diff --git a/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.cpp b/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.cpp index 8d8ec80f32..e14078520e 100644 --- a/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.cpp +++ b/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.cpp @@ -1,207 +1,212 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #include "SimpleRenderWindowView.h" #include #include "org_mitk_example_gui_customviewer_views_Activator.h" #include #include #include #include #include #include #include /** * \brief Helper class adapted from QmitkAbstractRenderEditor by defining the correct plugin context. * * This helper class adapted from QmitkAbstractRenderEditor provides the rendering manager interface. */ // //! [SimpleRenderWindowViewHelper] class AbstractRenderWindowViewPrivate { public: AbstractRenderWindowViewPrivate() : m_RenderingManagerInterface(mitk::MakeRenderingManagerInterface(mitk::RenderingManager::GetInstance())), m_PrefServiceTracker(org_mitk_example_gui_customviewer_views_Activator::GetPluginContext()) // //! [SimpleRenderWindowViewHelper] { m_PrefServiceTracker.open(); } ~AbstractRenderWindowViewPrivate() { delete m_RenderingManagerInterface; } mitk::IRenderingManager *m_RenderingManagerInterface; ctkServiceTracker m_PrefServiceTracker; berry::IBerryPreferences::Pointer m_Prefs; }; const std::string SimpleRenderWindowView::VIEW_ID = "org.mitk.customviewer.views.simplerenderwindowview"; SimpleRenderWindowView::SimpleRenderWindowView() : m_RenderWindow(nullptr), d(new AbstractRenderWindowViewPrivate) { } SimpleRenderWindowView::~SimpleRenderWindowView() { } QmitkRenderWindow *SimpleRenderWindowView::GetActiveQmitkRenderWindow() const { return m_RenderWindow; } QHash SimpleRenderWindowView::GetRenderWindows() const { QHash wnds; wnds.insert("axial", m_RenderWindow); return wnds; } QHash SimpleRenderWindowView::GetQmitkRenderWindows() const { QHash wnds; wnds.insert("axial", m_RenderWindow); return wnds; } QmitkRenderWindow *SimpleRenderWindowView::GetRenderWindow(const QString &id) const { if (id == "axial") { return m_RenderWindow; } return nullptr; } QmitkRenderWindow *SimpleRenderWindowView::GetQmitkRenderWindow(const QString &id) const { if (id == "axial") { return m_RenderWindow; } return nullptr; } QmitkRenderWindow *SimpleRenderWindowView::GetQmitkRenderWindow(const mitk::BaseRenderer::ViewDirection &viewDirection) const { if (viewDirection == mitk::BaseRenderer::ViewDirection::AXIAL) { return m_RenderWindow; } return 0; } void SimpleRenderWindowView::SetFocus() { m_RenderWindow->setFocus(); } // //! [SimpleRenderWindowViewCreatePartControl] void SimpleRenderWindowView::CreateQtPartControl(QWidget *parent) { QVBoxLayout *layout = new QVBoxLayout(parent); layout->setContentsMargins(0, 0, 0, 0); m_RenderWindow = new QmitkRenderWindow(parent); layout->addWidget(m_RenderWindow); mitk::DataStorage::Pointer ds = this->GetDataStorage(); m_RenderWindow->GetRenderer()->SetDataStorage(ds); this->RequestUpdate(); } // //! [SimpleRenderWindowViewCreatePartControl] mitk::IRenderingManager *SimpleRenderWindowView::GetRenderingManager() const { // we use the global rendering manager here. This should maybe replaced // by a local one, managing only the render windows specific for the view return d->m_RenderingManagerInterface; } void SimpleRenderWindowView::RequestUpdate(mitk::RenderingManager::RequestType requestType) { if (GetRenderingManager()) GetRenderingManager()->RequestUpdateAll(requestType); } void SimpleRenderWindowView::ForceImmediateUpdate(mitk::RenderingManager::RequestType requestType) { if (GetRenderingManager()) GetRenderingManager()->ForceImmediateUpdateAll(requestType); } void SimpleRenderWindowView::SetReferenceGeometry(const mitk::TimeGeometry* /*referenceGeometry*/, bool /*resetCamera*/) { // not implemented } +bool SimpleRenderWindowView::HasCoupledRenderWindows() const +{ + return false; +} + mitk::SliceNavigationController *SimpleRenderWindowView::GetTimeNavigationController() const { if (GetRenderingManager()) return GetRenderingManager()->GetTimeNavigationController(); return nullptr; } mitk::Point3D SimpleRenderWindowView::GetSelectedPosition(const