/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2017 CERN * Copyright (C) 2019-2020 KiCad Developers, see AUTHORS.txt for contributors. * @author Maciej Suminski * * 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, you may find one here: * https://www.gnu.org/licenses/gpl-3.0.html * or you may search the http://www.gnu.org website for the version 3 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 LIB_MANAGER::LIB_MANAGER( LIB_EDIT_FRAME& aFrame ) : m_frame( aFrame ), m_syncHash( 0 ) { m_adapter = SYMBOL_TREE_SYNCHRONIZING_ADAPTER::Create( &m_frame, this ); m_adapter->ShowUnits( false ); } void LIB_MANAGER::Sync( bool aForce, std::function aProgressCallback ) { m_logger.Activate(); { int libTableHash = symTable()->GetModifyHash(); if( aForce || m_syncHash != libTableHash ) { getAdapter()->Sync( aForce, aProgressCallback ); m_syncHash = libTableHash; } } m_logger.Deactivate(); } bool LIB_MANAGER::HasModifications() const { for( const auto& lib : m_libs ) { if( lib.second.IsModified() ) return true; } return false; } int LIB_MANAGER::GetHash() const { int hash = symTable()->GetModifyHash(); for( const auto& lib : m_libs ) hash += lib.second.GetHash(); return hash; } int LIB_MANAGER::GetLibraryHash( const wxString& aLibrary ) const { const auto libBufIt = m_libs.find( aLibrary ); if( libBufIt != m_libs.end() ) return libBufIt->second.GetHash(); auto row = GetLibrary( aLibrary ); // return -1 if library does not exist or 0 if not modified return row ? std::hash{}( aLibrary.ToStdString() + row->GetFullURI( true ).ToStdString() ) : -1; } wxArrayString LIB_MANAGER::GetLibraryNames() const { wxArrayString res; for( const auto& libName : symTable()->GetLogicalLibs() ) res.Add( libName ); return res; } SYMBOL_LIB_TABLE_ROW* LIB_MANAGER::GetLibrary( const wxString& aLibrary ) const { SYMBOL_LIB_TABLE_ROW* row = nullptr; try { row = symTable()->FindRow( aLibrary ); } catch( const IO_ERROR& e ) { wxLogMessage( _( "Cannot find library \"%s\" in the Symbol Library Table (%s)" ), aLibrary, e.What() ); } return row; } bool LIB_MANAGER::SaveLibrary( const wxString& aLibrary, const wxString& aFileName, SCH_IO_MGR::SCH_FILE_T aFileType ) { wxCHECK( aFileType != SCH_IO_MGR::SCH_FILE_T::SCH_LEGACY && LibraryExists( aLibrary ), false ); wxFileName fn( aFileName ); wxCHECK( !fn.FileExists() || fn.IsFileWritable(), false ); SCH_PLUGIN::SCH_PLUGIN_RELEASER pi( SCH_IO_MGR::FindPlugin( aFileType ) ); bool res = true; // assume all libraries are successfully saved auto it = m_libs.find( aLibrary ); if( it != m_libs.end() ) { // Handle buffered library LIB_BUFFER& libBuf = it->second; const auto& partBuffers = libBuf.GetBuffers(); for( const auto& partBuf : partBuffers ) { if( !libBuf.SaveBuffer( partBuf, &*pi, true ) ) { // Something went wrong, but try to save other libraries res = false; } } // clear the deleted parts buffer only if data is saved to the original file wxFileName original, destination( aFileName ); auto row = GetLibrary( aLibrary ); if( row ) { original = row->GetFullURI( true ); original.Normalize(); } destination.Normalize(); if( res && original == destination ) libBuf.ClearDeletedBuffer(); } else { // Handle original library PROPERTIES properties; properties.emplace( SCH_LEGACY_PLUGIN::PropBuffering, "" ); for( auto part : getOriginalParts( aLibrary ) ) { LIB_PART* newSymbol; if( part->IsAlias() ) { std::shared_ptr< LIB_PART > oldParent = part->GetParent().lock(); wxCHECK_MSG( oldParent, false, wxString::Format( "Derived symbol '%s' found with undefined parent.", part->GetName() ) ); LIB_PART* libParent = pi->LoadSymbol( aLibrary, oldParent->GetName(), &properties ); if( !libParent ) { libParent = new LIB_PART( *oldParent.get() ); pi->SaveSymbol( aLibrary, libParent, &properties ); } newSymbol = new LIB_PART( *part ); newSymbol->SetParent( libParent ); pi->SaveSymbol( aLibrary, newSymbol, &properties ); } else if( !pi->LoadSymbol( aLibrary, part->GetName(), &properties ) ) { pi->SaveSymbol( aLibrary, new LIB_PART( *part ), &properties ); } } } try { pi->SaveLibrary( aFileName ); } catch( ... ) { // return false because something happens. // The library is not successfully saved res = false; } return res; } bool LIB_MANAGER::IsLibraryModified( const wxString& aLibrary ) const { auto it = m_libs.find( aLibrary ); return it != m_libs.end() ? it->second.IsModified() : false; } bool LIB_MANAGER::IsPartModified( const wxString& aAlias, const wxString& aLibrary ) const { auto libIt = m_libs.find( aLibrary ); if( libIt == m_libs.end() ) return false; const LIB_BUFFER& buf = libIt->second; auto partBuf = buf.GetBuffer( aAlias ); return partBuf ? partBuf->IsModified() : false; } bool LIB_MANAGER::ClearLibraryModified( const wxString& aLibrary ) const { auto libIt = m_libs.find( aLibrary ); if( libIt == m_libs.end() ) return false; for( auto& partBuf : libIt->second.GetBuffers() ) { SCH_SCREEN* screen = partBuf->GetScreen(); if( screen ) screen->ClrModify(); } return true; } bool LIB_MANAGER::ClearPartModified( const wxString& aAlias, const wxString& aLibrary ) const { auto libI = m_libs.find( aLibrary ); if( libI == m_libs.end() ) return false; auto partBuf = libI->second.GetBuffer( aAlias ); wxCHECK( partBuf, false ); partBuf->GetScreen()->ClrModify(); return true; } bool LIB_MANAGER::IsLibraryReadOnly( const wxString& aLibrary ) const { wxCHECK( LibraryExists( aLibrary ), true ); return !symTable()->IsSymbolLibWritable( aLibrary ); } std::list LIB_MANAGER::GetAliases( const wxString& aLibrary ) const { std::list ret; wxCHECK( LibraryExists( aLibrary ), ret ); auto libIt = m_libs.find( aLibrary ); if( libIt != m_libs.end() ) { for( auto& partBuf : libIt->second.GetBuffers() ) { ret.push_back( partBuf->GetPart() ); } } else { std::vector aliases; try { symTable()->LoadSymbolLib( aliases, aLibrary ); } catch( const IO_ERROR& e ) { wxLogWarning( e.Problem() ); } std::copy( aliases.begin(), aliases.end(), std::back_inserter( ret ) ); } return ret; } LIB_PART* LIB_MANAGER::GetBufferedPart( const wxString& aAlias, const wxString& aLibrary ) { wxCHECK( LibraryExists( aLibrary ), nullptr ); // try the library buffers first LIB_BUFFER& libBuf = getLibraryBuffer( aLibrary ); LIB_PART* bufferedPart = libBuf.GetPart( aAlias ); if( !bufferedPart ) // no buffer part found { // create a copy of the part try { LIB_PART* part = symTable()->LoadSymbol( aLibrary, aAlias ); if( part == nullptr ) THROW_IO_ERROR( _( "Symbol not found." ) ); LIB_PART* bufferedParent = nullptr; // Create parent symbols on demand so parent symbol can be set. if( part->IsAlias() ) { std::shared_ptr< LIB_PART > parent = part->GetParent().lock(); wxCHECK_MSG( parent, nullptr, wxString::Format( "Derived symbol '%s' found with undefined parent.", part->GetName() ) ); // Check if the parent symbol buffer has already be created. bufferedParent = libBuf.GetPart( parent->GetName() ); if( !bufferedParent ) { bufferedParent = new LIB_PART( *parent.get() ); libBuf.CreateBuffer( bufferedParent, new SCH_SCREEN ); } } bufferedPart = new LIB_PART( *part ); if( bufferedParent ) bufferedPart->SetParent( bufferedParent ); libBuf.CreateBuffer( bufferedPart, new SCH_SCREEN ); } catch( const IO_ERROR& e ) { wxLogMessage( _( "Error loading symbol \"%s\" from library \"%s\". (%s)" ), aAlias, aLibrary, e.What() ); bufferedPart = nullptr; } } return bufferedPart; } SCH_SCREEN* LIB_MANAGER::GetScreen( const wxString& aAlias, const wxString& aLibrary ) { wxCHECK( LibraryExists( aLibrary ), nullptr ); wxCHECK( !aAlias.IsEmpty(), nullptr ); auto it = m_libs.find( aLibrary ); wxCHECK( it != m_libs.end(), nullptr ); LIB_BUFFER& buf = it->second; auto partBuf = buf.GetBuffer( aAlias ); return partBuf ? partBuf->GetScreen() : nullptr; } bool LIB_MANAGER::UpdatePart( LIB_PART* aPart, const wxString& aLibrary ) { wxCHECK( LibraryExists( aLibrary ), false ); wxCHECK( aPart, false ); LIB_BUFFER& libBuf = getLibraryBuffer( aLibrary ); auto partBuf = libBuf.GetBuffer( aPart->GetName() ); if( partBuf ) // Existing symbol. { LIB_PART* bufferedPart = const_cast< LIB_PART* >( partBuf->GetPart() ); wxCHECK( bufferedPart, false ); *bufferedPart = *aPart; partBuf->GetScreen()->SetModify(); } else // New symbol { LIB_PART* partCopy = new LIB_PART( *aPart, nullptr ); partCopy->SetLibId( LIB_ID( aLibrary, aPart->GetLibId().GetLibItemName() ) ); SCH_SCREEN* screen = new SCH_SCREEN; libBuf.CreateBuffer( partCopy, screen ); screen->SetModify(); } return true; } bool LIB_MANAGER::UpdatePartAfterRename( LIB_PART* aPart, const wxString& aOldName, const wxString& aLibrary ) { LIB_BUFFER& libBuf = getLibraryBuffer( aLibrary ); auto partBuf = libBuf.GetBuffer( aOldName ); wxCHECK( partBuf, false ); libBuf.UpdateBuffer( partBuf, aPart ); SetCurrentPart( aPart->GetName() ); m_frame.SyncLibraries( false ); return true; } bool LIB_MANAGER::FlushPart( const wxString& aAlias, const wxString& aLibrary ) { auto it = m_libs.find( aLibrary ); if( it == m_libs.end() ) // no items to flush return true; auto partBuf = it->second.GetBuffer( aAlias ); wxCHECK( partBuf, false ); return it->second.SaveBuffer( partBuf, symTable() ); } LIB_ID LIB_MANAGER::RevertPart( const wxString& aAlias, const wxString& aLibrary ) { auto it = m_libs.find( aLibrary ); if( it == m_libs.end() ) // no items to flush return LIB_ID( aLibrary, aAlias ); auto partBuf = it->second.GetBuffer( aAlias ); wxCHECK( partBuf, LIB_ID( aLibrary, aAlias ) ); LIB_PART original( *partBuf->GetOriginal() ); if( original.GetName() != aAlias ) { UpdatePartAfterRename( &original, aAlias, aLibrary ); } else { partBuf->SetPart( new LIB_PART( original ) ); m_frame.SyncLibraries( false ); } return LIB_ID( aLibrary, original.GetName() ); } bool LIB_MANAGER::RevertLibrary( const wxString& aLibrary ) { auto it = m_libs.find( aLibrary ); if( it == m_libs.end() ) // nothing to reverse return false; m_libs.erase( it ); m_frame.SyncLibraries( false ); return true; } bool LIB_MANAGER::RevertAll() { bool retv = true; // Nothing to revert. if( GetHash() == 0 ) return true; for( const auto& lib : m_libs ) { if( !lib.second.IsModified() ) continue; for( const auto& buffer : lib.second.GetBuffers() ) { if( !buffer->IsModified() ) continue; RevertPart( lib.first, buffer->GetOriginal()->GetName() ); } } return retv; } bool LIB_MANAGER::RemovePart( const wxString& aAlias, const wxString& aLibrary ) { LIB_BUFFER& libBuf = getLibraryBuffer( aLibrary ); auto partBuf = libBuf.GetBuffer( aAlias ); wxCHECK( partBuf, false ); bool retv = true; retv &= libBuf.DeleteBuffer( partBuf ); m_frame.SyncLibraries( false ); return retv; } LIB_PART* LIB_MANAGER::GetAlias( const wxString& aAlias, const wxString& aLibrary ) const { // Try the library buffers first auto libIt = m_libs.find( aLibrary ); if( libIt != m_libs.end() ) { LIB_PART* part = libIt->second.GetPart( aAlias ); if( part ) return part; } // Get the original part LIB_PART* alias = nullptr; try { alias = symTable()->LoadSymbol( aLibrary, aAlias ); } catch( const IO_ERROR& e ) { wxLogMessage( _( "Cannot load symbol \"%s\" from library \"%s\" (%s)" ), aAlias, aLibrary, e.What() ); } return alias; } bool LIB_MANAGER::PartExists( const wxString& aAlias, const wxString& aLibrary ) const { auto libBufIt = m_libs.find( aLibrary ); LIB_PART* alias = nullptr; if( libBufIt != m_libs.end() ) return !!libBufIt->second.GetBuffer( aAlias ); try { alias = symTable()->LoadSymbol( aLibrary, aAlias ); } catch( IO_ERROR& ) { // checking if certain symbol exists, so its absence is perfectly fine } return alias != nullptr; } bool LIB_MANAGER::LibraryExists( const wxString& aLibrary, bool aCheckEnabled ) const { if( aLibrary.IsEmpty() ) return false; if( m_libs.count( aLibrary ) > 0 ) return true; return symTable()->HasLibrary( aLibrary, aCheckEnabled ); } wxString LIB_MANAGER::GetUniqueLibraryName() const { wxString name = "New_Library"; if( !LibraryExists( name ) ) return name; name += "_"; for( unsigned int i = 0; i < std::numeric_limits::max(); ++i ) { if( !LibraryExists( name + wxString::Format( "%u", i ) ) ) return name + wxString::Format( "%u", i ); } wxFAIL; return wxEmptyString; } void LIB_MANAGER::GetRootSymbolNames( const wxString& aLibraryName, wxArrayString& aRootSymbolNames ) { LIB_BUFFER& libBuf = getLibraryBuffer( aLibraryName ); libBuf.GetRootSymbolNames( aRootSymbolNames ); } bool LIB_MANAGER:: HasDerivedSymbols( const wxString& aSymbolName, const wxString& aLibraryName ) { LIB_BUFFER& libBuf = getLibraryBuffer( aLibraryName ); return libBuf.HasDerivedSymbols( aSymbolName ); } wxString LIB_MANAGER::getLibraryName( const wxString& aFilePath ) { wxFileName fn( aFilePath ); return fn.GetName(); } bool LIB_MANAGER::addLibrary( const wxString& aFilePath, bool