/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2013 Jean-Pierre Charras, jp.charras at wanadoo.fr * Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 2008 Wayne Stambaugh * Copyright (C) 1992-2021 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 */ /** * @file sch_screen.cpp * @brief Implementation of SCH_SCREEN and SCH_SCREENS classes. */ #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 // TODO(JE) Debugging only #include #include "sch_bus_entry.h" SCH_SCREEN::SCH_SCREEN( EDA_ITEM* aParent ) : BASE_SCREEN( aParent, SCH_SCREEN_T ), m_fileFormatVersionAtLoad( 0 ), m_paper( wxT( "A4" ) ) { m_modification_sync = 0; m_refCount = 0; m_zoomInitialized = false; m_LastZoomLevel = 1.0; // Suitable for schematic only. For symbol_editor and viewlib, must be set to true m_Center = false; InitDataPoints( m_paper.GetSizeIU() ); } SCH_SCREEN::~SCH_SCREEN() { clearLibSymbols(); FreeDrawList(); } SCHEMATIC* SCH_SCREEN::Schematic() const { wxCHECK_MSG( GetParent() && GetParent()->Type() == SCHEMATIC_T, nullptr, "SCH_SCREEN must have a SCHEMATIC parent!" ); return static_cast( GetParent() ); } void SCH_SCREEN::clearLibSymbols() { for( auto libSymbol : m_libSymbols ) delete libSymbol.second; m_libSymbols.clear(); } void SCH_SCREEN::SetFileName( const wxString& aFileName ) { wxASSERT( aFileName.IsEmpty() || wxIsAbsolutePath( aFileName ) ); m_fileName = aFileName; } void SCH_SCREEN::IncRefCount() { m_refCount++; } void SCH_SCREEN::DecRefCount() { wxCHECK_RET( m_refCount != 0, wxT( "Screen reference count already zero. Bad programmer!" ) ); m_refCount--; } bool SCH_SCREEN::HasItems( KICAD_T aItemType ) const { EE_RTREE::EE_TYPE sheets = m_rtree.OfType( aItemType ); return sheets.begin() != sheets.end(); } bool SCH_SCREEN::ClassOf( const EDA_ITEM* aItem ) { return aItem && SCH_SCREEN_T == aItem->Type(); } void SCH_SCREEN::Append( SCH_ITEM* aItem ) { if( aItem->Type() != SCH_SHEET_PIN_T && aItem->Type() != SCH_FIELD_T ) { // Ensure the item can reach the SCHEMATIC through this screen aItem->SetParent( this ); if( aItem->Type() == SCH_SYMBOL_T ) { SCH_SYMBOL* symbol = static_cast( aItem ); if( symbol->GetLibSymbolRef() ) { symbol->GetLibSymbolRef()->GetDrawItems().sort(); auto it = m_libSymbols.find( symbol->GetSchSymbolLibraryName() ); if( it == m_libSymbols.end() || !it->second ) { m_libSymbols[symbol->GetSchSymbolLibraryName()] = new LIB_SYMBOL( *symbol->GetLibSymbolRef() ); } else { // The original library symbol may have changed since the last time // it was added to the schematic. If it has changed, then a new name // must be created for the library symbol list to prevent all of the // other schematic symbols referencing that library symbol from changing. LIB_SYMBOL* foundSymbol = it->second; foundSymbol->GetDrawItems().sort(); if( *foundSymbol != *symbol->GetLibSymbolRef() ) { int cnt = 1; wxString newName; newName.Printf( "%s_%d", symbol->GetLibId().GetUniStringLibItemName(), cnt ); while( m_libSymbols.find( newName ) != m_libSymbols.end() ) { cnt += 1; newName.Printf( "%s_%d", symbol->GetLibId().GetUniStringLibItemName(), cnt ); } // Update the schematic symbol library link as this symbol only exists // in the schematic. symbol->SetSchSymbolLibraryName( newName ); LIB_SYMBOL* newLibSymbol = new LIB_SYMBOL( *symbol->GetLibSymbolRef() ); LIB_ID newLibId( wxEmptyString, newName ); newLibSymbol->SetLibId( newLibId ); newLibSymbol->SetName( newName ); symbol->SetLibSymbol( newLibSymbol->Flatten().release() ); m_libSymbols[newName] = newLibSymbol; } } } } m_rtree.insert( aItem ); --m_modification_sync; } } void SCH_SCREEN::Append( SCH_SCREEN* aScreen ) { wxCHECK_RET( aScreen, "Invalid screen object." ); // No need to descend the hierarchy. Once the top level screen is copied, all of its // children are copied as well. for( auto aItem : aScreen->m_rtree ) Append( aItem ); aScreen->Clear( false ); } void SCH_SCREEN::Clear( bool aFree ) { if( aFree ) { FreeDrawList(); clearLibSymbols(); } else { m_rtree.clear(); } // Clear the project settings m_virtualPageNumber = m_pageCount = 1; m_titles.Clear(); } void SCH_SCREEN::FreeDrawList() { // We don't know which order we will encounter dependent items (e.g. pins or fields), so // we store the items to be deleted until we've fully cleared the tree before deleting std::vector delete_list; std::copy_if( m_rtree.begin(), m_rtree.end(), std::back_inserter( delete_list ), []( SCH_ITEM* aItem ) { return ( aItem->Type() != SCH_SHEET_PIN_T && aItem->Type() != SCH_FIELD_T ); } ); m_rtree.clear(); for( auto item : delete_list ) delete item; } void SCH_SCREEN::Update( SCH_ITEM* aItem ) { if( Remove( aItem ) ) Append( aItem ); } bool SCH_SCREEN::Remove( SCH_ITEM* aItem ) { bool retv = m_rtree.remove( aItem ); // Check if the library symbol for the removed schematic symbol is still required. if( retv && aItem->Type() == SCH_SYMBOL_T ) { SCH_SYMBOL* removedSymbol = static_cast( aItem ); bool removeUnusedLibSymbol = true; for( SCH_ITEM* item : Items().OfType( SCH_SYMBOL_T ) ) { SCH_SYMBOL* symbol = static_cast( item ); if( removedSymbol->GetSchSymbolLibraryName() == symbol->GetSchSymbolLibraryName() ) { removeUnusedLibSymbol = false; break; } } if( removeUnusedLibSymbol ) { auto it = m_libSymbols.find( removedSymbol->GetSchSymbolLibraryName() ); if( it != m_libSymbols.end() ) { delete it->second; m_libSymbols.erase( it ); } } } return retv; } void SCH_SCREEN::DeleteItem( SCH_ITEM* aItem ) { wxCHECK_RET( aItem, wxT( "Cannot delete invalid item from screen." ) ); // Markers are not saved in the file, no need to flag as modified. // TODO: Maybe we should have a listing somewhere of items that aren't saved? if( aItem->Type() != SCH_MARKER_T ) SetContentModified(); Remove( aItem ); if( aItem->Type() == SCH_SHEET_PIN_T ) { // This structure is attached to a sheet, get the parent sheet object. SCH_SHEET_PIN* sheetPin = (SCH_SHEET_PIN*) aItem; SCH_SHEET* sheet = sheetPin->GetParent(); wxCHECK_RET( sheet, wxT( "Sheet pin parent not properly set, bad programmer!" ) ); sheet->RemovePin( sheetPin ); return; } delete aItem; } bool SCH_SCREEN::CheckIfOnDrawList( const SCH_ITEM* aItem ) const { return m_rtree.contains( aItem, true ); } SCH_ITEM* SCH_SCREEN::GetItem( const wxPoint& aPosition, int aAccuracy, KICAD_T aType ) const { EDA_RECT bbox; bbox.SetOrigin( aPosition ); bbox.Inflate( aAccuracy ); for( SCH_ITEM* item : Items().Overlapping( aType, bbox ) ) { if( item->HitTest( aPosition, aAccuracy ) ) return item; } return nullptr; } std::set SCH_SCREEN::MarkConnections( SCH_LINE* aSegment ) { std::set retval; std::stack to_search; wxCHECK_MSG( aSegment && aSegment->Type() == SCH_LINE_T, retval, wxT( "Invalid pointer." ) ); to_search.push( aSegment ); while( !to_search.empty() ) { SCH_LINE* test_item = to_search.top(); to_search.pop(); for( SCH_ITEM* item : Items().Overlapping( SCH_JUNCTION_T, test_item->GetBoundingBox() ) ) { if( test_item->IsEndPoint( item->GetPosition() ) ) retval.insert( item ); } for( SCH_ITEM* item : Items().Overlapping( SCH_LINE_T, test_item->GetBoundingBox() ) ) { // Skip connecting lines on different layers (e.g. buses) if( test_item->GetLayer() != item->GetLayer() ) continue; SCH_LINE* line = static_cast( item ); if( ( test_item->IsEndPoint( line->GetStartPoint() ) && !GetPin( line->GetStartPoint(), nullptr, true ) ) || ( test_item->IsEndPoint( line->GetEndPoint() ) && !GetPin( line->GetEndPoint(), nullptr, true ) ) ) { auto result = retval.insert( line ); if( result.second ) to_search.push( line ); } } } return retval; } bool SCH_SCREEN::IsJunctionNeeded( const wxPoint& aPosition, bool aNew ) const { enum layers { WIRES = 0, BUSES }; bool breakLines[ 2 ] = { false }; std::unordered_set exitAngles[ 2 ]; std::vector midPointLines[ 2 ]; // A pin at 90º still shouldn't match a line at 90º so just give pins unique numbers int uniqueAngle = 10000; for( const SCH_ITEM* item : Items().Overlapping( aPosition ) ) { if( item->GetEditFlags() & STRUCT_DELETED ) continue; switch( item->Type() ) { case SCH_JUNCTION_T: if( aNew && item->HitTest( aPosition, -1 ) ) return false; break; case SCH_LINE_T: { const SCH_LINE* line = static_cast( item ); int layer; if( line->GetStartPoint() == line->GetEndPoint() ) break; else if( line->GetLayer() == LAYER_WIRE ) layer = WIRES; else if( line->GetLayer() == LAYER_BUS ) layer = BUSES; else break; if( line->IsConnected( aPosition ) ) { breakLines[ layer ] = true; exitAngles[ layer ].insert( line->GetAngleFrom( aPosition ) ); } else if( line->HitTest( aPosition, -1 ) ) { // Defer any line midpoints until we know whether or not we're breaking them midPointLines[ layer ].push_back( line ); } } break; case SCH_BUS_WIRE_ENTRY_T: case SCH_SYMBOL_T: case SCH_SHEET_T: if( item->IsConnected( aPosition ) ) { breakLines[ WIRES ] = true; exitAngles[ WIRES ].insert( uniqueAngle++ ); } break; default: break; } } for( int layer : { WIRES, BUSES } ) { if( breakLines[ layer ] ) { for( const SCH_LINE* line : midPointLines[ layer ] ) { exitAngles[ layer ].insert( line->GetAngleFrom( aPosition ) ); exitAngles[ layer ].insert( line->GetReverseAngleFrom( aPosition ) ); } } } return exitAngles[ WIRES ].size() >= 3 || exitAngles[ BUSES ].size() >= 3; } bool SCH_SCREEN::IsTerminalPoint( const wxPoint& aPosition, int aLayer ) const { wxCHECK_MSG( aLayer == LAYER_NOTES || aLayer == LAYER_BUS || aLayer == LAYER_WIRE, false, wxT( "Invalid layer type passed to SCH_SCREEN::IsTerminalPoint()." ) ); switch( aLayer ) { case LAYER_BUS: { if( GetBus( aPosition ) ) return true; SCH_SHEET_PIN* sheetPin = GetSheetPin( aPosition ); if( sheetPin && sheetPin->IsConnected( aPosition ) ) return true; SCH_TEXT* label = GetLabel( aPosition ); if( label && label->IsConnected( aPosition ) ) return true; } break; case LAYER_NOTES: { if( GetLine( aPosition ) ) return true; } break; case LAYER_WIRE: { if( GetItem( aPosition, 1, SCH_BUS_WIRE_ENTRY_T) ) return true; if( GetItem( aPosition, 1, SCH_JUNCTION_T ) ) return true; if( GetPin( aPosition, nullptr, true ) ) return true; if( GetWire( aPosition ) ) return true; SCH_TEXT* label = GetLabel( aPosition, 1 ); if( label && label->IsConnected( aPosition ) ) return true; SCH_SHEET_PIN* sheetPin = GetSheetPin( aPosition ); if( sheetPin && sheetPin->IsConnected( aPosition ) ) return true; } break; default: break; } return false; } void SCH_SCREEN::UpdateSymbolLinks( REPORTER* aReporter ) { wxCHECK_RET( Schematic(), "Cannot call SCH_SCREEN::UpdateSymbolLinks with no SCHEMATIC" ); wxString msg; std::unique_ptr< LIB_SYMBOL > libSymbol; std::vector symbols; SYMBOL_LIB_TABLE* libs = Schematic()->Prj().SchSymbolLibTable(); // This will be a nullptr if an s-expression schematic is loaded. SYMBOL_LIBS* legacyLibs = Schematic()->Prj().SchLibs(); for( auto item : Items().OfType( SCH_SYMBOL_T ) ) symbols.push_back( static_cast( item ) ); // Remove them from the R tree. There bounding box size may change. for( auto symbol : symbols ) Remove( symbol ); // Clear all existing symbol links. clearLibSymbols(); for( SCH_SYMBOL* symbol : symbols ) { LIB_SYMBOL* tmp = nullptr; libSymbol.reset(); // If the symbol is already in the internal library, map the symbol to it. auto it = m_libSymbols.find( symbol->GetSchSymbolLibraryName() ); if( ( it != m_libSymbols.end() ) ) { if( aReporter ) { msg.Printf( _( "Setting schematic symbol '%s %s' library identifier to '%s'." ), symbol->GetField( REFERENCE_FIELD )->GetText(), symbol->GetField( VALUE_FIELD )->GetText(), UnescapeString( symbol->GetLibId().Format() ) ); aReporter->ReportTail( msg, RPT_SEVERITY_INFO ); } // Internal library symbols are already flattened so just make a copy. symbol->SetLibSymbol( new LIB_SYMBOL( *it->second ) ); continue; } if( !symbol->GetLibId().IsValid() ) { if( aReporter ) { msg.Printf( _( "Schematic symbol reference '%s' library identifier is not valid. " "Unable to link library symbol." ), UnescapeString( symbol->GetLibId().Format() ) ); aReporter->ReportTail( msg, RPT_SEVERITY_WARNING ); } continue; } // LIB_TABLE_BASE::LoadSymbol() throws an IO_ERROR if the library nickname // is not found in the table so check if the library still exists in the table // before attempting to load the symbol. if( !libs->HasLibrary( symbol->GetLibId().GetLibNickname() ) && !legacyLibs ) { if( aReporter ) { msg.Printf( _( "Symbol library '%s' not found and no fallback cache library " "available. Unable to link library symbol." ), symbol->GetLibId().GetLibNickname().wx_str() ); aReporter->ReportTail( msg, RPT_SEVERITY_WARNING ); } continue; } if( libs->HasLibrary( symbol->GetLibId().GetLibNickname() ) ) { try { tmp = libs->LoadSymbol( symbol->GetLibId() ); } catch( const IO_ERROR& ioe ) { if( aReporter ) { msg.Printf( _( "I/O error %s resolving library symbol %s" ), ioe.What(), UnescapeString( symbol->GetLibId().Format() ) ); aReporter->ReportTail( msg, RPT_SEVERITY_ERROR ); } } } if( !tmp && legacyLibs && legacyLibs->GetLibraryCount() ) { SYMBOL_LIB& legacyCacheLib = legacyLibs->at( 0 ); // It better be the cache library. wxCHECK2( legacyCacheLib.IsCache(), continue ); wxString id = symbol->GetLibId().Format(); id.Replace( ':', '_' ); if( aReporter ) { msg.Printf( _( "Falling back to cache to set symbol '%s:%s' link '%s'." ), symbol->GetField( REFERENCE_FIELD )->GetText(), symbol->GetField( VALUE_FIELD )->GetText(), UnescapeString( id ) ); aReporter->ReportTail( msg, RPT_SEVERITY_WARNING ); } tmp = legacyCacheLib.FindSymbol( id ); } if( tmp ) { // We want a full symbol not just the top level child symbol. libSymbol = tmp->Flatten(); libSymbol->SetParent(); m_libSymbols.insert( { symbol->GetSchSymbolLibraryName(), new LIB_SYMBOL( *libSymbol.get() ) } ); if( aReporter ) { msg.Printf( _( "Setting schematic symbol '%s %s' library identifier to '%s'." ), symbol->GetField( REFERENCE_FIELD )->GetText(), symbol->GetField( VALUE_FIELD )->GetText(), UnescapeString( symbol->GetLibId().Format() ) ); aReporter->ReportTail( msg, RPT_SEVERITY_INFO ); } } else { if( aReporter ) { msg.Printf( _( "No library symbol found for schematic symbol '%s %s'." ), symbol->GetField( REFERENCE_FIELD )->GetText(), symbol->GetField( VALUE_FIELD )->GetText() ); aReporter->ReportTail( msg, RPT_SEVERITY_ERROR ); } } symbol->SetLibSymbol( libSymbol.release() ); } // Changing the symbol may adjust the bbox of the symbol. This re-inserts the // item with the new bbox for( auto symbol : symbols ) Append( symbol ); } void SCH_SCREEN::UpdateLocalLibSymbolLinks() { std::vector symbols; for( SCH_ITEM* item : Items().OfType( SCH_SYMBOL_T ) ) symbols.push_back( static_cast( item ) ); for( SCH_SYMBOL* symbol : symbols ) { // Changing the symbol may adjust the bbox of the symbol; remove and reinsert it afterwards. m_rtree.remove( symbol ); auto it = m_libSymbols.find( symbol->GetSchSymbolLibraryName() ); LIB_SYMBOL* libSymbol = nullptr; if( it != m_libSymbols.end() ) libSymbol = new LIB_SYMBOL( *it->second ); symbol->SetLibSymbol( libSymbol ); m_rtree.insert( symbol ); } } void SCH_SCREEN::Print( const RENDER_SETTINGS* aSettings ) { // Ensure links are up to date, even if a library was reloaded for some reason: std::vector junctions; std::vector bitmaps; std::vector other; for( SCH_ITEM* item : Items() ) { if( item->IsMoving() || item->IsResized() ) continue; if( item->Type() == SCH_JUNCTION_T ) junctions.push_back( item ); else if( item->Type() == SCH_BITMAP_T ) bitmaps.push_back( item ); else other.push_back( item ); } /// Sort to ensure plot-order consistency with screen drawing std::sort( other.begin(), other.end(), []( const SCH_ITEM* a, const SCH_ITEM* b ) { if( a->Type() == b->Type() ) return a->GetLayer() > b->GetLayer(); return a->Type() > b->Type(); } ); for( SCH_ITEM* item : bitmaps ) item->Print( aSettings, wxPoint( 0, 0 ) ); for( SCH_ITEM* item : other ) item->Print( aSettings, wxPoint( 0, 0 ) ); for( SCH_ITEM* item : junctions ) item->Print( aSettings, wxPoint( 0, 0 ) ); } void SCH_SCREEN::Plot( PLOTTER* aPlotter ) const { // Ensure links are up to date, even if a library was reloaded for some reason: std::vector< SCH_ITEM* > junctions; std::vector< SCH_ITEM* > bitmaps; std::vector< SCH_ITEM* > other; for( auto item : Items() ) { if( item->IsMoving() || item->IsResized() ) continue; if( item->Type() == SCH_JUNCTION_T ) junctions.push_back( item ); else if( item->Type() == SCH_BITMAP_T ) bitmaps.push_back( item ); else other.push_back( item ); } /// Sort to ensure plot-order consistency with screen drawing std::sort( other.begin(), other.end(), []( const SCH_ITEM* a, const SCH_ITEM* b ) { if( a->Type() == b->Type() ) return a->GetLayer() > b->GetLayer(); return a->Type() > b->Type(); } ); int defaultPenWidth = aPlotter->RenderSettings()->GetDefaultPenWidth(); // Bitmaps are drawn first to ensure they are in the background // This is particularly important for the wxPostscriptDC (used in *nix printers) as // the bitmap PS command clears the screen for( const SCH_ITEM* item : bitmaps ) { aPlotter->SetCurrentLineWidth( std::max( item->GetPenWidth(), defaultPenWidth ) ); item->Plot( aPlotter ); } for( const SCH_ITEM* item : other ) { aPlotter->SetCurrentLineWidth( std::max( item->GetPenWidth(), defaultPenWidth ) ); item->Plot( aPlotter ); } for( const SCH_ITEM* item : junctions ) { aPlotter->SetCurrentLineWidth( std::max( item->GetPenWidth(), defaultPenWidth ) ); item->Plot( aPlotter ); } } void SCH_SCREEN::ClearDrawingState() { for( SCH_ITEM* item : Items() ) item->ClearTempFlags(); } LIB_PIN* SCH_SCREEN::GetPin( const wxPoint& aPosition, SCH_SYMBOL** aSymbol, bool aEndPointOnly ) const { SCH_SYMBOL* candidate = nullptr; LIB_PIN* pin = nullptr; for( SCH_ITEM* item : Items().Overlapping( SCH_SYMBOL_T, aPosition ) ) { candidate = static_cast( item ); if( aEndPointOnly ) { pin = nullptr; if( !candidate->GetLibSymbolRef() ) continue; for( pin = candidate->GetLibSymbolRef()->GetNextPin(); pin; pin = candidate->GetLibSymbolRef()->GetNextPin( pin ) ) { // Skip items not used for this part. if( candidate->GetUnit() && pin->GetUnit() && ( pin->GetUnit() != candidate->GetUnit() ) ) continue; if( candidate->GetConvert() && pin->GetConvert() && ( pin->GetConvert() != candidate->GetConvert() ) ) continue; if( candidate->GetPinPhysicalPosition( pin ) == aPosition ) break; } if( pin ) break; } else { pin = (LIB_PIN*) candidate->GetDrawItem( aPosition, LIB_PIN_T ); if( pin ) break; } } if( pin && aSymbol ) *aSymbol = candidate; return pin; } SCH_SHEET_PIN* SCH_SCREEN::GetSheetPin( const wxPoint& aPosition ) const { SCH_SHEET_PIN* sheetPin = nullptr; for( SCH_ITEM* item : Items().Overlapping( SCH_SHEET_T, aPosition ) ) { auto sheet = static_cast( item ); sheetPin = sheet->GetPin( aPosition ); if( sheetPin ) break; } return sheetPin; } size_t SCH_SCREEN::CountConnectedItems( const wxPoint& aPos, bool aTestJunctions ) const { size_t count = 0; for( const SCH_ITEM* item : Items().Overlapping( aPos ) ) { if( ( item->Type() != SCH_JUNCTION_T || aTestJunctions ) && item->IsConnected( aPos ) ) count++; } return count; } void SCH_SCREEN::ClearAnnotation( SCH_SHEET_PATH* aSheetPath ) { for( SCH_ITEM* item : Items().OfType( SCH_SYMBOL_T ) ) { SCH_SYMBOL* symbol = static_cast( item ); symbol->ClearAnnotation( aSheetPath ); } } void SCH_SCREEN::EnsureAlternateReferencesExist() { if( GetClientSheetPaths().size() <= 1 ) // No need for alternate reference return; for( SCH_ITEM* item : Items().OfType( SCH_SYMBOL_T ) ) { SCH_SYMBOL* symbol = static_cast( item ); // Add (when not existing) all sheet path entries for( const SCH_SHEET_PATH& sheet : GetClientSheetPaths() ) symbol->AddSheetPathReferenceEntryIfMissing( sheet.Path() ); } } void SCH_SCREEN::GetHierarchicalItems( std::vector* aItems ) const { static KICAD_T hierarchicalTypes[] = { SCH_SYMBOL_T, SCH_SHEET_T, SCH_GLOBAL_LABEL_T, EOT }; for( SCH_ITEM* item : Items() ) { if( item->IsType( hierarchicalTypes ) ) aItems->push_back( item ); } } void SCH_SCREEN::GetSheets( std::vector* aItems ) const { for( SCH_ITEM* item : Items().OfType( SCH_SHEET_T ) ) aItems->push_back( item ); std::sort( aItems->begin(), aItems->end(), []( EDA_ITEM* a, EDA_ITEM* b ) -> bool { if( a->GetPosition().x == b->GetPosition().x ) { // Ensure deterministic sort if( a->GetPosition().y == b->GetPosition().y ) return a->m_Uuid < b->m_Uuid; return a->GetPosition().y < b->GetPosition().y; } else return a->GetPosition().x < b->GetPosition().x; } ); } void SCH_SCREEN::TestDanglingEnds( const SCH_SHEET_PATH* aPath, std::function* aChangedHandler ) const { std::vector endPoints; for( SCH_ITEM* item : Items() ) { if( item->IsConnectable() ) { endPoints.clear(); for( SCH_ITEM* overlapping : Items().Overlapping( item->GetBoundingBox() ) ) overlapping->GetEndPoints( endPoints ); if( item->UpdateDanglingState( endPoints, aPath ) ) { if( aChangedHandler ) (*aChangedHandler)( item ); } } } } SCH_LINE* SCH_SCREEN::GetLine( const wxPoint& aPosition, int aAccuracy, int aLayer, SCH_LINE_TEST_T aSearchType ) const { // an accuracy of 0 had problems with rounding errors; use at least 1 aAccuracy = std::max( aAccuracy, 1 ); for( SCH_ITEM* item : Items().Overlapping( aPosition, aAccuracy ) ) { if( item->Type() != SCH_LINE_T ) continue; if( item->GetLayer() != aLayer ) continue; if( !item->HitTest( aPosition, aAccuracy ) ) continue; switch( aSearchType ) { case ENTIRE_LENGTH_T: return (SCH_LINE*) item; case EXCLUDE_END_POINTS_T: if( !( (SCH_LINE*) item )->IsEndPoint( aPosition ) ) return (SCH_LINE*) item; break; case END_POINTS_ONLY_T: if( ( (SCH_LINE*) item )->IsEndPoint( aPosition ) ) return (SCH_LINE*) item; } } return nullptr; } SCH_TEXT* SCH_SCREEN::GetLabel( const wxPoint& aPosition, int aAccuracy ) const { for( SCH_ITEM* item : Items().Overlapping( aPosition, aAccuracy ) ) { switch( item->Type() ) { case SCH_LABEL_T: case SCH_GLOBAL_LABEL_T: case SCH_HIER_LABEL_T: if( item->HitTest( aPosition, aAccuracy ) ) return static_cast( item ); break; default: ; } } return nullptr; } void SCH_SCREEN::AddLibSymbol( LIB_SYMBOL* aLibSymbol ) { wxCHECK( aLibSymbol, /* void */ ); wxString libSymbolName = aLibSymbol->GetLibId().Format().wx_str(); auto it = m_libSymbols.find( libSymbolName ); if( it != m_libSymbols.end() ) { delete it->second; m_libSymbols.erase( it ); } m_libSymbols[libSymbolName] = aLibSymbol; } void SCH_SCREEN::AddBusAlias( std::shared_ptr aAlias ) { m_aliases.insert( aAlias ); } #if defined(DEBUG) void SCH_SCREEN::Show( int nestLevel, std::ostream& os ) const { // for now, make it look like XML, expand on this later. NestedSpace( nestLevel, os ) << '<' << GetClass().Lower().mb_str() << ">\n"; for( const SCH_ITEM* item : Items() ) item->Show( nestLevel + 1, os ); NestedSpace( nestLevel, os ) << "\n"; } #endif SCH_SCREENS::SCH_SCREENS( SCH_SHEET* aSheet ) { m_index = 0; buildScreenList( aSheet ); } SCH_SCREENS::~SCH_SCREENS() { } SCH_SCREEN* SCH_SCREENS::GetFirst() { m_index = 0; if( m_screens.size() > 0 ) return m_screens[0]; return