diff --git a/libs/ui/tool/kis_selection_tool_helper.cpp b/libs/ui/tool/kis_selection_tool_helper.cpp index 8a80fb24d2..5cac907762 100644 --- a/libs/ui/tool/kis_selection_tool_helper.cpp +++ b/libs/ui/tool/kis_selection_tool_helper.cpp @@ -1,367 +1,370 @@ /* * Copyright (c) 2007 Sven Langkamp * * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "kis_selection_tool_helper.h" #include #include #include #include #include "kis_pixel_selection.h" #include "kis_shape_selection.h" #include "kis_image.h" #include "canvas/kis_canvas2.h" #include "KisViewManager.h" #include "kis_selection_manager.h" #include "kis_transaction.h" #include "commands/kis_selection_commands.h" #include "kis_shape_controller.h" #include #include "kis_processing_applicator.h" #include "commands_new/kis_transaction_based_command.h" #include "kis_gui_context_command.h" #include "kis_command_utils.h" #include "commands/kis_deselect_global_selection_command.h" #include "kis_algebra_2d.h" #include "kis_config.h" #include "kis_action_manager.h" #include "kis_action.h" #include KisSelectionToolHelper::KisSelectionToolHelper(KisCanvas2* canvas, const KUndo2MagicString& name) : m_canvas(canvas) , m_name(name) { m_image = m_canvas->viewManager()->image(); } KisSelectionToolHelper::~KisSelectionToolHelper() { } struct LazyInitGlobalSelection : public KisTransactionBasedCommand { LazyInitGlobalSelection(KisView *view) : m_view(view) {} KisView *m_view; KUndo2Command* paint() override { return !m_view->selection() ? new KisSetEmptyGlobalSelectionCommand(m_view->image()) : 0; } }; void KisSelectionToolHelper::selectPixelSelection(KisPixelSelectionSP selection, SelectionAction action) { KisView* view = m_canvas->imageView(); if (selection->selectedExactRect().isEmpty()) { m_canvas->viewManager()->selectionManager()->deselect(); return; } KisProcessingApplicator applicator(view->image(), 0 /* we need no automatic updates */, KisProcessingApplicator::SUPPORTS_WRAPAROUND_MODE, KisImageSignalVector() << ModifiedSignal, m_name); applicator.applyCommand(new LazyInitGlobalSelection(view)); struct ApplyToPixelSelection : public KisTransactionBasedCommand { ApplyToPixelSelection(KisView *view, KisPixelSelectionSP selection, SelectionAction action) : m_view(view), m_selection(selection), m_action(action) {} KisView *m_view; KisPixelSelectionSP m_selection; SelectionAction m_action; KUndo2Command* paint() override { KisSelectionSP selection = m_view->selection(); KIS_SAFE_ASSERT_RECOVER(selection) { return 0; } KisPixelSelectionSP pixelSelection = selection->pixelSelection(); KIS_SAFE_ASSERT_RECOVER(pixelSelection) { return 0; } bool hasSelection = !pixelSelection->isEmpty(); KisSelectionTransaction transaction(pixelSelection); if (!hasSelection && m_action == SELECTION_SYMMETRICDIFFERENCE) { m_action = SELECTION_REPLACE; } if (!hasSelection && m_action == SELECTION_SUBTRACT) { pixelSelection->invert(); } pixelSelection->applySelection(m_selection, m_action); QRect dirtyRect = m_view->image()->bounds(); if (hasSelection && m_action != SELECTION_REPLACE && m_action != SELECTION_INTERSECT && m_action != SELECTION_SYMMETRICDIFFERENCE) { dirtyRect = m_selection->selectedRect(); } m_view->selection()->updateProjection(dirtyRect); KUndo2Command *savedCommand = transaction.endAndTake(); pixelSelection->setDirty(dirtyRect); if (m_view->selection()->selectedExactRect().isEmpty()) { KisCommandUtils::CompositeCommand *cmd = new KisCommandUtils::CompositeCommand(); cmd->addCommand(savedCommand); cmd->addCommand(new KisDeselectGlobalSelectionCommand(m_view->image())); savedCommand = cmd; } return savedCommand; } }; applicator.applyCommand(new ApplyToPixelSelection(view, selection, action)); applicator.end(); } void KisSelectionToolHelper::addSelectionShape(KoShape* shape, SelectionAction action) { QList shapes; shapes.append(shape); addSelectionShapes(shapes, action); } void KisSelectionToolHelper::addSelectionShapes(QList< KoShape* > shapes, SelectionAction action) { KisView *view = m_canvas->imageView(); if (view->image()->wrapAroundModePermitted()) { view->showFloatingMessage( i18n("Shape selection does not fully " "support wraparound mode. Please " "use pixel selection instead"), KisIconUtils::loadIcon("selection-info")); } KisProcessingApplicator applicator(view->image(), 0 /* we need no automatic updates */, KisProcessingApplicator::NONE, KisImageSignalVector() << ModifiedSignal, m_name); applicator.applyCommand(new LazyInitGlobalSelection(view)); struct ClearPixelSelection : public KisTransactionBasedCommand { ClearPixelSelection(KisView *view) : m_view(view) {} KisView *m_view; KUndo2Command* paint() override { KisPixelSelectionSP pixelSelection = m_view->selection()->pixelSelection(); KIS_ASSERT_RECOVER(pixelSelection) { return 0; } KisSelectionTransaction transaction(pixelSelection); pixelSelection->clear(); return transaction.endAndTake(); } }; if (action == SELECTION_REPLACE || action == SELECTION_DEFAULT) { applicator.applyCommand(new ClearPixelSelection(view)); } struct AddSelectionShape : public KisTransactionBasedCommand { AddSelectionShape(KisView *view, KoShape* shape, SelectionAction action) : m_view(view), m_shape(shape), m_action(action) {} KisView *m_view; KoShape* m_shape; SelectionAction m_action; KUndo2Command* paint() override { KUndo2Command *resultCommand = 0; KisSelectionSP selection = m_view->selection(); if (selection) { KisShapeSelection * shapeSelection = static_cast(selection->shapeSelection()); if (shapeSelection) { QList existingShapes = shapeSelection->shapes(); if (existingShapes.size() == 1) { KoShape *currentShape = existingShapes.first(); QPainterPath path1 = currentShape->absoluteTransformation(0).map(currentShape->outline()); QPainterPath path2 = m_shape->absoluteTransformation(0).map(m_shape->outline()); QPainterPath path = path2; switch (m_action) { case SELECTION_DEFAULT: case SELECTION_REPLACE: path = path2; break; case SELECTION_INTERSECT: path = path1 & path2; break; case SELECTION_ADD: path = path1 | path2; break; case SELECTION_SUBTRACT: path = path1 - path2; break; case SELECTION_SYMMETRICDIFFERENCE: path = (path1 | path2) - (path1 & path2); break; } KoShape *newShape = KoPathShape::createShapeFromPainterPath(path); newShape->setUserData(new KisShapeSelectionMarker); KUndo2Command *parentCommand = new KUndo2Command(); m_view->canvasBase()->shapeController()->removeShape(currentShape, parentCommand); m_view->canvasBase()->shapeController()->addShape(newShape, 0, parentCommand); resultCommand = parentCommand; } } } if (!resultCommand) { /** * Mark a shape that it belongs to a shape selection */ if(!m_shape->userData()) { m_shape->setUserData(new KisShapeSelectionMarker); } resultCommand = m_view->canvasBase()->shapeController()->addShape(m_shape, 0); } return resultCommand; } }; Q_FOREACH (KoShape* shape, shapes) { applicator.applyCommand( new KisGuiContextCommand(new AddSelectionShape(view, shape, action), view)); } applicator.end(); } bool KisSelectionToolHelper::canShortcutToDeselect(const QRect &rect, SelectionAction action) { return rect.isEmpty() && (action == SELECTION_INTERSECT || action == SELECTION_REPLACE); } bool KisSelectionToolHelper::canShortcutToNoop(const QRect &rect, SelectionAction action) { return rect.isEmpty() && action == SELECTION_ADD; } bool KisSelectionToolHelper::tryDeselectCurrentSelection(const QRectF selectionViewRect, SelectionAction action) { bool result = false; if (KisAlgebra2D::maxDimension(selectionViewRect) < KisConfig(true).selectionViewSizeMinimum() && (action == SELECTION_INTERSECT || action == SELECTION_SYMMETRICDIFFERENCE || action == SELECTION_REPLACE)) { // Queueing this action to ensure we avoid a race condition when unlocking the node system QTimer::singleShot(0, m_canvas->viewManager()->selectionManager(), SLOT(deselect())); result = true; } return result; } QMenu* KisSelectionToolHelper::getSelectionContextMenu(KisCanvas2* canvas) { QMenu *m_contextMenu = new QMenu(); KActionCollection *actionCollection = canvas->viewManager()->actionCollection(); + m_contextMenu->addSection(i18n("Selection Actions")); + m_contextMenu->addSeparator(); + m_contextMenu->addAction(actionCollection->action("deselect")); m_contextMenu->addAction(actionCollection->action("invert")); m_contextMenu->addAction(actionCollection->action("select_all")); m_contextMenu->addSeparator(); m_contextMenu->addAction(actionCollection->action("cut_selection_to_new_layer")); m_contextMenu->addAction(actionCollection->action("copy_selection_to_new_layer")); m_contextMenu->addSeparator(); KisSelectionSP selection = canvas->viewManager()->selection(); if (selection && canvas->viewManager()->selectionEditable()) { m_contextMenu->addAction(actionCollection->action("edit_selection")); if (!selection->hasShapeSelection()) { m_contextMenu->addAction(actionCollection->action("convert_to_vector_selection")); } else { m_contextMenu->addAction(actionCollection->action("convert_to_raster_selection")); } QMenu *transformMenu = m_contextMenu->addMenu(i18n("Transform")); transformMenu->addAction(actionCollection->action("KisToolTransform")); transformMenu->addAction(actionCollection->action("selectionscale")); transformMenu->addAction(actionCollection->action("growselection")); transformMenu->addAction(actionCollection->action("shrinkselection")); transformMenu->addAction(actionCollection->action("borderselection")); transformMenu->addAction(actionCollection->action("smoothselection")); transformMenu->addAction(actionCollection->action("featherselection")); transformMenu->addAction(actionCollection->action("stroke_selection")); m_contextMenu->addSeparator(); } m_contextMenu->addAction(actionCollection->action("resizeimagetoselection")); m_contextMenu->addSeparator(); m_contextMenu->addAction(actionCollection->action("toggle_display_selection")); m_contextMenu->addAction(actionCollection->action("show-global-selection-mask")); return m_contextMenu; } SelectionMode KisSelectionToolHelper::tryOverrideSelectionMode(KisSelectionSP activeSelection, SelectionMode currentMode, SelectionAction currentAction) const { if (currentAction != SELECTION_DEFAULT && currentAction != SELECTION_REPLACE) { if (activeSelection) { currentMode = activeSelection->hasShapeSelection() ? SHAPE_PROTECTION : PIXEL_SELECTION; } } return currentMode; } diff --git a/plugins/tools/defaulttool/defaulttool/DefaultTool.cpp b/plugins/tools/defaulttool/defaulttool/DefaultTool.cpp index cbb8291612..afaae866e1 100644 --- a/plugins/tools/defaulttool/defaulttool/DefaultTool.cpp +++ b/plugins/tools/defaulttool/defaulttool/DefaultTool.cpp @@ -1,1731 +1,1735 @@ /* This file is part of the KDE project Copyright (C) 2006-2008 Thorsten Zachmann Copyright (C) 2006-2010 Thomas Zander Copyright (C) 2008-2009 Jan Hambrecht Copyright (C) 2008 C. Boemann This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "DefaultTool.h" #include "DefaultToolGeometryWidget.h" #include "DefaultToolTabbedWidget.h" #include "SelectionDecorator.h" #include "ShapeMoveStrategy.h" #include "ShapeRotateStrategy.h" #include "ShapeShearStrategy.h" #include "ShapeResizeStrategy.h" #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 "kis_action_registry.h" #include "kis_node.h" #include "kis_node_manager.h" #include "KisViewManager.h" #include "kis_canvas2.h" #include "kis_canvas_resource_provider.h" #include #include "kis_document_aware_spin_box_unit_manager.h" #include #include #include #include #include #include #include #include #include #include #include "kis_assert.h" #include "kis_global.h" #include "kis_debug.h" #include #define HANDLE_DISTANCE 10 #define HANDLE_DISTANCE_SQ (HANDLE_DISTANCE * HANDLE_DISTANCE) #define INNER_HANDLE_DISTANCE_SQ 16 namespace { static const QString EditFillGradientFactoryId = "edit_fill_gradient"; static const QString EditStrokeGradientFactoryId = "edit_stroke_gradient"; enum TransformActionType { TransformRotate90CW, TransformRotate90CCW, TransformRotate180, TransformMirrorX, TransformMirrorY, TransformReset }; enum BooleanOp { BooleanUnion, BooleanIntersection, BooleanSubtraction }; } class NopInteractionStrategy : public KoInteractionStrategy { public: explicit NopInteractionStrategy(KoToolBase *parent) : KoInteractionStrategy(parent) { } KUndo2Command *createCommand() override { return 0; } void handleMouseMove(const QPointF & /*mouseLocation*/, Qt::KeyboardModifiers /*modifiers*/) override {} void finishInteraction(Qt::KeyboardModifiers /*modifiers*/) override {} void paint(QPainter &painter, const KoViewConverter &converter) override { Q_UNUSED(painter); Q_UNUSED(converter); } }; class SelectionInteractionStrategy : public KoShapeRubberSelectStrategy { public: explicit SelectionInteractionStrategy(KoToolBase *parent, const QPointF &clicked, bool useSnapToGrid) : KoShapeRubberSelectStrategy(parent, clicked, useSnapToGrid) { } void paint(QPainter &painter, const KoViewConverter &converter) override { KoShapeRubberSelectStrategy::paint(painter, converter); } void finishInteraction(Qt::KeyboardModifiers modifiers = 0) override { Q_UNUSED(modifiers); DefaultTool *defaultTool = dynamic_cast(tool()); KIS_SAFE_ASSERT_RECOVER_RETURN(defaultTool); KoSelection * selection = defaultTool->koSelection(); const bool useContainedMode = currentMode() == CoveringSelection; QList shapes = defaultTool->shapeManager()-> shapesAt(selectedRectangle(), true, useContainedMode); Q_FOREACH (KoShape * shape, shapes) { if (!shape->isSelectable()) continue; selection->select(shape); } defaultTool->repaintDecorations(); defaultTool->canvas()->updateCanvas(selectedRectangle()); } }; #include #include "KoShapeGradientHandles.h" #include "ShapeGradientEditStrategy.h" class DefaultTool::MoveGradientHandleInteractionFactory : public KoInteractionStrategyFactory { public: MoveGradientHandleInteractionFactory(KoFlake::FillVariant fillVariant, int priority, const QString &id, DefaultTool *_q) : KoInteractionStrategyFactory(priority, id), q(_q), m_fillVariant(fillVariant) { } KoInteractionStrategy* createStrategy(KoPointerEvent *ev) override { m_currentHandle = handleAt(ev->point); if (m_currentHandle.type != KoShapeGradientHandles::Handle::None) { KoShape *shape = onlyEditableShape(); KIS_SAFE_ASSERT_RECOVER_RETURN_VALUE(shape, 0); return new ShapeGradientEditStrategy(q, m_fillVariant, shape, m_currentHandle.type, ev->point); } return 0; } bool hoverEvent(KoPointerEvent *ev) override { m_currentHandle = handleAt(ev->point); return false; } bool paintOnHover(QPainter &painter, const KoViewConverter &converter) override { Q_UNUSED(painter); Q_UNUSED(converter); return false; } bool tryUseCustomCursor() override { if (m_currentHandle.type != KoShapeGradientHandles::Handle::None) { q->useCursor(Qt::OpenHandCursor); } return m_currentHandle.type != KoShapeGradientHandles::Handle::None; } private: KoShape* onlyEditableShape() const { KoSelection *selection = q->koSelection(); QList shapes = selection->selectedEditableShapes(); KoShape *shape = 0; if (shapes.size() == 1) { shape = shapes.first(); } return shape; } KoShapeGradientHandles::Handle handleAt(const QPointF &pos) { KoShapeGradientHandles::Handle result; KoShape *shape = onlyEditableShape(); if (shape) { KoFlake::SelectionHandle globalHandle = q->handleAt(pos); const qreal distanceThresholdSq = globalHandle == KoFlake::NoHandle ? HANDLE_DISTANCE_SQ : 0.25 * HANDLE_DISTANCE_SQ; const KoViewConverter *converter = q->canvas()->viewConverter(); const QPointF viewPoint = converter->documentToView(pos); qreal minDistanceSq = std::numeric_limits::max(); KoShapeGradientHandles sh(m_fillVariant, shape); Q_FOREACH (const KoShapeGradientHandles::Handle &handle, sh.handles()) { const QPointF handlePoint = converter->documentToView(handle.pos); const qreal distanceSq = kisSquareDistance(viewPoint, handlePoint); if (distanceSq < distanceThresholdSq && distanceSq < minDistanceSq) { result = handle; minDistanceSq = distanceSq; } } } return result; } private: DefaultTool *q; KoFlake::FillVariant m_fillVariant; KoShapeGradientHandles::Handle m_currentHandle; }; class SelectionHandler : public KoToolSelection { public: SelectionHandler(DefaultTool *parent) : KoToolSelection(parent) , m_selection(parent->koSelection()) { } bool hasSelection() override { if (m_selection) { return m_selection->count(); } return false; } private: QPointer m_selection; }; DefaultTool::DefaultTool(KoCanvasBase *canvas, bool connectToSelectedShapesProxy) : KoInteractionTool(canvas) , m_lastHandle(KoFlake::NoHandle) , m_hotPosition(KoFlake::TopLeft) , m_mouseWasInsideHandles(false) , m_decorator(0) , m_selectionHandler(new SelectionHandler(this)) , m_tabbedOptionWidget(0) { setupActions(); QPixmap rotatePixmap, shearPixmap; rotatePixmap.load(":/cursor_rotate.png"); Q_ASSERT(!rotatePixmap.isNull()); shearPixmap.load(":/cursor_shear.png"); Q_ASSERT(!shearPixmap.isNull()); m_rotateCursors[0] = QCursor(rotatePixmap.transformed(QTransform().rotate(45))); m_rotateCursors[1] = QCursor(rotatePixmap.transformed(QTransform().rotate(90))); m_rotateCursors[2] = QCursor(rotatePixmap.transformed(QTransform().rotate(135))); m_rotateCursors[3] = QCursor(rotatePixmap.transformed(QTransform().rotate(180))); m_rotateCursors[4] = QCursor(rotatePixmap.transformed(QTransform().rotate(225))); m_rotateCursors[5] = QCursor(rotatePixmap.transformed(QTransform().rotate(270))); m_rotateCursors[6] = QCursor(rotatePixmap.transformed(QTransform().rotate(315))); m_rotateCursors[7] = QCursor(rotatePixmap); /* m_rotateCursors[0] = QCursor(Qt::RotateNCursor); m_rotateCursors[1] = QCursor(Qt::RotateNECursor); m_rotateCursors[2] = QCursor(Qt::RotateECursor); m_rotateCursors[3] = QCursor(Qt::RotateSECursor); m_rotateCursors[4] = QCursor(Qt::RotateSCursor); m_rotateCursors[5] = QCursor(Qt::RotateSWCursor); m_rotateCursors[6] = QCursor(Qt::RotateWCursor); m_rotateCursors[7] = QCursor(Qt::RotateNWCursor); */ m_shearCursors[0] = QCursor(shearPixmap); m_shearCursors[1] = QCursor(shearPixmap.transformed(QTransform().rotate(45))); m_shearCursors[2] = QCursor(shearPixmap.transformed(QTransform().rotate(90))); m_shearCursors[3] = QCursor(shearPixmap.transformed(QTransform().rotate(135))); m_shearCursors[4] = QCursor(shearPixmap.transformed(QTransform().rotate(180))); m_shearCursors[5] = QCursor(shearPixmap.transformed(QTransform().rotate(225))); m_shearCursors[6] = QCursor(shearPixmap.transformed(QTransform().rotate(270))); m_shearCursors[7] = QCursor(shearPixmap.transformed(QTransform().rotate(315))); m_sizeCursors[0] = Qt::SizeVerCursor; m_sizeCursors[1] = Qt::SizeBDiagCursor; m_sizeCursors[2] = Qt::SizeHorCursor; m_sizeCursors[3] = Qt::SizeFDiagCursor; m_sizeCursors[4] = Qt::SizeVerCursor; m_sizeCursors[5] = Qt::SizeBDiagCursor; m_sizeCursors[6] = Qt::SizeHorCursor; m_sizeCursors[7] = Qt::SizeFDiagCursor; if (connectToSelectedShapesProxy) { connect(canvas->selectedShapesProxy(), SIGNAL(selectionChanged()), this, SLOT(updateActions())); } } DefaultTool::~DefaultTool() { } void DefaultTool::slotActivateEditFillGradient(bool value) { if (value) { addInteractionFactory( new MoveGradientHandleInteractionFactory(KoFlake::Fill, 1, EditFillGradientFactoryId, this)); } else { removeInteractionFactory(EditFillGradientFactoryId); } repaintDecorations(); } void DefaultTool::slotActivateEditStrokeGradient(bool value) { if (value) { addInteractionFactory( new MoveGradientHandleInteractionFactory(KoFlake::StrokeFill, 0, EditStrokeGradientFactoryId, this)); } else { removeInteractionFactory(EditStrokeGradientFactoryId); } repaintDecorations(); } bool DefaultTool::wantsAutoScroll() const { return true; } void DefaultTool::addMappedAction(QSignalMapper *mapper, const QString &actionId, int commandType) { QAction *a =action(actionId); connect(a, SIGNAL(triggered()), mapper, SLOT(map())); mapper->setMapping(a, commandType); } void DefaultTool::setupActions() { m_alignSignalsMapper = new QSignalMapper(this); addMappedAction(m_alignSignalsMapper, "object_align_horizontal_left", KoShapeAlignCommand::HorizontalLeftAlignment); addMappedAction(m_alignSignalsMapper, "object_align_horizontal_center", KoShapeAlignCommand::HorizontalCenterAlignment); addMappedAction(m_alignSignalsMapper, "object_align_horizontal_right", KoShapeAlignCommand::HorizontalRightAlignment); addMappedAction(m_alignSignalsMapper, "object_align_vertical_top", KoShapeAlignCommand::VerticalTopAlignment); addMappedAction(m_alignSignalsMapper, "object_align_vertical_center", KoShapeAlignCommand::VerticalCenterAlignment); addMappedAction(m_alignSignalsMapper, "object_align_vertical_bottom", KoShapeAlignCommand::VerticalBottomAlignment); m_distributeSignalsMapper = new QSignalMapper(this); addMappedAction(m_distributeSignalsMapper, "object_distribute_horizontal_left", KoShapeDistributeCommand::HorizontalLeftDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_horizontal_center", KoShapeDistributeCommand::HorizontalCenterDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_horizontal_right", KoShapeDistributeCommand::HorizontalRightDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_horizontal_gaps", KoShapeDistributeCommand::HorizontalGapsDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_vertical_top", KoShapeDistributeCommand::VerticalTopDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_vertical_center", KoShapeDistributeCommand::VerticalCenterDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_vertical_bottom", KoShapeDistributeCommand::VerticalBottomDistribution); addMappedAction(m_distributeSignalsMapper, "object_distribute_vertical_gaps", KoShapeDistributeCommand::VerticalGapsDistribution); m_transformSignalsMapper = new QSignalMapper(this); addMappedAction(m_transformSignalsMapper, "object_transform_rotate_90_cw", TransformRotate90CW); addMappedAction(m_transformSignalsMapper, "object_transform_rotate_90_ccw", TransformRotate90CCW); addMappedAction(m_transformSignalsMapper, "object_transform_rotate_180", TransformRotate180); addMappedAction(m_transformSignalsMapper, "object_transform_mirror_horizontally", TransformMirrorX); addMappedAction(m_transformSignalsMapper, "object_transform_mirror_vertically", TransformMirrorY); addMappedAction(m_transformSignalsMapper, "object_transform_reset", TransformReset); m_booleanSignalsMapper = new QSignalMapper(this); addMappedAction(m_booleanSignalsMapper, "object_unite", BooleanUnion); addMappedAction(m_booleanSignalsMapper, "object_intersect", BooleanIntersection); addMappedAction(m_booleanSignalsMapper, "object_subtract", BooleanSubtraction); m_contextMenu.reset(new QMenu()); } qreal DefaultTool::rotationOfHandle(KoFlake::SelectionHandle handle, bool useEdgeRotation) { QPointF selectionCenter = koSelection()->absolutePosition(); QPointF direction; switch (handle) { case KoFlake::TopMiddleHandle: if (useEdgeRotation) { direction = koSelection()->absolutePosition(KoFlake::TopRight) - koSelection()->absolutePosition(KoFlake::TopLeft); } else { QPointF handlePosition = koSelection()->absolutePosition(KoFlake::TopLeft); handlePosition += 0.5 * (koSelection()->absolutePosition(KoFlake::TopRight) - handlePosition); direction = handlePosition - selectionCenter; } break; case KoFlake::TopRightHandle: direction = (QVector2D(koSelection()->absolutePosition(KoFlake::TopRight) - koSelection()->absolutePosition(KoFlake::TopLeft)).normalized() + QVector2D(koSelection()->absolutePosition(KoFlake::TopRight) - koSelection()->absolutePosition(KoFlake::BottomRight)).normalized()).toPointF(); break; case KoFlake::RightMiddleHandle: if (useEdgeRotation) { direction = koSelection()->absolutePosition(KoFlake::BottomRight) - koSelection()->absolutePosition(KoFlake::TopRight); } else { QPointF handlePosition = koSelection()->absolutePosition(KoFlake::TopRight); handlePosition += 0.5 * (koSelection()->absolutePosition(KoFlake::BottomRight) - handlePosition); direction = handlePosition - selectionCenter; } break; case KoFlake::BottomRightHandle: direction = (QVector2D(koSelection()->absolutePosition(KoFlake::BottomRight) - koSelection()->absolutePosition(KoFlake::BottomLeft)).normalized() + QVector2D(koSelection()->absolutePosition(KoFlake::BottomRight) - koSelection()->absolutePosition(KoFlake::TopRight)).normalized()).toPointF(); break; case KoFlake::BottomMiddleHandle: if (useEdgeRotation) { direction = koSelection()->absolutePosition(KoFlake::BottomLeft) - koSelection()->absolutePosition(KoFlake::BottomRight); } else { QPointF handlePosition = koSelection()->absolutePosition(KoFlake::BottomLeft); handlePosition += 0.5 * (koSelection()->absolutePosition(KoFlake::BottomRight) - handlePosition); direction = handlePosition - selectionCenter; } break; case KoFlake::BottomLeftHandle: direction = koSelection()->absolutePosition(KoFlake::BottomLeft) - selectionCenter; direction = (QVector2D(koSelection()->absolutePosition(KoFlake::BottomLeft) - koSelection()->absolutePosition(KoFlake::BottomRight)).normalized() + QVector2D(koSelection()->absolutePosition(KoFlake::BottomLeft) - koSelection()->absolutePosition(KoFlake::TopLeft)).normalized()).toPointF(); break; case KoFlake::LeftMiddleHandle: if (useEdgeRotation) { direction = koSelection()->absolutePosition(KoFlake::TopLeft) - koSelection()->absolutePosition(KoFlake::BottomLeft); } else { QPointF handlePosition = koSelection()->absolutePosition(KoFlake::TopLeft); handlePosition += 0.5 * (koSelection()->absolutePosition(KoFlake::BottomLeft) - handlePosition); direction = handlePosition - selectionCenter; } break; case KoFlake::TopLeftHandle: direction = koSelection()->absolutePosition(KoFlake::TopLeft) - selectionCenter; direction = (QVector2D(koSelection()->absolutePosition(KoFlake::TopLeft) - koSelection()->absolutePosition(KoFlake::TopRight)).normalized() + QVector2D(koSelection()->absolutePosition(KoFlake::TopLeft) - koSelection()->absolutePosition(KoFlake::BottomLeft)).normalized()).toPointF(); break; case KoFlake::NoHandle: return 0.0; break; } qreal rotation = atan2(direction.y(), direction.x()) * 180.0 / M_PI; switch (handle) { case KoFlake::TopMiddleHandle: if (useEdgeRotation) { rotation -= 0.0; } else { rotation -= 270.0; } break; case KoFlake::TopRightHandle: rotation -= 315.0; break; case KoFlake::RightMiddleHandle: if (useEdgeRotation) { rotation -= 90.0; } else { rotation -= 0.0; } break; case KoFlake::BottomRightHandle: rotation -= 45.0; break; case KoFlake::BottomMiddleHandle: if (useEdgeRotation) { rotation -= 180.0; } else { rotation -= 90.0; } break; case KoFlake::BottomLeftHandle: rotation -= 135.0; break; case KoFlake::LeftMiddleHandle: if (useEdgeRotation) { rotation -= 270.0; } else { rotation -= 180.0; } break; case KoFlake::TopLeftHandle: rotation -= 225.0; break; case KoFlake::NoHandle: break; } if (rotation < 0.0) { rotation += 360.0; } return rotation; } void DefaultTool::updateCursor() { if (tryUseCustomCursor()) return; QCursor cursor = Qt::ArrowCursor; QString statusText; KoSelection *selection = koSelection(); if (selection && selection->count() > 0) { // has a selection bool editable = !selection->selectedEditableShapes().isEmpty(); if (!m_mouseWasInsideHandles) { m_angle = rotationOfHandle(m_lastHandle, true); int rotOctant = 8 + int(8.5 + m_angle / 45); bool rotateHandle = false; bool shearHandle = false; switch (m_lastHandle) { case KoFlake::TopMiddleHandle: cursor = m_shearCursors[(0 + rotOctant) % 8]; shearHandle = true; break; case KoFlake::TopRightHandle: cursor = m_rotateCursors[(1 + rotOctant) % 8]; rotateHandle = true; break; case KoFlake::RightMiddleHandle: cursor = m_shearCursors[(2 + rotOctant) % 8]; shearHandle = true; break; case KoFlake::BottomRightHandle: cursor = m_rotateCursors[(3 + rotOctant) % 8]; rotateHandle = true; break; case KoFlake::BottomMiddleHandle: cursor = m_shearCursors[(4 + rotOctant) % 8]; shearHandle = true; break; case KoFlake::BottomLeftHandle: cursor = m_rotateCursors[(5 + rotOctant) % 8]; rotateHandle = true; break; case KoFlake::LeftMiddleHandle: cursor = m_shearCursors[(6 + rotOctant) % 8]; shearHandle = true; break; case KoFlake::TopLeftHandle: cursor = m_rotateCursors[(7 + rotOctant) % 8]; rotateHandle = true; break; case KoFlake::NoHandle: cursor = Qt::ArrowCursor; break; } if (rotateHandle) { statusText = i18n("Left click rotates around center, right click around highlighted position."); } if (shearHandle) { statusText = i18n("Click and drag to shear selection."); } } else { statusText = i18n("Click and drag to resize selection."); m_angle = rotationOfHandle(m_lastHandle, false); int rotOctant = 8 + int(8.5 + m_angle / 45); bool cornerHandle = false; switch (m_lastHandle) { case KoFlake::TopMiddleHandle: cursor = m_sizeCursors[(0 + rotOctant) % 8]; break; case KoFlake::TopRightHandle: cursor = m_sizeCursors[(1 + rotOctant) % 8]; cornerHandle = true; break; case KoFlake::RightMiddleHandle: cursor = m_sizeCursors[(2 + rotOctant) % 8]; break; case KoFlake::BottomRightHandle: cursor = m_sizeCursors[(3 + rotOctant) % 8]; cornerHandle = true; break; case KoFlake::BottomMiddleHandle: cursor = m_sizeCursors[(4 + rotOctant) % 8]; break; case KoFlake::BottomLeftHandle: cursor = m_sizeCursors[(5 + rotOctant) % 8]; cornerHandle = true; break; case KoFlake::LeftMiddleHandle: cursor = m_sizeCursors[(6 + rotOctant) % 8]; break; case KoFlake::TopLeftHandle: cursor = m_sizeCursors[(7 + rotOctant) % 8]; cornerHandle = true; break; case KoFlake::NoHandle: cursor = Qt::SizeAllCursor; statusText = i18n("Click and drag to move selection."); break; } if (cornerHandle) { statusText = i18n("Click and drag to resize selection. Middle click to set highlighted