sch_io_kicad_sexpr_parser.cpp

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/*
 * This program source code file is part of KiCad, a free EDA CAD application.
 *
 * Copyright (C) 2020 CERN
 * Copyright (C) 2022-2024 KiCad Developers, see AUTHORS.txt for contributors.
 *
 * @author Wayne Stambaugh <[email protected]>
 *
 * 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/>.
 */
 
// For some reason wxWidgets is built with wxUSE_BASE64 unset so expose the wxWidgets
// base64 code.
#include <charconv>
 
#include <fmt/format.h>
#define wxUSE_BASE64 1
#include <wx/base64.h>
#include <wx/log.h>
#include <wx/mstream.h>
#include <wx/tokenzr.h>
 
#include <base_units.h>
#include <lib_id.h>
#include <sch_pin.h>
#include <math/util.h> // KiROUND, Clamp
#include <font/font.h>
#include <font/fontconfig.h>
#include <pgm_base.h>
#include <string_utils.h>
#include <sch_bitmap.h>
#include <sch_bus_entry.h>
#include <sch_symbol.h>
#include <sch_edit_frame.h> // SYM_ORIENT_XXX
#include <sch_field.h>
#include <sch_line.h>
#include <sch_rule_area.h>
#include <sch_textbox.h>
#include <sch_table.h>
#include <sch_tablecell.h>
#include <sch_label.h>
#include <sch_junction.h>
#include <sch_no_connect.h>
#include <sch_screen.h>
#include <sch_sheet_pin.h>
#include <sch_io/kicad_sexpr/sch_io_kicad_sexpr_parser.h>
#include <template_fieldnames.h>
#include <trigo.h>
#include <progress_reporter.h>
#include <sch_shape.h>
#include <sim/sim_model.h>
 
 
using namespace TSCHEMATIC_T;
 
 
SCH_IO_KICAD_SEXPR_PARSER::SCH_IO_KICAD_SEXPR_PARSER( LINE_READER* aLineReader,
 PROGRESS_REPORTER* aProgressReporter,
 unsigned aLineCount, SCH_SHEET* aRootSheet,
 bool aIsAppending ) :
 SCHEMATIC_LEXER( aLineReader ),
 m_requiredVersion( 0 ),
 m_unit( 1 ),
 m_bodyStyle( 1 ),
 m_appending( aIsAppending ),
 m_progressReporter( aProgressReporter ),
 m_lineReader( aLineReader ),
 m_lastProgressLine( 0 ),
 m_lineCount( aLineCount ),
 m_rootSheet( aRootSheet )
{
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::checkpoint()
{
 const unsigned PROGRESS_DELTA = 500;
 
 if( m_progressReporter )
 {
 unsigned curLine = m_lineReader->LineNumber();
 
 if( curLine > m_lastProgressLine + PROGRESS_DELTA )
 {
 m_progressReporter->SetCurrentProgress( ( (double) curLine )
 / std::max( 1U, m_lineCount ) );
 
 if( !m_progressReporter->KeepRefreshing() )
 THROW_IO_ERROR( _( "Open cancelled by user." ) );
 
 m_lastProgressLine = curLine;
 }
 }
}
 
 
KIID SCH_IO_KICAD_SEXPR_PARSER::parseKIID()
{
 KIID id( FromUTF8() );
 
 while( m_uuids.count( id ) )
 id.Increment();
 
 m_uuids.insert( id );
 
 return id;
}
 
 
bool SCH_IO_KICAD_SEXPR_PARSER::parseBool()
{
 T token = NextTok();
 
 if( token == T_yes )
 return true;
 else if( token == T_no )
 return false;
 else
 Expecting( "yes or no" );
 
 return false;
}
 
 
/*
 * e.g. "hide", "hide)", "(hide yes)"
 */
bool SCH_IO_KICAD_SEXPR_PARSER::parseMaybeAbsentBool( bool aDefaultValue )
{
 bool ret = aDefaultValue;
 
 if( PrevTok() == T_LEFT )
 {
 T token = NextTok();
 
 // "hide)"
 if( static_cast<int>( token ) == DSN_RIGHT )
 return aDefaultValue;
 
 if( token == T_yes )
 ret = true;
 else if( token == T_no )
 ret = false;
 else
 Expecting( "yes or no" );
 
 NeedRIGHT();
 }
 else
 {
 // "hide"
 return aDefaultValue;
 }
 
 return ret;
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::ParseLib( LIB_SYMBOL_MAP& aSymbolLibMap )
{
 T token;
 
 NeedLEFT();
 NextTok();
 parseHeader( T_kicad_symbol_lib, SEXPR_SYMBOL_LIB_FILE_VERSION );
 
 bool versionChecked = false;
 
 auto checkVersion =
 [&]()
 {
 if( !versionChecked && m_requiredVersion > SEXPR_SYMBOL_LIB_FILE_VERSION )
 {
 throw FUTURE_FORMAT_ERROR( fmt::format( "{}", m_requiredVersion ),
 m_generatorVersion );
 }
 
 versionChecked = true;
 };
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_generator:
 // (generator "genname"); we don't care about it at the moment.
 NeedSYMBOL();
 NeedRIGHT();
 break;
 
 case T_host:
 {
 // (host eeschema ["5.99"]); old version of generator token
 NeedSYMBOL();
 
 // Really old versions also included a host version
 if( m_requiredVersion < 20200827 )
 NeedSYMBOL();
 
 NeedRIGHT();
 break;
 }
 
 case T_generator_version:
 {
 NextTok();
 m_generatorVersion = FromUTF8();
 NeedRIGHT();
 
 // If the format includes a generator version, by this point we have enough info to
 // do the version check here
 checkVersion();
 break;
 }
 
 case T_symbol:
 {
 // By the time we get to the first symbol, we can check the version
 checkVersion();
 
 m_unit = 1;
 m_bodyStyle = 1;
 LIB_SYMBOL* symbol = parseLibSymbol( aSymbolLibMap );
 aSymbolLibMap[symbol->GetName()] = symbol;
 break;
 }
 
 default:
 Expecting( "symbol, generator, or generator_version" );
 }
 }
}
 
 
LIB_SYMBOL* SCH_IO_KICAD_SEXPR_PARSER::ParseSymbol( LIB_SYMBOL_MAP& aSymbolLibMap,
 int aFileVersion )
{
 LIB_SYMBOL* newSymbol = nullptr;
 
 NextTok();
 
 // If there actually isn't anything here, don't throw just return a nullptr
 if( CurTok() == T_LEFT )
 {
 NextTok();
 
 if( CurTok() == T_symbol )
 {
 m_requiredVersion = aFileVersion;
 newSymbol = parseLibSymbol( aSymbolLibMap );
 }
 else
 {
 wxString msg = wxString::Format( _( "Cannot parse %s as a symbol" ),
 GetTokenString( CurTok() ) );
 THROW_PARSE_ERROR( msg, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 }
 
 for( auto& [text, params] : m_fontTextMap )
 {
 text->SetFont( KIFONT::FONT::GetFont( std::get<0>( params ), std::get<1>( params ),
 std::get<2>( params ),
 newSymbol->GetEmbeddedFiles()->UpdateFontFiles() ) );
 }
 
 return newSymbol;
}
 
 
LIB_SYMBOL* SCH_IO_KICAD_SEXPR_PARSER::parseLibSymbol( LIB_SYMBOL_MAP& aSymbolLibMap )
{
 wxCHECK_MSG( CurTok() == T_symbol, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a symbol." ) );
 
 T token;
 long tmp;
 wxString name;
 wxString error;
 wxString unitDisplayName;
 SCH_ITEM* item;
 std::unique_ptr<LIB_SYMBOL> symbol = std::make_unique<LIB_SYMBOL>( wxEmptyString );
 
 symbol->SetUnitCount( 1 );
 
 m_fieldIDsRead.clear();
 
 // Make sure the mandatory field IDs are reserved as already read,
 // the field parser will set the field IDs to the correct value if
 // the field name matches a mandatory field name
 for( int i = 0; i < MANDATORY_FIELDS; i++ )
 m_fieldIDsRead.insert( i );
 
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid symbol name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 name = FromUTF8();
 
 // Some symbol LIB_IDs have the '/' character escaped which can break derived symbol links.
 // The '/' character is no longer an illegal LIB_ID character so it doesn't need to be
 // escaped.
 name.Replace( wxS( "{slash}" ), wxT( "/" ) );
 
 LIB_ID id;
 int bad_pos = id.Parse( name );
 
 if( bad_pos >= 0 )
 {
 if( static_cast<int>( name.size() ) > bad_pos )
 {
 wxString msg = wxString::Format( _( "Symbol %s contains invalid character '%c'" ),
 name,
 name[bad_pos] );
 
 THROW_PARSE_ERROR( msg, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 
 THROW_PARSE_ERROR( _( "Invalid library identifier" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 m_symbolName = id.GetLibItemName().wx_str();
 symbol->SetName( m_symbolName );
 symbol->SetLibId( id );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_power:
 symbol->SetPower();
 NeedRIGHT();
 break;
 
 case T_pin_names:
 parsePinNames( symbol );
 break;
 
 case T_pin_numbers:
 token = NextTok();
 
 if( token != T_hide )
 Expecting( "hide" );
 
 symbol->SetShowPinNumbers( false );
 NeedRIGHT();
 break;
 
 case T_exclude_from_sim:
 symbol->SetExcludedFromSim( parseBool() );
 NeedRIGHT();
 break;
 
 case T_in_bom:
 symbol->SetExcludedFromBOM( !parseBool() );
 NeedRIGHT();
 break;
 
 case T_on_board:
 symbol->SetExcludedFromBoard( !parseBool() );
 NeedRIGHT();
 break;
 
 case T_property:
 parseProperty( symbol );
 break;
 
 case T_extends:
 {
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid parent symbol name" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 name = FromUTF8();
 
 // Some symbol LIB_IDs have the '/' character escaped which can break derived
 // symbol links. The '/' character is no longer an illegal LIB_ID character so
 // it doesn't need to be escaped.
 name.Replace( wxS( "{slash}" ), wxT( "/" ) );
 
 auto it = aSymbolLibMap.find( name );
 
 if( it == aSymbolLibMap.end() )
 {
 error.Printf( _( "No parent for extended symbol %s" ), name.c_str() );
 THROW_PARSE_ERROR( error, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 symbol->SetParent( it->second );
 NeedRIGHT();
 break;
 }
 
 case T_symbol:
 {
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid symbol unit name" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 name = FromUTF8();
 
 // Some symbol LIB_IDs have the '/' character escaped which can break derived
 // symbol links. The '/' character is no longer an illegal LIB_ID character so
 // it doesn't need to be escaped.
 name.Replace( wxS( "{slash}" ), wxT( "/" ) );
 
 if( !name.StartsWith( m_symbolName ) )
 {
 error.Printf( _( "Invalid symbol unit name prefix %s" ), name.c_str() );
 THROW_PARSE_ERROR( error, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 name = name.Right( name.Length() - m_symbolName.Length() - 1 );
 
 wxStringTokenizer tokenizer( name, "_" );
 
 if( tokenizer.CountTokens() != 2 )
 {
 error.Printf( _( "Invalid symbol unit name suffix %s" ), name.c_str() );
 THROW_PARSE_ERROR( error, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 if( !tokenizer.GetNextToken().ToLong( &tmp ) )
 {
 error.Printf( _( "Invalid symbol unit number %s" ), name.c_str() );
 THROW_PARSE_ERROR( error, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 m_unit = static_cast<int>( tmp );
 
 if( !tokenizer.GetNextToken().ToLong( &tmp ) )
 {
 error.Printf( _( "Invalid symbol convert number %s" ), name.c_str() );
 THROW_PARSE_ERROR( error, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 m_bodyStyle = static_cast<int>( tmp );
 
 if( m_bodyStyle > 1 )
 symbol->SetHasAlternateBodyStyle( true, false );
 
 if( m_unit > symbol->GetUnitCount() )
 symbol->SetUnitCount( m_unit, false );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_unit_name:
 token = NextTok();
 
 if( IsSymbol( token ) )
 {
 unitDisplayName = FromUTF8();
 symbol->SetUnitDisplayName( m_unit, unitDisplayName );
 }
 
 NeedRIGHT();
 break;
 
 case T_arc:
 case T_bezier:
 case T_circle:
 case T_pin:
 case T_polyline:
 case T_rectangle:
 case T_text:
 case T_text_box:
 item = ParseSymbolDrawItem();
 
 wxCHECK_MSG( item, nullptr, "Invalid draw item pointer." );
 
 item->SetParent( symbol.get() );
 symbol->AddDrawItem( item, false );
 break;
 
 default:
 Expecting( "arc, bezier, circle, pin, polyline, rectangle, or text" );
 };
 }
 
 m_unit = 1;
 m_bodyStyle = 1;
 break;
 }
 
 case T_arc:
 case T_bezier:
 case T_circle:
 case T_pin:
 case T_polyline:
 case T_rectangle:
 case T_text:
 case T_text_box:
 item = ParseSymbolDrawItem();
 
 wxCHECK_MSG( item, nullptr, "Invalid draw item pointer." );
 
 item->SetParent( symbol.get() );
 symbol->AddDrawItem( item, false );
 break;
 
 case T_embedded_fonts:
 {
 symbol->SetAreFontsEmbedded( parseBool() );
 NeedRIGHT();
 break;
 }
 
 case T_embedded_files:
 {
 EMBEDDED_FILES_PARSER embeddedFilesParser( reader );
 embeddedFilesParser.SyncLineReaderWith( *this );
 
 try
 {
 embeddedFilesParser.ParseEmbedded( symbol->GetEmbeddedFiles() );
 }
 catch( const IO_ERROR& e )
 {
 wxLogError( e.What() );
 }
 
