly.SetPoint( ii, scalePt( poly.CPoint( ii ) ) );

            }

            break;

        }


        case KICAD_T::SCH_PIN_T:

        {

            SCH_PIN& pin = static_cast<SCH_PIN&>( item );


            pin.SetPosition( scalePt( pin.GetPosition() ) );

            pin.SetLength( scaleLen( pin.GetLength() ) );

            break;

        }


        case KICAD_T::SCH_TEXT_T:

        {

            SCH_TEXT& txt = static_cast<SCH_TEXT&>( item );


            txt.SetPosition( scalePt( txt.GetPosition() ) );

            txt.SetTextSize( scaleSize( txt.GetTextSize() ) );

            break;

        }


        default:

            break;

        }

    }


    return retval;

}


void CADSTAR_SCH_ARCHIVE_LOADER::fixUpLibraryPins( LIB_SYMBOL* aSymbolToFix, int aGateNumber )

{

    auto compLambda =

            []( const VECTOR2I& aA, const VECTOR2I& aB )

            {

                return LexicographicalCompare( aA, aB ) < 0;

            };


    // Store a list of vertical or horizontal segments in the symbol

    // Note: Need the custom comparison function to ensure the map is sorted correctly

    std::map<VECTOR2I, SHAPE_LINE_CHAIN, decltype( compLambda )> uniqueSegments( compLambda );


    LIB_ITEMS_CONTAINER::ITERATOR shapeIt = aSymbolToFix->GetDrawItems().begin( SCH_SHAPE_T );


    for( ; shapeIt != aSymbolToFix->GetDrawItems().end( SCH_SHAPE_T ); ++shapeIt )

    {

        SCH_SHAPE& shape = static_cast<SCH_SHAPE&>( *shapeIt );


        if( aGateNumber > 0 && shape.GetUnit() != aGateNumber )

            continue;


        if( shape.GetShape() != SHAPE_T::POLY )

            continue;


        SHAPE_LINE_CHAIN poly = shape.GetPolyShape().Outline( 0 );


        if( poly.GetPointCount() == 2 )

        {

            VECTOR2I pt0 = poly.CPoint( 0 );

            VECTOR2I pt1 = poly.CPoint( 1 );


            if( pt0 != pt1 && uniqueSegments.count( pt0 ) == 0 && uniqueSegments.count( pt1 ) == 0 )

            {

                // we are only interested in vertical or horizontal segments

                if( pt0.x == pt1.x || pt0.y == pt1.y )

                {

                    uniqueSegments.insert( { pt0, poly } );

                    uniqueSegments.insert( { pt1, poly } );

                }

            }

        }

    }


    for( SCH_PIN* pin : aSymbolToFix->GetPins( aGateNumber, 0 ) )

    {

        auto setPinOrientation =

                [&]( const EDA_ANGLE& aAngle )

                {

                    EDA_ANGLE angle( aAngle );

                    angle.Normalize180();


                    if( angle >= -ANGLE_45 && angle <= ANGLE_45 )

                        pin->SetOrientation( PIN_ORIENTATION::PIN_RIGHT ); // 0 degrees

                    else if( angle >= ANGLE_45 && angle <= ANGLE_135 )

                        pin->SetOrientation( PIN_ORIENTATION::PIN_UP ); // 90 degrees

                    else if( angle >= ANGLE_135 || angle <= -ANGLE_135 )

                        pin->SetOrientation( PIN_ORIENTATION::PIN_LEFT ); // 180 degrees

                    else

                        pin->SetOrientation( PIN_ORIENTATION::PIN_DOWN ); // -90 degrees

                };


        if( uniqueSegments.count( pin->GetPosition() ) )

        {

            SHAPE_LINE_CHAIN& poly = uniqueSegments.at( pin->GetPosition() );


            VECTOR2I otherPt = poly.CPoint( 0 );


            if( otherPt == pin->GetPosition() )

                otherPt = poly.CPoint( 1 );


            VECTOR2I vec( otherPt - pin->GetPosition() );


            pin->SetLength( vec.EuclideanNorm() );

            setPinOrientation( EDA_ANGLE( vec ) );

        }

    }

}


std::pair<VECTOR2I, VECTOR2I>

CADSTAR_SCH_ARCHIVE_LOADER::getFigureExtentsKiCad( const FIGURE& aCadstarFigure )

{

    VECTOR2I upperLeft( Assignments.Settings.DesignLimit.x, 0 );

    VECTOR2I lowerRight( 0, Assignments.Settings.DesignLimit.y );


    for( const VERTEX& v : aCadstarFigure.Shape.Vertices )

    {

        if( upperLeft.x > v.End.x )

            upperLeft.x = v.End.x;


        if( upperLeft.y < v.End.y )

            upperLeft.y = v.End.y;


        if( lowerRight.x < v.End.x )

            lowerRight.x = v.End.x;


        if( lowerRight.y > v.End.y )

            lowerRight.y = v.End.y;

    }


    for( CUTOUT cutout : aCadstarFigure.Shape.Cutouts )

    {

        for( const VERTEX& v : aCadstarFigure.Shape.Vertices )

        {

            if( upperLeft.x > v.End.x )

                upperLeft.x = v.End.x;


            if( upperLeft.y < v.End.y )

                upperLeft.y = v.End.y;


            if( lowerRight.x < v.End.x )

                lowerRight.x = v.End.x;


            if( lowerRight.y > v.End.y )

                lowerRight.y = v.End.y;

        }

    }


    VECTOR2I upperLeftKiCad = getKiCadPoint( upperLeft );

    VECTOR2I lowerRightKiCad = getKiCadPoint( lowerRight );


    VECTOR2I size = lowerRightKiCad - upperLeftKiCad;


    return { upperLeftKiCad, VECTOR2I( abs( size.x ), abs( size.y ) ) };

}


VECTOR2I CADSTAR_SCH_ARCHIVE_LOADER::getKiCadPoint( const VECTOR2I& aCadstarPoint )

{

    VECTOR2I retval;


    retval.x = getKiCadLength( aCadstarPoint.x - m_designCenter.x );

    retval.y = -getKiCadLength( aCadstarPoint.y - m_designCenter.y );


    return retval;

}


VECTOR2I CADSTAR_SCH_ARCHIVE_LOADER::getKiCadLibraryPoint( const VECTOR2I& aCadstarPoint,

                                                           const VECTOR2I& aCadstarCentre )

{

    VECTOR2I retval;


    retval.x = getKiCadLength( aCadstarPoint.x - aCadstarCentre.x );

    retval.y = -getKiCadLength( aCadstarPoint.y - aCadstarCentre.y );


    return retval;

}


VECTOR2I CADSTAR_SCH_ARCHIVE_LOADER::applyTransform( const VECTOR2I& aPoint,

                                                     const VECTOR2I& aMoveVector,

                                                     const EDA_ANGLE& aRotation,

                                                     const double& aScalingFactor,

                                                     const VECTOR2I& aTransformCentre,

                                                     const bool& aMirrorInvert )

{

    VECTOR2I retVal = aPoint;


    if( aScalingFactor != 1.0 )

    {

        //scale point

        retVal -= aTransformCentre;

        retVal.x = KiROUND( retVal.x * aScalingFactor );

        retVal.y = KiROUND( retVal.y * aScalingFactor );

        retVal += aTransformCentre;

    }


    if( aMirrorInvert )

        MIRROR( retVal.x, aTransformCentre.x );


    if( !aRotation.IsZero() )

        RotatePoint( retVal, aTransformCentre, aRotation );


    if( aMoveVector != VECTOR2I{ 0, 0 } )

        retVal += aMoveVector;


    return retVal;

}


double CADSTAR_SCH_ARCHIVE_LOADER::getPolarRadius( const VECTOR2I& aPoint )

{

    return sqrt( ( (double) aPoint.x * (double) aPoint.x )

                 + ( (double) aPoint.y * (double) aPoint.y ) );

}

name
const char * name
Definition: DXF_plotter.cpp:62

schIUScale
constexpr EDA_IU_SCALE schIUScale
Definition: base_units.h:114

SCH_IU_PER_MM
constexpr double SCH_IU_PER_MM
Schematic internal units 1=100nm.
Definition: base_units.h:72

BITMAPS::copy
@ copy

BITMAPS::pin
@ pin

BITMAPS::grid
@ grid

KiROUND
constexpr BOX2I KiROUND(const BOX2D &aBoxD)
Definition: box2.h:990

bus_alias.h

CADSTAR_PIN_TYPE
CADSTAR_PIN_TYPE
file: cadstar_archive_objects.h Contains common object definitions
Definition: cadstar_archive_objects.h:31

SYMBOL_NAME_ATTRID
#define SYMBOL_NAME_ATTRID
Symbol Name attribute ID - used for placement of designators on the schematic.
Definition: cadstar_archive_parser.h:77

SIGNALNAME_ORIGIN_ATTRID
#define SIGNALNAME_ORIGIN_ATTRID
Definition: cadstar_archive_parser.h:79

LINK_ORIGIN_ATTRID
#define LINK_ORIGIN_ATTRID
Definition: cadstar_archive_parser.h:78

PART_NAME_ATTRID
#define PART_NAME_ATTRID
Definition: cadstar_archive_parser.h:80

cadstar_parts_lib_parser.h

PartAcceptanceFieldName
const wxString PartAcceptanceFieldName
Definition: cadstar_sch_archive_loader.cpp:56

PartNumberFieldName
const wxString PartNumberFieldName
Definition: cadstar_sch_archive_loader.cpp:54

PartNameFieldName
const wxString PartNameFieldName
Definition: cadstar_sch_archive_loader.cpp:53

PartVersionFieldName
const wxString PartVersionFieldName
Definition: cadstar_sch_archive_loader.cpp:55

cadstar_sch_archive_loader.h
Loads a csa file into a KiCad SCHEMATIC object.

BOX2< VECTOR2I >

BOX2::Centre
constexpr Vec Centre() const
Definition: box2.h:97

BOX2::Merge
constexpr BOX2< Vec > & Merge(const BOX2< Vec > &aRect)
Modify the position and size of the rectangle in order to contain aRect.
Definition: box2.h:658

BOX2::GetLeft
constexpr coord_type GetLeft() const
Definition: box2.h:228

BOX2::GetRight
constexpr coord_type GetRight() const
Definition: box2.h:217

BOX2::GetSize
constexpr const SizeVec & GetSize() const
Definition: box2.h:206

BOX2::GetTop
constexpr coord_type GetTop() const
Definition: box2.h:229

BOX2::GetBottom
constexpr coord_type GetBottom() const
Definition: box2.h:222

CADSTAR_ARCHIVE_PARSER::VERTEX_TYPE::CLOCKWISE_SEMICIRCLE
@ CLOCKWISE_SEMICIRCLE

CADSTAR_ARCHIVE_PARSER::VERTEX_TYPE::ANTICLOCKWISE_ARC
@ ANTICLOCKWISE_ARC

CADSTAR_ARCHIVE_PARSER::VERTEX_TYPE::VT_POINT
@ VT_POINT

CADSTAR_ARCHIVE_PARSER::VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE
@ ANTICLOCKWISE_SEMICIRCLE

CADSTAR_ARCHIVE_PARSER::VERTEX_TYPE::CLOCKWISE_ARC
@ CLOCKWISE_ARC

CADSTAR_ARCHIVE_PARSER::EscapeFieldText
static wxString EscapeFieldText(const wxString &aFieldText)
Definition: cadstar_archive_parser.h:1396

CADSTAR_ARCHIVE_PARSER::GRID_TYPE::FRACTIONALGRID
@ FRACTIONALGRID
Param1 = Units, Param2 = Divisor.

CADSTAR_ARCHIVE_PARSER::FONT_BOLD
static const long FONT_BOLD
Definition: cadstar_archive_parser.h:331

CADSTAR_ARCHIVE_PARSER::GATE_ID
wxString GATE_ID
Definition: cadstar_archive_parser.h:111

CADSTAR_ARCHIVE_PARSER::CADSTAR_TO_KICAD_FIELDS
static const std::map< TEXT_FIELD_NAME, wxString > CADSTAR_TO_KICAD_FIELDS
Map between CADSTAR fields and KiCad text variables.
Definition: cadstar_archive_parser.h:172

CADSTAR_ARCHIVE_PARSER::TERMINAL_ID
long TERMINAL_ID
Terminal is the pin identifier in the schematic.
Definition: cadstar_archive_parser.h:112

CADSTAR_ARCHIVE_PARSER::m_context
PARSER_CONTEXT m_context
Definition: cadstar_archive_parser.h:1429

CADSTAR_ARCHIVE_PARSER::PART_ID
wxString PART_ID
Definition: cadstar_archive_parser.h:110

CADSTAR_ARCHIVE_PARSER::TEXT_FIELD_NAME
TEXT_FIELD_NAME
These are special fields in text objects enclosed between the tokens '<@' and '>' such as <@[FIELD_NA...
Definition: cadstar_archive_parser.h:144

CADSTAR_ARCHIVE_PARSER::TEXT_FIELD_NAME::DESIGN_TITLE
@ DESIGN_TITLE

CADSTAR_ARCHIVE_PARSER::TEXT_FIELD_NAME::VARIANT_DESCRIPTION
@ VARIANT_DESCRIPTION

CADSTAR_ARCHIVE_PARSER::TEXT_FIELD_NAME::VARIANT_NAME
@ VARIANT_NAME

CADSTAR_ARCHIVE_PARSER::ALIGNMENT
ALIGNMENT
From CADSTAR Help: "Text Alignment enables you to define the position of an alignment origin for all ...
Definition: cadstar_archive_parser.h:612

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::CENTERCENTER
@ CENTERCENTER

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::BOTTOMCENTER
@ BOTTOMCENTER

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::CENTERRIGHT
@ CENTERRIGHT

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::TOPRIGHT
@ TOPRIGHT

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::BOTTOMLEFT
@ BOTTOMLEFT

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::BOTTOMRIGHT
@ BOTTOMRIGHT

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::TOPCENTER
@ TOPCENTER

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::NO_ALIGNMENT
@ NO_ALIGNMENT
NO_ALIGNMENT has different meaning depending on the object type.

