/* * 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 "altium_parser_sch.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include const wxPoint GetRelativePosition( const wxPoint& aPosition, const SCH_COMPONENT* aComponent ) { TRANSFORM t = aComponent->GetTransform().InverseTransform(); return t.TransformCoordinate( aPosition - aComponent->GetPosition() ); } COLOR4D GetColorFromInt( int color ) { int red = color & 0x0000FF; int green = ( color & 0x00FF00 ) >> 8; int blue = ( color & 0xFF0000 ) >> 16; return COLOR4D().FromCSSRGBA( red, green, blue, 1.0 ); } SCH_ALTIUM_PLUGIN::SCH_ALTIUM_PLUGIN() { m_rootSheet = nullptr; m_currentSheet = nullptr; m_schematic = nullptr; } SCH_ALTIUM_PLUGIN::~SCH_ALTIUM_PLUGIN() { } const wxString SCH_ALTIUM_PLUGIN::GetName() const { return "Altium"; } const wxString SCH_ALTIUM_PLUGIN::GetFileExtension() const { return "SchDoc"; } const wxString SCH_ALTIUM_PLUGIN::GetLibraryFileExtension() const { return "SchLib"; } int SCH_ALTIUM_PLUGIN::GetModifyHash() const { return 0; } bool SCH_ALTIUM_PLUGIN::CheckHeader( const wxString& aFileName ) { // TODO return true; } wxString SCH_ALTIUM_PLUGIN::getLibName() { if( m_libName.IsEmpty() ) { // Try to come up with a meaningful name m_libName = m_schematic->Prj().GetProjectName(); if( m_libName.IsEmpty() ) { wxFileName fn( m_rootSheet->GetFileName() ); m_libName = fn.GetName(); } if( m_libName.IsEmpty() ) m_libName = "noname"; m_libName += "-altium-import"; m_libName = LIB_ID::FixIllegalChars( m_libName, true ); } return m_libName; } wxFileName SCH_ALTIUM_PLUGIN::getLibFileName() { wxFileName fn( m_schematic->Prj().GetProjectPath(), getLibName(), KiCadSymbolLibFileExtension ); return fn; } SCH_SHEET* SCH_ALTIUM_PLUGIN::Load( const wxString& aFileName, SCHEMATIC* aSchematic, SCH_SHEET* aAppendToMe, const PROPERTIES* aProperties ) { wxASSERT( !aFileName || aSchematic != NULL ); wxFileName fileName( aFileName ); fileName.SetExt( ".kicad_sch" ); m_schematic = aSchematic; // Delete on exception, if I own m_rootSheet, according to aAppendToMe std::unique_ptr deleter( aAppendToMe ? nullptr : m_rootSheet ); if( aAppendToMe ) { wxCHECK_MSG( aSchematic->IsValid(), nullptr, "Can't append to a schematic with no root!" ); m_rootSheet = &aSchematic->Root(); } else { m_rootSheet = new SCH_SHEET( aSchematic ); m_rootSheet->SetFileName( fileName.GetFullPath() ); } if( !m_rootSheet->GetScreen() ) { SCH_SCREEN* screen = new SCH_SCREEN( m_schematic ); screen->SetFileName( aFileName ); m_rootSheet->SetScreen( screen ); } SYMBOL_LIB_TABLE* libTable = m_schematic->Prj().SchSymbolLibTable(); wxCHECK_MSG( libTable, NULL, "Could not load symbol lib table." ); m_pi.set( SCH_IO_MGR::FindPlugin( SCH_IO_MGR::SCH_KICAD ) ); /// @note No check is being done here to see if the existing symbol library exists so this /// will overwrite the existing one. if( !libTable->HasLibrary( getLibName() ) ) { // Create a new empty symbol library. m_pi->CreateSymbolLib( getLibFileName().GetFullPath() ); wxString libTableUri = "${KIPRJMOD}/" + getLibFileName().GetFullName(); // Add the new library to the project symbol library table. libTable->InsertRow( new SYMBOL_LIB_TABLE_ROW( getLibName(), libTableUri, wxString( "KiCad" ) ) ); // Save project symbol library table. wxFileName fn( m_schematic->Prj().GetProjectPath(), SYMBOL_LIB_TABLE::GetSymbolLibTableFileName() ); // So output formatter goes out of scope and closes the file before reloading. { FILE_OUTPUTFORMATTER formatter( fn.GetFullPath() ); libTable->Format( &formatter, 0 ); } // Reload the symbol library table. m_schematic->Prj().SetElem( PROJECT::ELEM_SYMBOL_LIB_TABLE, NULL ); m_schematic->Prj().SchSymbolLibTable(); } m_currentSheet = m_rootSheet; ParseAltiumSch( aFileName ); m_pi->SaveLibrary( getLibFileName().GetFullPath() ); return m_rootSheet; } /*wxString SCH_EAGLE_PLUGIN::fixSymbolName( const wxString& aName ) { wxString ret = LIB_ID::FixIllegalChars( aName, LIB_ID::ID_SCH ); return ret; }*/ void SCH_ALTIUM_PLUGIN::ParseAltiumSch( const wxString& aFileName ) { // 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( reader ); } catch( CFB::CFBException& exception ) { THROW_IO_ERROR( exception.what() ); } } void SCH_ALTIUM_PLUGIN::Parse( const CFB::CompoundFileReader& aReader ) { const CFB::COMPOUND_FILE_ENTRY* file = FindStream( aReader, "FileHeader" ); if( file == nullptr ) THROW_IO_ERROR( "FileHeader not found" ); ALTIUM_PARSER reader( aReader, file ); if( reader.GetRemainingBytes() <= 0 ) { THROW_IO_ERROR( "FileHeader does not contain any data" ); } else { std::map properties = reader.ReadProperties(); int recordId = ALTIUM_PARSER::PropertiesReadInt( properties, "RECORD", 0 ); ALTIUM_SCH_RECORD record = static_cast( recordId ); if( record != ALTIUM_SCH_RECORD::HEADER ) THROW_IO_ERROR( "Header expected" ); } // Prepare some local variables wxASSERT( m_altiumPortsCurrentSheet.empty() ); wxASSERT( !m_currentTitleBlock ); m_currentTitleBlock = std::make_unique(); // index is required required to resolve OWNERINDEX for( int index = 0; reader.GetRemainingBytes() > 0; index++ ) { std::map properties = reader.ReadProperties(); int recordId = ALTIUM_PARSER::PropertiesReadInt( properties, "RECORD", 0 ); ALTIUM_SCH_RECORD record = static_cast( recordId ); // see: https://github.com/vadmium/python-altium/blob/master/format.md switch( record ) { case ALTIUM_SCH_RECORD::HEADER: THROW_IO_ERROR( "Header already parsed" ); case ALTIUM_SCH_RECORD::COMPONENT: ParseComponent( index, properties ); break; case ALTIUM_SCH_RECORD::PIN: ParsePin( properties ); break; case ALTIUM_SCH_RECORD::IEEE_SYMBOL: break; case ALTIUM_SCH_RECORD::LABEL: ParseLabel( properties ); break; case ALTIUM_SCH_RECORD::BEZIER: ParseBezier( properties ); break; case ALTIUM_SCH_RECORD::POLYLINE: ParsePolyline( properties ); break; case ALTIUM_SCH_RECORD::POLYGON: ParsePolygon( properties ); break; case ALTIUM_SCH_RECORD::ELLIPSE: break; case ALTIUM_SCH_RECORD::PIECHART: break; case ALTIUM_SCH_RECORD::ROUND_RECTANGLE: ParseRoundRectangle( properties ); break; case ALTIUM_SCH_RECORD::ELLIPTICAL_ARC: break; case ALTIUM_SCH_RECORD::ARC: ParseArc( properties ); break; case ALTIUM_SCH_RECORD::LINE: ParseLine( properties ); break; case ALTIUM_SCH_RECORD::RECTANGLE: ParseRectangle( properties ); break; case ALTIUM_SCH_RECORD::SHEET_SYMBOL: ParseSheetSymbol( index, properties ); break; case ALTIUM_SCH_RECORD::SHEET_ENTRY: ParseSheetEntry( properties ); break; case ALTIUM_SCH_RECORD::POWER_PORT: ParsePowerPort( properties ); break; case ALTIUM_SCH_RECORD::PORT: // Ports are parsed after the sheet was parsed // This is required because we need all