 SyncLineReaderWith( embeddedFilesParser );
 break;
 }
 
 default:
 Expecting( "pin_names, pin_numbers, arc, bezier, circle, pin, polyline, "
 "rectangle, or text" );
 }
 }
 
 symbol->GetDrawItems().sort();
 m_symbolName.clear();
 
 return symbol.release();
}
 
 
SCH_ITEM* SCH_IO_KICAD_SEXPR_PARSER::ParseSymbolDrawItem()
{
 switch( CurTok() )
 {
 case T_arc: return parseSymbolArc(); break;
 case T_bezier: return parseSymbolBezier(); break;
 case T_circle: return parseSymbolCircle(); break;
 case T_pin: return parseSymbolPin(); break;
 case T_polyline: return parseSymbolPolyLine(); break;
 case T_rectangle: return parseSymbolRectangle(); break;
 case T_text: return parseSymbolText(); break;
 case T_text_box: return parseSymbolTextBox(); break;
 default: Expecting( "arc, bezier, circle, pin, polyline, rectangle, or text" );
 }
 
 return nullptr;
}
 
 
int SCH_IO_KICAD_SEXPR_PARSER::parseInternalUnits()
{
 auto retval = parseDouble() * schIUScale.IU_PER_MM;
 
 // Schematic internal units are represented as integers. Any values that are
 // larger or smaller than the schematic units represent undefined behavior for
 // the system. Limit values to the largest that can be displayed on the screen.
 constexpr double int_limit = std::numeric_limits<int>::max() * 0.7071; // 0.7071 = roughly 1/sqrt(2)
 
 return KiROUND( Clamp<double>( -int_limit, retval, int_limit ) );
}
 
 
int SCH_IO_KICAD_SEXPR_PARSER::parseInternalUnits( const char* aExpected )
{
 auto retval = parseDouble( aExpected ) * schIUScale.IU_PER_MM;
 
 constexpr double int_limit = std::numeric_limits<int>::max() * 0.7071;
 
 return KiROUND( Clamp<double>( -int_limit, retval, int_limit ) );
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseStroke( STROKE_PARAMS& aStroke )
{
 STROKE_PARAMS_PARSER strokeParser( reader, schIUScale.IU_PER_MM );
 strokeParser.SyncLineReaderWith( *this );
 
 strokeParser.ParseStroke( aStroke );
 SyncLineReaderWith( strokeParser );
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseFill( FILL_PARAMS& aFill )
{
 wxCHECK_RET( CurTok() == T_fill, "Cannot parse " + GetTokenString( CurTok() ) + " as a fill." );
 
 aFill.m_FillType = FILL_T::NO_FILL;
 aFill.m_Color = COLOR4D::UNSPECIFIED;
 
 T token;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_type:
 {
 token = NextTok();
 
 switch( token )
 {
 case T_none: aFill.m_FillType = FILL_T::NO_FILL; break;
 case T_outline: aFill.m_FillType = FILL_T::FILLED_SHAPE; break;
 case T_background: aFill.m_FillType = FILL_T::FILLED_WITH_BG_BODYCOLOR; break;
 case T_color: aFill.m_FillType = FILL_T::FILLED_WITH_COLOR; break;
 default: Expecting( "none, outline, color or background" );
 }
 
 NeedRIGHT();
 break;
 }
 
 case T_color:
 {
 COLOR4D color;
 
 color.r = parseInt( "red" ) / 255.0;
 color.g = parseInt( "green" ) / 255.0;
 color.b = parseInt( "blue" ) / 255.0;
 color.a = Clamp( parseDouble( "alpha" ), 0.0, 1.0 );
 aFill.m_Color = color;
 NeedRIGHT();
 break;
 }
 
 default:
 Expecting( "type or color" );
 }
 }
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseEDA_TEXT( EDA_TEXT* aText, bool aConvertOverbarSyntax,
 bool aEnforceMinTextSize )
{
 wxCHECK_RET( aText && ( CurTok() == T_effects || CurTok() == T_href ),
 "Cannot parse " + GetTokenString( CurTok() ) + " as an EDA_TEXT." );
 
 // In version 20210606 the notation for overbars was changed from `~...~` to `~{...}`.
 // We need to convert the old syntax to the new one.
 if( aConvertOverbarSyntax && m_requiredVersion < 20210606 )
 aText->SetText( ConvertToNewOverbarNotation( aText->GetText() ) );
 
 T token;
 bool bold = false;
 bool italic = false;
 wxString faceName;
 COLOR4D color = COLOR4D::UNSPECIFIED;
 
 // Various text objects (text boxes, schematic text, etc.) all have their own defaults,
 // but the file format default is {center,center} so we have to set that before parsing.
 aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
 aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token == T_LEFT )
 token = NextTok();
 
 switch( token )
 {
 case T_font:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token == T_LEFT )
 token = NextTok();
 
 switch( token )
 {
 case T_face:
 NeedSYMBOL();
 faceName = FromUTF8();
 NeedRIGHT();
 break;
 
 case T_size:
 {
 VECTOR2I sz;
 sz.y = parseInternalUnits( "text height" );
 sz.x = parseInternalUnits( "text width" );
 aText->SetTextSize( sz, aEnforceMinTextSize );
 NeedRIGHT();
 break;
 }
 
 case T_thickness:
 aText->SetTextThickness( parseInternalUnits( "text thickness" ) );
 NeedRIGHT();
 break;
 
 case T_bold:
 bold = parseMaybeAbsentBool( true );
 aText->SetBoldFlag( bold );
 break;
 
 case T_italic:
 italic = parseMaybeAbsentBool( true );
 aText->SetItalic( italic );
 break;
 
 case T_color:
 color.r = parseInt( "red" ) / 255.0;
 color.g = parseInt( "green" ) / 255.0;
 color.b = parseInt( "blue" ) / 255.0;
 color.a = Clamp( parseDouble( "alpha" ), 0.0, 1.0 );
 aText->SetTextColor( color );
 NeedRIGHT();
 break;
 
 case T_line_spacing:
 aText->SetLineSpacing( parseDouble( "line spacing" ) );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "face, size, thickness, line_spacing, bold, or italic" );
 }
 }
 
 if( !faceName.IsEmpty() )
 m_fontTextMap[aText] = { faceName, bold, italic };
 
 break;
 
 case T_justify:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 switch( token )
 {
 case T_left: aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT ); break;
 case T_right: aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT ); break;
 case T_top: aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP ); break;
 case T_bottom: aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM ); break;
 // Do not set mirror property for schematic text elements
 case T_mirror: break;
 default: Expecting( "left, right, top, bottom, or mirror" );
 }
 }
 
 break;
 
 case T_href:
 {
 NeedSYMBOL();
 wxString hyperlink = FromUTF8();
 
 if( !EDA_TEXT::ValidateHyperlink( hyperlink ) )
 {
 THROW_PARSE_ERROR( wxString::Format( _( "Invalid hyperlink url '%s'" ), hyperlink ),
 CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 else
 {
 aText->SetHyperlink( hyperlink );
 }
 
 NeedRIGHT();
 }
 break;
 
 case T_hide:
 {
 bool hide = parseMaybeAbsentBool( true );
 aText->SetVisible( !hide );
 break;
 }
 
 default:
 Expecting( "font, justify, hide or href" );
 }
 }
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseHeader( TSCHEMATIC_T::T aHeaderType, int aFileVersion )
{
 wxCHECK_RET( CurTok() == aHeaderType,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a header." ) );
 
 NeedLEFT();
 
 T tok = NextTok();
 
 if( tok == T_version )
 {
 m_requiredVersion = parseInt( FromUTF8().mb_str( wxConvUTF8 ) );
 NeedRIGHT();
 }
 else
 {
 m_requiredVersion = aFileVersion;
 }
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parsePinNames( std::unique_ptr<LIB_SYMBOL>& aSymbol )
{
 wxCHECK_RET( CurTok() == T_pin_names,
 "Cannot parse " + GetTokenString( CurTok() ) + " as a pin_name token." );
 
 T token = NextTok();
 
 if( token == T_LEFT )
 {
 token = NextTok();
 
 if( token != T_offset )
 Expecting( "offset" );
 
 aSymbol->SetPinNameOffset( parseInternalUnits( "pin name offset" ) );
 NeedRIGHT();
 token = NextTok(); // Either ) or hide
 }
 
 if( token == T_hide )
 {
 aSymbol->SetShowPinNames( false );
 NeedRIGHT();
 }
 else if( token != T_RIGHT )
 {
 THROW_PARSE_ERROR( _( "Invalid pin names definition" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
}
 
 
SCH_FIELD* SCH_IO_KICAD_SEXPR_PARSER::parseProperty( std::unique_ptr<LIB_SYMBOL>& aSymbol )
{
 wxCHECK_MSG( CurTok() == T_property, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a property." ) );
 wxCHECK( aSymbol, nullptr );
 
 wxString name;
 wxString value;
 auto field = std::make_unique<SCH_FIELD>( aSymbol.get(), MANDATORY_FIELDS );
 
 // By default, fieds are visible.
 // Invisible fields have the hide style or keyword specified in file
 field->SetVisible( true );
 
 T token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid property name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 name = FromUTF8();
 
 if( name.IsEmpty() )
 {
 THROW_PARSE_ERROR( _( "Empty property name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 field->SetName( name );
 
 // Correctly set the ID based on canonical (untranslated) field name
 // If ID is stored in the file (old versions), it will overwrite this
 for( int ii = 0; ii < MANDATORY_FIELDS; ++ii )
 {
 if( !name.CmpNoCase( GetCanonicalFieldName( ii ) ) )
 {
 field->SetId( ii );
 break;
 }
 }
 
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid property value" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 // Empty property values are valid.
 value = FromUTF8();
 
 field->SetText( value );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 // I am not sure we should even support parsing these IDs any more
 case T_id:
 {
 int id = parseInt( "field ID" );
 
 // Only set an ID that isn't a MANDATORY_FIELDS ID
 if( id >= MANDATORY_FIELDS )
 field->SetId( id );
 
 NeedRIGHT();
 }
 break;
 
 case T_at:
 field->SetPosition( parseXY( true ) );
 field->SetTextAngle( EDA_ANGLE( parseDouble( "text angle" ), DEGREES_T ) );
 NeedRIGHT();
 break;
 
 case T_effects:
 parseEDA_TEXT( static_cast<EDA_TEXT*>( field.get() ), field->GetId() == VALUE_FIELD );
 break;
 
 case T_show_name:
 {
 bool show = parseMaybeAbsentBool( true );
 field->SetNameShown( show );
 break;
 }
 
 case T_do_not_autoplace:
 {
 bool doNotAutoplace = parseMaybeAbsentBool( true );
 field->SetCanAutoplace( !doNotAutoplace );
 break;
 }
 
 default:
 Expecting( "id, at, show_name, do_not_autoplace, or effects" );
 }
 }
 
 // Due to an bug when in #LIB_SYMBOL::Flatten, duplicate ids slipped through when writing
 // files. This section replaces duplicate #SCH_FIELD indices on load.
 if( ( field->GetId() >= MANDATORY_FIELDS ) && m_fieldIDsRead.count( field->GetId() ) )
 {
 int nextAvailableId = field->GetId() + 1;
 
 while( m_fieldIDsRead.count( nextAvailableId ) )
 nextAvailableId += 1;
 
 field->SetId( nextAvailableId );
 }
 
 SCH_FIELD* existingField;
 
 if( field->IsMandatory() )
 {
 existingField = aSymbol->GetFieldById( field->GetId() );
 
 *existingField = *field;
 m_fieldIDsRead.insert( field->GetId() );
 return existingField;
 }
 else if( name == "ki_keywords" )
 {
 // Not a SCH_FIELD object yet.
 aSymbol->SetKeyWords( value );
 return nullptr;
 }
 // In v7 and earlier the description field didn't exist and was a key/value
 else if( name == "ki_description" )
 {
 aSymbol->SetDescription( value );
 return nullptr;
 }
 else if( name == "ki_fp_filters" )
 {
 // Not a SCH_FIELD object yet.
 wxArrayString filters;
 wxStringTokenizer tokenizer( value );
 
 while( tokenizer.HasMoreTokens() )
 {
 wxString curr_token = UnescapeString( tokenizer.GetNextToken() );
 filters.Add( curr_token );
 }
 
 aSymbol->SetFPFilters( filters );
 return nullptr;
 }
 else if( name == "ki_locked" )
 {
 // This is a temporary SCH_FIELD object until interchangeable units are determined on
 // the fly.
 aSymbol->LockUnits( true );
 return nullptr;
 }
 else
 {
 // At this point, a user field is read.
 existingField = aSymbol->FindField( field->GetCanonicalName() );
 
#if 1 // Enable it to modify the name of the field to add if already existing
 // Disable it to skip the field having the same name as previous field
 if( existingField )
 {
 // We cannot handle 2 fields with the same name, so because the field name
 // is already in use, try to build a new name (oldname_x)
 wxString base_name = field->GetCanonicalName();
 