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::TOPLEFT
@ TOPLEFT

CADSTAR_ARCHIVE_PARSER::ALIGNMENT::CENTERLEFT
@ CENTERLEFT

CADSTAR_ARCHIVE_PARSER::UNDEFINED_VALUE
static const long UNDEFINED_VALUE
Definition: cadstar_archive_parser.h:124

CADSTAR_ARCHIVE_PARSER::generateLibName
static wxString generateLibName(const wxString &aRefName, const wxString &aAlternateName)
Definition: cadstar_archive_parser.cpp:2802

CADSTAR_ARCHIVE_PARSER::SYMDEF_ID
wxString SYMDEF_ID
Definition: cadstar_archive_parser.h:109

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_ID
wxString ATTRIBUTE_ID
Definition: cadstar_archive_parser.h:108

CADSTAR_ARCHIVE_PARSER::LAYER_ID
wxString LAYER_ID
ID of a Sheet (if schematic) or board Layer (if PCB)
Definition: cadstar_archive_parser.h:106

CADSTAR_ARCHIVE_PARSER::FixTextPositionNoAlignment
static void FixTextPositionNoAlignment(EDA_TEXT *aKiCadTextItem)
Correct the position of a text element that had NO_ALIGNMENT in CADSTAR.
Definition: cadstar_archive_parser.cpp:2783

CADSTAR_ARCHIVE_PARSER::ROUTECODE_ID
wxString ROUTECODE_ID
Definition: cadstar_archive_parser.h:102

CADSTAR_ARCHIVE_PARSER::SHAPE_TYPE::OUTLINE
@ OUTLINE
Unfilled closed shape.

CADSTAR_ARCHIVE_PARSER::SHAPE_TYPE::OPENSHAPE
@ OPENSHAPE
Unfilled open shape. Cannot have cutouts.

CADSTAR_ARCHIVE_PARSER::SHAPE_TYPE::SOLID
@ SOLID
Filled closed shape (solid fill).

CADSTAR_ARCHIVE_PARSER::SHAPE_TYPE::HATCHED
@ HATCHED
Filled closed shape (hatch fill).

CADSTAR_ARCHIVE_PARSER::TXT_HEIGHT_RATIO
static const double TXT_HEIGHT_RATIO
CADSTAR fonts are drawn on a 24x24 integer matrix, where the each axis goes from 0 to 24.
Definition: cadstar_archive_parser.h:137

CADSTAR_ARCHIVE_PARSER::LINESTYLE::DASHDOTDOT
@ DASHDOTDOT

CADSTAR_ARCHIVE_PARSER::LINESTYLE::DOT
@ DOT

CADSTAR_ARCHIVE_PARSER::LINESTYLE::DASHDOT
@ DASHDOT

CADSTAR_ARCHIVE_PARSER::LINESTYLE::DASH
@ DASH

CADSTAR_ARCHIVE_PARSER::LINESTYLE::SOLID
@ SOLID

CADSTAR_ARCHIVE_PARSER::NETELEMENT_ID
wxString NETELEMENT_ID
Definition: cadstar_archive_parser.h:120

CADSTAR_ARCHIVE_PARSER::LINECODE_ID
wxString LINECODE_ID
Definition: cadstar_archive_parser.h:100

CADSTAR_ARCHIVE_PARSER::checkPoint
void checkPoint()
Updates m_progressReporter or throws if user canceled.
Definition: cadstar_archive_parser.cpp:2812

CADSTAR_ARCHIVE_PARSER::TEXTCODE_ID
wxString TEXTCODE_ID
Definition: cadstar_archive_parser.h:105

CADSTAR_ARCHIVE_PARSER::HandleTextOverbar
static wxString HandleTextOverbar(wxString aCadstarString)
Convert a string with CADSTAR overbar characters to equivalent in KiCad.
Definition: cadstar_archive_parser.cpp:2773

CADSTAR_ARCHIVE_PARSER::JUSTIFICATION
JUSTIFICATION
From CADSTAR Help: "Multi Line Text can also be justified as Left, Centre or Right.
Definition: cadstar_archive_parser.h:637

CADSTAR_ARCHIVE_PARSER::JUSTIFICATION::LEFT
@ LEFT

CADSTAR_ARCHIVE_PARSER::m_progressReporter
PROGRESS_REPORTER * m_progressReporter
Definition: cadstar_archive_parser.h:1430

CADSTAR_PARTS_LIB_PARSER
Definition: cadstar_parts_lib_parser.h:30

CADSTAR_PARTS_LIB_PARSER::CheckFileHeader
bool CheckFileHeader(const std::filesystem::path &aPath) const
Definition: cadstar_parts_lib_parser.cpp:545

CADSTAR_PARTS_LIB_PARSER::ReadFile
CADSTAR_PARTS_LIB_MODEL ReadFile(const std::filesystem::path &aPath) const
Definition: cadstar_parts_lib_parser.cpp:587

CADSTAR_SCH_ARCHIVE_LOADER::addNewFieldToSymbol
static SCH_FIELD * addNewFieldToSymbol(const wxString &aFieldName, std::unique_ptr< LIB_SYMBOL > &aKiCadSymbol)
Definition: cadstar_sch_archive_loader.cpp:1586

CADSTAR_SCH_ARCHIVE_LOADER::loadItemOntoKiCadSheet
void loadItemOntoKiCadSheet(const LAYER_ID &aCadstarSheetID, SCH_ITEM *aItem)
Definition: cadstar_sch_archive_loader.cpp:2645

CADSTAR_SCH_ARCHIVE_LOADER::loadTexts
void loadTexts()
Definition: cadstar_sch_archive_loader.cpp:1449

CADSTAR_SCH_ARCHIVE_LOADER::Load
void Load(SCHEMATIC *aSchematic, SCH_SHEET *aRootSheet)
Loads a CADSTAR Schematic Archive file into the KiCad SCHEMATIC object given.
Definition: cadstar_sch_archive_loader.cpp:332

CADSTAR_SCH_ARCHIVE_LOADER::getRouteCode
ROUTECODE getRouteCode(const ROUTECODE_ID &aCadstarRouteCodeID)
Definition: cadstar_sch_archive_loader.cpp:2813

CADSTAR_SCH_ARCHIVE_LOADER::CreateLibName
static wxString CreateLibName(const wxFileName &aFileName, const SCH_SHEET *aRootSheet)
Definition: cadstar_sch_archive_loader.cpp:59

CADSTAR_SCH_ARCHIVE_LOADER::m_sheetPinMap
std::map< BLOCK_PIN_ID, SCH_HIERLABEL * > m_sheetPinMap
Cadstar->KiCad Sheet Pins.
Definition: cadstar_sch_archive_loader.h:127

CADSTAR_SCH_ARCHIVE_LOADER::SMALL_LABEL_SIZE
const int SMALL_LABEL_SIZE
Definition: cadstar_sch_archive_loader.h:61

CADSTAR_SCH_ARCHIVE_LOADER::applyTransform
VECTOR2I applyTransform(const VECTOR2I &aPoint, const VECTOR2I &aMoveVector={ 0, 0 }, const EDA_ANGLE &aRotation=ANGLE_0, const double &aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, const bool &aMirrorInvert=false)
Definition: cadstar_sch_archive_loader.cpp:3410

CADSTAR_SCH_ARCHIVE_LOADER::m_globalLabelsMap
std::map< SYMBOL_ID, SCH_GLOBALLABEL * > m_globalLabelsMap
Cadstar->KiCad Global Labels.
Definition: cadstar_sch_archive_loader.h:131

CADSTAR_SCH_ARCHIVE_LOADER::loadSchematicSymbol
SCH_SYMBOL * loadSchematicSymbol(const SYMBOL &aCadstarSymbol, const LIB_SYMBOL &aKiCadPart, EDA_ANGLE &aComponentOrientation)
Definition: cadstar_sch_archive_loader.cpp:2072

CADSTAR_SCH_ARCHIVE_LOADER::applyTextSettings
void applyTextSettings(EDA_TEXT *aKiCadTextItem, const TEXTCODE_ID &aCadstarTextCodeID, const ALIGNMENT &aCadstarAlignment, const JUSTIFICATION &aCadstarJustification, const long long aCadstarOrientAngle=0, bool aMirrored=false)
Definition: cadstar_sch_archive_loader.cpp:2986

CADSTAR_SCH_ARCHIVE_LOADER::loadSheetAndChildSheets
void loadSheetAndChildSheets(const LAYER_ID &aCadstarSheetID, const VECTOR2I &aPosition, const VECTOR2I &aSheetSize, const SCH_SHEET_PATH &aParentSheet)
Definition: cadstar_sch_archive_loader.cpp:2460

CADSTAR_SCH_ARCHIVE_LOADER::getAttributeName
wxString getAttributeName(const ATTRIBUTE_ID &aCadstarAttributeID)
Definition: cadstar_sch_archive_loader.cpp:2793

CADSTAR_SCH_ARCHIVE_LOADER::m_loadedSymbols
std::vector< LIB_SYMBOL * > m_loadedSymbols
Loaded symbols so far.
Definition: cadstar_sch_archive_loader.h:153

CADSTAR_SCH_ARCHIVE_LOADER::getPart
PART getPart(const PART_ID &aCadstarPartID)
Definition: cadstar_sch_archive_loader.cpp:2804

CADSTAR_SCH_ARCHIVE_LOADER::findOrphanSheets
std::vector< LAYER_ID > findOrphanSheets()
Definition: cadstar_sch_archive_loader.cpp:2604

CADSTAR_SCH_ARCHIVE_LOADER::m_busesMap
std::map< BUS_ID, std::shared_ptr< BUS_ALIAS > > m_busesMap
Cadstar->KiCad Buses.
Definition: cadstar_sch_archive_loader.h:132

CADSTAR_SCH_ARCHIVE_LOADER::getKiCadSchText
SCH_TEXT * getKiCadSchText(const TEXT &aCadstarTextElement)
Definition: cadstar_sch_archive_loader.cpp:3164

CADSTAR_SCH_ARCHIVE_LOADER::loadTextVariables
void loadTextVariables()
Definition: cadstar_sch_archive_loader.cpp:1522

CADSTAR_SCH_ARCHIVE_LOADER::TERMINAL_TO_PINNUM_MAP
std::map< TERMINAL_ID, wxString > TERMINAL_TO_PINNUM_MAP
Map between a terminal ID in a symbol definition to the pin number that should be imported into KiCad...
Definition: cadstar_sch_archive_loader.h:110

CADSTAR_SCH_ARCHIVE_LOADER::getNetName
wxString getNetName(const NET_SCH &aNet)
Definition: cadstar_sch_archive_loader.cpp:2354

CADSTAR_SCH_ARCHIVE_LOADER::BLOCK_PIN_ID
std::pair< BLOCK_ID, TERMINAL_ID > BLOCK_PIN_ID
Definition: cadstar_sch_archive_loader.h:103

CADSTAR_SCH_ARCHIVE_LOADER::m_powerSymMap
std::map< SYMBOL_ID, SCH_SYMBOL * > m_powerSymMap
Cadstar->KiCad Power Symbols.
Definition: cadstar_sch_archive_loader.h:129

CADSTAR_SCH_ARCHIVE_LOADER::PART_GATE_ID
std::pair< PART_ID, GATE_ID > PART_GATE_ID
Definition: cadstar_sch_archive_loader.h:104

CADSTAR_SCH_ARCHIVE_LOADER::loadDocumentationSymbols
void loadDocumentationSymbols()
Definition: cadstar_sch_archive_loader.cpp:1461

CADSTAR_SCH_ARCHIVE_LOADER::getKiCadLibraryPoint
VECTOR2I getKiCadLibraryPoint(const VECTOR2I &aCadstarPoint, const VECTOR2I &aCadstarCentre)
Definition: cadstar_sch_archive_loader.cpp:3398

CADSTAR_SCH_ARCHIVE_LOADER::m_reporter
REPORTER * m_reporter
Definition: cadstar_sch_archive_loader.h:114

CADSTAR_SCH_ARCHIVE_LOADER::getPartDefinitionPin
PART::DEFINITION::PIN getPartDefinitionPin(const PART &aCadstarPart, const GATE_ID &aGateID, const TERMINAL_ID &aTerminalID)
Definition: cadstar_sch_archive_loader.cpp:2824

CADSTAR_SCH_ARCHIVE_LOADER::PINNUM_TO_TERMINAL_MAP
std::map< wxString, TERMINAL_ID > PINNUM_TO_TERMINAL_MAP
Definition: cadstar_sch_archive_loader.h:112