electrical connection points before placing. m_altiumPortsCurrentSheet.emplace_back( properties ); break; case ALTIUM_SCH_RECORD::NO_ERC: ParseNoERC( properties ); break; case ALTIUM_SCH_RECORD::NET_LABEL: ParseNetLabel( properties ); break; case ALTIUM_SCH_RECORD::BUS: ParseBus( properties ); break; case ALTIUM_SCH_RECORD::WIRE: ParseWire( properties ); break; case ALTIUM_SCH_RECORD::TEXT_FRAME: break; case ALTIUM_SCH_RECORD::JUNCTION: ParseJunction( properties ); break; case ALTIUM_SCH_RECORD::IMAGE: break; case ALTIUM_SCH_RECORD::SHEET: ParseSheet( properties ); break; case ALTIUM_SCH_RECORD::SHEET_NAME: ParseSheetName( properties ); break; case ALTIUM_SCH_RECORD::FILE_NAME: ParseFileName( properties ); break; case ALTIUM_SCH_RECORD::DESIGNATOR: ParseDesignator( properties ); break; case ALTIUM_SCH_RECORD::BUS_ENTRY: ParseBusEntry( properties ); break; case ALTIUM_SCH_RECORD::TEMPLATE: break; case ALTIUM_SCH_RECORD::PARAMETER: ParseParameter( properties ); break; case ALTIUM_SCH_RECORD::WARNING_SIGN: break; case ALTIUM_SCH_RECORD::IMPLEMENTATION_LIST: break; case ALTIUM_SCH_RECORD::IMPLEMENTATION: break; case ALTIUM_SCH_RECORD::RECORD_46: break; case ALTIUM_SCH_RECORD::RECORD_47: break; case ALTIUM_SCH_RECORD::RECORD_48: break; case ALTIUM_SCH_RECORD::RECORD_209: break; case ALTIUM_SCH_RECORD::RECORD_215: break; case ALTIUM_SCH_RECORD::RECORD_216: break; case ALTIUM_SCH_RECORD::RECORD_217: break; case ALTIUM_SCH_RECORD::RECORD_218: break; case ALTIUM_SCH_RECORD::RECORD_226: break; default: wxLogError( wxString::Format( "Unknown Record id: %d", recordId ) ); break; } } if( reader.HasParsingError() ) THROW_IO_ERROR( "stream was not parsed correctly!" ); if( reader.GetRemainingBytes() != 0 ) THROW_IO_ERROR( "stream is not fully parsed" ); // assign LIB_PART -> COMPONENT for( auto component : m_components ) { auto kpart = m_symbols.find( component.first ); if( kpart == m_symbols.end() ) THROW_IO_ERROR( "every component should have a symbol attached" ); m_pi->SaveSymbol( getLibFileName().GetFullPath(), new LIB_PART( *( kpart->second ) ), m_properties.get() ); component.second->SetLibSymbol( kpart->second ); } // Handle title blocks m_currentSheet->GetScreen()->SetTitleBlock( *m_currentTitleBlock ); m_currentTitleBlock.reset(); // Handle Ports for( const ASCH_PORT& port : m_altiumPortsCurrentSheet ) ParsePort( port ); m_altiumPortsCurrentSheet.clear(); m_components.clear(); m_symbols.clear(); // Otherwise we cannot save the imported sheet? m_currentSheet->SetModified(); } bool SCH_ALTIUM_PLUGIN::IsComponentPartVisible( int aOwnerindex, int aOwnerpartdisplaymode ) const { const auto& component = m_altiumComponents.find( aOwnerindex ); if( component == m_altiumComponents.end() ) return false; return component->second.displaymode == aOwnerpartdisplaymode; } void SCH_ALTIUM_PLUGIN::ParseComponent( int aIndex, const std::map& aProperties ) { auto pair = m_altiumComponents.insert( { aIndex, ASCH_COMPONENT( aProperties ) } ); const ASCH_COMPONENT& elem = pair.first->second; // TODO: this is a hack until we correctly apply all transformations to every element wxString name = wxString::Format( "%d%s_%s", elem.orientation, elem.isMirrored ? "_mirrored" : "", elem.libreference ); LIB_ID libId = AltiumToKiCadLibID( getLibName(), name ); LIB_PART* kpart = new LIB_PART( wxEmptyString ); kpart->SetName( name ); kpart->SetDescription( elem.componentdescription ); kpart->SetLibId( libId ); m_symbols.insert( { aIndex, kpart } ); // each component has its own symbol for now SCH_COMPONENT* component = new SCH_COMPONENT(); component->SetPosition( elem.location + m_sheetOffset ); //component->SetOrientation( elem.orientation ); // TODO: keep it simple for now, and only set position component->SetLibId( libId ); //component->SetLibSymbol( kpart ); // this has to be done after parsing the LIB_PART! component->SetUnit( elem.currentpartid ); m_currentSheet->GetScreen()->Append( component ); m_components.insert( { aIndex, component } ); } void SCH_ALTIUM_PLUGIN::ParsePin( const std::map& aProperties ) { ASCH_PIN elem( aProperties ); const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Pin has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); LIB_PIN* pin = new LIB_PIN( symbol->second ); symbol->second->AddDrawItem( pin ); pin->SetUnit( elem.ownerpartid ); pin->SetName( elem.name ); pin->SetNumber( elem.designator ); pin->SetLength( elem.pinlength ); wxPoint pinLocation = elem.location; // the location given is not the connection point! switch( elem.orientation ) { case ASCH_RECORD_ORIENTATION::RIGHTWARDS: pin->SetOrientation( DrawPinOrient::PIN_LEFT ); pinLocation.x += elem.pinlength; break; case ASCH_RECORD_ORIENTATION::UPWARDS: pin->SetOrientation( DrawPinOrient::PIN_DOWN ); pinLocation.y -= elem.pinlength; break; case ASCH_RECORD_ORIENTATION::LEFTWARDS: pin->SetOrientation( DrawPinOrient::PIN_RIGHT ); pinLocation.x -= elem.pinlength; break; case ASCH_RECORD_ORIENTATION::DOWNWARDS: pin->SetOrientation( DrawPinOrient::PIN_UP ); pinLocation.y += elem.pinlength; break; default: wxLogWarning( "Pin has unexpected orientation" ); break; } // TODO: position can be sometimes off a little bit! pin->SetPosition( GetRelativePosition( pinLocation + m_sheetOffset, component ) ); // TODO: the following fix is even worse for now? // pin->SetPosition( GetRelativePosition( elem.kicadLocation, component ) ); switch( elem.electrical ) { case ASCH_PIN_ELECTRICAL::INPUT: pin->SetType( ELECTRICAL_PINTYPE::PT_INPUT ); break; case ASCH_PIN_ELECTRICAL::BIDI: pin->SetType( ELECTRICAL_PINTYPE::PT_BIDI ); break; case ASCH_PIN_ELECTRICAL::OUTPUT: pin->SetType( ELECTRICAL_PINTYPE::PT_OUTPUT ); break; case ASCH_PIN_ELECTRICAL::OPEN_COLLECTOR: pin->SetType( ELECTRICAL_PINTYPE::PT_OPENCOLLECTOR ); break; case ASCH_PIN_ELECTRICAL::PASSIVE: pin->SetType( ELECTRICAL_PINTYPE::PT_PASSIVE ); break; case ASCH_PIN_ELECTRICAL::TRISTATE: pin->SetType( ELECTRICAL_PINTYPE::PT_TRISTATE ); break; case ASCH_PIN_ELECTRICAL::OPEN_EMITTER: pin->SetType( ELECTRICAL_PINTYPE::PT_OPENEMITTER ); break; case ASCH_PIN_ELECTRICAL::POWER: pin->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN ); break; case ASCH_PIN_ELECTRICAL::UNKNOWN: default: pin->SetType( ELECTRICAL_PINTYPE::PT_UNSPECIFIED ); wxLogWarning( "Pin has unexpected electrical type" ); break; } if( elem.symbolOuterEdge == ASCH_PIN_SYMBOL_OUTEREDGE::UNKNOWN ) wxLogWarning( "Pin has unexpected outer edge type" ); if( elem.symbolInnerEdge == ASCH_PIN_SYMBOL_INNEREDGE::UNKNOWN ) wxLogWarning( "Pin has unexpected inner edge type" ); if( elem.symbolOuterEdge == ASCH_PIN_SYMBOL_OUTEREDGE::NEGATED ) { switch( elem.symbolInnerEdge ) { case ASCH_PIN_SYMBOL_INNEREDGE::CLOCK: pin->SetShape( GRAPHIC_PINSHAPE::INVERTED_CLOCK ); break; default: pin->SetShape( GRAPHIC_PINSHAPE::INVERTED ); break; } } else if( elem.symbolOuterEdge == ASCH_PIN_SYMBOL_OUTEREDGE::LOW_INPUT ) { switch( elem.symbolInnerEdge ) { case ASCH_PIN_SYMBOL_INNEREDGE::CLOCK: pin->SetShape( GRAPHIC_PINSHAPE::CLOCK_LOW ); break; default: pin->SetShape( GRAPHIC_PINSHAPE::INPUT_LOW ); break; } } else if( elem.symbolOuterEdge == ASCH_PIN_SYMBOL_OUTEREDGE::LOW_OUTPUT ) { pin->SetShape( GRAPHIC_PINSHAPE::OUTPUT_LOW ); } else { switch( elem.symbolInnerEdge ) { case ASCH_PIN_SYMBOL_INNEREDGE::CLOCK: pin->SetShape( GRAPHIC_PINSHAPE::CLOCK ); break; default: pin->SetShape( GRAPHIC_PINSHAPE::LINE ); // nothing to do break; } } } void SetEdaTextJustification( EDA_TEXT* text, ASCH_LABEL_JUSTIFICATION justification ) { switch( justification ) { default: case ASCH_LABEL_JUSTIFICATION::UNKNOWN: case ASCH_LABEL_JUSTIFICATION::BOTTOM_LEFT: case ASCH_LABEL_JUSTIFICATION::BOTTOM_CENTER: case ASCH_LABEL_JUSTIFICATION::BOTTOM_RIGHT: text->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); break; case ASCH_LABEL_JUSTIFICATION::CENTER_LEFT: case ASCH_LABEL_JUSTIFICATION::CENTER_CENTER: case ASCH_LABEL_JUSTIFICATION::CENTER_RIGHT: text->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_CENTER ); break; case ASCH_LABEL_JUSTIFICATION::TOP_LEFT: case ASCH_LABEL_JUSTIFICATION::TOP_CENTER: case ASCH_LABEL_JUSTIFICATION::TOP_RIGHT: text->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_TOP ); break; } switch( justification ) { default: case ASCH_LABEL_JUSTIFICATION::UNKNOWN: case ASCH_LABEL_JUSTIFICATION::BOTTOM_LEFT: case ASCH_LABEL_JUSTIFICATION::CENTER_LEFT: case ASCH_LABEL_JUSTIFICATION::TOP_LEFT: text->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); break; case ASCH_LABEL_JUSTIFICATION::BOTTOM_CENTER: case ASCH_LABEL_JUSTIFICATION::CENTER_CENTER: case ASCH_LABEL_JUSTIFICATION::TOP_CENTER: text->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_CENTER ); break; case ASCH_LABEL_JUSTIFICATION::BOTTOM_RIGHT: case ASCH_LABEL_JUSTIFICATION::CENTER_RIGHT: case ASCH_LABEL_JUSTIFICATION::TOP_RIGHT: text->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_RIGHT ); break; } } void SCH_ALTIUM_PLUGIN::ParseLabel( const std::map& aProperties ) { ASCH_LABEL elem( aProperties ); // TODO: text variable support if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { SCH_TEXT* text = new SCH_TEXT( elem.location + m_sheetOffset, elem.text ); text->SetMirrored( elem.isMirrored ); SetEdaTextJustification( text, elem.justification ); size_t fontId = static_cast( elem.fontId ); if( m_altiumSheet && fontId > 0 && fontId <= m_altiumSheet->fonts.size() ) { const ASCH_SHEET_FONT& font = m_altiumSheet->fonts.at( fontId - 1 ); text->SetItalic( font.italic ); text->SetBold( font.bold ); text->SetTextSize( { font.size / 2, font.size / 2 } ); } text->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( text ); } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Label has non-existent ownerindex %d", elem.ownerindex ) ); return; } const auto& component = m_components.at( symbol->first ); LIB_TEXT* text = new LIB_TEXT( symbol->second ); symbol->second->AddDrawItem( text ); text->SetUnit( elem.ownerpartid ); text->SetPosition( GetRelativePosition( elem.location + m_sheetOffset, component ) ); text->SetText( elem.text ); SetEdaTextJustification( text, elem.justification ); size_t fontId = static_cast( elem.fontId ); if( m_altiumSheet && fontId > 0 && fontId <= m_altiumSheet->fonts.size() ) { const ASCH_SHEET_FONT& font = m_altiumSheet->fonts.at( fontId - 1 ); text->SetItalic( font.italic ); text->SetBold( font.bold ); text->SetTextSize( { font.size / 2, font.size / 2 } ); } } } void SCH_ALTIUM_PLUGIN::ParseBezier( const std::map& aProperties ) { ASCH_BEZIER elem( aProperties ); if( elem.points.size() < 2 ) { wxLogWarning( wxString::Format( "Bezier has %d control points. At least 2 are expected.", static_cast( elem.points.size() ) ) ); return; } if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { for( size_t i = 0; i + 1 < elem.points.size(); i += 3 ) { if( i + 2 == elem.points.size() ) { // special case: single line SCH_LINE* line = new SCH_LINE( elem.points.at( i ) + m_sheetOffset, SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( elem.points.at( i + 1 ) + m_sheetOffset ); line->SetLineWidth( elem.lineWidth ); line->SetLineStyle( PLOT_DASH_TYPE::SOLID ); line->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( line ); } else { // simulate bezier using line segments std::vector bezierPoints; std::vector polyPoints; for( size_t j = i; j < elem.points.size() && j < i + 4; j++ ) { bezierPoints.push_back( elem.points.at( j ) + m_sheetOffset ); } BEZIER_POLY converter( bezierPoints ); converter.GetPoly( polyPoints ); for( size_t k = 0; k + 1 < polyPoints.size(); k++ ) { SCH_LINE* line = new SCH_LINE( polyPoints.at( k ) + m_sheetOffset, SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( polyPoints.at( k + 1 ) + m_sheetOffset ); line->SetLineWidth( elem.lineWidth ); line->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( line ); } } } } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Bezier has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); for( size_t i = 0; i + 1 < elem.points.size(); i += 3 ) { if( i + 2 == elem.points.size() ) { // special case: single line LIB_POLYLINE* line = new LIB_POLYLINE( symbol->second ); symbol->second->AddDrawItem( line ); line->SetUnit( elem.ownerpartid ); for( size_t j = i; j < elem.points.size() && j < i + 2; j++ ) { line->AddPoint( GetRelativePosition( elem.points.at( j ) + m_sheetOffset, component ) ); } line->SetWidth( elem.lineWidth ); } else { // bezier always has maximum of 4 control points LIB_BEZIER* bezier = new LIB_BEZIER( symbol->second ); symbol->second->AddDrawItem( bezier ); bezier->SetUnit( elem.ownerpartid ); for( size_t j = i; j < elem.points.size() && j < i + 4; j++ ) { bezier->AddPoint( GetRelativePosition( elem.points.at( j ) + m_sheetOffset, component ) ); } bezier->SetWidth( elem.lineWidth ); } } } } void SCH_ALTIUM_PLUGIN::ParsePolyline( const std::map& aProperties ) { ASCH_POLYLINE elem( aProperties ); if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { PLOT_DASH_TYPE dashType = PLOT_DASH_TYPE::DEFAULT; switch( elem.linestyle ) { default: case ASCH_POLYLINE_LINESTYLE::SOLID: dashType = PLOT_DASH_TYPE::SOLID; break; case ASCH_POLYLINE_LINESTYLE::DASHED: dashType = PLOT_DASH_TYPE::DASH; break; case ASCH_POLYLINE_LINESTYLE::DOTTED: dashType = PLOT_DASH_TYPE::DOT; break; case