 // Arbitrary limit 10 attempts to find a new name
 for( int ii = 1; ii < 10 && existingField; ii++ )
 {
 wxString newname = base_name;
 newname << '_' << ii;
 
 existingField = aSymbol->FindField( newname );
 
 if( !existingField ) // the modified name is not found, use it
 field->SetName( newname );
 }
 }
#endif
 if( !existingField )
 {
 aSymbol->AddDrawItem( field.get(), false );
 m_fieldIDsRead.insert( field->GetId() );
 return field.release();
 }
 else
 {
 // We cannot handle 2 fields with the same name, so skip this one
 return nullptr;
 }
 }
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolArc()
{
 wxCHECK_MSG( CurTok() == T_arc, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as an arc." ) );
 
 T token;
 VECTOR2I startPoint( 1, 0 ); // Initialize to a non-degenerate arc just for safety
 VECTOR2I midPoint( 1, 1 );
 VECTOR2I endPoint( 0, 1 );
 bool hasMidPoint = false;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 
 // Parameters for legacy format
 VECTOR2I center( 0, 0 );
 EDA_ANGLE startAngle = ANGLE_0;
 EDA_ANGLE endAngle = ANGLE_90;
 bool hasAngles = false;
 
 std::unique_ptr<SCH_SHAPE> arc = std::make_unique<SCH_SHAPE>( SHAPE_T::ARC, LAYER_DEVICE );
 
 arc->SetUnit( m_unit );
 arc->SetBodyStyle( m_bodyStyle );
 
 token = NextTok();
 
 if( token == T_private )
 {
 arc->SetPrivate( true );
 token = NextTok();
 }
 
 for( ; token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_start:
 startPoint = parseXY( true );
 NeedRIGHT();
 break;
 
 case T_mid:
 midPoint = parseXY( true );
 NeedRIGHT();
 hasMidPoint = true;
 break;
 
 case T_end:
 endPoint = parseXY( true );
 NeedRIGHT();
 break;
 
 case T_radius:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 center = parseXY( true );
 NeedRIGHT();
 break;
 
 case T_length:
 parseInternalUnits( "radius length" );
 NeedRIGHT();
 break;
 
 case T_angles:
 {
 startAngle = EDA_ANGLE( parseDouble( "start radius angle" ), DEGREES_T );
 endAngle = EDA_ANGLE( parseDouble( "end radius angle" ), DEGREES_T );
 startAngle.Normalize();
 endAngle.Normalize();
 NeedRIGHT();
 hasAngles = true;
 break;
 }
 
 default:
 Expecting( "at, length, or angles" );
 }
 }
 
 break;
 
 case T_stroke:
 parseStroke( stroke );
 arc->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 arc->SetFillMode( fill.m_FillType );
 arc->SetFillColor( fill.m_Color );
 break;
 
 default:
 Expecting( "start, mid, end, radius, stroke, or fill" );
 }
 }
 
 if( hasMidPoint )
 {
 arc->SetArcGeometry( startPoint, midPoint, endPoint );
 
 if( m_requiredVersion <= 20230121 ) // Versions before 7.0
 {
 // Should be not required. Unfortunately it is needed because some bugs created
 // incorrect data after conversion of old libraries to the new arc format using
 // startPoint, midPoint, endPoint
 // Until now, in Eeschema the arc angle should be <= 180 deg.
 // If > 180 (bug...) we need to swap arc ends.
 // However arc angle == 180 deg can also create issues in some cases (plotters, hittest)
 // so also avoid arc == 180 deg
 EDA_ANGLE arc_start, arc_end, arc_angle;
 arc->CalcArcAngles( arc_start, arc_end );
 arc_angle = arc_end - arc_start;
 
 if( arc_angle > ANGLE_180 )
 {
 // Change arc to its complement (360deg - arc_angle)
 arc->SetStart( endPoint );
 arc->SetEnd( startPoint );
 VECTOR2I new_center =
 CalcArcCenter( arc->GetStart(), arc->GetEnd(), ANGLE_360 - arc_angle );
 arc->SetCenter( new_center );
 }
 else if( arc_angle == ANGLE_180 )
 {
 VECTOR2I new_center = CalcArcCenter( arc->GetStart(), arc->GetEnd(),
 EDA_ANGLE( 179.5, DEGREES_T ) );
 arc->SetCenter( new_center );
 }
 }
 }
 else if( hasAngles )
 {
 arc->SetCenter( center );
 /*
 * Older versions stored start-end with an implied winding, but the winding was different
 * between LibEdit and PCBNew. Since we now use a common class (EDA_SHAPE) for both we
 * need to flip one of them. LibEdit drew the short straw.
 */
 arc->SetStart( endPoint );
 arc->SetEnd( startPoint );
 
 // Like previously, 180 degrees arcs that create issues are just modified
 // to be < 180 degrees to do not break some other functions ( Draw, Plot, HitTest)
 EDA_ANGLE arc_start, arc_end, arc_angle;
 arc->CalcArcAngles( arc_start, arc_end );
 arc_angle = arc_end - arc_start;
 
 // The arc angle should be <= 180 deg.
 // If > 180 we need to swap arc ends (the first choice was not good)
 if( arc_angle > ANGLE_180 )
 {
 arc->SetStart( startPoint );
 arc->SetEnd( endPoint );
 }
 else if( arc_angle == ANGLE_180 )
 {
 arc->SetStart( startPoint );
 arc->SetEnd( endPoint );
 VECTOR2I new_center = CalcArcCenter( arc->GetStart(), arc->GetEnd(),
 EDA_ANGLE( 179.5, DEGREES_T ) );
 arc->SetCenter( new_center );
 }
 }
 else
 {
 wxFAIL_MSG( "Setting arc without either midpoint or angles not implemented." );
 }
 
 return arc.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolBezier()
{
 wxCHECK_MSG( CurTok() == T_bezier, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a bezier." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 
 std::unique_ptr<SCH_SHAPE> bezier = std::make_unique<SCH_SHAPE>( SHAPE_T::BEZIER, LAYER_DEVICE );
 
 bezier->SetUnit( m_unit );
 bezier->SetBodyStyle( m_bodyStyle );
 
 token = NextTok();
 
 if( token == T_private )
 {
 bezier->SetPrivate( true );
 token = NextTok();
 }
 
 for( ; token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_pts:
 {
 int ii = 0;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok(), ++ii )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_xy )
 Expecting( "xy" );
 
 switch( ii )
 {
 case 0: bezier->SetStart( parseXY( true ) ); break;
 case 1: bezier->SetBezierC1( parseXY( true ) ); break;
 case 2: bezier->SetBezierC2( parseXY( true ) ); break;
 case 3: bezier->SetEnd( parseXY( true ) ); break;
 default: Unexpected( "control point" ); break;
 }
 
 NeedRIGHT();
 }
 }
 break;
 
 case T_stroke:
 parseStroke( stroke );
 bezier->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 bezier->SetFillMode( fill.m_FillType );
 bezier->SetFillColor( fill.m_Color );
 break;
 
 default:
 Expecting( "pts, stroke, or fill" );
 }
 }
 
 bezier->RebuildBezierToSegmentsPointsList( bezier->GetPenWidth() / 2 );
 
 return bezier.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolCircle()
{
 wxCHECK_MSG( CurTok() == T_circle, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a circle." ) );
 
 T token;
 VECTOR2I center( 0, 0 );
 int radius = 1; // defaulting to 0 could result in troublesome math....
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 
 std::unique_ptr<SCH_SHAPE> circle = std::make_unique<SCH_SHAPE>( SHAPE_T::CIRCLE, LAYER_DEVICE );
 
 circle->SetUnit( m_unit );
 circle->SetBodyStyle( m_bodyStyle );
 
 token = NextTok();
 
 if( token == T_private )
 {
 circle->SetPrivate( true );
 token = NextTok();
 }
 
 for( ; token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_center:
 center = parseXY( true );
 NeedRIGHT();
 break;
 
 case T_radius:
 radius = parseInternalUnits( "radius length" );
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 circle->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 circle->SetFillMode( fill.m_FillType );
 circle->SetFillColor( fill.m_Color );
 break;
 
 default:
 Expecting( "center, radius, stroke, or fill" );
 }
 }
 
 circle->SetCenter( center );
 circle->SetEnd( VECTOR2I( center.x + radius, center.y ) );
 
 return circle.release();
}
 
 
SCH_PIN* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolPin()
{
 auto parseType =
 [&]( T token ) -> ELECTRICAL_PINTYPE
 {
 switch( token )
 {
 case T_input: return ELECTRICAL_PINTYPE::PT_INPUT;
 case T_output: return ELECTRICAL_PINTYPE::PT_OUTPUT;
 case T_bidirectional: return ELECTRICAL_PINTYPE::PT_BIDI;
 case T_tri_state: return ELECTRICAL_PINTYPE::PT_TRISTATE;
 case T_passive: return ELECTRICAL_PINTYPE::PT_PASSIVE;
 case T_unspecified: return ELECTRICAL_PINTYPE::PT_UNSPECIFIED;
 case T_power_in: return ELECTRICAL_PINTYPE::PT_POWER_IN;
 case T_power_out: return ELECTRICAL_PINTYPE::PT_POWER_OUT;
 case T_open_collector: return ELECTRICAL_PINTYPE::PT_OPENCOLLECTOR;
 case T_open_emitter: return ELECTRICAL_PINTYPE::PT_OPENEMITTER;
 case T_unconnected:
 case T_no_connect: return ELECTRICAL_PINTYPE::PT_NC;
 case T_free: return ELECTRICAL_PINTYPE::PT_NIC;
 
 default:
 Expecting( "input, output, bidirectional, tri_state, passive, unspecified, "
 "power_in, power_out, open_collector, open_emitter, free or "
 "no_connect" );
 return ELECTRICAL_PINTYPE::PT_UNSPECIFIED;
 }
 };
 
 auto parseShape =
 [&]( T token ) -> GRAPHIC_PINSHAPE
 {
 switch( token )
 {
 case T_line: return GRAPHIC_PINSHAPE::LINE;
 case T_inverted: return GRAPHIC_PINSHAPE::INVERTED;
 case T_clock: return GRAPHIC_PINSHAPE::CLOCK;
 case T_inverted_clock: return GRAPHIC_PINSHAPE::INVERTED_CLOCK;
 case T_input_low: return GRAPHIC_PINSHAPE::INPUT_LOW;
 case T_clock_low: return GRAPHIC_PINSHAPE::CLOCK_LOW;
 case T_output_low: return GRAPHIC_PINSHAPE::OUTPUT_LOW;
 case T_edge_clock_high: return GRAPHIC_PINSHAPE::FALLING_EDGE_CLOCK;
 case T_non_logic: return GRAPHIC_PINSHAPE::NONLOGIC;
 
 default:
 Expecting( "line, inverted, clock, inverted_clock, input_low, clock_low, "
 "output_low, edge_clock_high, non_logic" );
 return GRAPHIC_PINSHAPE::LINE;
 }
 };
 
 wxCHECK_MSG( CurTok() == T_pin, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a pin token." ) );
 
 T token;
 wxString tmp;
 wxString error;
 std::unique_ptr<SCH_PIN> pin = std::make_unique<SCH_PIN>( nullptr );
 
 pin->SetUnit( m_unit );
 pin->SetBodyStyle( m_bodyStyle );
 
 // Pin electrical type.
 token = NextTok();
 pin->SetType( parseType( token ) );
 
 // Pin shape.
 token = NextTok();
 pin->SetShape( parseShape( token ) );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token == T_hide )
 {
 pin->SetVisible( false );
 continue;
 }
 
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 pin->SetPosition( parseXY( true ) );
 
 switch( parseInt( "pin orientation" ) )
 {
 case 0: pin->SetOrientation( PIN_ORIENTATION::PIN_RIGHT ); break;
 case 90: pin->SetOrientation( PIN_ORIENTATION::PIN_UP ); break;
 case 180: pin->SetOrientation( PIN_ORIENTATION::PIN_LEFT ); break;
 case 270: pin->SetOrientation( PIN_ORIENTATION::PIN_DOWN ); break;
 default: Expecting( "0, 90, 180, or 270" );
 }
 
 NeedRIGHT();
 break;
 
 case T_length:
 pin->SetLength( parseInternalUnits( "pin length" ) );
 NeedRIGHT();
 break;
 
 case T_name:
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid pin name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 if( m_requiredVersion < 20210606 )
 pin->SetName( ConvertToNewOverbarNotation( FromUTF8() ) );
 else
 pin->SetName( FromUTF8() );
 
 token = NextTok();
 
 if( token != T_RIGHT )
 {
 token = NextTok();
 
 if( token == T_effects )
 {
 // The EDA_TEXT font effects formatting is used so use and EDA_TEXT object
 // so duplicate parsing is not required.
 EDA_TEXT text( schIUScale );
 
 parseEDA_TEXT( &text, true, false );
 pin->SetNameTextSize( text.GetTextHeight() );
 NeedRIGHT();
 }
 else
 {
 Expecting( "effects" );
 }
 }
 
 break;
 
 case T_number:
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid pin number" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 pin->SetNumber( FromUTF8() );
 token = NextTok();
 
 if( token != T_RIGHT )
 {
 token = NextTok();
 
 if( token == T_effects )
 {
 // The EDA_TEXT font effects formatting is used so use and EDA_TEXT object
 // so duplicate parsing is not required.
 EDA_TEXT text( schIUScale );
 
 parseEDA_TEXT( &text, false, false );
 pin->SetNumberTextSize( text.GetTextHeight() );
 NeedRIGHT();
 }
 else
 {
 Expecting( "effects" );
 }
 }
 
 break;
 
 case T_alternate:
 {
 SCH_PIN::ALT alt;
 
