/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2015 Chris Pavlina * Copyright (C) 2015-2023 KiCad Developers, see change_log.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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef std::pair SYMBOL_NAME_PAIR; // Helper sort function, used in getSymbols, to sort a symbol list by lib_id static bool sort_by_libid( const SCH_SYMBOL* ref, SCH_SYMBOL* cmp ) { return ref->GetLibId() < cmp->GetLibId(); } /** * Fill a vector with all of the project's symbols, to ease iterating over them. * * The list is sorted by #LIB_ID, therefore symbols using the same library * symbol are grouped, allowing later faster calculations (one library search by group * of symbols) * * @param aSymbols is a vector that will take the symbols. */ static void getSymbols( SCHEMATIC* aSchematic, std::vector& aSymbols ) { SCH_SCREENS screens( aSchematic->Root() ); // Get the full list for( SCH_SCREEN* screen = screens.GetFirst(); screen; screen = screens.GetNext() ) { for( EDA_ITEM* aItem : screen->Items().OfType( SCH_SYMBOL_T ) ) aSymbols.push_back( static_cast( aItem ) ); } if( aSymbols.empty() ) return; // sort aSymbols by lib symbol. symbols will be grouped by same lib symbol. std::sort( aSymbols.begin(), aSymbols.end(), sort_by_libid ); } /** * Search the libraries for the first symbol with a given name. * * @param aName - name to search for * @param aLibs - the loaded SYMBOL_LIBS * @param aCached - whether we are looking for the cached symbol */ static LIB_SYMBOL* findSymbol( const wxString& aName, SYMBOL_LIBS* aLibs, bool aCached ) { LIB_SYMBOL *symbol = nullptr; for( SYMBOL_LIB& each_lib : *aLibs ) { if( aCached && !each_lib.IsCache() ) continue; if( !aCached && each_lib.IsCache() ) continue; symbol = each_lib.FindSymbol( aName ); if( symbol ) break; } return symbol; } static wxFileName GetRescueLibraryFileName( SCHEMATIC* aSchematic ) { wxFileName fn = aSchematic->GetFileName(); fn.SetName( fn.GetName() + wxT( "-rescue" ) ); fn.SetExt( FILEEXT::LegacySymbolLibFileExtension ); return fn; } RESCUE_CASE_CANDIDATE::RESCUE_CASE_CANDIDATE( const wxString& aRequestedName, const wxString& aNewName, LIB_SYMBOL* aLibCandidate, int aUnit, int aConvert ) { m_requested_name = aRequestedName; m_new_name = aNewName; m_lib_candidate = aLibCandidate; m_unit = aUnit; m_convert = aConvert; } void RESCUE_CASE_CANDIDATE::FindRescues( RESCUER& aRescuer, boost::ptr_vector& aCandidates ) { typedef std::map candidate_map_t; candidate_map_t candidate_map; // Remember the list of symbols is sorted by symbol name. // So a search in libraries is made only once by group LIB_SYMBOL* case_sensitive_match = nullptr; std::vector case_insensitive_matches; wxString symbol_name; wxString last_symbol_name; for( SCH_SYMBOL* eachSymbol : *( aRescuer.GetSymbols() ) ) { symbol_name = eachSymbol->GetLibId().GetUniStringLibItemName(); if( last_symbol_name != symbol_name ) { // A new symbol name is found (a new group starts here). // Search the symbol names candidates only once for this group: last_symbol_name = symbol_name; case_insensitive_matches.clear(); LIB_ID id( wxEmptyString, symbol_name ); case_sensitive_match = PROJECT_SCH::SchLibs( aRescuer.GetPrj() )->FindLibSymbol( id ); if( case_sensitive_match ) continue; // If the case sensitive match failed, try a case insensitive match. PROJECT_SCH::SchLibs( aRescuer.GetPrj() ) ->FindLibraryNearEntries( case_insensitive_matches, symbol_name ); // If there are not case insensitive matches either, the symbol cannot be rescued. if( !case_insensitive_matches.size() ) continue; RESCUE_CASE_CANDIDATE candidate( symbol_name, case_insensitive_matches[0]->GetName(), case_insensitive_matches[0], eachSymbol->GetUnit(), eachSymbol->GetBodyStyle() ); candidate_map[symbol_name] = candidate; } } // Now, dump the map into aCandidates for( const candidate_map_t::value_type& each_pair : candidate_map ) { aCandidates.push_back( new RESCUE_CASE_CANDIDATE( each_pair.second ) ); } } wxString RESCUE_CASE_CANDIDATE::GetActionDescription() const { wxString action; action.Printf( _( "Rename %s to %s" ), m_requested_name, m_new_name ); return action; } bool RESCUE_CASE_CANDIDATE::PerformAction( RESCUER* aRescuer ) { wxCHECK( m_lib_candidate, true ); std::unique_ptr new_symbol = m_lib_candidate->Flatten(); new_symbol->SetName( m_new_name ); aRescuer->AddSymbol( new_symbol.get() ); for( SCH_SYMBOL* eachSymbol : *aRescuer->GetSymbols() ) { if( eachSymbol->GetLibId().GetLibItemName() != UTF8( m_requested_name ) ) continue; LIB_ID libId; libId.SetLibItemName( m_new_name ); eachSymbol->SetLibId( libId ); eachSymbol->ClearFlags(); aRescuer->LogRescue( eachSymbol, m_requested_name, m_new_name ); } return true; } RESCUE_CACHE_CANDIDATE::RESCUE_CACHE_CANDIDATE( const wxString& aRequestedName, const wxString& aNewName, LIB_SYMBOL* aCacheCandidate, LIB_SYMBOL* aLibCandidate, int aUnit, int aConvert ) { m_requested_name = aRequestedName; m_new_name = aNewName; m_cache_candidate = aCacheCandidate; m_lib_candidate = aLibCandidate; m_unit = aUnit; m_convert = aConvert; } RESCUE_CACHE_CANDIDATE::RESCUE_CACHE_CANDIDATE() { m_cache_candidate = nullptr; m_lib_candidate = nullptr; } void RESCUE_CACHE_CANDIDATE::FindRescues( RESCUER& aRescuer, boost::ptr_vector& aCandidates ) { typedef std::map candidate_map_t; candidate_map_t candidate_map; // Remember the list of symbols is sorted by symbol name. // So a search in libraries is made only once by group LIB_SYMBOL* cache_match = nullptr; LIB_SYMBOL* lib_match = nullptr; wxString symbol_name; wxString old_symbol_name; for( SCH_SYMBOL* eachSymbol : *( aRescuer.GetSymbols() ) ) { symbol_name = eachSymbol->GetLibId().GetUniStringLibItemName(); if( old_symbol_name != symbol_name ) { // A new symbol name is found (a new group starts here). // Search the symbol names candidates only once for this group: old_symbol_name = symbol_name; cache_match = findSymbol( symbol_name, PROJECT_SCH::SchLibs( aRescuer.GetPrj() ), true ); lib_match = findSymbol( symbol_name, PROJECT_SCH::SchLibs( aRescuer.GetPrj() ), false ); // At some point during V5 development, the LIB_ID delimiter character ':' was // replaced by '_' when writing the symbol cache library so we have to test for // the LIB_NICKNAME_LIB_SYMBOL_NAME case. if( !cache_match && eachSymbol->GetLibId().IsValid() ) { wxString tmp; tmp = eachSymbol->GetLibId().GetLibNickname().wx_str() + wxT( "_" ) + eachSymbol->GetLibId().GetLibItemName().wx_str(); cache_match = findSymbol( tmp, PROJECT_SCH::SchLibs( aRescuer.GetPrj() ), true ); } // Test whether there is a conflict or if the symbol can only be found in the cache // and the symbol name does not have any illegal characters. if( cache_match && lib_match && !cache_match->PinsConflictWith( *lib_match, true, true, true, true, false ) ) continue; if( !cache_match && lib_match ) continue; // Check if the symbol has already been rescued. RESCUE_CACHE_CANDIDATE candidate( symbol_name, symbol_name, cache_match, lib_match, eachSymbol->GetUnit(), eachSymbol->GetBodyStyle() ); candidate_map[symbol_name] = candidate; } } // Now, dump the map into aCandidates for( const candidate_map_t::value_type& each_pair : candidate_map ) { aCandidates.push_back( new RESCUE_CACHE_CANDIDATE( each_pair.second ) ); } } wxString RESCUE_CACHE_CANDIDATE::GetActionDescription() const { wxString action; if( !m_cache_candidate && !m_lib_candidate ) action.Printf( _( "Cannot rescue symbol %s which is not available in any library or " "the cache." ), m_requested_name ); else if( m_cache_candidate && !m_lib_candidate ) action.Printf( _( "Rescue symbol %s found only in cache library to %s." ), m_requested_name, m_new_name ); else action.Printf( _( "Rescue modified symbol %s to %s" ), m_requested_name, m_new_name ); return action; } bool RESCUE_CACHE_CANDIDATE::PerformAction( RESCUER* aRescuer ) { LIB_SYMBOL* tmp = ( m_cache_candidate ) ? m_cache_candidate : m_lib_candidate; // A symbol that cannot be rescued is a valid condition so just bail out here. if( !tmp ) return true; std::unique_ptr new_symbol = tmp->Flatten(); new_symbol->SetName( m_new_name ); aRescuer->AddSymbol( new_symbol.get() ); for( SCH_SYMBOL* eachSymbol : *aRescuer->GetSymbols() ) { if( eachSymbol->GetLibId().GetLibItemName() != UTF8( m_requested_name ) ) continue; LIB_ID libId; libId.SetLibItemName( m_new_name ); eachSymbol->SetLibId( libId ); eachSymbol->ClearFlags(); aRescuer->LogRescue( eachSymbol, m_requested_name, m_new_name ); } return true; } RESCUE_SYMBOL_LIB_TABLE_CANDIDATE::RESCUE_SYMBOL_LIB_TABLE_CANDIDATE( const LIB_ID& aRequestedId, const LIB_ID& aNewId, LIB_SYMBOL* aCacheCandidate, LIB_SYMBOL* aLibCandidate, int aUnit, int aConvert ) : RESCUE_CANDIDATE() { m_requested_id = aRequestedId; m_requested_name = aRequestedId.Format().wx_str(); m_new_id = aNewId; m_lib_candidate = aLibCandidate; m_cache_candidate = aCacheCandidate; m_unit = aUnit; m_convert = aConvert; } RESCUE_SYMBOL_LIB_TABLE_CANDIDATE::RESCUE_SYMBOL_LIB_TABLE_CANDIDATE() { m_cache_candidate = nullptr; m_lib_candidate = nullptr; } void RESCUE_SYMBOL_LIB_TABLE_CANDIDATE::FindRescues( RESCUER& aRescuer, boost::ptr_vector& aCandidates ) { typedef std::map candidate_map_t; candidate_map_t candidate_map; // Remember the list of symbols is sorted by LIB_ID. // So a search in libraries is made only once by group LIB_SYMBOL* cache_match = nullptr; LIB_SYMBOL* lib_match = nullptr; LIB_ID old_symbol_id; wxString symbolName; for( SCH_SYMBOL* eachSymbol : *( aRescuer.GetSymbols() ) ) { const LIB_ID& symbol_id = eachSymbol->GetLibId(); if( old_symbol_id != symbol_id ) { // A new symbol name is found (a new group starts here). // Search the symbol names candidates only once for this group: old_symbol_id = symbol_id; symbolName = symbol_id.Format().wx_str(); // Get the library symbol from the cache library. It will be a flattened // symbol by default (no inheritance). cache_match = findSymbol( symbolName, PROJECT_SCH::SchLibs( aRescuer.GetPrj() ), true ); // At some point during V5 development, the LIB_ID delimiter character ':' was // replaced by '_' when writing the symbol cache library so we have to test for // the LIB_NICKNAME_LIB_SYMBOL_NAME case. if( !cache_match ) { symbolName = symbol_id.GetLibNickname().wx_str() + wxT( "_" ) + symbol_id.GetLibItemName().wx_str(); cache_match = findSymbol( symbolName, PROJECT_SCH::SchLibs( aRescuer.GetPrj() ), true ); } // Get the library symbol from the symbol library table. lib_match = SchGetLibSymbol( symbol_id, PROJECT_SCH::SchSymbolLibTable( aRescuer.GetPrj() ) ); if( !cache_match && !lib_match ) continue; LIB_SYMBOL_SPTR lib_match_parent; // If it's a derive symbol, use the parent symbol to perform the pin test. if( lib_match && lib_match->IsAlias() ) { lib_match_parent = lib_match->GetRootSymbol(); if( !lib_match_parent ) lib_match = nullptr; else lib_match = lib_match_parent.get(); } // Test whether there is a conflict or if the symbol can only be found in the cache. if( LIB_ID::HasIllegalChars( symbol_id.GetLibItemName() ) == -1 ) { if( cache_match && lib_match && !cache_match->PinsConflictWith( *lib_match, true, true, true, true, false ) ) { continue; } if( !cache_match && lib_match ) continue; } // Fix illegal LIB_ID name characters. wxString new_name = EscapeString( symbol_id.GetLibItemName(), CTX_LIBID ); // Differentiate symbol name in the rescue library by appending the original symbol // library table nickname to the symbol name to prevent name clashes in the rescue // library. wxString libNickname = GetRescueLibraryFileName( aRescuer.Schematic() ).GetName(); LIB_ID new_id( libNickname, new_name + wxS( "-" ) + symbol_id.GetLibNickname().wx_str() ); RESCUE_SYMBOL_LIB_TABLE_CANDIDATE candidate( symbol_id, new_id, cache_match, lib_match, eachSymbol->GetUnit(), eachSymbol->GetBodyStyle() ); candidate_map[symbol_id] = candidate; } } // Now, dump the map into aCandidates for( const candidate_map_t::value_type& each_pair : candidate_map ) { aCandidates.push_back( new RESCUE_SYMBOL_LIB_TABLE_CANDIDATE( each_pair.second ) ); } } wxString RESCUE_SYMBOL_LIB_TABLE_CANDIDATE::GetActionDescription() const { wxString action; if( !m_cache_candidate && !m_lib_candidate ) { action.Printf( _( "Cannot rescue symbol %s which is not available in any library or " "the cache." ), UnescapeString( m_requested_id.GetLibItemName().wx_str() ) ); } else if( m_cache_candidate && !m_lib_candidate ) { action.Printf( _( "Rescue symbol %s found only in cache library to %s." ), UnescapeString( m_requested_id.Format().wx_str() ), UnescapeString( m_new_id.Format().wx_str() ) ); } else { action.Printf( _( "Rescue modified symbol %s to %s" ), UnescapeString( m_requested_id.Format().wx_str() ), UnescapeString( m_new_id.Format().wx_str() ) ); } return action; } bool RESCUE_SYMBOL_LIB_TABLE_CANDIDATE::PerformAction( RESCUER* aRescuer ) { LIB_SYMBOL* tmp = ( m_cache_candidate ) ? m_cache_candidate : m_lib_candidate; wxCHECK_MSG( tmp, false, wxS( "Both cache