CADSTAR_SCH_ARCHIVE_LOADER::m_symDefTerminalsMap
std::map< SYMDEF_ID, PINNUM_TO_TERMINAL_MAP > m_symDefTerminalsMap
Definition: cadstar_sch_archive_loader.h:134

CADSTAR_SCH_ARCHIVE_LOADER::getTextHeightFromTextCode
int getTextHeightFromTextCode(const TEXTCODE_ID &aCadstarTextCodeID)
Definition: cadstar_sch_archive_loader.cpp:2785

CADSTAR_SCH_ARCHIVE_LOADER::loadChildSheets
void loadChildSheets(const LAYER_ID &aCadstarSheetID, const SCH_SHEET_PATH &aSheet)
Definition: cadstar_sch_archive_loader.cpp:2506

CADSTAR_SCH_ARCHIVE_LOADER::applyToLibraryFieldAttribute
void applyToLibraryFieldAttribute(const ATTRIBUTE_LOCATION &aCadstarAttrLoc, const VECTOR2I &aSymbolOrigin, SCH_FIELD *aKiCadField)
Definition: cadstar_sch_archive_loader.cpp:2060

CADSTAR_SCH_ARCHIVE_LOADER::getPolarRadius
double getPolarRadius(const VECTOR2I &aPoint)
Definition: cadstar_sch_archive_loader.cpp:3441

CADSTAR_SCH_ARCHIVE_LOADER::setFootprintOnSymbol
void setFootprintOnSymbol(std::unique_ptr< LIB_SYMBOL > &aKiCadSymbol, const wxString &aFootprintName, const wxString &aFootprintAlternate)
Definition: cadstar_sch_archive_loader.cpp:1962

CADSTAR_SCH_ARCHIVE_LOADER::checkDesignLimits
void checkDesignLimits()
Definition: cadstar_sch_archive_loader.cpp:524

CADSTAR_SCH_ARCHIVE_LOADER::applyTextCodeIfExists
void applyTextCodeIfExists(EDA_TEXT *aKiCadTextItem, const TEXTCODE_ID &aCadstarTextCodeID)
Definition: cadstar_sch_archive_loader.cpp:2953

CADSTAR_SCH_ARCHIVE_LOADER::getSheetNumber
int getSheetNumber(const LAYER_ID &aCadstarSheetID)
Definition: cadstar_sch_archive_loader.cpp:2629

CADSTAR_SCH_ARCHIVE_LOADER::copySymbolItems
void copySymbolItems(std::unique_ptr< LIB_SYMBOL > &aSourceSym, std::unique_ptr< LIB_SYMBOL > &aDestSym, int aDestUnit, bool aOverrideFields=true)
Definition: cadstar_sch_archive_loader.cpp:300

CADSTAR_SCH_ARCHIVE_LOADER::getLineThickness
int getLineThickness(const LINECODE_ID &aCadstarLineCodeID)
Definition: cadstar_sch_archive_loader.cpp:2744

CADSTAR_SCH_ARCHIVE_LOADER::getTextCode
TEXTCODE getTextCode(const TEXTCODE_ID &aCadstarTextCodeID)
Definition: cadstar_sch_archive_loader.cpp:2775

CADSTAR_SCH_ARCHIVE_LOADER::getSpinStyle
SPIN_STYLE getSpinStyle(const long long &aCadstarOrientation, bool aMirror)
Definition: cadstar_sch_archive_loader.cpp:2868

CADSTAR_SCH_ARCHIVE_LOADER::m_powerSymLibMap
std::map< wxString, LIB_SYMBOL * > m_powerSymLibMap
NetName->KiCad Power Lib Symbol.
Definition: cadstar_sch_archive_loader.h:130

CADSTAR_SCH_ARCHIVE_LOADER::m_SymDefNamesCache
std::map< std::pair< wxString, wxString >, SYMDEF_ID > m_SymDefNamesCache
Cache storing symbol names and alternates to symdef IDs.
Definition: cadstar_sch_archive_loader.h:139

CADSTAR_SCH_ARCHIVE_LOADER::m_pinNumsMap
std::map< PART_ID, TERMINAL_TO_PINNUM_MAP > m_pinNumsMap
Cadstar Part->KiCad Pin number map.
Definition: cadstar_sch_archive_loader.h:133

CADSTAR_SCH_ARCHIVE_LOADER::loadHierarchicalSheetPins
void loadHierarchicalSheetPins()
Definition: cadstar_sch_archive_loader.cpp:609

CADSTAR_SCH_ARCHIVE_LOADER::LoadPartsLib
std::vector< LIB_SYMBOL * > LoadPartsLib(const wxString &aFilename)
Definition: cadstar_sch_archive_loader.cpp:79

CADSTAR_SCH_ARCHIVE_LOADER::m_schematic
SCHEMATIC * m_schematic
Definition: cadstar_sch_archive_loader.h:115

CADSTAR_SCH_ARCHIVE_LOADER::getKiCadPinType
ELECTRICAL_PINTYPE getKiCadPinType(const CADSTAR_PIN_TYPE &aPinType)
Definition: cadstar_sch_archive_loader.cpp:2840

CADSTAR_SCH_ARCHIVE_LOADER::m_footprintLibName
wxString m_footprintLibName
Name of the footprint library to prepend all footprints with.
Definition: cadstar_sch_archive_loader.h:118

CADSTAR_SCH_ARCHIVE_LOADER::getKiCadLength
int getKiCadLength(long long aCadstarLength)
Definition: cadstar_sch_archive_loader.h:292

CADSTAR_SCH_ARCHIVE_LOADER::m_partMap
std::map< PART_ID, LIB_SYMBOL * > m_partMap
Cadstar->KiCad Parts.
Definition: cadstar_sch_archive_loader.h:128

CADSTAR_SCH_ARCHIVE_LOADER::isAttributeVisible
bool isAttributeVisible(const ATTRIBUTE_ID &aCadstarAttributeID)
Definition: cadstar_sch_archive_loader.cpp:2734

CADSTAR_SCH_ARCHIVE_LOADER::getKiCadPoint
VECTOR2I getKiCadPoint(const VECTOR2I &aCadstarPoint)
Definition: cadstar_sch_archive_loader.cpp:3387

CADSTAR_SCH_ARCHIVE_LOADER::loadNets
void loadNets()
Definition: cadstar_sch_archive_loader.cpp:1100

CADSTAR_SCH_ARCHIVE_LOADER::getAngle
EDA_ANGLE getAngle(const long long &aCadstarAngle)
Definition: cadstar_sch_archive_loader.h:305

CADSTAR_SCH_ARCHIVE_LOADER::ARC_ACCURACY
const double ARC_ACCURACY
Definition: cadstar_sch_archive_loader.h:62

CADSTAR_SCH_ARCHIVE_LOADER::m_DefaultSymDefNamesCache
std::map< wxString, SYMDEF_ID > m_DefaultSymDefNamesCache
Cache storing symbol names (default alternate) to symdef IDs.
Definition: cadstar_sch_archive_loader.h:144

CADSTAR_SCH_ARCHIVE_LOADER::loadSymbolGateAndPartFields
void loadSymbolGateAndPartFields(const SYMDEF_ID &aSymdefID, const PART &aCadstarPart, const GATE_ID &aGateID, LIB_SYMBOL *aSymbol)
Definition: cadstar_sch_archive_loader.cpp:1821

CADSTAR_SCH_ARCHIVE_LOADER::loadPartsLibrary
void loadPartsLibrary()
Definition: cadstar_sch_archive_loader.cpp:657

CADSTAR_SCH_ARCHIVE_LOADER::loadSheets
void loadSheets()
Definition: cadstar_sch_archive_loader.cpp:551

CADSTAR_SCH_ARCHIVE_LOADER::loadFigure
void loadFigure(const FIGURE &aCadstarFigure, const LAYER_ID &aCadstarSheetIDOverride, SCH_LAYER_ID aKiCadSchLayerID, const VECTOR2I &aMoveVector={ 0, 0 }, const EDA_ANGLE &aRotation=ANGLE_0, const double &aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, const bool &aMirrorInvert=false)
Definition: cadstar_sch_archive_loader.cpp:2438

CADSTAR_SCH_ARCHIVE_LOADER::m_partSymbolsMap
std::map< PART_GATE_ID, SYMDEF_ID > m_partSymbolsMap
Map holding the symbols loaded so far for a particular PART_ID and GATE_ID.
Definition: cadstar_sch_archive_loader.h:154

CADSTAR_SCH_ARCHIVE_LOADER::m_rootSheet
SCH_SHEET * m_rootSheet
Definition: cadstar_sch_archive_loader.h:116

CADSTAR_SCH_ARCHIVE_LOADER::getScaledLibPart
LIB_SYMBOL * getScaledLibPart(const LIB_SYMBOL *aSymbol, long long aScalingFactorNumerator, long long aScalingFactorDenominator)
Definition: cadstar_sch_archive_loader.cpp:3180

CADSTAR_SCH_ARCHIVE_LOADER::getSymDefFromName
SYMDEF_ID getSymDefFromName(const wxString &aSymdefName, const wxString &aSymDefAlternate)
Definition: cadstar_sch_archive_loader.cpp:2685

CADSTAR_SCH_ARCHIVE_LOADER::getFigureExtentsKiCad
std::pair< VECTOR2I, VECTOR2I > getFigureExtentsKiCad(const FIGURE &aCadstarFigure)
Definition: cadstar_sch_archive_loader.cpp:3340

CADSTAR_SCH_ARCHIVE_LOADER::m_sheetMap
std::map< LAYER_ID, SCH_SHEET * > m_sheetMap
Cadstar->KiCad Sheets.
Definition: cadstar_sch_archive_loader.h:126

CADSTAR_SCH_ARCHIVE_LOADER::loadBusses
void loadBusses()
Definition: cadstar_sch_archive_loader.cpp:1019

CADSTAR_SCH_ARCHIVE_LOADER::getLocationOfNetElement
POINT getLocationOfNetElement(const NET_SCH &aNet, const NETELEMENT_ID &aNetElementID)
Definition: cadstar_sch_archive_loader.cpp:2252

CADSTAR_SCH_ARCHIVE_LOADER::fixUpLibraryPins
void fixUpLibraryPins(LIB_SYMBOL *aSymbolToFix, int aGateNumber)
Definition: cadstar_sch_archive_loader.cpp:3260

CADSTAR_SCH_ARCHIVE_LOADER::m_symDefMap
std::map< SYMDEF_ID, std::unique_ptr< const LIB_SYMBOL > > m_symDefMap
Cadstar->KiCad Lib Symbols loaded so far.
Definition: cadstar_sch_archive_loader.h:151

CADSTAR_SCH_ARCHIVE_LOADER::loadLibPart
std::unique_ptr< LIB_SYMBOL > loadLibPart(const CADSTAR_PART_ENTRY &aPart)
Definition: cadstar_sch_archive_loader.cpp:118

CADSTAR_SCH_ARCHIVE_LOADER::rotate180
ALIGNMENT rotate180(const ALIGNMENT &aCadstarAlignment)
Definition: cadstar_sch_archive_loader.cpp:2932

CADSTAR_SCH_ARCHIVE_LOADER::getCadstarAngle
long long getCadstarAngle(const EDA_ANGLE &aAngle)
Definition: cadstar_sch_archive_loader.h:320

CADSTAR_SCH_ARCHIVE_LOADER::loadLibrarySymbolShapeVertices
void loadLibrarySymbolShapeVertices(const std::vector< VERTEX > &aCadstarVertices, const VECTOR2I &aSymbolOrigin, LIB_SYMBOL *aSymbol, int aGateNumber, int aLineThickness)
Definition: cadstar_sch_archive_loader.cpp:1984

CADSTAR_SCH_ARCHIVE_LOADER::getLineStyle
LINE_STYLE getLineStyle(const LINECODE_ID &aCadstarLineCodeID)
Definition: cadstar_sch_archive_loader.cpp:2754

CADSTAR_SCH_ARCHIVE_LOADER::m_designCenter
VECTOR2I m_designCenter
Required for calculating the offset to apply to the Cadstar design so that it fits in the KiCad canva...
Definition: cadstar_sch_archive_loader.h:124

CADSTAR_SCH_ARCHIVE_LOADER::mirrorX
ALIGNMENT mirrorX(const ALIGNMENT &aCadstarAlignment)
Definition: cadstar_sch_archive_loader.cpp:2905

CADSTAR_SCH_ARCHIVE_LOADER::getComponentOrientation
int getComponentOrientation(const EDA_ANGLE &aOrientAngle, EDA_ANGLE &aReturnedOrientation)
Definition: cadstar_sch_archive_loader.cpp:2218

CADSTAR_SCH_ARCHIVE_LOADER::loadShapeVertices
void loadShapeVertices(const std::vector< VERTEX > &aCadstarVertices, LINECODE_ID aCadstarLineCodeID, LAYER_ID aCadstarSheetID, SCH_LAYER_ID aKiCadSchLayerID, const VECTOR2I &aMoveVector={ 0, 0 }, const EDA_ANGLE &aRotation=ANGLE_0, const double &aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, const bool &aMirrorInvert=false)
Definition: cadstar_sch_archive_loader.cpp:2365

CADSTAR_SCH_ARCHIVE_LOADER::loadSymdef
const LIB_SYMBOL * loadSymdef(const SYMDEF_ID &aSymdefID)
Definition: cadstar_sch_archive_loader.cpp:1606