aCreate, SYMBOL_LIB_TABLE* aTable ) { wxCHECK( aTable, false ); wxString libName = getLibraryName( aFilePath ); wxCHECK( !LibraryExists( libName ), false ); // either create or add an existing one // try to use path normalized to an environmental variable or project path wxString relPath = NormalizePath( aFilePath, &Pgm().GetLocalEnvVariables(), &m_frame.Prj() ); if( relPath.IsEmpty() ) relPath = aFilePath; SCH_IO_MGR::SCH_FILE_T schFileType = SCH_IO_MGR::GuessPluginTypeFromLibPath( aFilePath ); wxString typeName = SCH_IO_MGR::ShowType( schFileType ); SYMBOL_LIB_TABLE_ROW* libRow = new SYMBOL_LIB_TABLE_ROW( libName, relPath, typeName ); aTable->InsertRow( libRow ); if( aCreate ) { wxCHECK( schFileType != SCH_IO_MGR::SCH_FILE_T::SCH_LEGACY, false ); try { aTable->CreateSymbolLib( libName ); } catch( const IO_ERROR& ) { aTable->RemoveRow( libRow ); return false; } } m_frame.SyncLibraries( false ); return true; } SYMBOL_LIB_TABLE* LIB_MANAGER::symTable() const { return m_frame.Prj().SchSymbolLibTable(); } std::set LIB_MANAGER::getOriginalParts( const wxString& aLibrary ) { std::set parts; wxCHECK( LibraryExists( aLibrary ), parts ); try { wxArrayString aliases; symTable()->EnumerateSymbolLib( aLibrary, aliases ); for( const auto& aliasName : aliases ) { LIB_PART* alias = symTable()->LoadSymbol( aLibrary, aliasName ); parts.insert( alias ); } } catch( const IO_ERROR& e ) { wxLogMessage( _( "Cannot enumerate library \"%s\" (%s)" ), aLibrary, e.What() ); } return parts; } LIB_MANAGER::LIB_BUFFER& LIB_MANAGER::getLibraryBuffer( const wxString& aLibrary ) { auto it = m_libs.find( aLibrary ); if( it != m_libs.end() ) return it->second; // The requested buffer does not exist yet, so create one auto ret = m_libs.emplace( aLibrary, LIB_BUFFER( aLibrary ) ); LIB_BUFFER& buf = ret.first->second; for( auto part : getOriginalParts( aLibrary ) ) { LIB_PART* newSymbol; if( part->IsAlias() ) { std::shared_ptr< LIB_PART > oldParent = part->GetParent().lock(); wxCHECK_MSG( oldParent, buf, wxString::Format( "Derived symbol '%s' found with undefined parent.", part->GetName() ) ); LIB_PART* libParent = buf.GetPart( oldParent->GetName() ); if( !libParent ) { libParent = new LIB_PART( *oldParent.get() ); buf.CreateBuffer( libParent, new SCH_SCREEN ); } newSymbol = new LIB_PART( *part ); newSymbol->SetParent( libParent ); buf.CreateBuffer( newSymbol, new SCH_SCREEN ); } else if( !buf.GetPart( part->GetName() ) ) { buf.CreateBuffer( new LIB_PART( *part ), new SCH_SCREEN ); } } return buf; } LIB_MANAGER::PART_BUFFER::PART_BUFFER( LIB_PART* aPart, std::unique_ptr aScreen ) : m_screen( std::move( aScreen ) ), m_part( aPart ) { m_original = new LIB_PART( *aPart ); } LIB_MANAGER::PART_BUFFER::~PART_BUFFER() { delete m_part; delete m_original; } void LIB_MANAGER::PART_BUFFER::SetPart( LIB_PART* aPart ) { wxCHECK( m_part != aPart, /* void */ ); wxASSERT( aPart ); delete m_part; m_part = aPart; // If the part moves libraries then the original moves with it if( m_original->GetLibId().GetLibNickname() != m_part->GetLibId().GetLibNickname() ) { m_original->SetLibId( LIB_ID( m_part->GetLibId().GetLibNickname(), m_original->GetLibId().GetLibItemName() ) ); } } void