QString& /*id*/) const { const mitk::PlaneGeometry* pg = m_RenderWindow->GetSliceNavigationController()->GetCurrentPlaneGeometry(); if (pg) { return pg->GetCenter(); } else { return mitk::Point3D(); } } void SimpleRenderWindowView::SetSelectedPosition(const mitk::Point3D&, const QString&) { } mitk::TimePointType SimpleRenderWindowView::GetSelectedTimePoint(const QString& /*id*/) const { auto timeNavigator = this->GetTimeNavigationController(); if (nullptr != timeNavigator) { return timeNavigator->GetSelectedTimePoint(); } return 0; } void SimpleRenderWindowView::EnableDecorations(bool enable, const QStringList& decorations) { if (decorations.isEmpty() || decorations.contains(DECORATION_MENU)) { m_RenderWindow->ActivateMenuWidget(enable); } } bool SimpleRenderWindowView::IsDecorationEnabled(const QString& decoration) const { if (decoration == DECORATION_MENU) { return m_RenderWindow->GetActivateMenuWidgetFlag(); } return false; } QStringList SimpleRenderWindowView::GetDecorations() const { QStringList decorations; decorations << DECORATION_MENU; return decorations; } diff --git a/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.h b/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.h index 7b9acd8575..ac3b152408 100644 --- a/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.h +++ b/Examples/Plugins/org.mitk.example.gui.customviewer.views/src/internal/SimpleRenderWindowView.h @@ -1,152 +1,157 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef SimpleRenderWindowView_H_ #define SimpleRenderWindowView_H_ #include #include #include class QmitkRenderWindow; class AbstractRenderWindowViewPrivate; /** * \brief A view class suited for the ViewerPerspective within the custom viewer plug-in. * * This view class contributes data node rendering functionality to the ViewerPerspective. * Being a subclass of QmitkAbstractView, this class yields access to the data storage and * thus is interconnected with the mitk::QmitkDataManagerView present in the same perspective. * As a subclass of mitk::IRenderWindowPart, this class provides an instance of QmitkRenderWindow. * A SimpleRenderWindowView instance is part of the ViewerPerspective for data visualization. */ // //! [SimpleRenderWindowViewDeclaration] class SimpleRenderWindowView : public QmitkAbstractView, public mitk::IRenderWindowPart // //! [SimpleRenderWindowViewDeclaration] { Q_OBJECT public: /** * Standard constructor. */ SimpleRenderWindowView(); ~SimpleRenderWindowView() override; /** * String based view identifier. */ static const std::string VIEW_ID; berryObjectMacro(SimpleRenderWindowView); // ------------------- mitk::IRenderWindowPart ---------------------- /** * \see mitk::IRenderWindowPart::GetActiveQmitkRenderWindow() */ QmitkRenderWindow *GetActiveQmitkRenderWindow() const override; QHash GetRenderWindows() const; /** * \see mitk::IRenderWindowPart::GetQmitkRenderWindows() */ QHash GetQmitkRenderWindows() const override; QmitkRenderWindow *GetRenderWindow(const QString &id) const; /** * \see mitk::IRenderWindowPart::GetQmitkRenderWindow(QString) */ QmitkRenderWindow *GetQmitkRenderWindow(const QString &id) const override; /** * \see mitk::IRenderWindowPart::GetQmitkRenderWindow(mitk::BaseRenderer::ViewDirection) */ QmitkRenderWindow *GetQmitkRenderWindow(const mitk::BaseRenderer::ViewDirection &viewDirection) const override; /** * \see mitk::QmitkAbstractRenderEditor::GetRenderingManager() */ mitk::IRenderingManager *GetRenderingManager() const override; /** * \see mitk::QmitkAbstractRenderEditor::RequestUpdate() */ void RequestUpdate( mitk::RenderingManager::RequestType requestType = mitk::RenderingManager::REQUEST_UPDATE_ALL) override; /** * \see mitk::QmitkAbstractRenderEditor::ForceImmediateUpdate() */ void ForceImmediateUpdate(mitk::RenderingManager::RequestType) override; /** * \see mitk::IRenderWindowPart::SetReferenceGeometry() */ void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) override; + /** + * \see mitk::IRenderWindowPart::HasCoupledRenderWindows + */ + bool HasCoupledRenderWindows() const override; + /** * \see mitk::IRenderWindowPart::GetTimeNavigationController() */ mitk::SliceNavigationController *GetTimeNavigationController() const override; /** * \see mitk::IRenderWindowPart::GetSelectionPosition() */ mitk::Point3D GetSelectedPosition(const QString& id = QString()) const override; /** * \see mitk::IRenderWindowPart::SetSelectedPosition() */ void SetSelectedPosition(const mitk::Point3D& pos, const QString& id = QString()) override; /** * \see mitk::IRenderWindowPart::GetSelectedTimePoint() */ mitk::TimePointType GetSelectedTimePoint(const QString& id = QString()) const override; /** * \see mitk::IRenderWindowPart::EnableDecorations() */ void EnableDecorations(bool enable, const QStringList& decorations = QStringList()) override; /** * \see mitk::IRenderWindowPart::IsDecorationEnabled() */ bool IsDecorationEnabled(const QString& decoration) const override; /** * \see mitk::IRenderWindowPart::GetDecorations() */ QStringList GetDecorations() const override; protected: void SetFocus() override; /** * Creates the QmitkRenderWindow whose renderer is being connected to the view's data storage. */ void CreateQtPartControl(QWidget *parent) override; private: /** * The view's render window. */ QmitkRenderWindow *m_RenderWindow; QScopedPointer d; }; #endif /*SimpleRenderWindowView_H_*/ diff --git a/Modules/QtWidgets/include/QmitkAbstractMultiWidget.h b/Modules/QtWidgets/include/QmitkAbstractMultiWidget.h index 8db01f55f5..419d27c275 100644 --- a/Modules/QtWidgets/include/QmitkAbstractMultiWidget.h +++ b/Modules/QtWidgets/include/QmitkAbstractMultiWidget.h @@ -1,174 +1,182 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef QMITKABSTRACTMULTIWIDGET_H #define QMITKABSTRACTMULTIWIDGET_H // mitk qt widgets module #include "MitkQtWidgetsExports.h" // mitk core #include #include #include #include // qt #include // c++ #include #include class QmitkMultiWidgetLayoutManager; class QmitkRenderWindow; class QmitkRenderWindowWidget; namespace mitk { class DataStorage; class InteractionEventHandler; } /** * @brief The 'QmitkAbstractMultiWidget' is a 'QWidget' that can be subclassed to display multiple render windows at once. * Render windows can dynamically be added and removed to change the layout of the multi widget. * A subclass of this multi widget can be used inside a 'QmitkAbstractMultiWidgetEditor'. * * The class uses the 'DisplayActionEventBroadcast' and 'DisplayActionEventHandler' classes to * load a state machine and set an event configuration. * * Using the 'Synchronize' function the user can enable or disable the synchronization of display action events. * See 'DisplayActionEventFunctions'-class for the different synchronized and non-synchronized functions used. */ class MITKQTWIDGETS_EXPORT QmitkAbstractMultiWidget : public QWidget { Q_OBJECT public: using RenderWindowWidgetPointer = std::shared_ptr; using RenderWindowWidgetMap = std::map>; using RenderWindowHash = QHash; using ViewDirection = mitk::BaseRenderer::ViewDirection; QmitkAbstractMultiWidget(QWidget* parent = 0, Qt::WindowFlags f = 0, const QString& multiWidgetName = "multiwidget"); virtual ~QmitkAbstractMultiWidget(); virtual void InitializeMultiWidget() = 0; virtual void MultiWidgetOpened() { } virtual void MultiWidgetClosed() { } virtual void SetDataStorage(mitk::DataStorage* dataStorage); mitk::DataStorage* GetDataStorage() const; int GetRowCount() const; int GetColumnCount() const; virtual void SetLayout(int row, int column); virtual void Synchronize(bool) { }; virtual void SetInteractionScheme(mitk::InteractionSchemeSwitcher::InteractionScheme scheme); mitk::InteractionEventHandler* GetInteractionEventHandler(); void SetDisplayActionEventHandler(std::unique_ptr displayActionEventHandler); mitk::DisplayActionEventHandler* GetDisplayActionEventHandler(); RenderWindowWidgetMap GetRenderWindowWidgets() const; RenderWindowWidgetMap Get2DRenderWindowWidgets() const; RenderWindowWidgetMap Get3DRenderWindowWidgets() const; RenderWindowWidgetPointer GetRenderWindowWidget(int row, int column) const; RenderWindowWidgetPointer GetRenderWindowWidget(const QString& widgetName) const; RenderWindowWidgetPointer GetRenderWindowWidget(const QmitkRenderWindow* renderWindow) const; RenderWindowHash GetRenderWindows() const; QmitkRenderWindow* GetRenderWindow(int