CADSTAR_SCH_ARCHIVE_LOADER::getKiCadUnitNumberFromGate
int getKiCadUnitNumberFromGate(const GATE_ID &aCadstarGateID)
Definition: cadstar_sch_archive_loader.cpp:2859

CADSTAR_SCH_ARCHIVE_LOADER::loadFigures
void loadFigures()
Definition: cadstar_sch_archive_loader.cpp:1438

CADSTAR_SCH_ARCHIVE_LOADER::loadSymbolFieldAttribute
void loadSymbolFieldAttribute(const ATTRIBUTE_LOCATION &aCadstarAttrLoc, const EDA_ANGLE &aComponentOrientation, bool aIsMirrored, SCH_FIELD *aKiCadField)
Definition: cadstar_sch_archive_loader.cpp:2187

CADSTAR_SCH_ARCHIVE_LOADER::loadSchematicSymbolInstances
void loadSchematicSymbolInstances()
Definition: cadstar_sch_archive_loader.cpp:723

CADSTAR_SCH_ARCHIVE_PARSER::Assignments
ASSIGNMENTS_SCM Assignments
Definition: cadstar_sch_archive_parser.h:457

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK_ID
wxString BLOCK_ID
Definition: cadstar_sch_archive_parser.h:64

CADSTAR_SCH_ARCHIVE_PARSER::AttrColors
ATTRCOLORS AttrColors
Definition: cadstar_sch_archive_parser.h:462

CADSTAR_SCH_ARCHIVE_PARSER::Schematic
CADSTAR_SCHEMATIC Schematic
Definition: cadstar_sch_archive_parser.h:461

CADSTAR_SCH_ARCHIVE_PARSER::Sheets
SHEETS Sheets
Definition: cadstar_sch_archive_parser.h:460

CADSTAR_SCH_ARCHIVE_PARSER::KiCadUnitDivider
int KiCadUnitDivider
Use this value to convert units in this CSA file to KiCad units.
Definition: cadstar_sch_archive_parser.h:465

CADSTAR_SCH_ARCHIVE_PARSER::SymbolPartNameColor
PARTNAMECOL SymbolPartNameColor
Definition: cadstar_sch_archive_parser.h:463

CADSTAR_SCH_ARCHIVE_PARSER::Header
HEADER Header
Definition: cadstar_sch_archive_parser.h:456

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL_ID
wxString SYMBOL_ID
Definition: cadstar_sch_archive_parser.h:62

CADSTAR_SCH_ARCHIVE_PARSER::Parts
PARTS Parts
Definition: cadstar_sch_archive_parser.h:459

CADSTAR_SCH_ARCHIVE_PARSER::Parse
void Parse()
Parses the file.
Definition: cadstar_sch_archive_parser.cpp:33

CADSTAR_SCH_ARCHIVE_PARSER::Library
LIBRARY_SCM Library
Definition: cadstar_sch_archive_parser.h:458

CADSTAR_SCH_ARCHIVE_PARSER::Filename
wxString Filename
Definition: cadstar_sch_archive_parser.h:455

EDA_ANGLE
Definition: eda_angle.h:37

EDA_ANGLE::Normalize
EDA_ANGLE Normalize()
Definition: eda_angle.h:229

EDA_ANGLE::AsDegrees
double AsDegrees() const
Definition: eda_angle.h:116

EDA_ANGLE::IsZero
bool IsZero() const
Definition: eda_angle.h:136

EDA_ANGLE::Normalize180
EDA_ANGLE Normalize180()
Definition: eda_angle.h:268

EDA_ITEM
A base class for most all the KiCad significant classes used in schematics and boards.
Definition: eda_item.h:98

EDA_ITEM::GetBoundingBox
virtual const BOX2I GetBoundingBox() const
Return the orthogonal bounding box of this object for display purposes.
Definition: eda_item.cpp:110

EDA_ITEM::Type
KICAD_T Type() const
Returns the type of object.
Definition: eda_item.h:110

EDA_ITEM::SetParent
virtual void SetParent(EDA_ITEM *aParent)
Definition: eda_item.h:113

EDA_ITEM::GetParent
EDA_ITEM * GetParent() const
Definition: eda_item.h:112

EDA_SHAPE::GetPolyShape
SHAPE_POLY_SET & GetPolyShape()
Definition: eda_shape.h:337

EDA_SHAPE::GetShape
SHAPE_T GetShape() const
Definition: eda_shape.h:168

EDA_SHAPE::SetPolyShape
void SetPolyShape(const SHAPE_POLY_SET &aShape)
Definition: eda_shape.h:345

EDA_SHAPE::GetEnd
const VECTOR2I & GetEnd() const
Return the ending point of the graphic.
Definition: eda_shape.h:215

EDA_SHAPE::SetStart
void SetStart(const VECTOR2I &aStart)
Definition: eda_shape.h:177

EDA_SHAPE::GetStart
const VECTOR2I & GetStart() const
Return the starting point of the graphic.
Definition: eda_shape.h:173

EDA_SHAPE::SetEnd
void SetEnd(const VECTOR2I &aEnd)
Definition: eda_shape.h:219

EDA_SHAPE::SetArcGeometry
void SetArcGeometry(const VECTOR2I &aStart, const VECTOR2I &aMid, const VECTOR2I &aEnd)
Set the three controlling points for an arc.
Definition: eda_shape.cpp:1041

EDA_SHAPE::SetFillMode
void SetFillMode(FILL_T aFill)
Definition: eda_shape.cpp:540

EDA_TEXT
A mix-in class (via multiple inheritance) that handles texts such as labels, parts,...
Definition: eda_text.h:79

EDA_TEXT::GetTextHeight
int GetTextHeight() const
Definition: eda_text.h:264

EDA_TEXT::GetTextAngle
const EDA_ANGLE & GetTextAngle() const
Definition: eda_text.h:144

EDA_TEXT::SetTextSize
void SetTextSize(VECTOR2I aNewSize, bool aEnforceMinTextSize=true)
Definition: eda_text.cpp:533

EDA_TEXT::GetText
virtual const wxString & GetText() const
Return the string associated with the text object.
Definition: eda_text.h:97

EDA_TEXT::SetTextPos
void SetTextPos(const VECTOR2I &aPoint)
Definition: eda_text.cpp:578

EDA_TEXT::GetTextWidth
int GetTextWidth() const
Definition: eda_text.h:261

EDA_TEXT::SetVertJustify
void SetVertJustify(GR_TEXT_V_ALIGN_T aType)
Definition: eda_text.cpp:417

EDA_TEXT::SetTextWidth
void SetTextWidth(int aWidth)
Definition: eda_text.cpp:556

EDA_TEXT::SetVisible
virtual void SetVisible(bool aVisible)
Definition: eda_text.cpp:386

EDA_TEXT::SetTextThickness
void SetTextThickness(int aWidth)
The TextThickness is that set by the user.
Definition: eda_text.cpp:284

EDA_TEXT::SetTextHeight
void SetTextHeight(int aHeight)
Definition: eda_text.cpp:567

EDA_TEXT::SetBold
void SetBold(bool aBold)
Set the text to be bold - this will also update the font if needed.
Definition: eda_text.cpp:335

EDA_TEXT::SetText
virtual void SetText(const wxString &aText)
Definition: eda_text.cpp:270

EDA_TEXT::SetTextAngle
virtual void SetTextAngle(const EDA_ANGLE &aAngle)
Definition: eda_text.cpp:299

EDA_TEXT::GetTextThickness
int GetTextThickness() const
Definition: eda_text.h:125

EDA_TEXT::SetItalic
void SetItalic(bool aItalic)
Set the text to be italic - this will also update the font if needed.
Definition: eda_text.cpp:307

EDA_TEXT::SetMultilineAllowed
void SetMultilineAllowed(bool aAllow)
Definition: eda_text.cpp:401

EDA_TEXT::GetTextSize
VECTOR2I GetTextSize() const
Definition: eda_text.h:258

EDA_TEXT::SetHorizJustify
void SetHorizJustify(GR_TEXT_H_ALIGN_T aType)
Definition: eda_text.cpp:409

EE_RTREE::end
iterator end()
Return a read/write iterator that points to one past the last element in the EE_RTREE.
Definition: sch_rtree.h:289

EE_RTREE::begin
iterator begin()
Return a read/write iterator that points to the first.
Definition: sch_rtree.h:281

LIB_ID
A logical library item identifier and consists of various portions much like a URI.
Definition: lib_id.h:49

LIB_ID::SetLibItemName
int SetLibItemName(const UTF8 &aLibItemName)
Override the library item name portion of the LIB_ID to aLibItemName.
Definition: lib_id.cpp:111

LIB_ID::SetLibNickname
int SetLibNickname(const UTF8 &aLibNickname)
Override the logical library name portion of the LIB_ID to aLibNickname.
Definition: lib_id.cpp:100

LIB_ID::Format
UTF8 Format() const
Definition: lib_id.cpp:119

LIB_ID::FixIllegalChars
static UTF8 FixIllegalChars(const UTF8 &aLibItemName, bool aLib)
Replace illegal LIB_ID item name characters with underscores '_'.
Definition: lib_id.cpp:192

LIB_SYMBOL
Define a library symbol object.
Definition: lib_symbol.h:85

LIB_SYMBOL::SetGlobalPower
void SetGlobalPower()
Definition: lib_symbol.cpp:475

LIB_SYMBOL::GetPins
std::vector< SCH_PIN * > GetPins(int aUnit, int aBodyStyle) const
Return a list of pin object pointers from the draw item list.
Definition: lib_symbol.cpp:799

LIB_SYMBOL::SetUnitCount
void SetUnitCount(int aCount, bool aDuplicateDrawItems=true)
Set the units per symbol count.
Definition: lib_symbol.cpp:1326

LIB_SYMBOL::GetDrawItems
LIB_ITEMS_CONTAINER & GetDrawItems()
Return a reference to the draw item list.
Definition: lib_symbol.h:519

LIB_SYMBOL::GetName
wxString GetName() const override
Definition: lib_symbol.h:149

LIB_SYMBOL::GetValueField
SCH_FIELD & GetValueField()
Return reference to the value field.
Definition: lib_symbol.h:334

LIB_SYMBOL::AddDrawItem
void AddDrawItem(SCH_ITEM *aItem, bool aSort=true)
Add a new draw aItem to the draw object list and sort according to aSort.
Definition: lib_symbol.cpp:785

LIB_SYMBOL::SetName
virtual void SetName(const wxString &aName)
Definition: lib_symbol.cpp:328

LIB_SYMBOL::GetReferenceField
SCH_FIELD & GetReferenceField()
Return reference to the reference designator field.
Definition: lib_symbol.h:338

MULTIVECTOR< SCH_ITEM, SCH_SHAPE_T, SCH_PIN_T >

MULTIVECTOR::sort
void sort()
Definition: multivector.h:248

MULTIVECTOR< SCH_ITEM, SCH_SHAPE_T, SCH_PIN_T >::ITERATOR
ITERATOR_BASE< SCH_ITEM, MULTIVECTOR< SCH_ITEM, FIRST_TYPE_VAL, LAST_TYPE_VAL >, typename ITEM_PTR_VECTOR::iterator > ITERATOR
The const iterator.
Definition: multivector.h:165

MULTIVECTOR::end
ITERATOR end(int aType=UNDEFINED_TYPE)
Definition: multivector.h:195

MULTIVECTOR::begin
ITERATOR begin(int aType=UNDEFINED_TYPE)
Definition: multivector.h:189

PAGE_INFO
Describe the page size and margins of a paper page on which to eventually print or plot.
Definition: page_info.h:59

PAGE_INFO::SetHeightMils
void SetHeightMils(double aHeightInMils)
Definition: page_info.cpp:262

PAGE_INFO::GetSizeIU
const VECTOR2D GetSizeIU(double aIUScale) const
Gets the page size in internal units.
Definition: page_info.h:171

PAGE_INFO::SetWidthMils
void SetWidthMils(double aWidthInMils)
Definition: page_info.cpp:248

PROGRESS_REPORTER::SetNumPhases
virtual void SetNumPhases(int aNumPhases)=0
Set the number of phases.

PROGRESS_REPORTER::BeginPhase
virtual void BeginPhase(int aPhase)=0
Initialize the aPhase virtual zone of the dialog progress bar.

PROGRESS_REPORTER::SetMaxProgress
virtual void SetMaxProgress(int aMaxProgress)=0
Fix the value that gives the 100 percent progress bar length (inside the current virtual zone).

