/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020-2021 Roberto Fernandez Bautista * Copyright (C) 2020-2021 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ /** * @file cadstar_archive_parser.cpp * @brief Helper functions and common defines between schematic and PCB Archive files */ #include #include #include #include #include #include #include #include #include #include #include #include // Ratio derived from CADSTAR default font. See doxygen comment in cadstar_archive_parser.h const double CADSTAR_ARCHIVE_PARSER::TXT_HEIGHT_RATIO = ( 24.0 - 5.0 ) / 24.0; // Cadstar fields and their KiCad equivalent const std::map CADSTAR_ARCHIVE_PARSER::CADSTAR_TO_KICAD_FIELDS = { { TEXT_FIELD_NAME::DESIGN_TITLE, wxT( "DESIGN_TITLE" ) }, { TEXT_FIELD_NAME::SHORT_JOBNAME, wxT( "SHORT_JOBNAME" ) }, { TEXT_FIELD_NAME::LONG_JOBNAME, wxT( "LONG_JOBNAME" ) }, { TEXT_FIELD_NAME::NUM_OF_SHEETS, wxT( "##" ) }, { TEXT_FIELD_NAME::SHEET_NUMBER, wxT( "#" ) }, { TEXT_FIELD_NAME::SHEET_NAME, wxT( "SHEETNAME" ) }, { TEXT_FIELD_NAME::VARIANT_NAME, wxT( "VARIANT_NAME" ) }, { TEXT_FIELD_NAME::VARIANT_DESCRIPTION, wxT( "VARIANT_DESCRIPTION" ) }, { TEXT_FIELD_NAME::REG_USER, wxT( "REG_USER" ) }, { TEXT_FIELD_NAME::COMPANY_NAME, wxT( "COMPANY_NAME" ) }, { TEXT_FIELD_NAME::CURRENT_USER, wxT( "CURRENT_USER" ) }, { TEXT_FIELD_NAME::DATE, wxT( "DATE" ) }, { TEXT_FIELD_NAME::TIME, wxT( "TIME" ) }, { TEXT_FIELD_NAME::MACHINE_NAME, wxT( "MACHINE_NAME" ) } }; void CADSTAR_ARCHIVE_PARSER::FORMAT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "FORMAT" ) ); Type = GetXmlAttributeIDString( aNode, 0 ); SomeInt = GetXmlAttributeIDLong( aNode, 1 ); Version = GetXmlAttributeIDLong( aNode, 2 ); } void CADSTAR_ARCHIVE_PARSER::TIMESTAMP::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "TIMESTAMP" ) ); if( !GetXmlAttributeIDString( aNode, 0 ).ToLong( &Year ) || !GetXmlAttributeIDString( aNode, 1 ).ToLong( &Month ) || !GetXmlAttributeIDString( aNode, 2 ).ToLong( &Day ) || !GetXmlAttributeIDString( aNode, 3 ).ToLong( &Hour ) || !GetXmlAttributeIDString( aNode, 4 ).ToLong( &Minute ) || !GetXmlAttributeIDString( aNode, 5 ).ToLong( &Second ) ) THROW_PARSING_IO_ERROR( wxT( "TIMESTAMP" ), wxString::Format( "HEADER" ) ); } void CADSTAR_ARCHIVE_PARSER::HEADER::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "HEADER" ) ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString nodeName = cNode->GetName(); if( nodeName == wxT( "FORMAT" ) ) { Format.Parse( cNode, aContext ); } else if( nodeName == wxT( "JOBFILE" ) ) { JobFile = GetXmlAttributeIDString( cNode, 0 ); } else if( nodeName == wxT( "JOBTITLE" ) ) { JobTitle = GetXmlAttributeIDString( cNode, 0 ); } else if( nodeName == wxT( "GENERATOR" ) ) { Generator = GetXmlAttributeIDString( cNode, 0 ); } else if( nodeName == wxT( "RESOLUTION" ) ) { XNODE* subNode = cNode->GetChildren(); if( ( subNode->GetName() == wxT( "METRIC" ) ) && ( GetXmlAttributeIDString( subNode, 0 ) == wxT( "HUNDREDTH" ) ) && ( GetXmlAttributeIDString( subNode, 1 ) == wxT( "MICRON" ) ) ) { Resolution = RESOLUTION::HUNDREDTH_MICRON; } else { // TODO Need to find out if there are other possible resolutions. Logically // there must be other base units that could be used, such as "IMPERIAL INCH" // or "METRIC MM" but so far none of settings in CADSTAR generated a different // output resolution to "HUNDREDTH MICRON" THROW_UNKNOWN_NODE_IO_ERROR( subNode->GetName(), wxT( "HEADER->RESOLUTION" ) ); } } else if( nodeName == wxT( "TIMESTAMP" ) ) { Timestamp.Parse( cNode, aContext ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), wxT( "HEADER" ) ); } } } void CADSTAR_ARCHIVE_PARSER::VARIANT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "VMASTER" ) || aNode->GetName() == wxT( "VARIANT" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); if( aNode->GetName() == wxT( "VMASTER" ) ) { Name = GetXmlAttributeIDString( aNode, 1 ); Description = GetXmlAttributeIDString( aNode, 2 ); } else { ParentID = GetXmlAttributeIDString( aNode, 1 ); Name = GetXmlAttributeIDString( aNode, 2 ); Description = GetXmlAttributeIDString( aNode, 3 ); } } void CADSTAR_ARCHIVE_PARSER::VARIANT_HIERARCHY::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "VHIERARCHY" ) ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "VMASTER" ) || cNode->GetName() == wxT( "VARIANT" ) ) { VARIANT variant; variant.Parse( cNode, aContext ); Variants.insert( std::make_pair( variant.ID, variant ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), cNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::LINECODE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "LINECODE" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); if( !GetXmlAttributeIDString( aNode, 2 ).ToLong( &Width ) ) THROW_PARSING_IO_ERROR( wxT( "Line Width" ), wxString::Format( "LINECODE -> %s", Name ) ); XNODE* cNode = aNode->GetChildren(); if( cNode->GetName() != wxT( "STYLE" ) ) THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), wxString::Format( "LINECODE -> %s", Name ) ); wxString styleStr = GetXmlAttributeIDString( cNode, 0 ); if( styleStr == wxT( "SOLID" ) ) { Style = LINESTYLE::SOLID; } else if( styleStr == wxT( "DASH" ) ) { Style = LINESTYLE::DASH; } else if( styleStr == wxT( "DASHDOT" ) ) { Style = LINESTYLE::DASHDOT; } else if( styleStr == wxT( "DASHDOTDOT" ) ) { Style = LINESTYLE::DASHDOTDOT; } else if( styleStr == wxT( "DOT" ) ) { Style = LINESTYLE::DOT; } else { THROW_UNKNOWN_PARAMETER_IO_ERROR( wxString::Format( "STYLE %s", styleStr ), wxString::Format( "LINECODE -> %s", Name ) ); } } void CADSTAR_ARCHIVE_PARSER::HATCH::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "HATCH" ) ); Step = GetXmlAttributeIDLong( aNode, 0 ); LineWidth = GetXmlAttributeIDLong( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); if( !cNode || cNode->GetName() != wxT( "ORIENT" ) ) THROW_MISSING_NODE_IO_ERROR( wxT( "ORIENT" ), wxT( "HATCH" ) ); OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); } void CADSTAR_ARCHIVE_PARSER::HATCHCODE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "HATCHCODE" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); wxString location = wxString::Format( "HATCHCODE -> %s", Name ); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() != wxT( "HATCH" ) ) THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), location ); HATCH hatch; hatch.Parse( cNode, aContext ); Hatches.push_back( hatch ); } } void CADSTAR_ARCHIVE_PARSER::FONT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "FONT" ) ); Name = GetXmlAttributeIDString( aNode, 0 ); Modifier1 = GetXmlAttributeIDLong( aNode, 1 ); Modifier2 = GetXmlAttributeIDLong( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "ITALIC" ) ) Italic = true; else if( cNodeName == wxT( "KERNING" ) ) KerningPairs = true; else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } void CADSTAR_ARCHIVE_PARSER::TEXTCODE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "TEXTCODE" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); LineWidth = GetXmlAttributeIDLong( aNode, 2 ); Height = GetXmlAttributeIDLong( aNode, 3 ); Width = GetXmlAttributeIDLong( aNode, 4 ); XNODE* cNode = aNode->GetChildren(); if( cNode ) { if( cNode->GetName() == wxT( "FONT" ) ) Font.Parse( cNode, aContext ); else THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } void CADSTAR_ARCHIVE_PARSER::ROUTEREASSIGN::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ROUTEREASSIGN" ) ); LayerID = GetXmlAttributeIDString( aNode, 0 ); OptimalWidth = GetXmlAttributeIDLong( aNode, 1, false ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "NECKWIDTH" ) ) NeckedWidth = GetXmlAttributeIDLong( cNode, 0 ); else if( cNodeName == wxT( "SROUTEWIDTH" ) ) OptimalWidth = GetXmlAttributeIDLong( cNode, 0 ); else if( cNodeName == wxT( "MINWIDTH" ) ) MinWidth = GetXmlAttributeIDLong( cNode, 0 ); else if( cNodeName == wxT( "MAXWIDTH" ) ) MaxWidth = GetXmlAttributeIDLong( cNode, 0 ); else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } void CADSTAR_ARCHIVE_PARSER::ROUTECODE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ROUTECODE" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); OptimalWidth = GetXmlAttributeIDLong( aNode, 2, false ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "NECKWIDTH" ) ) { NeckedWidth = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "SROUTEWIDTH" ) ) { OptimalWidth = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "MINWIDTH" ) ) { MinWidth = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "MAXWIDTH" ) ) { MaxWidth = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "ROUTEREASSIGN" ) ) { ROUTEREASSIGN routereassign; routereassign.Parse( cNode, aContext ); RouteReassigns.push_back( routereassign ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } double CADSTAR_ARCHIVE_PARSER::EVALUE::GetDouble() { return Base * std::pow( 10.0, Exponent ); } void CADSTAR_ARCHIVE_PARSER::EVALUE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "E" ) ); if( ( !GetXmlAttributeIDString( aNode, 0 ).ToLong( &Base ) ) || ( !GetXmlAttributeIDString( aNode, 1 ).ToLong( &Exponent ) ) ) { THROW_PARSING_IO_ERROR( wxT( "Base and Exponent" ), wxString::Format( "%s->%s", aNode->GetParent()->GetName(), aNode->GetParent()->GetName() ) ); } } void CADSTAR_ARCHIVE_PARSER::POINT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PT" ) ); x = GetXmlAttributeIDLong( aNode, 0 ); y = GetXmlAttributeIDLong( aNode, 1 ); } void CADSTAR_ARCHIVE_PARSER::LONGPOINT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PT" ) ); x = GetXmlAttributeIDLong( aNode, 0 ); y = GetXmlAttributeIDLong( aNode, 1 ); } bool CADSTAR_ARCHIVE_PARSER::VERTEX::IsVertex( XNODE* aNode ) { wxString aNodeName = aNode->GetName(); if( aNodeName == wxT( "PT" ) || aNodeName == wxT( "ACWARC" ) || aNodeName == wxT( "CWARC" ) || aNodeName == wxT( "CWSEMI" ) || aNodeName == wxT( "ACWSEMI" ) ) { return true; } else { return false; } } void CADSTAR_ARCHIVE_PARSER::VERTEX::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( IsVertex( aNode ) ); wxString aNodeName = aNode->GetName(); if( aNodeName == wxT( "PT" ) ) { Type = VERTEX_TYPE::POINT; Center.x = UNDEFINED_VALUE; Center.y = UNDEFINED_VALUE; End.Parse( aNode, aContext ); } else if( aNodeName == wxT( "ACWARC" ) || aNodeName == wxT( "CWARC" ) ) { if( aNodeName == wxT( "ACWARC" ) ) Type = VERTEX_TYPE::ANTICLOCKWISE_ARC; else Type = VERTEX_TYPE::CLOCKWISE_ARC; std::vector pts = ParseAllChildPoints( aNode, aContext, true, 2 ); Center = pts[0]; End = pts[1]; } else if( aNodeName == wxT( "ACWSEMI" ) || aNodeName == wxT( "CWSEMI" ) ) { if( aNodeName == wxT( "ACWSEMI" ) ) Type = VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE; else Type = VERTEX_TYPE::CLOCKWISE_SEMICIRCLE; Center.x = UNDEFINED_VALUE; Center.y = UNDEFINED_VALUE; std::vector pts = ParseAllChildPoints( aNode, aContext, true, 1 ); End = pts[0]; } else { wxASSERT_MSG( true, wxT( "Unknown VERTEX type" ) ); } } void CADSTAR_ARCHIVE_PARSER::VERTEX::AppendToChain( SHAPE_LINE_CHAIN* aChainToAppendTo, const std::function aCadstarToKicadPointCallback, double aAccuracy ) const { VECTOR2I endPoint = aCadstarToKicadPointCallback( End ); if( Type == VERTEX_TYPE::POINT ) { aChainToAppendTo->Append( endPoint ); return; } wxCHECK_MSG( aChainToAppendTo->PointCount() > 0, /*void*/, "Can't append an arc to vertex to an empty chain" ); VECTOR2I startPoint = aChainToAppendTo->GetPoint( -1 ); VECTOR2I centerPoint; if( Type == VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE || Type == VERTEX_TYPE::CLOCKWISE_SEMICIRCLE ) centerPoint = ( startPoint / 2 ) + ( endPoint / 2 ); else centerPoint = aCadstarToKicadPointCallback( Center ); bool clockwise = Type == VERTEX_TYPE::CLOCKWISE_ARC || Type == VERTEX_TYPE::CLOCKWISE_SEMICIRCLE; // A bit of a hack to figure out if we need to invert clockwise due to the transform VECTOR2I transform = aCadstarToKicadPointCallback( { 500, 500 } ) - aCadstarToKicadPointCallback( { 0, 0 } ); if( ( transform.x > 0 && transform.y < 0 ) || ( transform.x < 0 && transform.y > 0 ) ) clockwise = !clockwise; SHAPE_ARC arc; arc.ConstructFromStartEndCenter( startPoint, endPoint, centerPoint, clockwise ); aChainToAppendTo->Append( arc, aAccuracy ); } void CADSTAR_ARCHIVE_PARSER::CUTOUT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "CUTOUT" ) ); Vertices = ParseAllChildVertices( aNode, aContext, true ); } bool CADSTAR_ARCHIVE_PARSER::SHAPE::IsShape( XNODE* aNode ) { wxString aNodeName = aNode->GetName(); if( aNodeName == wxT( "OPENSHAPE" ) || aNodeName == wxT( "OUTLINE" ) || aNodeName == wxT( "SOLID" ) || aNodeName == wxT( "HATCHED" ) ) { return true; } else { return false; } } void CADSTAR_ARCHIVE_PARSER::SHAPE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( IsShape( aNode ) ); wxString aNodeName = aNode->GetName(); if( aNodeName == wxT( "OPENSHAPE" ) ) { Type = SHAPE_TYPE::OPENSHAPE; Vertices = ParseAllChildVertices( aNode, aContext, true ); Cutouts.clear(); HatchCodeID = wxEmptyString; } else if( aNodeName == wxT( "OUTLINE" ) ) { Type = SHAPE_TYPE::OUTLINE; Vertices = ParseAllChildVertices( aNode, aContext, false ); Cutouts = ParseAllChildCutouts( aNode, aContext, false ); HatchCodeID = wxEmptyString; } else if( aNodeName == wxT( "SOLID" ) ) { Type = SHAPE_TYPE::SOLID; Vertices = ParseAllChildVertices( aNode, aContext, false ); Cutouts = ParseAllChildCutouts( aNode, aContext, false ); HatchCodeID = wxEmptyString; } else if( aNodeName == wxT( "HATCHED" ) ) { Type = SHAPE_TYPE::HATCHED; Vertices = ParseAllChildVertices( aNode, aContext, false ); Cutouts = ParseAllChildCutouts( aNode, aContext, false ); HatchCodeID = GetXmlAttributeIDString( aNode, 0 ); } else { wxASSERT_MSG( true, wxT( "Unknown SHAPE type" ) ); } } SHAPE_LINE_CHAIN CADSTAR_ARCHIVE_PARSER::SHAPE::OutlineAsChain( const std::function aCadstarToKicadPointCallback, double aAccuracy ) const { SHAPE_LINE_CHAIN outline; if( Vertices.size() == 0 ) return outline; for( const auto& vertex : Vertices ) vertex.AppendToChain( &outline, aCadstarToKicadPointCallback, aAccuracy ); if( Type != SHAPE_TYPE::OPENSHAPE ) { outline.SetClosed( true ); // Append after closing, to ensre first and last point remain the same Vertices.at( 0 ).AppendToChain( &outline, aCadstarToKicadPointCallback, aAccuracy ); } return outline; } SHAPE_POLY_SET CADSTAR_ARCHIVE_PARSER::SHAPE::ConvertToPolySet( const std::function aCadstarToKicadPointCallback, double aAccuracy ) const { SHAPE_POLY_SET polyset; wxCHECK( Type != SHAPE_TYPE::OPENSHAPE, polyset ); // We shouldn't convert openshapes to polyset! polyset.AddOutline( OutlineAsChain( aCadstarToKicadPointCallback, aAccuracy ) ); for( const auto& cutout : Cutouts ) { SHAPE_LINE_CHAIN hole; if( cutout.Vertices.size() == 0 ) continue; for( const auto& cutoutVertex : cutout.Vertices ) cutoutVertex.AppendToChain( &hole, aCadstarToKicadPointCallback, aAccuracy ); hole.SetClosed( true ); // Append after closing, to ensre first and last point remain the same cutout.Vertices.at( 0 ).AppendToChain( &hole, aCadstarToKicadPointCallback, aAccuracy ); polyset.AddHole( hole ); } return polyset; } CADSTAR_ARCHIVE_PARSER::UNITS CADSTAR_ARCHIVE_PARSER::ParseUnits( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "UNITS" ) ); wxString unit = GetXmlAttributeIDString( aNode, 0 ); if( unit == wxT( "CENTIMETER" ) ) return UNITS::CENTIMETER; else if( unit == wxT( "INCH" ) ) return