/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2019-2020 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 "altium_pcb.h" #include "altium_parser.h" #include "altium_parser_pcb.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void ParseAltiumPcb( BOARD* aBoard, const wxString& aFileName, const std::map& aFileMapping ) { // Open file FILE* fp = wxFopen( aFileName, "rb" ); if( fp == nullptr ) { wxLogError( wxString::Format( _( "Cannot open file '%s'" ), aFileName ) ); return; } fseek( fp, 0, SEEK_END ); long len = ftell( fp ); if( len < 0 ) { fclose( fp ); THROW_IO_ERROR( "Reading error, cannot determine length of file" ); } std::unique_ptr buffer( new unsigned char[len] ); fseek( fp, 0, SEEK_SET ); size_t bytesRead = fread( buffer.get(), sizeof( unsigned char ), len, fp ); fclose( fp ); if( static_cast( len ) != bytesRead ) { THROW_IO_ERROR( "Reading error" ); } try { CFB::CompoundFileReader reader( buffer.get(), bytesRead ); // Parse File ALTIUM_PCB pcb( aBoard ); pcb.Parse( reader, aFileMapping ); } catch( CFB::CFBException& exception ) { THROW_IO_ERROR( exception.what() ); } } bool IsAltiumLayerCopper( ALTIUM_LAYER aLayer ) { return aLayer >= ALTIUM_LAYER::TOP_LAYER && aLayer <= ALTIUM_LAYER::BOTTOM_LAYER; } bool IsAltiumLayerAPlane( ALTIUM_LAYER aLayer ) { return aLayer >= ALTIUM_LAYER::INTERNAL_PLANE_1 && aLayer <= ALTIUM_LAYER::INTERNAL_PLANE_16; } DRAWSEGMENT* ALTIUM_PCB::HelperCreateAndAddDrawsegment( uint16_t aComponent ) { if( aComponent == ALTIUM_COMPONENT_NONE ) { DRAWSEGMENT* ds = new DRAWSEGMENT( m_board ); m_board->Add( ds, ADD_MODE::APPEND ); return ds; } else { if( m_components.size() <= aComponent ) { THROW_IO_ERROR( wxString::Format( "Component creator tries to access component id %d of %d existing components", aComponent, m_components.size() ) ); } MODULE* module = m_components.at( aComponent ); DRAWSEGMENT* ds = new EDGE_MODULE( module ); module->Add( ds, ADD_MODE::APPEND ); return ds; } } void ALTIUM_PCB::HelperDrawsegmentSetLocalCoord( DRAWSEGMENT* aDs, uint16_t aComponent ) { if( aComponent != ALTIUM_COMPONENT_NONE ) { auto em = dynamic_cast( aDs ); if( em ) em->SetLocalCoord(); } } PCB_LAYER_ID ALTIUM_PCB::GetKicadLayer( ALTIUM_LAYER aAltiumLayer ) const { auto override = m_layermap.find( aAltiumLayer ); if( override != m_layermap.end() ) { return override->second; } switch( aAltiumLayer ) { case ALTIUM_LAYER::UNKNOWN: return UNDEFINED_LAYER; case ALTIUM_LAYER::TOP_LAYER: return F_Cu; case ALTIUM_LAYER::MID_LAYER_1: return In1_Cu; // TODO: stackup same as in KiCad? case ALTIUM_LAYER::MID_LAYER_2: return In2_Cu; case ALTIUM_LAYER::MID_LAYER_3: return In3_Cu; case ALTIUM_LAYER::MID_LAYER_4: return In4_Cu; case ALTIUM_LAYER::MID_LAYER_5: return In5_Cu; case ALTIUM_LAYER::MID_LAYER_6: return In6_Cu; case ALTIUM_LAYER::MID_LAYER_7: return In7_Cu; case ALTIUM_LAYER::MID_LAYER_8: return In8_Cu; case ALTIUM_LAYER::MID_LAYER_9: return In9_Cu; case ALTIUM_LAYER::MID_LAYER_10: return In10_Cu; case ALTIUM_LAYER::MID_LAYER_11: return In11_Cu; case ALTIUM_LAYER::MID_LAYER_12: return In12_Cu; case ALTIUM_LAYER::MID_LAYER_13: return In13_Cu; case ALTIUM_LAYER::MID_LAYER_14: return In14_Cu; case ALTIUM_LAYER::MID_LAYER_15: return In15_Cu; case ALTIUM_LAYER::MID_LAYER_16: return In16_Cu; case ALTIUM_LAYER::MID_LAYER_17: return In17_Cu; case ALTIUM_LAYER::MID_LAYER_18: return In18_Cu; case ALTIUM_LAYER::MID_LAYER_19: return In19_Cu; case ALTIUM_LAYER::MID_LAYER_20: return In20_Cu; case ALTIUM_LAYER::MID_LAYER_21: return In21_Cu; case ALTIUM_LAYER::MID_LAYER_22: return In22_Cu; case ALTIUM_LAYER::MID_LAYER_23: return In23_Cu; case ALTIUM_LAYER::MID_LAYER_24: return In24_Cu; case ALTIUM_LAYER::MID_LAYER_25: return In25_Cu; case ALTIUM_LAYER::MID_LAYER_26: return In26_Cu; case ALTIUM_LAYER::MID_LAYER_27: return In27_Cu; case ALTIUM_LAYER::MID_LAYER_28: return In28_Cu; case ALTIUM_LAYER::MID_LAYER_29: return In29_Cu; case ALTIUM_LAYER::MID_LAYER_30: return In30_Cu; case ALTIUM_LAYER::BOTTOM_LAYER: return B_Cu; case ALTIUM_LAYER::TOP_OVERLAY: return F_SilkS; case ALTIUM_LAYER::BOTTOM_OVERLAY: return B_SilkS; case ALTIUM_LAYER::TOP_PASTE: return F_Paste; case ALTIUM_LAYER::BOTTOM_PASTE: return B_Paste; case ALTIUM_LAYER::TOP_SOLDER: return F_Mask; case ALTIUM_LAYER::BOTTOM_SOLDER: return B_Mask; case ALTIUM_LAYER::INTERNAL_PLANE_1: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_2: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_3: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_4: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_5: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_6: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_7: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_8: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_9: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_10: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_11: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_12: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_13: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_14: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_15: return UNDEFINED_LAYER; case ALTIUM_LAYER::INTERNAL_PLANE_16: return UNDEFINED_LAYER; case ALTIUM_LAYER::DRILL_GUIDE: return Dwgs_User; case ALTIUM_LAYER::KEEP_OUT_LAYER: return Margin; case ALTIUM_LAYER::MECHANICAL_1: return Dwgs_User; //Edge_Cuts; case ALTIUM_LAYER::MECHANICAL_2: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_3: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_4: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_5: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_6: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_7: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_8: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_9: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_10: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_11: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_12: return Dwgs_User; case ALTIUM_LAYER::MECHANICAL_13: return F_Fab; case ALTIUM_LAYER::MECHANICAL_14: return B_Fab; case ALTIUM_LAYER::MECHANICAL_15: return F_CrtYd; case ALTIUM_LAYER::MECHANICAL_16: return B_CrtYd; case ALTIUM_LAYER::DRILL_DRAWING: return Dwgs_User; case ALTIUM_LAYER::MULTI_LAYER: return UNDEFINED_LAYER; case ALTIUM_LAYER::CONNECTIONS: return UNDEFINED_LAYER; case ALTIUM_LAYER::BACKGROUND: return UNDEFINED_LAYER; case ALTIUM_LAYER::DRC_ERROR_MARKERS: return UNDEFINED_LAYER; case ALTIUM_LAYER::SELECTIONS: return UNDEFINED_LAYER; case ALTIUM_LAYER::VISIBLE_GRID_1: return UNDEFINED_LAYER; case ALTIUM_LAYER::VISIBLE_GRID_2: return UNDEFINED_LAYER; case ALTIUM_LAYER::PAD_HOLES: return UNDEFINED_LAYER; case ALTIUM_LAYER::VIA_HOLES: return UNDEFINED_LAYER; default: return UNDEFINED_LAYER; } } ALTIUM_PCB::ALTIUM_PCB( BOARD* aBoard ) { m_board = aBoard; m_num_nets = 0; m_highest_pour_index = 0; } ALTIUM_PCB::~ALTIUM_PCB() { } void ALTIUM_PCB::Parse( const CFB::CompoundFileReader& aReader, const std::map& aFileMapping ) { // this vector simply declares in which order which functions to call. const std::vector> parserOrder = { { true, ALTIUM_PCB_DIR::FILE_HEADER, [this]( auto aReader, auto fileHeader ) { this->ParseFileHeader( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::BOARD6, [this]( auto aReader, auto fileHeader ) { this->ParseBoard6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::COMPONENTS6, [this]( auto aReader, auto fileHeader ) { this->ParseComponents6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::MODELS, [this, aFileMapping]( auto aReader, auto fileHeader ) { wxString dir( aFileMapping.at( ALTIUM_PCB_DIR::MODELS ) ); dir.RemoveLast( 4 ); // Remove "Data" from the path this->ParseModelsData( aReader, fileHeader, dir ); } }, { true, ALTIUM_PCB_DIR::COMPONENTBODIES6, [this]( auto aReader, auto fileHeader ) { this->ParseComponentsBodies6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::NETS6, [this]( auto aReader, auto fileHeader ) { this->ParseNets6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::CLASSES6, [this]( auto aReader, auto fileHeader ) { this->ParseClasses6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::RULES6, [this]( auto aReader, auto fileHeader ) { this->ParseRules6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::DIMENSIONS6, [this]( auto aReader, auto fileHeader ) { this->ParseDimensions6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::POLYGONS6, [this]( auto aReader, auto fileHeader ) { this->ParsePolygons6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::ARCS6, [this]( auto aReader, auto fileHeader ) { this->ParseArcs6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::PADS6, [this]( auto aReader, auto fileHeader ) { this->ParsePads6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::VIAS6, [this]( auto aReader, auto fileHeader ) { this->ParseVias6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::TRACKS6, [this]( auto aReader, auto fileHeader ) { this->ParseTracks6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::TEXTS6, [this]( auto aReader, auto fileHeader ) { this->ParseTexts6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::FILLS6, [this]( auto aReader, auto fileHeader ) { this->ParseFills6Data( aReader, fileHeader ); } }, { false, ALTIUM_PCB_DIR::BOARDREGIONS, [this]( auto aReader, auto fileHeader ) { this->ParseBoardRegionsData( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::SHAPEBASEDREGIONS6, [this]( auto aReader, auto fileHeader ) { this->ParseShapeBasedRegions6Data( aReader, fileHeader ); } }, { true, ALTIUM_PCB_DIR::REGIONS6, [this]( auto aReader, auto fileHeader ) { this->ParseRegions6Data( aReader, fileHeader ); } } }; // Parse data in specified order for( const std::tuple& cur : parserOrder ) { bool isRequired; ALTIUM_PCB_DIR directory; PARSE_FUNCTION_POINTER_fp fp; std::tie( isRequired, directory, fp ) = cur; const auto& mappedDirectory = aFileMapping.find( directory ); if( mappedDirectory == aFileMapping.end() ) { wxASSERT_MSG( !isRequired, wxString::Format( "Altium Directory of kind %d was expected, but no mapping is present in the code", directory ) ); continue; } const CFB::COMPOUND_FILE_ENTRY* file = FindStream( aReader, mappedDirectory->second.c_str() ); if( file != nullptr ) { fp( aReader, file ); } else if( isRequired ) { wxLogError( wxString::Format( _( "File not found: '%s'" ), mappedDirectory->second ) ); } } // fixup zone priorities since Altium stores them in the opposite order for( auto& zone : m_polygons ) { if( !zone ) continue; // Altium "fills" - not poured in Altium if( zone->GetPriority() == 1000 ) { // Unlikely, but you never know if( m_highest_pour_index >= 1000 ) zone->SetPriority( m_highest_pour_index + 1 ); continue; } int priority = m_highest_pour_index - zone->GetPriority(); zone->SetPriority( priority >= 0 ? priority : 0 ); } // change priority of outer zone to zero for( auto& zone : m_outer_plane ) { zone.second->SetPriority( 0 ); } // Finish Board by recalculating module boundingboxes for( auto& module : m_board->Modules() ) { module->CalculateBoundingBox(); } // Otherwise we cannot save the imported board m_board->SetModified(); } int ALTIUM_PCB::GetNetCode( uint16_t aId ) const { if( aId == ALTIUM_NET_UNCONNECTED ) { return NETINFO_LIST::UNCONNECTED; } else if( m_num_nets < aId ) { THROW_IO_ERROR( wxString::Format( "Netcode with id %d does not exist. Only %d nets are known", aId, m_num_nets ) ); } else { return aId + 1; } } const ARULE6* ALTIUM_PCB::GetRule( ALTIUM_RULE_KIND aKind, const wxString& aName ) const { const auto rules = m_rules.find( aKind ); if( rules == m_rules.end() ) { return nullptr; } for( const ARULE6& rule : rules->second ) { if( rule.name == aName ) { return &rule; } } return nullptr; } const ARULE6* ALTIUM_PCB::GetRuleDefault( ALTIUM_RULE_KIND aKind ) const { const auto rules = m_rules.find( aKind ); if( rules == m_rules.end() ) { return nullptr; } for( const ARULE6& rule : rules->second ) { if( rule.scope1expr == "All" && rule.scope2expr == "All" ) { return &rule; } } return nullptr; } void ALTIUM_PCB::ParseFileHeader( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); reader.ReadAndSetSubrecordLength(); wxString header = reader.ReadWxString(); //std::cout << "HEADER: " << header << std::endl; // tells me: PCB 5.0 Binary File //reader.SkipSubrecord(); // TODO: does not seem to work all the time at the moment //if( reader.GetRemainingBytes() != 0 ) //{ // THROW_IO_ERROR( "FileHeader stream is not fully parsed" ); //} } void ALTIUM_PCB::ParseBoard6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); ABOARD6 elem( reader ); if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Board6 stream is not fully parsed" ); } m_board->GetDesignSettings().m_AuxOrigin = elem.sheetpos; m_board->GetDesignSettings().m_GridOrigin = elem.sheetpos; // read layercount from stackup, because LAYERSETSCOUNT is not always correct?! size_t layercount = 0; for( size_t i = static_cast( ALTIUM_LAYER::TOP_LAYER ); i < elem.stackup.size() && i != 0; i = elem.stackup[i - 1].nextId, layercount++ ) ; size_t kicadLayercount = ( layercount % 2 == 0 ) ? layercount : layercount + 1; m_board->SetCopperLayerCount( kicadLayercount ); BOARD_DESIGN_SETTINGS& designSettings = m_board->GetDesignSettings(); BOARD_STACKUP& stackup = designSettings.GetStackupDescriptor(); // create board stackup stackup.RemoveAll(); // Just to be sure stackup.BuildDefaultStackupList( &designSettings, layercount ); auto it = stackup.GetList().begin(); // find first copper layer for( ; it != stackup.GetList().end() && ( *it )->GetType() != BS_ITEM_TYPE_COPPER; ++it ) ; auto curLayer = static_cast( F_Cu ); for( size_t altiumLayerId = static_cast( ALTIUM_LAYER::TOP_LAYER ); altiumLayerId < elem.stackup.size() && altiumLayerId != 0; altiumLayerId = elem.stackup[altiumLayerId - 1].nextId ) { // array starts with 0, but stackup with 1 ABOARD6_LAYER_STACKUP& layer = elem.stackup.at( altiumLayerId - 1 ); // handle unused layer in case of odd layercount if( layer.nextId == 0 && layercount != kicadLayercount ) { m_board->SetLayerName( ( *it )->GetBrdLayerId(), "[unused]" ); if( ( *it )->GetType() != BS_ITEM_TYPE_COPPER ) { THROW_IO_ERROR( "Board6 stream, unexpected item while parsing stackup" ); } ( *it )->SetThickness( 0 ); ++it; if( ( *it )->GetType() != BS_ITEM_TYPE_DIELECTRIC ) { THROW_IO_ERROR( "Board6 stream, unexpected item while parsing stackup" ); } ( *it )->SetThickness( 0, 0 ); ( *it )->SetThicknessLocked( true, 0 ); ++it; } m_layermap.insert( { static_cast( altiumLayerId ), static_cast( curLayer++ ) } ); if( ( *it )->GetType() != BS_ITEM_TYPE_COPPER ) { THROW_IO_ERROR( "Board6 stream, unexpected item while parsing stackup" ); } ( *it )->SetThickness( layer.copperthick ); ALTIUM_LAYER alayer = static_cast( altiumLayerId ); PCB_LAYER_ID klayer = ( *it )->GetBrdLayerId(); m_board->SetLayerName( klayer, layer.name ); if( layer.copperthick == 0 ) { m_board->SetLayerType( klayer, LAYER_T::LT_JUMPER ); // used for things like wirebonding } else if( IsAltiumLayerAPlane( alayer ) ) { m_board->SetLayerType( klayer, LAYER_T::LT_POWER ); } if( klayer == B_Cu ) { if( layer.nextId != 0 ) { THROW_IO_ERROR( "Board6 stream, unexpected id while parsing last stackup layer" ); } // overwrite entry from internal -> bottom m_layermap[alayer] = B_Cu; break; } ++it; if( ( *it )->GetType() != BS_ITEM_TYPE_DIELECTRIC ) { THROW_IO_ERROR( "Board6 stream, unexpected item while parsing stackup" ); } ( *it )->SetThickness( layer.dielectricthick, 0 ); ( *it )->SetMaterial( layer.dielectricmaterial.empty() ? NotSpecifiedPrm() : wxString( layer.dielectricmaterial ) ); ( *it )->SetEpsilonR( layer.dielectricconst, 0 ); ++it; } HelperCreateBoardOutline( elem.board_vertices ); } void ALTIUM_PCB::HelperCreateBoardOutline( const std::vector& aVertices ) { if( !aVertices.empty() ) { const ALTIUM_VERTICE* last = &aVertices.at( 0 ); for( size_t i = 0; i < aVertices.size(); i++ ) { const ALTIUM_VERTICE* cur = &aVertices.at( ( i + 1 ) % aVertices.size() ); DRAWSEGMENT* ds = new DRAWSEGMENT( m_board ); m_board->Add( ds, ADD_MODE::APPEND ); ds->SetWidth( m_board->GetDesignSettings().GetLineThickness( Edge_Cuts ) ); ds->SetLayer( Edge_Cuts ); if( !last->isRound && !cur->isRound ) { ds->SetShape( STROKE_T::S_SEGMENT ); ds->SetStart( last->position ); ds->SetEnd( cur->position ); } else if( cur->isRound ) { ds->SetShape( STROKE_T::S_ARC ); ds->SetAngle( -NormalizeAngleDegreesPos( cur->endangle - cur->startangle ) * 10. ); double startradiant = DEG2RAD( cur->startangle ); wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * cur->radius ), -KiROUND( std::sin( startradiant ) * cur->radius ) ); wxPoint arcStart = cur->center + arcStartOffset; ds->SetCenter( cur->center ); ds->SetArcStart( arcStart ); if( !last->isRound ) { double endradiant = DEG2RAD( cur->endangle ); wxPoint arcEndOffset = wxPoint( KiROUND( std::cos( endradiant ) * cur->radius ), -KiROUND( std::sin( endradiant ) * cur->radius ) ); wxPoint arcEnd = cur->center + arcEndOffset; DRAWSEGMENT* ds2 = new DRAWSEGMENT( m_board ); ds2->SetShape( STROKE_T::S_SEGMENT ); m_board->Add( ds2, ADD_MODE::APPEND ); ds2->SetWidth( m_board->GetDesignSettings().GetLineThickness( Edge_Cuts ) ); ds2->SetLayer( Edge_Cuts ); ds2->SetStart( last->position ); // TODO: this is more of a hack than the real solution double lineLengthStart = GetLineLength( last->position, arcStart ); double lineLengthEnd = GetLineLength( last->position, arcEnd ); if( lineLengthStart > lineLengthEnd ) { ds2->SetEnd( cur->center + arcEndOffset ); } else { ds2->SetEnd( cur->center + arcStartOffset ); } } } last = cur; } } } void ALTIUM_PCB::ParseClasses6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); BOARD_DESIGN_SETTINGS& designSettings = m_board->GetDesignSettings(); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ACLASS6 elem( reader ); if( elem.kind == ALTIUM_CLASS_KIND::NET_CLASS ) { const NETCLASSPTR& netclass = std::make_shared( elem.name ); designSettings.m_NetClasses.Add( netclass ); for( const auto& name : elem.names ) { netclass->Add( name ); // TODO: it seems it can happen that we have names not attached to any net. } } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Classes6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseComponents6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); uint16_t componentId = 0; while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ACOMPONENT6 elem( reader ); MODULE* module = new MODULE( m_board ); m_board->Add( module, ADD_MODE::APPEND ); m_components.emplace_back( module ); wxString pack_ref = elem.sourcelibreference; wxString lib_ref = elem.sourcefootprintlibrary; // TODO: remove ".PcbLib" part ReplaceIllegalFileNameChars( lib_ref, '_' ); ReplaceIllegalFileNameChars( pack_ref, '_' ); wxString key = !lib_ref.empty() ? lib_ref + ":" + pack_ref : pack_ref; LIB_ID fpID; fpID.Parse( key, LIB_ID::ID_PCB, true ); module->SetFPID( fpID ); module->SetPosition( elem.position ); module->SetOrientationDegrees( elem.rotation ); // KiCad netlisting requires parts to have non-digit + digit annotation. // If the reference begins with a number, we prepend 'UNK' (unknown) for the source designator wxString reference = elem.sourcedesignator; if( reference.find_first_not_of( "0123456789" ) == wxString::npos ) reference.Prepend( "UNK" ); module->SetReference( reference ); module->SetLocked( elem.locked ); module->Reference().SetVisible( elem.nameon ); module->Value().SetVisible( elem.commenton ); module->SetLayer( elem.layer == ALTIUM_LAYER::TOP_LAYER ? F_Cu : B_Cu ); componentId++; } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Components6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseComponentsBodies6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ACOMPONENTBODY6 elem( reader ); // TODO: implement if( elem.component == ALTIUM_COMPONENT_NONE ) { continue; // TODO: we do not support components for the board yet } if( m_components.size() <= elem.component ) { THROW_IO_ERROR( wxString::Format( "ComponentsBodies6 stream tries to access component id %d of %d existing components", elem.component, m_components.size() ) ); } if( !elem.modelIsEmbedded ) { continue; } auto modelTuple = m_models.find( elem.modelId ); if( modelTuple == m_models.end() ) { THROW_IO_ERROR( wxString::Format( "ComponentsBodies6 stream tries to access model id %s which does not exist", elem.modelId ) ); } MODULE* module = m_components.at( elem.component ); const wxPoint& modulePosition = module->GetPosition(); MODULE_3D_SETTINGS modelSettings; modelSettings.m_Filename = modelTuple->second; modelSettings.m_Offset.x = Iu2Millimeter( (int) elem.modelPosition.x - modulePosition.x ); modelSettings.m_Offset.y = -Iu2Millimeter( (int) elem.modelPosition.y - modulePosition.y ); modelSettings.m_Offset.z = Iu2Millimeter( (int) elem.modelPosition.z ); double orientation = module->GetOrientation(); if( module->IsFlipped() ) { modelSettings.m_Offset.y = -modelSettings.m_Offset.y; orientation = -orientation; } RotatePoint( &modelSettings.m_Offset.x, &modelSettings.m_Offset.y, orientation ); modelSettings.m_Rotation.x = NormalizeAngleDegrees( -elem.modelRotation.x, -180, 180 ); modelSettings.m_Rotation.y = NormalizeAngleDegrees( -elem.modelRotation.y, -180, 180 ); modelSettings.m_Rotation.z = NormalizeAngleDegrees( -elem.modelRotation.z + elem.rotation + orientation / 10, -180, 180 ); modelSettings.m_Opacity = elem.bodyOpacity; module->Models().push_back( modelSettings ); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "ComponentsBodies6 stream is not fully parsed" ); } } void ALTIUM_PCB::HelperParseDimensions6Linear( const ADIMENSION6& aElem ) { if( aElem.referencePoint.size() != 2 ) { THROW_IO_ERROR( "Incorrect number of reference points for linear dimension object" ); } PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Dimension on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), aElem.layer ) ); klayer = Eco1_User; } wxPoint referencePoint0 = aElem.referencePoint.at( 0 ); wxPoint referencePoint1 = aElem.referencePoint.at( 1 ); DIMENSION* dimension = new DIMENSION( m_board ); m_board->Add( dimension, ADD_MODE::APPEND ); dimension->SetLayer( klayer ); dimension->SetOrigin( referencePoint0, aElem.textprecission ); if( referencePoint0 != aElem.xy1 ) { /** * Basically REFERENCE0POINT and REFERENCE1POINT are the two end points of the dimension. * XY1 is the position of the arrow above REFERENCE0POINT. those three points are not necesarily * in 90degree angle, but KiCad requires this to show the correct measurements. * * Therefore, we take the vector of REFERENCE0POINT -> XY1, calculate the normal, and intersect it with * REFERENCE1POINT pointing the same direction as REFERENCE0POINT -> XY1. This should give us a valid * measurement point where we can place the drawsegment. */ wxPoint direction = aElem.xy1 - referencePoint0; wxPoint directionNormalVector = wxPoint( -direction.y, direction.x ); SEG segm1( referencePoint0, referencePoint0 + directionNormalVector ); SEG segm2( referencePoint1, referencePoint1 + direction ); wxPoint intersection( segm1.Intersect( segm2, true, true ).get() ); dimension->SetEnd( intersection, aElem.textprecission ); int height = static_cast( EuclideanNorm( direction ) ); if( direction.x <= 0 && direction.y <= 0 ) // TODO: I suspect this is not always correct { height = -height; } dimension->SetHeight( height, aElem.textprecission ); } else { dimension->SetEnd( referencePoint1, aElem.textprecission ); } dimension->SetWidth( aElem.linewidth ); dimension->Text().SetTextThickness( aElem.textlinewidth ); dimension->Text().SetTextSize( wxSize( aElem.textheight, aElem.textheight ) ); dimension->Text().SetBold( aElem.textbold ); dimension->Text().SetItalic( aElem.textitalic ); switch( aElem.textunit ) { case ALTIUM_UNIT::INCHES: dimension->SetUnits( EDA_UNITS::INCHES, false ); break; case ALTIUM_UNIT::MILS: dimension->SetUnits( EDA_UNITS::INCHES, true ); break; case ALTIUM_UNIT::MILLIMETERS: case ALTIUM_UNIT::CENTIMETER: dimension->SetUnits( EDA_UNITS::MILLIMETRES, false ); break; default: break; } dimension->AdjustDimensionDetails( aElem.textprecission ); } void ALTIUM_PCB::HelperParseDimensions6Leader( const ADIMENSION6& aElem ) { PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Dimension on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), aElem.layer ) ); klayer = Eco1_User; } if( !aElem.referencePoint.empty() ) { wxPoint referencePoint0 = aElem.referencePoint.at( 0 ); // line wxPoint last = referencePoint0; for( size_t i = 1; i < aElem.referencePoint.size(); i++ ) { DRAWSEGMENT* ds = new DRAWSEGMENT( m_board ); m_board->Add( ds, ADD_MODE::APPEND ); ds->SetShape( STROKE_T::S_SEGMENT ); ds->SetLayer( klayer ); ds->SetWidth( aElem.linewidth ); ds->SetStart( last ); ds->SetEnd( aElem.referencePoint.at( i ) ); last = aElem.referencePoint.at( i ); } // arrow if( aElem.referencePoint.size() >= 2 ) { wxPoint dirVec = aElem.referencePoint.at( 1 ) - referencePoint0; if( dirVec.x != 0 || dirVec.y != 0 ) { double scaling = EuclideanNorm( dirVec ) / aElem.arrowsize; wxPoint arrVec = wxPoint( KiROUND( dirVec.x / scaling ), KiROUND( dirVec.y / scaling ) ); RotatePoint( &arrVec, 200. ); DRAWSEGMENT* ds1 = new DRAWSEGMENT( m_board ); m_board->Add( ds1, ADD_MODE::APPEND ); ds1->SetShape( STROKE_T::S_SEGMENT ); ds1->SetLayer( klayer ); ds1->SetWidth( aElem.linewidth ); ds1->SetStart( referencePoint0 ); ds1->SetEnd( referencePoint0 + arrVec ); RotatePoint( &arrVec, -400. ); DRAWSEGMENT* ds2 = new DRAWSEGMENT( m_board ); m_board->Add( ds2, ADD_MODE::APPEND ); ds2->SetShape( STROKE_T::S_SEGMENT ); ds2->SetLayer( klayer ); ds2->SetWidth( aElem.linewidth ); ds2->SetStart( referencePoint0 ); ds2->SetEnd( referencePoint0 + arrVec ); } } } if( aElem.textPoint.empty() ) { wxLogError( "No text position present for leader dimension object" ); return; } TEXTE_PCB* text = new TEXTE_PCB( m_board ); m_board->Add( text, ADD_MODE::APPEND ); text->SetText( aElem.textformat ); text->SetPosition( aElem.textPoint.at( 0 ) ); text->SetLayer( klayer ); text->SetTextSize( wxSize( aElem.textheight, aElem.textheight ) ); // TODO: parse text width text->SetTextThickness( aElem.textlinewidth ); text->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); text->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); } void ALTIUM_PCB::HelperParseDimensions6Datum( const ADIMENSION6& aElem ) { PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Dimension on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), aElem.layer ) ); klayer = Eco1_User; } for( size_t i = 0; i < aElem.referencePoint.size(); i++ ) { DRAWSEGMENT* ds1 = new DRAWSEGMENT( m_board ); m_board->Add( ds1, ADD_MODE::APPEND ); ds1->SetShape( STROKE_T::S_SEGMENT ); ds1->SetLayer( klayer ); ds1->SetWidth( aElem.linewidth ); ds1->SetStart( aElem.referencePoint.at( i ) ); // ds1->SetEnd( /* TODO: seems to be based on TEXTY */ ); } } void ALTIUM_PCB::HelperParseDimensions6Center( const ADIMENSION6& aElem ) { PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Dimension on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), aElem.layer ) ); klayer = Eco1_User; } DRAWSEGMENT* ds1 = new DRAWSEGMENT( m_board ); m_board->Add( ds1, ADD_MODE::APPEND ); ds1->SetShape( STROKE_T::S_SEGMENT ); ds1->SetLayer( klayer ); ds1->SetWidth( aElem.linewidth ); wxPoint vec1 = wxPoint( 0, aElem.height / 2 ); RotatePoint( &vec1, aElem.angle * 10. ); ds1->SetStart( aElem.xy1 + vec1 ); ds1->SetEnd( aElem.xy1 - vec1 ); DRAWSEGMENT* ds2 = new DRAWSEGMENT( m_board ); m_board->Add( ds2, ADD_MODE::APPEND ); ds2->SetShape( STROKE_T::S_SEGMENT ); ds2->SetLayer( klayer ); ds2->SetWidth( aElem.linewidth ); wxPoint vec2 = wxPoint( aElem.height / 2, 0 ); RotatePoint( &vec2, aElem.angle * 10. ); ds2->SetStart( aElem.xy1 + vec2 ); ds2->SetEnd( aElem.xy1 - vec2 ); } void ALTIUM_PCB::ParseDimensions6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ADIMENSION6 elem( reader ); switch( elem.kind ) { case ALTIUM_DIMENSION_KIND::LINEAR: HelperParseDimensions6Linear( elem ); break; case ALTIUM_DIMENSION_KIND::LEADER: HelperParseDimensions6Leader( elem ); break; case ALTIUM_DIMENSION_KIND::DATUM: wxLogWarning( wxString::Format( "Ignore dimension object of kind %d", elem.kind ) ); // HelperParseDimensions6Datum( elem ); break; case ALTIUM_DIMENSION_KIND::CENTER: HelperParseDimensions6Center( elem ); break; default: wxLogWarning( wxString::Format( "Ignore dimension object of kind %d", elem.kind ) ); break; } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Dimensions6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseModelsData( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry, const wxString aRootDir ) { ALTIUM_PARSER reader( aReader, aEntry ); if( reader.GetRemainingBytes() == 0 ) { return; // fast path: no 3d-models present which need to be imported -> no directory needs to be created } wxString projectPath = wxPathOnly( m_board->GetFileName() ); // TODO: set KIPRJMOD always after import (not only when loading project)? wxSetEnv( PROJECT_VAR_NAME, projectPath ); // TODO: make this path configurable? const wxString altiumModelDir = "ALTIUM_EMBEDDED_MODELS"; wxFileName altiumModelsPath = wxFileName::DirName( projectPath ); wxString kicadModelPrefix = "${KIPRJMOD}/" + altiumModelDir + "/"; if( !altiumModelsPath.AppendDir( altiumModelDir ) ) { THROW_IO_ERROR( "Cannot construct directory path for step models" ); } // Create dir if it does not exist if( !altiumModelsPath.DirExists() ) { if( !altiumModelsPath.Mkdir() ) { wxLogError( wxString::Format( _( "Cannot create directory \"%s\" -> no 3D-models will be imported." ), GetChars( altiumModelsPath.GetFullPath() ) ) ); return; } } int idx = 0; while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AMODEL elem( reader ); wxString stepPath = aRootDir + std::to_string( idx++ ); const CFB::COMPOUND_FILE_ENTRY* stepEntry = FindStream( aReader, stepPath.c_str() ); size_t stepSize = static_cast( stepEntry->size ); std::unique_ptr stepContent( new char[stepSize] ); // read file into buffer aReader.ReadFile( stepEntry, 0, stepContent.get(), stepSize ); wxFileName storagePath( altiumModelsPath.GetPath(), elem.name ); if( !storagePath.IsDirWritable() ) { wxLogError( wxString::Format( _( "You do not have write permissions to save file \"%s\"." ), GetChars( storagePath.GetFullPath() ) ) ); continue; } wxMemoryInputStream stepStream( stepContent.get(), stepSize ); wxZlibInputStream zlibInputStream( stepStream ); wxFileOutputStream outputStream( storagePath.GetFullPath() ); outputStream.Write( zlibInputStream ); outputStream.Close(); m_models.insert( { elem.id, kicadModelPrefix + elem.name } ); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Models stream is not fully parsed" ); } } void ALTIUM_PCB::ParseNets6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); wxASSERT( m_num_nets == 0 ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ANET6 elem( reader ); m_board->Add( new NETINFO_ITEM( m_board, elem.name, ++m_num_nets ), ADD_MODE::APPEND ); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Nets6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParsePolygons6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { APOLYGON6 elem( reader ); PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Polygon on Altium layer %d has no KiCad equivalent. Ignore it instead" ), elem.layer ) ); m_polygons.emplace_back( nullptr ); continue; } ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board ); m_board->Add( zone, ADD_MODE::APPEND ); m_polygons.emplace_back( zone ); zone->SetNetCode( GetNetCode( elem.net ) ); zone->SetLayer( klayer ); zone->SetPosition( elem.vertices.at( 0 ).position ); zone->SetLocked( elem.locked ); zone->SetPriority( elem.pourindex > 0 ? elem.pourindex : 0 ); if( elem.pourindex > m_highest_pour_index ) m_highest_pour_index = elem.pourindex; for( auto& vertice : elem.vertices ) { zone->AppendCorner( vertice.position, -1 ); // TODO: arcs } // TODO: more flexible rule parsing const ARULE6* clearanceRule = GetRuleDefault( ALTIUM_RULE_KIND::PLANE_CLEARANCE ); if( clearanceRule != nullptr ) { zone->SetZoneClearance( clearanceRule->planeclearanceClearance ); } const ARULE6* polygonConnectRule = GetRuleDefault( ALTIUM_RULE_KIND::POLYGON_CONNECT ); if( polygonConnectRule != nullptr ) { switch( polygonConnectRule->polygonconnectStyle ) { case ALTIUM_CONNECT_STYLE::DIRECT: zone->SetPadConnection( ZONE_CONNECTION::FULL ); break; case ALTIUM_CONNECT_STYLE::NONE: zone->SetPadConnection( ZONE_CONNECTION::NONE ); break; default: case ALTIUM_CONNECT_STYLE::RELIEF: zone->SetPadConnection( ZONE_CONNECTION::THERMAL ); break; } // TODO: correct variables? zone->SetThermalReliefCopperBridge( polygonConnectRule->polygonconnectReliefconductorwidth ); zone->SetThermalReliefGap( polygonConnectRule->polygonconnectAirgapwidth ); if( polygonConnectRule->polygonconnectReliefconductorwidth < zone->GetMinThickness() ) zone->SetMinThickness( polygonConnectRule->polygonconnectReliefconductorwidth ); } if( IsAltiumLayerAPlane( elem.layer ) ) { // outer zone will be set to priority 0 later. zone->SetPriority( 1 ); // check if this is the outer zone by simply comparing the BBOX const auto& cur_outer_plane = m_outer_plane.find( elem.layer ); if( cur_outer_plane == m_outer_plane.end() || zone->GetBoundingBox().Contains( cur_outer_plane->second->GetBoundingBox() ) ) { m_outer_plane[elem.layer] = zone; } } if( elem.hatchstyle != ALTIUM_POLYGON_HATCHSTYLE::SOLID && elem.hatchstyle != ALTIUM_POLYGON_HATCHSTYLE::UNKNOWN ) { zone->SetFillMode( ZONE_FILL_MODE::HATCH_PATTERN ); zone->SetHatchFillTypeThickness( elem.trackwidth ); if( elem.hatchstyle == ALTIUM_POLYGON_HATCHSTYLE::NONE ) { // use a small hack to get us only an outline (hopefully) const EDA_RECT& bbox = zone->GetBoundingBox(); zone->SetHatchFillTypeGap( std::max( bbox.GetHeight(), bbox.GetWidth() ) ); } else { zone->SetHatchFillTypeGap( elem.gridsize - elem.trackwidth ); } zone->SetHatchFillTypeOrientation( elem.hatchstyle == ALTIUM_POLYGON_HATCHSTYLE::DEGREE_45 ? 45 : 0 ); } zone->SetHatch( ZONE_HATCH_STYLE::DIAGONAL_EDGE, ZONE_CONTAINER::GetDefaultHatchPitch(), true ); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Polygons6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseRules6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ARULE6 elem( reader ); m_rules[elem.kind].emplace_back( elem ); } // sort rules by priority for( auto&& val : m_rules ) { std::sort( val.second.begin(), val.second.end(), []( const auto& lhs, const auto& rhs ) { return lhs.priority < rhs.priority; } ); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Rules6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseBoardRegionsData( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AREGION6 elem( reader, false ); // TODO: implement? } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "BoardRegions stream is not fully parsed" ); } } void ALTIUM_PCB::ParseShapeBasedRegions6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AREGION6 elem( reader, true ); if( elem.kind == ALTIUM_REGION_KIND::BOARD_CUTOUT ) { HelperCreateBoardOutline( elem.vertices ); } else if( elem.kind == ALTIUM_REGION_KIND::POLYGON_CUTOUT || elem.is_keepout ) { ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board ); m_board->Add( zone, ADD_MODE::APPEND ); zone->SetIsKeepout( true ); zone->SetDoNotAllowTracks( false ); zone->SetDoNotAllowVias( false ); zone->SetDoNotAllowPads( false ); zone->SetDoNotAllowFootprints( false ); zone->SetDoNotAllowCopperPour( true ); if( elem.layer == ALTIUM_LAYER::MULTI_LAYER ) { zone->SetLayer( F_Cu ); zone->SetLayerSet( LSET::AllCuMask() ); } else { PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Zone on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), elem.layer ) ); klayer = Eco1_User; } zone->SetLayer( klayer ); } zone->SetPosition( elem.vertices.at( 0 ).position ); for( auto& vertice : elem.vertices ) { zone->AppendCorner( vertice.position, -1 ); } zone->SetHatch( ZONE_HATCH_STYLE::DIAGONAL_EDGE, ZONE_CONTAINER::GetDefaultHatchPitch(), true ); } else if( elem.kind == ALTIUM_REGION_KIND::COPPER ) { if( elem.subpolyindex == ALTIUM_POLYGON_NONE ) { PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Polygon on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), elem.layer ) ); klayer = Eco1_User; } DRAWSEGMENT* ds = new DRAWSEGMENT( m_board ); m_board->Add( ds, ADD_MODE::APPEND ); ds->SetShape( STROKE_T::S_POLYGON ); ds->SetLayer( klayer ); ds->SetWidth( 0 ); std::vector pts; for( auto& vertice : elem.vertices ) { pts.push_back( vertice.position ); } ds->SetPolyPoints( pts ); } } else { wxLogError( wxString::Format( "Ignore polygon shape of kind %d on layer %s, because not implemented yet", elem.kind, LSET::Name( GetKicadLayer( elem.layer ) ) ) ); } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "ShapeBasedRegions6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseRegions6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); for( ZONE_CONTAINER* zone : m_polygons ) { if( zone != nullptr ) { zone->UnFill(); // just to be sure } } while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AREGION6 elem( reader, false ); #if 0 // TODO: it seems this code has multiple issues right now, and we can manually fill anyways if( elem.subpolyindex != ALTIUM_POLYGON_NONE ) { if( m_polygons.size() <= elem.subpolyindex ) { THROW_IO_ERROR( wxString::Format( "Region stream tries to access polygon id %d of %d existing polygons", elem.subpolyindex, m_polygons.size() ) ); } ZONE_CONTAINER *zone = m_polygons.at(elem.subpolyindex); if( zone == nullptr ) { continue; // we know the zone id, but because we do not know the layer we did not add it! } SHAPE_LINE_CHAIN linechain; for( auto& vertice : elem.vertices ) { linechain.Append( vertice.position ); } linechain.Append( elem.vertices.at( 0 ).position ); linechain.SetClosed( true ); SHAPE_POLY_SET polyset; polyset.AddOutline( linechain ); polyset.BooleanAdd( zone->GetFilledPolysList(), SHAPE_POLY_SET::POLYGON_MODE::PM_STRICTLY_SIMPLE ); zone->SetFilledPolysList( polyset ); zone->SetIsFilled( true ); } #endif } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Regions6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseArcs6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AARC6 elem( reader ); if( elem.is_polygonoutline || elem.subpolyindex != ALTIUM_POLYGON_NONE ) { continue; } // element in plane is in fact substracted from the plane. Should be already done by Altium? /*if( IsAltiumLayerAPlane( elem.layer ) ) { continue; }*/ PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Arc on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), elem.layer ) ); klayer = Eco1_User; } if( elem.is_keepout || IsAltiumLayerAPlane( elem.layer ) ) { DRAWSEGMENT ds( nullptr ); // just a helper to get the graphic ds.SetWidth( elem.width ); ds.SetCenter( elem.center ); if( elem.startangle == 