position."); } } if (!editable) { cursor = Qt::ArrowCursor; } } else { // there used to be guides... :'''( } useCursor(cursor); if (currentStrategy() == 0) { emit statusTextChanged(statusText); } } void DefaultTool::paint(QPainter &painter, const KoViewConverter &converter) { KoSelection *selection = koSelection(); if (selection) { this->m_decorator = new SelectionDecorator(canvas()->resourceManager()); { /** * Selection masks don't render the outline of the shapes, so we should * do that explicitly when rendering them via selection */ KisCanvas2 *kisCanvas = static_cast(canvas()); KisNodeSP node = kisCanvas->viewManager()->nodeManager()->activeNode(); const bool isSelectionMask = node && node->inherits("KisSelectionMask"); m_decorator->setForceShapeOutlines(isSelectionMask); } m_decorator->setSelection(selection); m_decorator->setHandleRadius(handleRadius()); m_decorator->setShowFillGradientHandles(hasInteractioFactory(EditFillGradientFactoryId)); m_decorator->setShowStrokeFillGradientHandles(hasInteractioFactory(EditStrokeGradientFactoryId)); m_decorator->paint(painter, converter); } KoInteractionTool::paint(painter, converter); painter.save(); KoShape::applyConversion(painter, converter); canvas()->snapGuide()->paint(painter, converter); painter.restore(); } bool DefaultTool::isValidForCurrentLayer() const { // if the currently active node has a shape manager, then it is // probably our client :) KisCanvas2 *kisCanvas = static_cast(canvas()); return bool(kisCanvas->localShapeManager()); } KoShapeManager *DefaultTool::shapeManager() const { return canvas()->shapeManager(); } void DefaultTool::mousePressEvent(KoPointerEvent *event) { // this tool only works on a vector layer right now, so give a warning if another layer type is trying to use it if (!isValidForCurrentLayer()) { KisCanvas2 *kiscanvas = static_cast(canvas()); kiscanvas->viewManager()->showFloatingMessage( i18n("This tool only works on vector layers. You probably want the move tool."), QIcon(), 2000, KisFloatingMessage::Medium, Qt::AlignCenter); return; } KoInteractionTool::mousePressEvent(event); updateCursor(); } void DefaultTool::mouseMoveEvent(KoPointerEvent *event) { KoInteractionTool::mouseMoveEvent(event); if (currentStrategy() == 0 && koSelection() && koSelection()->count() > 0) { QRectF bound = handlesSize(); if (bound.contains(event->point)) { bool inside; KoFlake::SelectionHandle newDirection = handleAt(event->point, &inside); if (inside != m_mouseWasInsideHandles || m_lastHandle != newDirection) { m_lastHandle = newDirection; m_mouseWasInsideHandles = inside; //repaintDecorations(); } } else { /*if (m_lastHandle != KoFlake::NoHandle) repaintDecorations(); */ m_lastHandle = KoFlake::NoHandle; m_mouseWasInsideHandles = false; // there used to be guides... :'''( } } else { // there used to be guides... :'''( } updateCursor(); } QRectF DefaultTool::handlesSize() { KoSelection *selection = koSelection(); if (!selection || !selection->count()) return QRectF(); recalcSelectionBox(selection); QRectF bound = m_selectionOutline.boundingRect(); // expansion Border if (!canvas() || !canvas()->viewConverter()) { return bound; } QPointF border = canvas()->viewConverter()->viewToDocument(QPointF(HANDLE_DISTANCE, HANDLE_DISTANCE)); bound.adjust(-border.x(), -border.y(), border.x(), border.y()); return bound; } void DefaultTool::mouseReleaseEvent(KoPointerEvent *event) { KoInteractionTool::mouseReleaseEvent(event); updateCursor(); // This makes sure the decorations that are shown are refreshed. especally the "T" icon canvas()->updateCanvas(QRectF(0,0,canvas()->canvasWidget()->width(), canvas()->canvasWidget()->height())); } void DefaultTool::mouseDoubleClickEvent(KoPointerEvent *event) { KoSelection *selection = koSelection(); KoShape *shape = shapeManager()->shapeAt(event->point, KoFlake::ShapeOnTop); if (shape && selection && !selection->isSelected(shape)) { if (!(event->modifiers() & Qt::ShiftModifier)) { selection->deselectAll(); } selection->select(shape); } explicitUserStrokeEndRequest(); } bool DefaultTool::moveSelection(int direction, Qt::KeyboardModifiers modifiers) { bool result = false; qreal x = 0.0, y = 0.0; if (direction == Qt::Key_Left) { x = -5; } else if (direction == Qt::Key_Right) { x = 5; } else if (direction == Qt::Key_Up) { y = -5; } else if (direction == Qt::Key_Down) { y = 5; } if (x != 0.0 || y != 0.0) { // actually move if ((modifiers & Qt::ShiftModifier) != 0) { x *= 10; y *= 10; } else if ((modifiers & Qt::AltModifier) != 0) { // more precise x /= 5; y /= 5; } QList shapes = koSelection()->selectedEditableShapes(); if (!shapes.isEmpty()) { canvas()->addCommand(new KoShapeMoveCommand(shapes, QPointF(x, y))); result = true; } } return result; } void DefaultTool::keyPressEvent(QKeyEvent *event) { KoInteractionTool::keyPressEvent(event); if (currentStrategy() == 0) { switch (event->key()) { case Qt::Key_Left: case Qt::Key_Right: case Qt::Key_Up: case Qt::Key_Down: if (moveSelection(event->key(), event->modifiers())) { event->accept(); } break; case Qt::Key_1: case Qt::Key_2: case Qt::Key_3: case Qt::Key_4: case Qt::Key_5: canvas()->resourceManager()->setResource(HotPosition, event->key() - Qt::Key_1); event->accept(); break; default: return; } } } void DefaultTool::repaintDecorations() { if (koSelection() && koSelection()->count() > 0) { canvas()->updateCanvas(handlesSize()); } } void DefaultTool::copy() const { // all the selected shapes, not only editable! QList shapes = koSelection()->selectedShapes(); if (!shapes.isEmpty()) { KoDrag drag; drag.setSvg(shapes); drag.addToClipboard(); } } void DefaultTool::deleteSelection() { QList shapes; foreach (KoShape *s, koSelection()->selectedShapes()) { if (s->isGeometryProtected()) { continue; } shapes << s; } if (!shapes.empty()) { canvas()->addCommand(canvas()->shapeController()->removeShapes(shapes)); } } bool DefaultTool::paste() { // we no longer have to do anything as tool Proxy will do it for us return false; } KoSelection *DefaultTool::koSelection() const { Q_ASSERT(canvas()); Q_ASSERT(canvas()->selectedShapesProxy()); return canvas()->selectedShapesProxy()->selection(); } KoFlake::SelectionHandle DefaultTool::handleAt(const QPointF &point, bool *innerHandleMeaning) { // check for handles in this order; meaning that when handles overlap the one on top is chosen static const KoFlake::SelectionHandle handleOrder[] = { KoFlake::BottomRightHandle, KoFlake::TopLeftHandle, KoFlake::BottomLeftHandle, KoFlake::TopRightHandle, KoFlake::BottomMiddleHandle, KoFlake::RightMiddleHandle, KoFlake::LeftMiddleHandle, KoFlake::TopMiddleHandle, KoFlake::NoHandle }; const KoViewConverter *converter = canvas()->viewConverter(); KoSelection *selection = koSelection(); if (!selection || !selection->count() || !converter) { return KoFlake::NoHandle; } recalcSelectionBox(selection); if (innerHandleMeaning) { QPainterPath path; path.addPolygon(m_selectionOutline); *innerHandleMeaning = path.contains(point) || path.intersects(handlePaintRect(point)); } const QPointF viewPoint = converter->documentToView(point); for (int i = 0; i < KoFlake::NoHandle; ++i) { KoFlake::SelectionHandle handle = handleOrder[i]; const QPointF handlePoint = converter->documentToView(m_selectionBox[handle]); const qreal distanceSq = kisSquareDistance(viewPoint, handlePoint); // if just inside the outline if (distanceSq < HANDLE_DISTANCE_SQ) { if (innerHandleMeaning) { if (distanceSq < INNER_HANDLE_DISTANCE_SQ) { *innerHandleMeaning = true; } } return handle; } } return KoFlake::NoHandle; } void DefaultTool::recalcSelectionBox(KoSelection *selection) { KIS_ASSERT_RECOVER_RETURN(selection->count()); QTransform matrix = selection->absoluteTransformation(0); m_selectionOutline = matrix.map(QPolygonF(selection->outlineRect())); m_angle = 0.0; QPolygonF outline = m_selectionOutline; //shorter name in the following :) m_selectionBox[KoFlake::TopMiddleHandle] = (outline.value(0) + outline.value(1)) / 2; m_selectionBox[KoFlake::TopRightHandle] = outline.value(1); m_selectionBox[KoFlake::RightMiddleHandle] = (outline.value(1) + outline.value(2)) / 2; m_selectionBox[KoFlake::BottomRightHandle] = outline.value(2); m_selectionBox[KoFlake::BottomMiddleHandle] = (outline.value(2) + outline.value(3)) / 2; m_selectionBox[KoFlake::BottomLeftHandle] = outline.value(3); m_selectionBox[KoFlake::LeftMiddleHandle] = (outline.value(3) + outline.value(0)) / 2; m_selectionBox[KoFlake::TopLeftHandle] = outline.value(0); if (selection->count() == 1) { #if 0 // TODO detect mirroring KoShape *s = koSelection()->firstSelectedShape(); if (s->scaleX() < 0) { // vertically mirrored: swap left / right std::swap(m_selectionBox[KoFlake::TopLeftHandle], m_selectionBox[KoFlake::TopRightHandle]); std::swap(m_selectionBox[KoFlake::LeftMiddleHandle], m_selectionBox[KoFlake::RightMiddleHandle]); std::swap(m_selectionBox[KoFlake::BottomLeftHandle], m_selectionBox[KoFlake::BottomRightHandle]); } if (s->scaleY() < 0) { // vertically mirrored: swap top / bottom std::swap(m_selectionBox[KoFlake::TopLeftHandle], m_selectionBox[KoFlake::BottomLeftHandle]); std::swap(m_selectionBox[KoFlake::TopMiddleHandle], m_selectionBox[KoFlake::BottomMiddleHandle]); std::swap(m_selectionBox[KoFlake::TopRightHandle], m_selectionBox[KoFlake::BottomRightHandle]); } #endif } } void DefaultTool::activate(ToolActivation activation, const QSet &shapes) { KoToolBase::activate(activation, shapes); QAction *actionBringToFront = action("object_order_front"); connect(actionBringToFront, SIGNAL(triggered()), this, SLOT(selectionBringToFront()), Qt::UniqueConnection); QAction *actionRaise = action("object_order_raise"); connect(actionRaise, SIGNAL(triggered()), this, SLOT(selectionMoveUp()), Qt::UniqueConnection); QAction *actionLower = action("object_order_lower"); connect(actionLower, SIGNAL(triggered()), this, SLOT(selectionMoveDown())); QAction *actionSendToBack = action("object_order_back"); connect(actionSendToBack, SIGNAL(triggered()), this, SLOT(selectionSendToBack()), Qt::UniqueConnection); QAction *actionGroupBottom = action("object_group"); connect(actionGroupBottom, SIGNAL(triggered()), this, SLOT(selectionGroup()), Qt::UniqueConnection); QAction *actionUngroupBottom = action("object_ungroup"); connect(actionUngroupBottom, SIGNAL(triggered()), this, SLOT(selectionUngroup()), Qt::UniqueConnection); QAction *actionSplit = action("object_split"); connect(actionSplit, SIGNAL(triggered()), this, SLOT(selectionSplitShapes()), Qt::UniqueConnection); connect(m_alignSignalsMapper, SIGNAL(mapped(int)), SLOT(selectionAlign(int))); connect(m_distributeSignalsMapper, SIGNAL(mapped(int)), SLOT(selectionDistribute(int))); connect(m_transformSignalsMapper, SIGNAL(mapped(int)), SLOT(selectionTransform(int))); connect(m_booleanSignalsMapper, SIGNAL(mapped(int)), SLOT(selectionBooleanOp(int))); m_mouseWasInsideHandles = false; m_lastHandle = KoFlake::NoHandle; useCursor(Qt::ArrowCursor); repaintDecorations(); updateActions(); if (m_tabbedOptionWidget) { m_tabbedOptionWidget->activate(); } } void DefaultTool::deactivate() { KoToolBase::deactivate(); QAction *actionBringToFront = action("object_order_front"); disconnect(actionBringToFront, 0, this, 0); QAction *actionRaise = action("object_order_raise"); disconnect(actionRaise, 0, this, 0); QAction *actionLower = action("object_order_lower"); disconnect(actionLower, 0, this, 0); QAction *actionSendToBack = action("object_order_back"); disconnect(actionSendToBack, 0, this, 0); QAction *actionGroupBottom = action("object_group"); disconnect(actionGroupBottom, 0, this, 0); QAction *actionUngroupBottom = action("object_ungroup"); disconnect(actionUngroupBottom, 0, this, 0); QAction *actionSplit = action("object_split"); disconnect(actionSplit, 0, this, 0); disconnect(m_alignSignalsMapper, 0, this, 0); disconnect(m_distributeSignalsMapper, 0, this, 0); disconnect(m_transformSignalsMapper, 0, this, 0); disconnect(m_booleanSignalsMapper, 0, this, 0); if (m_tabbedOptionWidget) { m_tabbedOptionWidget->deactivate(); } } void DefaultTool::selectionGroup() { KoSelection *selection = koSelection(); if (!selection) return; QList selectedShapes = selection->selectedEditableShapes(); std::sort(selectedShapes.begin(), selectedShapes.end(), KoShape::compareShapeZIndex); if (selectedShapes.isEmpty()) return; const int groupZIndex = selectedShapes.last()->zIndex(); KoShapeGroup *group = new KoShapeGroup(); group->setZIndex(groupZIndex); // TODO what if only one shape is left? KUndo2Command *cmd = new KUndo2Command(kundo2_i18n("Group shapes")); new KoKeepShapesSelectedCommand(selectedShapes, {}, canvas()->selectedShapesProxy(), false, cmd); canvas()->shapeController()->addShapeDirect(group, 0, cmd); new KoShapeGroupCommand(group, selectedShapes, true, cmd); new KoKeepShapesSelectedCommand({}, {group}, canvas()->selectedShapesProxy(), true, cmd); canvas()->addCommand(cmd); // update selection so we can ungroup immediately again selection->deselectAll(); selection->select(group); } void DefaultTool::selectionUngroup() { KoSelection *selection = koSelection(); if (!selection) return; QList selectedShapes = selection->selectedEditableShapes(); std::sort(selectedShapes.begin(), selectedShapes.end(), KoShape::compareShapeZIndex); KUndo2Command *cmd = 0; QList newShapes; // add a ungroup command for each found shape container to the macro command Q_FOREACH (KoShape *shape, selectedShapes) { KoShapeGroup *group = dynamic_cast(shape); if (group) { if (!cmd) { cmd = new KUndo2Command(kundo2_i18n("Ungroup shapes")); new KoKeepShapesSelectedCommand(selectedShapes, {}, canvas()->selectedShapesProxy(), false, cmd); } newShapes << group->shapes(); new KoShapeUngroupCommand(group, group->shapes(), group->parent() ? QList() : shapeManager()->topLevelShapes(), cmd); canvas()->shapeController()->removeShape(group, cmd); } } if (cmd) { new KoKeepShapesSelectedCommand({}, newShapes, canvas()->selectedShapesProxy(), true, cmd); canvas()->addCommand(cmd); } } void DefaultTool::selectionTransform(int transformAction) { KoSelection *selection = koSelection(); if (!selection) return; QList editableShapes = selection->selectedEditableShapes(); if (editableShapes.isEmpty()) { return; } QTransform applyTransform; bool shouldReset = false; KUndo2MagicString actionName = kundo2_noi18n("BUG: No transform action"); switch (TransformActionType(transformAction)) { case TransformRotate90CW: applyTransform.rotate(90.0); actionName = kundo2_i18n("Rotate Object 90° CW"); break; case TransformRotate90CCW: applyTransform.rotate(-90.0); actionName = kundo2_i18n("Rotate Object 90° CCW"); break; case TransformRotate180: applyTransform.rotate(180.0); actionName = kundo2_i18n("Rotate Object 180°"); break; case TransformMirrorX: applyTransform.scale(-1.0, 1.0); actionName = kundo2_i18n("Mirror Object Horizontally"); break; case TransformMirrorY: applyTransform.scale(1.0, -1.0); actionName = kundo2_i18n("Mirror Object Vertically"); break; case TransformReset: shouldReset = true; actionName = kundo2_i18n("Reset Object Transformations"); break; } if (!shouldReset && applyTransform.isIdentity()) return; QList oldTransforms; QList newTransforms; const QRectF outlineRect = KoShape::absoluteOutlineRect(editableShapes); const QPointF centerPoint = outlineRect.center(); const QTransform centerTrans = QTransform::fromTranslate(centerPoint.x(), centerPoint.y()); const QTransform centerTransInv = QTransform::fromTranslate(-centerPoint.x(), -centerPoint.y()); // we also add selection to the list of transformed shapes, so that its outline is updated correctly QList transformedShapes = editableShapes; transformedShapes << selection; Q_FOREACH (KoShape *shape, transformedShapes) { oldTransforms.append(shape->transformation()); QTransform t; if (!shouldReset) { const QTransform world = shape->absoluteTransformation(0); t = world * centerTransInv * applyTransform * centerTrans * world.inverted() * shape->transformation(); } else { const QPointF center = shape->outlineRect().center(); const QPointF offset = shape->transformation().map(center) - center; t = QTransform::fromTranslate(offset.x(), offset.y()); } newTransforms.append(t); } KoShapeTransformCommand *cmd = new KoShapeTransformCommand(transformedShapes, oldTransforms, newTransforms); cmd->setText(actionName); canvas()->addCommand(cmd); } void DefaultTool::selectionBooleanOp(int booleanOp) { KoSelection *selection = koSelection(); if (!selection) return; QList editableShapes = selection->selectedEditableShapes(); if (editableShapes.isEmpty()) { return; } QVector srcOutlines; QPainterPath dstOutline; KUndo2MagicString actionName = kundo2_noi18n("BUG: boolean action name"); // TODO: implement a reference shape selection dialog! const int referenceShapeIndex = 0; KoShape *referenceShape = editableShapes[referenceShapeIndex]; Q_FOREACH (KoShape *shape, editableShapes) { srcOutlines << shape->absoluteTransformation(0).map(shape->outline()); } if (booleanOp == BooleanUnion) { Q_FOREACH (const QPainterPath &path, srcOutlines) { dstOutline |= path; } actionName = kundo2_i18n("Unite Shapes"); } else if (booleanOp == BooleanIntersection) { for (int i = 0; i < srcOutlines.size(); i++) { if (i == 0) { dstOutline = srcOutlines[i]; } else { dstOutline &= srcOutlines[i]; } } // there is a bug in Qt, sometimes it leaves the resulting // outline open, so just close it explicitly. dstOutline.closeSubpath(); actionName = kundo2_i18n("Intersect Shapes"); } else if (booleanOp == BooleanSubtraction) { for (int i = 0; i < srcOutlines.size(); i++) { dstOutline = srcOutlines[referenceShapeIndex]; if (i != referenceShapeIndex) { dstOutline -= srcOutlines[i]; } } actionName = kundo2_i18n("Subtract Shapes"); } KoShape *newShape = 0; if (!dstOutline.isEmpty()) { newShape = KoPathShape::createShapeFromPainterPath(dstOutline); } KUndo2Command *cmd = new KUndo2Command(actionName); new KoKeepShapesSelectedCommand(editableShapes, {}, canvas()->selectedShapesProxy(), false, cmd); QList newSelectedShapes; if (newShape) { newShape->setBackground(referenceShape->background()); newShape->setStroke(referenceShape->stroke()); newShape->setZIndex(referenceShape->zIndex()); KoShapeContainer *parent = referenceShape->parent(); canvas()->shapeController()->addShapeDirect(newShape, parent, cmd); newSelectedShapes << newShape; } canvas()->shapeController()->removeShapes(editableShapes, cmd); new KoKeepShapesSelectedCommand({}, newSelectedShapes, canvas()->selectedShapesProxy(), true, cmd); canvas()->addCommand(cmd); } void DefaultTool::selectionSplitShapes() { KoSelection *selection = koSelection(); if (!selection) return; QList editableShapes = selection->selectedEditableShapes(); if (editableShapes.isEmpty()) { return; } KUndo2Command *cmd = new KUndo2Command(kundo2_i18n("Split Shapes")); new KoKeepShapesSelectedCommand(editableShapes, {}, canvas()->selectedShapesProxy(), false, cmd); QList newShapes; Q_FOREACH (KoShape *shape, editableShapes) { KoPathShape *pathShape = dynamic_cast(shape); if (!pathShape) return; QList splitShapes; if (pathShape->separate(splitShapes)) { QList normalShapes = implicitCastList(splitShapes); KoShapeContainer *parent = shape->parent(); canvas()->shapeController()->addShapesDirect(normalShapes, parent, cmd); canvas()->shapeController()->removeShape(shape, cmd); newShapes << normalShapes; } } new KoKeepShapesSelectedCommand({}, newShapes, canvas()->selectedShapesProxy(), true, cmd); canvas()->addCommand(cmd); } void DefaultTool::selectionAlign(int _align) { KoShapeAlignCommand::Align align = static_cast(_align); KoSelection *selection = koSelection(); if (!selection) return; QList editableShapes = selection->selectedEditableShapes(); if (editableShapes.isEmpty()) { return; } // TODO add an option to the widget so that one can align to the page // with multiple selected shapes too QRectF bb; // single selected shape is automatically aligned to document rect if (editableShapes.count() == 1) { if (!canvas()->resourceManager()->hasResource(KoCanvasResourceProvider::PageSize)) { return; } bb = QRectF(QPointF(0, 0), canvas()->resourceManager()->sizeResource(KoCanvasResourceProvider::PageSize)); } else { bb = KoShape::absoluteOutlineRect(editableShapes); } KoShapeAlignCommand *cmd = new KoShapeAlignCommand(editableShapes, align, bb); canvas()->addCommand(cmd); } void DefaultTool::selectionDistribute(int _distribute) { KoShapeDistributeCommand::Distribute distribute = static_cast(_distribute); KoSelection *selection = koSelection(); if (!selection) return; QList editableShapes = selection->selectedEditableShapes(); if (editableShapes.size() < 3) { return; } QRectF bb = KoShape::absoluteOutlineRect(editableShapes); KoShapeDistributeCommand *cmd = new KoShapeDistributeCommand(editableShapes, distribute, bb); canvas()->addCommand(cmd); } void DefaultTool::selectionBringToFront() { selectionReorder(KoShapeReorderCommand::BringToFront); } void DefaultTool::selectionMoveUp() { selectionReorder(KoShapeReorderCommand::RaiseShape); } void DefaultTool::selectionMoveDown() { selectionReorder(KoShapeReorderCommand::LowerShape); } void DefaultTool::selectionSendToBack() { selectionReorder(KoShapeReorderCommand::SendToBack); } void DefaultTool::selectionReorder(KoShapeReorderCommand::MoveShapeType order) { KoSelection *selection = koSelection(); if (!selection) { return; } QList selectedShapes = selection->selectedEditableShapes(); if (selectedShapes.isEmpty()) { return; } KUndo2Command *cmd = KoShapeReorderCommand::createCommand(selectedShapes, shapeManager(), order); if (cmd) { canvas()->addCommand(cmd); } } QList > DefaultTool::createOptionWidgets() { QList > widgets; m_tabbedOptionWidget = new DefaultToolTabbedWidget(this); if (isActivated()) { m_tabbedOptionWidget->activate(); } widgets.append(m_tabbedOptionWidget); connect(m_tabbedOptionWidget, SIGNAL(sigSwitchModeEditFillGradient(bool)), SLOT(slotActivateEditFillGradient(bool))); connect(m_tabbedOptionWidget, SIGNAL(sigSwitchModeEditStrokeGradient(bool)), SLOT(slotActivateEditStrokeGradient(bool))); return widgets; } void DefaultTool::canvasResourceChanged(int key, const QVariant &res) { if (key == HotPosition) { m_hotPosition = KoFlake::AnchorPosition(res.toInt()); repaintDecorations(); } } KoInteractionStrategy *DefaultTool::createStrategy(KoPointerEvent *event) { KoSelection *selection = koSelection(); if (!selection) return nullptr; bool insideSelection = false; KoFlake::SelectionHandle handle = handleAt(event->point, &insideSelection); bool editableShape = !selection->selectedEditableShapes().isEmpty(); const bool selectMultiple = event->modifiers() & Qt::ShiftModifier; const bool selectNextInStack = event->modifiers() & Qt::ControlModifier; const bool avoidSelection = event->modifiers() & Qt::AltModifier; if (selectNextInStack) { // change the hot selection position when middle clicking on a handle KoFlake::AnchorPosition newHotPosition = m_hotPosition; switch (handle) { case KoFlake::TopMiddleHandle: newHotPosition = KoFlake::Top; break; case KoFlake::TopRightHandle: newHotPosition = KoFlake::TopRight; break; case KoFlake::RightMiddleHandle: newHotPosition = KoFlake::Right; break; case KoFlake::BottomRightHandle: newHotPosition = KoFlake::BottomRight; break; case KoFlake::BottomMiddleHandle: newHotPosition = KoFlake::Bottom; break; case KoFlake::BottomLeftHandle: newHotPosition = KoFlake::BottomLeft; break; case KoFlake::LeftMiddleHandle: newHotPosition = KoFlake::Left; break; case KoFlake::TopLeftHandle: newHotPosition = KoFlake::TopLeft; break; case KoFlake::NoHandle: default: // check if we had hit the center point const KoViewConverter *converter = canvas()->viewConverter(); QPointF pt = converter->documentToView(event->point); // TODO: use calculated values instead! QPointF centerPt = converter->documentToView(selection->absolutePosition()); if (kisSquareDistance(pt, centerPt) < HANDLE_DISTANCE_SQ) { newHotPosition = KoFlake::Center; } break; } if (m_hotPosition != newHotPosition) { canvas()->resourceManager()->setResource(HotPosition, newHotPosition); return new NopInteractionStrategy(this); } } if (!avoidSelection && editableShape) { // manipulation of selected shapes goes first if (handle != KoFlake::NoHandle) { // resizing or shearing only with left mouse button if (insideSelection) { bool forceUniformScaling = m_tabbedOptionWidget && m_tabbedOptionWidget->useUniformScaling(); return new ShapeResizeStrategy(this, selection, event->point, handle, forceUniformScaling); } if (handle == KoFlake::TopMiddleHandle || handle == KoFlake::RightMiddleHandle || handle == KoFlake::BottomMiddleHandle || handle == KoFlake::LeftMiddleHandle) { return new ShapeShearStrategy(this, selection, event->point, handle); } // rotating is allowed for right mouse button too if (handle == KoFlake::TopLeftHandle || handle == KoFlake::TopRightHandle || handle == KoFlake::BottomLeftHandle || handle == KoFlake::BottomRightHandle) { return new ShapeRotateStrategy(this, selection, event->point, event->buttons()); } } if (!selectMultiple && !selectNextInStack) { if (insideSelection) { return new ShapeMoveStrategy(this, selection, event->point); } } } KoShape *shape = shapeManager()->shapeAt(event->point, selectNextInStack ? KoFlake::NextUnselected : KoFlake::ShapeOnTop); if (avoidSelection || (!shape && handle == KoFlake::NoHandle)) { if (!selectMultiple) { repaintDecorations(); selection->deselectAll(); } return new SelectionInteractionStrategy(this, event->point, false); } if (selection->isSelected(shape)) { if (selectMultiple) { repaintDecorations(); selection->deselect(shape); } } else if (handle == KoFlake::NoHandle) { // clicked on shape which is not selected repaintDecorations(); if (!selectMultiple) { selection->deselectAll(); } selection->select(shape); repaintDecorations(); // tablet selection isn't precise and may lead to a move, preventing that if (event->isTabletEvent()) { return new NopInteractionStrategy(this); } return new ShapeMoveStrategy(this, selection, event->point); } return 0; } void DefaultTool::updateActions() { QList editableShapes; if (koSelection()) { editableShapes = koSelection()->selectedEditableShapes(); } const bool hasEditableShapes = !editableShapes.isEmpty(); action("object_order_front")->setEnabled(hasEditableShapes); action("object_order_raise")->setEnabled(hasEditableShapes); action("object_order_lower")->setEnabled(hasEditableShapes); action("object_order_back")->setEnabled(hasEditableShapes); action("object_transform_rotate_90_cw")->setEnabled(hasEditableShapes); action("object_transform_rotate_90_ccw")->setEnabled(hasEditableShapes); action("object_transform_rotate_180")->setEnabled(hasEditableShapes); action("object_transform_mirror_horizontally")->setEnabled(hasEditableShapes); action("object_transform_mirror_vertically")->setEnabled(hasEditableShapes); action("object_transform_reset")->setEnabled(hasEditableShapes); const bool multipleSelected = editableShapes.size() > 1; const bool alignmentEnabled = multipleSelected || (!editableShapes.isEmpty() && canvas()->resourceManager()->hasResource(KoCanvasResourceProvider::PageSize)); action("object_align_horizontal_left")->setEnabled(alignmentEnabled); action("object_align_horizontal_center")->setEnabled(alignmentEnabled); action("object_align_horizontal_right")->setEnabled(alignmentEnabled); action("object_align_vertical_top")->setEnabled(alignmentEnabled); action("object_align_vertical_center")->setEnabled(alignmentEnabled); action("object_align_vertical_bottom")->setEnabled(alignmentEnabled); const bool distributionEnabled = editableShapes.size() > 2; action("object_distribute_horizontal_left")->setEnabled(distributionEnabled); action("object_distribute_horizontal_center")->setEnabled(distributionEnabled); action("object_distribute_horizontal_right")->setEnabled(distributionEnabled); action("object_distribute_horizontal_gaps")->setEnabled(distributionEnabled); action("object_distribute_vertical_top")->setEnabled(distributionEnabled); action("object_distribute_vertical_center")->setEnabled(distributionEnabled); action("object_distribute_vertical_bottom")->setEnabled(distributionEnabled); action("object_distribute_vertical_gaps")->setEnabled(distributionEnabled); updateDistinctiveActions(editableShapes); emit selectionChanged(editableShapes.size()); } void DefaultTool::updateDistinctiveActions(const QList &editableShapes) { const bool multipleSelected = editableShapes.size() > 1; action("object_group")->setEnabled(multipleSelected); action("object_unite")->setEnabled(multipleSelected); action("object_intersect")->setEnabled(multipleSelected); action("object_subtract")->setEnabled(multipleSelected); bool hasShapesWithMultipleSegments = false; Q_FOREACH (KoShape *shape, editableShapes) { KoPathShape *pathShape = dynamic_cast(shape); if (pathShape && pathShape->subpathCount() > 1) { hasShapesWithMultipleSegments = true; break; } } action("object_split")->setEnabled(hasShapesWithMultipleSegments); bool hasGroupShape = false; foreach (KoShape *shape, editableShapes) { if (dynamic_cast(shape)) { hasGroupShape = true; break; } } action("object_ungroup")->setEnabled(hasGroupShape); } KoToolSelection *DefaultTool::selection() { return m_selectionHandler; } QMenu* DefaultTool::popupActionsMenu() { if (m_contextMenu) { m_contextMenu->clear(); + m_contextMenu->addSection(i18n("Vector Shape Actions")); + m_contextMenu->addSeparator(); + QMenu *transform = m_contextMenu->addMenu(i18n("Transform")); + transform->addAction(action("object_transform_rotate_90_cw")); transform->addAction(action("object_transform_rotate_90_ccw")); transform->addAction(action("object_transform_rotate_180")); transform->addSeparator(); transform->addAction(action("object_transform_mirror_horizontally")); transform->addAction(action("object_transform_mirror_vertically")); transform->addSeparator(); transform->addAction(action("object_transform_reset")); if (action("object_unite")->isEnabled() || action("object_intersect")->isEnabled() || action("object_subtract")->isEnabled() || action("object_split")->isEnabled()) { QMenu *transform = m_contextMenu->addMenu(i18n("Logical Operations")); transform->addAction(action("object_unite")); transform->addAction(action("object_intersect")); transform->addAction(action("object_subtract")); transform->addAction(action("object_split")); } m_contextMenu->addSeparator(); m_contextMenu->addAction(action("edit_cut")); m_contextMenu->addAction(action("edit_copy")); m_contextMenu->addAction(action("edit_paste")); m_contextMenu->addSeparator(); m_contextMenu->addAction(action("object_order_front")); m_contextMenu->addAction(action("object_order_raise")); m_contextMenu->addAction(action("object_order_lower")); m_contextMenu->addAction(action("object_order_back")); if (action("object_group")->isEnabled() || action("object_ungroup")->isEnabled()) { m_contextMenu->addSeparator(); m_contextMenu->addAction(action("object_group")); m_contextMenu->addAction(action("object_ungroup")); } } return m_contextMenu.data(); } void DefaultTool::addTransformActions(QMenu *menu) const { menu->addAction(action("object_transform_rotate_90_cw")); menu->addAction(action("object_transform_rotate_90_ccw")); menu->addAction(action("object_transform_rotate_180")); menu->addSeparator(); menu->addAction(action("object_transform_mirror_horizontally")); menu->addAction(action("object_transform_mirror_vertically")); menu->addSeparator(); menu->addAction(action("object_transform_reset")); } void DefaultTool::explicitUserStrokeEndRequest() { QList shapes = koSelection()->selectedEditableShapesAndDelegates(); emit activateTemporary(KoToolManager::instance()->preferredToolForSelection(shapes)); } diff --git a/plugins/tools/tool_crop/kis_tool_crop.cc b/plugins/tools/tool_crop/kis_tool_crop.cc index a35bd33e74..42d928d102 100644 --- a/plugins/tools/tool_crop/kis_tool_crop.cc +++ b/plugins/tools/tool_crop/kis_tool_crop.cc @@ -1,914 +1,917 @@ /* * kis_tool_crop.cc -- part of Krita * * Copyright (c) 2004 Boudewijn Rempt * Copyright (c) 2005 Michael Thaler * Copyright (c) 2006 Cyrille Berger * Copyright (C) 2007 Adrian Page * * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "kis_tool_crop.h" #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 #include #include struct DecorationLine { QPointF start; QPointF end; enum Relation { Width, Height, Smallest, Largest }; Relation startXRelation; Relation startYRelation; Relation endXRelation; Relation endYRelation; }; DecorationLine decors[20] = { //thirds {QPointF(0.0, 0.3333),QPointF(1.0, 0.3333), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.0, 0.6666),QPointF(1.0, 0.6666), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.3333, 0.0),QPointF(0.3333, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.6666, 0.0),QPointF(0.6666, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, //fifths {QPointF(0.0, 0.2),QPointF(1.0, 0.2), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.0, 0.4),QPointF(1.0, 0.4), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.0, 0.6),QPointF(1.0, 0.6), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.0, 0.8),QPointF(1.0, 0.8), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.2, 0.0),QPointF(0.2, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.4, 0.0),QPointF(0.4, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.6, 0.0),QPointF(0.6, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.8, 0.0),QPointF(0.8, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, // Passport photo {QPointF(0.0, 0.45/0.35),QPointF(1.0, 0.45/0.35), DecorationLine::Width, DecorationLine::Width, DecorationLine::Width, DecorationLine::Width}, {QPointF(0.2, 0.05/0.35),QPointF(0.8, 0.05/0.35), DecorationLine::Width, DecorationLine::Width, DecorationLine::Width, DecorationLine::Width}, {QPointF(0.2, 0.40/0.35),QPointF(0.8, 0.40/0.35), DecorationLine::Width, DecorationLine::Width, DecorationLine::Width, DecorationLine::Width}, {QPointF(0.25, 0.07/0.35),QPointF(0.75, 0.07/0.35), DecorationLine::Width, DecorationLine::Width, DecorationLine::Width, DecorationLine::Width}, {QPointF(0.25, 0.38/0.35),QPointF(0.75, 0.38/0.35), DecorationLine::Width, DecorationLine::Width, DecorationLine::Width, DecorationLine::Width}, {QPointF(0.35/0.45, 0.0),QPointF(0.35/0.45, 1.0), DecorationLine::Height, DecorationLine::Height, DecorationLine::Height, DecorationLine::Height}, //Crosshair {QPointF(0.0, 0.5),QPointF(1.0, 0.5), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height}, {QPointF(0.5, 0.0),QPointF(0.5, 1.0), DecorationLine::Width, DecorationLine::Height, DecorationLine::Width, DecorationLine::Height} }; #define DECORATION_COUNT 5 const int decorsIndex[DECORATION_COUNT] = {0,4,12,18,20}; KisToolCrop::KisToolCrop(KoCanvasBase * canvas) : KisTool(canvas, KisCursor::load("tool_crop_cursor.png", 6, 6)) { setObjectName("tool_crop"); m_handleSize = 13; m_haveCropSelection = false; m_cropTypeSelectable = false; m_cropType = ImageCropType; m_decoration = 1; connect(&m_finalRect, SIGNAL(sigValuesChanged()), SLOT(slotRectChanged())); connect(&m_finalRect, SIGNAL(sigLockValuesChanged()), SLOT(slotRectChanged())); // context menu options (mirrors tool options) m_contextMenu.reset(new QMenu()); applyCrop = new KisAction(i18n("Crop")); growToggleOption = new KisAction(i18n("Grow")); growToggleOption->setCheckable(true); centerToggleOption = new KisAction(i18n("Center")); centerToggleOption->setCheckable(true); } KisToolCrop::~KisToolCrop() { } void KisToolCrop::activate(ToolActivation toolActivation, const QSet &shapes) { KisTool::activate(toolActivation, shapes); configGroup = KSharedConfig::openConfig()->group(toolId()); // save settings to kritarc KisResourcesSnapshotSP resources = new KisResourcesSnapshot(image(), currentNode(), this->canvas()->resourceManager()); // load settings from configuration setGrowCenter(configGroup.readEntry("growCenter", false)); setAllowGrow(configGroup.readEntry("allowGrow", false)); // Default: thirds decoration setDecoration(configGroup.readEntry("decoration", 1)); // Default: crop the entire image setCropType(configGroup.readEntry("cropType", 1) == 0 ? LayerCropType : ImageCropType); m_finalRect.setCropRect(image()->bounds()); KisSelectionSP sel = resources->activeSelection(); if (sel) { m_haveCropSelection = true; m_finalRect.setRectInitial(sel->selectedExactRect()); } useCursor(cursor()); //pixel layer if(resources->currentNode() && resources->currentNode()->paintDevice()) { setCropTypeSelectable(true); } //vector layer else { setCropTypeSelectable(false); } } void KisToolCrop::cancelStroke() { m_haveCropSelection = false; doCanvasUpdate(image()->bounds()); } void KisToolCrop::deactivate() { cancelStroke(); KisTool::deactivate(); } void KisToolCrop::requestStrokeEnd() { if (m_haveCropSelection) crop(); } void KisToolCrop::requestStrokeCancellation() { cancelStroke(); } void KisToolCrop::canvasResourceChanged(int key, const QVariant &res) { KisTool::canvasResourceChanged(key, res); //pixel layer if(currentNode() && currentNode()->paintDevice()) { setCropTypeSelectable(true); } //vector layer else { setCropType(ImageCropType); setCropTypeSelectable(false); } } void KisToolCrop::paint(QPainter &painter, const KoViewConverter &converter) { Q_UNUSED(converter); paintOutlineWithHandles(painter); } QMenu *KisToolCrop::popupActionsMenu() { if (m_contextMenu) { m_contextMenu->clear(); + m_contextMenu->addSection(i18n("Crop Tool Actions")); + m_contextMenu->addSeparator(); + // keeps in sync with tool options growToggleOption->setChecked(allowGrow()); centerToggleOption->setChecked(growCenter()); if (m_haveCropSelection) { // can't crop if there is no selection m_contextMenu->addAction(applyCrop); m_contextMenu->addSeparator(); } m_contextMenu->addAction(growToggleOption); m_contextMenu->addAction(centerToggleOption); } return m_contextMenu.data(); } void KisToolCrop::beginPrimaryAction(KoPointerEvent *event) { m_finalRect.setCropRect(image()->bounds()); setMode(KisTool::PAINT_MODE); const QPointF imagePoint = convertToPixelCoord(event); m_mouseOnHandleType = mouseOnHandle(pixelToView(imagePoint)); if (m_mouseOnHandleType != KisConstrainedRect::None) { QPointF snapPoint = m_finalRect.handleSnapPoint(KisConstrainedRect::HandleType(m_mouseOnHandleType), imagePoint); QPointF snapDocPoint = image()->pixelToDocument(snapPoint); m_dragOffsetDoc = snapDocPoint - event->point; } else { m_dragOffsetDoc = QPointF(); } QPointF snappedPoint = convertToPixelCoordAndSnap(event, m_dragOffsetDoc); m_dragStart = snappedPoint.toPoint(); m_resettingStroke = false; if (!m_haveCropSelection || m_mouseOnHandleType == None) { m_lastCanvasUpdateRect = image()->bounds(); const int initialWidth = m_finalRect.widthLocked() ? m_finalRect.rect().width() : 1; const int initialHeight = m_finalRect.heightLocked() ? m_finalRect.rect().height() : 1; const QRect initialRect = QRect(m_dragStart, QSize(initialWidth, initialHeight)); m_finalRect.setRectInitial(initialRect); m_initialDragRect = initialRect; m_mouseOnHandleType = KisConstrainedRect::Creation; m_resettingStroke = true; } else { m_initialDragRect = m_finalRect.rect(); } } void KisToolCrop::continuePrimaryAction(KoPointerEvent *event) { CHECK_MODE_SANITY_OR_RETURN(KisTool::PAINT_MODE); const QPointF pos = convertToPixelCoordAndSnap(event, m_dragOffsetDoc); const QPoint drag = pos.toPoint() - m_dragStart; m_finalRect.moveHandle(KisConstrainedRect::HandleType(m_mouseOnHandleType), drag, m_initialDragRect); } bool KisToolCrop::tryContinueLastCropAction() { bool result = false; const KUndo2Command *lastCommand = image()->undoAdapter()->presentCommand(); const KisCropSavedExtraData *data = 0; if ((lastCommand = image()->undoAdapter()->presentCommand()) && (data = dynamic_cast(lastCommand->extraData()))) { bool cropImageConsistent = m_cropType == ImageCropType && (data->type() == KisCropSavedExtraData::CROP_IMAGE || data->type() == KisCropSavedExtraData::RESIZE_IMAGE); bool cropLayerConsistent = m_cropType == LayerCropType && data->type() == KisCropSavedExtraData::CROP_LAYER && currentNode() == data->cropNode(); if (cropImageConsistent || cropLayerConsistent) { image()->undoAdapter()->undoLastCommand(); image()->waitForDone(); m_finalRect.setRectInitial(data->cropRect()); m_haveCropSelection = true; result = true; } } return result; } void KisToolCrop::endPrimaryAction(KoPointerEvent *event) { CHECK_MODE_SANITY_OR_RETURN(KisTool::PAINT_MODE); setMode(KisTool::HOVER_MODE); QRectF viewCropRect = pixelToView(m_finalRect.rect()); const bool haveValidRect = viewCropRect.width() > m_handleSize && viewCropRect.height() > m_handleSize; if (!m_haveCropSelection && !haveValidRect) { if (!tryContinueLastCropAction()) { m_finalRect.setRectInitial(image()->bounds()); m_haveCropSelection = true; } } else if (m_resettingStroke && !haveValidRect) { m_lastCanvasUpdateRect = image()->bounds(); m_haveCropSelection = false; } else { m_haveCropSelection = true; } m_finalRect.normalize(); qint32 type = mouseOnHandle(pixelToView(convertToPixelCoordAndSnap(event, m_dragOffsetDoc))); setMoveResizeCursor(type); } void KisToolCrop::mouseMoveEvent(KoPointerEvent *event) { QPointF pos = convertToPixelCoordAndSnap(event); if (m_haveCropSelection) { //if the crop selection is set //set resize cursor if we are on one of the handles if(mode() == KisTool::PAINT_MODE) { //keep the same cursor as the one we clicked with setMoveResizeCursor(m_mouseOnHandleType); }else{ //hovering qint32 type = mouseOnHandle(pixelToView(pos)); setMoveResizeCursor(type); } } } void KisToolCrop::beginPrimaryDoubleClickAction(KoPointerEvent *event) { if (m_haveCropSelection) crop(); // this action will have no continuation event->ignore(); } #define BORDER_LINE_WIDTH 0 #define HALF_BORDER_LINE_WIDTH 0 #define HANDLE_BORDER_LINE_WIDTH 1 QRectF KisToolCrop::borderLineRect() { QRectF borderRect = pixelToView(m_finalRect.rect()); // Draw the border line right next to the crop rectangle perimeter. borderRect.adjust(-HALF_BORDER_LINE_WIDTH, -HALF_BORDER_LINE_WIDTH, HALF_BORDER_LINE_WIDTH, HALF_BORDER_LINE_WIDTH); return borderRect; } #define OUTSIDE_CROP_ALPHA 200 void KisToolCrop::paintOutlineWithHandles(QPainter& gc) { if (canvas() && (mode() == KisTool::PAINT_MODE || m_haveCropSelection)) { gc.save(); QRectF wholeImageRect = pixelToView(image()->bounds()); QRectF borderRect = borderLineRect(); QPainterPath path; path.addRect(wholeImageRect); path.addRect(borderRect); gc.setPen(Qt::NoPen); gc.setBrush(QColor(0, 0, 0, OUTSIDE_CROP_ALPHA)); gc.drawPath(path); // Handles QPen pen(Qt::SolidLine); pen.setWidth(HANDLE_BORDER_LINE_WIDTH); pen.setColor(Qt::black); gc.setPen(pen); gc.setBrush(QColor(200, 200, 200, OUTSIDE_CROP_ALPHA)); gc.drawPath(handlesPath()); gc.setClipRect(borderRect, Qt::IntersectClip); if (m_decoration > 0) { for (int i = decorsIndex[m_decoration-1]; ipaintDevice()) { currentImage()->cropNode(currentNode(), cropRect); } else { currentImage()->cropImage(cropRect); } } void KisToolCrop::setCropTypeLegacy(int cropType) { setCropType(cropType == 0 ? LayerCropType : ImageCropType); } void KisToolCrop::setCropType(KisToolCrop::CropToolType cropType) { if(m_cropType == cropType) return; m_cropType = cropType; // can't save LayerCropType, so have to convert it to int for saving configGroup.writeEntry("cropType", cropType == LayerCropType ? 