PROJECT
Container for project specific data.
Definition: project.h:65

PROJECT::GetProjectPath
virtual const wxString GetProjectPath() const
Return the full path of the project.
Definition: project.cpp:149

PROJECT::GetTextVars
virtual std::map< wxString, wxString > & GetTextVars() const
Definition: project.cpp:98

REPORTER::Report
virtual REPORTER & Report(const wxString &aText, SEVERITY aSeverity=RPT_SEVERITY_UNDEFINED)
Report a string with a given severity.
Definition: reporter.h:102

SCHEMATIC
Holds all the data relating to one schematic.
Definition: schematic.h:88

SCHEMATIC::Project
PROJECT & Project() const
Return a reference to the project this schematic is part of.
Definition: schematic.h:103

SCH_BUS_ENTRY_BASE::SetSize
void SetSize(const VECTOR2I &aSize)
Definition: sch_bus_entry.h:74

SCH_BUS_WIRE_ENTRY
Class for a wire to bus entry.
Definition: sch_bus_entry.h:169

SCH_FIELD
Definition: sch_field.h:43

SCH_FIELD::GetName
wxString GetName(bool aUseDefaultName=true) const
Return the field name (not translated).
Definition: sch_field.cpp:1103

SCH_FIELD::SetPosition
void SetPosition(const VECTOR2I &aPosition) override
Definition: sch_field.cpp:1317

SCH_FIELD::SetText
void SetText(const wxString &aText) override
Definition: sch_field.cpp:1089

SCH_GLOBALLABEL
Definition: sch_label.h:511

SCH_GLOBALLABEL::SetSpinStyle
void SetSpinStyle(SPIN_STYLE aSpinStyle) override
Definition: sch_label.cpp:1950

SCH_HIERLABEL
Definition: sch_label.h:581

SCH_HIERLABEL::SetSpinStyle
void SetSpinStyle(SPIN_STYLE aSpinStyle) override
Definition: sch_label.cpp:2131

SCH_ITEM
Base class for any item which can be embedded within the SCHEMATIC container class,...
Definition: sch_item.h:168

SCH_ITEM::Duplicate
SCH_ITEM * Duplicate(bool addToParentGroup, SCH_COMMIT *aCommit=nullptr, bool doClone=false) const
Routine to create a new copy of given item.
Definition: sch_item.cpp:137

SCH_ITEM::GetUnit
int GetUnit() const
Definition: sch_item.h:239

SCH_ITEM::SetLayer
void SetLayer(SCH_LAYER_ID aLayer)
Definition: sch_item.h:314

SCH_ITEM::SetUnit
virtual void SetUnit(int aUnit)
Definition: sch_item.h:238

SCH_JUNCTION
Definition: sch_junction.h:36

SCH_JUNCTION::SetPosition
void SetPosition(const VECTOR2I &aPosition) override
Definition: sch_junction.h:108

SCH_LABEL_BASE
Definition: sch_label.h:135

SCH_LABEL_BASE::SetShape
void SetShape(LABEL_FLAG_SHAPE aShape)
Definition: sch_label.h:177

SCH_LABEL_BASE::SetPosition
void SetPosition(const VECTOR2I &aPosition) override
Definition: sch_label.cpp:390

SCH_LABEL_BASE::AutoplaceFields
void AutoplaceFields(SCH_SCREEN *aScreen, AUTOPLACE_ALGO aAlgo) override
Definition: sch_label.cpp:580

SCH_LABEL_BASE::SetSpinStyle
virtual void SetSpinStyle(SPIN_STYLE aSpinStyle)
Definition: sch_label.cpp:316

SCH_LABEL
Definition: sch_label.h:382

SCH_LINE
Segment description base class to describe items which have 2 end points (track, wire,...
Definition: sch_line.h:42

SCH_LINE::SetStartPoint
void SetStartPoint(const VECTOR2I &aPosition)
Definition: sch_line.h:140

SCH_LINE::SetLineWidth
void SetLineWidth(const int aSize)
Definition: sch_line.cpp:315

SCH_LINE::GetEndPoint
VECTOR2I GetEndPoint() const
Definition: sch_line.h:144

SCH_LINE::GetStartPoint
VECTOR2I GetStartPoint() const
Definition: sch_line.h:139

SCH_LINE::SetLineStyle
void SetLineStyle(const LINE_STYLE aStyle)
Definition: sch_line.cpp:286

SCH_LINE::SetEndPoint
void SetEndPoint(const VECTOR2I &aPosition)
Definition: sch_line.h:145

SCH_PIN
Definition: sch_pin.h:40

SCH_PIN::SetNumber
void SetNumber(const wxString &aNumber)
Definition: sch_pin.cpp:541

SCH_SCREEN
Definition: sch_screen.h:99

SCH_SCREEN::GetPageSettings
const PAGE_INFO & GetPageSettings() const
Definition: sch_screen.h:139

SCH_SCREEN::Append
void Append(SCH_ITEM *aItem, bool aUpdateLibSymbol=true)
Definition: sch_screen.cpp:160

SCH_SCREEN::AddBusAlias
void AddBusAlias(std::shared_ptr< BUS_ALIAS > aAlias)
Add a bus alias definition (and transfers ownership of the pointer).
Definition: sch_screen.cpp:1433

SCH_SCREEN::SetPageSettings
void SetPageSettings(const PAGE_INFO &aPageSettings)
Definition: sch_screen.h:140

SCH_SCREEN::Items
EE_RTREE & Items()
Get the full RTree, usually for iterating.
Definition: sch_screen.h:117

SCH_SCREEN::SetFileName
void SetFileName(const wxString &aFileName)
Set the file name for this screen to aFileName.
Definition: sch_screen.cpp:123

SCH_SCREEN::Update
void Update(SCH_ITEM *aItem, bool aUpdateLibSymbol=true)
Update aItem's bounding box in the tree.
Definition: sch_screen.cpp:323

SCH_SHAPE
Definition: sch_shape.h:34

SCH_SHAPE::SetPosition
void SetPosition(const VECTOR2I &aPos) override
Definition: sch_shape.h:85

SCH_SHAPE::SetStroke
void SetStroke(const STROKE_PARAMS &aStroke) override
Definition: sch_shape.cpp:61

SCH_SHAPE::AddPoint
void AddPoint(const VECTOR2I &aPosition)
Definition: sch_shape.cpp:400

SCH_SHAPE::GetPosition
VECTOR2I GetPosition() const override
Definition: sch_shape.h:84

SCH_SHEET_PATH
Handle access to a stack of flattened SCH_SHEET objects by way of a path for creating a flattened sch...
Definition: sch_sheet_path.h:133

SCH_SHEET_PATH::SetPageNumber
void SetPageNumber(const wxString &aPageNumber)
Set the sheet instance user definable page number.
Definition: sch_sheet_path.cpp:590

SCH_SHEET_PATH::Last
SCH_SHEET * Last() const
Return a pointer to the last SCH_SHEET of the list.
Definition: sch_sheet_path.cpp:237

SCH_SHEET_PATH::push_back
void push_back(SCH_SHEET *aSheet)
Forwarded method from std::vector.
Definition: sch_sheet_path.h:166

SCH_SHEET_PIN
Define a sheet pin (label) used in sheets to create hierarchical schematics.
Definition: sch_sheet_pin.h:66

SCH_SHEET
Sheet symbol placed in a schematic, and is the entry point for a sub schematic.
Definition: sch_sheet.h:47

SCH_SHEET::GetFileName
wxString GetFileName() const
Return the filename corresponding to this sheet.
Definition: sch_sheet.h:321

SCH_SHEET::AddPin
void AddPin(SCH_SHEET_PIN *aSheetPin)
Add aSheetPin to the sheet.
Definition: sch_sheet.cpp:398

SCH_SHEET::GetFields
std::vector< SCH_FIELD > & GetFields()
Return a reference to the vector holding the sheet's fields.
Definition: sch_sheet.h:87

SCH_SHEET::GetField
SCH_FIELD * GetField(FIELD_T aFieldType)
Return a mandatory field in this sheet.
Definition: sch_sheet.cpp:367

SCH_SHEET::LocatePathOfScreen
bool LocatePathOfScreen(SCH_SCREEN *aScreen, SCH_SHEET_PATH *aList)
Search the existing hierarchy for an instance of screen loaded from aFileName.
Definition: sch_sheet.cpp:787

SCH_SHEET::GetSize
VECTOR2I GetSize() const
Definition: sch_sheet.h:118

SCH_SHEET::GetScreen
SCH_SCREEN * GetScreen() const
Definition: sch_sheet.h:116

SCH_SHEET::GetPosition
VECTOR2I GetPosition() const override
Definition: sch_sheet.h:415

SCH_SHEET::SetFields
void SetFields(const std::vector< SCH_FIELD > &aFields)
Set multiple schematic fields.
Definition: sch_sheet.cpp:389

SCH_SHEET::SetScreen
void SetScreen(SCH_SCREEN *aScreen)
Set the SCH_SCREEN associated with this sheet to aScreen.
Definition: sch_sheet.cpp:137

SCH_SHEET::ClassOf
static bool ClassOf(const EDA_ITEM *aItem)
Definition: sch_sheet.h:63

SCH_SHEET::AutoplaceFields
void AutoplaceFields(SCH_SCREEN *aScreen, AUTOPLACE_ALGO aAlgo) override
Definition: sch_sheet.cpp:635

SCH_SYMBOL
Schematic symbol object.
Definition: sch_symbol.h:75

SCH_SYMBOL::GetBodyAndPinsBoundingBox
BOX2I GetBodyAndPinsBoundingBox() const override
Return a bounding box for the symbol body and pins but not the fields.
Definition: sch_symbol.cpp:1842

SCH_SYMBOL::SetPosition
void SetPosition(const VECTOR2I &aPosition) override
Definition: sch_symbol.h:768

SCH_SYMBOL::UpdatePins
void UpdatePins()
Updates the cache of SCH_PIN objects for each pin.
Definition: sch_symbol.cpp:288

SCH_SYMBOL::SetRef
void SetRef(const SCH_SHEET_PATH *aSheet, const wxString &aReference)
Set the reference for the given sheet path for this symbol.
Definition: sch_symbol.cpp:600

SCH_SYMBOL::GetFields
void GetFields(std::vector< SCH_FIELD * > &aVector, bool aVisibleOnly) const override
Populate a std::vector with SCH_FIELDs, sorted in ordinal order.
Definition: sch_symbol.cpp:788

SCH_SYMBOL::SetOrientation
void SetOrientation(int aOrientation)
Compute the new transform matrix based on aOrientation for the symbol which is applied to the current...
Definition: sch_symbol.cpp:1567

SCH_SYMBOL::AddField
SCH_FIELD * AddField(const SCH_FIELD &aField)
Add a field to the symbol.
Definition: sch_symbol.cpp:815

SCH_SYMBOL::GetLibSymbolRef
std::unique_ptr< LIB_SYMBOL > & GetLibSymbolRef()
Definition: sch_symbol.h:183

SCH_SYMBOL::GetField
SCH_FIELD * GetField(FIELD_T aFieldType)
Return a mandatory field in this symbol.
Definition: sch_symbol.cpp:760

SCH_TEXT
Definition: sch_text.h:38

SCH_TEXT::GetPosition
VECTOR2I GetPosition() const override
Definition: sch_text.h:141

SCH_TEXT::SetPosition
void SetPosition(const VECTOR2I &aPosition) override
Definition: sch_text.h:142

SCH_TEXT::GetBoundingBox
const BOX2I GetBoundingBox() const override
Return the orthogonal bounding box of this object for display purposes.
Definition: sch_text.cpp:297

SHAPE_ARC
Definition: shape_arc.h:40

SHAPE_ARC::GetArcMid
const VECTOR2I & GetArcMid() const
Definition: shape_arc.h:118

SHAPE_ARC::GetP1
const VECTOR2I & GetP1() const
Definition: shape_arc.h:117

SHAPE_ARC::GetP0
const VECTOR2I & GetP0() const
Definition: shape_arc.h:116

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:82

SHAPE_LINE_CHAIN::Reverse
const SHAPE_LINE_CHAIN Reverse() const
Reverse point order in the line chain.
Definition: shape_line_chain.cpp:903

SHAPE_LINE_CHAIN::SetPoint
void SetPoint(int aIndex, const VECTOR2I &aPos)
Move a point to a specific location.
Definition: shape_line_chain.cpp:1355

SHAPE_LINE_CHAIN::FindSegment
int FindSegment(const VECTOR2I &aP, int aThreshold=1) const
Search for segment containing point aP.
Definition: shape_line_chain.cpp:1250

SHAPE_LINE_CHAIN::Intersect
int Intersect(const SEG &aSeg, INTERSECTIONS &aIp) const
Find all intersection points between our line chain and the segment aSeg.
Definition: shape_line_chain.cpp:1723

SHAPE_LINE_CHAIN::Replace
void Replace(int aStartIndex, int aEndIndex, const VECTOR2I &aP)
Replace points with indices in range [start_index, end_index] with a single point aP.
Definition: shape_line_chain.cpp:992

SHAPE_LINE_CHAIN::GetPointCount
virtual size_t GetPointCount() const override
Definition: shape_line_chain.h:888

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:524

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:424

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:2253

SHAPE_LINE_CHAIN::INTERSECTIONS
std::vector< INTERSECTION > INTERSECTIONS
Definition: shape_line_chain.h:150

SHAPE_LINE_CHAIN::CPoints
const std::vector< VECTOR2I > & CPoints() const
Definition: shape_line_chain.h:434

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:744

SPIN_STYLE
Definition: sch_label.h:42

SPIN_STYLE::RIGHT
@ RIGHT
Definition: sch_label.h:48

SPIN_STYLE::LEFT
@ LEFT
Definition: sch_label.h:46

SPIN_STYLE::UP
@ UP
Definition: sch_label.h:47

SPIN_STYLE::BOTTOM
@ BOTTOM
Definition: sch_label.h:49

SPIN_STYLE::MirrorX
SPIN_STYLE MirrorX()
Mirror the label spin style across the X axis or simply swaps up and bottom.
Definition: sch_label.cpp:125

SPIN_STYLE::MirrorY
SPIN_STYLE MirrorY()
Mirror the label spin style across the Y axis or simply swaps left and right.
Definition: sch_label.cpp:141

SPIN_STYLE::RotateCCW
SPIN_STYLE RotateCCW()
Definition: sch_label.cpp:109

STROKE_PARAMS
Simple container to manage line stroke parameters.
Definition: stroke_params.h:94