ASCH_POLYLINE_LINESTYLE::DASH_DOTTED: dashType = PLOT_DASH_TYPE::DASHDOT; break; } for( size_t i = 0; i + 1 < elem.points.size(); i++ ) { SCH_LINE* line = new SCH_LINE( elem.points.at( i ) + m_sheetOffset, SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( elem.points.at( i + 1 ) + m_sheetOffset ); line->SetLineWidth( elem.lineWidth ); line->SetLineStyle( dashType ); line->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( line ); } } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Polyline has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); LIB_POLYLINE* line = new LIB_POLYLINE( symbol->second ); symbol->second->AddDrawItem( line ); line->SetUnit( elem.ownerpartid ); for( wxPoint& point : elem.points ) { line->AddPoint( GetRelativePosition( point + m_sheetOffset, component ) ); } line->SetWidth( elem.lineWidth ); } } void SCH_ALTIUM_PLUGIN::ParsePolygon( const std::map& aProperties ) { ASCH_POLYGON elem( aProperties ); if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { // TODO: we cannot fill this polygon, only draw it for now for( size_t i = 0; i + 1 < elem.points.size(); i++ ) { SCH_LINE* line = new SCH_LINE( elem.points.at( i ) + m_sheetOffset, SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( elem.points.at( i + 1 ) + m_sheetOffset ); line->SetLineWidth( elem.lineWidth ); line->SetLineStyle( PLOT_DASH_TYPE::SOLID ); line->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( line ); } // close polygon SCH_LINE* line = new SCH_LINE( elem.points.front() + m_sheetOffset, SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( elem.points.back() + m_sheetOffset ); line->SetLineWidth( elem.lineWidth ); line->SetLineStyle( PLOT_DASH_TYPE::SOLID ); line->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( line ); } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Polygon has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); LIB_POLYLINE* line = new LIB_POLYLINE( symbol->second ); symbol->second->AddDrawItem( line ); line->SetUnit( elem.ownerpartid ); for( wxPoint& point : elem.points ) line->AddPoint( GetRelativePosition( point + m_sheetOffset, component ) ); line->AddPoint( GetRelativePosition( elem.points.front() + m_sheetOffset, component ) ); line->SetWidth( elem.lineWidth ); if( !elem.isSolid ) line->SetFillMode( FILL_TYPE::NO_FILL ); else if( elem.color == elem.areacolor ) line->SetFillMode( FILL_TYPE::FILLED_SHAPE ); else line->SetFillMode( FILL_TYPE::FILLED_WITH_BG_BODYCOLOR ); } } void SCH_ALTIUM_PLUGIN::ParseRoundRectangle( const std::map& aProperties ) { ASCH_ROUND_RECTANGLE elem( aProperties ); wxPoint sheetTopRight = elem.topRight + m_sheetOffset; wxPoint sheetBottomLeft = elem.bottomLeft + m_sheetOffset; if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { const wxPoint topLeft = { sheetBottomLeft.x, sheetTopRight.y }; const wxPoint bottomRight = { sheetTopRight.x, sheetBottomLeft.y }; // TODO: we cannot fill this rectangle, only draw it for now // TODO: misses rounded edges SCH_LINE* lineTop = new SCH_LINE( sheetTopRight, SCH_LAYER_ID::LAYER_NOTES ); lineTop->SetEndPoint( topLeft ); lineTop->SetLineWidth( elem.lineWidth ); lineTop->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineTop->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineTop ); SCH_LINE* lineBottom = new SCH_LINE( sheetBottomLeft, SCH_LAYER_ID::LAYER_NOTES ); lineBottom->SetEndPoint( bottomRight ); lineBottom->SetLineWidth( elem.lineWidth ); lineBottom->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineBottom->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineBottom ); SCH_LINE* lineRight = new SCH_LINE( sheetTopRight, SCH_LAYER_ID::LAYER_NOTES ); lineRight->SetEndPoint( bottomRight ); lineRight->SetLineWidth( elem.lineWidth ); lineRight->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineRight->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineRight ); SCH_LINE* lineLeft = new SCH_LINE( sheetBottomLeft, SCH_LAYER_ID::LAYER_NOTES ); lineLeft->SetEndPoint( topLeft ); lineLeft->SetLineWidth( elem.lineWidth ); lineLeft->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineLeft->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineLeft ); } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Rounded Rectangle has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); // TODO: misses rounded edges LIB_RECTANGLE* rect = new LIB_RECTANGLE( symbol->second ); symbol->second->AddDrawItem( rect ); rect->SetUnit( elem.ownerpartid ); rect->SetPosition( GetRelativePosition( elem.topRight + m_sheetOffset, component ) ); rect->SetEnd( GetRelativePosition( elem.bottomLeft + m_sheetOffset, component ) ); rect->SetWidth( elem.lineWidth ); if( !elem.isSolid ) rect->SetFillMode( FILL_TYPE::NO_FILL ); else if( elem.color == elem.areacolor ) rect->SetFillMode( FILL_TYPE::FILLED_SHAPE ); else rect->SetFillMode( FILL_TYPE::FILLED_WITH_BG_BODYCOLOR ); } } void SCH_ALTIUM_PLUGIN::ParseArc( const std::map& aProperties ) { ASCH_ARC elem( aProperties ); if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { wxLogError( "Arc drawing is not possible for now on schematic." ); } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Arc has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); if( elem.startAngle == 0 && ( elem.endAngle == 0 || elem.endAngle == 360 ) ) { LIB_CIRCLE* circle = new LIB_CIRCLE( symbol->second ); symbol->second->AddDrawItem( circle ); circle->SetUnit( elem.ownerpartid ); circle->SetPosition( GetRelativePosition( elem.center + m_sheetOffset, component ) ); circle->SetRadius( elem.radius ); circle->SetWidth( elem.lineWidth ); } else { LIB_ARC* arc = new LIB_ARC( symbol->second ); symbol->second->AddDrawItem( arc ); arc->SetUnit( elem.ownerpartid ); // TODO: correct? arc->SetPosition( GetRelativePosition( elem.center + m_sheetOffset, component ) ); arc->SetRadius( elem.radius ); arc->SetFirstRadiusAngle( elem.startAngle * 10. ); arc->SetSecondRadiusAngle( elem.endAngle * 10. ); } } } void SCH_ALTIUM_PLUGIN::ParseLine( const std::map& aProperties ) { ASCH_LINE elem( aProperties ); if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { // close polygon SCH_LINE* line = new SCH_LINE( elem.point1 + m_sheetOffset, SCH_LAYER_ID::LAYER_NOTES ); line->SetEndPoint( elem.point2 + m_sheetOffset ); line->SetLineWidth( elem.lineWidth ); line->SetLineStyle( PLOT_DASH_TYPE::SOLID ); // TODO? line->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( line ); } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Line has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); LIB_POLYLINE* line = new LIB_POLYLINE( symbol->second ); symbol->second->AddDrawItem( line ); line->SetUnit( elem.ownerpartid ); line->AddPoint( GetRelativePosition( elem.point1 + m_sheetOffset, component ) ); line->AddPoint( GetRelativePosition( elem.point2 + m_sheetOffset, component ) ); line->SetWidth( elem.lineWidth ); } } void SCH_ALTIUM_PLUGIN::ParseRectangle( const std::map& aProperties ) { ASCH_RECTANGLE elem( aProperties ); wxPoint sheetTopRight = elem.topRight + m_sheetOffset; wxPoint sheetBottomLeft = elem.bottomLeft + m_sheetOffset; if( elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { const wxPoint topLeft = { sheetBottomLeft.x, sheetTopRight.y }; const wxPoint bottomRight = { sheetTopRight.x, sheetBottomLeft.y }; // TODO: we cannot fill this rectangle, only draw it for now SCH_LINE* lineTop = new SCH_LINE( sheetTopRight, SCH_LAYER_ID::LAYER_NOTES ); lineTop->SetEndPoint( topLeft ); lineTop->SetLineWidth( elem.lineWidth ); lineTop->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineTop->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineTop ); SCH_LINE* lineBottom = new SCH_LINE( sheetBottomLeft, SCH_LAYER_ID::LAYER_NOTES ); lineBottom->SetEndPoint( bottomRight ); lineBottom->SetLineWidth( elem.lineWidth ); lineBottom->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineBottom->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineBottom ); SCH_LINE* lineRight = new SCH_LINE( sheetTopRight, SCH_LAYER_ID::LAYER_NOTES ); lineRight->SetEndPoint( bottomRight ); lineRight->SetLineWidth( elem.lineWidth ); lineRight->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineRight->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineRight ); SCH_LINE* lineLeft = new SCH_LINE( sheetBottomLeft, SCH_LAYER_ID::LAYER_NOTES ); lineLeft->SetEndPoint( topLeft ); lineLeft->SetLineWidth( elem.lineWidth ); lineLeft->SetLineStyle( PLOT_DASH_TYPE::SOLID ); lineLeft->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( lineLeft ); } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Rectangle has non-existent ownerindex %d", elem.ownerindex ) ); return; } if( !IsComponentPartVisible( elem.ownerindex, elem.ownerpartdisplaymode ) ) return; const auto& component = m_components.at( symbol->first ); LIB_RECTANGLE* rect = new LIB_RECTANGLE( symbol->second ); symbol->second->AddDrawItem( rect ); rect->SetUnit( elem.ownerpartid ); rect->SetPosition( GetRelativePosition( sheetTopRight, component ) ); rect->SetEnd( GetRelativePosition( sheetBottomLeft, component ) ); rect->SetWidth( elem.lineWidth ); if( !elem.isSolid ) rect->SetFillMode( FILL_TYPE::NO_FILL ); else if( elem.color == elem.areacolor ) rect->SetFillMode( FILL_TYPE::FILLED_SHAPE ); else rect->SetFillMode( FILL_TYPE::FILLED_WITH_BG_BODYCOLOR ); } } void SCH_ALTIUM_PLUGIN::ParseSheetSymbol( int aIndex, const std::map& aProperties ) { ASCH_SHEET_SYMBOL elem( aProperties ); SCH_SHEET* sheet = new SCH_SHEET( m_currentSheet, elem.location + m_sheetOffset ); SCH_SCREEN* screen = new SCH_SCREEN( m_schematic ); sheet->SetSize( elem.size ); sheet->SetBorderColor( GetColorFromInt( elem.color ) ); if( elem.isSolid ) sheet->SetBackgroundColor( GetColorFromInt( elem.areacolor ) ); sheet->SetScreen( screen ); sheet->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( sheet ); m_sheets.insert( { aIndex, sheet } ); } void SCH_ALTIUM_PLUGIN::ParseSheetEntry( const std::map& aProperties ) { ASCH_SHEET_ENTRY elem( aProperties ); const auto& sheet = m_sheets.find( elem.ownerindex ); if( sheet == m_sheets.end() ) { wxLogError( wxString::Format( "Sheet Entry has non-existent ownerindex %d", elem.ownerindex ) ); return; } SCH_SHEET_PIN* sheetPin = new SCH_SHEET_PIN( sheet->second ); sheet->second->AddPin( sheetPin ); sheetPin->SetText( elem.name ); sheetPin->SetShape( PINSHEETLABEL_SHAPE::PS_UNSPECIFIED ); //sheetPin->SetLabelSpinStyle( getSpinStyle( term.OrientAngle, false ) ); //sheetPin->SetPosition( getKiCadPoint( term.Position ) ); wxPoint pos = sheet->second->GetPosition(); wxSize size = sheet->second->GetSize(); switch( elem.side ) { default: case ASCH_SHEET_ENTRY_SIDE::LEFT: sheetPin->SetPosition( { pos.x, pos.y + elem.distanceFromTop } ); sheetPin->SetLabelSpinStyle( LABEL_SPIN_STYLE::LEFT ); sheetPin->SetEdge( SHEET_SIDE::SHEET_LEFT_SIDE ); break; case ASCH_SHEET_ENTRY_SIDE::RIGHT: sheetPin->SetPosition( { pos.x + size.x, pos.y + elem.distanceFromTop } ); sheetPin->SetLabelSpinStyle( LABEL_SPIN_STYLE::RIGHT ); sheetPin->SetEdge( SHEET_SIDE::SHEET_RIGHT_SIDE ); break; case ASCH_SHEET_ENTRY_SIDE::TOP: sheetPin->SetPosition( { pos.x + elem.distanceFromTop, pos.y } ); sheetPin->SetLabelSpinStyle( LABEL_SPIN_STYLE::UP ); sheetPin->SetEdge( SHEET_SIDE::SHEET_TOP_SIDE ); break; case ASCH_SHEET_ENTRY_SIDE::BOTTOM: sheetPin->SetPosition( { pos.x + elem.distanceFromTop, pos.y + size.y } ); sheetPin->SetLabelSpinStyle( LABEL_SPIN_STYLE::BOTTOM ); sheetPin->SetEdge( SHEET_SIDE::SHEET_BOTTOM_SIDE ); break; } switch( elem.iotype ) { default: case ASCH_PORT_IOTYPE::UNSPECIFIED: sheetPin->SetShape( PINSHEETLABEL_SHAPE::PS_UNSPECIFIED ); break; case ASCH_PORT_IOTYPE::OUTPUT: sheetPin->SetShape( PINSHEETLABEL_SHAPE::PS_OUTPUT ); break; case ASCH_PORT_IOTYPE::INPUT: sheetPin->SetShape( PINSHEETLABEL_SHAPE::PS_INPUT ); break; case ASCH_PORT_IOTYPE::BIDI: sheetPin->SetShape( PINSHEETLABEL_SHAPE::PS_BIDI ); break; } } wxPoint HelperGeneratePowerPortGraphics( LIB_PART* aKPart, ASCH_POWER_PORT_STYLE aStyle ) { if( aStyle == ASCH_POWER_PORT_STYLE::CIRCLE || aStyle == ASCH_POWER_PORT_STYLE::ARROW ) { LIB_POLYLINE* line1 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line1 ); line1->SetWidth( Mils2iu( 10 ) ); line1->AddPoint( { 0, 0 } ); line1->AddPoint( { 0, Mils2iu( -50 ) } ); if( aStyle == ASCH_POWER_PORT_STYLE::CIRCLE ) { LIB_CIRCLE* circle = new LIB_CIRCLE( aKPart ); aKPart->AddDrawItem( circle ); circle->SetWidth( Mils2iu( 5 ) ); circle->SetRadius( Mils2iu( 25 ) ); circle->SetPosition( { Mils2iu( 0 ), Mils2iu( -75 ) } ); } else { LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -25 ), Mils2iu( -50 ) } ); line2->AddPoint( { Mils2iu( 25 ), Mils2iu( -50 ) } ); line2->AddPoint( { Mils2iu( 0 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( -25 ), Mils2iu( -50 ) } ); } return { 0, Mils2iu( 150 ) }; } else if( aStyle == ASCH_POWER_PORT_STYLE::WAVE ) { LIB_POLYLINE* line = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line ); line->SetWidth( Mils2iu( 10 ) ); line->AddPoint( { 0, 0 } ); line->AddPoint( { 0, Mils2iu( -72 ) } ); LIB_BEZIER* bezier = new LIB_BEZIER( aKPart ); aKPart->AddDrawItem( bezier ); bezier->SetWidth( Mils2iu( 5 ) ); bezier->AddPoint( { Mils2iu( 30 ), Mils2iu( -50 ) } ); bezier->AddPoint( { Mils2iu( 