0 : 1); emit cropTypeChanged(m_cropType); } KisToolCrop::CropToolType KisToolCrop::cropType() const { return m_cropType; } void KisToolCrop::setCropTypeSelectable(bool selectable) { if(selectable == m_cropTypeSelectable) return; m_cropTypeSelectable = selectable; emit cropTypeSelectableChanged(); } bool KisToolCrop::cropTypeSelectable() const { return m_cropTypeSelectable; } int KisToolCrop::decoration() const { return m_decoration; } void KisToolCrop::setDecoration(int i) { // This shouldn't happen, but safety first if(i < 0 || i > DECORATION_COUNT) return; m_decoration = i; emit decorationChanged(decoration()); updateCanvasViewRect(boundingRect()); configGroup.writeEntry("decoration", i); } void KisToolCrop::doCanvasUpdate(const QRect &updateRect) { updateCanvasViewRect(updateRect | m_lastCanvasUpdateRect); m_lastCanvasUpdateRect = updateRect; } void KisToolCrop::slotRectChanged() { emit cropHeightChanged(cropHeight()); emit cropWidthChanged(cropWidth()); emit cropXChanged(cropX()); emit cropYChanged(cropY()); emit ratioChanged(ratio()); emit forceHeightChanged(forceHeight()); emit forceWidthChanged(forceWidth()); emit forceRatioChanged(forceRatio()); emit canGrowChanged(allowGrow()); emit isCenteredChanged(growCenter()); doCanvasUpdate(boundingRect().toAlignedRect()); } void KisToolCrop::setCropX(int x) { if(x == m_finalRect.rect().x()) return; if (!m_haveCropSelection) { m_haveCropSelection = true; m_finalRect.setRectInitial(image()->bounds()); } QPoint offset = m_finalRect.rect().topLeft(); offset.setX(x); m_finalRect.setOffset(offset); } int KisToolCrop::cropX() const { return m_finalRect.rect().x(); } void KisToolCrop::setCropY(int y) { if(y == m_finalRect.rect().y()) return; if (!m_haveCropSelection) { m_haveCropSelection = true; m_finalRect.setRectInitial(image()->bounds()); } QPoint offset = m_finalRect.rect().topLeft(); offset.setY(y); m_finalRect.setOffset(offset); } int KisToolCrop::cropY() const { return m_finalRect.rect().y(); } void KisToolCrop::setCropWidth(int w) { if(w == m_finalRect.rect().width()) return; if (!m_haveCropSelection) { m_haveCropSelection = true; m_finalRect.setRectInitial(image()->bounds()); } m_finalRect.setWidth(w); } int KisToolCrop::cropWidth() const { return m_finalRect.rect().width(); } void KisToolCrop::setForceWidth(bool force) { m_finalRect.setWidthLocked(force); } bool KisToolCrop::forceWidth() const { return m_finalRect.widthLocked(); } void KisToolCrop::setCropHeight(int h) { if(h == m_finalRect.rect().height()) return; if (!m_haveCropSelection) { m_haveCropSelection = true; m_finalRect.setRectInitial(image()->bounds()); } m_finalRect.setHeight(h); } int KisToolCrop::cropHeight() const { return m_finalRect.rect().height(); } void KisToolCrop::setForceHeight(bool force) { m_finalRect.setHeightLocked(force); } bool KisToolCrop::forceHeight() const { return m_finalRect.heightLocked(); } void KisToolCrop::setAllowGrow(bool g) { m_finalRect.setCanGrow(g); m_finalRect.setCropRect(image()->bounds()); configGroup.writeEntry("allowGrow", g); emit canGrowChanged(g); } bool KisToolCrop::allowGrow() const { return m_finalRect.canGrow(); } void KisToolCrop::setGrowCenter(bool value) { m_finalRect.setCentered(value); configGroup.writeEntry("growCenter", value); emit isCenteredChanged(value); } bool KisToolCrop::growCenter() const { return m_finalRect.centered(); } void KisToolCrop::setRatio(double ratio) { if(ratio == m_finalRect.ratio()) return; if (!m_haveCropSelection) { m_haveCropSelection = true; m_finalRect.setRectInitial(image()->bounds()); } m_finalRect.setRatio(ratio); } double KisToolCrop::ratio() const { return m_finalRect.ratio(); } void KisToolCrop::setForceRatio(bool force) { m_finalRect.setRatioLocked(force); } bool KisToolCrop::forceRatio() const { return m_finalRect.ratioLocked(); } QWidget* KisToolCrop::createOptionWidget() { optionsWidget = new KisToolCropConfigWidget(0, this); // See https://bugs.kde.org/show_bug.cgi?id=316896 QWidget *specialSpacer = new QWidget(optionsWidget); specialSpacer->setObjectName("SpecialSpacer"); specialSpacer->setFixedSize(0, 0); optionsWidget->layout()->addWidget(specialSpacer); Q_CHECK_PTR(optionsWidget); optionsWidget->setObjectName(toolId() + " option widget"); connect(optionsWidget->bnCrop, SIGNAL(clicked()), this, SLOT(crop())); connect(optionsWidget, SIGNAL(cropTypeChanged(int)), this, SLOT(setCropTypeLegacy(int))); connect(optionsWidget, SIGNAL(cropXChanged(int)), this, SLOT(setCropX(int))); connect(optionsWidget, SIGNAL(cropYChanged(int)), this, SLOT(setCropY(int))); connect(optionsWidget, SIGNAL(cropHeightChanged(int)), this, SLOT(setCropHeight(int))); connect(optionsWidget, SIGNAL(forceHeightChanged(bool)), this, SLOT(setForceHeight(bool))); connect(optionsWidget, SIGNAL(cropWidthChanged(int)), this, SLOT(setCropWidth(int))); connect(optionsWidget, SIGNAL(forceWidthChanged(bool)), this, SLOT(setForceWidth(bool))); connect(optionsWidget, SIGNAL(ratioChanged(double)), this, SLOT(setRatio(double))); connect(optionsWidget, SIGNAL(forceRatioChanged(bool)), this, SLOT(setForceRatio(bool))); connect(optionsWidget, SIGNAL(decorationChanged(int)), this, SLOT(setDecoration(int))); connect(optionsWidget, SIGNAL(allowGrowChanged(bool)), this, SLOT(setAllowGrow(bool))); connect(optionsWidget, SIGNAL(growCenterChanged(bool)), this, SLOT(setGrowCenter(bool))); optionsWidget->setFixedHeight(optionsWidget->sizeHint().height()); connect(applyCrop, SIGNAL(triggered(bool)), this, SLOT(crop())); connect(growToggleOption, SIGNAL(triggered(bool)), this, SLOT(setAllowGrow(bool))); connect(centerToggleOption, SIGNAL(triggered(bool)), this, SLOT(setGrowCenter(bool))); return optionsWidget; } QRectF KisToolCrop::lowerRightHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.right() - m_handleSize / 2.0, cropBorderRect.bottom() - m_handleSize / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::upperRightHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.right() - m_handleSize / 2.0 , cropBorderRect.top() - m_handleSize / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::lowerLeftHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.left() - m_handleSize / 2.0 , cropBorderRect.bottom() - m_handleSize / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::upperLeftHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.left() - m_handleSize / 2.0, cropBorderRect.top() - m_handleSize / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::lowerHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.left() + (cropBorderRect.width() - m_handleSize) / 2.0 , cropBorderRect.bottom() - m_handleSize / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::rightHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.right() - m_handleSize / 2.0 , cropBorderRect.top() + (cropBorderRect.height() - m_handleSize) / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::upperHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.left() + (cropBorderRect.width() - m_handleSize) / 2.0 , cropBorderRect.top() - m_handleSize / 2.0, m_handleSize, m_handleSize); } QRectF KisToolCrop::leftHandleRect(QRectF cropBorderRect) { return QRectF(cropBorderRect.left() - m_handleSize / 2.0, cropBorderRect.top() + (cropBorderRect.height() - m_handleSize) / 2.0, m_handleSize, m_handleSize); } QPainterPath KisToolCrop::handlesPath() { QRectF cropBorderRect = borderLineRect(); QPainterPath path; path.addRect(upperLeftHandleRect(cropBorderRect)); path.addRect(upperRightHandleRect(cropBorderRect)); path.addRect(lowerLeftHandleRect(cropBorderRect)); path.addRect(lowerRightHandleRect(cropBorderRect)); path.addRect(upperHandleRect(cropBorderRect)); path.addRect(lowerHandleRect(cropBorderRect)); path.addRect(leftHandleRect(cropBorderRect)); path.addRect(rightHandleRect(cropBorderRect)); return path; } qint32 KisToolCrop::mouseOnHandle(QPointF currentViewPoint) { QRectF borderRect = borderLineRect(); qint32 handleType = None; if (!m_haveCropSelection) { return None; } if (upperLeftHandleRect(borderRect).contains(currentViewPoint)) { handleType = UpperLeft; } else if (lowerLeftHandleRect(borderRect).contains(currentViewPoint)) { handleType = LowerLeft; } else if (upperRightHandleRect(borderRect).contains(currentViewPoint)) { handleType = UpperRight; } else if (lowerRightHandleRect(borderRect).contains(currentViewPoint)) { handleType = LowerRight; } else if (upperHandleRect(borderRect).contains(currentViewPoint)) { handleType = Upper; } else if (lowerHandleRect(borderRect).contains(currentViewPoint)) { handleType = Lower; } else if (leftHandleRect(borderRect).contains(currentViewPoint)) { handleType = Left; } else if (rightHandleRect(borderRect).contains(currentViewPoint)) { handleType = Right; } else if (borderRect.contains(currentViewPoint)) { handleType = Inside; } return handleType; } void KisToolCrop::setMoveResizeCursor(qint32 handle) { QCursor cursor; switch (handle) { case(UpperLeft): case(LowerRight): cursor = KisCursor::sizeFDiagCursor(); break; case(LowerLeft): case(UpperRight): cursor = KisCursor::sizeBDiagCursor(); break; case(Upper): case(Lower): cursor = KisCursor::sizeVerCursor(); break; case(Left): case(Right): cursor = KisCursor::sizeHorCursor(); break; case(Inside): cursor = KisCursor::sizeAllCursor(); break; default: cursor = KisCursor::arrowCursor(); break; } useCursor(cursor); } QRectF KisToolCrop::boundingRect() { QRectF rect = handlesPath().boundingRect(); rect.adjust(-HANDLE_BORDER_LINE_WIDTH, -HANDLE_BORDER_LINE_WIDTH, HANDLE_BORDER_LINE_WIDTH, HANDLE_BORDER_LINE_WIDTH); return rect; } void KisToolCrop::drawDecorationLine(QPainter *p, DecorationLine *decorLine, const QRectF rect) { QPointF start = rect.topLeft(); QPointF end = rect.topLeft(); qreal small = qMin(rect.width(), rect.height()); qreal large = qMax(rect.width(), rect.height()); switch (decorLine->startXRelation) { case DecorationLine::Width: start.setX(start.x() + decorLine->start.x() * rect.width()); break; case DecorationLine::Height: start.setX(start.x() + decorLine->start.x() * rect.height()); break; case DecorationLine::Smallest: start.setX(start.x() + decorLine->start.x() * small); break; case DecorationLine::Largest: start.setX(start.x() + decorLine->start.x() * large); break; } switch (decorLine->startYRelation) { case DecorationLine::Width: start.setY(start.y() + decorLine->start.y() * rect.width()); break; case DecorationLine::Height: start.setY(start.y() + decorLine->start.y() * rect.height()); break; case DecorationLine::Smallest: start.setY(start.y() + decorLine->start.y() * small); break; case DecorationLine::Largest: start.setY(start.y() + decorLine->start.y() * large); break; } switch (decorLine->endXRelation) { case DecorationLine::Width: end.setX(end.x() + decorLine->end.x() * rect.width()); break; case DecorationLine::Height: end.setX(end.x() + decorLine->end.x() * rect.height()); break; case DecorationLine::Smallest: end.setX(end.x() + decorLine->end.x() * small); break; case DecorationLine::Largest: end.setX(end.x() + decorLine->end.x() * large); break; } switch (decorLine->endYRelation) { case DecorationLine::Width: end.setY(end.y() + decorLine->end.y() * rect.width()); break; case DecorationLine::Height: end.setY(end.y() + decorLine->end.y() * rect.height()); break; case DecorationLine::Smallest: end.setY(end.y() + decorLine->end.y() * small); break; case DecorationLine::Largest: end.setY(end.y() + decorLine->end.y() * large); break; } p->drawLine(start, end); } diff --git a/plugins/tools/tool_transform2/kis_tool_transform.cc b/plugins/tools/tool_transform2/kis_tool_transform.cc index ab6095961f..5545dc4950 100644 --- a/plugins/tools/tool_transform2/kis_tool_transform.cc +++ b/plugins/tools/tool_transform2/kis_tool_transform.cc @@ -1,1320 +1,1322 @@ /* * kis_tool_transform.cc -- part of Krita * * Copyright (c) 2004 Boudewijn Rempt * Copyright (c) 2005 C. Boemann * Copyright (c) 2010 Marc Pegon * Copyright (c) 2013 Dmitry Kazakov * * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "kis_tool_transform.h" #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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "widgets/kis_progress_widget.h" #include "kis_transform_utils.h" #include "kis_warp_transform_strategy.h" #include "kis_cage_transform_strategy.h" #include "kis_liquify_transform_strategy.h" #include "kis_free_transform_strategy.h" #include "kis_perspective_transform_strategy.h" #include "kis_transform_mask.h" #include "kis_transform_mask_adapter.h" #include "krita_container_utils.h" #include "kis_layer_utils.h" #include #include "strokes/transform_stroke_strategy.h" KisToolTransform::KisToolTransform(KoCanvasBase * canvas) : KisTool(canvas, KisCursor::rotateCursor()) , m_workRecursively(true) , m_warpStrategy( new KisWarpTransformStrategy( dynamic_cast(canvas)->coordinatesConverter(), m_currentArgs, m_transaction)) , m_cageStrategy( new KisCageTransformStrategy( dynamic_cast(canvas)->coordinatesConverter(), m_currentArgs, m_transaction)) , m_liquifyStrategy( new KisLiquifyTransformStrategy( dynamic_cast(canvas)->coordinatesConverter(), m_currentArgs, m_transaction, canvas->resourceManager())) , m_freeStrategy( new KisFreeTransformStrategy( dynamic_cast(canvas)->coordinatesConverter(), dynamic_cast(canvas)->snapGuide(), m_currentArgs, m_transaction)) , m_perspectiveStrategy( new KisPerspectiveTransformStrategy( dynamic_cast(canvas)->coordinatesConverter(), dynamic_cast(canvas)->snapGuide(), m_currentArgs, m_transaction)) { m_canvas = dynamic_cast(canvas); Q_ASSERT(m_canvas); setObjectName("tool_transform"); useCursor(KisCursor::selectCursor()); m_optionsWidget = 0; warpAction = new KisAction(i18n("Warp")); liquifyAction = new KisAction(i18n("Liquify")); cageAction = new KisAction(i18n("Cage")); freeTransformAction = new KisAction(i18n("Free")); perspectiveAction = new KisAction(i18n("Perspective")); // extra actions for free transform that are in the tool options mirrorHorizontalAction = new KisAction(i18n("Mirror Horizontal")); mirrorVericalAction = new KisAction(i18n("Mirror Vertical")); rotateNinteyCWAction = new KisAction(i18n("Rotate 90 degrees Clockwise")); rotateNinteyCCWAction = new KisAction(i18n("Rotate 90 degrees CounterClockwise")); applyTransformation = new KisAction(i18n("Apply")); resetTransformation = new KisAction(i18n("Reset")); m_contextMenu.reset(new QMenu()); connect(m_warpStrategy.data(), SIGNAL(requestCanvasUpdate()), SLOT(canvasUpdateRequested())); connect(m_cageStrategy.data(), SIGNAL(requestCanvasUpdate()), SLOT(canvasUpdateRequested())); connect(m_liquifyStrategy.data(), SIGNAL(requestCanvasUpdate()), SLOT(canvasUpdateRequested())); connect(m_liquifyStrategy.data(), SIGNAL(requestCursorOutlineUpdate(QPointF)), SLOT(cursorOutlineUpdateRequested(QPointF))); connect(m_liquifyStrategy.data(), SIGNAL(requestUpdateOptionWidget()), SLOT(updateOptionWidget())); connect(m_freeStrategy.data(), SIGNAL(requestCanvasUpdate()), SLOT(canvasUpdateRequested())); connect(m_freeStrategy.data(), SIGNAL(requestResetRotationCenterButtons()), SLOT(resetRotationCenterButtonsRequested())); connect(m_freeStrategy.data(), SIGNAL(requestShowImageTooBig(bool)), SLOT(imageTooBigRequested(bool))); connect(m_perspectiveStrategy.data(), SIGNAL(requestCanvasUpdate()), SLOT(canvasUpdateRequested())); connect(m_perspectiveStrategy.data(), SIGNAL(requestShowImageTooBig(bool)), SLOT(imageTooBigRequested(bool))); connect(&m_changesTracker, SIGNAL(sigConfigChanged(KisToolChangesTrackerDataSP)), this, SLOT(slotTrackerChangedConfig(KisToolChangesTrackerDataSP))); } KisToolTransform::~KisToolTransform() { cancelStroke(); } void KisToolTransform::outlineChanged() { emit freeTransformChanged(); m_canvas->updateCanvas(); } void KisToolTransform::canvasUpdateRequested() { m_canvas->updateCanvas(); } void