SYMBOL::SetShowPinNumbers
virtual void SetShowPinNumbers(bool aShow)
Set or clear the pin number visibility flag.
Definition: symbol.h:164

SYMBOL::SetShowPinNames
virtual void SetShowPinNames(bool aShow)
Set or clear the pin name visibility flag.
Definition: symbol.h:158

UTF8::wx_str
wxString wx_str() const
Definition: utf8.cpp:45

VECTOR2< int32_t >

VECTOR2::x
T x
Definition: vector2d.h:79

VECTOR2::y
T y
Definition: vector2d.h:79

VECTOR2::EuclideanNorm
T EuclideanNorm() const
Compute the Euclidean norm of the vector, which is defined as sqrt(x ** 2 + y ** 2).
Definition: vector2d.h:283

DEFAULT_WIRE_WIDTH_MILS
#define DEFAULT_WIRE_WIDTH_MILS
The default bus width in mils. (can be changed in preference menu)
Definition: default_values.h:54

_
#define _(s)
Definition: eda_3d_actions.cpp:36

ANGLE_0
static constexpr EDA_ANGLE ANGLE_0
Definition: eda_angle.h:411

ANGLE_90
static constexpr EDA_ANGLE ANGLE_90
Definition: eda_angle.h:413

ANGLE_VERTICAL
static constexpr EDA_ANGLE ANGLE_VERTICAL
Definition: eda_angle.h:408

ANGLE_HORIZONTAL
static constexpr EDA_ANGLE ANGLE_HORIZONTAL
Definition: eda_angle.h:407

ANGLE_45
static constexpr EDA_ANGLE ANGLE_45
Definition: eda_angle.h:412

ANGLE_270
static constexpr EDA_ANGLE ANGLE_270
Definition: eda_angle.h:416

ANGLE_180
static constexpr EDA_ANGLE ANGLE_180
Definition: eda_angle.h:415

ANGLE_135
static constexpr EDA_ANGLE ANGLE_135
Definition: eda_angle.h:414

IGNORE_PARENT_GROUP
#define IGNORE_PARENT_GROUP
Definition: eda_item.h:55

eda_text.h

FILEEXT::KiCadSchematicFileExtension
static const std::string KiCadSchematicFileExtension
Definition: wildcards_and_files_ext.h:133

THROW_IO_ERROR
#define THROW_IO_ERROR(msg)
Definition: ki_exception.h:39

kicad_algo.h

SCH_LAYER_ID
SCH_LAYER_ID
Eeschema drawing layers.
Definition: layer_ids.h:439

LAYER_DEVICE
@ LAYER_DEVICE
Definition: layer_ids.h:456

LAYER_WIRE
@ LAYER_WIRE
Definition: layer_ids.h:442

LAYER_NOTES
@ LAYER_NOTES
Definition: layer_ids.h:457

LAYER_BUS
@ LAYER_BUS
Definition: layer_ids.h:443

macros.h
This file contains miscellaneous commonly used macros and functions.

KI_FALLTHROUGH
#define KI_FALLTHROUGH
The KI_FALLTHROUGH macro is to be used when switch statement cases should purposely fallthrough from ...
Definition: macros.h:83

mirror.h

MIRROR
constexpr void MIRROR(T &aPoint, const T &aMirrorRef)
Updates aPoint with the mirror of aPoint relative to the aMirrorRef.
Definition: mirror.h:45

alg::contains
bool contains(const _Container &__container, _Value __value)
Returns true if the container contains the given value.
Definition: kicad_algo.h:100

ELECTRICAL_PINTYPE
ELECTRICAL_PINTYPE
The symbol library pin object electrical types used in ERC tests.
Definition: pin_type.h:36

progress_reporter.h

RPT_SEVERITY_WARNING
@ RPT_SEVERITY_WARNING
Definition: report_severity.h:31

RPT_SEVERITY_ERROR
@ RPT_SEVERITY_ERROR
Definition: report_severity.h:32

sch_bus_entry.h

sch_edit_frame.h

sch_io_mgr.h

AUTOPLACE_AUTO
@ AUTOPLACE_AUTO
Definition: sch_item.h:71

sch_junction.h

sch_label.h

sch_line.h

sch_screen.h

sch_shape.h

sch_sheet.h

sch_sheet_path.h
Definition of the SCH_SHEET_PATH and SCH_SHEET_LIST classes for Eeschema.

sch_sheet_pin.h

SCH_FIELDS
std::vector< SCH_FIELD > SCH_FIELDS
A container for several SCH_FIELD items.
Definition: sch_symbol.h:63

schematic.h

sim_model.h

SIM_DEVICE_FIELD
#define SIM_DEVICE_FIELD
Definition: sim_model.h:52

SIM_PARAMS_FIELD
#define SIM_PARAMS_FIELD
Definition: sim_model.h:55

wxStringSplit
void wxStringSplit(const wxString &aText, wxArrayString &aStrings, wxChar aSplitter)
Split aString to a string list separated at aSplitter.
Definition: string_utils.cpp:1349

ReplaceIllegalFileNameChars
bool ReplaceIllegalFileNameChars(std::string *aName, int aReplaceChar)
Checks aName for illegal file name characters.
Definition: string_utils.cpp:1288

EscapeString
wxString EscapeString(const wxString &aSource, ESCAPE_CONTEXT aContext)
The Escape/Unescape routines use HTML-entity-reference-style encoding to handle characters which are:...
Definition: string_utils.cpp:179

string_utils.h

CTX_LIBID
@ CTX_LIBID
Definition: string_utils.h:54

LINE_STYLE
LINE_STYLE
Dashed line types.
Definition: stroke_params.h:46

CADSTAR_ARCHIVE_PARSER::ATTRCOLORS::AttributeColors
std::map< ATTRIBUTE_ID, ATTRCOL > AttributeColors
Definition: cadstar_archive_parser.h:1262

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION
Definition: cadstar_archive_parser.h:704

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::OrientAngle
long OrientAngle
Definition: cadstar_archive_parser.h:708

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::TextCodeID
TEXTCODE_ID TextCodeID
Definition: cadstar_archive_parser.h:705

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::Position
POINT Position
Definition: cadstar_archive_parser.h:707

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::Justification
JUSTIFICATION Justification
Note: Justification has no effect on single lines of text.
Definition: cadstar_archive_parser.h:711

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::Alignment
ALIGNMENT Alignment
In CADSTAR The default alignment for a TEXT object (when "(No Alignment()" is selected) Bottom Left o...
Definition: cadstar_archive_parser.h:713

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::Mirror
bool Mirror
Definition: cadstar_archive_parser.h:709

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_VALUE
Definition: cadstar_archive_parser.h:771

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_VALUE::AttributeID
ATTRIBUTE_ID AttributeID
Definition: cadstar_archive_parser.h:772

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_VALUE::AttributeLocation
ATTRIBUTE_LOCATION AttributeLocation
Definition: cadstar_archive_parser.h:777

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_VALUE::HasLocation
bool HasLocation
Flag to know if this ATTRIBUTE_VALUE has a location i.e.
Definition: cadstar_archive_parser.h:775

CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_VALUE::Value
wxString Value
Definition: cadstar_archive_parser.h:773

CADSTAR_ARCHIVE_PARSER::CODEDEFS::LineCodes
std::map< LINECODE_ID, LINECODE > LineCodes
Definition: cadstar_archive_parser.h:823

CADSTAR_ARCHIVE_PARSER::CODEDEFS::AttributeNames
std::map< ATTRIBUTE_ID, ATTRNAME > AttributeNames
Definition: cadstar_archive_parser.h:827

CADSTAR_ARCHIVE_PARSER::CODEDEFS::RouteCodes
std::map< ROUTECODE_ID, ROUTECODE > RouteCodes
Definition: cadstar_archive_parser.h:826

CADSTAR_ARCHIVE_PARSER::CODEDEFS::TextCodes
std::map< TEXTCODE_ID, TEXTCODE > TextCodes
Definition: cadstar_archive_parser.h:825

CADSTAR_ARCHIVE_PARSER::CUTOUT
Represent a cutout in a closed shape (e.g.
Definition: cadstar_archive_parser.h:470

CADSTAR_ARCHIVE_PARSER::CUTOUT::Vertices
std::vector< VERTEX > Vertices
Definition: cadstar_archive_parser.h:471

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL
Definition: cadstar_archive_parser.h:1210

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::ScaleRatioNumerator
long ScaleRatioNumerator
Documentation symbols can be arbitrarily scaled when added to a design.
Definition: cadstar_archive_parser.h:1228

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::ScaleRatioDenominator
long ScaleRatioDenominator
Documentation symbols can be arbitrarily scaled when added to a design.
Definition: cadstar_archive_parser.h:1230

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::Origin
POINT Origin
Origin of the component (this is used as the reference point when placing the component in the design...
Definition: cadstar_archive_parser.h:1218

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::LayerID
LAYER_ID LayerID
Move all objects in the Symdef to this layer.
Definition: cadstar_archive_parser.h:1217

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::ID
DOCUMENTATION_SYMBOL_ID ID
Definition: cadstar_archive_parser.h:1211

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::Mirror
bool Mirror
Definition: cadstar_archive_parser.h:1224

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::SymdefID
SYMDEF_ID SymdefID
Normally documentation symbols only have TEXT, FIGURE and TEXT_LOCATION objects which are all drawn o...
Definition: cadstar_archive_parser.h:1213

CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::OrientAngle
long OrientAngle
Definition: cadstar_archive_parser.h:1223

CADSTAR_ARCHIVE_PARSER::FIGURE
Definition: cadstar_archive_parser.h:896

CADSTAR_ARCHIVE_PARSER::FIGURE::LayerID
LAYER_ID LayerID
Definition: cadstar_archive_parser.h:899

CADSTAR_ARCHIVE_PARSER::FIGURE::LineCodeID
LINECODE_ID LineCodeID
Definition: cadstar_archive_parser.h:898

CADSTAR_ARCHIVE_PARSER::FIGURE::Shape
SHAPE Shape
Definition: cadstar_archive_parser.h:900

CADSTAR_ARCHIVE_PARSER::FONT::Italic
bool Italic
Definition: cadstar_archive_parser.h:343

CADSTAR_ARCHIVE_PARSER::FONT::Modifier1
long Modifier1
It seems this is related to weight. 400=Normal, 700=Bold.
Definition: cadstar_archive_parser.h:337

CADSTAR_ARCHIVE_PARSER::FORMAT::Type
wxString Type
Definition: cadstar_archive_parser.h:229

CADSTAR_ARCHIVE_PARSER::GRIDS::ScreenGrid
GRID ScreenGrid
From CADSTAR Help: "There is one Screen Grid, which is visible as dots on the screen.
Definition: cadstar_archive_parser.h:554

CADSTAR_ARCHIVE_PARSER::GRID::Type
GRID_TYPE Type
Definition: cadstar_archive_parser.h:539

CADSTAR_ARCHIVE_PARSER::GRID::Param1
long Param1
Either Units or X step, depending on Type (see GRID_TYPE for more details)
Definition: cadstar_archive_parser.h:541

CADSTAR_ARCHIVE_PARSER::GRID::Param2
long Param2
Either Divisor or Y step, depending on Type (see GRID_TYPE for more details)
Definition: cadstar_archive_parser.h:543

CADSTAR_ARCHIVE_PARSER::HEADER::Format
FORMAT Format
Definition: cadstar_archive_parser.h:259

CADSTAR_ARCHIVE_PARSER::HEADER::JobTitle
wxString JobTitle
Definition: cadstar_archive_parser.h:261

CADSTAR_ARCHIVE_PARSER::LONGPOINT
Definition: cadstar_archive_parser.h:416

CADSTAR_ARCHIVE_PARSER::LONGPOINT::y
long y
Definition: cadstar_archive_parser.h:418

CADSTAR_ARCHIVE_PARSER::LONGPOINT::x
long x
Definition: cadstar_archive_parser.h:417

CADSTAR_ARCHIVE_PARSER::NET::Name
wxString Name
This is undefined (wxEmptyString) if the net is unnamed.
Definition: cadstar_archive_parser.h:1190

CADSTAR_ARCHIVE_PARSER::NET::ID
NET_ID ID
Definition: cadstar_archive_parser.h:1186

CADSTAR_ARCHIVE_PARSER::NET::SignalNum
long SignalNum
This is undefined if the net has been given a name.
Definition: cadstar_archive_parser.h:1188

CADSTAR_ARCHIVE_PARSER::PARSER_CONTEXT::TextFieldToValuesMap
std::map< TEXT_FIELD_NAME, wxString > TextFieldToValuesMap
Values for the text field elements used in the CADSTAR design extracted from the text element instanc...
Definition: cadstar_archive_parser.h:194

CADSTAR_ARCHIVE_PARSER::PARSER_CONTEXT::FilenamesToTextMap
std::map< wxString, wxString > FilenamesToTextMap
CADSTAR doesn't have user defined text fields but does allow loading text from a file.
Definition: cadstar_archive_parser.h:182

CADSTAR_ARCHIVE_PARSER::PARSER_CONTEXT::InconsistentTextFields
std::set< TEXT_FIELD_NAME > InconsistentTextFields
Text fields need to be updated in CADSTAR and it is possible that they are not consistent across text...
Definition: cadstar_archive_parser.h:200