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid alternate pin name" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 alt.m_Name = FromUTF8();
 
 token = NextTok();
 alt.m_Type = parseType( token );
 
 token = NextTok();
 alt.m_Shape = parseShape( token );
 
 pin->GetAlternates()[ alt.m_Name ] = alt;
 
 NeedRIGHT();
 break;
 }
 
 default:
 Expecting( "at, name, number, length, or alternate" );
 }
 }
 
 return pin.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolPolyLine()
{
 wxCHECK_MSG( CurTok() == T_polyline, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a poly." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 std::unique_ptr<SCH_SHAPE> poly = std::make_unique<SCH_SHAPE>( SHAPE_T::POLY, LAYER_DEVICE );
 
 poly->SetUnit( m_unit );
 poly->SetBodyStyle( m_bodyStyle );
 
 token = NextTok();
 
 if( token == T_private )
 {
 poly->SetPrivate( true );
 token = NextTok();
 }
 
 for( ; token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_pts:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_xy )
 Expecting( "xy" );
 
 poly->AddPoint( parseXY( true ) );
 
 NeedRIGHT();
 }
 
 break;
 
 case T_stroke:
 parseStroke( stroke );
 poly->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 poly->SetFillMode( fill.m_FillType );
 poly->SetFillColor( fill.m_Color );
 break;
 
 default:
 Expecting( "pts, stroke, or fill" );
 }
 }
 
 return poly.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolRectangle()
{
 wxCHECK_MSG( CurTok() == T_rectangle, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a rectangle." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 auto rectangle = std::make_unique<SCH_SHAPE>( SHAPE_T::RECTANGLE, LAYER_DEVICE );
 
 rectangle->SetUnit( m_unit );
 rectangle->SetBodyStyle( m_bodyStyle );
 
 token = NextTok();
 
 if( token == T_private )
 {
 rectangle->SetPrivate( true );
 token = NextTok();
 }
 
 for( ; token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_start:
 rectangle->SetPosition( parseXY( true ) );
 NeedRIGHT();
 break;
 
 case T_end:
 rectangle->SetEnd( parseXY( true ) );
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 rectangle->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 rectangle->SetFillMode( fill.m_FillType );
 rectangle->SetFillColor( fill.m_Color );
 break;
 
 default:
 Expecting( "start, end, stroke, or fill" );
 }
 }
 
 return rectangle.release();
}
 
 
SCH_TEXT* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolText()
{
 wxCHECK_MSG( CurTok() == T_text, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a text token." ) );
 
 T token;
 std::unique_ptr<SCH_TEXT> text = std::make_unique<SCH_TEXT>();
 
 text->SetLayer( LAYER_DEVICE );
 text->SetUnit( m_unit );
 text->SetBodyStyle( m_bodyStyle );
 token = NextTok();
 
 if( token == T_private )
 {
 text->SetPrivate( true );
 token = NextTok();
 }
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid text string" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 text->SetText( FromUTF8() );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 text->SetPosition( parseXY( true ) );
 // Yes, LIB_TEXT is really decidegrees even though all the others are degrees. :(
 text->SetTextAngle( EDA_ANGLE( parseDouble( "text angle" ), TENTHS_OF_A_DEGREE_T ) );
 NeedRIGHT();
 break;
 
 case T_effects:
 parseEDA_TEXT( text.get(), true );
 break;
 
 default:
 Expecting( "at or effects" );
 }
 }
 
 return text.release();
}
 
 
SCH_TEXTBOX* SCH_IO_KICAD_SEXPR_PARSER::parseSymbolTextBox()
{
 wxCHECK_MSG( CurTok() == T_text_box, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a text box." ) );
 
 T token;
 VECTOR2I pos;
 VECTOR2I end;
 VECTOR2I size;
 int left;
 int top;
 int right;
 int bottom;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 bool foundEnd = false;
 bool foundSize = false;
 bool foundMargins = false;
 
 std::unique_ptr<SCH_TEXTBOX> textBox = std::make_unique<SCH_TEXTBOX>( LAYER_DEVICE );
 
 textBox->SetUnit( m_unit );
 textBox->SetBodyStyle( m_bodyStyle );
 token = NextTok();
 
 if( token == T_private )
 {
 textBox->SetPrivate( true );
 token = NextTok();
 }
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid text string" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 textBox->SetText( FromUTF8() );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_start: // Legacy token during 6.99 development; fails to handle angle
 pos = parseXY( true );
 NeedRIGHT();
 break;
 
 case T_end: // Legacy token during 6.99 development; fails to handle angle
 end = parseXY( true );
 foundEnd = true;
 NeedRIGHT();
 break;
 
 case T_at:
 pos = parseXY( true );
 textBox->SetTextAngle( EDA_ANGLE( parseDouble( "textbox angle" ), DEGREES_T ) );
 NeedRIGHT();
 break;
 
 case T_size:
 size = parseXY( true );
 foundSize = true;
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 textBox->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 textBox->SetFillMode( fill.m_FillType );
 textBox->SetFillColor( fill.m_Color );
 break;
 
 case T_margins:
 parseMargins( left, top, right, bottom );
 textBox->SetMarginLeft( left );
 textBox->SetMarginTop( top );
 textBox->SetMarginRight( right );
 textBox->SetMarginBottom( bottom );
 foundMargins = true;
 NeedRIGHT();
 break;
 
 case T_effects:
 parseEDA_TEXT( static_cast<EDA_TEXT*>( textBox.get() ), false );
 break;
 
 default:
 Expecting( "at, size, stroke, fill or effects" );
 }
 }
 
 textBox->SetPosition( pos );
 
 if( foundEnd )
 textBox->SetEnd( end );
 else if( foundSize )
 textBox->SetEnd( pos + size );
 else
 Expecting( "size" );
 
 if( !foundMargins )
 {
 int margin = textBox->GetLegacyTextMargin();
 textBox->SetMarginLeft( margin );
 textBox->SetMarginTop( margin );
 textBox->SetMarginRight( margin );
 textBox->SetMarginBottom( margin );
 }
 
 return textBox.release();
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parsePAGE_INFO( PAGE_INFO& aPageInfo )
{
 wxCHECK_RET( ( CurTok() == T_page && m_requiredVersion <= 20200506 ) || CurTok() == T_paper,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a PAGE_INFO." ) );
 
 T token;
 
 NeedSYMBOL();
 
 wxString pageType = FromUTF8();
 
 if( !aPageInfo.SetType( pageType ) )
 {
 THROW_PARSE_ERROR( _( "Invalid page type" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 if( pageType == PAGE_INFO::Custom )
 {
 double width = parseDouble( "width" );
 
 // Perform some controls to avoid crashes if the size is edited by hands
 if( width < MIN_PAGE_SIZE_MM )
 width = MIN_PAGE_SIZE_MM;
 else if( width > MAX_PAGE_SIZE_EESCHEMA_MM )
 width = MAX_PAGE_SIZE_EESCHEMA_MM;
 
 double height = parseDouble( "height" );
 
 if( height < MIN_PAGE_SIZE_MM )
 height = MIN_PAGE_SIZE_MM;
 else if( height > MAX_PAGE_SIZE_EESCHEMA_MM )
 height = MAX_PAGE_SIZE_EESCHEMA_MM;
 
 aPageInfo.SetWidthMM( width );
 aPageInfo.SetHeightMM( height );
 }
 
 token = NextTok();
 
 if( token == T_portrait )
 {
 aPageInfo.SetPortrait( true );
 NeedRIGHT();
 }
 else if( token != T_RIGHT )
 {
 Expecting( "portrait" );
 }
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseTITLE_BLOCK( TITLE_BLOCK& aTitleBlock )
{
 wxCHECK_RET( CurTok() == T_title_block,
 "Cannot parse " + GetTokenString( CurTok() ) + " as a TITLE_BLOCK." );
 
 T token;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_title:
 NextTok();
 aTitleBlock.SetTitle( FromUTF8() );
 break;
 
 case T_date:
 NextTok();
 aTitleBlock.SetDate( FromUTF8() );
 break;
 
 case T_rev:
 NextTok();
 aTitleBlock.SetRevision( FromUTF8() );
 break;
 
 case T_company:
 NextTok();
 aTitleBlock.SetCompany( FromUTF8() );
 break;
 
 case T_comment:
 {
 int commentNumber = parseInt( "comment" );
 
 switch( commentNumber )
 {
 case 1:
 NextTok();
 aTitleBlock.SetComment( 0, FromUTF8() );
 break;
 
 case 2:
 NextTok();
 aTitleBlock.SetComment( 1, FromUTF8() );
 break;
 
 case 3:
 NextTok();
 aTitleBlock.SetComment( 2, FromUTF8() );
 break;
 
 case 4:
 NextTok();
 aTitleBlock.SetComment( 3, FromUTF8() );
 break;
 
 case 5:
 NextTok();
 aTitleBlock.SetComment( 4, FromUTF8() );
 break;
 
 case 6:
 NextTok();
 aTitleBlock.SetComment( 5, FromUTF8() );
 break;
 
 case 7:
 NextTok();
 aTitleBlock.SetComment( 6, FromUTF8() );
 break;
 
 case 8:
 NextTok();
 aTitleBlock.SetComment( 7, FromUTF8() );
 break;
 
 case 9:
 NextTok();
 aTitleBlock.SetComment( 8, FromUTF8() );
 break;
 
 default:
 THROW_PARSE_ERROR( _( "Invalid title block comment number" ), CurSource(),
 CurLine(), CurLineNumber(), CurOffset() );
 }
 
 break;
 }
 
 default:
 Expecting( "title, date, rev, company, or comment" );
 }
 
 NeedRIGHT();
 }
}
 
 
SCH_FIELD* SCH_IO_KICAD_SEXPR_PARSER::parseSchField( SCH_ITEM* aParent )
{
 wxCHECK_MSG( CurTok() == T_property, nullptr,
 "Cannot parse " + GetTokenString( CurTok() ) + " as a property token." );
 
 T token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid property name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 wxString name = FromUTF8();
 
 if( name.IsEmpty() )
 {
 THROW_PARSE_ERROR( _( "Empty property name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid property value" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 // Empty property values are valid.
 wxString value = FromUTF8();
 
 int mandatoryFieldCount = 0;
 
 if( aParent->Type() == SCH_SYMBOL_T )
 mandatoryFieldCount = MANDATORY_FIELDS;
 else if( aParent->Type() == SCH_SHEET_T )
 mandatoryFieldCount = SHEET_MANDATORY_FIELDS;
 
 std::unique_ptr<SCH_FIELD> field =
 std::make_unique<SCH_FIELD>( VECTOR2I( -1, -1 ), mandatoryFieldCount, aParent, name );
 field->SetText( value );
 field->SetVisible( true );
 
 // Correctly set the ID based on canonical (untranslated) field name
 // If ID is stored in the file (old versions), it will overwrite this
 if( aParent->Type() == SCH_SYMBOL_T )
 {
 for( int ii = 0; ii < MANDATORY_FIELDS; ++ii )
 {
 if( name == GetCanonicalFieldName( ii ) )
 {
 field->SetId( ii );
 break;
 }
 }
 }
 else if( aParent->Type() == SCH_SHEET_T )
 {
 for( int ii = 0; ii < SHEET_MANDATORY_FIELDS; ++ii )
 {
 if( name == SCH_SHEET::GetDefaultFieldName( ii, false ) )
 {
 field->SetId( ii );
 break;
 }
 // Legacy support for old field names
 else if( !name.CmpNoCase( wxT( "Sheet name" ) ) )
 {
 field->SetId( SHEETNAME );
 break;
 }
 else if( !name.CmpNoCase( wxT( "Sheet file" ) ) )
 {
 field->SetId( SHEETFILENAME );
 break;
 }
 }
 }
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 // I am not sure we should even support parsing these IDs any more
 case T_id:
 {
 int id = parseInt( "field ID" );
 // Only set an ID that isn't a MANDATORY_FIELDS ID
 if( id >= mandatoryFieldCount )
 field->SetId( id );
 NeedRIGHT();
 }
 break;
 
 case T_at:
 field->SetPosition( parseXY() );
 field->SetTextAngle( EDA_ANGLE( parseDouble( "text angle" ), DEGREES_T ) );
 NeedRIGHT();
 break;
 
 case T_effects:
 parseEDA_TEXT( static_cast<EDA_TEXT*>( field.get() ), field->GetId() == VALUE_FIELD );
 break;
 
 case T_show_name:
 {
 bool show = parseMaybeAbsentBool( true );
 field->SetNameShown( show );
 break;
 }
 
 case T_do_not_autoplace:
 {
 bool doNotAutoplace = parseMaybeAbsentBool( true );
 field->SetCanAutoplace( !doNotAutoplace );
 break;
 }
 
 default:
 Expecting( "id, at, show_name, do_not_autoplace or effects" );
 }
 }
 
 return field.release();
}
 
 
SCH_SHEET_PIN* SCH_IO_KICAD_SEXPR_PARSER::parseSchSheetPin( SCH_SHEET* aSheet )
{
 wxCHECK_MSG( aSheet != nullptr, nullptr, "" );
 wxCHECK_MSG( CurTok() == T_pin, nullptr,
 "Cannot parse " + GetTokenString( CurTok() ) + " as a sheet pin token." );
 