and library symbols undefined." ) ); std::unique_ptr new_symbol = tmp->Flatten(); new_symbol->SetLibId( m_new_id ); new_symbol->SetName( m_new_id.GetLibItemName() ); aRescuer->AddSymbol( new_symbol.get() ); for( SCH_SYMBOL* eachSymbol : *aRescuer->GetSymbols() ) { if( eachSymbol->GetLibId() != m_requested_id ) continue; eachSymbol->SetLibId( m_new_id ); eachSymbol->ClearFlags(); aRescuer->LogRescue( eachSymbol, m_requested_id.Format(), m_new_id.Format() ); } return true; } RESCUER::RESCUER( PROJECT& aProject, SCHEMATIC* aSchematic, SCH_SHEET_PATH* aCurrentSheet, EDA_DRAW_PANEL_GAL::GAL_TYPE aGalBackEndType ) { m_schematic = aSchematic ? aSchematic : aCurrentSheet->LastScreen()->Schematic(); wxASSERT( m_schematic ); if( m_schematic ) getSymbols( m_schematic, m_symbols ); m_prj = &aProject; m_currentSheet = aCurrentSheet; m_galBackEndType = aGalBackEndType; } void RESCUER::LogRescue( SCH_SYMBOL* aSymbol, const wxString &aOldName, const wxString &aNewName ) { RESCUE_LOG logitem; logitem.symbol = aSymbol; logitem.old_name = aOldName; logitem.new_name = aNewName; m_rescue_log.push_back( logitem ); } bool RESCUER::DoRescues() { for( RESCUE_CANDIDATE* each_candidate : m_chosen_candidates ) { if( ! each_candidate->PerformAction( this ) ) return false; } return true; } void RESCUER::UndoRescues() { for( RESCUE_LOG& each_logitem : m_rescue_log ) { LIB_ID libId; libId.SetLibItemName( each_logitem.old_name ); each_logitem.symbol->SetLibId( libId ); each_logitem.symbol->ClearFlags(); } } bool RESCUER::RescueProject( wxWindow* aParent, RESCUER& aRescuer, bool aRunningOnDemand ) { aRescuer.FindCandidates(); if( !aRescuer.GetCandidateCount() ) { if( aRunningOnDemand ) { wxMessageDialog dlg( aParent, _( "This project has nothing to rescue." ), _( "Project Rescue Helper" ) ); dlg.ShowModal(); } return true; } aRescuer.RemoveDuplicates(); aRescuer.InvokeDialog( aParent, !aRunningOnDemand ); // If no symbols were rescued, let the user know what's going on. He might // have clicked cancel by mistake, and should have some indication of that. if( !aRescuer.GetChosenCandidateCount() ) { wxMessageDialog dlg( aParent, _( "No symbols were rescued." ), _( "Project Rescue Helper" ) ); dlg.ShowModal(); // Set the modified flag even on Cancel. Many users seem to instinctively want to Save at // this point, due to the reloading of the symbols, so we'll make the save button active. return true; } aRescuer.OpenRescueLibrary(); if( !aRescuer.DoRescues() ) { aRescuer.UndoRescues(); return false; } aRescuer.WriteRescueLibrary( aParent ); return true; } void RESCUER::RemoveDuplicates() { std::vector names_seen; for( boost::ptr_vector::iterator it = m_all_candidates.begin(); it != m_all_candidates.end(); ) { bool seen_already = false; for( wxString& name_seen : names_seen ) { if( name_seen == it->GetRequestedName() ) { seen_already = true; break; } } if( seen_already ) { it = m_all_candidates.erase( it ); } else { names_seen.push_back( it->GetRequestedName() ); ++it; } } } void LEGACY_RESCUER::FindCandidates() { RESCUE_CASE_CANDIDATE::FindRescues( *this, m_all_candidates ); RESCUE_CACHE_CANDIDATE::FindRescues( *this, m_all_candidates ); } void LEGACY_RESCUER::InvokeDialog( wxWindow* aParent, bool aAskShowAgain ) { InvokeDialogRescueEach( aParent, static_cast< RESCUER& >( *this ), m_currentSheet, m_galBackEndType, aAskShowAgain ); } void LEGACY_RESCUER::OpenRescueLibrary() { wxFileName fn = GetRescueLibraryFileName( m_schematic ); std::unique_ptr rescue_lib = std::make_unique( SCH_LIB_TYPE::LT_EESCHEMA, fn.GetFullPath() ); m_rescue_lib = std::move( rescue_lib ); m_rescue_lib->EnableBuffering(); // If a rescue library already exists copy the contents of that library so we do not // lose any previous rescues. SYMBOL_LIB* rescueLib = PROJECT_SCH::SchLibs( m_prj )->FindLibrary( fn.GetName() ); if( rescueLib ) { // For items in the rescue library, aliases are the root symbol. std::vector< LIB_SYMBOL* > symbols; rescueLib->GetSymbols( symbols ); for( LIB_SYMBOL* symbol : symbols ) { // The LIB_SYMBOL copy constructor flattens derived symbols (formerly known as aliases). m_rescue_lib->AddSymbol( new LIB_SYMBOL( *symbol, m_rescue_lib.get() ) ); } } } bool LEGACY_RESCUER::WriteRescueLibrary( wxWindow *aParent ) { try { m_rescue_lib->Save( false ); } catch( ... /* IO_ERROR ioe */ ) { wxString msg; msg.Printf( _( "Failed to create symbol library file '%s'." ), m_rescue_lib->GetFullFileName() ); DisplayError( aParent, msg ); return false; } wxArrayString libNames; wxString libPaths; wxString libName = m_rescue_lib->GetName(); SYMBOL_LIBS *libs = dynamic_cast( m_prj->GetElem( PROJECT::ELEM_SCH_SYMBOL_LIBS ) ); if( !libs ) { libs = new SYMBOL_LIBS(); m_prj->SetElem( PROJECT::ELEM_SCH_SYMBOL_LIBS, libs ); } try { SYMBOL_LIBS::GetLibNamesAndPaths( m_prj, &libPaths, &libNames ); // Make sure the library is not already in the list while( libNames.Index( libName ) != wxNOT_FOUND ) libNames.Remove( libName ); // Add the library to the top of the list and save. libNames.Insert( libName, 0 ); SYMBOL_LIBS::SetLibNamesAndPaths( m_prj, libPaths, libNames ); } catch( const IO_ERROR& ) { // Could not get or save the current libraries. return false; } // Save the old libraries in case there is a problem after clear(). We'll // put them back in. boost::ptr_vector libsSave; libsSave.transfer( libsSave.end(), libs->begin(), libs->end(), *libs ); m_prj->SetElem( PROJECT::ELEM_SCH_SYMBOL_LIBS, nullptr ); libs = new SYMBOL_LIBS(); try { libs->LoadAllLibraries( m_prj ); } catch( const PARSE_ERROR& ) { // Some libraries were not found. There's no point in showing the error, // because it was already shown. Just don't do anything. } catch( const IO_ERROR& ) { // Restore the old list libs->clear(); libs->transfer( libs->end(), libsSave.begin(), libsSave.end(), libsSave ); return false; } m_prj->SetElem( PROJECT::ELEM_SCH_SYMBOL_LIBS, libs ); // Update the schematic symbol library links since the library list has changed. SCH_SCREENS schematic( m_schematic->Root() ); schematic.UpdateSymbolLinks(); return true; } void LEGACY_RESCUER::AddSymbol( LIB_SYMBOL* aNewSymbol ) { wxCHECK_RET( aNewSymbol, wxS( "Invalid LIB_SYMBOL pointer." ) ); aNewSymbol->SetLib( m_rescue_lib.get() ); m_rescue_lib->AddSymbol( aNewSymbol ); } SYMBOL_LIB_TABLE_RESCUER::SYMBOL_LIB_TABLE_RESCUER( PROJECT& aProject, SCHEMATIC* aSchematic, SCH_SHEET_PATH* aCurrentSheet, EDA_DRAW_PANEL_GAL::GAL_TYPE aGalBackEndType ) : RESCUER( aProject, aSchematic, aCurrentSheet, aGalBackEndType ) { m_properties = std::make_unique(); } void SYMBOL_LIB_TABLE_RESCUER::FindCandidates() { RESCUE_SYMBOL_LIB_TABLE_CANDIDATE::FindRescues( *this, m_all_candidates ); } void SYMBOL_LIB_TABLE_RESCUER::InvokeDialog( wxWindow* aParent, bool aAskShowAgain ) { InvokeDialogRescueEach( aParent, static_cast< RESCUER& >( *this ), m_currentSheet, m_galBackEndType, aAskShowAgain ); } void SYMBOL_LIB_TABLE_RESCUER::OpenRescueLibrary() { (*m_properties)[ SCH_IO_KICAD_LEGACY::PropBuffering ] = ""; wxFileName fn = GetRescueLibraryFileName( m_schematic ); SYMBOL_LIB_TABLE_ROW* row = PROJECT_SCH::SchSymbolLibTable( m_prj )->FindRow( fn.GetName() ); // If a rescue library already exists copy the contents of that library so we do not // lose any previous rescues. if( row ) { if( SCH_IO_MGR::EnumFromStr( row->GetType() ) == SCH_IO_MGR::SCH_KICAD ) fn.SetExt( FILEEXT::KiCadSymbolLibFileExtension ); std::vector symbols; try { PROJECT_SCH::SchSymbolLibTable( m_prj )->LoadSymbolLib( symbols, fn.GetName() ); } catch( ... /* IO_ERROR */ ) { return; } for( LIB_SYMBOL* symbol : symbols ) m_rescueLibSymbols.emplace_back( std::make_unique( *symbol ) ); } } bool SYMBOL_LIB_TABLE_RESCUER::WriteRescueLibrary( wxWindow *aParent ) { wxString msg; wxFileName fn = GetRescueLibraryFileName( m_schematic ); SYMBOL_LIB_TABLE_ROW* row = PROJECT_SCH::SchSymbolLibTable( m_prj )->FindRow( fn.GetName() ); fn.SetExt( FILEEXT::KiCadSymbolLibFileExtension ); try { IO_RELEASER pi( SCH_IO_MGR::FindPlugin( SCH_IO_MGR::SCH_KICAD ) ); for( const std::unique_ptr& symbol : m_rescueLibSymbols ) pi->SaveSymbol( fn.GetFullPath(), new LIB_SYMBOL( *symbol.get() ), m_properties.get() ); pi->SaveLibrary( fn.GetFullPath() ); } catch( const IO_ERROR& ioe ) { msg.Printf( _( "Failed to save rescue library %s." ), fn.GetFullPath() ); DisplayErrorMessage( aParent, msg, ioe.What() ); return false; } // If the rescue library already exists in the symbol library table no need save it to add // it to the table. if( !row || ( SCH_IO_MGR::EnumFromStr( row->GetType() ) == SCH_IO_MGR::SCH_LEGACY ) ) { wxString uri = wxS( "${KIPRJMOD}/" ) + fn.GetFullName(); wxString libNickname = fn.GetName(); row = new SYMBOL_LIB_TABLE_ROW( libNickname, uri, wxT( "KiCad" ) ); PROJECT_SCH::SchSymbolLibTable( m_prj )->InsertRow( row, true ); fn = wxFileName( m_prj->GetProjectPath(), SYMBOL_LIB_TABLE::GetSymbolLibTableFileName() ); try { PROJECT_SCH::SchSymbolLibTable( m_prj )->Save( fn.GetFullPath() ); } catch( const IO_ERROR& ioe ) { msg.Printf( _( "Error occurred saving project specific symbol library table." ) ); DisplayErrorMessage( aParent, msg, ioe.What() ); return false; } } m_prj->SetElem( PROJECT::ELEM_SYMBOL_LIB_TABLE, nullptr ); // This can only happen if the symbol library table file was corrupted on write. if( !PROJECT_SCH::SchSymbolLibTable( m_prj ) ) return false; // Update the schematic symbol library links since the library list has changed. SCH_SCREENS schematic( m_schematic->Root() ); schematic.UpdateSymbolLinks(); return true; } void SYMBOL_LIB_TABLE_RESCUER::AddSymbol( LIB_SYMBOL* aNewSymbol ) { wxCHECK_RET( aNewSymbol, wxS( "Invalid LIB_SYMBOL pointer." ) ); m_rescueLibSymbols.emplace_back( std::make_unique( *aNewSymbol ) ); }