CADSTAR_ARCHIVE_PARSER::PARTNAMECOL::IsVisible
bool IsVisible
Definition: cadstar_archive_parser.h:1273

CADSTAR_ARCHIVE_PARSER::PARTS::PartDefinitions
std::map< PART_ID, PART > PartDefinitions
Definition: cadstar_archive_parser.h:1142

CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::HidePinNames
bool HidePinNames
Specifies whether to display the pin names/identifier in the schematic symbol or not.
Definition: cadstar_archive_parser.h:1080

CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::GateSymbols
std::map< GATE_ID, GATE > GateSymbols
Definition: cadstar_archive_parser.h:1094

CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::AttributeValues
std::map< ATTRIBUTE_ID, ATTRIBUTE_VALUE > AttributeValues
Some attributes are defined within the part definition, whilst others are defined in the part.
Definition: cadstar_archive_parser.h:1096

CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::Pins
std::map< PART_DEFINITION_PIN_ID, PIN > Pins
Definition: cadstar_archive_parser.h:1095

CADSTAR_ARCHIVE_PARSER::PART
Definition: cadstar_archive_parser.h:971

CADSTAR_ARCHIVE_PARSER::PART::Definition
DEFINITION Definition
Definition: cadstar_archive_parser.h:1121

CADSTAR_ARCHIVE_PARSER::PART::AttributeValues
std::map< ATTRIBUTE_ID, ATTRIBUTE_VALUE > AttributeValues
Some attributes are defined within the part definition, whilst others are defined in the part itself.
Definition: cadstar_archive_parser.h:1131

CADSTAR_ARCHIVE_PARSER::PART::Name
wxString Name
Definition: cadstar_archive_parser.h:1119

CADSTAR_ARCHIVE_PARSER::PART::ID
PART_ID ID
Definition: cadstar_archive_parser.h:1118

CADSTAR_ARCHIVE_PARSER::POINT
Represent a point in x,y coordinates.
Definition: cadstar_archive_parser.h:407

CADSTAR_ARCHIVE_PARSER::ROUTECODE
Definition: cadstar_archive_parser.h:377

CADSTAR_ARCHIVE_PARSER::SETTINGS::DesignLimit
LONGPOINT DesignLimit
Definition: cadstar_archive_parser.h:587

CADSTAR_ARCHIVE_PARSER::SHAPE::ConvertToPolySet
SHAPE_POLY_SET ConvertToPolySet(const std::function< VECTOR2I(const VECTOR2I &)> aCadstarToKicadPointCallback, int aAccuracy) const
Definition: cadstar_archive_parser.cpp:623

CADSTAR_ARCHIVE_PARSER::SHAPE::Vertices
std::vector< VERTEX > Vertices
Definition: cadstar_archive_parser.h:489

CADSTAR_ARCHIVE_PARSER::SHAPE::Type
SHAPE_TYPE Type
Definition: cadstar_archive_parser.h:488

CADSTAR_ARCHIVE_PARSER::SHAPE::Cutouts
std::vector< CUTOUT > Cutouts
Not Applicable to OPENSHAPE Type.
Definition: cadstar_archive_parser.h:490

CADSTAR_ARCHIVE_PARSER::SYMDEF::Figures
std::map< FIGURE_ID, FIGURE > Figures
Definition: cadstar_archive_parser.h:956

CADSTAR_ARCHIVE_PARSER::SYMDEF::TextLocations
std::map< ATTRIBUTE_ID, TEXT_LOCATION > TextLocations
This contains location of any attributes, including designator position.
Definition: cadstar_archive_parser.h:958

CADSTAR_ARCHIVE_PARSER::SYMDEF::Origin
POINT Origin
Origin of the component (this is used as the reference point when placing the component in the design...
Definition: cadstar_archive_parser.h:945

CADSTAR_ARCHIVE_PARSER::SYMDEF::Alternate
wxString Alternate
This is in addition to ReferenceName.
Definition: cadstar_archive_parser.h:943

CADSTAR_ARCHIVE_PARSER::SYMDEF::Texts
std::map< TEXT_ID, TEXT > Texts
Definition: cadstar_archive_parser.h:957

CADSTAR_ARCHIVE_PARSER::SYMDEF::AttributeValues
std::map< ATTRIBUTE_ID, ATTRIBUTE_VALUE > AttributeValues
These attributes might also have a location.
Definition: cadstar_archive_parser.h:961

CADSTAR_ARCHIVE_PARSER::SYMDEF::BuildLibName
wxString BuildLibName() const
Definition: cadstar_archive_parser.cpp:1709

CADSTAR_ARCHIVE_PARSER::TEXTCODE
Definition: cadstar_archive_parser.h:350

CADSTAR_ARCHIVE_PARSER::TEXTCODE::Width
long Width
Defaults to 0 if using system fonts or, if using CADSTAR font, default to equal height (1:1 aspect ra...
Definition: cadstar_archive_parser.h:355

CADSTAR_ARCHIVE_PARSER::TEXTCODE::Font
FONT Font
Definition: cadstar_archive_parser.h:358

CADSTAR_ARCHIVE_PARSER::TEXTCODE::Height
long Height
Definition: cadstar_archive_parser.h:354

CADSTAR_ARCHIVE_PARSER::TEXTCODE::LineWidth
long LineWidth
Definition: cadstar_archive_parser.h:353

CADSTAR_ARCHIVE_PARSER::TEXT_LOCATION
Corresponds to CADSTAR "origin".
Definition: cadstar_archive_parser.h:789

CADSTAR_ARCHIVE_PARSER::TEXT
Definition: cadstar_archive_parser.h:913

CADSTAR_ARCHIVE_PARSER::TEXT::Alignment
ALIGNMENT Alignment
In CADSTAR The default alignment for a TEXT object (when "(No Alignment()" is selected) Bottom Left o...
Definition: cadstar_archive_parser.h:925

CADSTAR_ARCHIVE_PARSER::TEXT::LayerID
LAYER_ID LayerID
Definition: cadstar_archive_parser.h:917

CADSTAR_ARCHIVE_PARSER::TEXT::Position
POINT Position
Definition: cadstar_archive_parser.h:918

CADSTAR_ARCHIVE_PARSER::TEXT::OrientAngle
long OrientAngle
Definition: cadstar_archive_parser.h:919

CADSTAR_ARCHIVE_PARSER::TEXT::Justification
JUSTIFICATION Justification
Note: Justification has no effect on single lines of text.
Definition: cadstar_archive_parser.h:923

CADSTAR_ARCHIVE_PARSER::TEXT::Text
wxString Text
Definition: cadstar_archive_parser.h:915

CADSTAR_ARCHIVE_PARSER::TEXT::TextCodeID
TEXTCODE_ID TextCodeID
Definition: cadstar_archive_parser.h:916

CADSTAR_ARCHIVE_PARSER::TEXT::Mirror
bool Mirror
Definition: cadstar_archive_parser.h:920

CADSTAR_ARCHIVE_PARSER::VARIANT_HIERARCHY::Variants
std::map< VARIANT_ID, VARIANT > Variants
Definition: cadstar_archive_parser.h:283

CADSTAR_ARCHIVE_PARSER::VARIANT
< Nodename = "VARIANT" or "VMASTER" (master variant
Definition: cadstar_archive_parser.h:271

CADSTAR_ARCHIVE_PARSER::VARIANT::Name
wxString Name
Definition: cadstar_archive_parser.h:274

CADSTAR_ARCHIVE_PARSER::VARIANT::Description
wxString Description
Definition: cadstar_archive_parser.h:275

CADSTAR_ARCHIVE_PARSER::VERTEX
Represents a vertex in a shape.
Definition: cadstar_archive_parser.h:444

CADSTAR_ARCHIVE_PARSER::VERTEX::Type
VERTEX_TYPE Type
Definition: cadstar_archive_parser.h:451

CADSTAR_ARCHIVE_PARSER::VERTEX::BuildArc
SHAPE_ARC BuildArc(const VECTOR2I &aPrevPoint, const std::function< VECTOR2I(const VECTOR2I &)> aCadstarToKicadPointCallback) const
Definition: cadstar_archive_parser.cpp:504

CADSTAR_ARCHIVE_PARSER::VERTEX::Center
POINT Center
Definition: cadstar_archive_parser.h:453

CADSTAR_ARCHIVE_PARSER::VERTEX::End
POINT End
Definition: cadstar_archive_parser.h:452

CADSTAR_PARTS_LIB_MODEL
CADSTAR Parts Library (*.lib) model - a data structure describing the contents of the file format.
Definition: cadstar_parts_lib_model.h:42

CADSTAR_PARTS_LIB_MODEL::m_PartEntries
std::vector< CADSTAR_PART_ENTRY > m_PartEntries
Definition: cadstar_parts_lib_model.h:45

CADSTAR_PART_ENTRY
Definition: cadstar_parts_lib_model.h:50

CADSTAR_PART_ENTRY::m_ComponentStem
std::string m_ComponentStem
Definition: cadstar_parts_lib_model.h:59

CADSTAR_PART_ENTRY::m_HiddenPins
std::map< std::string, std::vector< CADSTAR_PART_PIN > > m_HiddenPins
Pins with an implied electrical connection to a net, not part of any symbol (Note: we probably will n...
Definition: cadstar_parts_lib_model.h:176

CADSTAR_PART_ENTRY::m_SchAttributes
std::map< std::string, CADSTAR_ATTRIBUTE_VALUE > m_SchAttributes
Dollar sign ($) line $[!]<SCM Attribute name>(<Attribute value>) Attributes related to the schematic ...
Definition: cadstar_parts_lib_model.h:136

CADSTAR_PART_ENTRY::m_SchAndPcbAttributes
std::map< std::string, CADSTAR_ATTRIBUTE_VALUE > m_SchAndPcbAttributes
At symbol (@) line [@[!]<SCM/PCB Attribute name>(<Attribute value>)] Attributes related to the PCB co...
Definition: cadstar_parts_lib_model.h:152

CADSTAR_PART_ENTRY::m_Symbols
std::vector< CADSTAR_PART_SYMBOL_ENTRY > m_Symbols
Symbols that form this part.
Definition: cadstar_parts_lib_model.h:167

CADSTAR_PART_ENTRY::m_UserAttributes
std::map< std::string, std::string > m_UserAttributes
Star (*) line *<User-defined name> This line is ignored by CADSTAR.
Definition: cadstar_parts_lib_model.h:128

CADSTAR_PART_ENTRY::m_PinNamesMap
std::map< long, std::string > m_PinNamesMap
Map of pin identifiers to alphanumeric pin names.
Definition: cadstar_parts_lib_model.h:79

CADSTAR_PART_ENTRY::m_AcceptancePartName
std::optional< std::string > m_AcceptancePartName
Definition: cadstar_parts_lib_model.h:65

CADSTAR_PART_ENTRY::m_PinsVisible
bool m_PinsVisible
Definition: cadstar_parts_lib_model.h:69

CADSTAR_PART_ENTRY::m_Pcb_alternate
std::optional< std::string > m_Pcb_alternate
Definition: cadstar_parts_lib_model.h:56

CADSTAR_PART_ENTRY::m_Version
std::optional< std::string > m_Version
Definition: cadstar_parts_lib_model.h:53

CADSTAR_PART_ENTRY::m_Name
std::string m_Name
Definition: cadstar_parts_lib_model.h:51

CADSTAR_PART_ENTRY::m_Description
std::optional< std::string > m_Description
Definition: cadstar_parts_lib_model.h:54

CADSTAR_PART_ENTRY::m_Number
std::optional< std::string > m_Number
Definition: cadstar_parts_lib_model.h:52

CADSTAR_PART_ENTRY::m_Pcb_component
std::string m_Pcb_component
Definition: cadstar_parts_lib_model.h:55

CADSTAR_PART_ENTRY::m_SpiceModel
std::optional< std::string > m_SpiceModel
Definition: cadstar_parts_lib_model.h:63

CADSTAR_PART_ENTRY::m_PcbAttributes
std::map< std::string, CADSTAR_ATTRIBUTE_VALUE > m_PcbAttributes
Percentage sign (%) line %[!]<PCB Attribute name>(<Attribute value>) Attributes related to the PCB co...
Definition: cadstar_parts_lib_model.h:144

CADSTAR_PART_ENTRY::m_Value
std::optional< std::string > m_Value
Definition: cadstar_parts_lib_model.h:57

CADSTAR_PART_ENTRY::m_PartAttributes
std::map< std::string, CADSTAR_ATTRIBUTE_VALUE > m_PartAttributes
Tilde (~) line ~[!]<Parts Library Attribute Name>(<Attribute Value>) Attributes related to the Part i...
Definition: cadstar_parts_lib_model.h:162

CADSTAR_PART_ENTRY::m_PinLabelsMap
std::map< long, std::string > m_PinLabelsMap
Map of pin identifiers to alphanumeric pin labels.
Definition: cadstar_parts_lib_model.h:88

CADSTAR_PART_PIN
Definition: cadstar_parts_lib_model.h:181

CADSTAR_PART_SYMBOL_ENTRY
Definition: cadstar_parts_lib_model.h:205

CADSTAR_PART_SYMBOL_ENTRY::m_SymbolName
std::string m_SymbolName
Definition: cadstar_parts_lib_model.h:215

CADSTAR_PART_SYMBOL_ENTRY::m_Pins
std::vector< CADSTAR_PART_PIN > m_Pins
Definition: cadstar_parts_lib_model.h:217