nullptr; } SCH_SCREEN* SCH_SCREENS::GetNext() { if( m_index < m_screens.size() ) m_index++; return GetScreen( m_index ); } SCH_SCREEN* SCH_SCREENS::GetScreen( unsigned int aIndex ) const { if( aIndex < m_screens.size() ) return m_screens[ aIndex ]; return nullptr; } SCH_SHEET* SCH_SCREENS::GetSheet( unsigned int aIndex ) const { if( aIndex < m_sheets.size() ) return m_sheets[ aIndex ]; return nullptr; } void SCH_SCREENS::addScreenToList( SCH_SCREEN* aScreen, SCH_SHEET* aSheet ) { if( aScreen == nullptr ) return; for( const SCH_SCREEN* screen : m_screens ) { if( screen == aScreen ) return; } m_screens.push_back( aScreen ); m_sheets.push_back( aSheet ); } void SCH_SCREENS::buildScreenList( SCH_SHEET* aSheet ) { if( aSheet && aSheet->Type() == SCH_SHEET_T ) { SCH_SCREEN* screen = aSheet->GetScreen(); wxCHECK_RET( screen, "No screen for aSheet" ); addScreenToList( screen, aSheet ); for( SCH_ITEM* item : screen->Items().OfType( SCH_SHEET_T ) ) buildScreenList( static_cast( item ) ); } } void SCH_SCREENS::ClearAnnotationOfNewSheetPaths( SCH_SHEET_LIST& aInitialSheetPathList ) { SCH_SCREEN* first = GetFirst(); if( !first ) return; SCHEMATIC* sch = first->Schematic(); wxCHECK_RET( sch, "Null schematic in SCH_SCREENS::ClearAnnotationOfNewSheetPaths" ); // Clear the annotation for symbols inside new sheetpaths not already in aInitialSheetList SCH_SCREENS screensList( sch->Root() ); // The list of screens, shared by sheet paths screensList.BuildClientSheetPathList(); // build the shared by sheet paths, by screen // Search for new sheet paths, not existing in aInitialSheetPathList // and existing in sheetpathList for( SCH_SHEET_PATH& sheetpath : sch->GetSheets() ) { bool path_exists = false; for( const SCH_SHEET_PATH& existing_sheetpath: aInitialSheetPathList ) { if( existing_sheetpath.Path() == sheetpath.Path() ) { path_exists = true; break; } } if( !path_exists ) { // A new sheet path is found: clear the annotation corresponding to this new path: SCH_SCREEN* curr_screen = sheetpath.LastScreen(); // Clear annotation and create the AR for this path, if not exists, // when the screen is shared by sheet paths. // Otherwise ClearAnnotation do nothing, because the F1 field is used as // reference default value and takes the latest displayed value curr_screen->EnsureAlternateReferencesExist(); curr_screen->ClearAnnotation( &sheetpath ); } } } int SCH_SCREENS::ReplaceDuplicateTimeStamps() { std::vector items; int count = 0; auto timestamp_cmp = []( const EDA_ITEM* a, const EDA_ITEM* b ) -> bool { return a->m_Uuid < b->m_Uuid; }; std::set unique_stamps( timestamp_cmp ); for( SCH_SCREEN* screen : m_screens ) screen->GetHierarchicalItems( &items ); if( items.size() < 2 ) return 0; for( EDA_ITEM* item : items ) { if( !unique_stamps.insert( item ).second ) { // Reset to fully random UUID. This may lose reference, but better to be // deterministic about it rather than to have duplicate UUIDs with random // side-effects. const_cast( item->m_Uuid ) = KIID(); count++; } } return count; } void SCH_SCREENS::ClearEditFlags() { for( SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) { for( SCH_ITEM* item : screen->Items() ) item->ClearEditFlags(); } } void SCH_SCREENS::DeleteMarker( SCH_MARKER* aMarker ) { for( SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) { for( SCH_ITEM* item : screen->Items().OfType( SCH_MARKER_T ) ) { if( item == aMarker ) { screen->DeleteItem( item ); return; } } } } void SCH_SCREENS::DeleteMarkers( enum MARKER_BASE::TYPEMARKER aMarkerType, int aErrorCode, bool aIncludeExclusions ) { for( SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) { std::vector markers; for( SCH_ITEM* item : screen->Items().OfType( SCH_MARKER_T ) ) { SCH_MARKER* marker = static_cast( item ); std::shared_ptrrcItem = marker->GetRCItem(); if( marker->GetMarkerType() == aMarkerType && ( aErrorCode == ERCE_UNSPECIFIED || rcItem->GetErrorCode() == aErrorCode ) && ( !marker->IsExcluded() || aIncludeExclusions ) ) { markers.push_back( item ); } } for( SCH_ITEM* marker : markers ) screen->DeleteItem( marker ); } } void SCH_SCREENS::DeleteAllMarkers( enum MARKER_BASE::TYPEMARKER aMarkerType, bool aIncludeExclusions ) { DeleteMarkers( aMarkerType, ERCE_UNSPECIFIED, aIncludeExclusions ); } void SCH_SCREENS::UpdateSymbolLinks( REPORTER* aReporter ) { for( SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) screen->UpdateSymbolLinks( aReporter ); SCH_SCREEN* first = GetFirst(); if( !first ) return; SCHEMATIC* sch = first->Schematic(); wxCHECK_RET( sch, "Null schematic in SCH_SCREENS::UpdateSymbolLinks" ); SCH_SHEET_LIST sheets = sch->GetSheets(); // All of the library symbols have been replaced with copies so the connection graph // pointers are stale. if( sch->ConnectionGraph() ) sch->ConnectionGraph()->Recalculate( sheets, true ); } bool SCH_SCREENS::HasNoFullyDefinedLibIds() { bool has_symbols = false; for( SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) { for( SCH_ITEM* item : screen->Items().OfType( SCH_SYMBOL_T ) ) { SCH_SYMBOL* symbol = static_cast( item ); has_symbols = true; if( !symbol->GetLibId().GetLibNickname().empty() ) return false; } } // return true (i.e. has no fully defined symbol) only if at least one symbol is found return has_symbols ? true : false; } size_t SCH_SCREENS::GetLibNicknames( wxArrayString& aLibNicknames ) { for( SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) { for( auto item : screen->Items().OfType( SCH_SYMBOL_T ) ) { SCH_SYMBOL* symbol = static_cast( item ); const UTF8& nickname = symbol->GetLibId().GetLibNickname(); if( !nickname.empty() && ( aLibNicknames.Index( nickname ) == wxNOT_FOUND ) ) aLibNicknames.Add( nickname ); } } return aLibNicknames.GetCount(); } int SCH_SCREENS::ChangeSymbolLibNickname( const wxString& aFrom, const wxString& aTo ) { SCH_SCREEN* screen; int cnt = 0; for( screen = GetFirst(); screen; screen = GetNext() ) { for( auto item : screen->Items().OfType( SCH_SYMBOL_T ) ) { auto symbol = static_cast( item ); if( symbol->GetLibId().GetLibNickname() != aFrom ) continue; LIB_ID id = symbol->GetLibId(); id.SetLibNickname( aTo ); symbol->SetLibId( id ); cnt++; } } return cnt; } bool SCH_SCREENS::HasSchematic( const wxString& aSchematicFileName ) { for( const SCH_SCREEN* screen = GetFirst(); screen; screen = GetNext() ) { if( screen->GetFileName() == aSchematicFileName ) return true; } return false; } bool SCH_SCREENS::CanCauseCaseSensitivityIssue( const wxString& aSchematicFileName ) const { wxString lhsLower; wxString rhsLower; wxFileName lhs; wxFileName rhs = aSchematicFileName; wxCHECK( rhs.IsAbsolute(), false ); for( const SCH_SCREEN* screen : m_screens ) { lhs = screen->GetFileName(); if( lhs.GetPath() != rhs.GetPath() ) continue; lhsLower = lhs.GetFullName().Lower(); rhsLower = rhs.GetFullName().Lower(); if( lhsLower == rhsLower && lhs.GetFullName() != rhs.GetFullName() ) return true; } return false; } void SCH_SCREENS::BuildClientSheetPathList() { SCH_SCREEN* first = GetFirst(); if( !first ) return; SCHEMATIC* sch = first->Schematic(); wxCHECK_RET( sch, "Null schematic in SCH_SCREENS::BuildClientSheetPathList" ); for( SCH_SCREEN* curr_screen = GetFirst(); curr_screen; curr_screen = GetNext() ) curr_screen->GetClientSheetPaths().clear(); for( SCH_SHEET_PATH& sheetpath : sch->GetSheets() ) { SCH_SCREEN* used_screen = sheetpath.LastScreen(); // SEarch for the used_screen in list and add this unique sheet path: for( SCH_SCREEN* curr_screen = GetFirst(); curr_screen; curr_screen = GetNext() ) { if( used_screen == curr_screen ) { curr_screen->GetClientSheetPaths().push_back( sheetpath ); break; } } } }