0. && elem.endangle == 360. ) { // TODO: other variants to define circle? ds.SetShape( STROKE_T::S_CIRCLE ); ds.SetArcStart( elem.center - wxPoint( 0, elem.radius ) ); } else { ds.SetShape( STROKE_T::S_ARC ); ds.SetAngle( -NormalizeAngleDegreesPos( elem.endangle - elem.startangle ) * 10. ); double startradiant = DEG2RAD( elem.startangle ); wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * elem.radius ), -KiROUND( std::sin( startradiant ) * elem.radius ) ); ds.SetArcStart( elem.center + arcStartOffset ); } ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board ); m_board->Add( zone, ADD_MODE::APPEND ); zone->SetLayer( klayer ); zone->SetIsKeepout( true ); zone->SetDoNotAllowTracks( false ); zone->SetDoNotAllowVias( false ); zone->SetDoNotAllowPads( false ); zone->SetDoNotAllowFootprints( false ); zone->SetDoNotAllowCopperPour( true ); ds.TransformShapeWithClearanceToPolygon( *zone->Outline(), 0, ARC_HIGH_DEF, false ); zone->Outline()->Simplify( SHAPE_POLY_SET::PM_STRICTLY_SIMPLE ); // the outline is not a single polygon! zone->SetHatch( ZONE_HATCH_STYLE::DIAGONAL_EDGE, ZONE_CONTAINER::GetDefaultHatchPitch(), true ); continue; } if( klayer >= F_Cu && klayer <= B_Cu ) { double angle = -NormalizeAngleDegreesPos( elem.endangle - elem.startangle ); double startradiant = DEG2RAD( elem.startangle ); wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * elem.radius ), -KiROUND( std::sin( startradiant ) * elem.radius ) ); SHAPE_ARC shapeArc( elem.center, elem.center + arcStartOffset, angle, elem.width ); ARC* arc = new ARC( m_board, &shapeArc ); m_board->Add( arc, ADD_MODE::APPEND ); arc->SetWidth( elem.width ); arc->SetLayer( klayer ); arc->SetNetCode( GetNetCode( elem.net ) ); } else { DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( elem.component ); ds->SetCenter( elem.center ); ds->SetWidth( elem.width ); ds->SetLayer( klayer ); if( elem.startangle == 0. && elem.endangle == 360. ) { // TODO: other variants to define circle? ds->SetShape( STROKE_T::S_CIRCLE ); ds->SetArcStart( elem.center - wxPoint( 0, elem.radius ) ); } else { ds->SetShape( STROKE_T::S_ARC ); ds->SetAngle( -NormalizeAngleDegreesPos( elem.endangle - elem.startangle ) * 10. ); double startradiant = DEG2RAD( elem.startangle ); wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * elem.radius ), -KiROUND( std::sin( startradiant ) * elem.radius ) ); ds->SetArcStart( elem.center + arcStartOffset ); } HelperDrawsegmentSetLocalCoord( ds, elem.component ); } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Arcs6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParsePads6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { APAD6 elem( reader ); // It is possible to place altium pads on non-copper layers -> we need to interpolate them using drawings! if( !IsAltiumLayerCopper( elem.layer ) && !IsAltiumLayerAPlane( elem.layer ) && elem.layer != ALTIUM_LAYER::MULTI_LAYER ) { HelperParsePad6NonCopper( elem ); continue; } // Create Pad MODULE* module = nullptr; if( elem.component == ALTIUM_COMPONENT_NONE ) { module = new MODULE( m_board ); // We cannot add a pad directly into the PCB m_board->Add( module, ADD_MODE::APPEND ); module->SetPosition( elem.position ); } else { if( m_components.size() <= elem.component ) { THROW_IO_ERROR( wxString::Format( "Pads6 stream tries to access component id %d of %d existing components", elem.component, m_components.size() ) ); } module = m_components.at( elem.component ); } D_PAD* pad = new D_PAD( module ); module->Add( pad, ADD_MODE::APPEND ); pad->SetName( elem.name ); pad->SetNetCode( GetNetCode( elem.net ) ); pad->SetLocked( elem.is_locked ); pad->SetPosition( elem.position ); pad->SetOrientationDegrees( elem.direction ); pad->SetLocalCoord(); pad->SetSize( elem.topsize ); if( elem.holesize == 0 ) { pad->SetAttribute( PAD_ATTR_T::PAD_ATTRIB_SMD ); } else { if( elem.layer != ALTIUM_LAYER::MULTI_LAYER ) { // TODO: I assume other values are possible as well? wxLogError( wxString::Format( "Pad '%s' of Footprint %s is not marked as multilayer, but it is an THT pad", elem.name, module->GetReference() ) ); } pad->SetAttribute( elem.plated ? PAD_ATTR_T::PAD_ATTRIB_STANDARD : PAD_ATTR_T::PAD_ATTRIB_HOLE_NOT_PLATED ); if( !elem.sizeAndShape || elem.sizeAndShape->holeshape == ALTIUM_PAD_HOLE_SHAPE::ROUND ) { pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_CIRCLE ); pad->SetDrillSize( wxSize( elem.holesize, elem.holesize ) ); } else { switch( elem.sizeAndShape->holeshape ) { case ALTIUM_PAD_HOLE_SHAPE::ROUND: wxFAIL_MSG( "Round holes are handled before the switch" ); break; case ALTIUM_PAD_HOLE_SHAPE::SQUARE: wxLogWarning( wxString::Format( _( "Pad '%s' of Footprint %s has a square hole. KiCad does not support this yet" ), elem.name, module->GetReference() ) ); pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_CIRCLE ); pad->SetDrillSize( wxSize( elem.holesize, elem.holesize ) ); // Workaround // TODO: elem.sizeAndShape->slotsize was 0 in testfile. Either use holesize in this case or rect holes have a different id break; case ALTIUM_PAD_HOLE_SHAPE::SLOT: { pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_OBLONG ); double normalizedSlotrotation = NormalizeAngleDegreesPos( elem.sizeAndShape->slotrotation ); if( normalizedSlotrotation == 0. || normalizedSlotrotation == 180. ) { pad->SetDrillSize( wxSize( elem.sizeAndShape->slotsize, elem.holesize ) ); } else { if( normalizedSlotrotation != 90. && normalizedSlotrotation != 270. ) { wxLogWarning( wxString::Format( _( "Pad '%s' of Footprint %s has a hole-rotation of %f degree. KiCad only supports 90 degree angles" ), elem.name, module->GetReference(), normalizedSlotrotation ) ); } pad->SetDrillSize( wxSize( elem.holesize, elem.sizeAndShape->slotsize ) ); } } break; default: case ALTIUM_PAD_HOLE_SHAPE::UNKNOWN: wxLogError( wxString::Format( "Pad '%s' of Footprint %s uses a hole of unknown kind %d", elem.name, module->GetReference(), elem.sizeAndShape->holeshape ) ); pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_CIRCLE ); pad->SetDrillSize( wxSize( elem.holesize, elem.holesize ) ); // Workaround break; } } if( elem.sizeAndShape ) { pad->SetOffset( elem.sizeAndShape->holeoffset[0] ); } } if( elem.padmode != ALTIUM_PAD_MODE::SIMPLE ) { wxLogWarning( wxString::Format( _( "Pad '%s' of Footprint %s uses a complex pad stack (kind %d), which is not supported yet" ), elem.name, module->GetReference(), elem.padmode ) ); } switch( elem.topshape ) { case ALTIUM_PAD_SHAPE::RECT: pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_RECT ); break; case ALTIUM_PAD_SHAPE::CIRCLE: if( elem.sizeAndShape && elem.sizeAndShape->alt_shape[0] == ALTIUM_PAD_SHAPE_ALT::ROUNDRECT ) { pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_ROUNDRECT ); // 100 = round, 0 = rectangular double ratio = elem.sizeAndShape->cornerradius[0] / 200.; pad->SetRoundRectRadiusRatio( ratio ); } else if( elem.topsize.x == elem.topsize.y ) { pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_CIRCLE ); } else { pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_OVAL ); } break; case ALTIUM_PAD_SHAPE::OCTAGONAL: pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_CHAMFERED_RECT ); pad->SetChamferPositions( RECT_CHAMFER_ALL ); pad->SetChamferRectRatio( 0.25 ); break; case ALTIUM_PAD_SHAPE::UNKNOWN: default: wxLogError( wxString::Format( "Pad '%s' of Footprint %s uses a unknown pad-shape", elem.name, module->GetReference() ) ); break; } switch( elem.layer ) { case ALTIUM_LAYER::TOP_LAYER: pad->SetLayer( F_Cu ); pad->SetLayerSet( D_PAD::SMDMask() ); break; case ALTIUM_LAYER::BOTTOM_LAYER: pad->SetLayer( B_Cu ); pad->SetLayerSet( FlipLayerMask( D_PAD::SMDMask() ) ); break; case ALTIUM_LAYER::MULTI_LAYER: pad->SetLayerSet( elem.plated ? D_PAD::StandardMask() : D_PAD::UnplatedHoleMask() ); break; default: PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); pad->SetLayer( klayer ); pad->SetLayerSet( LSET( 1, klayer ) ); break; } if( elem.pastemaskexpansionmode == ALTIUM_PAD_RULE::MANUAL ) { pad->SetLocalSolderPasteMargin( elem.pastemaskexpansionmanual ); } if( elem.soldermaskexpansionmode == ALTIUM_PAD_RULE::MANUAL ) { pad->SetLocalSolderMaskMargin( elem.soldermaskexpansionmanual ); } if( elem.is_tent_top ) { pad->SetLayerSet( pad->GetLayerSet().reset( F_Mask ) ); } if( elem.is_tent_bottom ) { pad->SetLayerSet( pad->GetLayerSet().reset( B_Mask ) ); } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Pads6 stream is not fully parsed" ); } } void ALTIUM_PCB::HelperParsePad6NonCopper( const APAD6& aElem ) { PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Non-Copper Pad on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), aElem.layer ) ); klayer = Eco1_User; } if( aElem.net != ALTIUM_NET_UNCONNECTED ) { wxLogError( wxString::Format( "Non-Copper Pad '%s' is connected to a net. This is not supported", aElem.name ) ); } if( aElem.holesize != 0 ) { wxLogError( wxString::Format( "Non-Copper Pad '%s' has a hole. This should not happen", aElem.name ) ); } if( aElem.padmode != ALTIUM_PAD_MODE::SIMPLE ) { wxLogWarning( wxString::Format( _( "Non-Copper Pad '%s' uses a complex pad stack (kind %d). This should not happen" ), aElem.name, aElem.padmode ) ); } switch( aElem.topshape ) { case ALTIUM_PAD_SHAPE::RECT: { // filled rect DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( aElem.component ); ds->SetShape( STROKE_T::S_POLYGON ); ds->SetLayer( klayer ); ds->SetWidth( 0 ); ds->SetPolyPoints( { aElem.position + wxPoint( aElem.topsize.x / 2, aElem.topsize.y / 2 ), aElem.position + wxPoint( aElem.topsize.x / 2, -aElem.topsize.y / 2 ), aElem.position + wxPoint( -aElem.topsize.x / 2, -aElem.topsize.y / 2 ), aElem.position + wxPoint( -aElem.topsize.x / 2, aElem.topsize.y / 2 ) } ); if( aElem.direction != 0 ) { ds->Rotate( aElem.position, aElem.direction * 10 ); } HelperDrawsegmentSetLocalCoord( ds, aElem.component ); } break; case ALTIUM_PAD_SHAPE::CIRCLE: if( aElem.sizeAndShape && aElem.sizeAndShape->alt_shape[0] == ALTIUM_PAD_SHAPE_ALT::ROUNDRECT ) { // filled roundrect int cornerradius = aElem.sizeAndShape->cornerradius[0]; int offset = ( std::min( aElem.topsize.x, aElem.topsize.y ) * cornerradius ) / 200; DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( aElem.component ); ds->SetLayer( klayer ); ds->SetWidth( offset * 2 ); if( cornerradius < 100 ) { int offsetX = aElem.topsize.x / 2 - offset; int offsetY = aElem.topsize.y / 2 - offset; wxPoint p11 = aElem.position + wxPoint( offsetX, offsetY ); wxPoint p12 = aElem.position + wxPoint( offsetX, -offsetY ); wxPoint p22 = aElem.position + wxPoint( -offsetX, -offsetY ); wxPoint p21 = aElem.position + wxPoint( -offsetX, offsetY ); ds->SetShape( STROKE_T::S_POLYGON ); ds->SetPolyPoints( { p11, p12, p22, p21 } ); } else if( aElem.topsize.x == aElem.topsize.y ) { // circle ds->SetShape( STROKE_T::S_CIRCLE ); ds->SetCenter( aElem.position ); ds->SetWidth( aElem.topsize.x / 2 ); ds->SetArcStart( aElem.position - wxPoint( 0, aElem.topsize.x / 4 ) ); } else if( aElem.topsize.x < aElem.topsize.y ) { // short vertical line ds->SetShape( STROKE_T::S_SEGMENT ); wxPoint pointOffset( 0, ( aElem.topsize.y - aElem.topsize.x ) / 2 ); ds->SetStart( aElem.position + pointOffset ); ds->SetEnd( aElem.position - pointOffset ); } else { // short horizontal line ds->SetShape( STROKE_T::S_SEGMENT ); wxPoint pointOffset( ( aElem.topsize.x - aElem.topsize.y ) / 2, 0 ); ds->SetStart( aElem.position + pointOffset ); ds->SetEnd( aElem.position - pointOffset ); } if( aElem.direction != 0 ) { ds->Rotate( aElem.position, aElem.direction * 10 ); } HelperDrawsegmentSetLocalCoord( ds, aElem.component ); } else if( aElem.topsize.x == aElem.topsize.y ) { // filled circle DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( aElem.component ); ds->SetShape( STROKE_T::S_CIRCLE ); ds->SetLayer( klayer ); ds->SetCenter( aElem.position ); ds->SetWidth( aElem.topsize.x / 2 ); ds->SetArcStart( aElem.position - wxPoint( 0, aElem.topsize.x / 4 ) ); HelperDrawsegmentSetLocalCoord( ds, aElem.component ); } else { // short line DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( aElem.component ); ds->SetShape( STROKE_T::S_SEGMENT ); ds->SetLayer( klayer ); ds->SetWidth( std::min( aElem.topsize.x, aElem.topsize.y ) ); if( aElem.topsize.x < aElem.topsize.y ) { wxPoint offset( 0, ( aElem.topsize.y - aElem.topsize.x ) / 2 ); ds->SetStart( aElem.position + offset ); ds->SetEnd( aElem.position - offset ); } else { wxPoint offset( ( aElem.topsize.x - aElem.topsize.y ) / 2, 0 ); ds->SetStart( aElem.position + offset ); ds->SetEnd( aElem.position - offset ); } if( aElem.direction != 0 ) { ds->Rotate( aElem.position, aElem.direction * 10. ); } HelperDrawsegmentSetLocalCoord( ds, aElem.component ); } break; case ALTIUM_PAD_SHAPE::OCTAGONAL: { // filled octagon DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( aElem.component ); ds->SetShape( STROKE_T::S_POLYGON ); ds->SetLayer( klayer ); ds->SetWidth( 0 ); wxPoint p11 = aElem.position + wxPoint( aElem.topsize.x / 2, aElem.topsize.y / 2 ); wxPoint p12 = aElem.position + wxPoint( aElem.topsize.x / 2, -aElem.topsize.y / 2 ); wxPoint p22 = aElem.position + wxPoint( -aElem.topsize.x / 2, -aElem.topsize.y / 2 ); wxPoint p21 = aElem.position + wxPoint( -aElem.topsize.x / 2, aElem.topsize.y / 2 ); int chamfer = std::min( aElem.topsize.x, aElem.topsize.y ) / 4; wxPoint chamferX( chamfer, 0 ); wxPoint chamferY( 0, chamfer ); ds->SetPolyPoints( { p11 - chamferX, p11 - chamferY, p12 + chamferY, p12 - chamferX, p22 + chamferX, p22 + chamferY, p21 - chamferY, p21 + chamferX } ); if( aElem.direction != 0. ) { ds->Rotate( aElem.position, aElem.direction * 10 ); } HelperDrawsegmentSetLocalCoord( ds, aElem.component ); } break; case ALTIUM_PAD_SHAPE::UNKNOWN: default: wxLogError( wxString::Format( "Non-Copper Pad '%s' uses a unknown pad-shape", aElem.name ) ); break; } } void ALTIUM_PCB::ParseVias6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AVIA6 elem( reader ); VIA* via = new VIA( m_board ); m_board->Add( via, ADD_MODE::APPEND ); via->SetPosition( elem.position ); via->SetWidth( elem.diameter ); via->SetDrill( elem.holesize ); via->SetNetCode( GetNetCode( elem.net ) ); via->SetLocked( elem.is_locked ); bool start_layer_outside = elem.layer_start == ALTIUM_LAYER::TOP_LAYER || elem.layer_start == ALTIUM_LAYER::BOTTOM_LAYER; bool end_layer_outside = elem.layer_end == ALTIUM_LAYER::TOP_LAYER || elem.layer_end == ALTIUM_LAYER::BOTTOM_LAYER; if( start_layer_outside && end_layer_outside ) { via->SetViaType( VIATYPE::THROUGH ); } else if( ( !start_layer_outside ) && ( !end_layer_outside ) ) { via->SetViaType( VIATYPE::BLIND_BURIED ); } else { via->SetViaType( VIATYPE::MICROVIA ); // TODO: always a microvia? } PCB_LAYER_ID start_klayer = GetKicadLayer( elem.layer_start ); PCB_LAYER_ID end_klayer = GetKicadLayer( elem.layer_end ); if( !IsCopperLayer( start_klayer ) || !IsCopperLayer( end_klayer ) ) { wxLogError( wxString::Format( "Via from layer %d <-> %d uses non-copper layer. This should not happen.", elem.layer_start, elem.layer_end ) ); continue; // just assume through-hole instead. } // we need VIATYPE set! via->SetLayerPair( start_klayer, end_klayer ); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Vias6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseTracks6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ATRACK6 elem( reader ); if( elem.is_polygonoutline || elem.subpolyindex != ALTIUM_POLYGON_NONE ) { continue; } // element in plane is in fact substracted from the plane. Already done by Altium? /*if( IsAltiumLayerAPlane( elem.layer ) ) { continue; }*/ PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Track on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), elem.layer ) ); klayer = Eco1_User; } if( elem.is_keepout || IsAltiumLayerAPlane( elem.layer ) ) { DRAWSEGMENT ds( nullptr ); // just a helper to get the graphic ds.SetShape( STROKE_T::S_SEGMENT ); ds.SetStart( elem.start ); ds.SetEnd( elem.end ); ds.SetWidth( elem.width ); ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board ); m_board->Add( zone, ADD_MODE::APPEND ); zone->SetLayer( klayer ); zone->SetIsKeepout( true ); zone->SetDoNotAllowTracks( false ); zone->SetDoNotAllowVias( false ); zone->SetDoNotAllowPads( false ); zone->SetDoNotAllowFootprints( false ); zone->SetDoNotAllowCopperPour( true ); ds.TransformShapeWithClearanceToPolygon( *zone->Outline(), 0, ARC_HIGH_DEF, false ); zone->SetHatch( ZONE_HATCH_STYLE::DIAGONAL_EDGE, ZONE_CONTAINER::GetDefaultHatchPitch(), true ); continue; } if( klayer >= F_Cu && klayer <= B_Cu ) { TRACK* track = new TRACK( m_board ); m_board->Add( track, ADD_MODE::APPEND ); track->SetStart( elem.start ); track->SetEnd( elem.end ); track->SetWidth( elem.width ); track->SetLayer( klayer ); track->SetNetCode( GetNetCode( elem.net ) ); } else { DRAWSEGMENT* ds = HelperCreateAndAddDrawsegment( elem.component ); ds->SetShape( STROKE_T::S_SEGMENT ); ds->SetStart( elem.start ); ds->SetEnd( elem.end ); ds->SetWidth( elem.width ); ds->SetLayer( klayer ); HelperDrawsegmentSetLocalCoord( ds, elem.component ); } reader.SkipSubrecord(); } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Tracks6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseTexts6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { ATEXT6 elem( reader ); if( elem.fonttype == ALTIUM_TEXT_TYPE::BARCODE ) { wxLogWarning( wxString::Format( _( "Ignore Barcode on Altium layer %d because it is not supported right now." ), elem.layer ) ); continue; } // TODO: better approach to select if item belongs to a MODULE EDA_TEXT* tx = nullptr; BOARD_ITEM* itm = nullptr; if( elem.component == ALTIUM_COMPONENT_NONE ) { TEXTE_PCB* txp = new TEXTE_PCB( m_board ); tx = txp; itm = txp; m_board->Add( txp, ADD_MODE::APPEND ); } else { if( m_components.size() <= elem.component ) { THROW_IO_ERROR( wxString::Format( "Texts6 stream tries to access component id %d of %d existing components", elem.component, m_components.size() ) ); } MODULE* module = m_components.at( elem.component ); TEXTE_MODULE* txm; if( elem.isDesignator ) { txm = &module->Reference(); } else if( elem.isComment ) { txm = &module->Value(); } else { txm = new TEXTE_MODULE( module ); module->Add( txm, ADD_MODE::APPEND ); } txm->SetKeepUpright( false ); tx = txm; itm = txm; } wxString trimmedText = elem.text.Trim(); if( !elem.isDesignator && trimmedText.CmpNoCase( ".Designator" ) == 0 ) { tx->SetText( "${REFERENCE}" ); } else if( !elem.isComment && trimmedText.CmpNoCase( ".Comment" ) == 0 ) { tx->SetText( "${VALUE}" ); } else if( trimmedText.CmpNoCase( ".Layer_Name" ) == 0 ) { tx->SetText( "${LAYER}" ); } else { tx->SetText( elem.text ); } itm->SetPosition( elem.position ); tx->SetTextAngle( elem.rotation * 10. ); if( elem.component != ALTIUM_COMPONENT_NONE ) { TEXTE_MODULE* txm = dynamic_cast( tx ); if( txm ) { double orientation = static_cast( txm->GetParent() )->GetOrientation(); txm->SetTextAngle( txm->GetTextAngle() - orientation ); txm->SetLocalCoord(); } } PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Text on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), elem.layer ) ); klayer = Eco1_User; } itm->SetLayer( klayer ); if( elem.fonttype == ALTIUM_TEXT_TYPE::TRUETYPE ) { // TODO: why is this required? Somehow, truetype size is calculated differently tx->SetTextSize( wxSize( elem.height / 2, elem.height / 2 ) ); } else { tx->SetTextSize( wxSize( elem.height, elem.height ) ); // TODO: parse text width } tx->SetTextThickness( elem.strokewidth ); tx->SetBold( elem.isBold ); tx->SetItalic( elem.isItalic ); tx->SetMirrored( elem.isMirrored ); if( elem.isDesignator || elem.isComment ) // That's just a bold assumption { tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); } else { switch( elem.textposition ) { case ALTIUM_TEXT_POSITION::LEFT_TOP: case ALTIUM_TEXT_POSITION::LEFT_CENTER: case ALTIUM_TEXT_POSITION::LEFT_BOTTOM: tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); break; case ALTIUM_TEXT_POSITION::CENTER_TOP: case ALTIUM_TEXT_POSITION::CENTER_CENTER: case ALTIUM_TEXT_POSITION::CENTER_BOTTOM: tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_CENTER ); break; case ALTIUM_TEXT_POSITION::RIGHT_TOP: case ALTIUM_TEXT_POSITION::RIGHT_CENTER: case ALTIUM_TEXT_POSITION::RIGHT_BOTTOM: tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_RIGHT ); break; default: wxLogError( "Unexpected horizontal Text Position. This should never happen." ); break; } switch( elem.textposition ) { case ALTIUM_TEXT_POSITION::LEFT_TOP: case ALTIUM_TEXT_POSITION::CENTER_TOP: case ALTIUM_TEXT_POSITION::RIGHT_TOP: tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_TOP ); break; case ALTIUM_TEXT_POSITION::LEFT_CENTER: case ALTIUM_TEXT_POSITION::CENTER_CENTER: case ALTIUM_TEXT_POSITION::RIGHT_CENTER: tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_CENTER ); break; case ALTIUM_TEXT_POSITION::LEFT_BOTTOM: case ALTIUM_TEXT_POSITION::CENTER_BOTTOM: case ALTIUM_TEXT_POSITION::RIGHT_BOTTOM: tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); break; default: wxLogError( "Unexpected vertical text position. This should never happen." ); break; } } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Texts6 stream is not fully parsed" ); } } void ALTIUM_PCB::ParseFills6Data( const CFB::CompoundFileReader& aReader, const CFB::COMPOUND_FILE_ENTRY* aEntry ) { ALTIUM_PARSER reader( aReader, aEntry ); while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ ) { AFILL6 elem( reader ); wxPoint p11( elem.pos1.x, elem.pos1.y ); wxPoint p12( elem.pos1.x, elem.pos2.y ); wxPoint p22( elem.pos2.x, elem.pos2.y ); wxPoint p21( elem.pos2.x, elem.pos1.y ); wxPoint center( ( elem.pos1.x + elem.pos2.x ) / 2, ( elem.pos1.y + elem.pos2.y ) / 2 ); PCB_LAYER_ID klayer = GetKicadLayer( elem.layer ); if( klayer == UNDEFINED_LAYER ) { wxLogWarning( wxString::Format( _( "Fill on Altium layer %d has no KiCad equivalent. Put it on Eco1_User instead" ), elem.layer ) ); klayer = Eco1_User; } if( elem.is_keepout || elem.net != ALTIUM_NET_UNCONNECTED ) { ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board ); m_board->Add( zone, ADD_MODE::APPEND ); zone->SetNetCode( GetNetCode( elem.net ) ); zone->SetLayer( klayer ); zone->SetPosition( elem.pos1 ); zone->SetPriority( 1000 ); const int outlineIdx = -1; // this is the id of the copper zone main outline zone->AppendCorner( p11, outlineIdx ); zone->AppendCorner( p12, outlineIdx ); zone->AppendCorner( p22, outlineIdx ); zone->AppendCorner( p21, outlineIdx ); // should be correct? zone->SetZoneClearance( 0 ); zone->SetPadConnection( ZONE_CONNECTION::FULL ); if( elem.is_keepout ) { zone->SetIsKeepout( true ); zone->SetDoNotAllowTracks( false ); zone->SetDoNotAllowVias( false ); zone->SetDoNotAllowPads( false ); zone->SetDoNotAllowFootprints( false ); zone->SetDoNotAllowCopperPour( true ); } if( elem.rotation != 0. ) { zone->Rotate( center, elem.rotation * 10 ); } zone->SetHatch( ZONE_HATCH_STYLE::DIAGONAL_EDGE, ZONE_CONTAINER::GetDefaultHatchPitch(), true ); } else { DRAWSEGMENT* ds = new DRAWSEGMENT( m_board ); m_board->Add( ds, ADD_MODE::APPEND ); ds->SetShape( STROKE_T::S_POLYGON ); ds->SetLayer( klayer ); ds->SetWidth( 0 ); ds->SetPolyPoints( { p11, p12, p22, p21 } ); if( elem.rotation != 0. ) { ds->Rotate( center, elem.rotation * 10 ); } } } if( reader.GetRemainingBytes() != 0 ) { THROW_IO_ERROR( "Fills6 stream is not fully parsed" ); } }