CADSTAR_PART_SYMBOL_ENTRY::m_SymbolAlternateName
std::optional< std::string > m_SymbolAlternateName
Definition: cadstar_parts_lib_model.h:216

CADSTAR_SCH_ARCHIVE_PARSER::ASSIGNMENTS_SCM::Settings
SETTINGS Settings
Definition: cadstar_sch_archive_parser.h:132

CADSTAR_SCH_ARCHIVE_PARSER::ASSIGNMENTS_SCM::Codedefs
CODEDEFS_SCM Codedefs
Definition: cadstar_sch_archive_parser.h:130

CADSTAR_SCH_ARCHIVE_PARSER::ASSIGNMENTS_SCM::Grids
GRIDS Grids
Definition: cadstar_sch_archive_parser.h:131

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK
Definition: cadstar_sch_archive_parser.h:334

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::ID
BLOCK_ID ID
Definition: cadstar_sch_archive_parser.h:342

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::Name
wxString Name
Definition: cadstar_sch_archive_parser.h:346

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::Type
TYPE Type
Determines what the associated layer is, whether parent, child or clone.
Definition: cadstar_sch_archive_parser.h:343

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::BlockLabel
ATTRIBUTE_LOCATION BlockLabel
Definition: cadstar_sch_archive_parser.h:348

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::HasBlockLabel
bool HasBlockLabel
Definition: cadstar_sch_archive_parser.h:347

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::LayerID
LAYER_ID LayerID
The sheet block is on (TODO: verify this is true)
Definition: cadstar_sch_archive_parser.h:344

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::AssocLayerID
LAYER_ID AssocLayerID
Parent or Child linked sheet.
Definition: cadstar_sch_archive_parser.h:345

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::Terminals
std::map< TERMINAL_ID, TERMINAL > Terminals
Definition: cadstar_sch_archive_parser.h:350

CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::Figures
std::map< FIGURE_ID, FIGURE > Figures
Definition: cadstar_sch_archive_parser.h:351

CADSTAR_SCH_ARCHIVE_PARSER::BUS
Definition: cadstar_sch_archive_parser.h:320

CADSTAR_SCH_ARCHIVE_PARSER::BUS::LayerID
LAYER_ID LayerID
Sheet on which bus is located.
Definition: cadstar_sch_archive_parser.h:323

CADSTAR_SCH_ARCHIVE_PARSER::BUS::Name
wxString Name
Definition: cadstar_sch_archive_parser.h:325

CADSTAR_SCH_ARCHIVE_PARSER::BUS::BusLabel
SIGLOC BusLabel
Definition: cadstar_sch_archive_parser.h:327

CADSTAR_SCH_ARCHIVE_PARSER::BUS::LineCodeID
LINECODE_ID LineCodeID
Definition: cadstar_sch_archive_parser.h:322

CADSTAR_SCH_ARCHIVE_PARSER::BUS::ID
BUS_ID ID
Definition: cadstar_sch_archive_parser.h:321

CADSTAR_SCH_ARCHIVE_PARSER::BUS::HasBusLabel
bool HasBusLabel
Definition: cadstar_sch_archive_parser.h:326

CADSTAR_SCH_ARCHIVE_PARSER::BUS::Shape
SHAPE Shape
Definition: cadstar_sch_archive_parser.h:324

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Symbols
std::map< SYMBOL_ID, SYMBOL > Symbols
Definition: cadstar_sch_archive_parser.h:442

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::ReuseBlocks
std::map< REUSEBLOCK_ID, REUSEBLOCK > ReuseBlocks
Definition: cadstar_sch_archive_parser.h:440

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::VariantHierarchy
VARIANT_HIERARCHY VariantHierarchy
Definition: cadstar_sch_archive_parser.h:448

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::DocumentationSymbols
std::map< DOCUMENTATION_SYMBOL_ID, DOCUMENTATION_SYMBOL > DocumentationSymbols
Definition: cadstar_sch_archive_parser.h:447

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Figures
std::map< FIGURE_ID, FIGURE > Figures
Definition: cadstar_sch_archive_parser.h:441

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Texts
std::map< TEXT_ID, TEXT > Texts
Definition: cadstar_sch_archive_parser.h:446

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Blocks
std::map< BLOCK_ID, BLOCK > Blocks
Definition: cadstar_sch_archive_parser.h:444

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Buses
std::map< BUS_ID, BUS > Buses
Definition: cadstar_sch_archive_parser.h:443

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Groups
std::map< GROUP_ID, GROUP > Groups
Definition: cadstar_sch_archive_parser.h:439

CADSTAR_SCH_ARCHIVE_PARSER::CADSTAR_SCHEMATIC::Nets
std::map< NET_ID, NET_SCH > Nets
Definition: cadstar_sch_archive_parser.h:445

CADSTAR_SCH_ARCHIVE_PARSER::COMP::Designator
wxString Designator
Definition: cadstar_sch_archive_parser.h:190

CADSTAR_SCH_ARCHIVE_PARSER::COMP::AttrLoc
ATTRIBUTE_LOCATION AttrLoc
Definition: cadstar_sch_archive_parser.h:193

CADSTAR_SCH_ARCHIVE_PARSER::LIBRARY_SCM::SymbolDefinitions
std::map< SYMDEF_ID, SYMDEF_SCM > SymbolDefinitions
Definition: cadstar_sch_archive_parser.h:172

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH
Definition: cadstar_sch_archive_parser.h:358

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::Danglers
std::map< NETELEMENT_ID, DANGLER > Danglers
Definition: cadstar_sch_archive_parser.h:430

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::Terminals
std::map< NETELEMENT_ID, SYM_TERM > Terminals
Definition: cadstar_sch_archive_parser.h:427

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::Connections
std::vector< CONNECTION_SCH > Connections
Definition: cadstar_sch_archive_parser.h:431

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::BusTerminals
std::map< NETELEMENT_ID, BUS_TERM > BusTerminals
Definition: cadstar_sch_archive_parser.h:428

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::BlockTerminals
std::map< NETELEMENT_ID, BLOCK_TERM > BlockTerminals
Definition: cadstar_sch_archive_parser.h:429

CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::Junctions
std::map< NETELEMENT_ID, JUNCTION_SCH > Junctions
Definition: cadstar_sch_archive_parser.h:426

CADSTAR_SCH_ARCHIVE_PARSER::PARTREF::RefID
PART_ID RefID
Definition: cadstar_sch_archive_parser.h:201

CADSTAR_SCH_ARCHIVE_PARSER::PARTREF::AttrLoc
ATTRIBUTE_LOCATION AttrLoc
Definition: cadstar_sch_archive_parser.h:204

CADSTAR_SCH_ARCHIVE_PARSER::PIN_NUM_LABEL_LOC
Definition: cadstar_sch_archive_parser.h:152

CADSTAR_SCH_ARCHIVE_PARSER::SHEETS::SheetOrder
std::vector< LAYER_ID > SheetOrder
A vector to also store the order in which sheets are to be displayed.
Definition: cadstar_sch_archive_parser.h:181

CADSTAR_SCH_ARCHIVE_PARSER::SHEETS::SheetNames
std::map< LAYER_ID, SHEET_NAME > SheetNames
Definition: cadstar_sch_archive_parser.h:180

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOLVARIANT::Type
TYPE Type
Definition: cadstar_sch_archive_parser.h:240

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOLVARIANT::Reference
wxString Reference
Definition: cadstar_sch_archive_parser.h:241

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL
Definition: cadstar_sch_archive_parser.h:257

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::ID
SYMBOL_ID ID
Definition: cadstar_sch_archive_parser.h:268

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::PartRef
PARTREF PartRef
Definition: cadstar_sch_archive_parser.h:284

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::LayerID
LAYER_ID LayerID
Sheet on which symbol is located.
Definition: cadstar_sch_archive_parser.h:270

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::OrientAngle
long OrientAngle
Definition: cadstar_sch_archive_parser.h:274

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::VariantParentSymbolID
SYMBOL_ID VariantParentSymbolID
Definition: cadstar_sch_archive_parser.h:294

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::SymdefID
SYMDEF_ID SymdefID
Definition: cadstar_sch_archive_parser.h:269

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::IsSymbolVariant
bool IsSymbolVariant
Definition: cadstar_sch_archive_parser.h:288

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::AttributeValues
std::map< ATTRIBUTE_ID, ATTRIBUTE_VALUE > AttributeValues
Definition: cadstar_sch_archive_parser.h:304

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::GateID
GATE_ID GateID
The gate this symbol represents within the associated Part.
Definition: cadstar_sch_archive_parser.h:286

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::ScaleRatioNumerator
long ScaleRatioNumerator
Symbols can be arbitrarily scaled in CADSTAR.
Definition: cadstar_sch_archive_parser.h:277

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::PinNames
std::map< TERMINAL_ID, SYMPINNAME_LABEL > PinNames
Identifier of the pin in the PCB Equivalent to KiCad's Pin Number.
Definition: cadstar_sch_archive_parser.h:299

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::Mirror
bool Mirror
Definition: cadstar_sch_archive_parser.h:275

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::PinNumbers
std::map< TERMINAL_ID, PIN_NUM > PinNumbers
This seems to only appear in older designs and is similar to PinNames but only allowing numerical val...
Definition: cadstar_sch_archive_parser.h:301

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::VariantID
VARIANT_ID VariantID
Definition: cadstar_sch_archive_parser.h:295

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::ScaleRatioDenominator
long ScaleRatioDenominator
Definition: cadstar_sch_archive_parser.h:278

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::HasPartRef
bool HasPartRef
Definition: cadstar_sch_archive_parser.h:283

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::SymbolVariant
SYMBOLVARIANT SymbolVariant
Definition: cadstar_sch_archive_parser.h:289

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::Origin
POINT Origin
Definition: cadstar_sch_archive_parser.h:271

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::ComponentRef
COMP ComponentRef
Definition: cadstar_sch_archive_parser.h:282

CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::IsComponent
bool IsComponent
Definition: cadstar_sch_archive_parser.h:281

CADSTAR_SCH_ARCHIVE_PARSER::SYMDEF_SCM
Definition: cadstar_sch_archive_parser.h:160

CADSTAR_SCH_ARCHIVE_PARSER::SYMDEF_SCM::PinLabelLocations
std::map< TERMINAL_ID, PIN_NUM_LABEL_LOC > PinLabelLocations
Definition: cadstar_sch_archive_parser.h:162

CADSTAR_SCH_ARCHIVE_PARSER::SYMDEF_SCM::PinNumberLocations
std::map< TERMINAL_ID, PIN_NUM_LABEL_LOC > PinNumberLocations
Definition: cadstar_sch_archive_parser.h:163

CADSTAR_SCH_ARCHIVE_PARSER::SYMDEF_SCM::Terminals
std::map< TERMINAL_ID, TERMINAL > Terminals
Definition: cadstar_sch_archive_parser.h:161

CADSTAR_SCH_ARCHIVE_PARSER::SYMPINNAME_LABEL
Definition: cadstar_sch_archive_parser.h:220

CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL
Definition: cadstar_sch_archive_parser.h:141

CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL::ID
TERMINAL_ID ID
Definition: cadstar_sch_archive_parser.h:142

CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL::Position
POINT Position
Pad position within the component's coordinate frame.
Definition: cadstar_sch_archive_parser.h:144

CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL::OrientAngle
long OrientAngle
Definition: cadstar_sch_archive_parser.h:145

EDA_IU_SCALE::IUToMils
constexpr int IUToMils(int iu) const
Definition: base_units.h:103

EDA_IU_SCALE::IU_PER_MILS
const double IU_PER_MILS
Definition: base_units.h:77

EDA_IU_SCALE::MilsToIU
constexpr int MilsToIU(int mils) const
Definition: base_units.h:97

cw
bool cw
Definition: test_shape_arc.cpp:626

end
VECTOR2I end
Definition: test_shape_arc.cpp:624

delta
int delta
Definition: test_zone_filler.cpp:49

GR_TEXT_H_ALIGN_CENTER
@ GR_TEXT_H_ALIGN_CENTER
Definition: text_attributes.h:45

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

GR_TEXT_V_ALIGN_BOTTOM
@ GR_TEXT_V_ALIGN_BOTTOM
Definition: text_attributes.h:55

GR_TEXT_V_ALIGN_CENTER
@ GR_TEXT_V_ALIGN_CENTER
Definition: text_attributes.h:54

GR_TEXT_V_ALIGN_TOP
@ GR_TEXT_V_ALIGN_TOP
Definition: text_attributes.h:53

trigo.h

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:229

SCH_SYMBOL_T
@ SCH_SYMBOL_T
Definition: typeinfo.h:173

SCH_FIELD_T
@ SCH_FIELD_T
Definition: typeinfo.h:151

SCH_SHAPE_T
@ SCH_SHAPE_T
Definition: typeinfo.h:150

SCH_SHEET_PIN_T
@ SCH_SHEET_PIN_T
Definition: typeinfo.h:175

SCH_TEXT_T
@ SCH_TEXT_T
Definition: typeinfo.h:152

sign
constexpr int sign(T val)
Definition: util.h:145

VECTOR2I
VECTOR2< int32_t > VECTOR2I
Definition: vector2d.h:695

LexicographicalCompare
constexpr int LexicographicalCompare(const VECTOR2< T > &aA, const VECTOR2< T > &aB)
Definition: vector2d.h:644

wildcards_and_files_ext.h
Definition of file extensions used in Kicad.