UNITS::INCH; else if( unit == wxT( "METER" ) ) return UNITS::METER; else if( unit == wxT( "MICROMETRE" ) ) return UNITS::MICROMETRE; else if( unit == wxT( "MM" ) ) return UNITS::MM; else if( unit == wxT( "THOU" ) ) return UNITS::THOU; else if( unit == wxT( "DESIGN" ) ) return UNITS::DESIGN; else THROW_UNKNOWN_PARAMETER_IO_ERROR( unit, wxT( "UNITS" ) ); return UNITS(); } CADSTAR_ARCHIVE_PARSER::ANGUNITS CADSTAR_ARCHIVE_PARSER::ParseAngunits( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "ANGUNITS" ) ); wxString angUnitStr = GetXmlAttributeIDString( aNode, 0 ); if( angUnitStr == wxT( "DEGREES" ) ) return ANGUNITS::DEGREES; else if( angUnitStr == wxT( "RADIANS" ) ) return ANGUNITS::RADIANS; else THROW_UNKNOWN_PARAMETER_IO_ERROR( angUnitStr, aNode->GetName() ); return ANGUNITS(); } bool CADSTAR_ARCHIVE_PARSER::GRID::IsGrid( XNODE* aNode ) { wxString aNodeName = aNode->GetName(); if( aNodeName == wxT( "FRACTIONALGRID" ) || aNodeName == wxT( "STEPGRID" ) ) return true; else return false; } void CADSTAR_ARCHIVE_PARSER::GRID::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( IsGrid( aNode ) ); wxString aNodeName = aNode->GetName(); if( aNodeName == wxT( "FRACTIONALGRID" ) ) Type = GRID_TYPE::FRACTIONALGRID; else if( aNodeName == wxT( "STEPGRID" ) ) Type = GRID_TYPE::STEPGRID; else wxASSERT_MSG( true, wxT( "Unknown Grid Type" ) ); Name = GetXmlAttributeIDString( aNode, 0 ); Param1 = GetXmlAttributeIDLong( aNode, 1 ); Param2 = GetXmlAttributeIDLong( aNode, 2 ); } void CADSTAR_ARCHIVE_PARSER::GRIDS::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "GRIDS" ) ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "WORKINGGRID" ) ) { XNODE* workingGridNode = cNode->GetChildren(); if( !GRID::IsGrid( workingGridNode ) ) { THROW_UNKNOWN_NODE_IO_ERROR( workingGridNode->GetName(), wxT( "GRIDS -> WORKINGGRID" ) ); } else { WorkingGrid.Parse( workingGridNode, aContext ); } } else if( cNodeName == wxT( "SCREENGRID" ) ) { XNODE* screenGridNode = cNode->GetChildren(); if( !GRID::IsGrid( screenGridNode ) ) { THROW_UNKNOWN_NODE_IO_ERROR( screenGridNode->GetName(), wxT( "GRIDS -> SCREENGRID" ) ); } else { ScreenGrid.Parse( screenGridNode, aContext ); } } else if( GRID::IsGrid( cNode ) ) { GRID userGrid; userGrid.Parse( cNode, aContext ); UserGrids.push_back( userGrid ); } } } bool CADSTAR_ARCHIVE_PARSER::SETTINGS::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString cNodeName = aChildNode->GetName(); if( cNodeName == wxT( "UNITS" ) ) { Units = ParseUnits( aChildNode ); } else if( cNodeName == wxT( "UNITSPRECISION" ) ) { UnitDisplPrecision = GetXmlAttributeIDLong( aChildNode, 0 ); } else if( cNodeName == wxT( "INTERLINEGAP" ) ) { InterlineGap = GetXmlAttributeIDLong( aChildNode, 0 ); } else if( cNodeName == wxT( "BARLINEGAP" ) ) { BarlineGap = GetXmlAttributeIDLong( aChildNode, 0 ); } else if( cNodeName == wxT( "ALLOWBARTEXT" ) ) { AllowBarredText = true; } else if( cNodeName == wxT( "ANGULARPRECISION" ) ) { AngularPrecision = GetXmlAttributeIDLong( aChildNode, 0 ); } else if( cNodeName == wxT( "DESIGNORIGIN" ) ) { DesignOrigin.Parse( aChildNode->GetChildren(), aContext ); } else if( cNodeName == wxT( "DESIGNAREA" ) ) { std::vector pts = ParseAllChildPoints( aChildNode, aContext, true, 2 ); DesignArea = std::make_pair( pts[0], pts[1] ); } else if( cNodeName == wxT( "DESIGNREF" ) ) { DesignOrigin.Parse( aChildNode->GetChildren(), aContext ); } else if( cNodeName == wxT( "DESIGNLIMIT" ) ) { DesignLimit.Parse( aChildNode->GetChildren(), aContext ); } else { return false; } return true; } void CADSTAR_ARCHIVE_PARSER::SETTINGS::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "SETTINGS" ) ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( ParseSubNode( cNode, aContext ) ) continue; else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "SETTINGS" ) ); } } wxString CADSTAR_ARCHIVE_PARSER::ParseTextFields( const wxString& aTextString, PARSER_CONTEXT* aContext ) { static const std::map txtTokens = { { TEXT_FIELD_NAME::DESIGN_TITLE, wxT( "DESIGN TITLE" ) }, { TEXT_FIELD_NAME::SHORT_JOBNAME, wxT( "SHORT_JOBNAME" ) }, { TEXT_FIELD_NAME::LONG_JOBNAME, wxT( "LONG_JOBNAME" ) }, { TEXT_FIELD_NAME::NUM_OF_SHEETS, wxT( "NUM_OF_SHEETS" ) }, { TEXT_FIELD_NAME::SHEET_NUMBER, wxT( "SHEET_NUMBER" ) }, { TEXT_FIELD_NAME::SHEET_NAME, wxT( "SHEET_NAME" ) }, { TEXT_FIELD_NAME::VARIANT_NAME, wxT( "VARIANT_NAME" ) }, { TEXT_FIELD_NAME::VARIANT_DESCRIPTION, wxT( "VARIANT_DESCRIPTION" ) }, { TEXT_FIELD_NAME::REG_USER, wxT( "REG_USER" ) }, { TEXT_FIELD_NAME::COMPANY_NAME, wxT( "COMPANY_NAME" ) }, { TEXT_FIELD_NAME::CURRENT_USER, wxT( "CURRENT_USER" ) }, { TEXT_FIELD_NAME::DATE, wxT( "DATE" ) }, { TEXT_FIELD_NAME::TIME, wxT( "TIME" ) }, { TEXT_FIELD_NAME::MACHINE_NAME, wxT( "MACHINE_NAME" ) }, { TEXT_FIELD_NAME::FROM_FILE, wxT( "FROM_FILE" ) }, { TEXT_FIELD_NAME::DISTANCE, wxT( "DISTANCE" ) }, { TEXT_FIELD_NAME::UNITS_SHORT, wxT( "UNITS SHORT" ) }, { TEXT_FIELD_NAME::UNITS_ABBREV, wxT( "UNITS ABBREV" ) }, { TEXT_FIELD_NAME::UNITS_FULL, wxT( "UNITS FULL" ) }, { TEXT_FIELD_NAME::HYPERLINK, wxT( "HYPERLINK" ) } }; wxString remainingStr = aTextString; wxString returnStr; while( remainingStr.size() > 0 ) { //Find the start token size_t startpos = remainingStr.Find( wxT( "<@" ) ); if( static_cast( startpos ) == wxNOT_FOUND ) { // No more fields to parse, add to return string returnStr += remainingStr; break; } if( startpos > 0 ) returnStr += remainingStr.SubString( 0, startpos - 1 ); if( ( startpos + 2 ) >= remainingStr.size() ) break; remainingStr = remainingStr.Mid( startpos + 2 ); //Find the expected token for the field TEXT_FIELD_NAME foundField = TEXT_FIELD_NAME::NONE; for( std::pair txtF : txtTokens ) { if( remainingStr.StartsWith( txtF.second ) ) { foundField = txtF.first; break; } } if( foundField == TEXT_FIELD_NAME::NONE ) { // Not a valid field, lets keep looking returnStr += wxT( "<@" ); continue; } //Now lets find the end token size_t endpos = remainingStr.Find( wxT( "@>" ) ); if( static_cast( endpos ) == wxNOT_FOUND ) { // The field we found isn't valid as it doesn't have a termination // Lets append the whole thing as plain text returnStr += wxT( "<@" ) + remainingStr; break; } size_t valueStart = txtTokens.at( foundField ).size(); wxString fieldValue = remainingStr.SubString( valueStart, endpos - 1 ); wxString address; if( foundField == TEXT_FIELD_NAME::FROM_FILE || foundField == TEXT_FIELD_NAME::HYPERLINK ) { // The first character should always be a double quotation mark wxASSERT_MSG( fieldValue.at( 0 ) == '"', "Expected '\"' as the first character" ); size_t splitPos = fieldValue.find_first_of( '"', 1 ); address = fieldValue.SubString( 1, splitPos - 1 ); if( foundField == TEXT_FIELD_NAME::HYPERLINK ) { // Assume the last two characters are "@>" wxASSERT_MSG( remainingStr.EndsWith( wxT( "@>" ) ), "Expected '@>' at the end of a hyperlink" ); fieldValue = remainingStr.SubString( valueStart + splitPos + 1, remainingStr.Length() - 3 ); remainingStr = wxEmptyString; } else { fieldValue = fieldValue.Mid( splitPos + 1 ); } } switch( foundField ) { case TEXT_FIELD_NAME::DESIGN_TITLE: case TEXT_FIELD_NAME::SHORT_JOBNAME: case TEXT_FIELD_NAME::LONG_JOBNAME: case TEXT_FIELD_NAME::VARIANT_NAME: case TEXT_FIELD_NAME::VARIANT_DESCRIPTION: case TEXT_FIELD_NAME::REG_USER: case TEXT_FIELD_NAME::COMPANY_NAME: case TEXT_FIELD_NAME::CURRENT_USER: case TEXT_FIELD_NAME::DATE: case TEXT_FIELD_NAME::TIME: case TEXT_FIELD_NAME::MACHINE_NAME: if( aContext->TextFieldToValuesMap.find( foundField ) != aContext->TextFieldToValuesMap.end() ) { aContext->InconsistentTextFields.insert( foundField ); } else { aContext->TextFieldToValuesMap.insert( { foundField, fieldValue } ); } KI_FALLTHROUGH; case TEXT_FIELD_NAME::NUM_OF_SHEETS: case TEXT_FIELD_NAME::SHEET_NUMBER: case TEXT_FIELD_NAME::SHEET_NAME: returnStr += wxT( "${" ) + CADSTAR_TO_KICAD_FIELDS.at( foundField ) + wxT( "}" ); break; case TEXT_FIELD_NAME::DISTANCE: case TEXT_FIELD_NAME::UNITS_SHORT: case TEXT_FIELD_NAME::UNITS_ABBREV: case TEXT_FIELD_NAME::UNITS_FULL: // Just flatten the text for distances returnStr += fieldValue; break; case TEXT_FIELD_NAME::FROM_FILE: { wxFileName fn( address ); wxString fieldFmt = wxT( "FROM_FILE_%s_%s" ); wxString fieldName = wxString::Format( fieldFmt, fn.GetName(), fn.GetExt() ); int version = 1; while( aContext->FilenamesToTextMap.find( fieldName ) != aContext->FilenamesToTextMap.end() && aContext->FilenamesToTextMap.at( fieldName ) != fieldValue ) { fieldName = wxString::Format( fieldFmt, fn.GetName(), fn.GetExt() ) + wxString::Format( wxT( "_%d" ), version++ ); } aContext->FilenamesToTextMap[fieldName] = fieldValue; returnStr += wxT( "${" ) + fieldName + wxT( "}" ); } break; case TEXT_FIELD_NAME::HYPERLINK: { aContext->TextToHyperlinksMap[fieldValue] = address; returnStr += ParseTextFields( fieldValue, aContext ); } break; case TEXT_FIELD_NAME::NONE: wxFAIL_MSG( "We should have already covered this scenario above" ); break; } if( ( endpos + 2 ) >= remainingStr.size() ) break; remainingStr = remainingStr.Mid( endpos + 2 ); } return returnStr; } CADSTAR_ARCHIVE_PARSER::ALIGNMENT CADSTAR_ARCHIVE_PARSER::ParseAlignment( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "ALIGN" ) ); wxString alignmentStr = GetXmlAttributeIDString( aNode, 0 ); if( alignmentStr == wxT( "BOTTOMCENTER" ) ) return ALIGNMENT::BOTTOMCENTER; else if( alignmentStr == wxT( "BOTTOMLEFT" ) ) return ALIGNMENT::BOTTOMLEFT; else if( alignmentStr == wxT( "BOTTOMRIGHT" ) ) return ALIGNMENT::BOTTOMRIGHT; else if( alignmentStr == wxT( "CENTERCENTER" ) ) return ALIGNMENT::CENTERCENTER; else if( alignmentStr == wxT( "CENTERLEFT" ) ) return ALIGNMENT::CENTERLEFT; else if( alignmentStr == wxT( "CENTERRIGHT" ) ) return ALIGNMENT::CENTERRIGHT; else if( alignmentStr == wxT( "TOPCENTER" ) ) return ALIGNMENT::TOPCENTER; else if( alignmentStr == wxT( "TOPLEFT" ) ) return ALIGNMENT::TOPLEFT; else if( alignmentStr == wxT( "TOPRIGHT" ) ) return ALIGNMENT::TOPRIGHT; else THROW_UNKNOWN_PARAMETER_IO_ERROR( alignmentStr, wxT( "ALIGN" ) ); //shouldn't be here but avoids compiler warning return ALIGNMENT::NO_ALIGNMENT; } CADSTAR_ARCHIVE_PARSER::JUSTIFICATION CADSTAR_ARCHIVE_PARSER::ParseJustification( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "JUSTIFICATION" ) ); wxString justificationStr = GetXmlAttributeIDString( aNode, 0 ); if( justificationStr == wxT( "LEFT" ) ) return JUSTIFICATION::LEFT; else if( justificationStr == wxT( "RIGHT" ) ) return JUSTIFICATION::RIGHT; else if( justificationStr == wxT( "CENTER" ) ) return JUSTIFICATION::CENTER; else THROW_UNKNOWN_PARAMETER_IO_ERROR( justificationStr, wxT( "JUSTIFICATION" ) ); return JUSTIFICATION::LEFT; } CADSTAR_ARCHIVE_PARSER::READABILITY CADSTAR_ARCHIVE_PARSER::ParseReadability( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "READABILITY" ) ); wxString readabilityStr = GetXmlAttributeIDString( aNode, 0 ); if( readabilityStr == wxT( "BOTTOM_TO_TOP" ) ) return READABILITY::BOTTOM_TO_TOP; else if( readabilityStr == wxT( "TOP_TO_BOTTOM" ) ) return READABILITY::TOP_TO_BOTTOM; else THROW_UNKNOWN_PARAMETER_IO_ERROR( readabilityStr, wxT( "READABILITY" ) ); return READABILITY::BOTTOM_TO_TOP; } void CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::ParseIdentifiers( XNODE* aNode, PARSER_CONTEXT* aContext ) { TextCodeID = GetXmlAttributeIDString( aNode, 0 ); LayerID = GetXmlAttributeIDString( aNode, 1 ); } bool CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString cNodeName = aChildNode->GetName(); if( cNodeName == wxT( "PT" ) ) Position.Parse( aChildNode, aContext ); else if( cNodeName == wxT( "ORIENT" ) ) OrientAngle = GetXmlAttributeIDLong( aChildNode, 0 ); else if( cNodeName == wxT( "MIRROR" ) ) Mirror = true; else if( cNodeName == wxT( "FIX" ) ) Fixed = true; else if( cNodeName == wxT( "ALIGN" ) ) Alignment = ParseAlignment( aChildNode ); else if( cNodeName == wxT( "JUSTIFICATION" ) ) Justification = ParseJustification( aChildNode ); else return false; return true; } void CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_LOCATION::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ATTRLOC" ) ); ParseIdentifiers( aNode, aContext ); //Parse child nodes XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( ParseSubNode( cNode, aContext ) ) continue; else THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), wxT( "ATTRLOC" ) ); } if( !Position.IsFullySpecified() ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), wxT( "ATTRLOC" ) ); } void CADSTAR_ARCHIVE_PARSER::ATTRNAME::COLUMNORDER::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "COLUMNORDER" ) ); ID = GetXmlAttributeIDLong( aNode, 0 ); Order = GetXmlAttributeIDLong( aNode, 1 ); CheckNoChildNodes( aNode ); } void CADSTAR_ARCHIVE_PARSER::ATTRNAME::COLUMNWIDTH::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "COLUMNWIDTH" ) ); ID = GetXmlAttributeIDLong( aNode, 0 ); Width = GetXmlAttributeIDLong( aNode, 1 ); CheckNoChildNodes( aNode ); } void CADSTAR_ARCHIVE_PARSER::ATTRNAME::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ATTRNAME" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); wxString location = wxString::Format( "ATTRNAME -> %s", Name ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "ATTROWNER" ) ) { wxString attOwnerVal = GetXmlAttributeIDString( cNode, 0 ); if( attOwnerVal == wxT( "ALL_ITEMS" ) ) AttributeOwner = ATTROWNER::ALL_ITEMS; else if( attOwnerVal == wxT( "AREA" ) ) AttributeOwner = ATTROWNER::AREA; else if( attOwnerVal == wxT( "BOARD" ) ) AttributeOwner = ATTROWNER::BOARD; else if( attOwnerVal == wxT( "COMPONENT" ) ) AttributeOwner = ATTROWNER::COMPONENT; else if( attOwnerVal == wxT( "CONNECTION" ) ) AttributeOwner = ATTROWNER::CONNECTION; else if( attOwnerVal == wxT( "COPPER" ) ) AttributeOwner = ATTROWNER::COPPER; else if( attOwnerVal == wxT( "DOCSYMBOL" ) ) AttributeOwner = ATTROWNER::DOCSYMBOL; else if( attOwnerVal == wxT( "FIGURE" ) ) AttributeOwner = ATTROWNER::FIGURE; else if( attOwnerVal == wxT( "NET" ) ) AttributeOwner = ATTROWNER::NET; else if( attOwnerVal == wxT( "NETCLASS" ) ) AttributeOwner = ATTROWNER::NETCLASS; else if( attOwnerVal == wxT( "PART" ) ) AttributeOwner = ATTROWNER::PART; else if( attOwnerVal == wxT( "PART_DEFINITION" ) ) AttributeOwner = ATTROWNER::PART_DEFINITION; else if( attOwnerVal == wxT( "PIN" ) ) AttributeOwner = ATTROWNER::PIN; else if( attOwnerVal == wxT( "SIGNALREF" ) ) AttributeOwner = ATTROWNER::SIGNALREF; else if( attOwnerVal == wxT( "SYMBOL" ) ) AttributeOwner = ATTROWNER::SYMBOL; else if( attOwnerVal == wxT( "SYMDEF" ) ) AttributeOwner = ATTROWNER::SYMDEF; else if( attOwnerVal == wxT( "TEMPLATE" ) ) AttributeOwner = ATTROWNER::TEMPLATE; else if( attOwnerVal == wxT( "TESTPOINT" ) ) AttributeOwner = ATTROWNER::TESTPOINT; else THROW_UNKNOWN_PARAMETER_IO_ERROR( attOwnerVal, location ); } else if( cNodeName == wxT( "ATTRUSAGE" ) ) { wxString attUsageVal = GetXmlAttributeIDString( cNode, 0 ); if( attUsageVal == wxT( "BOTH" ) ) AttributeUsage = ATTRUSAGE::BOTH; else if( attUsageVal == wxT( "COMPONENT" ) ) AttributeUsage = ATTRUSAGE::COMPONENT; else if( attUsageVal == wxT( "PART_DEFINITION" ) ) AttributeUsage = ATTRUSAGE::PART_DEFINITION; else if( attUsageVal == wxT( "PART_LIBRARY" ) ) AttributeUsage = ATTRUSAGE::PART_LIBRARY; else if( attUsageVal == wxT( "SYMBOL" ) ) AttributeUsage = ATTRUSAGE::SYMBOL; else