LIB_MANAGER::PART_BUFFER::SetOriginal( LIB_PART* aPart ) { wxCHECK( m_original != aPart, /* void */ ); wxASSERT( aPart ); delete m_original; m_original = aPart; // The original is not allowed to have a different library than its part if( m_original->GetLibId().GetLibNickname() != m_part->GetLibId().GetLibNickname() ) { m_original->SetLibId( LIB_ID( m_part->GetLibId().GetLibNickname(), m_original->GetLibId().GetLibItemName() ) ); } } bool LIB_MANAGER::PART_BUFFER::IsModified() const { return m_screen && m_screen->IsModify(); } LIB_PART* LIB_MANAGER::LIB_BUFFER::GetPart( const wxString& aAlias ) const { auto buf = GetBuffer( aAlias ); if( !buf ) return nullptr; LIB_PART* part = buf->GetPart(); wxCHECK( part, nullptr ); return part; } bool LIB_MANAGER::LIB_BUFFER::CreateBuffer( LIB_PART* aCopy, SCH_SCREEN* aScreen ) { wxASSERT( aCopy ); wxASSERT( aCopy->GetLib() == nullptr ); std::unique_ptr screen( aScreen ); auto partBuf = std::make_shared( aCopy, std::move( screen ) ); m_parts.push_back( partBuf ); // Set the parent library name, // otherwise it is empty as no library has been given as the owner during object construction LIB_ID libId = aCopy->GetLibId(); libId.SetLibNickname( m_libName ); aCopy->SetLibId( libId ); ++m_hash; return true; } bool LIB_MANAGER::LIB_BUFFER::UpdateBuffer( LIB_MANAGER::PART_BUFFER::PTR aPartBuf, LIB_PART* aCopy ) { wxCHECK( aCopy && aPartBuf, false ); LIB_PART* bufferedPart = aPartBuf->GetPart(); wxCHECK( bufferedPart, false ); *bufferedPart = *aCopy; ++m_hash; return true; } bool LIB_MANAGER::LIB_BUFFER::DeleteBuffer( LIB_MANAGER::PART_BUFFER::PTR aPartBuf ) { auto partBufIt = std::find( m_parts.begin(), m_parts.end(), aPartBuf ); wxCHECK( partBufIt != m_parts.end(), false ); bool retv = true; // Remove all derived symbols to prevent broken inheritance. if( aPartBuf->GetPart()->IsRoot() && HasDerivedSymbols( aPartBuf->GetPart()->GetName() ) && removeChildSymbols( aPartBuf ) == 0 ) retv = false; m_deleted.emplace_back( *partBufIt ); m_parts.erase( partBufIt ); ++m_hash; return retv; } bool LIB_MANAGER::LIB_BUFFER::SaveBuffer( LIB_MANAGER::PART_BUFFER::PTR aPartBuf, SYMBOL_LIB_TABLE* aLibTable ) { wxCHECK( aPartBuf, false ); LIB_PART* part = aPartBuf->GetPart(); wxCHECK( part, false ); SYMBOL_LIB_TABLE::SAVE_T result; if( part->IsAlias() ) { LIB_PART* originalPart; LIB_PART* newCachedPart = new LIB_PART( *part ); std::shared_ptr< LIB_PART > bufferedParent = part->GetParent().lock(); wxCHECK( bufferedParent, false ); LIB_PART* cachedParent = aLibTable->LoadSymbol( m_libName, bufferedParent->GetName() ); if( !cachedParent ) { cachedParent = new LIB_PART( *bufferedParent.get() ); newCachedPart->SetParent( cachedParent ); result = aLibTable->SaveSymbol( m_libName, cachedParent ); wxCHECK( result == SYMBOL_LIB_TABLE::SAVE_OK, false ); result = aLibTable->SaveSymbol( m_libName, newCachedPart ); wxCHECK( result == SYMBOL_LIB_TABLE::SAVE_OK, false ); LIB_PART* originalParent = new LIB_PART( *bufferedParent.get() ); aPartBuf->SetOriginal( originalParent ); originalPart = new LIB_PART( *part ); originalPart->SetParent( originalParent ); aPartBuf->SetOriginal( originalPart ); } else { newCachedPart->SetParent( cachedParent ); result = aLibTable->SaveSymbol( m_libName, newCachedPart ); wxCHECK( result == SYMBOL_LIB_TABLE::SAVE_OK, false ); LIB_MANAGER::PART_BUFFER::PTR originalBufferedParent = GetBuffer( bufferedParent->GetName() ); wxCHECK( originalBufferedParent, false ); originalPart = new LIB_PART( *part ); originalPart->SetParent( originalBufferedParent->GetPart() ); aPartBuf->SetOriginal( originalPart ); } } else { wxArrayString derivedSymbols; if( GetDerivedSymbolNames( part->GetName(), derivedSymbols ) == 0 ) { result = aLibTable->SaveSymbol( m_libName, new LIB_PART( *part ) ); wxCHECK( result == SYMBOL_LIB_TABLE::SAVE_OK, false ); aPartBuf->SetOriginal( new LIB_PART( *part ) ); } else { LIB_PART* parentSymbol = new LIB_PART( *part ); aLibTable->SaveSymbol( m_libName, parentSymbol ); for( auto entry : derivedSymbols ) { LIB_MANAGER::PART_BUFFER::PTR symbol = GetBuffer( entry ); LIB_PART* derivedSymbol = new LIB_PART( *symbol->GetPart() ); derivedSymbol->SetParent( parentSymbol ); result = aLibTable->SaveSymbol( m_libName, derivedSymbol ); wxCHECK( result == SYMBOL_LIB_TABLE::SAVE_OK, false ); } } } ++m_hash; return true; } bool LIB_MANAGER::LIB_BUFFER::SaveBuffer( LIB_MANAGER::PART_BUFFER::PTR aPartBuf, SCH_PLUGIN* aPlugin, bool aBuffer ) { wxCHECK( aPartBuf, false ); LIB_PART* part = aPartBuf->GetPart(); wxCHECK( part, false ); wxString errorMsg = _( "An error \"%s\" occurred saving symbol \"%s\" to library \"%s\"" ); // set properties to prevent save file on every symbol save PROPERTIES properties; properties.emplace( SCH_LEGACY_PLUGIN::PropBuffering, "" ); if( part->IsAlias() ) { LIB_PART* originalPart; LIB_PART* newCachedPart = new LIB_PART( *part ); std::shared_ptr< LIB_PART > bufferedParent = part->GetParent().lock(); wxCHECK( bufferedParent, false ); LIB_PART* cachedParent = nullptr; try { cachedParent = aPlugin->LoadSymbol( m_libName, bufferedParent->GetName() ); } catch( const IO_ERROR& ) { return false; } if( !cachedParent ) { cachedParent = new LIB_PART( *bufferedParent.get() ); newCachedPart->SetParent( cachedParent ); try { aPlugin->SaveSymbol( m_libName, cachedParent, aBuffer ? &properties : nullptr ); } catch( const IO_ERROR& ioe ) { wxLogError( errorMsg, ioe.What(), cachedParent->GetName() ); return false; } try { aPlugin->SaveSymbol( m_libName, newCachedPart, aBuffer ? &properties : nullptr ); } catch( const IO_ERROR& ioe ) { wxLogError( errorMsg, ioe.What(), newCachedPart->GetName() ); return false; } LIB_PART* originalParent = new LIB_PART( *bufferedParent.get() ); aPartBuf->SetOriginal( originalParent ); originalPart = new LIB_PART( *part ); originalPart->SetParent( originalParent ); aPartBuf->SetOriginal( originalPart ); } else { newCachedPart->SetParent( cachedParent ); try { aPlugin->SaveSymbol( m_libName, newCachedPart, aBuffer ? &properties : nullptr ); } catch( const IO_ERROR& ioe ) { wxLogError( errorMsg, ioe.What(), newCachedPart->GetName() ); return false; } LIB_MANAGER::PART_BUFFER::PTR originalBufferedParent = GetBuffer( bufferedParent->GetName() ); wxCHECK( originalBufferedParent, false ); originalPart = new LIB_PART( *part ); originalPart->SetParent( originalBufferedParent->GetPart() ); aPartBuf->SetOriginal( originalPart ); } } else { wxArrayString derivedSymbols; if( GetDerivedSymbolNames( part->GetName(), derivedSymbols ) == 0 ) { try { aPlugin->SaveSymbol( m_libName, new LIB_PART( *part ), aBuffer ? &properties : nullptr ); } catch( const IO_ERROR& ioe ) { wxLogError( errorMsg, ioe.What(), part->GetName() ); return false; } aPartBuf->SetOriginal( new LIB_PART( *part ) ); } else { LIB_PART* parentSymbol = new LIB_PART( *part ); // Save the modified root symbol. try { aPlugin->SaveSymbol( m_libName, new LIB_PART( *part ), aBuffer ? &properties : nullptr ); } catch( const IO_ERROR& ioe ) { wxLogError( errorMsg, ioe.What(), part->GetName() ); return false; } aPartBuf->SetOriginal( new LIB_PART( *part ) ); // Save the derived symbols. for( auto entry : derivedSymbols ) { LIB_MANAGER::PART_BUFFER::PTR symbol = GetBuffer( entry ); LIB_PART* derivedSymbol = new LIB_PART( *symbol->GetPart() ); derivedSymbol->SetParent( parentSymbol ); try { aPlugin->SaveSymbol( m_libName, new LIB_PART( *derivedSymbol ), aBuffer ? &properties : nullptr ); } catch( const IO_ERROR& ioe ) { wxLogError( errorMsg, ioe.What(), derivedSymbol->GetName() ); return false; } } } } ++m_hash; return true; } LIB_MANAGER::PART_BUFFER::PTR LIB_MANAGER::LIB_BUFFER::GetBuffer( const wxString& aAlias ) const { for( auto entry : m_parts ) { if( entry->GetPart()->GetName() == aAlias ) return entry; } return PART_BUFFER::PTR( nullptr ); } bool LIB_MANAGER::LIB_BUFFER::HasDerivedSymbols( const wxString& aParentName ) const { for( auto entry : m_parts ) { if( entry->GetPart()->IsAlias() ) { PART_SPTR parent = entry->GetPart()->GetParent().lock(); // Check for inherited part without a valid parent. wxCHECK( parent, false ); if( parent->GetName() == aParentName ) return true; } } return false; } void LIB_MANAGER::LIB_BUFFER::GetRootSymbolNames( wxArrayString& aRootSymbolNames ) { for( auto entry : m_parts ) { if( entry->GetPart()->IsAlias() ) continue; aRootSymbolNames.Add( entry->GetPart()->GetName() ); } } size_t LIB_MANAGER::LIB_BUFFER::GetDerivedSymbolNames( const wxString& aSymbolName, wxArrayString& aList ) { wxCHECK( !aSymbolName.IsEmpty(), 0 ); for( auto entry : m_parts ) { if( entry->GetPart()->IsAlias() ) { PART_SPTR parent = entry->GetPart()->GetParent().lock(); // Check for inherited part without a valid parent. wxCHECK( parent, false ); if( parent->GetName() == aSymbolName ) aList.Add( entry->GetPart()->GetName() ); } } return aList.GetCount(); } int LIB_MANAGER::LIB_BUFFER::removeChildSymbols( LIB_MANAGER::PART_BUFFER::PTR aPartBuf ) { wxCHECK( aPartBuf && aPartBuf->GetPart()->IsRoot(), 0 ); int cnt = 0; std::deque< LIB_MANAGER::PART_BUFFER::PTR >::iterator it = m_parts.begin(); while( it != m_parts.end() ) { if( (*it)->GetPart()->IsRoot() ) { ++it; } else { PART_SPTR parent = (*it)->GetPart()->GetParent().lock(); wxCHECK2( parent, ++it; continue ); if( parent->GetName() == aPartBuf->GetPart()->GetName() ) { wxCHECK2( parent == aPartBuf->GetPart()->SharedPtr(), ++it; continue ); m_deleted.emplace_back( *it ); it = m_parts.erase( it ); cnt++; } else { ++it; } } } return cnt; }