/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020 Thomas Pointhuber * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include "altium_parser_pcb.h" #include "plugins/altium/altium_parser.h" ALTIUM_LAYER altium_layer_from_name( const wxString& aName ) { static const std::unordered_map hash_map = { { "TOP", ALTIUM_LAYER::TOP_LAYER }, { "MID1", ALTIUM_LAYER::MID_LAYER_1 }, { "MID2", ALTIUM_LAYER::MID_LAYER_2 }, { "MID3", ALTIUM_LAYER::MID_LAYER_3 }, { "MID4", ALTIUM_LAYER::MID_LAYER_4 }, { "MID5", ALTIUM_LAYER::MID_LAYER_5 }, { "MID6", ALTIUM_LAYER::MID_LAYER_6 }, { "MID7", ALTIUM_LAYER::MID_LAYER_7 }, { "MID8", ALTIUM_LAYER::MID_LAYER_8 }, { "MID9", ALTIUM_LAYER::MID_LAYER_9 }, { "MID10", ALTIUM_LAYER::MID_LAYER_10 }, { "MID11", ALTIUM_LAYER::MID_LAYER_11 }, { "MID12", ALTIUM_LAYER::MID_LAYER_12 }, { "MID13", ALTIUM_LAYER::MID_LAYER_13 }, { "MID14", ALTIUM_LAYER::MID_LAYER_14 }, { "MID15", ALTIUM_LAYER::MID_LAYER_15 }, { "MID16", ALTIUM_LAYER::MID_LAYER_16 }, { "MID17", ALTIUM_LAYER::MID_LAYER_17 }, { "MID18", ALTIUM_LAYER::MID_LAYER_18 }, { "MID19", ALTIUM_LAYER::MID_LAYER_19 }, { "MID20", ALTIUM_LAYER::MID_LAYER_20 }, { "MID21", ALTIUM_LAYER::MID_LAYER_21 }, { "MID22", ALTIUM_LAYER::MID_LAYER_22 }, { "MID23", ALTIUM_LAYER::MID_LAYER_23 }, { "MID24", ALTIUM_LAYER::MID_LAYER_24 }, { "MID25", ALTIUM_LAYER::MID_LAYER_25 }, { "MID26", ALTIUM_LAYER::MID_LAYER_26 }, { "MID27", ALTIUM_LAYER::MID_LAYER_27 }, { "MID28", ALTIUM_LAYER::MID_LAYER_28 }, { "MID29", ALTIUM_LAYER::MID_LAYER_29 }, { "MID30", ALTIUM_LAYER::MID_LAYER_30 }, { "BOTTOM", ALTIUM_LAYER::BOTTOM_LAYER }, { "TOPOVERLAY", ALTIUM_LAYER::TOP_OVERLAY }, { "BOTTOMOVERLAY", ALTIUM_LAYER::BOTTOM_OVERLAY }, { "TOPPASTE", ALTIUM_LAYER::TOP_PASTE }, { "BOTTOMPASTE", ALTIUM_LAYER::BOTTOM_PASTE }, { "TOPSOLDER", ALTIUM_LAYER::TOP_SOLDER }, { "BOTTOMSOLDER", ALTIUM_LAYER::BOTTOM_SOLDER }, { "PLANE1", ALTIUM_LAYER::INTERNAL_PLANE_1 }, { "PLANE2", ALTIUM_LAYER::INTERNAL_PLANE_2 }, { "PLANE3", ALTIUM_LAYER::INTERNAL_PLANE_3 }, { "PLANE4", ALTIUM_LAYER::INTERNAL_PLANE_4 }, { "PLANE5", ALTIUM_LAYER::INTERNAL_PLANE_5 }, { "PLANE6", ALTIUM_LAYER::INTERNAL_PLANE_6 }, { "PLANE7", ALTIUM_LAYER::INTERNAL_PLANE_7 }, { "PLANE8", ALTIUM_LAYER::INTERNAL_PLANE_8 }, { "PLANE9", ALTIUM_LAYER::INTERNAL_PLANE_9 }, { "PLANE10", ALTIUM_LAYER::INTERNAL_PLANE_10 }, { "PLANE11", ALTIUM_LAYER::INTERNAL_PLANE_11 }, { "PLANE12", ALTIUM_LAYER::INTERNAL_PLANE_12 }, { "PLANE13", ALTIUM_LAYER::INTERNAL_PLANE_13 }, { "PLANE14", ALTIUM_LAYER::INTERNAL_PLANE_14 }, { "PLANE15", ALTIUM_LAYER::INTERNAL_PLANE_15 }, { "PLANE16", ALTIUM_LAYER::INTERNAL_PLANE_16 }, { "DRILLGUIDE", ALTIUM_LAYER::DRILL_GUIDE }, { "KEEPOUT", ALTIUM_LAYER::KEEP_OUT_LAYER }, { "MECHANICAL1", ALTIUM_LAYER::MECHANICAL_1 }, { "MECHANICAL2", ALTIUM_LAYER::MECHANICAL_2 }, { "MECHANICAL3", ALTIUM_LAYER::MECHANICAL_3 }, { "MECHANICAL4", ALTIUM_LAYER::MECHANICAL_4 }, { "MECHANICAL5", ALTIUM_LAYER::MECHANICAL_5 }, { "MECHANICAL6", ALTIUM_LAYER::MECHANICAL_6 }, { "MECHANICAL7", ALTIUM_LAYER::MECHANICAL_7 }, { "MECHANICAL8", ALTIUM_LAYER::MECHANICAL_8 }, { "MECHANICAL9", ALTIUM_LAYER::MECHANICAL_9 }, { "MECHANICAL10", ALTIUM_LAYER::MECHANICAL_10 }, { "MECHANICAL11", ALTIUM_LAYER::MECHANICAL_11 }, { "MECHANICAL12", ALTIUM_LAYER::MECHANICAL_12 }, { "MECHANICAL13", ALTIUM_LAYER::MECHANICAL_13 }, { "MECHANICAL14", ALTIUM_LAYER::MECHANICAL_14 }, { "MECHANICAL15", ALTIUM_LAYER::MECHANICAL_15 }, { "MECHANICAL16", ALTIUM_LAYER::MECHANICAL_16 }, { "DRILLDRAWING", ALTIUM_LAYER::DRILL_DRAWING }, { "MULTILAYER", ALTIUM_LAYER::MULTI_LAYER }, // FIXME: the following mapping is just a guess { "CONNECTIONS", ALTIUM_LAYER::CONNECTIONS }, { "BACKGROUND", ALTIUM_LAYER::BACKGROUND }, { "DRCERRORMARKERS", ALTIUM_LAYER::DRC_ERROR_MARKERS }, { "SELECTIONS", ALTIUM_LAYER::SELECTIONS }, { "VISIBLEGRID1", ALTIUM_LAYER::VISIBLE_GRID_1 }, { "VISIBLEGRID2", ALTIUM_LAYER::VISIBLE_GRID_2 }, { "PADHOLES", ALTIUM_LAYER::PAD_HOLES }, { "VIAHOLES", ALTIUM_LAYER::VIA_HOLES }, }; auto it = hash_map.find( std::string( aName.c_str() ) ); if( it == hash_map.end() ) { wxLogError( _( "Unknown mapping of the Altium layer '%s'." ), aName ); return ALTIUM_LAYER::UNKNOWN; } else { return it->second; } } void altium_parse_polygons( std::map& aProps, std::vector& aVertices ) { for( size_t i = 0; i < std::numeric_limits::max(); i++ ) { const wxString si = std::to_string( i ); const wxString vxi = wxT( "VX" ) + si; const wxString vyi = wxT( "VY" ) + si; if( aProps.find( vxi ) == aProps.end() || aProps.find( vyi ) == aProps.end() ) break; // it doesn't seem like we know beforehand how many vertices are inside a polygon const bool isRound = ALTIUM_PARSER::ReadInt( aProps, wxT( "KIND" ) + si, 0 ) != 0; const int32_t radius = ALTIUM_PARSER::ReadKicadUnit( aProps, wxT( "R" ) + si, wxT( "0mil" ) ); const double sa = ALTIUM_PARSER::ReadDouble( aProps, wxT( "SA" ) + si, 0. ); const double ea = ALTIUM_PARSER::ReadDouble( aProps, wxT( "EA" ) + si, 0. ); const wxPoint vp = wxPoint( ALTIUM_PARSER::ReadKicadUnit( aProps, vxi, wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( aProps, vyi, wxT( "0mil" ) ) ); const wxPoint cp = wxPoint( ALTIUM_PARSER::ReadKicadUnit( aProps, wxT( "CX" ) + si, wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( aProps, wxT( "CY" ) + si, wxT( "0mil" ) ) ); aVertices.emplace_back( isRound, radius, sa, ea, vp, cp ); } } ABOARD6::ABOARD6( ALTIUM_PARSER& aReader ) { std::map props = aReader.ReadProperties(); if( props.empty() ) THROW_IO_ERROR( wxT( "Board6 stream has no props!" ) ); sheetpos = wxPoint( ALTIUM_PARSER::ReadKicadUnit( props, wxT( "SHEETX" ), wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( props, wxT( "SHEETY" ), wxT( "0mil" ) ) ); sheetsize = wxSize( ALTIUM_PARSER::ReadKicadUnit( props, wxT( "SHEETWIDTH" ), wxT( "0mil" ) ), ALTIUM_PARSER::ReadKicadUnit( props, wxT( "SHEETHEIGHT" ), wxT( "0mil" ) ) ); layercount = ALTIUM_PARSER::ReadInt( props, wxT( "LAYERSETSCOUNT" ), 1 ) + 1; for( size_t i = 1; i < std::numeric_limits::max(); i++ ) { const wxString layeri = wxT( "LAYER" ) + std::to_string( i ); const wxString layername = layeri + wxT( "NAME" ); auto layernameit = props.find( layername ); if( layernameit == props.end() ) break; // it doesn't seem like we know beforehand how many vertices are inside a polygon ABOARD6_LAYER_STACKUP l; l.name = ALTIUM_PARSER::ReadString( props, layername, wxEmptyString ); l.nextId = ALTIUM_PARSER::ReadInt( props, layeri + wxT( "NEXT" ), 0 ); l.prevId = ALTIUM_PARSER::ReadInt( props, layeri + wxT( "PREV" ), 0 ); l.copperthick = ALTIUM_PARSER::ReadKicadUnit( props, layeri + wxT( "COPTHICK" ), wxT( "1.4mil" ) ); l.dielectricconst = ALTIUM_PARSER::ReadDouble( props, layeri + wxT( "DIELCONST" ), 0. ); l.dielectricthick = ALTIUM_PARSER::ReadKicadUnit( props, layeri + wxT( "DIELHEIGHT" ), wxT( "60mil" ) ); l.dielectricmaterial = ALTIUM_PARSER::ReadString( props, layeri + wxT( "DIELMATERIAL" ), wxT( "FR-4" ) ); stackup.push_back( l ); } altium_parse_polygons( props, board_vertices ); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Board6 stream was not parsed correctly!" ) ); } ACLASS6::ACLASS6( ALTIUM_PARSER& aReader ) { std::map properties = aReader.ReadProperties(); if( properties.empty() ) THROW_IO_ERROR( wxT( "Classes6 stream has no properties!" ) ); name = ALTIUM_PARSER::ReadString( properties, wxT( "NAME" ), wxEmptyString ); uniqueid = ALTIUM_PARSER::ReadString( properties, wxT( "UNIQUEID" ), wxEmptyString ); kind = static_cast( ALTIUM_PARSER::ReadInt( properties, wxT( "KIND" ), -1 ) ); for( size_t i = 0; i < std::numeric_limits::max(); i++ ) { auto mit = properties.find( wxT( "M" ) + std::to_string( i ) ); if( mit == properties.end() ) break; // it doesn't seem like we know beforehand how many components are in the netclass names.push_back( mit->second ); } if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Classes6 stream was not parsed correctly" ) ); } ACOMPONENT6::ACOMPONENT6( ALTIUM_PARSER& aReader ) { std::map props = aReader.ReadProperties(); if( props.empty() ) THROW_IO_ERROR( wxT( "Components6 stream has no props" ) ); layer = altium_layer_from_name( ALTIUM_PARSER::ReadString( props, wxT( "LAYER" ), wxEmptyString ) ); position = wxPoint( ALTIUM_PARSER::ReadKicadUnit( props, wxT( "X" ), wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( props, wxT( "Y" ), wxT( "0mil" ) ) ); rotation = ALTIUM_PARSER::ReadDouble( props, wxT( "ROTATION" ), 0. ); locked = ALTIUM_PARSER::ReadBool( props, wxT( "LOCKED" ), false ); nameon = ALTIUM_PARSER::ReadBool( props, wxT( "NAMEON" ), true ); commenton = ALTIUM_PARSER::ReadBool( props, wxT( "COMMENTON" ), false ); sourcedesignator = ALTIUM_PARSER::ReadString( props, wxT( "SOURCEDESIGNATOR" ), wxEmptyString ); sourcefootprintlibrary = ALTIUM_PARSER::ReadString( props, wxT( "SOURCEFOOTPRINTLIBRARY" ), wxEmptyString ); pattern = ALTIUM_PARSER::ReadString( props, wxT( "PATTERN" ), wxEmptyString ); sourcecomponentlibrary = ALTIUM_PARSER::ReadString( props, wxT( "SOURCECOMPONENTLIBRARY" ), wxEmptyString ); sourcelibreference = ALTIUM_PARSER::ReadString( props, wxT( "SOURCELIBREFERENCE" ), wxEmptyString ); nameautoposition = static_cast( ALTIUM_PARSER::ReadInt( props, wxT( "NAMEAUTOPOSITION" ), 0 ) ); commentautoposition = static_cast( ALTIUM_PARSER::ReadInt( props, wxT( "COMMENTAUTOPOSITION" ), 0 ) ); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Components6 stream was not parsed correctly" ) ); } ADIMENSION6::ADIMENSION6( ALTIUM_PARSER& aReader ) { aReader.Skip( 2 ); std::map props = aReader.ReadProperties(); if( props.empty() ) THROW_IO_ERROR( wxT( "Dimensions6 stream has no props" ) ); layer = altium_layer_from_name( ALTIUM_PARSER::ReadString( props, wxT( "LAYER" ), wxEmptyString ) ); kind = static_cast( ALTIUM_PARSER::ReadInt( props, wxT( "DIMENSIONKIND" ), 0 ) ); textformat = ALTIUM_PARSER::ReadString( props, wxT( "TEXTFORMAT" ), wxEmptyString ); textprefix = ALTIUM_PARSER::ReadString( props, wxT( "TEXTPREFIX" ), wxEmptyString ); textsuffix = ALTIUM_PARSER::ReadString( props, wxT( "TEXTSUFFIX" ), wxEmptyString ); height = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "HEIGHT" ), wxT( "0mil" ) ); angle = ALTIUM_PARSER::ReadDouble( props, wxT( "ANGLE" ), 0. ); linewidth = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "LINEWIDTH" ), wxT( "10mil" ) ); textheight = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "TEXTHEIGHT" ), wxT( "10mil" ) ); textlinewidth = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "TEXTLINEWIDTH" ), wxT( "6mil" ) ); textprecision = ALTIUM_PARSER::ReadInt( props, wxT( "TEXTPRECISION" ), 2 ); textbold = ALTIUM_PARSER::ReadBool( props, wxT( "TEXTLINEWIDTH" ), false ); textitalic = ALTIUM_PARSER::ReadBool( props, wxT( "ITALIC" ), false ); textgap = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "TEXTGAP" ), wxT( "10mil" ) ); arrowsize = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "ARROWSIZE" ), wxT( "60mil" ) ); wxString text_position_raw = ALTIUM_PARSER::ReadString( props, wxT( "TEXTPOSITION" ), wxEmptyString ); xy1 = wxPoint( ALTIUM_PARSER::ReadKicadUnit( props, wxT( "X1" ), wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( props, wxT( "Y1" ), wxT( "0mil" ) ) ); int refcount = ALTIUM_PARSER::ReadInt( props, wxT( "REFERENCES_COUNT" ), 0 ); for( int i = 0; i < refcount; i++ ) { const std::string refi = "REFERENCE" + std::to_string( i ) + "POINT"; referencePoint.emplace_back( ALTIUM_PARSER::ReadKicadUnit( props, refi + wxT( "X" ), wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( props, refi + wxT( "Y" ), wxT( "0mil" ) ) ); } for( size_t i = 1; i < std::numeric_limits::max(); i++ ) { const std::string texti = "TEXT" + std::to_string( i ); const std::string textix = texti + "X"; const std::string textiy = texti + "Y"; if( props.find( textix ) == props.end() || props.find( textiy ) == props.end() ) break; // it doesn't seem like we know beforehand how many vertices are inside a polygon textPoint.emplace_back( ALTIUM_PARSER::ReadKicadUnit( props, textix, wxT( "0mil" ) ), -ALTIUM_PARSER::ReadKicadUnit( props, textiy, wxT( "0mil" ) ) ); } wxString dimensionunit = ALTIUM_PARSER::ReadString( props, wxT( "TEXTDIMENSIONUNIT" ), wxT( "Millimeters" ) ); if( dimensionunit == wxT( "Inches" ) ) textunit = ALTIUM_UNIT::INCHES; else if( dimensionunit == wxT( "Mils" ) ) textunit = ALTIUM_UNIT::MILS; else if( dimensionunit == wxT( "Millimeters" ) ) textunit = ALTIUM_UNIT::MILLIMETERS; else if( dimensionunit == wxT( "Centimeters" ) ) textunit = ALTIUM_UNIT::CENTIMETER; else textunit = ALTIUM_UNIT::UNKNOWN; if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Dimensions6 stream was not parsed correctly" ) ); } AMODEL::AMODEL( ALTIUM_PARSER& aReader ) { std::map properties = aReader.ReadProperties(); if( properties.empty() ) THROW_IO_ERROR( wxT( "Classes6 stream has no properties!" ) ); name = ALTIUM_PARSER::ReadString( properties, wxT( "NAME" ), wxEmptyString ); id = ALTIUM_PARSER::ReadString( properties, wxT( "ID" ), wxEmptyString ); isEmbedded = ALTIUM_PARSER::ReadBool( properties, wxT( "EMBED" ), false ); rotation.x = ALTIUM_PARSER::ReadDouble( properties, wxT( "ROTX" ), 0. ); rotation.y = ALTIUM_PARSER::ReadDouble( properties, wxT( "ROTY" ), 0. ); rotation.z = ALTIUM_PARSER::ReadDouble( properties, wxT( "ROTZ" ), 0. ); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Classes6 stream was not parsed correctly" ) ); } ANET6::ANET6( ALTIUM_PARSER& aReader ) { std::map properties = aReader.ReadProperties(); if( properties.empty() ) THROW_IO_ERROR( wxT( "Nets6 stream has no properties" ) ); name = ALTIUM_PARSER::ReadString( properties, wxT( "NAME" ), wxEmptyString ); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Nets6 stream was not parsed correctly" ) ); } APOLYGON6::APOLYGON6( ALTIUM_PARSER& aReader ) { std::map properties = aReader.ReadProperties(); if( properties.empty() ) THROW_IO_ERROR( wxT( "Polygons6 stream has no properties" ) ); layer = altium_layer_from_name( ALTIUM_PARSER::ReadString( properties, wxT( "LAYER" ), wxEmptyString ) ); net = ALTIUM_PARSER::ReadInt( properties, wxT( "NET" ), ALTIUM_NET_UNCONNECTED ); locked = ALTIUM_PARSER::ReadBool( properties, wxT( "LOCKED" ), false ); // TODO: kind gridsize = ALTIUM_PARSER::ReadKicadUnit( properties, wxT( "GRIDSIZE" ), wxT( "0mil" ) ); trackwidth = ALTIUM_PARSER::ReadKicadUnit( properties, wxT( "TRACKWIDTH" ), wxT( "0mil" ) ); minprimlength = ALTIUM_PARSER::ReadKicadUnit( properties, wxT( "MINPRIMLENGTH" ), wxT( "0mil" ) ); useoctagons = ALTIUM_PARSER::ReadBool( properties, wxT( "USEOCTAGONS" ), false ); pourindex = ALTIUM_PARSER::ReadInt( properties, wxT( "POURINDEX" ), 0 ); wxString hatchstyleraw = ALTIUM_PARSER::ReadString( properties, wxT( "HATCHSTYLE" ), wxEmptyString ); if( hatchstyleraw == wxT( "Solid" ) ) hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::SOLID; else if( hatchstyleraw == wxT( "45Degree" ) ) hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::DEGREE_45; else if( hatchstyleraw == wxT( "90Degree" ) ) hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::DEGREE_90; else if( hatchstyleraw == wxT( "Horizontal" ) ) hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::HORIZONTAL; else if( hatchstyleraw == wxT( "Vertical" ) ) hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::VERTICAL; else if( hatchstyleraw == wxT( "None" ) ) hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::NONE; else hatchstyle = ALTIUM_POLYGON_HATCHSTYLE::UNKNOWN; altium_parse_polygons( properties, vertices ); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Polygons6 stream was not parsed correctly" ) ); } ARULE6::ARULE6( ALTIUM_PARSER& aReader ) { // Initialize all variables and make Coverity happy clearanceGap = 0; planeclearanceClearance = 0; polygonconnectAirgapwidth = 0; polygonconnectReliefconductorwidth = 0; polygonconnectReliefentries = 0; polygonconnectStyle = ALTIUM_CONNECT_STYLE::UNKNOWN; aReader.Skip( 2 ); std::map props = aReader.ReadProperties(); if( props.empty() ) THROW_IO_ERROR( wxT( "Rules6 stream has no props" ) ); name = ALTIUM_PARSER::ReadString( props, wxT( "NAME" ), wxEmptyString ); priority = ALTIUM_PARSER::ReadInt( props, wxT( "PRIORITY" ), 1 ); scope1expr = ALTIUM_PARSER::ReadString( props, wxT( "SCOPE1EXPRESSION" ), wxEmptyString ); scope2expr = ALTIUM_PARSER::ReadString( props, wxT( "SCOPE2EXPRESSION" ), wxEmptyString ); wxString rulekind = ALTIUM_PARSER::ReadString( props, wxT( "RULEKIND" ), wxEmptyString ); if( rulekind == wxT( "Clearance" ) ) { kind = ALTIUM_RULE_KIND::CLEARANCE; clearanceGap = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "GAP" ), wxT( "10mil" ) ); } else if( rulekind == wxT( "DiffPairsRouting" ) ) { kind = ALTIUM_RULE_KIND::DIFF_PAIR_ROUTINGS; } else if( rulekind == wxT( "Height" ) ) { kind = ALTIUM_RULE_KIND::HEIGHT; } else if( rulekind == wxT( "HoleSize" ) ) { kind = ALTIUM_RULE_KIND::HOLE_SIZE; } else if( rulekind == wxT( "HoleToHoleClearance" ) ) { kind = ALTIUM_RULE_KIND::HOLE_TO_HOLE_CLEARANCE; } else if( rulekind == wxT( "Width" ) ) { kind = ALTIUM_RULE_KIND::WIDTH; } else if( rulekind == wxT( "PasteMaskExpansion" ) ) { kind = ALTIUM_RULE_KIND::PASTE_MASK_EXPANSION; } else if( rulekind == wxT( "PlaneClearance" ) ) { kind = ALTIUM_RULE_KIND::PLANE_CLEARANCE; planeclearanceClearance = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "CLEARANCE" ), wxT( "10mil" ) ); } else if( rulekind == wxT( "PolygonConnect" ) ) { kind = ALTIUM_RULE_KIND::POLYGON_CONNECT; polygonconnectAirgapwidth = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "AIRGAPWIDTH" ), wxT( "10mil" ) ); polygonconnectReliefconductorwidth = ALTIUM_PARSER::ReadKicadUnit( props, wxT( "RELIEFCONDUCTORWIDTH" ), wxT( "10mil" ) ); polygonconnectReliefentries = ALTIUM_PARSER::ReadInt( props, wxT( "RELIEFENTRIES" ), 4 ); wxString style = ALTIUM_PARSER::ReadString( props, wxT( "CONNECTSTYLE" ), wxEmptyString ); if( style == wxT( "Direct" ) ) polygonconnectStyle = ALTIUM_CONNECT_STYLE::DIRECT; else if( style == wxT( "Relief" ) ) polygonconnectStyle = ALTIUM_CONNECT_STYLE::RELIEF; else if( style == wxT( "NoConnect" ) ) polygonconnectStyle = ALTIUM_CONNECT_STYLE::NONE; else polygonconnectStyle = ALTIUM_CONNECT_STYLE::UNKNOWN; } else { kind = ALTIUM_RULE_KIND::UNKNOWN; } if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Rules6 stream was not parsed correctly" ) ); } AARC6::AARC6( ALTIUM_PARSER& aReader ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::ARC ) { THROW_IO_ERROR( wxT( "Arcs6 stream has invalid recordtype" ) ); } // Subrecord 1 aReader.ReadAndSetSubrecordLength(); layer = static_cast( aReader.Read() ); uint8_t flags1 = aReader.Read(); is_locked = ( flags1 & 0x04 ) == 0; is_polygonoutline = ( flags1 & 0x02 ) != 0; uint8_t flags2 = aReader.Read(); is_keepout = flags2 == 2; net = aReader.Read(); subpolyindex = aReader.Read(); component = aReader.Read(); aReader.Skip( 4 ); center = aReader.ReadWxPoint(); radius = aReader.ReadKicadUnit(); startangle = aReader.Read(); endangle = aReader.Read(); width = aReader.ReadKicadUnit(); aReader.SkipSubrecord(); if( aReader.HasParsingError() ) { THROW_IO_ERROR( wxT( "Arcs6 stream was not parsed correctly" ) ); } } ACOMPONENTBODY6::ACOMPONENTBODY6( ALTIUM_PARSER& aReader ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::MODEL ) THROW_IO_ERROR( wxT( "ComponentsBodies6 stream has invalid recordtype" ) ); aReader.ReadAndSetSubrecordLength(); aReader.Skip( 7 ); component = aReader.Read(); aReader.Skip( 9 ); std::map properties = aReader.ReadProperties(); if( properties.empty() ) THROW_IO_ERROR( wxT( "ComponentsBodies6 