 T token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid sheet pin name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 wxString name = FromUTF8();
 
 if( name.IsEmpty() )
 {
 THROW_PARSE_ERROR( _( "Empty sheet pin name" ), CurSource(), CurLine(), CurLineNumber(),
 CurOffset() );
 }
 
 auto sheetPin = std::make_unique<SCH_SHEET_PIN>( aSheet, VECTOR2I( 0, 0 ), name );
 
 token = NextTok();
 
 switch( token )
 {
 case T_input: sheetPin->SetShape( LABEL_FLAG_SHAPE::L_INPUT ); break;
 case T_output: sheetPin->SetShape( LABEL_FLAG_SHAPE::L_OUTPUT ); break;
 case T_bidirectional: sheetPin->SetShape( LABEL_FLAG_SHAPE::L_BIDI ); break;
 case T_tri_state: sheetPin->SetShape( LABEL_FLAG_SHAPE::L_TRISTATE ); break;
 case T_passive: sheetPin->SetShape( LABEL_FLAG_SHAPE::L_UNSPECIFIED ); break;
 default:
 Expecting( "input, output, bidirectional, tri_state, or passive" );
 }
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 {
 sheetPin->SetPosition( parseXY() );
 
 double angle = parseDouble( "sheet pin angle (side)" );
 
 if( angle == 0.0 )
 sheetPin->SetSide( SHEET_SIDE::RIGHT );
 else if( angle == 90.0 )
 sheetPin->SetSide( SHEET_SIDE::TOP );
 else if( angle == 180.0 )
 sheetPin->SetSide( SHEET_SIDE::LEFT );
 else if( angle == 270.0 )
 sheetPin->SetSide( SHEET_SIDE::BOTTOM );
 else
 Expecting( "0, 90, 180, or 270" );
 
 NeedRIGHT();
 break;
 }
 
 case T_effects:
 parseEDA_TEXT( static_cast<EDA_TEXT*>( sheetPin.get() ), true );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( sheetPin->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "at, uuid or effects" );
 }
 }
 
 return sheetPin.release();
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseSchSheetInstances( SCH_SHEET* aRootSheet, SCH_SCREEN* aScreen )
{
 wxCHECK_RET( CurTok() == T_sheet_instances,
 "Cannot parse " + GetTokenString( CurTok() ) + " as an instances token." );
 wxCHECK( aScreen, /* void */ );
 
 T token;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_path:
 {
 NeedSYMBOL();
 
 SCH_SHEET_INSTANCE instance;
 
 instance.m_Path = KIID_PATH( FromUTF8() );
 
 if( ( !m_appending && aRootSheet->GetScreen() == aScreen ) &&
 ( aScreen->GetFileFormatVersionAtLoad() < 20221002 ) )
 instance.m_Path.insert( instance.m_Path.begin(), m_rootUuid );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 std::vector<wxString> whitespaces = { wxT( "\r" ), wxT( "\n" ), wxT( "\t" ),
 wxT( " " ) };
 
 size_t numReplacements = 0;
 
 switch( token )
 {
 case T_page:
 NeedSYMBOL();
 instance.m_PageNumber = FromUTF8();
 
 // Empty page numbers are not permitted
 if( instance.m_PageNumber.IsEmpty() )
 {
 // Use hash character instead
 instance.m_PageNumber = wxT( "#" );
 numReplacements++;
 }
 else
 {
 // Whitespaces are not permitted
 for( const wxString& ch : whitespaces )
 numReplacements += instance.m_PageNumber.Replace( ch, wxEmptyString );
 
 }
 
 // Set the file as modified so the user can be warned.
 if( numReplacements > 0 )
 aScreen->SetContentModified();
 
 NeedRIGHT();
 break;
 
 default:
 Expecting( "path or page" );
 }
 }
 
 if( ( aScreen->GetFileFormatVersionAtLoad() >= 20221110 )
 && ( instance.m_Path.empty() ) )
 {
 SCH_SHEET_PATH rootSheetPath;
 
 rootSheetPath.push_back( aRootSheet );
 rootSheetPath.SetPageNumber( instance.m_PageNumber );
 }
 else
 {
 aScreen->m_sheetInstances.emplace_back( instance );
 }
 
 break;
 }
 
 default:
 Expecting( "path" );
 }
 }
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseSchSymbolInstances( SCH_SCREEN* aScreen )
{
 wxCHECK_RET( CurTok() == T_symbol_instances,
 "Cannot parse " + GetTokenString( CurTok() ) + " as an instances token." );
 wxCHECK( aScreen, /* void */ );
 wxCHECK( m_rootUuid != NilUuid(), /* void */ );
 
 T token;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_path:
 {
 NeedSYMBOL();
 
 SCH_SYMBOL_INSTANCE instance;
 
 instance.m_Path = KIID_PATH( FromUTF8() );
 
 if( !m_appending )
 instance.m_Path.insert( instance.m_Path.begin(), m_rootUuid );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_reference:
 NeedSYMBOL();
 instance.m_Reference = FromUTF8();
 NeedRIGHT();
 break;
 
 case T_unit:
 instance.m_Unit = parseInt( "symbol unit" );
 NeedRIGHT();
 break;
 
 case T_value:
 NeedSYMBOL();
 instance.m_Value = FromUTF8();
 NeedRIGHT();
 break;
 
 case T_footprint:
 NeedSYMBOL();
 instance.m_Footprint = FromUTF8();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "path, unit, value or footprint" );
 }
 }
 
 aScreen->m_symbolInstances.emplace_back( instance );
 break;
 }
 
 default:
 Expecting( "path" );
 }
 }
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::ParseSchematic( SCH_SHEET* aSheet, bool aIsCopyableOnly,
 int aFileVersion )
{
 wxCHECK( aSheet != nullptr, /* void */ );
 
 SCH_SCREEN* screen = aSheet->GetScreen();
 
 wxCHECK( screen != nullptr, /* void */ );
 
 if( aIsCopyableOnly )
 m_requiredVersion = aFileVersion;
 
 bool fileHasUuid = false;
 
 auto checkVersion =
 [&]()
 {
 if( m_requiredVersion > SEXPR_SCHEMATIC_FILE_VERSION )
 {
 throw FUTURE_FORMAT_ERROR( fmt::format( "{}", m_requiredVersion ),
 m_generatorVersion );
 }
 };
 
 T token;
 
 if( !aIsCopyableOnly )
 {
 NeedLEFT();
 NextTok();
 
 if( CurTok() != T_kicad_sch )
 Expecting( "kicad_sch" );
 
 parseHeader( T_kicad_sch, SEXPR_SCHEMATIC_FILE_VERSION );
 
 // Prior to schematic file version 20210406, schematics did not have UUIDs so we need
 // to generate one for the root schematic for instance paths.
 if( m_requiredVersion < 20210406 )
 m_rootUuid = screen->GetUuid();
 
 // Prior to version 20231120, generator_version was not present, so check the date here
 if( m_requiredVersion < 20231120 )
 checkVersion();
 }
 
 screen->SetFileFormatVersionAtLoad( m_requiredVersion );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( aIsCopyableOnly && token == T_EOF )
 break;
 
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 checkpoint();
 
 if( !aIsCopyableOnly && token == T_page && m_requiredVersion <= 20200506 )
 token = T_paper;
 
 switch( token )
 {
 case T_generator:
 // (generator "genname"); we don't care about it at the moment.
 NeedSYMBOL();
 NeedRIGHT();
 break;
 
 case T_host:
 {
 // (host eeschema ["5.99"]); old version of generator token
 NeedSYMBOL();
 
 // Really old versions also included a host version
 if( m_requiredVersion < 20200827 )
 NeedSYMBOL();
 
 NeedRIGHT();
 break;
 }
 
 case T_generator_version:
 NextTok();
 m_generatorVersion = FromUTF8();
 NeedRIGHT();
 checkVersion();
 break;
 
 case T_uuid:
 NeedSYMBOL();
 screen->m_uuid = parseKIID();
 
 // Set the root sheet UUID with the schematic file UUID. Root sheets are virtual
 // and always get a new UUID so this prevents file churn now that the root UUID
 // is saved in the symbol instance path.
 if( aSheet == m_rootSheet )
 {
 const_cast<KIID&>( aSheet->m_Uuid ) = screen->GetUuid();
 m_rootUuid = screen->GetUuid();
 fileHasUuid = true;
 }
 
 NeedRIGHT();
 break;
 
 case T_paper:
 {
 if( aIsCopyableOnly )
 Unexpected( T_paper );
 
 PAGE_INFO pageInfo;
 parsePAGE_INFO( pageInfo );
 screen->SetPageSettings( pageInfo );
 break;
 }
 
 case T_page:
 {
 if( aIsCopyableOnly )
 Unexpected( T_page );
 
 // Only saved for top-level sniffing in Kicad Manager frame and other external
 // tool usage with flat hierarchies
 NeedSYMBOLorNUMBER();
 NeedSYMBOLorNUMBER();
 NeedRIGHT();
 break;
 }
 
 case T_title_block:
 {
 if( aIsCopyableOnly )
 Unexpected( T_title_block );
 
 TITLE_BLOCK tb;
 parseTITLE_BLOCK( tb );
 screen->SetTitleBlock( tb );
 break;
 }
 
 case T_lib_symbols:
 {
 // Dummy map. No derived symbols are allowed in the library cache.
 LIB_SYMBOL_MAP symbolLibMap;
 LIB_SYMBOL* symbol;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_symbol:
 symbol = parseLibSymbol( symbolLibMap );
 symbol->UpdateFieldOrdinals();
 screen->AddLibSymbol( symbol );
 break;
 
 default:
 Expecting( "symbol" );
 }
 }
 
 break;
 }
 
 case T_symbol:
 screen->Append( static_cast<SCH_ITEM*>( parseSchematicSymbol() ) );
 break;
 
 case T_image:
 screen->Append( static_cast<SCH_ITEM*>( parseImage() ) );
 break;
 
 case T_sheet:
 {
 SCH_SHEET* sheet = parseSheet();
 
 // Set the parent to aSheet. This effectively creates a method to find
 // the root sheet from any sheet so a pointer to the root sheet does not
 // need to be stored globally. Note: this is not the same as a hierarchy.
 // Complex hierarchies can have multiple copies of a sheet. This only
 // provides a simple tree to find the root sheet.
 sheet->SetParent( aSheet );
 screen->Append( sheet );
 break;
 }
 
 case T_junction:
 screen->Append( parseJunction() );
 break;
 
 case T_no_connect:
 screen->Append( parseNoConnect() );
 break;
 
 case T_bus_entry:
 screen->Append( parseBusEntry() );
 break;
 
 case T_polyline:
 {
 // polyline keyword is used in eeschema both for SCH_SHAPE and SCH_LINE items.
 // In symbols it describes a polygon, having n corners and can be filled
 // In schematic it describes a line (with no fill descr), but could be extended to a
 // polygon (for instance when importing files) because the schematic handles all
 // SCH_SHAPE.
 
 // parseSchPolyLine() returns always a SCH_SHAPE, io convert it to a simple SCH_LINE
 // For compatibility reasons, keep SCH_SHAPE for a polygon and convert to SCH_LINE
 // when the item has only 2 corners, similar to a SCH_LINE
 SCH_SHAPE* poly = parseSchPolyLine();
 
 if( poly->GetPointCount() > 2 )
 {
 screen->Append( poly );
 }
 else
 {
 // For SCH_SHAPE having only 2 points, this is a "old" SCH_LINE entity.
 // So convert the SCH_SHAPE to a simple SCH_LINE
 SCH_LINE* line = new SCH_LINE( VECTOR2I(), LAYER_NOTES );
 SHAPE_LINE_CHAIN& outline = poly->GetPolyShape().Outline(0);
 line->SetStartPoint( outline.CPoint(0) );
 line->SetEndPoint( outline.CPoint(1) );
 line->SetStroke( poly->GetStroke() );
 const_cast<KIID&>( line->m_Uuid ) = poly->m_Uuid;
 
 screen->Append( line );
 
 delete poly;
 }
 }
 break;
 
 case T_bus:
 case T_wire:
 screen->Append( parseLine() );
 break;
 
 case T_arc:
 screen->Append( parseSchArc() );
 break;
 
 case T_circle:
 screen->Append( parseSchCircle() );
 break;
 
 case T_rectangle:
 screen->Append( parseSchRectangle() );
 break;
 
 case T_bezier:
 screen->Append( parseSchBezier() );
 break;
 
 case T_rule_area:
 screen->Append( parseSchRuleArea() );
 break;
 
 case T_netclass_flag: // present only during early development of 7.0
 KI_FALLTHROUGH;
 
 case T_text:
 case T_label:
 case T_global_label:
 case T_hierarchical_label:
 case T_directive_label:
 screen->Append( parseSchText() );
 break;
 
 case T_text_box:
 screen->Append( parseSchTextBox() );
 break;
 
 case T_table:
 screen->Append( parseSchTable() );
 break;
 
 case T_sheet_instances:
 parseSchSheetInstances( aSheet, screen );
 break;
 
 case T_symbol_instances:
 parseSchSymbolInstances( screen );
 break;
 
 case T_bus_alias:
 if( aIsCopyableOnly )
 Unexpected( T_bus_alias );
 
 parseBusAlias( screen );
 break;
 
 case T_embedded_fonts:
 {
 SCHEMATIC* schematic = screen->Schematic();
 
 if( !schematic )
 THROW_PARSE_ERROR( _( "No schematic object" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 
 schematic->GetEmbeddedFiles()->SetAreFontsEmbedded( parseBool() );
 NeedRIGHT();
 break;
 }
 
 case T_embedded_files:
 {
 SCHEMATIC* schematic = screen->Schematic();
 
 if( !schematic )
 THROW_PARSE_ERROR( _( "No schematic object" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 
 EMBEDDED_FILES_PARSER embeddedFilesParser( reader );
 embeddedFilesParser.SyncLineReaderWith( *this );
 
 try
 {
 embeddedFilesParser.ParseEmbedded( schematic->GetEmbeddedFiles() );
 }
 catch( const PARSE_ERROR& e )
 {
 wxLogError( e.What() );
 }
 