KisToolTransform::resetCursorStyle() { setFunctionalCursor(); } void KisToolTransform::resetRotationCenterButtonsRequested() { if (!m_optionsWidget) return; m_optionsWidget->resetRotationCenterButtons(); } void KisToolTransform::imageTooBigRequested(bool value) { if (!m_optionsWidget) return; m_optionsWidget->setTooBigLabelVisible(value); } KisTransformStrategyBase* KisToolTransform::currentStrategy() const { if (m_currentArgs.mode() == ToolTransformArgs::FREE_TRANSFORM) { return m_freeStrategy.data(); } else if (m_currentArgs.mode() == ToolTransformArgs::WARP) { return m_warpStrategy.data(); } else if (m_currentArgs.mode() == ToolTransformArgs::CAGE) { return m_cageStrategy.data(); } else if (m_currentArgs.mode() == ToolTransformArgs::LIQUIFY) { return m_liquifyStrategy.data(); } else /* if (m_currentArgs.mode() == ToolTransformArgs::PERSPECTIVE_4POINT) */ { return m_perspectiveStrategy.data(); } } void KisToolTransform::paint(QPainter& gc, const KoViewConverter &converter) { Q_UNUSED(converter); if (!m_strokeData.strokeId()) return; QRectF newRefRect = KisTransformUtils::imageToFlake(m_canvas->coordinatesConverter(), QRectF(0.0,0.0,1.0,1.0)); if (m_refRect != newRefRect) { m_refRect = newRefRect; currentStrategy()->externalConfigChanged(); } gc.save(); if (m_optionsWidget && m_optionsWidget->showDecorations()) { gc.setOpacity(0.3); gc.fillPath(m_selectionPath, Qt::black); } gc.restore(); currentStrategy()->paint(gc); if (!m_cursorOutline.isEmpty()) { QPainterPath mappedOutline = KisTransformUtils::imageToFlakeTransform( m_canvas->coordinatesConverter()).map(m_cursorOutline); paintToolOutline(&gc, mappedOutline); } } void KisToolTransform::setFunctionalCursor() { if (overrideCursorIfNotEditable()) { return; } if (!m_strokeData.strokeId()) { useCursor(KisCursor::pointingHandCursor()); } else { useCursor(currentStrategy()->getCurrentCursor()); } } void KisToolTransform::cursorOutlineUpdateRequested(const QPointF &imagePos) { QRect canvasUpdateRect; if (!m_cursorOutline.isEmpty()) { canvasUpdateRect = m_canvas->coordinatesConverter()-> imageToDocument(m_cursorOutline.boundingRect()).toAlignedRect(); } m_cursorOutline = currentStrategy()-> getCursorOutline().translated(imagePos); if (!m_cursorOutline.isEmpty()) { canvasUpdateRect |= m_canvas->coordinatesConverter()-> imageToDocument(m_cursorOutline.boundingRect()).toAlignedRect(); } if (!canvasUpdateRect.isEmpty()) { // grow rect a bit to follow interpolation fuzziness canvasUpdateRect = kisGrowRect(canvasUpdateRect, 2); m_canvas->updateCanvas(canvasUpdateRect); } } void KisToolTransform::beginActionImpl(KoPointerEvent *event, bool usePrimaryAction, KisTool::AlternateAction action) { if (!nodeEditable()) { event->ignore(); return; } if (!m_strokeData.strokeId()) { startStroke(m_currentArgs.mode(), false); } else { bool result = false; if (usePrimaryAction) { result = currentStrategy()->beginPrimaryAction(event); } else { result = currentStrategy()->beginAlternateAction(event, action); } if (result) { setMode(KisTool::PAINT_MODE); } } m_actuallyMoveWhileSelected = false; outlineChanged(); } void KisToolTransform::continueActionImpl(KoPointerEvent *event, bool usePrimaryAction, KisTool::AlternateAction action) { if (mode() != KisTool::PAINT_MODE) return; m_actuallyMoveWhileSelected = true; if (usePrimaryAction) { currentStrategy()->continuePrimaryAction(event); } else { currentStrategy()->continueAlternateAction(event, action); } updateOptionWidget(); outlineChanged(); } void KisToolTransform::endActionImpl(KoPointerEvent *event, bool usePrimaryAction, KisTool::AlternateAction action) { if (mode() != KisTool::PAINT_MODE) return; setMode(KisTool::HOVER_MODE); if (m_actuallyMoveWhileSelected || currentStrategy()->acceptsClicks()) { bool result = false; if (usePrimaryAction) { result = currentStrategy()->endPrimaryAction(event); } else { result = currentStrategy()->endAlternateAction(event, action); } if (result) { commitChanges(); } outlineChanged(); } updateOptionWidget(); updateApplyResetAvailability(); } QMenu* KisToolTransform::popupActionsMenu() { if (m_contextMenu) { m_contextMenu->clear(); + m_contextMenu->addSection(i18n("Transform Tool Actions")); + m_contextMenu->addSeparator(); // add a quick switch to different transform types m_contextMenu->addAction(freeTransformAction); m_contextMenu->addAction(perspectiveAction); m_contextMenu->addAction(warpAction); m_contextMenu->addAction(cageAction); m_contextMenu->addAction(liquifyAction); // extra options if free transform is selected if (transformMode() == FreeTransformMode) { m_contextMenu->addSeparator(); m_contextMenu->addAction(mirrorHorizontalAction); m_contextMenu->addAction(mirrorVericalAction); m_contextMenu->addAction(rotateNinteyCWAction); m_contextMenu->addAction(rotateNinteyCCWAction); } m_contextMenu->addSeparator(); m_contextMenu->addAction(applyTransformation); m_contextMenu->addAction(resetTransformation); } return m_contextMenu.data(); } void KisToolTransform::beginPrimaryAction(KoPointerEvent *event) { beginActionImpl(event, true, KisTool::NONE); } void KisToolTransform::continuePrimaryAction(KoPointerEvent *event) { continueActionImpl(event, true, KisTool::NONE); } void KisToolTransform::endPrimaryAction(KoPointerEvent *event) { endActionImpl(event, true, KisTool::NONE); } void KisToolTransform::activatePrimaryAction() { currentStrategy()->activatePrimaryAction(); setFunctionalCursor(); } void KisToolTransform::deactivatePrimaryAction() { currentStrategy()->deactivatePrimaryAction(); } void KisToolTransform::activateAlternateAction(AlternateAction action) { currentStrategy()->activateAlternateAction(action); setFunctionalCursor(); } void KisToolTransform::deactivateAlternateAction(AlternateAction action) { currentStrategy()->deactivateAlternateAction(action); } void KisToolTransform::beginAlternateAction(KoPointerEvent *event, AlternateAction action) { beginActionImpl(event, false, action); } void KisToolTransform::continueAlternateAction(KoPointerEvent *event, AlternateAction action) { continueActionImpl(event, false, action); } void KisToolTransform::endAlternateAction(KoPointerEvent *event, AlternateAction action) { endActionImpl(event, false, action); } void KisToolTransform::mousePressEvent(KoPointerEvent *event) { KisTool::mousePressEvent(event); } void KisToolTransform::mouseMoveEvent(KoPointerEvent *event) { QPointF mousePos = m_canvas->coordinatesConverter()->documentToImage(event->point); cursorOutlineUpdateRequested(mousePos); if (this->mode() != KisTool::PAINT_MODE) { currentStrategy()->hoverActionCommon(event); setFunctionalCursor(); KisTool::mouseMoveEvent(event); return; } } void KisToolTransform::mouseReleaseEvent(KoPointerEvent *event) { KisTool::mouseReleaseEvent(event); } void KisToolTransform::applyTransform() { slotApplyTransform(); } KisToolTransform::TransformToolMode KisToolTransform::transformMode() const { TransformToolMode mode = FreeTransformMode; switch (m_currentArgs.mode()) { case ToolTransformArgs::FREE_TRANSFORM: mode = FreeTransformMode; break; case ToolTransformArgs::WARP: mode = WarpTransformMode; break; case ToolTransformArgs::CAGE: mode = CageTransformMode; break; case ToolTransformArgs::LIQUIFY: mode = LiquifyTransformMode; break; case ToolTransformArgs::PERSPECTIVE_4POINT: mode = PerspectiveTransformMode; break; default: KIS_ASSERT_RECOVER_NOOP(0 && "unexpected transform mode"); } return mode; } double KisToolTransform::translateX() const { return m_currentArgs.transformedCenter().x(); } double KisToolTransform::translateY() const { return m_currentArgs.transformedCenter().y(); } double KisToolTransform::rotateX() const { return m_currentArgs.aX(); } double KisToolTransform::rotateY() const { return m_currentArgs.aY(); } double KisToolTransform::rotateZ() const { return m_currentArgs.aZ(); } double KisToolTransform::scaleX() const { return m_currentArgs.scaleX(); } double KisToolTransform::scaleY() const { return m_currentArgs.scaleY(); } double KisToolTransform::shearX() const { return m_currentArgs.shearX(); } double KisToolTransform::shearY() const { return m_currentArgs.shearY(); } KisToolTransform::WarpType KisToolTransform::warpType() const { switch(m_currentArgs.warpType()) { case KisWarpTransformWorker::AFFINE_TRANSFORM: return AffineWarpType; case KisWarpTransformWorker::RIGID_TRANSFORM: return RigidWarpType; case KisWarpTransformWorker::SIMILITUDE_TRANSFORM: return SimilitudeWarpType; default: return RigidWarpType; } } double KisToolTransform::warpFlexibility() const { return m_currentArgs.alpha(); } int KisToolTransform::warpPointDensity() const { return m_currentArgs.numPoints(); } void KisToolTransform::setTransformMode(KisToolTransform::TransformToolMode newMode) { ToolTransformArgs::TransformMode mode = ToolTransformArgs::FREE_TRANSFORM; switch (newMode) { case FreeTransformMode: mode = ToolTransformArgs::FREE_TRANSFORM; break; case WarpTransformMode: mode = ToolTransformArgs::WARP; break; case CageTransformMode: mode = ToolTransformArgs::CAGE; break; case LiquifyTransformMode: mode = ToolTransformArgs::LIQUIFY; break; case PerspectiveTransformMode: mode = ToolTransformArgs::PERSPECTIVE_4POINT; break; default: KIS_ASSERT_RECOVER_NOOP(0 && "unexpected transform mode"); } if( mode != m_currentArgs.mode() ) { if( newMode == FreeTransformMode ) { m_optionsWidget->slotSetFreeTransformModeButtonClicked( true ); } else if( newMode == WarpTransformMode ) { m_optionsWidget->slotSetWarpModeButtonClicked( true ); } else if( newMode == CageTransformMode ) { m_optionsWidget->slotSetCageModeButtonClicked( true ); } else if( newMode == LiquifyTransformMode ) { m_optionsWidget->slotSetLiquifyModeButtonClicked( true ); } else if( newMode == PerspectiveTransformMode ) { m_optionsWidget->slotSetPerspectiveModeButtonClicked( true ); } emit transformModeChanged(); } } void KisToolTransform::setRotateX( double rotation ) { m_currentArgs.setAX( normalizeAngle(rotation) ); } void KisToolTransform::setRotateY( double rotation ) { m_currentArgs.setAY( normalizeAngle(rotation) ); } void KisToolTransform::setRotateZ( double rotation ) { m_currentArgs.setAZ( normalizeAngle(rotation) ); } void KisToolTransform::setWarpType( KisToolTransform::WarpType type ) { switch( type ) { case RigidWarpType: m_currentArgs.setWarpType(KisWarpTransformWorker::RIGID_TRANSFORM); break; case AffineWarpType: m_currentArgs.setWarpType(KisWarpTransformWorker::AFFINE_TRANSFORM); break; case SimilitudeWarpType: m_currentArgs.setWarpType(KisWarpTransformWorker::SIMILITUDE_TRANSFORM); break; default: break; } } void KisToolTransform::setWarpFlexibility( double flexibility ) { m_currentArgs.setAlpha( flexibility ); } void KisToolTransform::setWarpPointDensity( int density ) { m_optionsWidget->slotSetWarpDensity(density); } bool KisToolTransform::tryInitArgsFromNode(KisNodeSP node) { bool result = false; if (KisTransformMaskSP mask = dynamic_cast(node.data())) { KisTransformMaskParamsInterfaceSP savedParams = mask->transformParams(); KisTransformMaskAdapter *adapter = dynamic_cast(savedParams.data()); if (adapter) { m_currentArgs = adapter->transformArgs(); result = true; } } return result; } bool KisToolTransform::tryFetchArgsFromCommandAndUndo(ToolTransformArgs *args, ToolTransformArgs::TransformMode mode, KisNodeSP currentNode) { bool result = false; const KUndo2Command *lastCommand = image()->undoAdapter()->presentCommand(); KisNodeSP oldRootNode; KisNodeList oldTransformedNodes; if (lastCommand && TransformStrokeStrategy::fetchArgsFromCommand(lastCommand, args, &oldRootNode, &oldTransformedNodes) && args->mode() == mode && oldRootNode == currentNode) { KisNodeList perspectiveTransformedNodes = fetchNodesList(mode, currentNode, m_workRecursively); if (KritaUtils::compareListsUnordered(oldTransformedNodes, perspectiveTransformedNodes)) { args->saveContinuedState(); image()->undoAdapter()->undoLastCommand(); // FIXME: can we make it async? image()->waitForDone(); forceRepaintDelayedLayers(oldRootNode); result = true; } } return result; } void KisToolTransform::resetArgsForMode(ToolTransformArgs::TransformMode mode) { // NOTE: we are requesting an old value of m_currentArgs variable // here, which is global, don't forget about this on higher // levels. QString filterId = m_currentArgs.filterId(); m_currentArgs = ToolTransformArgs(); m_currentArgs.setOriginalCenter(m_transaction.originalCenterGeometric()); m_currentArgs.setTransformedCenter(m_transaction.originalCenterGeometric()); if (mode == ToolTransformArgs::FREE_TRANSFORM) { m_currentArgs.setMode(ToolTransformArgs::FREE_TRANSFORM); } else if (mode == ToolTransformArgs::WARP) { m_currentArgs.setMode(ToolTransformArgs::WARP); m_optionsWidget->setDefaultWarpPoints(); m_currentArgs.setEditingTransformPoints(false); } else if (mode == ToolTransformArgs::CAGE) { m_currentArgs.setMode(ToolTransformArgs::CAGE); m_currentArgs.setEditingTransformPoints(true); } else if (mode == ToolTransformArgs::LIQUIFY) { m_currentArgs.setMode(ToolTransformArgs::LIQUIFY); const QRect srcRect = m_transaction.originalRect().toAlignedRect(); if (!srcRect.isEmpty()) { m_currentArgs.initLiquifyTransformMode(m_transaction.originalRect().toAlignedRect()); } } else if (mode == ToolTransformArgs::PERSPECTIVE_4POINT) { m_currentArgs.setMode(ToolTransformArgs::PERSPECTIVE_4POINT); } } void KisToolTransform::initTransformMode(ToolTransformArgs::TransformMode mode) { resetArgsForMode(mode); initGuiAfterTransformMode(); } void KisToolTransform::initGuiAfterTransformMode() { currentStrategy()->externalConfigChanged(); outlineChanged(); updateOptionWidget(); updateApplyResetAvailability(); } void KisToolTransform::updateSelectionPath() { m_selectionPath = QPainterPath(); KisResourcesSnapshotSP resources = new KisResourcesSnapshot(image(), currentNode(), this->canvas()->resourceManager()); QPainterPath selectionOutline; KisSelectionSP selection = resources->activeSelection(); if (selection && selection->outlineCacheValid()) { selectionOutline = selection->outlineCache(); } else if (m_selectedPortionCache) { selectionOutline.addRect(m_selectedPortionCache->exactBounds()); } const KisCoordinatesConverter *converter = m_canvas->coordinatesConverter(); QTransform i2f = converter->imageToDocumentTransform() * converter->documentToFlakeTransform(); m_selectionPath = i2f.map(selectionOutline); } void KisToolTransform::initThumbnailImage(KisPaintDeviceSP previewDevice) { QImage origImg; m_selectedPortionCache = previewDevice; QTransform thumbToImageTransform; const int maxSize = 2000; QRect srcRect(m_transaction.originalRect().toAlignedRect()); int x, y, w, h; srcRect.getRect(&x, &y, &w, &h); if (m_selectedPortionCache) { if (w > maxSize || h > maxSize) { qreal scale = qreal(maxSize) / (w > h ? w : h); QTransform scaleTransform = QTransform::fromScale(scale, scale); QRect thumbRect = scaleTransform.mapRect(m_transaction.originalRect()).toAlignedRect(); origImg = m_selectedPortionCache-> createThumbnail(thumbRect.width(), thumbRect.height(), srcRect, 1, KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()); thumbToImageTransform = scaleTransform.inverted(); } else { origImg = m_selectedPortionCache->convertToQImage(0, x, y, w, h, KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()); thumbToImageTransform = QTransform(); } } // init both strokes since the thumbnail is initialized only once // during the stroke m_freeStrategy->setThumbnailImage(origImg, thumbToImageTransform); m_perspectiveStrategy->setThumbnailImage(origImg, thumbToImageTransform); m_warpStrategy->setThumbnailImage(origImg, thumbToImageTransform); m_cageStrategy->setThumbnailImage(origImg, thumbToImageTransform); m_liquifyStrategy->setThumbnailImage(origImg, thumbToImageTransform); } void KisToolTransform::activate(ToolActivation toolActivation, const QSet &shapes) { KisTool::activate(toolActivation, shapes); if (currentNode()) { m_transaction = TransformTransactionProperties(QRectF(), &m_currentArgs, KisNodeSP(), {}); } startStroke(ToolTransformArgs::FREE_TRANSFORM, false); } void KisToolTransform::deactivate() { endStroke(); m_canvas->updateCanvas(); KisTool::deactivate(); } void KisToolTransform::requestUndoDuringStroke() { if (!m_strokeData.strokeId()) return; if (m_changesTracker.isEmpty()) { cancelStroke(); } else { m_changesTracker.requestUndo(); } } void KisToolTransform::requestStrokeEnd() { endStroke(); } void KisToolTransform::requestStrokeCancellation() { if (m_currentArgs.isIdentity()) { cancelStroke(); } else { slotResetTransform(); } } void KisToolTransform::startStroke(ToolTransformArgs::TransformMode mode, bool forceReset) { Q_ASSERT(!m_strokeData.strokeId()); /** * FIXME: The transform tool is not completely asynchronous, it * needs the content of the layer for creation of the stroke * strategy. It means that we cannot start a new stroke until the * previous one is finished. Ideally, we should create the * m_selectedPortionCache and m_selectionPath somewhere in the * stroke and pass it to the tool somehow. But currently, we will * just disable starting a new stroke asynchronously */ if (!blockUntilOperationsFinished()) { return; } // set up and null checks before we do anything KisResourcesSnapshotSP resources = new KisResourcesSnapshot(image(), currentNode(), this->canvas()->resourceManager()); KisNodeSP currentNode = resources->currentNode(); if (!currentNode || !currentNode->isEditable()) return; // some layer types cannot be transformed. Give a message and return if a user tries it if (currentNode->inherits("KisColorizeMask") || currentNode->inherits("KisFileLayer") || currentNode->inherits("KisCloneLayer")) { KisCanvas2 *kisCanvas = dynamic_cast(canvas()); kisCanvas->viewManager()-> showFloatingMessage( i18nc("floating message in transformation tool", "Layer type cannot use the transform tool"), koIcon("object-locked"), 4000, KisFloatingMessage::High); // force-reset transform mode to default initTransformMode(mode); return; } // this goes after the floating message check since the fetchNodesList() // says a file layer is "empty" and messes up the floating message check above QList nodesList = fetchNodesList(mode, currentNode, m_workRecursively); if (nodesList.isEmpty()) return; /** * We must ensure that the currently selected subtree * has finished all its updates. */ forceRepaintDelayedLayers(currentNode); ToolTransformArgs fetchedArgs; bool fetchedFromCommand = false; if (!forceReset) { fetchedFromCommand = tryFetchArgsFromCommandAndUndo(&fetchedArgs, mode, currentNode); } if (m_optionsWidget) { m_workRecursively = m_optionsWidget->workRecursively() || !currentNode->paintDevice(); } KisSelectionSP selection = resources->activeSelection(); /** * When working with transform mask, selections are not * taken into account. */ if (selection && dynamic_cast(currentNode.data())) { KisCanvas2 *kisCanvas = dynamic_cast(canvas()); kisCanvas->viewManager()-> showFloatingMessage( i18nc("floating message in transformation tool", "Selections are not used when editing transform masks "), QIcon(), 4000, KisFloatingMessage::Low); selection = 0; } TransformStrokeStrategy *strategy = new TransformStrokeStrategy(currentNode, nodesList, selection, image().data()); connect(strategy, SIGNAL(sigPreviewDeviceReady(KisPaintDeviceSP)), SLOT(slotPreviewDeviceGenerated(KisPaintDeviceSP))); QRect srcRect; if (selection) { srcRect = selection->selectedExactRect(); } else { srcRect = QRect(); Q_FOREACH (KisNodeSP node, nodesList) { // group layers may have a projection of layers // that are locked and will not be transformed if (node->inherits("KisGroupLayer")) continue; if (const KisTransformMask *mask = dynamic_cast(node.data())) { srcRect |= mask->sourceDataBounds(); } else { srcRect |= node->exactBounds(); } } } m_transaction = TransformTransactionProperties(srcRect, &m_currentArgs, currentNode, nodesList); if (!forceReset && fetchedFromCommand) { m_currentArgs = fetchedArgs; } else if (forceReset || !tryInitArgsFromNode(currentNode)) { resetArgsForMode(mode); } m_strokeData = StrokeData(image()->startStroke(strategy)); image()->addJob(m_strokeData.strokeId(), new TransformStrokeStrategy::PreparePreviewData()); bool haveInvisibleNodes = clearDevices(nodesList); if (haveInvisibleNodes) { KisCanvas2 *kisCanvas = dynamic_cast(canvas()); kisCanvas->viewManager()-> showFloatingMessage( i18nc("floating message in transformation tool", "Invisible sublayers will also be transformed. Lock layers if you do not want them to be transformed "), QIcon(), 4000, KisFloatingMessage::Low); } Q_ASSERT(m_changesTracker.isEmpty()); commitChanges(); slotPreviewDeviceGenerated(0); } void KisToolTransform::endStroke() { if (!m_strokeData.strokeId()) return; if (!m_currentArgs.isIdentity()) { transformClearedDevices(); image()->addJob(m_strokeData.strokeId(), new TransformStrokeStrategy::TransformData( TransformStrokeStrategy::TransformData::SELECTION, m_currentArgs, m_transaction.rootNode())); // root node is used for progress only image()->endStroke(m_strokeData.strokeId()); } else { image()->cancelStroke(m_strokeData.strokeId()); } m_strokeData.clear(); m_changesTracker.reset(); m_transaction = TransformTransactionProperties(QRectF(), &m_currentArgs, KisNodeSP(), {}); outlineChanged(); } void KisToolTransform::slotPreviewDeviceGenerated(KisPaintDeviceSP device) { if (device && device->exactBounds().isEmpty()) { KisCanvas2 *kisCanvas = dynamic_cast(canvas()); kisCanvas->viewManager()-> showFloatingMessage( i18nc("floating message in transformation tool", "Cannot transform empty layer "), QIcon(), 1000, KisFloatingMessage::Medium); cancelStroke(); } else { initThumbnailImage(device); updateSelectionPath(); initGuiAfterTransformMode(); } } void KisToolTransform::cancelStroke() { if (!m_strokeData.strokeId()) return; if (m_currentArgs.continuedTransform()) { m_currentArgs.restoreContinuedState(); endStroke(); } else { image()->cancelStroke(m_strokeData.strokeId()); m_strokeData.clear(); m_changesTracker.reset(); m_transaction = TransformTransactionProperties(QRectF(), &m_currentArgs, KisNodeSP(), {}); outlineChanged(); } } void KisToolTransform::commitChanges() { if (!m_strokeData.strokeId()) return; m_changesTracker.commitConfig(toQShared(m_currentArgs.clone())); } void KisToolTransform::slotTrackerChangedConfig(KisToolChangesTrackerDataSP status) { const ToolTransformArgs *newArgs = dynamic_cast(status.data()); KIS_SAFE_ASSERT_RECOVER_RETURN(newArgs); *m_transaction.currentConfig() = *newArgs; slotUiChangedConfig(); updateOptionWidget(); } QList KisToolTransform::fetchNodesList(ToolTransformArgs::TransformMode mode, KisNodeSP root, bool recursive) { QList result; auto fetchFunc = [&result, mode, root] (KisNodeSP node) { if (node->isEditable(node == root) && (!node->inherits("KisShapeLayer") || mode == ToolTransformArgs::FREE_TRANSFORM) && !node->inherits("KisFileLayer") && (!node->inherits("KisTransformMask") || node == root)) { result << node; } }; if (recursive) { KisLayerUtils::recursiveApplyNodes(root, fetchFunc); } else { fetchFunc(root); } return result; } bool KisToolTransform::clearDevices(const QList &nodes) { bool haveInvisibleNodes = false; Q_FOREACH (KisNodeSP node, nodes) { haveInvisibleNodes |= !node->visible(false); image()->addJob(m_strokeData.strokeId(), new TransformStrokeStrategy::ClearSelectionData(node)); /** * It might happen that the editablity state of the node would * change during the stroke, so we need to save the set of * applicable nodes right in the beginning of the processing */ m_strokeData.addClearedNode(node); } return haveInvisibleNodes; } void KisToolTransform::transformClearedDevices() { Q_FOREACH (KisNodeSP node, m_strokeData.clearedNodes()) { KIS_ASSERT_RECOVER_RETURN(node); image()->addJob(m_strokeData.strokeId(), new TransformStrokeStrategy::TransformData( TransformStrokeStrategy::TransformData::PAINT_DEVICE, m_currentArgs, node)); } } QWidget* KisToolTransform::createOptionWidget() { m_optionsWidget = new KisToolTransformConfigWidget(&m_transaction, m_canvas, m_workRecursively, 0); Q_CHECK_PTR(m_optionsWidget); m_optionsWidget->setObjectName(toolId() + " option widget"); // See https://bugs.kde.org/show_bug.cgi?id=316896 QWidget *specialSpacer = new QWidget(m_optionsWidget); specialSpacer->setObjectName("SpecialSpacer"); specialSpacer->setFixedSize(0, 0); m_optionsWidget->layout()->addWidget(specialSpacer); connect(m_optionsWidget, SIGNAL(sigConfigChanged()), this, SLOT(slotUiChangedConfig())); connect(m_optionsWidget, SIGNAL(sigApplyTransform()), this, SLOT(slotApplyTransform())); connect(m_optionsWidget, SIGNAL(sigResetTransform()), this, SLOT(slotResetTransform())); connect(m_optionsWidget, SIGNAL(sigRestartTransform()), this, SLOT(slotRestartTransform())); connect(m_optionsWidget, SIGNAL(sigEditingFinished()), this, SLOT(slotEditingFinished())); connect(mirrorHorizontalAction, SIGNAL(triggered(bool)), m_optionsWidget, SLOT(slotFlipX())); connect(mirrorVericalAction, SIGNAL(triggered(bool)), m_optionsWidget, SLOT(slotFlipY())); connect(rotateNinteyCWAction, SIGNAL(triggered(bool)), m_optionsWidget, SLOT(slotRotateCW())); connect(rotateNinteyCCWAction, SIGNAL(triggered(bool)), m_optionsWidget, SLOT(slotRotateCCW())); connect(warpAction, SIGNAL(triggered(bool)), this, SLOT(slotUpdateToWarpType())); connect(perspectiveAction, SIGNAL(triggered(bool)), this, SLOT(slotUpdateToPerspectiveType())); connect(freeTransformAction, SIGNAL(triggered(bool)), this, SLOT(slotUpdateToFreeTransformType())); connect(liquifyAction, SIGNAL(triggered(bool)), this, SLOT(slotUpdateToLiquifyType())); connect(cageAction, SIGNAL(triggered(bool)), this, SLOT(slotUpdateToCageType())); connect(applyTransformation, SIGNAL(triggered(bool)), this, SLOT(slotApplyTransform())); connect(resetTransformation, SIGNAL(triggered(bool)), this, SLOT(slotResetTransform())); updateOptionWidget(); return m_optionsWidget; } void KisToolTransform::updateOptionWidget() { if (!m_optionsWidget) return; if (!currentNode()) { m_optionsWidget->setEnabled(false); return; } else { m_optionsWidget->setEnabled(true); m_optionsWidget->updateConfig(m_currentArgs); } } void KisToolTransform::updateApplyResetAvailability() { if (m_optionsWidget) { m_optionsWidget->setApplyResetDisabled(m_currentArgs.isIdentity()); } } void KisToolTransform::slotUiChangedConfig() { if (mode() == KisTool::PAINT_MODE) return; currentStrategy()->externalConfigChanged(); if (m_currentArgs.mode() == ToolTransformArgs::LIQUIFY) { m_currentArgs.saveLiquifyTransformMode(); } outlineChanged(); updateApplyResetAvailability(); } void KisToolTransform::slotApplyTransform() { QApplication::setOverrideCursor(KisCursor::waitCursor()); endStroke(); QApplication::restoreOverrideCursor(); } void KisToolTransform::slotResetTransform() { if (m_currentArgs.continuedTransform()) { ToolTransformArgs::TransformMode savedMode = m_currentArgs.mode(); /** * Our reset transform button can be used for two purposes: * * 1) Reset current transform to the initial one, which was * loaded from the previous user action. * * 2) Reset transform frame to infinity when the frame is unchanged */ const bool transformDiffers = !m_currentArgs.continuedTransform()->isSameMode(m_currentArgs); if (transformDiffers && m_currentArgs.continuedTransform()->mode() == savedMode) { m_currentArgs.restoreContinuedState(); initGuiAfterTransformMode(); slotEditingFinished(); } else { KisNodeSP root = m_transaction.rootNode() ? m_transaction.rootNode() : image()->root(); cancelStroke(); image()->waitForDone(); forceRepaintDelayedLayers(root); startStroke(savedMode, true); KIS_ASSERT_RECOVER_NOOP(!m_currentArgs.continuedTransform()); } } else { initTransformMode(m_currentArgs.mode()); slotEditingFinished(); } } void KisToolTransform::slotRestartTransform() { if (!m_strokeData.strokeId()) return; KisNodeSP root = m_transaction.rootNode(); KIS_ASSERT_RECOVER_RETURN(root); // the stroke is guaranteed to be started by an 'if' above ToolTransformArgs savedArgs(m_currentArgs); cancelStroke(); image()->waitForDone(); forceRepaintDelayedLayers(root); startStroke(savedArgs.mode(), true); } void KisToolTransform::forceRepaintDelayedLayers(KisNodeSP root) { KIS_SAFE_ASSERT_RECOVER_RETURN(root); KisLayerUtils::forceAllDelayedNodesUpdate(root); image()->waitForDone(); } void KisToolTransform::slotEditingFinished() { commitChanges(); } void KisToolTransform::slotUpdateToWarpType() { setTransformMode(KisToolTransform::TransformToolMode::WarpTransformMode); } void KisToolTransform::slotUpdateToPerspectiveType() { setTransformMode(KisToolTransform::TransformToolMode::PerspectiveTransformMode); } void KisToolTransform::slotUpdateToFreeTransformType() { setTransformMode(KisToolTransform::TransformToolMode::FreeTransformMode); } void KisToolTransform::slotUpdateToLiquifyType() { setTransformMode(KisToolTransform::TransformToolMode::LiquifyTransformMode); } void KisToolTransform::slotUpdateToCageType() { setTransformMode(KisToolTransform::TransformToolMode::CageTransformMode); } void KisToolTransform::setShearY(double shear) { m_optionsWidget->slotSetShearY(shear); } void KisToolTransform::setShearX(double shear) { m_optionsWidget->slotSetShearX(shear); } void KisToolTransform::setScaleY(double scale) { m_optionsWidget->slotSetScaleY(scale); } void KisToolTransform::setScaleX(double scale) { m_optionsWidget->slotSetScaleX(scale); } void KisToolTransform::setTranslateY(double translation) { m_optionsWidget->slotSetTranslateY(translation); } void KisToolTransform::setTranslateX(double translation) { m_optionsWidget->slotSetTranslateX(translation); }