stream has no properties" ) ); modelName = ALTIUM_PARSER::ReadString( properties, wxT( "MODEL.NAME" ), wxEmptyString ); modelId = ALTIUM_PARSER::ReadString( properties, wxT( "MODELID" ), wxEmptyString ); modelIsEmbedded = ALTIUM_PARSER::ReadBool( properties, wxT( "MODEL.EMBED" ), false ); modelPosition.x = ALTIUM_PARSER::ReadKicadUnit( properties, wxT( "MODEL.2D.X" ), wxT( "0mil" ) ); modelPosition.y = -ALTIUM_PARSER::ReadKicadUnit( properties, wxT( "MODEL.2D.Y" ), wxT( "0mil" ) ); modelPosition.z = ALTIUM_PARSER::ReadKicadUnit( properties, wxT( "MODEL.3D.DZ" ), wxT( "0mil" ) ); modelRotation.x = ALTIUM_PARSER::ReadDouble( properties, wxT( "MODEL.3D.ROTX" ), 0. ); modelRotation.y = ALTIUM_PARSER::ReadDouble( properties, wxT( "MODEL.3D.ROTY" ), 0. ); modelRotation.z = ALTIUM_PARSER::ReadDouble( properties, wxT( "MODEL.3D.ROTZ" ), 0. ); rotation = ALTIUM_PARSER::ReadDouble( properties, wxT( "MODEL.2D.ROTATION" ), 0. ); bodyOpacity = ALTIUM_PARSER::ReadDouble( properties, wxT( "BODYOPACITY3D" ), 1. ); aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Components6 stream was not parsed correctly" ) ); } APAD6::APAD6( ALTIUM_PARSER& aReader ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::PAD ) THROW_IO_ERROR( wxT( "Pads6 stream has invalid recordtype" ) ); // Subrecord 1 size_t subrecord1 = aReader.ReadAndSetSubrecordLength(); if( subrecord1 == 0 ) THROW_IO_ERROR( wxT( "Pads6 stream has no subrecord1 data" ) ); name = aReader.ReadWxString(); if( aReader.GetRemainingSubrecordBytes() != 0 ) THROW_IO_ERROR( wxT( "Pads6 stream has invalid subrecord1 length" ) ); aReader.SkipSubrecord(); // Subrecord 2 aReader.ReadAndSetSubrecordLength(); aReader.SkipSubrecord(); // Subrecord 3 aReader.ReadAndSetSubrecordLength(); aReader.SkipSubrecord(); // Subrecord 4 aReader.ReadAndSetSubrecordLength(); aReader.SkipSubrecord(); // Subrecord 5 size_t subrecord5 = aReader.ReadAndSetSubrecordLength(); if( subrecord5 < 114 ) THROW_IO_ERROR( wxT( "Pads6 stream subrecord has length < 114, which is unexpected" ) ); layer = static_cast( aReader.Read() ); tolayer = ALTIUM_LAYER::UNKNOWN; fromlayer = ALTIUM_LAYER::UNKNOWN; uint8_t flags1 = aReader.Read(); is_test_fab_top = ( flags1 & 0x80 ) != 0; is_tent_bottom = ( flags1 & 0x40 ) != 0; is_tent_top = ( flags1 & 0x20 ) != 0; is_locked = ( flags1 & 0x04 ) == 0; uint8_t flags2 = aReader.Read(); is_test_fab_bottom = ( flags2 & 0x01 ) != 0; net = aReader.Read(); aReader.Skip( 2 ); component = aReader.Read(); aReader.Skip( 4 ); position = aReader.ReadWxPoint(); topsize = aReader.ReadWxSize(); midsize = aReader.ReadWxSize(); botsize = aReader.ReadWxSize(); holesize = aReader.ReadKicadUnit(); topshape = static_cast( aReader.Read() ); midshape = static_cast( aReader.Read() ); botshape = static_cast( aReader.Read() ); direction = aReader.Read(); plated = aReader.Read() != 0; aReader.Skip( 1 ); padmode = static_cast( aReader.Read() ); aReader.Skip( 23 ); pastemaskexpansionmanual = aReader.ReadKicadUnit(); soldermaskexpansionmanual = aReader.ReadKicadUnit(); aReader.Skip( 7 ); pastemaskexpansionmode = static_cast( aReader.Read() ); soldermaskexpansionmode = static_cast( aReader.Read() ); aReader.Skip( 3 ); holerotation = aReader.Read(); if( subrecord5 >= 120 ) { tolayer = static_cast( aReader.Read() ); aReader.Skip( 2 ); fromlayer = static_cast( aReader.Read() ); //aReader.skip( 2 ); } else if( subrecord5 == 171 ) { } aReader.SkipSubrecord(); // Subrecord 6 size_t subrecord6 = aReader.ReadAndSetSubrecordLength(); // Known lengths: 596, 628, 651 // 596 is the number of bytes read in this code-block if( subrecord6 >= 596 ) { // TODO: detect type from something else than the size? sizeAndShape = std::make_unique(); for( wxSize& size : sizeAndShape->inner_size ) size.x = aReader.ReadKicadUnitX(); for( wxSize& size : sizeAndShape->inner_size ) size.y = aReader.ReadKicadUnitY(); for( ALTIUM_PAD_SHAPE& shape : sizeAndShape->inner_shape ) shape = static_cast( aReader.Read() ); aReader.Skip( 1 ); sizeAndShape->holeshape = static_cast( aReader.Read() ); sizeAndShape->slotsize = aReader.ReadKicadUnit(); sizeAndShape->slotrotation = aReader.Read(); for( wxPoint& pt : sizeAndShape->holeoffset ) pt.x = aReader.ReadKicadUnitX(); for( wxPoint& pt : sizeAndShape->holeoffset ) pt.y = aReader.ReadKicadUnitY(); aReader.Skip( 1 ); for( ALTIUM_PAD_SHAPE_ALT& shape : sizeAndShape->alt_shape ) shape = static_cast( aReader.Read() ); for( uint8_t& radius : sizeAndShape->cornerradius ) radius = aReader.Read(); } else if( subrecord6 != 0 ) { wxLogError( _( "Pads6 stream has unexpected length for subrecord 6: %d." ), subrecord6 ); } aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Pads6 stream was not parsed correctly" ) ); } AVIA6::AVIA6( ALTIUM_PARSER& aReader ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::VIA ) THROW_IO_ERROR( wxT( "Vias6 stream has invalid recordtype" ) ); // Subrecord 1 size_t subrecord1 = aReader.ReadAndSetSubrecordLength(); aReader.Skip( 1 ); uint8_t flags1 = aReader.Read(); is_test_fab_top = ( flags1 & 0x80 ) != 0; is_tent_bottom = ( flags1 & 0x40 ) != 0; is_tent_top = ( flags1 & 0x20 ) != 0; is_locked = ( flags1 & 0x04 ) == 0; uint8_t flags2 = aReader.Read(); is_test_fab_bottom = ( flags2 & 0x01 ) != 0; net = aReader.Read(); aReader.Skip( 8 ); position = aReader.ReadWxPoint(); diameter = aReader.ReadKicadUnit(); holesize = aReader.ReadKicadUnit(); layer_start = static_cast( aReader.Read() ); layer_end = static_cast( aReader.Read() ); if( subrecord1 <= 74 ) { viamode = ALTIUM_PAD_MODE::SIMPLE; } else { aReader.Skip( 43 ); viamode = static_cast( aReader.Read() ); } aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Vias6 stream was not parsed correctly" ) ); } ATRACK6::ATRACK6( ALTIUM_PARSER& aReader ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::TRACK ) THROW_IO_ERROR( wxT( "Tracks6 stream has invalid recordtype" ) ); // Subrecord 1 aReader.ReadAndSetSubrecordLength(); layer = static_cast( aReader.Read() ); uint8_t flags1 = aReader.Read(); is_locked = ( flags1 & 0x04 ) == 0; is_polygonoutline = ( flags1 & 0x02 ) != 0; uint8_t flags2 = aReader.Read(); is_keepout = flags2 == 2; net = aReader.Read(); subpolyindex = aReader.Read(); component = aReader.Read(); aReader.Skip( 4 ); start = aReader.ReadWxPoint(); end = aReader.ReadWxPoint(); width = aReader.ReadKicadUnit(); aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Tracks6 stream was not parsed correctly" ) ); } ATEXT6::ATEXT6( ALTIUM_PARSER& aReader, std::map& aStringTable ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::TEXT ) THROW_IO_ERROR( wxT( "Texts6 stream has invalid recordtype" ) ); // Subrecord 1 - Properties size_t subrecord1 = aReader.ReadAndSetSubrecordLength(); layer = static_cast( aReader.Read() ); aReader.Skip( 6 ); component = aReader.Read(); aReader.Skip( 4 ); position = aReader.ReadWxPoint(); height = aReader.ReadKicadUnit(); aReader.Skip( 2 ); rotation = aReader.Read(); isMirrored = aReader.Read() != 0; strokewidth = aReader.ReadKicadUnit(); isComment = aReader.Read() != 0; isDesignator = aReader.Read() != 0; aReader.Skip( 2 ); isBold = aReader.Read() != 0; isItalic = aReader.Read() != 0; aReader.Skip( 64 ); // font_name isInverted = aReader.Read() != 0; aReader.Skip( 4 ); uint32_t stringIndex = aReader.Read(); aReader.Skip( 13 ); textposition = static_cast( aReader.Read() ); /** * In Altium 14 (subrecord1 == 230) only left bottom is valid? I think there is a bit missing. * https://gitlab.com/kicad/code/kicad/merge_requests/60#note_274913397 */ if( subrecord1 <= 230 ) textposition = ALTIUM_TEXT_POSITION::LEFT_BOTTOM; aReader.Skip( 27 ); fonttype = static_cast( aReader.Read() ); aReader.SkipSubrecord(); // Subrecord 2 - Legacy 8bit string, max 255 chars, unknown codepage aReader.ReadAndSetSubrecordLength(); auto entry = aStringTable.find( stringIndex ); if( entry != aStringTable.end() ) text = entry->second; else text = aReader.ReadWxString(); // Normalize Windows line endings text.Replace( wxT( "\r\n" ), wxT( "\n" ) ); aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Texts6 stream was not parsed correctly" ) ); } AFILL6::AFILL6( ALTIUM_PARSER& aReader ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::FILL ) THROW_IO_ERROR( wxT( "Fills6 stream has invalid recordtype" ) ); // Subrecord 1 aReader.ReadAndSetSubrecordLength(); layer = static_cast( aReader.Read() ); uint8_t flags1 = aReader.Read(); is_locked = ( flags1 & 0x04 ) == 0; uint8_t flags2 = aReader.Read(); is_keepout = flags2 == 2; net = aReader.Read(); aReader.Skip( 2 ); component = aReader.Read(); aReader.Skip( 4 ); pos1 = aReader.ReadWxPoint(); pos2 = aReader.ReadWxPoint(); rotation = aReader.Read(); aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Fills6 stream was not parsed correctly" ) ); } AREGION6::AREGION6( ALTIUM_PARSER& aReader, bool aExtendedVertices ) { ALTIUM_RECORD recordtype = static_cast( aReader.Read() ); if( recordtype != ALTIUM_RECORD::REGION ) THROW_IO_ERROR( wxT( "Regions6 stream has invalid recordtype" ) ); // Subrecord 1 aReader.ReadAndSetSubrecordLength(); layer = static_cast( aReader.Read() ); uint8_t flags1 = aReader.Read(); is_locked = ( flags1 & 0x04 ) == 0; uint8_t flags2 = aReader.Read(); is_keepout = flags2 == 2; net = aReader.Read(); subpolyindex = aReader.Read(); component = aReader.Read(); aReader.Skip( 5 ); holecount = aReader.Read(); aReader.Skip( 2 ); std::map properties = aReader.ReadProperties(); if( properties.empty() ) THROW_IO_ERROR( wxT( "Regions6 stream has empty properties" ) ); int pkind = ALTIUM_PARSER::ReadInt( properties, wxT( "KIND" ), 0 ); bool is_cutout = ALTIUM_PARSER::ReadBool( properties, wxT( "ISBOARDCUTOUT" ), false ); is_shapebased = ALTIUM_PARSER::ReadBool( properties, wxT( "ISSHAPEBASED" ), false ); // TODO: this can differ from the other subpolyindex?! //subpolyindex = static_cast( // ALTIUM_PARSER::ReadInt( properties, "SUBPOLYINDEX", ALTIUM_POLYGON_NONE ) ); switch( pkind ) { case 0: if( is_cutout ) { kind = ALTIUM_REGION_KIND::BOARD_CUTOUT; } else { kind = ALTIUM_REGION_KIND::COPPER; } break; case 1: kind = ALTIUM_REGION_KIND::POLYGON_CUTOUT; break; case 2: kind = ALTIUM_REGION_KIND::UNKNOWN_2; // TODO: what kind is this? break; case 3: kind = ALTIUM_REGION_KIND::UNKNOWN_3; // TODO: what kind is this? break; case 4: kind = ALTIUM_REGION_KIND::CAVITY_DEFINITION; break; default: kind = ALTIUM_REGION_KIND::UNKNOWN; break; } uint32_t num_outline_vertices = aReader.Read(); for( uint32_t i = 0; i < num_outline_vertices; i++ ) { if( aExtendedVertices ) { bool isRound = aReader.Read() != 0; wxPoint position = aReader.ReadWxPoint(); wxPoint center = aReader.ReadWxPoint(); int32_t radius = aReader.ReadKicadUnit(); double angle1 = aReader.Read(); double angle2 = aReader.Read(); outline.emplace_back( isRound, radius, angle1, angle2, position, center ); } else { // For some regions the coordinates are stored as double and not as int32_t int32_t x = ALTIUM_PARSER::ConvertToKicadUnit( aReader.Read() ); int32_t y = ALTIUM_PARSER::ConvertToKicadUnit( -aReader.Read() ); outline.emplace_back( wxPoint( x, y ) ); } } // TODO: for now we only support holes in regions where there are stored as double if( !aExtendedVertices ) { holes.resize( holecount ); for( uint16_t k = 0; k < holecount; k++ ) { uint32_t num_hole_vertices = aReader.Read(); holes.at( k ).reserve( num_hole_vertices ); for( uint32_t i = 0; i < num_hole_vertices; i++ ) { int32_t x = ALTIUM_PARSER::ConvertToKicadUnit( aReader.Read() ); int32_t y = ALTIUM_PARSER::ConvertToKicadUnit( -aReader.Read() ); holes.at( k ).emplace_back( wxPoint( x, y ) ); } } } aReader.SkipSubrecord(); if( aReader.HasParsingError() ) THROW_IO_ERROR( wxT( "Regions6 stream was not parsed correctly" ) ); }