/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020 Roberto Fernandez Bautista * Copyright (C) 2020 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ /** * @file cadstar_sch_archive_parser.cpp * @brief Reads in a CADSTAR Schematic Archive (*.csa) file */ #include // SCH_IU_PER_MM #include #include void CADSTAR_SCH_ARCHIVE_PARSER::Parse() { XNODE* fileRootNode = LoadArchiveFile( Filename, wxT( "CADSTARSCM" ) ); XNODE* cNode = fileRootNode->GetChildren(); if( !cNode ) THROW_MISSING_NODE_IO_ERROR( wxT( "HEADER" ), wxT( "CADSTARSCM" ) ); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "HEADER" ) ) { Header.Parse( cNode ); switch( Header.Resolution ) { case RESOLUTION::HUNDREDTH_MICRON: KiCadUnitMultiplier = SCH_IU_PER_MM / 1e5; break; default: wxASSERT_MSG( true, wxT( "Unknown File Resolution" ) ); break; } } else if( cNode->GetName() == wxT( "ASSIGNMENTS" ) ) { Assignments.Parse( cNode ); } else if( cNode->GetName() == wxT( "LIBRARY" ) ) { Library.Parse( cNode ); } else if( cNode->GetName() == wxT( "DEFAULTS" ) ) { // No design information here (no need to parse) // Only contains CADSTAR configuration data such as default shapes, text and units // In future some of this could be converted to KiCad but limited value } else if( cNode->GetName() == wxT( "PARTS" ) ) { Parts.Parse( cNode ); } else if( cNode->GetName() == wxT( "SHEETS" ) ) { Sheets.Parse( cNode ); } else if( cNode->GetName() == wxT( "SCHEMATIC" ) ) { Schematic.Parse( cNode ); } else if( cNode->GetName() == wxT( "DISPLAY" ) ) { // No design information here (no need to parse) // Contains CADSTAR Display settings such as layer/element colours and visibility. // In the future these settings could be converted to KiCad } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), wxT( "[root]" ) ); } } delete fileRootNode; } CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL_SHAPE_TYPE CADSTAR_SCH_ARCHIVE_PARSER::ParseTermShapeType( const wxString& aShapeStr ) { if( aShapeStr == wxT( "ANNULUS" ) ) return TERMINAL_SHAPE_TYPE::ANNULUS; else if( aShapeStr == wxT( "BOX" ) ) return TERMINAL_SHAPE_TYPE::BOX; else if( aShapeStr == wxT( "BULLET" ) ) return TERMINAL_SHAPE_TYPE::BULLET; else if( aShapeStr == wxT( "ROUND" ) ) return TERMINAL_SHAPE_TYPE::CIRCLE; else if( aShapeStr == wxT( "CROSS" ) ) return TERMINAL_SHAPE_TYPE::CROSS; else if( aShapeStr == wxT( "DIAMOND" ) ) return TERMINAL_SHAPE_TYPE::DIAMOND; else if( aShapeStr == wxT( "FINGER" ) ) return TERMINAL_SHAPE_TYPE::FINGER; else if( aShapeStr == wxT( "OCTAGON" ) ) return TERMINAL_SHAPE_TYPE::OCTAGON; else if( aShapeStr == wxT( "PLUS" ) ) return TERMINAL_SHAPE_TYPE::PLUS; else if( aShapeStr == wxT( "POINTER" ) ) return TERMINAL_SHAPE_TYPE::POINTER; else if( aShapeStr == wxT( "RECTANGLE" ) ) return TERMINAL_SHAPE_TYPE::RECTANGLE; else if( aShapeStr == wxT( "ROUNDED" ) ) return TERMINAL_SHAPE_TYPE::ROUNDED_RECT; else if( aShapeStr == wxT( "SQUARE" ) ) return TERMINAL_SHAPE_TYPE::SQUARE; else if( aShapeStr == wxT( "STAR" ) ) return TERMINAL_SHAPE_TYPE::STAR; else if( aShapeStr == wxT( "TRIANGLE" ) ) return TERMINAL_SHAPE_TYPE::TRIANGLE; else return TERMINAL_SHAPE_TYPE::UNDEFINED; } bool CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL_SHAPE::IsTermShape( XNODE* aNode ) { return ParseTermShapeType( aNode->GetName() ) != TERMINAL_SHAPE_TYPE::UNDEFINED; } void CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL_SHAPE::Parse( XNODE* aNode ) { wxCHECK( IsTermShape( aNode ), ); ShapeType = ParseTermShapeType( aNode->GetName() ); Size = GetXmlAttributeIDLong( aNode, 0 ); switch( ShapeType ) { case TERMINAL_SHAPE_TYPE::ANNULUS: case TERMINAL_SHAPE_TYPE::BOX: case TERMINAL_SHAPE_TYPE::CROSS: case TERMINAL_SHAPE_TYPE::PLUS: case TERMINAL_SHAPE_TYPE::STAR: InternalFeature = GetXmlAttributeIDLong( aNode, 1 ); break; case TERMINAL_SHAPE_TYPE::ROUNDED_RECT: InternalFeature = GetXmlAttributeIDLong( aNode, 3 ); KI_FALLTHROUGH; case TERMINAL_SHAPE_TYPE::BULLET: case TERMINAL_SHAPE_TYPE::FINGER: case TERMINAL_SHAPE_TYPE::POINTER: case TERMINAL_SHAPE_TYPE::RECTANGLE: case TERMINAL_SHAPE_TYPE::TRIANGLE: RightLength = GetXmlAttributeIDLong( aNode, 2 ); LeftLength = GetXmlAttributeIDLong( aNode, 1 ); break; case TERMINAL_SHAPE_TYPE::CIRCLE: case TERMINAL_SHAPE_TYPE::DIAMOND: case TERMINAL_SHAPE_TYPE::OCTAGON: case TERMINAL_SHAPE_TYPE::SQUARE: //don't do anything break; case TERMINAL_SHAPE_TYPE::UNDEFINED: wxASSERT_MSG( false, "Unknown terminal shape type" ); break; } if( aNode->GetChildren() ) { if( aNode->GetChildren()->GetName() == wxT( "ORIENT" ) ) { OrientAngle = GetXmlAttributeIDLong( aNode->GetChildren(), 0 ); } else { THROW_UNKNOWN_NODE_IO_ERROR( aNode->GetChildren()->GetName(), aNode->GetName() ); } CheckNoNextNodes( aNode->GetChildren() ); } } void CADSTAR_SCH_ARCHIVE_PARSER::TERMINALCODE::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "TERMINALCODE" ), ); ID = GetXmlAttributeIDString( aNode, 0 ); Name = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); wxString location = wxString::Format( "TERMINALCODE -> %s", Name ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( TERMINAL_SHAPE::IsTermShape( cNode ) ) Shape.Parse( cNode ); else if( cNodeName == wxT( "FILLED" ) ) Filled = true; else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, location ); } } void CADSTAR_SCH_ARCHIVE_PARSER::CODEDEFS_SCM::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "CODEDEFS" ), ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString nodeName = cNode->GetName(); if( ParseSubNode( cNode ) ) // in CADSTAR_ARCHIVE_PARSER::CODEDEFS { continue; } else if( nodeName == wxT( "TERMINALCODE" ) ) { TERMINALCODE termcode; termcode.Parse( cNode ); TerminalCodes.insert( std::make_pair( termcode.ID, termcode ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( nodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::ASSIGNMENTS_SCM::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "ASSIGNMENTS" ), ); XNODE* cNode = aNode->GetChildren(); bool settingsParsed = false; for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "CODEDEFS" ) ) { Codedefs.Parse( cNode ); } else if( cNode->GetName() == wxT( "SETTINGS" ) ) { settingsParsed = true; Settings.Parse( cNode ); } else if( cNode->GetName() == wxT( "GRIDS" ) ) { Grids.Parse( cNode ); } else if( cNode->GetName() == wxT( "NETCLASSEDITATTRIBSETTINGS" ) ) { NetclassEditAttributeSettings = true; } else if( cNode->GetName() == wxT( "SPCCLASSEDITATTRIBSETTINGS" ) ) { SpacingclassEditAttributeSettings = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } if( !settingsParsed ) THROW_MISSING_NODE_IO_ERROR( wxT( "SETTINGS" ), wxT( "ASSIGNMENTS" ) ); } void CADSTAR_SCH_ARCHIVE_PARSER::TERMINAL::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "TERMINAL" ), ); ID = GetXmlAttributeIDLong( aNode, 0 ); TerminalCodeID = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); wxString location = wxString::Format( "TERMINAL %ld", ID ); if( !cNode ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), location ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "ORIENT" ) ) OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); else if( cNodeName == wxT( "PT" ) ) Position.Parse( cNode ); else THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, location ); } } void CADSTAR_SCH_ARCHIVE_PARSER::PIN_NUM_LABEL_LOC::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "PINLABELLOC" ) || aNode->GetName() == wxT( "PINNUMNAMELOC" ), ); TerminalID = GetXmlAttributeIDLong( aNode, 0 ); TextCodeID = GetXmlAttributeIDString( aNode, 1 ); //Parse child nodes XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( ParseSubNode( cNode ) ) continue; else THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } if( !Position.IsFullySpecified() ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_SCH_ARCHIVE_PARSER::SYMDEF_SCM::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SYMDEF" ), ); ParseIdentifiers( aNode ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( ParseSubNode( cNode ) ) { continue; } else if( cNodeName == wxT( "TERMINAL" ) ) { TERMINAL term; term.Parse( cNode ); Terminals.insert( std::make_pair( term.ID, term ) ); } else if( cNodeName == wxT( "PINLABELLOC" ) ) { PIN_NUM_LABEL_LOC loc; loc.Parse( cNode ); PinLabelLocations.insert( std::make_pair( loc.TerminalID, loc ) ); } else if( cNodeName == wxT( "PINNUMNAMELOC" ) ) { PIN_NUM_LABEL_LOC loc; loc.Parse( cNode ); PinNumberLocations.insert( std::make_pair( loc.TerminalID, loc ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } if( !Stub && !Origin.IsFullySpecified() ) THROW_MISSING_PARAMETER_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_SCH_ARCHIVE_PARSER::LIBRARY_SCM::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "LIBRARY" ), ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "SYMDEF" ) ) { SYMDEF_SCM symdef; symdef.Parse( cNode ); SymbolDefinitions.insert( std::make_pair( symdef.ID, symdef ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::SHEETS::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SHEETS" ), ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "SHEET" ) ) { LAYER_ID id = GetXmlAttributeIDString( cNode, 0 ); SHEET_NAME name = GetXmlAttributeIDString( cNode, 1 ); SheetNames.insert( std::make_pair( id, name ) ); SheetOrder.push_back( id ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::COMP::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "COMP" ), ); Designator = GetXmlAttributeIDString( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "READONLY" ) ) { ReadOnly = true; } else if( cNode->GetName() == wxT( "ATTRLOC" ) ) { AttrLoc.Parse( cNode ); HasLocation = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::PARTREF::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "PARTREF" ), ); RefID = GetXmlAttributeIDString( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "READONLY" ) ) { ReadOnly = true; } else if( cNode->GetName() == wxT( "ATTRLOC" ) ) { AttrLoc.Parse( cNode ); HasLocation = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::TERMATTR::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "TERMATTR" ), /* void */ ); TerminalID = GetXmlAttributeIDLong( aNode, 0 ); XNODE* cNode = aNode->GetChildren(); bool attrParsed = false; for( ; cNode; cNode = cNode->GetNext() ) { if( !attrParsed && cNode->GetName() == wxT( "ATTR" ) ) { Value.Parse( cNode ); attrParsed = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::SYMPINNAME_LABEL::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SYMPINNAME" ) || aNode->GetName() == wxT( "SYMPINLABEL" ), ); TerminalID = GetXmlAttributeIDLong( aNode, 0 ); NameOrLabel = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "ATTRLOC" ) ) { AttrLoc.Parse( cNode ); HasLocation = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::PIN_NUM::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "PINNUM" ), ); TerminalID = GetXmlAttributeIDLong( aNode, 0 ); PinNum = GetXmlAttributeIDLong( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( cNode->GetName() == wxT( "ATTRLOC" ) ) { AttrLoc.Parse( cNode ); HasLocation = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::SYMBOLVARIANT::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SYMBOLVARIANT" ), ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "SIGNALREF" ) ) { Type = TYPE::SIGNALREF; CheckNoNextNodes( cNode ); } else if( cNodeName == wxT( "GLOBALSIGNAL" ) ) { Type = TYPE::GLOBALSIGNAL; Reference = GetXmlAttributeIDString( cNode, 0 ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::SIGNALREFERENCELINK::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SIGNALREFERENCELINK" ), ); TextCodeID = GetXmlAttributeIDString( aNode, 0 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); //Parse child nodes XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( ParseSubNode( cNode ) ) continue; else if( cNode->GetName() == wxT( "SIGREFTEXT" ) ) Text = GetXmlAttributeIDString( aNode, 0 ); else THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } if( !Position.IsFullySpecified() ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_SCH_ARCHIVE_PARSER::SYMBOL::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SYMBOL" ), ); ID = GetXmlAttributeIDString( aNode, 0 ); SymdefID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); bool originParsed = false; wxString location = wxString::Format( "SYMBOL -> %s", ID ); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( !originParsed && cNodeName == wxT( "PT" ) ) { Origin.Parse( cNode ); originParsed = true; } else if( cNodeName == wxT( "COMP" ) ) { ComponentRef.Parse( cNode ); IsComponent = true; } else if( cNodeName == wxT( "PARTREF" ) ) { PartRef.Parse( cNode ); HasPartRef = true; } else if( cNodeName == wxT( "PARTNAMENOTVISIBLE" ) ) { PartNameVisible = false; } else if( cNodeName == wxT( "VSYMMASTER" ) ) { VariantParentSymbolID = GetXmlAttributeIDString( cNode, 0 ); VariantID = GetXmlAttributeIDString( cNode, 1 ); } else if( cNodeName == wxT( "GROUPREF" ) ) { GroupID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) { ReuseBlockRef.Parse( cNode ); } else if( cNodeName == wxT( "SIGNALREFERENCELINK" ) ) { SigRefLink.Parse( cNode ); } else if( cNodeName == wxT( "ORIENT" ) ) { OrientAngle = GetXmlAttributeIDLong( cNode, 0 ); } else if( cNodeName == wxT( "MIRROR" ) ) { Mirror = true; } else if( cNodeName == wxT( "FIX" ) ) { Fixed = true; } else if( cNodeName == wxT( "SCALE" ) ) { ScaleRatioNumerator = GetXmlAttributeIDLong( cNode, 0 ); ScaleRatioDenominator = GetXmlAttributeIDLong( cNode, 1 ); } else if( cNodeName == wxT( "READABILITY" ) ) { Readability = ParseReadability( cNode ); } else if( cNodeName == wxT( "GATE" ) ) { GateID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "SYMBOLVARIANT" ) ) { IsSymbolVariant = true; SymbolVariant.Parse( cNode ); } else if( cNodeName == wxT( "TERMATTR" ) ) { TERMATTR termattr; termattr.Parse( cNode ); TerminalAttributes.insert( std::make_pair( termattr.TerminalID, termattr ) ); } else if( cNodeName == wxT( "SYMPINLABEL" ) ) { SYMPINNAME_LABEL sympinname; sympinname.Parse( cNode ); PinLabels.insert( std::make_pair( sympinname.TerminalID, sympinname ) ); } else if( cNodeName == wxT( "SYMPINNAME" ) ) { SYMPINNAME_LABEL sympinname; sympinname.Parse( cNode ); PinNames.insert( std::make_pair( sympinname.TerminalID, sympinname ) ); } else if( cNodeName == wxT( "PINNUM" ) ) { PIN_NUM pinNum; pinNum.Parse( cNode ); PinNumbers.insert( std::make_pair( pinNum.TerminalID, pinNum ) ); } else if( cNodeName == wxT( "ATTR" ) ) { ATTRIBUTE_VALUE attrVal; attrVal.Parse( cNode ); AttributeValues.insert( std::make_pair( attrVal.AttributeID, attrVal ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, location ); } } if( !originParsed ) THROW_MISSING_PARAMETER_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_SCH_ARCHIVE_PARSER::SIGLOC::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SIGLOC" ), ); TextCodeID = GetXmlAttributeIDString( aNode, 0 ); //Parse child nodes XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { if( ParseSubNode( cNode ) ) continue; else THROW_UNKNOWN_NODE_IO_ERROR( cNode->GetName(), aNode->GetName() ); } if( !Position.IsFullySpecified() ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_SCH_ARCHIVE_PARSER::BUS::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "BUS" ), ); ID = GetXmlAttributeIDString( aNode, 0 ); LineCodeID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( SHAPE::IsShape( cNode ) ) { Shape.Parse( cNode ); } else if( cNodeName == wxT( "BUSNAME" ) ) { Name = GetXmlAttributeIDString( cNode, 0 ); XNODE* subNode = cNode->GetChildren(); if( subNode ) { if( subNode->GetName() == wxT( "SIGLOC" ) ) { BusLabel.Parse( subNode ); HasBusLabel = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( subNode->GetName(), cNode->GetName() ); } } } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::BLOCK::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "BLOCK" ), ); ID = GetXmlAttributeIDString( aNode, 0 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "CLONE" ) ) { Type = TYPE::CLONE; } else if( cNodeName == wxT( "PARENT" ) ) { Type = TYPE::PARENT; AssocLayerID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "CHILD" ) ) { Type = TYPE::CHILD; AssocLayerID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "BLOCKNAME" ) ) { Name = GetXmlAttributeIDString( cNode, 0 ); XNODE* subNode = cNode->GetChildren(); if( subNode ) { if( subNode->GetName() == wxT( "ATTRLOC" ) ) { BlockLabel.Parse( subNode ); HasBlockLabel = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( subNode->GetName(), cNode->GetName() ); } } } else if( cNodeName == wxT( "TERMINAL" ) ) { TERMINAL term; term.Parse( cNode ); Terminals.insert( std::make_pair( term.ID, term ) ); } else if( cNodeName == wxT( "FIGURE" ) ) { FIGURE figure; figure.Parse( cNode ); Figures.insert( std::make_pair( figure.ID, figure ) ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::SYM_TERM::Parse( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "TERM" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); SymbolID = GetXmlAttributeIDString( aNode, 1 ); TerminalID = GetXmlAttributeIDLong( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "SIGLOC" ) ) { NetLabel.Parse( cNode ); HasNetLabel = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::BUS_TERM::Parse( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "BUSTERM" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); BusID = GetXmlAttributeIDString( aNode, 1 ); XNODE* cNode = aNode->GetChildren(); bool firstPointParsed = false; bool secondPointParsed = false; for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "SIGLOC" ) ) { NetLabel.Parse( cNode ); HasNetLabel = true; } else if( cNodeName == wxT( "PT" ) ) { if( !firstPointParsed ) { FirstPoint.Parse( cNode ); firstPointParsed = true; } else if( !secondPointParsed ) { SecondPoint.Parse( cNode ); secondPointParsed = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } if( !firstPointParsed || !secondPointParsed ) THROW_MISSING_NODE_IO_ERROR( wxT( "PT" ), aNode->GetName() ); } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::BLOCK_TERM::Parse( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "BLOCKTERM" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); BlockID = GetXmlAttributeIDString( aNode, 1 ); TerminalID = GetXmlAttributeIDLong( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "SIGLOC" ) ) { NetLabel.Parse( cNode ); HasNetLabel = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::CONNECTION_SCH::Parse( XNODE* aNode ) { ParseIdentifiers( aNode ); LayerID = GetXmlAttributeIDString( aNode, 3 ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( ParseSubNode( cNode ) ) { continue; } else if( cNodeName == wxT( "PATH" ) ) { Path = ParseAllChildPoints( cNode, true ); } else if( cNodeName == wxT( "GROUPREF" ) ) { GroupID = GetXmlAttributeIDString( cNode, 0 ); } else if( cNodeName == wxT( "REUSEBLOCKREF" ) ) { ReuseBlockRef.Parse( cNode ); } else if( cNodeName == wxT( "CONLINECODE" ) ) { ConnectionLineCode = GetXmlAttributeIDString( cNode, 0 ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "CONN" ) ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::Parse( XNODE* aNode ) { ParseIdentifiers( aNode ); //Parse child nodes XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "JPT" ) ) { JUNCTION_SCH jpt; jpt.Parse( cNode ); Junctions.insert( std::make_pair( jpt.ID, jpt ) ); } else if( ParseSubNode( cNode ) ) { continue; } else if( cNodeName == wxT( "TERM" ) ) { SYM_TERM pin; pin.Parse( cNode ); Terminals.insert( std::make_pair( pin.ID, pin ) ); } else if( cNodeName == wxT( "BUSTERM" ) ) { BUS_TERM bt; bt.Parse( cNode ); BusTerminals.insert( std::make_pair( bt.ID, bt ) ); } else if( cNodeName == wxT( "BLOCKTERM" ) ) { BLOCK_TERM bt; bt.Parse( cNode ); BlockTerminals.insert( std::make_pair( bt.ID, bt ) ); } else if( cNodeName == wxT( "DANGLER" ) ) { DANGLER dang; dang.Parse( cNode ); Danglers.insert( std::make_pair( dang.ID, dang ) ); } else if( cNodeName == wxT( "CONN" ) ) { CONNECTION_SCH conn; conn.Parse( cNode ); Connections.push_back( conn ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, wxT( "NET" ) ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::SCHEMATIC::Parse( XNODE* aNode ) { wxCHECK( aNode->GetName() == wxT( "SCHEMATIC" ), ); XNODE* cNode = aNode->GetChildren(); for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "GROUP" ) ) { GROUP group; group.Parse( cNode ); Groups.insert( std::make_pair( group.ID, group ) ); } else if( cNodeName == wxT( "REUSEBLOCK" ) ) { REUSEBLOCK reuseblock; reuseblock.Parse( cNode ); ReuseBlocks.insert( std::make_pair( reuseblock.ID, reuseblock ) ); } else if( cNodeName == wxT( "FIGURE" ) ) { FIGURE figure; figure.Parse( cNode ); Figures.insert( std::make_pair( figure.ID, figure ) ); } else if( cNodeName == wxT( "SYMBOL" ) ) { SYMBOL sym; sym.Parse( cNode ); Symbols.insert( std::make_pair( sym.ID, sym ) ); } else if( cNodeName == wxT( "BUS" ) ) { BUS bus; bus.Parse( cNode ); Buses.insert( std::make_pair( bus.ID, bus ) ); } else if( cNodeName == wxT( "BLOCK" ) ) { BLOCK block; block.Parse( cNode ); Blocks.insert( std::make_pair( block.ID, block ) ); } else if( cNodeName == wxT( "NET" ) ) { NET_SCH net; net.Parse( cNode ); Nets.insert( std::make_pair( net.ID, net ) ); } else if( cNodeName == wxT( "TEXT" ) ) { TEXT txt; txt.Parse( cNode ); Texts.insert( std::make_pair( txt.ID, txt ) ); } else if( cNodeName == wxT( "DOCSYMBOL" ) ) { DOCUMENTATION_SYMBOL docsym; docsym.Parse( cNode ); DocumentationSymbols.insert( std::make_pair( docsym.ID, docsym ) ); } else if( cNodeName == wxT( "VHIERARCHY" ) ) { VariantHierarchy.Parse( cNode ); } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::JUNCTION_SCH::Parse( XNODE* aNode ) { CADSTAR_ARCHIVE_PARSER::NET::JUNCTION::Parse( aNode ); TerminalCodeID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); } void CADSTAR_SCH_ARCHIVE_PARSER::NET_SCH::DANGLER::Parse( XNODE* aNode ) { wxASSERT( aNode->GetName() == wxT( "DANGLER" ) ); ID = GetXmlAttributeIDString( aNode, 0 ); TerminalCodeID = GetXmlAttributeIDString( aNode, 1 ); LayerID = GetXmlAttributeIDString( aNode, 2 ); XNODE* cNode = aNode->GetChildren(); bool positionParsed = false; for( ; cNode; cNode = cNode->GetNext() ) { wxString cNodeName = cNode->GetName(); if( cNodeName == wxT( "SIGLOC" ) ) { NetLabel.Parse( cNode ); HasNetLabel = true; } else if( !positionParsed && cNodeName == wxT( "PT" ) ) { Position.Parse( cNode ); positionParsed = true; } else { THROW_UNKNOWN_NODE_IO_ERROR( cNodeName, aNode->GetName() ); } } }