/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2019 CERN * Copyright (C) 2019 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 using namespace std::placeholders; #include "ee_point_editor.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Few constants to avoid using bare numbers for point indices enum ARC_POINTS { ARC_CENTER, ARC_START, ARC_END }; enum CIRCLE_POINTS { CIRC_CENTER, CIRC_END }; enum RECTANGLE_POINTS { RECT_TOPLEFT, RECT_TOPRIGHT, RECT_BOTLEFT, RECT_BOTRIGHT }; enum LINE_POINTS { LINE_START, LINE_END }; class EDIT_POINTS_FACTORY { public: static std::shared_ptr Make( EDA_ITEM* aItem, SCH_BASE_FRAME* frame ) { std::shared_ptr points = std::make_shared( aItem ); if( !aItem ) return points; // Generate list of edit points based on the item type switch( aItem->Type() ) { case LIB_ARC_T: { LIB_ARC* arc = (LIB_ARC*) aItem; points->AddPoint( mapCoords( arc->GetPosition() ) ); points->AddPoint( mapCoords( arc->GetStart() ) ); points->AddPoint( mapCoords( arc->GetEnd() ) ); break; } case LIB_CIRCLE_T: { LIB_CIRCLE* circle = (LIB_CIRCLE*) aItem; points->AddPoint( mapCoords( circle->GetPosition() ) ); points->AddPoint( mapCoords( circle->GetEnd() ) ); break; } case LIB_POLYLINE_T: { LIB_POLYLINE* lines = (LIB_POLYLINE*) aItem; const std::vector& pts = lines->GetPolyPoints(); for( wxPoint pt : pts ) points->AddPoint( mapCoords( pt ) ); break; } case LIB_RECTANGLE_T: { LIB_RECTANGLE* rect = (LIB_RECTANGLE*) aItem; // point editor works only with rectangles having width and height > 0 // Some symbols can have rectangles with width or height < 0 // So normalize the size: BOX2I dummy; dummy.SetOrigin( mapCoords( rect->GetPosition() ) ); dummy.SetEnd( mapCoords( rect->GetEnd() ) ); dummy.Normalize(); VECTOR2I topLeft = dummy.GetPosition(); VECTOR2I botRight = dummy.GetEnd(); points->AddPoint( topLeft ); points->AddPoint( VECTOR2I( botRight.x, topLeft.y ) ); points->AddPoint( VECTOR2I( topLeft.x, botRight.y ) ); points->AddPoint( botRight ); break; } case SCH_SHEET_T: { SCH_SHEET* sheet = (SCH_SHEET*) aItem; wxPoint topLeft = sheet->GetPosition(); wxPoint botRight = sheet->GetPosition() + sheet->GetSize(); points->AddPoint( (wxPoint) topLeft ); points->AddPoint( wxPoint( botRight.x, topLeft.y ) ); points->AddPoint( wxPoint( topLeft.x, botRight.y ) ); points->AddPoint( (wxPoint) botRight ); break; } case SCH_BITMAP_T: { SCH_BITMAP* bitmap = (SCH_BITMAP*) aItem; wxPoint topLeft = bitmap->GetPosition() - bitmap->GetSize() / 2; wxPoint botRight = bitmap->GetPosition() + bitmap->GetSize() / 2; points->AddPoint( (wxPoint) topLeft ); points->AddPoint( wxPoint( botRight.x, topLeft.y ) ); points->AddPoint( wxPoint( topLeft.x, botRight.y ) ); points->AddPoint( (wxPoint) botRight ); break; } case SCH_LINE_T: { SCH_LINE* line = (SCH_LINE*) aItem; SCH_LINE* connectedStart = nullptr; SCH_LINE* connectedEnd = nullptr; for( auto test : frame->GetScreen()->Items().OfType( SCH_LINE_T ) ) { if( test->GetLayer() != LAYER_NOTES ) continue; if( test == aItem ) continue; auto testLine = static_cast( test ); testLine->ClearFlags( STARTPOINT | ENDPOINT ); if( testLine->GetStartPoint() == line->GetStartPoint() ) { connectedStart = testLine; testLine->SetFlags( STARTPOINT ); } else if( testLine->GetEndPoint() == line->GetStartPoint() ) { connectedStart = testLine; testLine->SetFlags( ENDPOINT ); } else if( testLine->GetStartPoint() == line->GetEndPoint() ) { connectedEnd = testLine; testLine->SetFlags( STARTPOINT ); } else if( testLine->GetEndPoint() == line->GetEndPoint() ) { connectedEnd = testLine; testLine->SetFlags( ENDPOINT ); } } points->AddPoint( line->GetStartPoint(), connectedStart ); points->AddPoint( line->GetEndPoint(), connectedEnd ); break; } default: points.reset(); break; } return points; } private: EDIT_POINTS_FACTORY() {}; }; EE_POINT_EDITOR::EE_POINT_EDITOR() : EE_TOOL_BASE( "eeschema.PointEditor" ), m_editedPoint( nullptr ) { } void EE_POINT_EDITOR::Reset( RESET_REASON aReason ) { EE_TOOL_BASE::Reset( aReason ); m_editPoints.reset(); } bool EE_POINT_EDITOR::Init() { EE_TOOL_BASE::Init(); auto& menu = m_selectionTool->GetToolMenu().GetMenu(); menu.AddItem( EE_ACTIONS::pointEditorAddCorner, std::bind( &EE_POINT_EDITOR::addCornerCondition, this, _1 ) ); menu.AddItem( EE_ACTIONS::pointEditorRemoveCorner, std::bind( &EE_POINT_EDITOR::removeCornerCondition, this, _1 ) ); return true; } void EE_POINT_EDITOR::updateEditedPoint( const TOOL_EVENT& aEvent ) { EDIT_POINT* point = m_editedPoint; if( aEvent.IsMotion() ) { point = m_editPoints->FindPoint( aEvent.Position(), getView() ); } else if( aEvent.IsDrag( BUT_LEFT ) ) { point = m_editPoints->FindPoint( aEvent.DragOrigin(), getView() ); } else { point = m_editPoints->FindPoint( getViewControls()->GetCursorPosition(), getView() ); } if( m_editedPoint != point ) setEditedPoint( point ); } int EE_POINT_EDITOR::Main( const TOOL_EVENT& aEvent ) { static KICAD_T supportedTypes[] = { LIB_ARC_T, LIB_CIRCLE_T, LIB_POLYLINE_T, LIB_RECTANGLE_T, SCH_SHEET_T, SCH_LINE_LOCATE_GRAPHIC_LINE_T, SCH_BITMAP_T, EOT }; if( !m_selectionTool ) return 0; const EE_SELECTION& selection = m_selectionTool->GetSelection(); if( selection.Size() != 1 || !selection.Front()->IsType( supportedTypes ) ) return 0; // Wait till drawing tool is done if( selection.Front()->IsNew() ) return 0; Activate(); KIGFX::VIEW_CONTROLS* controls = getViewControls(); KIGFX::VIEW* view = getView(); EDA_ITEM* item = (EDA_ITEM*) selection.Front(); controls->ShowCursor( true ); m_editPoints = EDIT_POINTS_FACTORY::Make( item, m_frame ); view->Add( m_editPoints.get() ); setEditedPoint( nullptr ); updateEditedPoint( aEvent ); bool inDrag = false; bool modified = false; // Main loop: keep receiving events while( TOOL_EVENT* evt = Wait() ) { if( !m_editPoints || evt->IsSelectionEvent() ) break; if ( !inDrag ) updateEditedPoint( *evt ); if( evt->IsDrag( BUT_LEFT ) && m_editedPoint ) { if( !inDrag ) { saveItemsToUndo(); controls->ForceCursorPosition( false ); inDrag = true; modified = true; } bool snap = !evt->Modifier( MD_ALT ); if( item->Type() == LIB_ARC_T && getEditedPointIndex() == ARC_CENTER ) snap = false; m_editedPoint->SetPosition( controls->GetCursorPosition( snap ) ); updateItem(); updatePoints(); } else if( inDrag && evt->IsMouseUp( BUT_LEFT ) ) { controls->SetAutoPan( false ); inDrag = false; } else if( evt->IsCancelInteractive() || evt->IsActivate() ) { if( inDrag ) // Restore the last change { rollbackFromUndo(); inDrag = false; modified = false; break; } else if( evt->IsCancelInteractive() ) break; if( evt->IsActivate() && !evt->IsMoveTool() ) break; } else evt->SetPassEvent(); controls->SetAutoPan( inDrag ); controls->CaptureCursor( inDrag ); } controls->SetAutoPan( false ); controls->CaptureCursor( false ); if( m_editPoints ) { view->Remove( m_editPoints.get() ); if( modified ) m_frame->OnModify(); m_editPoints.reset(); m_frame->GetCanvas()->Refresh(); } return 0; } /** * Update the coordinates of 4 corners of a rectangle, accordint to constraints * and the moved corner * @param aEditedPointIndex is the corner id * @param minWidth is the minimal width constraint * @param minHeight is the minimal height constraint * @param topLeft is the RECT_TOPLEFT to constraint * @param topRight is the RECT_TOPRIGHT to constraint * @param botLeft is the RECT_BOTLEFT to constraint * @param botRight is the RECT_BOTRIGHT to constraint * @param aGridSize is the a constraint: if > 1 new coordinates are on this grid */ static void pinEditedCorner( int aEditedPointIndex, int minWidth, int minHeight, VECTOR2I& topLeft, VECTOR2I& topRight, VECTOR2I& botLeft, VECTOR2I& botRight, int aGridSize = 0 ) { // A macro to keep a coordinate on the grid: #define MOVE_TO_GRID(z) { z.x = ( (z.x +1 ) / aGridSize ) * aGridSize;\ z.y = ( (z.y +1 ) / aGridSize ) * aGridSize; } switch( aEditedPointIndex ) { case RECT_TOPLEFT: // pin edited point within opposite corner topLeft.x = std::min( topLeft.x, botRight.x - minWidth ); topLeft.y = std::min( topLeft.y, botRight.y - minHeight ); if( aGridSize > 1 ) // Keep point on specified grid size { topLeft.x = ( topLeft.x / aGridSize ) * aGridSize; topLeft.y = ( topLeft.y / aGridSize ) * aGridSize; } // push edited point edges to adjacent corners topRight.y = topLeft.y; botLeft.x = topLeft.x; break; case RECT_TOPRIGHT: // pin edited point within opposite corner topRight.x = std::max( topRight.x, botLeft.x + minWidth ); topRight.y = std::min( topRight.y, botLeft.y - minHeight ); if( aGridSize > 1 ) // Keep point on specified grid size { topRight.x = ( ( topRight.x+1 ) / aGridSize ) * aGridSize; topRight.y = ( topRight.y / aGridSize ) * aGridSize; } // push edited point edges to adjacent corners topLeft.y = topRight.y; botRight.x = topRight.x; break; case RECT_BOTLEFT: // pin edited point within opposite corner botLeft.x = std::min( botLeft.x, topRight.x - minWidth ); botLeft.y = std::max( botLeft.y, topRight.y + minHeight ); if( aGridSize > 1 ) // Keep point on specified grid size { botLeft.x = ( botLeft.x / aGridSize ) * aGridSize; botLeft.y = ( ( botLeft.y+1 ) / aGridSize ) * aGridSize; } // push edited point edges to adjacent corners botRight.y = botLeft.y; topLeft.x = botLeft.x; break; case RECT_BOTRIGHT: // pin edited point within opposite corner botRight.x = std::max( botRight.x, topLeft.x + minWidth ); botRight.y = std::max( botRight.y, topLeft.y + minHeight ); if( aGridSize > 1 ) // Keep point on specified grid size { botRight.x = ( ( botRight.x+1 ) / aGridSize ) * aGridSize; botRight.y = ( ( botRight.y+1 ) / aGridSize ) * aGridSize; } // push edited point edges to adjacent corners botLeft.y = botRight.y; topRight.x = botRight.x; break; } } void EE_POINT_EDITOR::updateItem() const { EDA_ITEM* item = m_editPoints->GetParent(); if( !item ) return; switch( item->Type() ) { case LIB_ARC_T: { LIB_ARC* arc = (LIB_ARC*) item; int i = getEditedPointIndex(); if( i == ARC_CENTER ) { arc->SetEditState( 4 ); arc->CalcEdit( mapCoords( m_editPoints->Point( ARC_CENTER ).GetPosition() ) ); } else if( i == ARC_START ) { arc->SetEditState( 2 ); arc->CalcEdit( mapCoords( m_editPoints->Point( ARC_START ).GetPosition() ) ); } else if( i == ARC_END ) { arc->SetEditState( 3 ); arc->CalcEdit( mapCoords( m_editPoints->Point( ARC_END ).GetPosition() ) ); } break; } case LIB_CIRCLE_T: { LIB_CIRCLE* circle = (LIB_CIRCLE*) item; circle->SetPosition( mapCoords( m_editPoints->Point( CIRC_CENTER ).GetPosition() ) ); circle->SetEnd( mapCoords( m_editPoints->Point( CIRC_END ).GetPosition() ) ); break; } case LIB_POLYLINE_T: { LIB_POLYLINE* lines = (LIB_POLYLINE*) item; lines->ClearPoints(); for( unsigned i = 0; i < m_editPoints->PointsSize(); ++i ) lines->AddPoint( mapCoords( m_editPoints->Point( i ).GetPosition() ) ); break; } case LIB_RECTANGLE_T: { VECTOR2I topLeft = m_editPoints->Point( RECT_TOPLEFT ).GetPosition(); VECTOR2I topRight = m_editPoints->Point( RECT_TOPRIGHT ).GetPosition(); VECTOR2I botLeft = m_editPoints->Point( RECT_BOTLEFT ).GetPosition(); VECTOR2I botRight = m_editPoints->Point( RECT_BOTRIGHT ).GetPosition(); pinEditedCorner( getEditedPointIndex(), Mils2iu( 1 ), Mils2iu( 1 ), topLeft, topRight, botLeft, botRight ); LIB_RECTANGLE* rect = (LIB_RECTANGLE*) item; rect->SetPosition( mapCoords( topLeft ) ); rect->SetEnd( mapCoords( botRight ) ); break; } case SCH_BITMAP_T: { SCH_BITMAP* bitmap = (SCH_BITMAP*) item; VECTOR2I topLeft = m_editPoints->Point( RECT_TOPLEFT ).GetPosition(); VECTOR2I topRight = m_editPoints->Point( RECT_TOPRIGHT ).GetPosition(); VECTOR2I botLeft = m_editPoints->Point( RECT_BOTLEFT ).GetPosition(); VECTOR2I botRight = m_editPoints->Point( RECT_BOTRIGHT ).GetPosition(); pinEditedCorner( getEditedPointIndex(), Mils2iu( 50 ), Mils2iu( 50 ), topLeft, topRight, botLeft, botRight ); double oldWidth = bitmap->GetSize().x; double newWidth = topRight.x - topLeft.x; double widthRatio = newWidth / oldWidth; double oldHeight = bitmap->GetSize().y; double