30 ), Mils2iu( -87 ) } ); bezier->AddPoint( { Mils2iu( -30 ), Mils2iu( -63 ) } ); bezier->AddPoint( { Mils2iu( -30 ), Mils2iu( -100 ) } ); return { 0, Mils2iu( 150 ) }; } else if( aStyle == ASCH_POWER_PORT_STYLE::POWER_GROUND || aStyle == ASCH_POWER_PORT_STYLE::SIGNAL_GROUND || aStyle == ASCH_POWER_PORT_STYLE::EARTH || aStyle == ASCH_POWER_PORT_STYLE::GOST_ARROW ) { LIB_POLYLINE* line1 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line1 ); line1->SetWidth( Mils2iu( 10 ) ); line1->AddPoint( { 0, 0 } ); line1->AddPoint( { 0, Mils2iu( -100 ) } ); if( aStyle == ASCH_POWER_PORT_STYLE::POWER_GROUND ) { LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -100 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 100 ), Mils2iu( -100 ) } ); LIB_POLYLINE* line3 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line3 ); line3->SetWidth( Mils2iu( 10 ) ); line3->AddPoint( { Mils2iu( -70 ), Mils2iu( -130 ) } ); line3->AddPoint( { Mils2iu( 70 ), Mils2iu( -130 ) } ); LIB_POLYLINE* line4 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line4 ); line4->SetWidth( Mils2iu( 10 ) ); line4->AddPoint( { Mils2iu( -40 ), Mils2iu( -160 ) } ); line4->AddPoint( { Mils2iu( 40 ), Mils2iu( -160 ) } ); LIB_POLYLINE* line5 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line5 ); line5->SetWidth( Mils2iu( 10 ) ); line5->AddPoint( { Mils2iu( -10 ), Mils2iu( -190 ) } ); line5->AddPoint( { Mils2iu( 10 ), Mils2iu( -190 ) } ); } else if( aStyle == ASCH_POWER_PORT_STYLE::SIGNAL_GROUND ) { LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -100 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 100 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 0 ), Mils2iu( -200 ) } ); line2->AddPoint( { Mils2iu( -100 ), Mils2iu( -100 ) } ); } else if( aStyle == ASCH_POWER_PORT_STYLE::EARTH ) { LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -150 ), Mils2iu( -200 ) } ); line2->AddPoint( { Mils2iu( -100 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 100 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 50 ), Mils2iu( -200 ) } ); LIB_POLYLINE* line3 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line3 ); line3->SetWidth( Mils2iu( 10 ) ); line3->AddPoint( { Mils2iu( 0 ), Mils2iu( -100 ) } ); line3->AddPoint( { Mils2iu( -50 ), Mils2iu( -200 ) } ); } else // ASCH_POWER_PORT_STYLE::GOST_ARROW { LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -25 ), Mils2iu( -50 ) } ); line2->AddPoint( { Mils2iu( 0 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 25 ), Mils2iu( -50 ) } ); return { 0, Mils2iu( 150 ) }; // special case } return { 0, Mils2iu( 250 ) }; } else if( aStyle == ASCH_POWER_PORT_STYLE::GOST_POWER_GROUND || aStyle == ASCH_POWER_PORT_STYLE::GOST_EARTH ) { LIB_POLYLINE* line1 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line1 ); line1->SetWidth( Mils2iu( 10 ) ); line1->AddPoint( { 0, 0 } ); line1->AddPoint( { 0, Mils2iu( -160 ) } ); LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -100 ), Mils2iu( -160 ) } ); line2->AddPoint( { Mils2iu( 100 ), Mils2iu( -160 ) } ); LIB_POLYLINE* line3 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line3 ); line3->SetWidth( Mils2iu( 10 ) ); line3->AddPoint( { Mils2iu( -60 ), Mils2iu( -200 ) } ); line3->AddPoint( { Mils2iu( 60 ), Mils2iu( -200 ) } ); LIB_POLYLINE* line4 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line4 ); line4->SetWidth( Mils2iu( 10 ) ); line4->AddPoint( { Mils2iu( -20 ), Mils2iu( -240 ) } ); line4->AddPoint( { Mils2iu( 20 ), Mils2iu( -240 ) } ); if( aStyle == ASCH_POWER_PORT_STYLE::GOST_POWER_GROUND ) return { 0, Mils2iu( 300 ) }; LIB_CIRCLE* circle = new LIB_CIRCLE( aKPart ); aKPart->AddDrawItem( circle ); circle->SetWidth( Mils2iu( 10 ) ); circle->SetRadius( Mils2iu( 120 ) ); circle->SetPosition( { Mils2iu( 0 ), Mils2iu( -160 ) } ); return { 0, Mils2iu( 350 ) }; } else if( aStyle == ASCH_POWER_PORT_STYLE::GOST_BAR ) { LIB_POLYLINE* line1 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line1 ); line1->SetWidth( Mils2iu( 10 ) ); line1->AddPoint( { 0, 0 } ); line1->AddPoint( { 0, Mils2iu( -200 ) } ); LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -100 ), Mils2iu( -200 ) } ); line2->AddPoint( { Mils2iu( 100 ), Mils2iu( -200 ) } ); return { 0, Mils2iu( 250 ) }; } else { if( aStyle != ASCH_POWER_PORT_STYLE::BAR ) wxLogWarning( "Power Port has unknown style, use bar instead. " ); LIB_POLYLINE* line1 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line1 ); line1->SetWidth( Mils2iu( 10 ) ); line1->AddPoint( { 0, 0 } ); line1->AddPoint( { 0, Mils2iu( -100 ) } ); LIB_POLYLINE* line2 = new LIB_POLYLINE( aKPart ); aKPart->AddDrawItem( line2 ); line2->SetWidth( Mils2iu( 10 ) ); line2->AddPoint( { Mils2iu( -50 ), Mils2iu( -100 ) } ); line2->AddPoint( { Mils2iu( 50 ), Mils2iu( -100 ) } ); return { 0, Mils2iu( 150 ) }; } } void SCH_ALTIUM_PLUGIN::ParsePowerPort( const std::map& aProperties ) { ASCH_POWER_PORT elem( aProperties ); LIB_ID libId = AltiumToKiCadLibID( getLibName(), elem.text ); LIB_PART* kpart = nullptr; const auto& symbol = m_powerSymbols.find( elem.text ); if( symbol != m_powerSymbols.end() ) { kpart = symbol->second; // cache hit } else { kpart = new LIB_PART( wxEmptyString ); kpart->SetPower(); kpart->SetName( elem.text ); kpart->GetReferenceField().SetText( "#PWR" ); kpart->GetValueField().SetText( elem.text ); kpart->GetValueField().SetVisible( true ); // TODO: why does this not work? kpart->SetDescription( wxString::Format( _( "Power symbol creates a global label with name '%s'" ), elem.text ) ); kpart->SetKeyWords( "power-flag" ); kpart->SetLibId( libId ); // generate graphic LIB_PIN* pin = new LIB_PIN( kpart ); kpart->AddDrawItem( pin ); pin->SetName( elem.text ); pin->SetPosition( { 0, 0 } ); pin->SetLength( 0 ); // marks the pin as a global label pin->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN ); pin->SetVisible( false ); wxPoint valueFieldPos = HelperGeneratePowerPortGraphics( kpart, elem.style ); kpart->GetValueField().SetPosition( valueFieldPos ); // this has to be done after parsing the LIB_PART! m_pi->SaveSymbol( getLibFileName().GetFullPath(), kpart, m_properties.get() ); m_powerSymbols.insert( { elem.text, kpart } ); } SCH_SHEET_PATH sheetpath; m_rootSheet->LocatePathOfScreen( m_currentSheet->GetScreen(), &sheetpath ); // each component has its own symbol for now SCH_COMPONENT* component = new SCH_COMPONENT(); component->SetRef( &sheetpath, "#PWR?" ); component->SetValue( elem.text ); component->SetLibId( libId ); component->SetLibSymbol( new LIB_PART( *kpart ) ); SCH_FIELD* valueField = component->GetField( VALUE_FIELD ); // TODO: Why do I need to set those a