 SyncLineReaderWith( embeddedFilesParser );
 break;
 }
 
 
 default:
 Expecting( "bitmap, bus, bus_alias, bus_entry, class_label, embedded_files, global_label, "
 "hierarchical_label, junction, label, line, no_connect, page, paper, rule_area, "
 "sheet, symbol, symbol_instances, text, title_block" );
 }
 }
 
 // Older s-expression schematics may not have a UUID so use the one automatically generated
 // as the virtual root sheet UUID.
 if( ( aSheet == m_rootSheet ) && !fileHasUuid )
 {
 const_cast<KIID&>( aSheet->m_Uuid ) = screen->GetUuid();
 m_rootUuid = screen->GetUuid();
 }
 
 screen->UpdateLocalLibSymbolLinks();
 screen->FixupEmbeddedData();
 
 SCHEMATIC* schematic = screen->Schematic();
 
 if( !schematic )
 THROW_PARSE_ERROR( _( "No schematic object" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 
 for( auto& [text, params] : m_fontTextMap )
 {
 text->SetFont( KIFONT::FONT::GetFont( std::get<0>( params ), std::get<1>( params ),
 std::get<2>( params ),
 schematic->GetEmbeddedFiles()->UpdateFontFiles() ) );
 }
 
 // When loading the schematic, take a moment to cache the fonts so that the font
 // picker can show the embedded fonts immediately.
 std::vector<std::string> fontNames;
 Fontconfig()->ListFonts( fontNames, std::string( Pgm().GetLanguageTag().utf8_str() ),
 schematic->GetEmbeddedFiles()->GetFontFiles(), true );
 
 if( m_requiredVersion < 20200828 )
 screen->SetLegacySymbolInstanceData();
}
 
 
SCH_SYMBOL* SCH_IO_KICAD_SEXPR_PARSER::parseSchematicSymbol()
{
 wxCHECK_MSG( CurTok() == T_symbol, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a symbol." ) );
 
 T token;
 wxString libName;
 SCH_FIELD* field;
 std::unique_ptr<SCH_SYMBOL> symbol = std::make_unique<SCH_SYMBOL>();
 TRANSFORM transform;
 std::set<int> fieldIDsRead;
 
 // We'll reset this if we find a fields_autoplaced token
 symbol->ClearFieldsAutoplaced();
 
 m_fieldIDsRead.clear();
 
 // Make sure the mandatory field IDs are reserved as already read,
 // the field parser will set the field IDs to the correct value if
 // the field name matches a mandatory field name
 for( int i = 0; i < MANDATORY_FIELDS; i++ )
 m_fieldIDsRead.insert( i );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_lib_name:
 {
 LIB_ID libId;
 
 token = NextTok();
 
 if( !IsSymbol( token ) )
 {
 THROW_PARSE_ERROR( _( "Invalid symbol library name" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 libName = FromUTF8();
 // Some symbol LIB_IDs or lib_name have the '/' character escaped which can break
 // symbol links. The '/' character is no longer an illegal LIB_ID character so
 // it doesn't need to be escaped.
 libName.Replace( "{slash}", "/" );
 
 NeedRIGHT();
 break;
 }
 
 case T_lib_id:
 {
 token = NextTok();
 
 if( !IsSymbol( token ) && token != T_NUMBER )
 Expecting( "symbol|number" );
 
 LIB_ID libId;
 wxString name = FromUTF8();
 // Some symbol LIB_IDs have the '/' character escaped which can break
 // symbol links. The '/' character is no longer an illegal LIB_ID character so
 // it doesn't need to be escaped.
 name.Replace( "{slash}", "/" );
 
 int bad_pos = libId.Parse( name );
 
 if( bad_pos >= 0 )
 {
 if( static_cast<int>( name.size() ) > bad_pos )
 {
 wxString msg = wxString::Format(
 _( "Symbol %s contains invalid character '%c'" ), name,
 name[bad_pos] );
 
 THROW_PARSE_ERROR( msg, CurSource(), CurLine(), CurLineNumber(), CurOffset() );
 }
 
 THROW_PARSE_ERROR( _( "Invalid symbol library ID" ), CurSource(), CurLine(),
 CurLineNumber(), CurOffset() );
 }
 
 symbol->SetLibId( libId );
 NeedRIGHT();
 break;
 }
 
 case T_at:
 symbol->SetPosition( parseXY() );
 
 switch( static_cast<int>( parseDouble( "symbol orientation" ) ) )
 {
 case 0: transform = TRANSFORM(); break;
 case 90: transform = TRANSFORM( 0, 1, -1, 0 ); break;
 case 180: transform = TRANSFORM( -1, 0, 0, -1 ); break;
 case 270: transform = TRANSFORM( 0, -1, 1, 0 ); break;
 default: Expecting( "0, 90, 180, or 270" );
 }
 
 symbol->SetTransform( transform );
 NeedRIGHT();
 break;
 
 case T_mirror:
 token = NextTok();
 
 if( token == T_x )
 symbol->SetOrientation( SYM_MIRROR_X );
 else if( token == T_y )
 symbol->SetOrientation( SYM_MIRROR_Y );
 else
 Expecting( "x or y" );
 
 NeedRIGHT();
 break;
 
 case T_unit:
 symbol->SetUnit( parseInt( "symbol unit" ) );
 NeedRIGHT();
 break;
 
 case T_convert:
 symbol->SetBodyStyle( parseInt( "symbol body style" ) );
 NeedRIGHT();
 break;
 
 case T_exclude_from_sim:
 symbol->SetExcludedFromSim( parseBool() );
 NeedRIGHT();
 break;
 
 case T_in_bom:
 symbol->SetExcludedFromBOM( !parseBool() );
 NeedRIGHT();
 break;
 
 case T_on_board:
 symbol->SetExcludedFromBoard( !parseBool() );
 NeedRIGHT();
 break;
 
 case T_dnp:
 symbol->SetDNP( parseBool() );
 NeedRIGHT();
 break;
 
 case T_fields_autoplaced:
 if( parseMaybeAbsentBool( true ) )
 symbol->SetFieldsAutoplaced();
 
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( symbol->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 case T_default_instance:
 {
 SCH_SYMBOL_INSTANCE defaultInstance;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_reference:
 NeedSYMBOL();
 defaultInstance.m_Reference = FromUTF8();
 NeedRIGHT();
 break;
 
 case T_unit:
 defaultInstance.m_Unit = parseInt( "symbol unit" );
 NeedRIGHT();
 break;
 
 case T_value:
 NeedSYMBOL();
 symbol->SetValueFieldText( FromUTF8() );
 NeedRIGHT();
 break;
 
 case T_footprint:
 NeedSYMBOL();
 symbol->SetFootprintFieldText( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "reference, unit, value or footprint" );
 }
 }
 
 break;
 }
 
 case T_instances:
 {
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_project )
 Expecting( "project" );
 
 NeedSYMBOL();
 
 wxString projectName = FromUTF8();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_path )
 Expecting( "path" );
 
 SCH_SYMBOL_INSTANCE instance;
 
 instance.m_ProjectName = projectName;
 
 NeedSYMBOL();
 instance.m_Path = KIID_PATH( FromUTF8() );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_reference:
 NeedSYMBOL();
 instance.m_Reference = FromUTF8();
 NeedRIGHT();
 break;
 
 case T_unit:
 instance.m_Unit = parseInt( "symbol unit" );
 NeedRIGHT();
 break;
 
 case T_value:
 NeedSYMBOL();
 symbol->SetValueFieldText( FromUTF8() );
 NeedRIGHT();
 break;
 
 case T_footprint:
 NeedSYMBOL();
 symbol->SetFootprintFieldText( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "reference, unit, value or footprint" );
 }
 
 symbol->AddHierarchicalReference( instance );
 }
 }
 }
 
 break;
 }
 
 case T_property:
 // The field parent symbol must be set and its orientation must be set before
 // the field positions are set.
 field = parseSchField( symbol.get() );
 
 // Exclude from simulation used to be managed by a Sim.Enable field set to "0" when
 // simulation was disabled.
 if( field->GetCanonicalName() == SIM_LEGACY_ENABLE_FIELD_V7 )
 {
 symbol->SetExcludedFromSim( field->GetText() == wxS( "0" ) );
 break;
 }
 
 // Even longer ago, we had a "Spice_Netlist_Enabled" field
 if( field->GetCanonicalName() == SIM_LEGACY_ENABLE_FIELD )
 {
 symbol->SetExcludedFromSim( field->GetText() == wxS( "N" ) );
 break;
 }
 
 if( ( field->GetId() >= MANDATORY_FIELDS ) && m_fieldIDsRead.count( field->GetId() ) )
 {
 int nextAvailableId = field->GetId() + 1;
 
 while( m_fieldIDsRead.count( nextAvailableId ) )
 nextAvailableId += 1;
 
 field->SetId( nextAvailableId );
 }
 
 if( symbol->GetFieldById( field->GetId() ) )
 *symbol->GetFieldById( field->GetId() ) = *field;
 else
 symbol->AddField( *field );
 
 if( field->GetId() == REFERENCE_FIELD )
 symbol->UpdatePrefix();
 
 m_fieldIDsRead.insert( field->GetId() );
 
 delete field;
 break;
 
 case T_pin:
 {
 // Read an alternate pin designation
 wxString number;
 KIID uuid;
 wxString alt;
 
 NeedSYMBOL();
 number = FromUTF8();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_alternate:
 NeedSYMBOL();
 alt = FromUTF8();
 NeedRIGHT();
 break;
 
 case T_uuid:
 NeedSYMBOL();
 
 // First version to write out pin uuids accidentally wrote out the symbol's
 // uuid for each pin, so ignore uuids coming from that version.
 if( m_requiredVersion >= 20210126 )
 uuid = parseKIID();
 
 NeedRIGHT();
 break;
 
 default:
 Expecting( "alternate or uuid" );
 }
 }
 
 symbol->GetRawPins().emplace_back( std::make_unique<SCH_PIN>( symbol.get(), number,
 alt, uuid ) );
 break;
 }
 
 default:
 Expecting( "lib_id, lib_name, at, mirror, uuid, on_board, in_bom, dnp, "
 "default_instance, property, pin, or instances" );
 }
 }
 
 if( !libName.IsEmpty() && ( symbol->GetLibId().Format().wx_str() != libName ) )
 symbol->SetSchSymbolLibraryName( libName );
 
 // Ensure edit/status flags are cleared after these initializations:
 symbol->ClearFlags();
 
 return symbol.release();
}
 
 
SCH_BITMAP* SCH_IO_KICAD_SEXPR_PARSER::parseImage()
{
 wxCHECK_MSG( CurTok() == T_image, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as an image." ) );
 
 T token;
 std::unique_ptr<SCH_BITMAP> bitmap = std::make_unique<SCH_BITMAP>();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 bitmap->SetPosition( parseXY() );
 NeedRIGHT();
 break;
 
 case T_scale:
 bitmap->GetImage()->SetScale( parseDouble( "image scale factor" ) );
 
 if( !std::isnormal( bitmap->GetImage()->GetScale() ) )
 bitmap->GetImage()->SetScale( 1.0 );
 
 NeedRIGHT();
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( bitmap->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 case T_data:
 {
 token = NextTok();
 
 wxString data;
 
 // Reserve 128K because most image files are going to be larger than the default
 // 1K that wxString reserves.
 data.reserve( 1 << 17 );
 
 while( token != T_RIGHT )
 {
 if( !IsSymbol( token ) )
 Expecting( "base64 image data" );
 
 data += FromUTF8();
 token = NextTok();
 }
 
 wxMemoryBuffer buffer = wxBase64Decode( data );
 
 if( !bitmap->GetImage()->ReadImageFile( buffer ) )
 THROW_IO_ERROR( _( "Failed to read image data." ) );
 
 break;
 }
 
 default:
 Expecting( "at, scale, uuid or data" );
 }
 }
 
 // Adjust the image pixel size in iu
 BITMAP_BASE* image = bitmap->GetImage();
 image->SetPixelSizeIu( (double) schIUScale.MilsToIU( 1000 ) / image->GetPPI() );
 
 // 20230121 or older file format versions assumed 300 image PPI at load/save.
 // Let's keep compatibility by changing image scale.
 if( m_requiredVersion <= 20230121 )
 {
 image->SetScale( image->GetScale() * image->GetPPI() / 300.0 );
 }
 
 return bitmap.release();
}
 
 
SCH_SHEET* SCH_IO_KICAD_SEXPR_PARSER::parseSheet()
{
 wxCHECK_MSG( CurTok() == T_sheet, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a sheet." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 SCH_FIELD* field;
 std::vector<SCH_FIELD> fields;
 std::unique_ptr<SCH_SHEET> sheet = std::make_unique<SCH_SHEET>();
 std::set<int> fieldIDsRead;
 