THROW_UNKNOWN_PARAMETER_IO_ERROR( attUsageVal, location ); } else if( cNodeName == wxT( "NOTRANSFER" ) ) { NoTransfer = true; } else if( cNodeName == wxT( "COLUMNORDER" ) ) { COLUMNORDER cOrder; cOrder.Parse( cNode, aContext ); ColumnOrders.push_back( cOrder ); } else if( cNodeName == wxT( "COLUMNWIDTH" ) ) { COLUMNWIDTH cWidth; cWidth.Parse( cNode, aContext ); ColumnWidths.push_back( cWidth ); } else if( cNodeName == wxT( "COLUMNINVISIBLE" ) ) { ColumnInvisible = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, location ); } } } void CADSTAR_ARCHIVE_PARSER::ATTRIBUTE_VALUE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ATTR" ) ); AttributeID = GetXmlAttributeIDString( aNode, 0 ); Value = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "READONLY" ) ) { ReadOnly = true; } else if( cNode->GetName() == wxT( "ATTRLOC" ) ) { AttributeLocation.Parse( cNode, aContext ); HasLocation = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), wxT( "ATTR" ) ); } } } void CADSTAR_ARCHIVE_PARSER::TEXT_LOCATION::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "TEXTLOC" ) ); wxString attributeStr = GetXmlAttributeIDString( aNode, 0 ); bool attributeIDisSet = false; if( attributeStr == wxT( "PART_NAME" ) ) { AttributeID = PART_NAME_ATTRID; attributeIDisSet = true; } else if( attributeStr == wxT( "COMP_NAME" ) ) { AttributeID = COMPONENT_NAME_ATTRID; attributeIDisSet = true; } else if( attributeStr == wxT( "COMP_NAME2" ) ) { AttributeID = COMPONENT_NAME_2_ATTRID; attributeIDisSet = true; } else if( attributeStr == wxT( "SYMBOL_NAME" ) ) { AttributeID = SYMBOL_NAME_ATTRID; attributeIDisSet = true; } else if( attributeStr == wxT( "LINK_ORIGIN" ) ) { AttributeID = LINK_ORIGIN_ATTRID; attributeIDisSet = true; } else if( attributeStr == wxT( "SIGNALNAME_ORIGIN" ) ) { AttributeID = SIGNALNAME_ORIGIN_ATTRID; attributeIDisSet = true; } else if( attributeStr == wxT( "ATTRREF" ) ) { //We will initialise when we parse all child nodes attributeIDisSet = false; } else { THROW_UNKNOWN_PARAMETER_IO_ERROR( attributeStr, wxT( "TEXTLOC" ) ); } TextCodeID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2, false ); //Parse child nodes XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( ParseSubNode( cNode, aContext ) ) { continue; } else if( !attributeIDisSet && cNodeName == wxT( "ATTRREF" ) ) { AttributeID = GetXmlAttributeIDString( cNode, 0 ); attributeIDisSet = true; } else if( cNodeName == wxT( "ORIENT" ) ) { OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "MIRROR" ) ) { Mirror = true; } else if( cNodeName == wxT( "FIX" ) ) { Fixed = true; } else if( cNodeName == wxT( "ALIGN" ) ) { Alignment = ParseAlignment( cNode ); } else if( cNodeName == wxT( "JUSTIFICATION" ) ) { Justification = ParseJustification( cNode ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "TEXTLOC" ) ); } } if( !Position.IsFullySpecified() ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), wxT( "TEXTLOC" ) ); } void CADSTAR_ARCHIVE_PARSER::CADSTAR_NETCLASS::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "NETCLASS" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); wxString location = wxString::Format( "NETCLASS -> %s", Name ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attribute_val; attribute_val.Parse( cNode, aContext ); Attributes.push_back( attribute_val ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, location ); } } } void CADSTAR_ARCHIVE_PARSER::SPCCLASSNAME::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "SPCCLASSNAME" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); } bool CADSTAR_ARCHIVE_PARSER::CODEDEFS::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString nodeName = aChildNode->GetName(); if( nodeName == wxT( "LINECODE" ) ) { LINECODE linecode; linecode.Parse( aChildNode, aContext ); LineCodes.insert( std::make_pair( linecode.ID, linecode ) ); } else if( nodeName == wxT( "HATCHCODE" ) ) { HATCHCODE hatchcode; hatchcode.Parse( aChildNode, aContext ); HatchCodes.insert( std::make_pair( hatchcode.ID, hatchcode ) ); } else if( nodeName == wxT( "TEXTCODE" ) ) { TEXTCODE textcode; textcode.Parse( aChildNode, aContext ); TextCodes.insert( std::make_pair( textcode.ID, textcode ) ); } else if( nodeName == wxT( "ROUTECODE" ) ) { ROUTECODE routecode; routecode.Parse( aChildNode, aContext ); RouteCodes.insert( std::make_pair( routecode.ID, routecode ) ); } else if( nodeName == wxT( "ATTRNAME" ) ) { ATTRNAME attrname; attrname.Parse( aChildNode, aContext ); AttributeNames.insert( std::make_pair( attrname.ID, attrname ) ); } else if( nodeName == wxT( "NETCLASS" ) ) { CADSTAR_NETCLASS netclass; netclass.Parse( aChildNode, aContext ); NetClasses.insert( std::make_pair( netclass.ID, netclass ) ); } else if( nodeName == wxT( "SPCCLASSNAME" ) ) { SPCCLASSNAME spcclassname; spcclassname.Parse( aChildNode, aContext ); SpacingClassNames.insert( std::make_pair( spcclassname.ID, spcclassname ) ); } else { return false; } return true; } CADSTAR_ARCHIVE_PARSER::SWAP_RULE CADSTAR_ARCHIVE_PARSER::ParseSwapRule( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "SWAPRULE" ) ); SWAP_RULE retval; wxString swapRuleStr = GetXmlAttributeIDString( aNode, 0 ); if( swapRuleStr == wxT( "NO_SWAP" ) ) retval = SWAP_RULE::NO_SWAP; else if( swapRuleStr == wxT( "USE_SWAP_LAYER" ) ) retval = SWAP_RULE::USE_SWAP_LAYER; else THROW_UNKNOWN_PARAMETER_IO_ERROR( swapRuleStr, wxT( "SWAPRULE" ) ); return retval; } void CADSTAR_ARCHIVE_PARSER::REUSEBLOCK::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "REUSEBLOCK" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); FileName = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "MIRROR" ) ) Mirror = true; else if( cNodeName == wxT( "ORIENT" ) ) OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "REUSEBLOCK" ) ); } } bool CADSTAR_ARCHIVE_PARSER::REUSEBLOCKREF::IsEmpty() { return ReuseBlockID == wxEmptyString && ItemReference == wxEmptyString; } void CADSTAR_ARCHIVE_PARSER::REUSEBLOCKREF::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "REUSEBLOCKREF" ) ); ReuseBlockID = GetXmlAttributeIDString( aNode, 0 ); ItemReference = GetXmlAttributeIDString( aNode, 1 ); CheckNoChildNodes( aNode ); } void CADSTAR_ARCHIVE_PARSER::GROUP::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "GROUP" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "FIX" ) ) Fixed = true; else if( cNodeName == wxT( "TRANSFER" ) ) Transfer = true; else if( cNodeName == wxT( "GROUPREF" ) ) GroupID = GetXmlAttributeIDString( cNode, 0 ); else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) ReuseBlockRef.Parse( cNode, aContext ); else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "GROUP" ) ); } } void CADSTAR_ARCHIVE_PARSER::FIGURE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "FIGURE" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); LineCodeID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); bool shapeIsInitialised = false; // Stop more than one Shape Object wxString location = wxString::Format( "Figure %s", ID ); if( !cNode ) THROW_MISSING_NODE_IO_ERROR( wxT( "Shape" ), location ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( !shapeIsInitialised && Shape.IsShape( cNode ) ) { Shape.Parse( cNode, aContext ); shapeIsInitialised = true; } else if( cNodeName == wxT( "SWAPRULE" ) ) { SwapRule = ParseSwapRule( cNode ); } else if( cNodeName == wxT( "FIX" ) ) { Fixed = true; } else if( cNodeName == wxT( "GROUPREF" ) ) { GroupID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) { ReuseBlockRef.Parse( cNode, aContext ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attr; attr.Parse( cNode, aContext ); AttributeValues.insert( std::make_pair( attr.AttributeID, attr ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, location ); } } } void CADSTAR_ARCHIVE_PARSER::TEXT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { Parse( aNode, aContext, true ); } void CADSTAR_ARCHIVE_PARSER::TEXT::Parse( XNODE* aNode, PARSER_CONTEXT* aContext, bool aParseFields ) { wxASSERT( aNode->GetName() == wxT( "TEXT" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Text = GetXmlAttributeIDString( aNode, 1 ); if( aParseFields ) Text = ParseTextFields( Text, aContext ); TextCodeID = GetXmlAttributeIDString( aNode, 2 ); LayerID = GetXmlAttributeIDString( aNode, 3 ); XNODE* cNode = aNode->GetChildren(); if( !cNode ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), wxT( "TEXT" ) ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "PT" ) ) Position.Parse( cNode, aContext ); else if( cNodeName == wxT( "ORIENT" ) ) OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); else if( cNodeName == wxT( "MIRROR" ) ) Mirror = true; else if( cNodeName == wxT( "FIX" ) ) Fixed = true; else if( cNodeName == wxT( "SWAPRULE" ) ) SwapRule = ParseSwapRule( cNode ); else if( cNodeName == wxT( "ALIGN" ) ) Alignment = ParseAlignment( cNode ); else if( cNodeName == wxT( "JUSTIFICATION" ) ) Justification = ParseJustification( cNode ); else if( cNodeName == wxT( "GROUPREF" ) ) GroupID = GetXmlAttributeIDString( cNode, 0 ); else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) ReuseBlockRef.Parse( cNode, aContext ); else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "TEXT" ) ); } } void CADSTAR_ARCHIVE_PARSER::SYMDEF::ParseIdentifiers( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "SYMDEF" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); ReferenceName = GetXmlAttributeIDString( aNode, 1 ); Alternate = GetXmlAttributeIDString( aNode, 2 ); } bool CADSTAR_ARCHIVE_PARSER::SYMDEF::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString cNodeName = aChildNode->GetName(); if( cNodeName == wxT( "PT" ) ) { Origin.Parse( aChildNode, aContext ); } else if( cNodeName == wxT( "STUB" ) ) { Stub = true; } else if( cNodeName == wxT( "VERSION" ) ) { Version = GetXmlAttributeIDLong( aChildNode, 0 ); } else if( cNodeName == wxT( "FIGURE" ) ) { FIGURE figure; figure.Parse( aChildNode, aContext ); Figures.insert( std::make_pair( figure.ID, figure ) ); } else if( cNodeName == wxT( "TEXT" ) ) { TEXT txt; txt.Parse( aChildNode, aContext ); Texts.insert( std::make_pair( txt.ID, txt ) ); } else if( cNodeName == wxT( "TEXTLOC" ) ) { TEXT_LOCATION textloc; textloc.Parse( aChildNode, aContext ); TextLocations.insert( std::make_pair( textloc.AttributeID, textloc ) ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attrVal; attrVal.Parse( aChildNode, aContext ); AttributeValues.insert( std::make_pair( attrVal.AttributeID, attrVal ) ); } else { return false; } return true; } void CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::GATE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "GATEDEFINITION" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); Alternate = GetXmlAttributeIDString( aNode, 2 ); PinCount = GetXmlAttributeIDLong( aNode, 3 ); CheckNoChildNodes( aNode ); } CADSTAR_ARCHIVE_PARSER::PART::PIN_TYPE CADSTAR_ARCHIVE_PARSER::PART::GetPinType( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "PINTYPE" ) ); wxString pinTypeStr = GetXmlAttributeIDString( aNode, 0 ); std::map pinTypeMap = { { wxT( "INPUT" ), PIN_TYPE::INPUT }, { wxT( "OUTPUT_OR" ), PIN_TYPE::OUTPUT_OR }, { wxT( "OUTPUT_NOT_OR" ), PIN_TYPE::OUTPUT_NOT_OR }, { wxT( "OUTPUT_NOT_NORM_OR" ), PIN_TYPE::OUTPUT_NOT_NORM_OR }, { wxT( "POWER" ), PIN_TYPE::POWER }, { wxT( "GROUND" ), PIN_TYPE::GROUND }, { wxT( "TRISTATE_BIDIR" ), PIN_TYPE::TRISTATE_BIDIR }, { wxT( "TRISTATE_INPUT" ), PIN_TYPE::TRISTATE_INPUT }, { wxT( "TRISTATE_DRIVER" ), PIN_TYPE::TRISTATE_DRIVER } }; if( pinTypeMap.find( pinTypeStr ) == pinTypeMap.end() ) THROW_UNKNOWN_PARAMETER_IO_ERROR( pinTypeStr, aNode->GetName() ); return pinTypeMap[pinTypeStr]; } void CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::PIN::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PARTDEFINITIONPIN" ) ); ID = GetXmlAttributeIDLong( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "PINNAME" ) ) { Name = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "PINLABEL" ) ) { Label = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "PINSIGNAL" ) ) { Signal = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "PINTERM" ) ) { TerminalGate = GetXmlAttributeIDString( cNode, 0 ); TerminalPin = GetXmlAttributeIDLong( cNode, 1 ); } else if( cNodeName == wxT( "PINTYPE" ) ) { Type = GetPinType( cNode ); } else if( cNodeName == wxT( "PINLOAD" ) ) { Load = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "PINPOSITION" ) ) { Position = (POSITION) GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "PINIDENTIFIER" ) ) { Identifier = GetXmlAttributeIDString( cNode, 0 ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::PART::PART_PIN::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PARTPIN" ) ); ID = GetXmlAttributeIDLong( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "PINNAME" ) ) Name = GetXmlAttributeIDString( cNode, 0 ); else if( cNodeName == wxT( "PINTYPE" ) ) Type = GetPinType( cNode ); else if( cNodeName == wxT( "PINIDENTIFIER" ) ) Identifier = GetXmlAttributeIDString( cNode, 0 ); else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } void CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::PIN_EQUIVALENCE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PINEQUIVALENCE" ) ); wxXmlAttribute* xmlAttribute = aNode->GetAttributes(); for( ; xmlAttribute; xmlAttribute = xmlAttribute->GetNext() ) { if( !IsValidAttribute( xmlAttribute ) ) continue; long pinId; if( !xmlAttribute->GetValue().ToLong( &pinId ) ) THROW_UNKNOWN_PARAMETER_IO_ERROR( xmlAttribute->GetValue(), aNode->GetName() ); PinIDs.push_back( (PART_DEFINITION_PIN_ID) pinId ); } CheckNoChildNodes( aNode ); } void CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::SWAP_GATE::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "SWAPGATE" ) ); wxXmlAttribute* xmlAttribute = aNode->GetAttributes(); for( ; xmlAttribute; xmlAttribute = xmlAttribute->GetNext() ) { if( !IsValidAttribute( xmlAttribute ) ) continue; long pinId; if( !xmlAttribute->GetValue().ToLong( &pinId ) ) THROW_UNKNOWN_PARAMETER_IO_ERROR( xmlAttribute->GetValue(), aNode->GetName() ); PinIDs.push_back( (PART_DEFINITION_PIN_ID) pinId ); } CheckNoChildNodes( aNode ); } void CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::SWAP_GROUP::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "SWAPGROUP" ) ); GateName = GetXmlAttributeIDString( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "EXTERNAL" ) ) { External = true; } else if( cNodeName == wxT( "SWAPGATE" ) ) { SWAP_GATE swapGate; swapGate.Parse( cNode, aContext ); SwapGates.push_back( swapGate ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::PART::DEFINITION::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PARTDEFINITION" ) ); Name = GetXmlAttributeIDString( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "HIDEPINNAMES" ) ) { HidePinNames = true; } else if( cNodeName == wxT( "MAXPIN" ) ) { MaxPinCount = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "GATEDEFINITION" ) ) { GATE gate; gate.Parse( cNode, aContext ); GateSymbols.insert( std::make_pair( gate.ID, gate ) ); } else if( cNodeName == wxT( "PARTDEFINITIONPIN" ) ) { PIN pin; pin.Parse( cNode, aContext ); Pins.insert( std::make_pair( pin.ID, pin ) ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attr; attr.Parse( cNode, aContext ); AttributeValues.insert( std::make_pair( attr.AttributeID, attr ) ); } else if( cNodeName == wxT( "PINEQUIVALENCE" ) ) { PIN_EQUIVALENCE pinEq; pinEq.Parse( cNode, aContext ); PinEquivalences.push_back( pinEq ); } else if( cNodeName == wxT( "SWAPGROUP" ) ) { SWAP_GROUP swapGroup; swapGroup.Parse( cNode, aContext ); SwapGroups.push_back( swapGroup ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::PART::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PART" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "VERSION" ) ) { Version = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "HIDEPINNAMES" ) ) { HidePinNames = true; } else if( cNodeName == wxT( "PARTDEFINITION" ) ) { Definition.Parse( cNode, aContext ); } else if( cNodeName == wxT( "PARTPIN" ) ) { PART_PIN pin; pin.Parse( cNode, aContext ); PartPins.insert( std::make_pair( pin.ID, pin ) ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attr; attr.Parse( cNode, aContext ); AttributeValues.insert( std::make_pair( attr.AttributeID, attr ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::PARTS::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PARTS" ) ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "PART" ) ) { PART part; part.Parse( cNode, aContext ); PartDefinitions.insert( std::make_pair( part.ID, part ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } aContext->CheckPointCallback(); } } void CADSTAR_ARCHIVE_PARSER::NET::JUNCTION::ParseIdentifiers( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "JPT" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); LayerID = GetXmlAttributeIDString( aNode, 1 ); } bool CADSTAR_ARCHIVE_PARSER::NET::JUNCTION::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString cNodeName = aChildNode->GetName(); if( cNodeName == wxT( "PT" ) ) Location.Parse( aChildNode, aContext ); else if( cNodeName == wxT( "FIX" ) ) Fixed = true; else if( cNodeName == wxT( "GROUPREF" ) ) GroupID = GetXmlAttributeIDString( aChildNode, 0 ); else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) ReuseBlockRef.Parse( aChildNode, aContext ); else return false; return true; } void CADSTAR_ARCHIVE_PARSER::NET::JUNCTION::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { ParseIdentifiers( aNode, aContext ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( ParseSubNode( cNode, aContext ) ) continue; else THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } void CADSTAR_ARCHIVE_PARSER::NET::CONNECTION::ParseIdentifiers( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "CONN" ) ); StartNode = GetXmlAttributeIDString( aNode, 0 ); EndNode = GetXmlAttributeIDString( aNode, 1 ); RouteCodeID = GetXmlAttributeIDString( aNode, 2 ); } bool CADSTAR_ARCHIVE_PARSER::NET::CONNECTION::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString cNodeName = aChildNode->GetName(); if( cNodeName == wxT( "FIX" ) ) { Fixed = true; } else if( cNodeName == wxT( "HIDDEN" ) ) { Hidden = true; } else if( cNodeName == wxT( "GROUPREF" ) ) { GroupID = GetXmlAttributeIDString( aChildNode, 0 ); } else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) { ReuseBlockRef.Parse( aChildNode, aContext ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attrVal; attrVal.Parse( aChildNode, aContext ); AttributeValues.insert( std::make_pair( attrVal.AttributeID, attrVal ) ); } else { return false; } return true; } void CADSTAR_ARCHIVE_PARSER::NET::ParseIdentifiers( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "NET" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); } bool CADSTAR_ARCHIVE_PARSER::NET::ParseSubNode( XNODE* aChildNode, PARSER_CONTEXT* aContext ) { wxString cNodeName = aChildNode->GetName(); if( cNodeName == wxT( "NETCODE" ) ) { RouteCodeID = GetXmlAttributeIDString( aChildNode, 0 ); } else if( cNodeName == wxT( "SIGNAME" ) ) { Name = GetXmlAttributeIDString( aChildNode, 0 ); } else if( cNodeName == wxT( "SIGNUM" ) ) { SignalNum = GetXmlAttributeIDLong( aChildNode, 0 ); } else if( cNodeName == wxT( "HIGHLIT" ) ) { Highlight = true; } else if( cNodeName == wxT( "JPT" ) ) { JUNCTION jpt; jpt.Parse( aChildNode, aContext ); Junctions.insert( std::make_pair( jpt.ID, jpt ) ); } else if( cNodeName == wxT( "NETCLASSREF" ) ) { NetClassID = GetXmlAttributeIDString( aChildNode, 0 ); } else if( cNodeName == wxT( "SPACINGCLASS" ) ) { SpacingClassID = GetXmlAttributeIDString( aChildNode, 0 ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attrVal; attrVal.Parse( aChildNode, aContext ); AttributeValues.insert( std::make_pair( attrVal.AttributeID, attrVal ) ); } else { return false; } return true; } void CADSTAR_ARCHIVE_PARSER::DOCUMENTATION_SYMBOL::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "DOCSYMBOL" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); SymdefID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); bool originParsed = false; for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( !originParsed && cNodeName == wxT( "PT" ) ) { Origin.Parse( cNode, aContext ); originParsed = true; } else if( cNodeName == wxT( "GROUPREF" ) ) { GroupID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) { ReuseBlockRef.Parse( cNode, aContext ); } else if( cNodeName == wxT( "FIX" ) ) { Fixed = true; } else if( cNodeName == wxT( "MIRROR" ) ) { Mirror = true; } else if( cNodeName == wxT( "READABILITY" ) ) { Readability = ParseReadability( cNode ); } else if( cNodeName == wxT( "ORIENT" ) ) { OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attr; attr.Parse( cNode, aContext ); AttributeValues.insert( std::make_pair( attr.AttributeID, attr ) ); } else if( cNodeName == wxT( "SCALE" ) ) { ScaleRatioNumerator = GetXmlAttributeIDLong( cNode, 0 ); ScaleRatioDenominator = GetXmlAttributeIDLong( cNode, 1 ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } if( !originParsed ) THROW_MISSING_PARAMETER_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_ARCHIVE_PARSER::DFLTSETTINGS::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "DFLTSETTINGS" ) ); Color = GetXmlAttributeIDString( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "INVISIBLE" ) ) { IsVisible = false; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::ATTRCOL::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ATTRCOL" ) ); AttributeID = GetXmlAttributeIDString( aNode, 0 ); Color = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "INVISIBLE" ) ) { IsVisible = false; } else if( cNodeName == wxT( "NOTPICKABLE" ) ) { IsPickable = false; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::ATTRCOLORS::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "ATTRCOLORS" ) ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "DFLTSETTINGS" ) ) { DefaultSettings.Parse( cNode, aContext ); } else if( cNodeName == wxT( "ATTRCOL" ) ) { ATTRCOL attrcol; attrcol.Parse( cNode, aContext ); AttributeColors.insert( { attrcol.AttributeID, attrcol } ); } else if( cNodeName == wxT( "INVISIBLE" ) ) { IsVisible = false; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::PARTNAMECOL::Parse( XNODE* aNode, PARSER_CONTEXT* aContext ) { wxASSERT( aNode->GetName() == wxT( "PARTNAMECOL" ) ); Color = GetXmlAttributeIDString( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "INVISIBLE" ) ) { IsVisible = false; } else if( cNodeName == wxT( "NOTPICKABLE" ) ) { IsPickable = false; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_ARCHIVE_PARSER::InsertAttributeAtEnd( XNODE* aNode, wxString aValue ) { wxString result; int numAttributes = 0; if( aNode->GetAttribute( wxT( "numAttributes" ), &result ) ) { numAttributes = wxAtoi( result ); aNode->DeleteAttribute( wxT( "numAttributes" ) ); ++numAttributes; } aNode->AddAttribute( wxT( "numAttributes" ), wxString::Format( wxT( "%i" ), numAttributes ) ); wxString paramName = wxT( "attr" ); paramName << numAttributes; aNode->AddAttribute( paramName, aValue ); } XNODE* CADSTAR_ARCHIVE_PARSER::LoadArchiveFile( const wxString& aFileName, const wxString& aFileTypeIdentifier, PROGRESS_REPORTER* aProgressReporter ) { KEYWORD emptyKeywords[1] = {}; XNODE * iNode = nullptr, *cNode = nullptr; int tok; bool cadstarFileCheckDone = false; wxString str; wxCSConv win1252( wxT( "windows-1252" ) ); wxMBConv* conv = &win1252; // Initial testing suggests file encoding to be Windows-1252 // More samples required. // Open the file and get the file size FILE* fp = wxFopen( aFileName, wxT( "rt" ) ); if( !fp ) THROW_IO_ERROR( wxString::Format( _( "Cannot open file '%s'" ), aFileName ) ); fseek( fp, 0L, SEEK_END ); long fileSize = ftell( fp ); rewind( fp ); DSNLEXER lexer( emptyKeywords, 0, nullptr, fp, aFileName ); auto currentProgress = [&]() -> double { return static_cast( ftell( fp ) ) / fileSize; }; double previousReportedProgress = -1.0; while( ( tok = lexer.NextTok() ) != DSN_EOF ) { if( aProgressReporter && ( currentProgress() - previousReportedProgress ) > 0.01 ) { if( !aProgressReporter->KeepRefreshing() ) THROW_IO_ERROR( _( "File import cancelled by user." ) ); aProgressReporter->SetCurrentProgress( currentProgress() ); previousReportedProgress = currentProgress(); } if( tok == DSN_RIGHT ) { cNode = iNode; if( cNode ) { iNode = cNode->GetParent(); } else { //too many closing brackets THROW_IO_ERROR( _( "The selected file is not valid or might be corrupt!" ) ); } } else if( tok == DSN_LEFT ) { tok = lexer.NextTok(); str = wxString( lexer.CurText(), *conv ); cNode = new XNODE( wxXML_ELEMENT_NODE, str ); if( iNode ) { //we will add it as attribute as well as child node InsertAttributeAtEnd( iNode, str ); iNode->AddChild( cNode ); } else if( !cadstarFileCheckDone ) { if( cNode->GetName() != aFileTypeIdentifier ) THROW_IO_ERROR( _( "The selected file is not valid or might be corrupt!" ) ); cadstarFileCheckDone = true; } iNode = cNode; } else if( iNode ) { str = wxString( lexer.CurText(), *conv ); //Insert even if string is empty InsertAttributeAtEnd( iNode, str ); } else { //not enough closing brackets THROW_IO_ERROR( _( "The selected file is not valid or might be corrupt!" ) ); } } // Not enough closing brackets if( iNode != nullptr ) THROW_IO_ERROR( _( "The selected file is not valid or might be corrupt!" ) ); // Throw if no data was parsed if( cNode ) return cNode; else THROW_IO_ERROR( _( "The selected file is not valid or might be corrupt!" ) ); return nullptr; } bool CADSTAR_ARCHIVE_PARSER::IsValidAttribute( wxXmlAttribute* aAttribute ) { return aAttribute->GetName() != wxT( "numAttributes" ); } wxString CADSTAR_ARCHIVE_PARSER::GetXmlAttributeIDString( XNODE* aNode, unsigned int aID, bool aIsRequired ) { wxString attrName, retVal; attrName = "attr"; attrName << aID; if( !aNode->GetAttribute( attrName, &retVal ) ) { if( aIsRequired ) THROW_MISSING_PARAMETER_IO_ERROR( std::to_string( aID ), aNode->GetName() ); else return wxEmptyString; } return retVal; } long CADSTAR_ARCHIVE_PARSER::GetXmlAttributeIDLong( XNODE* aNode, unsigned int aID, bool aIsRequired ) { long retVal; bool success = GetXmlAttributeIDString( aNode, aID, aIsRequired ).ToLong( &retVal ); if( !success ) { if( aIsRequired ) THROW_PARSING_IO_ERROR( std::to_string( aID ), aNode->GetName() ); else return UNDEFINED_VALUE; } return retVal; } void CADSTAR_ARCHIVE_PARSER::CheckNoChildNodes( XNODE* aNode ) { if( aNode && aNode->GetChildren() ) THROW_UNKNOWN_NODE_IO_ERROR( aNode->GetChildren()->GetName(), aNode->GetName() ); } void CADSTAR_ARCHIVE_PARSER::CheckNoNextNodes( XNODE* aNode ) { if( aNode && aNode->GetNext() ) THROW_UNKNOWN_NODE_IO_ERROR( aNode->GetNext()->GetName(), aNode->GetParent()->GetName() ); } void CADSTAR_ARCHIVE_PARSER::ParseChildEValue( XNODE* aNode, PARSER_CONTEXT* aContext, EVALUE& aValueToParse ) { if( aNode->GetChildren()->GetName() == wxT( "E" ) ) aValueToParse.Parse( aNode->GetChildren(), aContext ); else THROW_UNKNOWN_NODE_IO_ERROR( aNode->GetChildren()->GetName(), aNode->GetName() ); } std::vector CADSTAR_ARCHIVE_PARSER::ParseAllChildPoints( XNODE* aNode, PARSER_CONTEXT* aContext, bool aTestAllChildNodes, int aExpectedNumPoints ) { std::vector retVal; XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "PT" ) ) { POINT pt; //TODO try.. catch + throw again with more detailed error information pt.Parse( cNode, aContext ); retVal.push_back( pt ); } else if( aTestAllChildNodes ) { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } if( aExpectedNumPoints != UNDEFINED_VALUE && retVal.size() != static_cast( aExpectedNumPoints ) ) { THROW_IO_ERROR( wxString::Format( _( "Unexpected number of points in '%s'. Found %d but expected %d." ), aNode->GetName(), retVal.size(), aExpectedNumPoints ) ); } return retVal; } std::vector CADSTAR_ARCHIVE_PARSER::ParseAllChildVertices( XNODE* aNode, PARSER_CONTEXT* aContext, bool aTestAllChildNodes ) { std::vector retVal; XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( VERTEX::IsVertex( cNode ) ) { VERTEX vertex; //TODO try.. catch + throw again with more detailed error information vertex.Parse( cNode, aContext ); retVal.push_back( vertex ); } else if( aTestAllChildNodes ) { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } return retVal; } std::vector CADSTAR_ARCHIVE_PARSER::ParseAllChildCutouts( XNODE* aNode, PARSER_CONTEXT* aContext, bool aTestAllChildNodes ) { std::vector retVal; XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "CUTOUT" ) ) { CUTOUT cutout; //TODO try.. catch + throw again with more detailed error information cutout.Parse( cNode, aContext ); retVal.push_back( cutout ); } else if( aTestAllChildNodes ) { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } return retVal; } long CADSTAR_ARCHIVE_PARSER::GetNumberOfChildNodes( XNODE* aNode ) { XNODE* childNodes = aNode->GetChildren(); long retval = 0; for( ; childNodes; childNodes = childNodes->GetNext() ) retval++; return retval; } long CADSTAR_ARCHIVE_PARSER::GetNumberOfStepsForReporting( XNODE* aRootNode, std::vector aSubNodeChildrenToCount ) { XNODE* level1Node = aRootNode->GetChildren(); long retval = 0; for( ; level1Node; level1Node = level1Node->GetNext() ) { for( wxString childNodeName : aSubNodeChildrenToCount ) { if( level1Node->GetName() == childNodeName ) retval += GetNumberOfChildNodes( level1Node ); } retval++; } return retval; } wxString CADSTAR_ARCHIVE_PARSER::HandleTextOverbar( wxString aCadstarString ) { wxString escapedText = aCadstarString; escapedText.Replace( wxT( "'" ), wxT( "~" ) ); return ConvertToNewOverbarNotation( escapedText ); } void CADSTAR_ARCHIVE_PARSER::FixTextPositionNoAlignment( EDA_TEXT* aKiCadTextItem ) { if( !aKiCadTextItem->GetText().IsEmpty() ) { VECTOR2I positionOffset( 0, aKiCadTextItem->GetInterline() ); RotatePoint( positionOffset, aKiCadTextItem->GetTextAngle() ); EDA_ITEM* textEdaItem = dynamic_cast( aKiCadTextItem ); if( textEdaItem && ( textEdaItem->Type() == LIB_TEXT_T || textEdaItem->Type() == LIB_FIELD_T ) ) { // Y coordinate increases upwards in the symbol editor positionOffset.y = -positionOffset.y; } //Count num of additional lines wxString text = aKiCadTextItem->GetText(); int numExtraLines = text.Replace( "\n", "\n" ); numExtraLines -= text.at( text.size() - 1 ) == '\n'; // Ignore new line character at end positionOffset.x *= numExtraLines; positionOffset.y *= numExtraLines; aKiCadTextItem->Offset( positionOffset ); } } void CADSTAR_ARCHIVE_PARSER::checkPoint() { if( m_progressReporter ) { m_progressReporter->AdvanceProgress(); if( !m_progressReporter->KeepRefreshing() ) THROW_IO_ERROR( _( "File import cancelled by user." ) ); } }