second time? valueField->SetVisible( true ); valueField->SetPosition( kpart->GetValueField().GetPosition() ); component->SetPosition( elem.location + m_sheetOffset ); switch( elem.orientation ) { case ASCH_RECORD_ORIENTATION::RIGHTWARDS: component->SetOrientation( COMPONENT_ORIENTATION_T::CMP_ORIENT_90 ); valueField->SetTextAngle( -900. ); valueField->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); break; case ASCH_RECORD_ORIENTATION::UPWARDS: component->SetOrientation( COMPONENT_ORIENTATION_T::CMP_ORIENT_180 ); valueField->SetTextAngle( -1800. ); valueField->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_CENTER ); break; case ASCH_RECORD_ORIENTATION::LEFTWARDS: component->SetOrientation( COMPONENT_ORIENTATION_T::CMP_ORIENT_270 ); valueField->SetTextAngle( -2700. ); valueField->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_RIGHT ); break; case ASCH_RECORD_ORIENTATION::DOWNWARDS: component->SetOrientation( COMPONENT_ORIENTATION_T::CMP_ORIENT_0 ); valueField->SetTextAngle( 0. ); valueField->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_CENTER ); break; default: wxLogWarning( "Pin has unexpected orientation" ); break; } m_currentSheet->GetScreen()->Append( component ); } void SCH_ALTIUM_PLUGIN::ParsePort( const ASCH_PORT& aElem ) { // Get both connection points where we could connect to wxPoint start = aElem.location + m_sheetOffset; wxPoint end = start; switch( aElem.style ) { default: case ASCH_PORT_STYLE::NONE_HORIZONTAL: case ASCH_PORT_STYLE::LEFT: case ASCH_PORT_STYLE::RIGHT: case ASCH_PORT_STYLE::LEFT_RIGHT: end.x += aElem.width; break; case ASCH_PORT_STYLE::NONE_VERTICAL: case ASCH_PORT_STYLE::TOP: case ASCH_PORT_STYLE::BOTTOM: case ASCH_PORT_STYLE::TOP_BOTTOM: end.y -= aElem.width; break; } // Check which connection points exists in the schematic SCH_SCREEN* screen = m_currentSheet->GetScreen(); bool startIsWireTerminal = screen->IsTerminalPoint( start, LAYER_WIRE ); bool startIsBusTerminal = screen->IsTerminalPoint( start, LAYER_BUS ); bool endIsWireTerminal = screen->IsTerminalPoint( end, LAYER_WIRE ); bool endIsBusTerminal = screen->IsTerminalPoint( end, LAYER_BUS ); // check if any of the points is a terminal point // TODO: there seems a problem to detect approximated connections towards component pins? bool connectionFound = startIsWireTerminal || startIsBusTerminal || endIsWireTerminal || endIsBusTerminal; if( !connectionFound ) { wxLogError( wxString::Format( "There is a Port for \"%s\", but no connections towards it?", aElem.name ) ); } // Select label position. In case both match, we will add a line later. wxPoint position = ( startIsWireTerminal || startIsBusTerminal ) ? start : end; SCH_TEXT* const label = new SCH_GLOBALLABEL( position, aElem.name ); // TODO: detect correct label type depending on sheet settings, etc. // label = new SCH_HIERLABEL( elem.location + m_sheetOffset, elem.name ); switch( aElem.iotype ) { default: case ASCH_PORT_IOTYPE::UNSPECIFIED: label->SetShape( PINSHEETLABEL_SHAPE::PS_UNSPECIFIED ); break; case ASCH_PORT_IOTYPE::OUTPUT: label->SetShape( PINSHEETLABEL_SHAPE::PS_OUTPUT ); break; case ASCH_PORT_IOTYPE::INPUT: label->SetShape( PINSHEETLABEL_SHAPE::PS_INPUT ); break; case ASCH_PORT_IOTYPE::BIDI: label->SetShape( PINSHEETLABEL_SHAPE::PS_BIDI ); break; } switch( aElem.style ) { default: case ASCH_PORT_STYLE::NONE_HORIZONTAL: case ASCH_PORT_STYLE::LEFT: case ASCH_PORT_STYLE::RIGHT: case ASCH_PORT_STYLE::LEFT_RIGHT: if( ( startIsWireTerminal || startIsBusTerminal ) ) label->SetLabelSpinStyle( LABEL_SPIN_STYLE::RIGHT ); else label->SetLabelSpinStyle( LABEL_SPIN_STYLE::LEFT ); break; case ASCH_PORT_STYLE::NONE_VERTICAL: case ASCH_PORT_STYLE::TOP: case ASCH_PORT_STYLE::BOTTOM: case ASCH_PORT_STYLE::TOP_BOTTOM: if( ( startIsWireTerminal || startIsBusTerminal ) ) label->SetLabelSpinStyle( LABEL_SPIN_STYLE::UP ); else label->SetLabelSpinStyle( LABEL_SPIN_STYLE::BOTTOM ); break; } label->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( label ); // This is a hack, for the case both connection points are valid: add a small wire if( ( startIsWireTerminal && endIsWireTerminal ) || !connectionFound ) { SCH_LINE* wire = new SCH_LINE( start, SCH_LAYER_ID::LAYER_WIRE ); wire->SetEndPoint( end ); wire->SetLineWidth( Mils2iu( 2 ) ); wire->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( wire ); } else if( startIsBusTerminal && endIsBusTerminal ) { SCH_LINE* wire = new SCH_LINE( start, SCH_LAYER_ID::LAYER_BUS ); wire->SetEndPoint( end ); wire->SetLineWidth( Mils2iu( 2 ) ); wire->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( wire ); } } void SCH_ALTIUM_PLUGIN::ParseNoERC( const std::map& aProperties ) { ASCH_NO_ERC elem( aProperties ); if( elem.isActive ) { SCH_NO_CONNECT* noConnect = new SCH_NO_CONNECT( elem.location + m_sheetOffset ); noConnect->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( noConnect ); } } void SCH_ALTIUM_PLUGIN::ParseNetLabel( const std::map& aProperties ) { ASCH_NET_LABEL elem( aProperties ); SCH_LABEL* label = new SCH_LABEL( elem.location + m_sheetOffset, elem.text ); switch( elem.orientation ) { case ASCH_RECORD_ORIENTATION::RIGHTWARDS: label->SetLabelSpinStyle( LABEL_SPIN_STYLE::RIGHT ); break; case ASCH_RECORD_ORIENTATION::UPWARDS: label->SetLabelSpinStyle( LABEL_SPIN_STYLE::UP ); break; case ASCH_RECORD_ORIENTATION::LEFTWARDS: label->SetLabelSpinStyle( LABEL_SPIN_STYLE::LEFT ); break; case ASCH_RECORD_ORIENTATION::DOWNWARDS: label->SetLabelSpinStyle( LABEL_SPIN_STYLE::BOTTOM ); break; default: break; } label->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( label ); } void SCH_ALTIUM_PLUGIN::ParseBus( const std::map& aProperties ) { ASCH_BUS elem( aProperties ); for( size_t i = 0; i + 1 < elem.points.size(); i++ ) { SCH_LINE* bus = new SCH_LINE( elem.points.at( i ) + m_sheetOffset, SCH_LAYER_ID::LAYER_BUS ); bus->SetEndPoint( elem.points.at( i + 1 ) + m_sheetOffset ); bus->SetLineWidth( elem.lineWidth ); bus->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( bus ); } } void SCH_ALTIUM_PLUGIN::ParseWire( const std::map& aProperties ) { ASCH_WIRE elem( aProperties ); for( size_t i = 0; i + 1 < elem.points.size(); i++ ) { SCH_LINE* wire = new SCH_LINE( elem.points.at( i ) + m_sheetOffset, SCH_LAYER_ID::LAYER_WIRE ); wire->SetEndPoint( elem.points.at( i + 1 ) + m_sheetOffset ); wire->SetLineWidth( elem.lineWidth ); wire->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( wire ); } } void SCH_ALTIUM_PLUGIN::ParseJunction( const std::map& aProperties ) { ASCH_JUNCTION elem( aProperties ); SCH_JUNCTION* junction = new SCH_JUNCTION( elem.location + m_sheetOffset ); junction->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( junction ); } void SCH_ALTIUM_PLUGIN::ParseSheet( const std::map& aProperties ) { m_altiumSheet = std::make_unique( aProperties ); PAGE_INFO pageInfo; bool isPortrait = m_altiumSheet->sheetOrientation == ASCH_SHEET_WORKSPACEORIENTATION::PORTRAIT; switch( m_altiumSheet->sheetSize ) { default: case ASCH_SHEET_SIZE::A4: pageInfo.SetType( "A4", isPortrait ); break; case ASCH_SHEET_SIZE::A3: pageInfo.SetType( "A3", isPortrait ); break; case ASCH_SHEET_SIZE::A2: pageInfo.SetType( "A2", isPortrait ); break; case ASCH_SHEET_SIZE::A1: pageInfo.SetType( "A1", isPortrait ); break; case ASCH_SHEET_SIZE::A0: pageInfo.SetType( "A0", isPortrait ); break; case ASCH_SHEET_SIZE::A: pageInfo.SetType( "A", isPortrait ); break; case ASCH_SHEET_SIZE::B: pageInfo.SetType( "B", isPortrait ); break; case ASCH_SHEET_SIZE::C: pageInfo.SetType( "C", isPortrait ); break; case ASCH_SHEET_SIZE::D: pageInfo.SetType( "D", isPortrait ); break; case ASCH_SHEET_SIZE::E: pageInfo.SetType( "E", isPortrait ); break; case ASCH_SHEET_SIZE::LETTER: pageInfo.SetType( "USLetter", isPortrait ); break; case ASCH_SHEET_SIZE::LEGAL: pageInfo.SetType( "USLegal", isPortrait ); break; case ASCH_SHEET_SIZE::TABLOID: pageInfo.SetType( "A3", isPortrait ); // TODO: use User break; case ASCH_SHEET_SIZE::ORCAD_A: pageInfo.SetType( "A", isPortrait ); break; case ASCH_SHEET_SIZE::ORCAD_B: pageInfo.SetType( "B", isPortrait ); break; case ASCH_SHEET_SIZE::ORCAD_C: pageInfo.SetType( "C", isPortrait ); break; case ASCH_SHEET_SIZE::ORCAD_D: pageInfo.SetType( "D", isPortrait ); break; case ASCH_SHEET_SIZE::ORCAD_E: pageInfo.SetType( "E", isPortrait ); break; } m_currentSheet->GetScreen()->SetPageSettings( pageInfo ); m_sheetOffset = { 0, pageInfo.GetHeightIU() }; } void SetFieldOrientation( SCH_FIELD& aField, ASCH_RECORD_ORIENTATION aOrientation ) { switch( aOrientation ) { default: case ASCH_RECORD_ORIENTATION::RIGHTWARDS: aField.SetTextAngle( 0 ); break; case ASCH_RECORD_ORIENTATION::UPWARDS: aField.SetTextAngle( 900 ); break; case ASCH_RECORD_ORIENTATION::LEFTWARDS: aField.SetTextAngle( 1800 ); break; case ASCH_RECORD_ORIENTATION::DOWNWARDS: aField.SetTextAngle( 2700 ); break; } } void SCH_ALTIUM_PLUGIN::ParseSheetName( const std::map& aProperties ) { ASCH_SHEET_NAME elem( aProperties ); const auto& sheet = m_sheets.find( elem.ownerindex ); if( sheet == m_sheets.end() ) { wxLogError( wxString::Format( "Sheet Name has non-existent ownerindex %d", elem.ownerindex ) ); return; } SCH_FIELD& sheetNameField = sheet->second->GetFields()[SHEETNAME]; sheetNameField.SetPosition( elem.location + m_sheetOffset ); sheetNameField.SetText( elem.text ); sheetNameField.SetVisible( !elem.isHidden ); sheetNameField.SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); sheetNameField.SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); SetFieldOrientation( sheetNameField, elem.orientation ); } void SCH_ALTIUM_PLUGIN::ParseFileName( const std::map& aProperties ) { ASCH_FILE_NAME elem( aProperties ); const auto& sheet = m_sheets.find( elem.ownerindex ); if( sheet == m_sheets.end() ) { wxLogError( wxString::Format( "File Name has non-existent ownerindex %d", elem.ownerindex ) ); return; } SCH_FIELD& filenameField = sheet->second->GetFields()[SHEETFILENAME]; filenameField.SetPosition( elem.location + m_sheetOffset ); filenameField.SetText( elem.text ); // TODO: use kicad_sch filenameField.SetVisible( !elem.isHidden ); filenameField.SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); filenameField.SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); SetFieldOrientation( filenameField, elem.orientation ); } void SCH_ALTIUM_PLUGIN::ParseDesignator( const std::map& aProperties ) { ASCH_DESIGNATOR elem( aProperties ); const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 wxLogWarning( wxString::Format( "Designator has non-existent ownerindex %d", elem.ownerindex ) ); return; } const auto& component = m_components.at( symbol->first ); SCH_SHEET_PATH sheetpath; m_rootSheet->LocatePathOfScreen( m_currentSheet->GetScreen(), &sheetpath ); component->SetRef( &sheetpath, elem.text ); SCH_FIELD* refField = component->GetField( REFERENCE_FIELD ); refField->SetPosition( elem.location + m_sheetOffset ); refField->SetVisible( true ); refField->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); refField->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM ); SetFieldOrientation( *refField, elem.orientation ); } void SCH_ALTIUM_PLUGIN::ParseBusEntry( const std::map& aProperties ) { ASCH_BUS_ENTRY elem( aProperties ); SCH_BUS_WIRE_ENTRY* busWireEntry = new SCH_BUS_WIRE_ENTRY( elem.location + m_sheetOffset ); wxPoint vector = elem.corner - elem.location; busWireEntry->SetSize( { vector.x, vector.y } ); busWireEntry->SetFlags( IS_NEW ); m_currentSheet->GetScreen()->Append( busWireEntry ); } void SCH_ALTIUM_PLUGIN::ParseParameter( const std::map& aProperties ) { ASCH_PARAMETER elem( aProperties ); if( elem.ownerindex <= 0 && elem.ownerpartid == ALTIUM_COMPONENT_NONE ) { // This is some sheet parameter if( elem.text == "*" ) return; // indicates parameter not set? SCH_SHEET_PATH sheetpath; m_rootSheet->LocatePathOfScreen( m_currentSheet->GetScreen(), &sheetpath ); if( elem.name == "SheetNumber" ) m_rootSheet->SetPageNumber( sheetpath, elem.text ); else if( elem.name == "Title" ) m_currentTitleBlock->SetTitle( elem.text ); else if( elem.name == "Revision" ) m_currentTitleBlock->SetRevision( elem.text ); else if( elem.name == "Date" ) m_currentTitleBlock->SetDate( elem.text ); else if( elem.name == "CompanyName" ) m_currentTitleBlock->SetCompany( elem.text ); // TODO: parse other parameters // TODO: handle parameters in labels } else { const auto& symbol = m_symbols.find( elem.ownerindex ); if( symbol == m_symbols.end() ) { // TODO: e.g. can depend on Template (RECORD=39 return; } const auto& component = m_components.at( symbol->first ); int fieldIdx = component->GetFieldCount() + 1; // TODO: location not correct? SCH_FIELD field( elem.location + m_sheetOffset, fieldIdx, component, elem.name ); field.SetText( elem.text ); field.SetVisible( !elem.isHidden ); field.SetMirrored( elem.isMirrored ); field.SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT ); switch( elem.orientation ) { case ASCH_RECORD_ORIENTATION::RIGHTWARDS: field.SetTextAngle( 0 ); break; case ASCH_RECORD_ORIENTATION::UPWARDS: field.SetTextAngle( 90 ); break; case ASCH_RECORD_ORIENTATION::LEFTWARDS: field.SetTextAngle( 180 ); break; case ASCH_RECORD_ORIENTATION::DOWNWARDS: field.SetTextAngle( 270 ); break; default: break; } component->AddField( field ); } }