/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2023 Alex Shvartzkop * Copyright (C) 2023-2024 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 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 "sch_easyeda_parser.h" #include "sch_io_easyeda.h" #include #include #include #include #include #include #include #include #include #include #include #include #include static bool FindSchFileInStream( const wxString& aName, wxInputStream& aStream, nlohmann::json& aOut, EASYEDA::DOCUMENT& aDoc, EASYEDA::DOC_TYPE& aDocType ) { if( aName.Lower().EndsWith( wxS( ".json" ) ) ) { wxStdInputStream sin( aStream ); nlohmann::json js = nlohmann::json::parse( sin, nullptr, false ); if( js.is_discarded() ) return false; EASYEDA::DOCUMENT doc = js.get(); EASYEDA::DOC_TYPE type; if( doc.docType ) type = *doc.docType; else type = doc.head.docType; if( type == EASYEDA::DOC_TYPE::SCHEMATIC_SHEET || type == EASYEDA::DOC_TYPE::SCHEMATIC_LIST || type == EASYEDA::DOC_TYPE::SYMBOL ) { aOut = js; aDoc = doc; aDocType = type; return true; } } else if( aName.Lower().EndsWith( wxS( ".zip" ) ) ) { std::shared_ptr entry; wxZipInputStream zip( aStream ); if( !zip.IsOk() ) return false; while( entry.reset( zip.GetNextEntry() ), entry.get() != NULL ) { wxString name = entry->GetName(); if( FindSchFileInStream( name, zip, aOut, aDoc, aDocType ) ) return true; } } return false; } bool SCH_IO_EASYEDA::CanReadSchematicFile( const wxString& aFileName ) const { if( !SCH_IO::CanReadSchematicFile( aFileName ) ) return false; try { wxFFileInputStream in( aFileName ); nlohmann::json js; EASYEDA::DOCUMENT doc; EASYEDA::DOC_TYPE docType; return FindSchFileInStream( aFileName, in, js, doc, docType ); } catch( nlohmann::json::exception& ) { } catch( std::exception& ) { } return false; } bool SCH_IO_EASYEDA::CanReadLibrary( const wxString& aFileName ) const { return CanReadSchematicFile( aFileName ); } int SCH_IO_EASYEDA::GetModifyHash() const { return 0; } LIB_SYMBOL* loadSymbol( const wxString& aLibraryPath, nlohmann::json aFileData, const wxString& aAliasName, const STRING_UTF8_MAP* aProperties ) { SCH_EASYEDA_PARSER parser( nullptr, nullptr ); std::map namesCounter; try { wxFFileInputStream in( aLibraryPath ); nlohmann::json js; EASYEDA::DOCUMENT topDoc; EASYEDA::DOC_TYPE topDocType; if( !FindSchFileInStream( aLibraryPath, in, js, topDoc, topDocType ) ) { THROW_IO_ERROR( wxString::Format( _( "Unable to find a valid schematic file in '%s'" ), aLibraryPath ) ); } if( topDocType == EASYEDA::DOC_TYPE::SCHEMATIC_SHEET || topDocType == EASYEDA::DOC_TYPE::SCHEMATIC_LIST ) { EASYEDA::DOCUMENT_SCHEMATICS schDoc = js.get(); for( const EASYEDA::DOCUMENT& subDoc : *schDoc.schematics ) { if( subDoc.docType ) { if( *subDoc.docType != EASYEDA::DOC_TYPE::SCHEMATIC_SHEET ) continue; } else { if( subDoc.head.docType != EASYEDA::DOC_TYPE::SCHEMATIC_SHEET ) continue; } EASYEDA::DOCUMENT dataStrDoc = subDoc.dataStr->get(); for( wxString shap : dataStrDoc.shape ) { if( !shap.Contains( wxS( "LIB" ) ) ) continue; shap.Replace( wxS( "#@$" ), wxS( "\n" ) ); wxArrayString parts = wxSplit( shap, '\n', '\0' ); if( parts.size() < 1 ) continue; wxArrayString paramsRoot = wxSplit( parts[0], '~', '\0' ); if( paramsRoot.size() < 1 ) continue; wxString rootType = paramsRoot[0]; if( rootType == wxS( "LIB" ) ) { if( paramsRoot.size() < 4 ) continue; VECTOR2D origin( parser.Convert( paramsRoot[1] ), parser.Convert( paramsRoot[2] ) ); wxString symbolName = wxString::Format( wxS( "Unknown_%s_%s" ), paramsRoot[1], paramsRoot[2] ); wxArrayString paramParts = wxSplit( paramsRoot[3], '`', '\0' ); std::map paramMap; for( size_t i = 1; i < paramParts.size(); i += 2 ) { wxString key = paramParts[i - 1]; wxString value = paramParts[i]; if( key == wxS( "spiceSymbolName" ) && !value.IsEmpty() ) symbolName = value; paramMap[key] = value; } int& serial = namesCounter[symbolName]; if( serial > 0 ) symbolName << wxS( "_" ) << serial; serial++; paramMap[wxS( "spiceSymbolName" )] = symbolName; if( symbolName == aAliasName ) { parts.RemoveAt( 0 ); return parser.ParseSymbol( origin, paramMap, parts ); } } } } } else if( topDocType == EASYEDA::DOC_TYPE::SYMBOL ) { EASYEDA::DOCUMENT_SYM symDoc = js.get(); wxString symbolName = wxS( "Unknown" ); std::optional> c_para; if( symDoc.c_para ) c_para = symDoc.c_para; else if( topDoc.head.c_para ) c_para = topDoc.head.c_para; if( !c_para ) return nullptr; symbolName = get_def( *c_para, wxS( "name" ), symbolName ); int& serial = namesCounter[symbolName]; if( serial > 0 ) symbolName << wxS( "_" ) << serial; serial++; if( symbolName != aAliasName ) return nullptr; VECTOR2D origin( topDoc.head.x, topDoc.head.y ); return parser.ParseSymbol( origin, *c_para, topDoc.shape ); } } catch( nlohmann::json::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error loading symbol '%s' from library '%s': %s" ), aAliasName, aLibraryPath, e.what() ) ); } catch( std::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error loading symbol '%s' from library '%s': %s" ), aAliasName, aLibraryPath, e.what() ) ); } return nullptr; } void SCH_IO_EASYEDA::EnumerateSymbolLib( wxArrayString& aSymbolNameList, const wxString& aLibraryPath, const STRING_UTF8_MAP* aProperties ) { std::map namesCounter; try { wxFFileInputStream in( aLibraryPath ); nlohmann::json js; EASYEDA::DOCUMENT topDoc; EASYEDA::DOC_TYPE topDocType; if( !FindSchFileInStream( aLibraryPath, in, js, topDoc, topDocType ) ) { THROW_IO_ERROR( wxString::Format( _( "Unable to find a valid schematic file in '%s'" ), aLibraryPath ) ); } if( topDocType == EASYEDA::DOC_TYPE::SCHEMATIC_SHEET || topDocType == EASYEDA::DOC_TYPE::SCHEMATIC_LIST ) { EASYEDA::DOCUMENT_SCHEMATICS schDoc = js.get(); for( const EASYEDA::DOCUMENT& subDoc : *schDoc.schematics ) { if( subDoc.docType ) { if( *subDoc.docType != EASYEDA::DOC_TYPE::SCHEMATIC_SHEET ) continue; } else { if( subDoc.head.docType != EASYEDA::DOC_TYPE::SCHEMATIC_SHEET ) continue; } EASYEDA::DOCUMENT dataStrDoc = subDoc.dataStr->get(); for( wxString shap : dataStrDoc.shape ) { if( !shap.Contains( wxS( "LIB" ) ) ) continue; shap.Replace( wxS( "#@$" ), wxS( "\n" ) ); wxArrayString parts = wxSplit( shap, '\n', '\0' ); if( parts.size() < 1 ) continue; wxArrayString paramsRoot = wxSplit( parts[0], '~', '\0' ); if( paramsRoot.size() < 1 ) continue; wxString rootType = paramsRoot[0]; if( rootType == wxS( "LIB" ) ) { if( paramsRoot.size() < 4 ) continue; wxString symbolName = wxString::Format( wxS( "Unknown_%s_%s" ), paramsRoot[1], paramsRoot[2] ); wxArrayString paramParts = wxSplit( paramsRoot[3], '`', '\0' ); std::map paramMap; for( size_t i = 1; i < paramParts.size(); i += 2 ) { wxString key = paramParts[i - 1]; wxString value = paramParts[i]; if( key == wxS( "spiceSymbolName" ) && !value.IsEmpty() ) symbolName = value; paramMap[key] = value; } int& serial = namesCounter[symbolName]; if( serial > 0 ) symbolName << wxS( "_" ) << serial; serial++; aSymbolNameList.Add( symbolName ); } } } } else if( topDocType == EASYEDA::DOC_TYPE::SYMBOL ) { EASYEDA::DOCUMENT_SYM symDoc = js.get(); wxString packageName = wxS( "Unknown" ); if( symDoc.c_para ) { packageName = get_def( *symDoc.c_para, wxS( "name" ), packageName ); } else if( topDoc.head.c_para ) { packageName = get_def( *topDoc.head.c_para, wxS( "name" ), packageName ); } aSymbolNameList.Add( packageName ); } } catch( nlohmann::json::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error enumerating symbol library '%s': %s" ), aLibraryPath, e.what() ) ); } catch( std::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error enumerating symbol library '%s': %s" ), aLibraryPath, e.what() ) ); } } void SCH_IO_EASYEDA::EnumerateSymbolLib( std::vector& aSymbolList, const wxString& aLibraryPath, const STRING_UTF8_MAP* aProperties ) { wxFFileInputStream in( aLibraryPath ); nlohmann::json js; EASYEDA::DOCUMENT topDoc; EASYEDA::DOC_TYPE topDocType; if( !FindSchFileInStream( aLibraryPath, in, js, topDoc, topDocType ) ) { THROW_IO_ERROR( wxString::Format( _( "Unable to find a valid schematic file in '%s'" ), aLibraryPath ) ); } try { wxArrayString symbolNameList; EnumerateSymbolLib( symbolNameList, aLibraryPath, aProperties ); for( const wxString& symbolName : symbolNameList ) { LIB_SYMBOL* sym = loadSymbol( aLibraryPath, js, symbolName, aProperties ); if( sym ) aSymbolList.push_back( sym ); } } catch( nlohmann::json::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error enumerating symbol library '%s': %s" ), aLibraryPath, e.what() ) ); } catch( std::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error enumerating symbol library '%s': %s" ), aLibraryPath, e.what() ) ); } } LIB_SYMBOL* SCH_IO_EASYEDA::LoadSymbol( const wxString& aLibraryPath, const wxString& aAliasName, const STRING_UTF8_MAP* aProperties ) { try { wxFFileInputStream in( aLibraryPath ); nlohmann::json js; EASYEDA::DOCUMENT topDoc; EASYEDA::DOC_TYPE topDocType; if( !FindSchFileInStream( aLibraryPath, in, js, topDoc, topDocType ) ) { THROW_IO_ERROR( wxString::Format( _( "Unable to find a valid schematic file in '%s'" ), aLibraryPath ) ); } return loadSymbol( aLibraryPath, js, aAliasName, aProperties ); } catch( nlohmann::json::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error loading symbol '%s' from library '%s': %s" ), aAliasName, aLibraryPath, e.what() ) ); } catch( std::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error loading symbol '%s' from library '%s': %s" ), aAliasName, aLibraryPath, e.what() ) ); } return nullptr; } static void LoadSchematic( SCHEMATIC* aSchematic, SCH_SHEET* aRootSheet, const wxString& aFileName ) { SCH_EASYEDA_PARSER parser( nullptr, nullptr ); try { wxFFileInputStream in( aFileName ); nlohmann::json js; EASYEDA::DOCUMENT topDoc; EASYEDA::DOC_TYPE topDocType; if( !FindSchFileInStream( aFileName, in, js, topDoc, topDocType ) ) { THROW_IO_ERROR( wxString::Format( _( "Unable to find a valid schematic file in '%s'" ), aFileName ) ); } if( topDocType == EASYEDA::DOC_TYPE::SCHEMATIC_SHEET || topDocType == EASYEDA::DOC_TYPE::SCHEMATIC_LIST ) { int pageNum = 1; EASYEDA::DOCUMENT_SCHEMATICS schDoc = js.get(); for( const EASYEDA::DOCUMENT& subDoc : *schDoc.schematics ) { if( subDoc.docType ) { if( *subDoc.docType != EASYEDA::DOC_TYPE::SCHEMATIC_SHEET ) continue; } else { if( subDoc.head.docType != EASYEDA::DOC_TYPE::SCHEMATIC_SHEET ) continue; } EASYEDA::DOCUMENT dataStrDoc = subDoc.dataStr->get(); if( schDoc.schematics->size() > 1 ) { wxString sheetTitle = !subDoc.title.empty() ? subDoc.title : ( wxString() << pageNum ); wxString sheetBaseName = EscapeString( sheetTitle, CTX_FILENAME ); wxFileName sheetFname( aFileName ); sheetFname.SetFullName( sheetBaseName + wxS( "." ) + wxString::FromUTF8( FILEEXT::KiCadSchematicFileExtension ) ); wxFileName relSheetPath( sheetFname ); relSheetPath.MakeRelativeTo( wxFileName( aRootSheet->GetFileName() ).GetPath() ); std::unique_ptr subSheet = std::make_unique( aSchematic ); subSheet->SetFileName( relSheetPath.GetFullPath() ); subSheet->SetName( sheetTitle ); SCH_SCREEN* screen = new SCH_SCREEN( aSchematic ); screen->SetFileName( sheetFname.GetFullPath() ); screen->SetPageNumber( wxString() << pageNum ); subSheet->SetScreen( screen ); VECTOR2I pos; pos.x = schIUScale.MilsToIU( 200 ); pos.y = schIUScale.MilsToIU( 200 ) + ( subSheet->GetSize().y + schIUScale.MilsToIU( 200 ) ) * ( pageNum - 1 ); subSheet->SetPosition( pos ); SCH_SHEET_PATH sheetPath; sheetPath.push_back( aRootSheet ); sheetPath.push_back( subSheet.get() ); sheetPath.SetPageNumber( wxString() << pageNum ); aSchematic->SetCurrentSheet( sheetPath ); parser.ParseSchematic( aSchematic, subSheet.get(), aFileName, dataStrDoc.shape ); aRootSheet->GetScreen()->Append( subSheet.release() ); } else { parser.ParseSchematic( aSchematic, aRootSheet, aFileName, dataStrDoc.shape ); } pageNum++; } } } catch( nlohmann::json::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error loading schematic '%s': %s" ), aFileName, e.what() ) ); } catch( std::exception& e ) { THROW_IO_ERROR( wxString::Format( _( "Error loading schematic '%s': %s" ), aFileName, e.what() ) ); } } SCH_SHEET* SCH_IO_EASYEDA::LoadSchematicFile( const wxString& aFileName, SCHEMATIC* aSchematic, SCH_SHEET* aAppendToMe, const STRING_UTF8_MAP* aProperties ) { wxCHECK( !aFileName.IsEmpty() && aSchematic, nullptr ); SCH_SHEET* rootSheet = nullptr; if( aAppendToMe ) { wxCHECK_MSG( aSchematic->IsValid(), nullptr, wxS( "Can't append to a schematic with no root!" ) ); rootSheet = &aSchematic->Root(); } else { rootSheet = new SCH_SHEET( aSchematic ); rootSheet->SetFileName( aFileName ); aSchematic->SetRoot( rootSheet ); } if( !rootSheet->GetScreen() ) { SCH_SCREEN* screen = new SCH_SCREEN( aSchematic ); screen->SetFileName( aFileName ); rootSheet->SetScreen( screen ); } SYMBOL_LIB_TABLE* libTable = PROJECT_SCH::SchSymbolLibTable( &aSchematic->Prj() ); wxCHECK_MSG( libTable, nullptr, wxS( "Could not load symbol lib table." ) ); LoadSchematic( aSchematic, rootSheet, aFileName ); aSchematic->CurrentSheet().UpdateAllScreenReferences(); return rootSheet; }