 // We'll reset this if we find a fields_autoplaced token
 sheet->ClearFieldsAutoplaced();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 sheet->SetPosition( parseXY() );
 NeedRIGHT();
 break;
 
 case T_size:
 {
 VECTOR2I size;
 size.x = parseInternalUnits( "sheet width" );
 size.y = parseInternalUnits( "sheet height" );
 sheet->SetSize( size );
 NeedRIGHT();
 break;
 }
 
 case T_exclude_from_sim:
 sheet->SetExcludedFromSim( parseBool() );
 NeedRIGHT();
 break;
 
 case T_in_bom:
 sheet->SetExcludedFromBOM( !parseBool() );
 NeedRIGHT();
 break;
 
 case T_on_board:
 sheet->SetExcludedFromBoard( !parseBool() );
 NeedRIGHT();
 break;
 
 case T_dnp:
 sheet->SetDNP( parseBool() );
 NeedRIGHT();
 break;
 
 case T_fields_autoplaced:
 if( parseMaybeAbsentBool( true ) )
 sheet->SetFieldsAutoplaced();
 
 break;
 
 case T_stroke:
 parseStroke( stroke );
 sheet->SetBorderWidth( stroke.GetWidth() );
 sheet->SetBorderColor( stroke.GetColor() );
 break;
 
 case T_fill:
 parseFill( fill );
 sheet->SetBackgroundColor( fill.m_Color );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( sheet->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 case T_property:
 field = parseSchField( sheet.get() );
 
 if( m_requiredVersion <= 20200310 )
 {
 // Earlier versions had the wrong ids (and names) saved for sheet fields.
 // Fortunately they only saved the sheetname and sheetfilepath (and always
 // in that order), so we can hack in a recovery.
 if( fields.empty() )
 field->SetId( SHEETNAME );
 else
 field->SetId( SHEETFILENAME );
 }
 
 // It would appear the problem persists past 20200310, but this time with the
 // earlier ids being re-used for later (user) fields. The easiest (and most
 // complete) solution is to disallow multiple instances of the same id (for all
 // files since the source of the error *might* in fact be hand-edited files).
 //
 // While no longer used, -1 is still a valid id for user field. We convert it to
 // the first available ID after the mandatory fields
 
 if( field->GetId() < 0 )
 field->SetId( SHEET_MANDATORY_FIELDS );
 
 while( !fieldIDsRead.insert( field->GetId() ).second )
 field->SetId( field->GetId() + 1 );
 
 fields.emplace_back( *field );
 delete field;
 break;
 
 case T_pin:
 sheet->AddPin( parseSchSheetPin( sheet.get() ) );
 break;
 
 case T_instances:
 {
 std::vector<SCH_SHEET_INSTANCE> instances;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_project )
 Expecting( "project" );
 
 NeedSYMBOL();
 
 wxString projectName = FromUTF8();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_path )
 Expecting( "path" );
 
 SCH_SHEET_INSTANCE instance;
 
 instance.m_ProjectName = projectName;
 
 NeedSYMBOL();
 instance.m_Path = KIID_PATH( FromUTF8() );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_page:
 {
 NeedSYMBOL();
 instance.m_PageNumber = FromUTF8();
 
 // Empty page numbers are not permitted
 if( instance.m_PageNumber.IsEmpty() )
 {
 // Use hash character instead
 instance.m_PageNumber = wxT( "#" );
 }
 else
 {
 // Whitespaces are not permitted
 static std::vector<wxString> whitespaces =
 { wxT( "\r" ),
 wxT( "\n" ),
 wxT( "\t" ),
 wxT( " " ) };
 
 for( wxString ch : whitespaces )
 instance.m_PageNumber.Replace( ch, wxEmptyString );
 }
 
 NeedRIGHT();
 break;
 }
 
 default:
 Expecting( "page" );
 }
 }
 
 instances.emplace_back( instance );
 }
 }
 
 sheet->setInstances( instances );
 break;
 }
 
 default:
 Expecting( "at, size, stroke, background, instances, uuid, property, or pin" );
 }
 }
 
 sheet->SetFields( fields );
 
 return sheet.release();
}
 
 
SCH_JUNCTION* SCH_IO_KICAD_SEXPR_PARSER::parseJunction()
{
 wxCHECK_MSG( CurTok() == T_junction, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a junction." ) );
 
 T token;
 std::unique_ptr<SCH_JUNCTION> junction = std::make_unique<SCH_JUNCTION>();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 junction->SetPosition( parseXY() );
 NeedRIGHT();
 break;
 
 case T_diameter:
 junction->SetDiameter( parseInternalUnits( "junction diameter" ) );
 NeedRIGHT();
 break;
 
 case T_color:
 {
 COLOR4D color;
 
 color.r = parseInt( "red" ) / 255.0;
 color.g = parseInt( "green" ) / 255.0;
 color.b = parseInt( "blue" ) / 255.0;
 color.a = Clamp( parseDouble( "alpha" ), 0.0, 1.0 );
 
 junction->SetColor( color );
 NeedRIGHT();
 break;
 }
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( junction->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "at, diameter, color or uuid" );
 }
 }
 
 return junction.release();
}
 
 
SCH_NO_CONNECT* SCH_IO_KICAD_SEXPR_PARSER::parseNoConnect()
{
 wxCHECK_MSG( CurTok() == T_no_connect, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a no connect." ) );
 
 T token;
 std::unique_ptr<SCH_NO_CONNECT> no_connect = std::make_unique<SCH_NO_CONNECT>();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 no_connect->SetPosition( parseXY() );
 NeedRIGHT();
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( no_connect->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "at or uuid" );
 }
 }
 
 return no_connect.release();
}
 
 
SCH_BUS_WIRE_ENTRY* SCH_IO_KICAD_SEXPR_PARSER::parseBusEntry()
{
 wxCHECK_MSG( CurTok() == T_bus_entry, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a bus entry." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 std::unique_ptr<SCH_BUS_WIRE_ENTRY> busEntry = std::make_unique<SCH_BUS_WIRE_ENTRY>();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_at:
 busEntry->SetPosition( parseXY() );
 NeedRIGHT();
 break;
 
 case T_size:
 {
 VECTOR2I size;
 
 size.x = parseInternalUnits( "bus entry height" );
 size.y = parseInternalUnits( "bus entry width" );
 busEntry->SetSize( size );
 NeedRIGHT();
 break;
 }
 
 case T_stroke:
 parseStroke( stroke );
 busEntry->SetStroke( stroke );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( busEntry->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "at, size, uuid or stroke" );
 }
 }
 
 return busEntry.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSchPolyLine()
{
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 
 std::unique_ptr<SCH_SHAPE> polyline = std::make_unique<SCH_SHAPE>( SHAPE_T::POLY, LAYER_NOTES );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_pts:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_xy )
 Expecting( "xy" );
 
 polyline->AddPoint( parseXY() );
 
 NeedRIGHT();
 }
 break;
 
 case T_stroke:
 parseStroke( stroke );
 
 // In 6.0, the default schematic line style was Dashed.
 if( m_requiredVersion <= 20211123 && stroke.GetLineStyle() == LINE_STYLE::DEFAULT )
 stroke.SetLineStyle( LINE_STYLE::DASH );
 
 polyline->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 polyline->SetFillMode( fill.m_FillType );
 polyline->SetFillColor( fill.m_Color );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( polyline->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "pts, uuid, stroke, or fill" );
 }
 }
 
 return polyline.release();
}
 
 
SCH_LINE* SCH_IO_KICAD_SEXPR_PARSER::parseLine()
{
 // Note: T_polyline is deprecated in this code: it is now handled by
 // parseSchPolyLine() that can handle true polygons, and not only one segment.
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 int layer;
 
 switch( CurTok() )
 {
 case T_polyline: layer = LAYER_NOTES; break;
 case T_wire: layer = LAYER_WIRE; break;
 case T_bus: layer = LAYER_BUS; break;
 default:
 wxCHECK_MSG( false, nullptr, "Cannot parse " + GetTokenString( CurTok() ) + " as a line." );
 }
 
 std::unique_ptr<SCH_LINE> line = std::make_unique<SCH_LINE>( VECTOR2I(), layer );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_pts:
 NeedLEFT();
 token = NextTok();
 
 if( token != T_xy )
 Expecting( "xy" );
 
 line->SetStartPoint( parseXY() );
 NeedRIGHT();
 NeedLEFT();
 token = NextTok();
 
 if( token != T_xy )
 Expecting( "xy" );
 
 line->SetEndPoint( parseXY() );
 NeedRIGHT();
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 line->SetStroke( stroke );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( line->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 default:
 Expecting( "at, uuid or stroke" );
 }
 }
 
 return line.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSchArc()
{
 wxCHECK_MSG( CurTok() == T_arc, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as an arc." ) );
 
 T token;
 VECTOR2I startPoint;
 VECTOR2I midPoint;
 VECTOR2I endPoint;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 std::unique_ptr<SCH_SHAPE> arc = std::make_unique<SCH_SHAPE>( SHAPE_T::ARC );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_start:
 startPoint = parseXY();
 NeedRIGHT();
 break;
 
 case T_mid:
 midPoint = parseXY();
 NeedRIGHT();
 break;
 
 case T_end:
 endPoint = parseXY();
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 arc->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 arc->SetFillMode( fill.m_FillType );
 arc->SetFillColor( fill.m_Color );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( arc->m_Uuid ) = KIID( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "start, mid, end, stroke, fill or uuid" );
 }
 }
 
 arc->SetArcGeometry( startPoint, midPoint, endPoint );
 
 return arc.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSchCircle()
{
 wxCHECK_MSG( CurTok() == T_circle, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a circle." ) );
 
 T token;
 VECTOR2I center;
 int radius = 0;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 std::unique_ptr<SCH_SHAPE> circle = std::make_unique<SCH_SHAPE>( SHAPE_T::CIRCLE );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_center:
 center = parseXY();
 NeedRIGHT();
 break;
 
 case T_radius:
 radius = parseInternalUnits( "radius length" );
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 circle->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 circle->SetFillMode( fill.m_FillType );
 circle->SetFillColor( fill.m_Color );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( circle->m_Uuid ) = KIID( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "center, radius, stroke, fill or uuid" );
 }
 }
 
 circle->SetCenter( center );
 circle->SetEnd( VECTOR2I( center.x + radius, center.y ) );
 
 return circle.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSchRectangle()
{
 wxCHECK_MSG( CurTok() == T_rectangle, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a rectangle." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 std::unique_ptr<SCH_SHAPE> rectangle = std::make_unique<SCH_SHAPE>( SHAPE_T::RECTANGLE );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_start:
 rectangle->SetPosition( parseXY() );
 NeedRIGHT();
 break;
 
 case T_end:
 rectangle->SetEnd( parseXY() );
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 rectangle->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 rectangle->SetFillMode( fill.m_FillType );
 rectangle->SetFillColor( fill.m_Color );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( rectangle->m_Uuid ) = KIID( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "start, end, stroke, fill or uuid" );
 }
 }
 
 return rectangle.release();
}
 
 
SCH_RULE_AREA* SCH_IO_KICAD_SEXPR_PARSER::parseSchRuleArea()
{
 wxCHECK_MSG( CurTok() == T_rule_area, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a rule area." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 std::unique_ptr<SCH_RULE_AREA> ruleArea = std::make_unique<SCH_RULE_AREA>();
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_polyline:
 {
 std::unique_ptr<SCH_SHAPE> poly( parseSchPolyLine() );
 SHAPE_POLY_SET& sch_rule_poly = poly->GetPolyShape();
 
 // The polygon must be closed, it is a schematic closed polyline:
 sch_rule_poly.Outline(0).SetClosed( true );
 
 ruleArea->SetPolyShape( sch_rule_poly );
 
 ruleArea->SetStroke( poly->GetStroke() );
 ruleArea->SetFillMode( poly->GetFillMode() );
 ruleArea->SetFillColor( poly->GetFillColor() );
 break;
 }
 default:
 Expecting( "polyline" );
 }
 }
 
 return ruleArea.release();
}
 
 
SCH_SHAPE* SCH_IO_KICAD_SEXPR_PARSER::parseSchBezier()
{
 wxCHECK_MSG( CurTok() == T_bezier, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a bezier." ) );
 
 T token;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 std::unique_ptr<SCH_SHAPE> bezier = std::make_unique<SCH_SHAPE>( SHAPE_T::BEZIER );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_pts:
 {
 int ii = 0;
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok(), ++ii )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_xy )
 Expecting( "xy" );
 
 switch( ii )
 {
 case 0: bezier->SetStart( parseXY() ); break;
 case 1: bezier->SetBezierC1( parseXY() ); break;
 case 2: bezier->SetBezierC2( parseXY() ); break;
 case 3: bezier->SetEnd( parseXY() ); break;
 default: Unexpected( "control point" ); break;
 }
 
 NeedRIGHT();
 }
 }
 break;
 
 case T_stroke:
 parseStroke( stroke );
 bezier->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 bezier->SetFillMode( fill.m_FillType );
 bezier->SetFillColor( fill.m_Color );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( bezier->m_Uuid ) = KIID( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 Expecting( "pts, stroke, fill or uuid" );
 }
 }
 
 return bezier.release();
}
 
 
SCH_TEXT* SCH_IO_KICAD_SEXPR_PARSER::parseSchText()
{
 T token;
 std::unique_ptr<SCH_TEXT> text;
 
 switch( CurTok() )
 {
 case T_text: text = std::make_unique<SCH_TEXT>(); break;
 case T_label: text = std::make_unique<SCH_LABEL>(); break;
 case T_global_label: text = std::make_unique<SCH_GLOBALLABEL>(); break;
 case T_hierarchical_label: text = std::make_unique<SCH_HIERLABEL>(); break;
 case T_netclass_flag: text = std::make_unique<SCH_DIRECTIVE_LABEL>(); break;
 case T_directive_label: text = std::make_unique<SCH_DIRECTIVE_LABEL>(); break;
 default:
 wxCHECK_MSG( false, nullptr, "Cannot parse " + GetTokenString( CurTok() ) + " as text." );
 }
 