newHeight = botLeft.y - topLeft.y; double heightRatio = newHeight / oldHeight; bitmap->SetImageScale( bitmap->GetImageScale() * std::min( widthRatio, heightRatio ) ); break; } case SCH_SHEET_T: { SCH_SHEET* sheet = (SCH_SHEET*) item; VECTOR2I topLeft = m_editPoints->Point( RECT_TOPLEFT ).GetPosition(); VECTOR2I topRight = m_editPoints->Point( RECT_TOPRIGHT ).GetPosition(); VECTOR2I botLeft = m_editPoints->Point( RECT_BOTLEFT ).GetPosition(); VECTOR2I botRight = m_editPoints->Point( RECT_BOTRIGHT ).GetPosition(); // The grid size used to place connected items. because a sheet contains // connected items (sheet pins), keep corners coordinates on this grid. // Otherwise, some sheet pins can be moved off grid int grid_size = Mils2iu( 50 ); pinEditedCorner( getEditedPointIndex(), sheet->GetMinWidth(), sheet->GetMinHeight(), topLeft, topRight, botLeft, botRight, grid_size ); sheet->SetPosition( (wxPoint) topLeft ); sheet->SetSize( wxSize( botRight.x - topLeft.x, botRight.y - topLeft.y ) ); // Update the fields if we're in autoplace mode if( sheet->GetFieldsAutoplaced() == FIELDS_AUTOPLACED_AUTO ) sheet->AutoplaceFields( /* aScreen */ NULL, /* aManual */ false ); // Keep sheet pins attached to edges: for( SCH_SHEET_PIN* pin : sheet->GetPins() ) { wxPoint pos = pin->GetPosition(); switch( pin->GetEdge() ) { case SHEET_LEFT_SIDE: pos.x = topLeft.x; break; case SHEET_RIGHT_SIDE: pos.x = topRight.x; break; case SHEET_TOP_SIDE: pos.y = topLeft.y; break; case SHEET_BOTTOM_SIDE: pos.y = botLeft.y; break; case SHEET_UNDEFINED_SIDE: break; } pin->SetPosition( pos ); } break; } case SCH_LINE_T: { SCH_LINE* line = (SCH_LINE*) item; line->SetStartPoint( (wxPoint) m_editPoints->Point( LINE_START ).GetPosition() ); line->SetEndPoint( (wxPoint) m_editPoints->Point( LINE_END ).GetPosition() ); SCH_LINE* connection = (SCH_LINE*) ( m_editPoints->Point( LINE_START ).GetConnection() ); if( connection ) { if( connection->HasFlag( STARTPOINT ) ) connection->SetStartPoint( line->GetPosition() ); else if( connection->HasFlag( ENDPOINT ) ) connection->SetEndPoint( line->GetPosition() ); getView()->Update( connection, KIGFX::GEOMETRY ); } connection = (SCH_LINE*) ( m_editPoints->Point( LINE_END ).GetConnection() ); if( connection ) { if( connection->HasFlag( STARTPOINT ) ) connection->SetStartPoint( line->GetEndPoint() ); else if( connection->HasFlag( ENDPOINT ) ) connection->SetEndPoint( line->GetEndPoint() ); getView()->Update( connection, KIGFX::GEOMETRY ); } break; } default: break; } updateView( item ); m_frame->SetMsgPanel( item ); } void EE_POINT_EDITOR::updatePoints() { if( !m_editPoints ) return; EDA_ITEM* item = m_editPoints->GetParent(); if( !item ) return; switch( item->Type() ) { case LIB_ARC_T: { LIB_ARC* arc = (LIB_ARC*) item; m_editPoints->Point( ARC_CENTER ).SetPosition( mapCoords( arc->GetPosition() ) ); m_editPoints->Point( ARC_START ).SetPosition( mapCoords( arc->GetStart() ) ); m_editPoints->Point( ARC_END ).SetPosition( mapCoords( arc->GetEnd() ) ); break; } case LIB_CIRCLE_T: { LIB_CIRCLE* circle = (LIB_CIRCLE*) item; m_editPoints->Point( CIRC_CENTER ).SetPosition( mapCoords( circle->GetPosition() ) ); m_editPoints->Point( CIRC_END ).SetPosition( mapCoords( circle->GetEnd() ) ); break; } case LIB_POLYLINE_T: { LIB_POLYLINE* lines = (LIB_POLYLINE*) item; const std::vector& pts = lines->GetPolyPoints(); if( m_editPoints->PointsSize() != (unsigned) pts.size() ) { getView()->Remove( m_editPoints.get() ); m_editedPoint = nullptr; m_editPoints = EDIT_POINTS_FACTORY::Make( item, m_frame ); getView()->Add(m_editPoints.get() ); } else { for( unsigned i = 0; i < pts.size(); i++ ) m_editPoints->Point( i ).SetPosition( mapCoords( pts[i] ) ); } break; } case LIB_RECTANGLE_T: { LIB_RECTANGLE* rect = (LIB_RECTANGLE*) item; // point editor works only with rectangles having width and height > 0 // Some symbols can have rectangles with width or height < 0 // So normalize the size: BOX2I dummy; dummy.SetOrigin( mapCoords( rect->GetPosition() ) ); dummy.SetEnd( mapCoords( rect->GetEnd() ) ); dummy.Normalize(); VECTOR2I topLeft = dummy.GetPosition(); VECTOR2I botRight = dummy.GetEnd(); m_editPoints->Point( RECT_TOPLEFT ).SetPosition( topLeft ); m_editPoints->Point( RECT_TOPRIGHT ).SetPosition( VECTOR2I( botRight.x, topLeft.y ) ); m_editPoints->Point( RECT_BOTLEFT ).SetPosition( VECTOR2I( topLeft.x, botRight.y ) ); m_editPoints->Point( RECT_BOTRIGHT ).SetPosition( botRight ); break; } case SCH_BITMAP_T: { SCH_BITMAP* bitmap = (SCH_BITMAP*) item; wxPoint topLeft = bitmap->GetPosition() - bitmap->GetSize() / 2; wxPoint botRight = bitmap->GetPosition() + bitmap->GetSize() / 2; m_editPoints->Point( RECT_TOPLEFT ).SetPosition( topLeft ); m_editPoints->Point( RECT_TOPRIGHT ).SetPosition( botRight.x, topLeft.y ); m_editPoints->Point( RECT_BOTLEFT ).SetPosition( topLeft.x, botRight.y ); m_editPoints->Point( RECT_BOTRIGHT ).SetPosition( botRight ); break; } case SCH_SHEET_T: { SCH_SHEET* sheet = (SCH_SHEET*) item; wxPoint topLeft = sheet->GetPosition(); wxPoint botRight = sheet->GetPosition() + sheet->GetSize(); m_editPoints->Point( RECT_TOPLEFT ).SetPosition( topLeft ); m_editPoints->Point( RECT_TOPRIGHT ).SetPosition( botRight.x, topLeft.y ); m_editPoints->Point( RECT_BOTLEFT ).SetPosition( topLeft.x, botRight.y ); m_editPoints->Point( RECT_BOTRIGHT ).SetPosition( botRight ); break; } case SCH_LINE_T: { SCH_LINE* line = (SCH_LINE*) item; m_editPoints->Point( LINE_START ).SetPosition( line->GetStartPoint() ); m_editPoints->Point( LINE_END ).SetPosition( line->GetEndPoint() ); break; } default: break; } getView()->Update( m_editPoints.get() ); } void EE_POINT_EDITOR::setEditedPoint( EDIT_POINT* aPoint ) { KIGFX::VIEW_CONTROLS* controls = getViewControls(); if( aPoint ) { m_frame->GetCanvas()->SetCurrentCursor( KICURSOR::ARROW ); controls->ForceCursorPosition( true, aPoint->GetPosition() ); controls->ShowCursor( true ); } else { if( m_frame->ToolStackIsEmpty() ) controls->ShowCursor( false ); controls->ForceCursorPosition( false ); } m_editedPoint = aPoint; } bool EE_POINT_EDITOR::removeCornerCondition( const SELECTION& ) { if( !m_editPoints || !m_editedPoint ) return false; LIB_POLYLINE* polyLine = dynamic_cast( m_editPoints->GetParent() ); if( !polyLine || polyLine->GetCornerCount() < 3 ) return false; const std::vector& pts = polyLine->GetPolyPoints(); for( unsigned i = 0; i < polyLine->GetCornerCount(); ++i ) { if( pts[i] == mapCoords( m_editedPoint->GetPosition() ) ) return true; } return false; } bool EE_POINT_EDITOR::addCornerCondition( const SELECTION& ) { if( !m_editPoints || !m_editedPoint ) return false; LIB_POLYLINE* polyLine = dynamic_cast( m_editPoints->GetParent() ); if( !polyLine ) return false; VECTOR2I cursorPos = getViewControls()->GetCursorPosition(); double threshold = getView()->ToWorld( EDIT_POINT::POINT_SIZE ); return polyLine->HitTest( mapCoords( cursorPos ), (int) threshold ); } int EE_POINT_EDITOR::addCorner( const TOOL_EVENT& aEvent ) { if( !m_editPoints ) return 0; LIB_POLYLINE* polyLine = dynamic_cast( m_editPoints->GetParent() ); if( !polyLine ) return false; VECTOR2I cursorPos = getViewControls()->GetCursorPosition( !aEvent.Modifier( MD_ALT ) ); polyLine->AddCorner( mapCoords( cursorPos ) ); updateView( polyLine ); updatePoints(); return 0; } int EE_POINT_EDITOR::removeCorner( const TOOL_EVENT& aEvent ) { if( !m_editPoints || !m_editedPoint ) return 0; LIB_POLYLINE* polyLine = dynamic_cast( m_editPoints->GetParent() ); if( !polyLine || polyLine->GetCornerCount() < 3 ) return 0; polyLine->RemoveCorner( getEditedPointIndex() ); updateView( polyLine ); updatePoints(); return 0; } int EE_POINT_EDITOR::modifiedSelection( const TOOL_EVENT& aEvent ) { updatePoints(); return 0; } void EE_POINT_EDITOR::saveItemsToUndo() { if( m_isLibEdit ) { saveCopyInUndoList( m_editPoints->GetParent()->GetParent(), UNDO_REDO::LIBEDIT ); } else { saveCopyInUndoList( (SCH_ITEM*) m_editPoints->GetParent(), UNDO_REDO::CHANGED ); if( m_editPoints->GetParent()->Type() == SCH_LINE_T ) { EDA_ITEM* connection = m_editPoints->Point( LINE_START ).GetConnection(); if( connection ) saveCopyInUndoList( (SCH_ITEM*) connection, UNDO_REDO::CHANGED, true ); connection = m_editPoints->Point( LINE_END ).GetConnection(); if( connection ) saveCopyInUndoList( (SCH_ITEM*) connection, UNDO_REDO::CHANGED, true ); } } } void EE_POINT_EDITOR::rollbackFromUndo() { if( m_isLibEdit ) static_cast( m_frame )->RollbackPartFromUndo(); else static_cast( m_frame )->RollbackSchematicFromUndo(); } void EE_POINT_EDITOR::setTransitions() { Go( &EE_POINT_EDITOR::Main, EVENTS::SelectedEvent ); Go( &EE_POINT_EDITOR::Main, ACTIONS::activatePointEditor.MakeEvent() ); Go( &EE_POINT_EDITOR::addCorner, EE_ACTIONS::pointEditorAddCorner.MakeEvent() ); Go( &EE_POINT_EDITOR::removeCorner, EE_ACTIONS::pointEditorRemoveCorner.MakeEvent() ); Go( &EE_POINT_EDITOR::modifiedSelection, EVENTS::SelectedItemsModified ); }