 // We'll reset this if we find a fields_autoplaced token
 text->ClearFieldsAutoplaced();
 
 NeedSYMBOL();
 
 text->SetText( FromUTF8() );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_exclude_from_sim:
 text->SetExcludedFromSim( parseBool() );
 NeedRIGHT();
 break;
 
 case T_at:
 text->SetPosition( parseXY() );
 text->SetTextAngle( EDA_ANGLE( parseDouble( "text angle" ), DEGREES_T ).KeepUpright() );
 
 if( SCH_LABEL_BASE* label = dynamic_cast<SCH_LABEL_BASE*>( text.get() ) )
 {
 switch( static_cast<int>( label->GetTextAngle().AsDegrees() ) )
 {
 case 0: label->SetSpinStyle( SPIN_STYLE::RIGHT ); break;
 case 90: label->SetSpinStyle( SPIN_STYLE::UP ); break;
 case 180: label->SetSpinStyle( SPIN_STYLE::LEFT ); break;
 case 270: label->SetSpinStyle( SPIN_STYLE::BOTTOM ); break;
 default: wxFAIL; label->SetSpinStyle( SPIN_STYLE::RIGHT ); break;
 }
 }
 
 NeedRIGHT();
 break;
 
 case T_shape:
 {
 if( text->Type() == SCH_TEXT_T || text->Type() == SCH_LABEL_T )
 Unexpected( T_shape );
 
 SCH_LABEL_BASE* label = static_cast<SCH_LABEL_BASE*>( text.get() );
 
 token = NextTok();
 
 switch( token )
 {
 case T_input: label->SetShape( LABEL_FLAG_SHAPE::L_INPUT ); break;
 case T_output: label->SetShape( LABEL_FLAG_SHAPE::L_OUTPUT ); break;
 case T_bidirectional: label->SetShape( LABEL_FLAG_SHAPE::L_BIDI ); break;
 case T_tri_state: label->SetShape( LABEL_FLAG_SHAPE::L_TRISTATE ); break;
 case T_passive: label->SetShape( LABEL_FLAG_SHAPE::L_UNSPECIFIED ); break;
 case T_dot: label->SetShape( LABEL_FLAG_SHAPE::F_DOT ); break;
 case T_round: label->SetShape( LABEL_FLAG_SHAPE::F_ROUND ); break;
 case T_diamond: label->SetShape( LABEL_FLAG_SHAPE::F_DIAMOND ); break;
 case T_rectangle: label->SetShape( LABEL_FLAG_SHAPE::F_RECTANGLE ); break;
 default:
 Expecting( "input, output, bidirectional, tri_state, passive, dot, round, diamond"
 "or rectangle" );
 }
 
 NeedRIGHT();
 break;
 }
 
 case T_length:
 {
 if( text->Type() != SCH_DIRECTIVE_LABEL_T )
 Unexpected( T_length );
 
 SCH_DIRECTIVE_LABEL* label = static_cast<SCH_DIRECTIVE_LABEL*>( text.get() );
 
 label->SetPinLength( parseInternalUnits( "pin length" ) );
 NeedRIGHT();
 }
 break;
 
 case T_fields_autoplaced:
 if( parseMaybeAbsentBool( true ) )
 text->SetFieldsAutoplaced();
 
 break;
 
 case T_effects:
 parseEDA_TEXT( static_cast<EDA_TEXT*>( text.get() ), true );
 break;
 
 case T_iref: // legacy format; current is a T_property (aka SCH_FIELD)
 if( text->Type() == SCH_GLOBAL_LABEL_T )
 {
 SCH_GLOBALLABEL* label = static_cast<SCH_GLOBALLABEL*>( text.get() );
 SCH_FIELD* field = &label->GetFields()[0];
 
 field->SetTextPos( parseXY() );
 NeedRIGHT();
 
 field->SetVisible( true );
 }
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( text->m_Uuid ) = parseKIID();
 NeedRIGHT();
 break;
 
 case T_property:
 {
 if( text->Type() == SCH_TEXT_T )
 Unexpected( T_property );
 
 SCH_FIELD* field = parseSchField( text.get() );
 
 // If the field is a Intersheetrefs it is not handled like other fields:
 // It always exists and is the first in list
 if( text->Type() == SCH_GLOBAL_LABEL_T
 && ( field->GetInternalName() == wxT( "Intersheet References" ) // old name in V6.0
 || field->GetInternalName() == wxT( "Intersheetrefs" ) ) ) // Current name
 {
 SCH_GLOBALLABEL* label = static_cast<SCH_GLOBALLABEL*>( text.get() );
 // Ensure the Id of this special and first field is 0, needed by
 // SCH_FIELD::IsHypertext() test
 field->SetId( 0 );
 
 label->GetFields()[0] = *field;
 }
 else
 {
 static_cast<SCH_LABEL_BASE*>( text.get() )->GetFields().emplace_back( *field );
 }
 
 delete field;
 break;
 }
 
 default:
 Expecting( "at, shape, iref, uuid or effects" );
 }
 }
 
 SCH_LABEL_BASE* label = dynamic_cast<SCH_LABEL_BASE*>( text.get() );
 
 if( label && label->GetFields().empty() )
 label->SetFieldsAutoplaced();
 
 return text.release();
}
 
 
SCH_TEXTBOX* SCH_IO_KICAD_SEXPR_PARSER::parseSchTextBox()
{
 wxCHECK_MSG( CurTok() == T_text_box, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a text box." ) );
 
 std::unique_ptr<SCH_TEXTBOX> textBox = std::make_unique<SCH_TEXTBOX>();
 
 parseSchTextBoxContent( textBox.get() );
 
 return textBox.release();
}
 
 
SCH_TABLECELL* SCH_IO_KICAD_SEXPR_PARSER::parseSchTableCell()
{
 wxCHECK_MSG( CurTok() == T_table_cell, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a table cell." ) );
 
 std::unique_ptr<SCH_TABLECELL> cell = std::make_unique<SCH_TABLECELL>();
 
 parseSchTextBoxContent( cell.get() );
 
 return cell.release();
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseSchTextBoxContent( SCH_TEXTBOX* aTextBox )
{
 T token;
 VECTOR2I pos;
 VECTOR2I end;
 VECTOR2I size;
 int left;
 int top;
 int right;
 int bottom;
 STROKE_PARAMS stroke( schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS ), LINE_STYLE::DEFAULT );
 FILL_PARAMS fill;
 bool foundEnd = false;
 bool foundSize = false;
 bool foundMargins = false;
 
 NeedSYMBOL();
 
 aTextBox->SetText( FromUTF8() );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_exclude_from_sim:
 aTextBox->SetExcludedFromSim( parseBool() );
 NeedRIGHT();
 break;
 
 case T_start: // Legacy token during 6.99 development; fails to handle angle
 pos = parseXY();
 NeedRIGHT();
 break;
 
 case T_end: // Legacy token during 6.99 development; fails to handle angle
 end = parseXY();
 foundEnd = true;
 NeedRIGHT();
 break;
 
 case T_at:
 pos = parseXY();
 aTextBox->SetTextAngle( EDA_ANGLE( parseDouble( "textbox angle" ), DEGREES_T ) );
 NeedRIGHT();
 break;
 
 case T_size:
 size = parseXY();
 foundSize = true;
 NeedRIGHT();
 break;
 
 case T_span:
 if( SCH_TABLECELL* cell = dynamic_cast<SCH_TABLECELL*>( aTextBox ) )
 {
 cell->SetColSpan( parseInt( "column span" ) );
 cell->SetRowSpan( parseInt( "row span" ) );
 }
 else
 {
 Expecting( "at, size, stroke, fill, effects or uuid" );
 }
 
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( stroke );
 aTextBox->SetStroke( stroke );
 break;
 
 case T_fill:
 parseFill( fill );
 aTextBox->SetFillMode( fill.m_FillType );
 aTextBox->SetFillColor( fill.m_Color );
 break;
 
 case T_margins:
 parseMargins( left, top, right, bottom );
 aTextBox->SetMarginLeft( left );
 aTextBox->SetMarginTop( top );
 aTextBox->SetMarginRight( right );
 aTextBox->SetMarginBottom( bottom );
 foundMargins = true;
 NeedRIGHT();
 break;
 
 case T_effects:
 parseEDA_TEXT( static_cast<EDA_TEXT*>( aTextBox ), false );
 break;
 
 case T_uuid:
 NeedSYMBOL();
 const_cast<KIID&>( aTextBox->m_Uuid ) = KIID( FromUTF8() );
 NeedRIGHT();
 break;
 
 default:
 if( dynamic_cast<SCH_TABLECELL*>( aTextBox ) != nullptr )
 Expecting( "at, size, stroke, fill, effects, span or uuid" );
 else
 Expecting( "at, size, stroke, fill, effects or uuid" );
 }
 }
 
 aTextBox->SetPosition( pos );
 
 if( foundEnd )
 aTextBox->SetEnd( end );
 else if( foundSize )
 aTextBox->SetEnd( pos + size );
 else
 Expecting( "size" );
 
 if( !foundMargins )
 {
 int margin = aTextBox->GetLegacyTextMargin();
 aTextBox->SetMarginLeft( margin );
 aTextBox->SetMarginTop( margin );
 aTextBox->SetMarginRight( margin );
 aTextBox->SetMarginBottom( margin );
 }
}
 
 
SCH_TABLE* SCH_IO_KICAD_SEXPR_PARSER::parseSchTable()
{
 wxCHECK_MSG( CurTok() == T_table, nullptr,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a table." ) );
 
 T token;
 int defaultLineWidth = schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS );
 STROKE_PARAMS borderStroke( defaultLineWidth, LINE_STYLE::DEFAULT );
 STROKE_PARAMS separatorsStroke( defaultLineWidth, LINE_STYLE::DEFAULT );
 std::unique_ptr<SCH_TABLE> table = std::make_unique<SCH_TABLE>( defaultLineWidth );
 
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_column_count:
 table->SetColCount( parseInt( "column count" ) );
 NeedRIGHT();
 break;
 
 case T_column_widths:
 {
 int col = 0;
 
 while( ( token = NextTok() ) != T_RIGHT )
 table->SetColWidth( col++, parseInternalUnits() );
 
 break;
 }
 
 case T_row_heights:
 {
 int row = 0;
 
 while( ( token = NextTok() ) != T_RIGHT )
 table->SetRowHeight( row++, parseInternalUnits() );
 
 break;
 }
 
 case T_cells:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 if( token != T_table_cell )
 Expecting( "table_cell" );
 
 table->AddCell( parseSchTableCell() );
 }
 
 break;
 
 case T_border:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_external:
 table->SetStrokeExternal( parseBool() );
 NeedRIGHT();
 break;
 
 case T_header:
 table->SetStrokeHeader( parseBool() );
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( borderStroke );
 table->SetBorderStroke( borderStroke );
 break;
 
 default:
 Expecting( "external, header or stroke" );
 break;
 }
 }
 
 break;
 
 case T_separators:
 for( token = NextTok(); token != T_RIGHT; token = NextTok() )
 {
 if( token != T_LEFT )
 Expecting( T_LEFT );
 
 token = NextTok();
 
 switch( token )
 {
 case T_rows:
 table->SetStrokeRows( parseBool() );
 NeedRIGHT();
 break;
 
 case T_cols:
 table->SetStrokeColumns( parseBool() );
 NeedRIGHT();
 break;
 
 case T_stroke:
 parseStroke( separatorsStroke );
 table->SetSeparatorsStroke( separatorsStroke );
 break;
 
 default:
 Expecting( "rows, cols, or stroke" );
 break;
 }
 }
 
 break;
 
 default:
 Expecting( "columns, col_widths, row_heights, border, separators, header or cells" );
 }
 }
 
 return table.release();
}
 
 
void SCH_IO_KICAD_SEXPR_PARSER::parseBusAlias( SCH_SCREEN* aScreen )
{
 wxCHECK_RET( CurTok() == T_bus_alias,
 wxT( "Cannot parse " ) + GetTokenString( CurTok() ) + wxT( " as a bus alias." ) );
 wxCHECK( aScreen, /* void */ );
 
 T token;
 std::shared_ptr<BUS_ALIAS> busAlias = std::make_shared<BUS_ALIAS>( aScreen );
 wxString alias;
 wxString member;
 
 NeedSYMBOL();
 
 alias = FromUTF8();
 
 if( m_requiredVersion < 20210621 )
 alias = ConvertToNewOverbarNotation( alias );
 
 busAlias->SetName( alias );
 
 NeedLEFT();
 token = NextTok();
 
 if( token != T_members )
 Expecting( "members" );
 
 token = NextTok();
 
 while( token != T_RIGHT )
 {
 if( !IsSymbol( token ) )
 Expecting( "quoted string" );
 
 member = FromUTF8();
 
 if( m_requiredVersion < 20210621 )
 member = ConvertToNewOverbarNotation( member );
 
 busAlias->Members().emplace_back( member );
 
 token = NextTok();
 }
 
 NeedRIGHT();
 
 aScreen->AddBusAlias( busAlias );
}