row, int column) const; virtual QmitkRenderWindow* GetRenderWindow(const QString& widgetName) const; virtual QmitkRenderWindow* GetRenderWindow(const ViewDirection& viewDirection) const = 0; virtual void SetActiveRenderWindowWidget(RenderWindowWidgetPointer activeRenderWindowWidget); RenderWindowWidgetPointer GetActiveRenderWindowWidget() const; RenderWindowWidgetPointer GetFirstRenderWindowWidget() const; RenderWindowWidgetPointer GetLastRenderWindowWidget() const; virtual QString GetNameFromIndex(int row, int column) const; virtual QString GetNameFromIndex(size_t index) const; unsigned int GetNumberOfRenderWindowWidgets() const; void RequestUpdate(const QString& widgetName); void RequestUpdateAll(); void ForceImmediateUpdate(const QString& widgetName); void ForceImmediateUpdateAll(); /** * @brief Set the reference geometry for interaction inside the render windows of the render window part. * * The concrete implementation is subclass-specific, no default implementation is provided here. * * @param referenceGeometry The reference geometry which is used for updating the * time geometry inside the render windows. * @param resetCamera If true, the camera and crosshair will be reset to the default view (centered, no zoom). * If false, the current crosshair position and the camera zoom will be stored and reset * after the reference geometry has been updated. */ virtual void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) = 0; + /** + * @brief Returns true if the render windows are coupled; false if not. + * + * Render windows are coupled if the slice navigation controller of the render windows + * are connected which means that always the same geometry is used for the render windows. + */ + virtual bool HasCoupledRenderWindows() const = 0; + virtual void SetSelectedPosition(const mitk::Point3D& newPosition, const QString& widgetName) = 0; virtual const mitk::Point3D GetSelectedPosition(const QString& widgetName) const = 0; virtual void SetCrosshairVisibility(bool visible) = 0; virtual bool GetCrosshairVisibility() const = 0; virtual void SetCrosshairGap(unsigned int gapSize) = 0; virtual void ResetCrosshair() = 0; virtual void SetWidgetPlaneMode(int mode) = 0; virtual void ActivateMenuWidget(bool state); virtual bool IsMenuWidgetEnabled() const; QmitkMultiWidgetLayoutManager* GetMultiWidgetLayoutManager() const; signals: void ActiveRenderWindowChanged(); private slots: void OnFocusChanged(itk::Object*, const itk::EventObject& event); protected: virtual void AddRenderWindowWidget(const QString& widgetName, RenderWindowWidgetPointer renderWindowWidget); virtual void RemoveRenderWindowWidget(); private: /** * @brief This function will be called by the function 'SetLayout' and * can be implemented and customized in the subclasses. */ virtual void SetLayoutImpl() = 0; /** * @brief This function will be called by the function 'SetInteractionScheme' and * can be implemented and customized in the subclasses. */ virtual void SetInteractionSchemeImpl() = 0; struct Impl; std::unique_ptr m_Impl; }; #endif // QMITKABSTRACTMULTIWIDGET_H diff --git a/Modules/QtWidgets/include/QmitkMxNMultiWidget.h b/Modules/QtWidgets/include/QmitkMxNMultiWidget.h index 288f6af696..42505725a6 100644 --- a/Modules/QtWidgets/include/QmitkMxNMultiWidget.h +++ b/Modules/QtWidgets/include/QmitkMxNMultiWidget.h @@ -1,102 +1,109 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef QMITKMXNMULTIWIDGET_H #define QMITKMXNMULTIWIDGET_H // qt widgets module #include "MitkQtWidgetsExports.h" #include "QmitkAbstractMultiWidget.h" /** * @brief The 'QmitkMxNMultiWidget' is a 'QmitkAbstractMultiWidget' that is used to display multiple render windows at once. * Render windows can dynamically be added and removed to change the layout of the multi widget. This * is done by using the 'SetLayout'-function to define a layout. This will automatically add or remove * the appropriate number of render window widgets. */ class MITKQTWIDGETS_EXPORT QmitkMxNMultiWidget : public QmitkAbstractMultiWidget { Q_OBJECT public: QmitkMxNMultiWidget(QWidget* parent = nullptr, Qt::WindowFlags f = 0, const QString& multiWidgetName = "mxnmulti"); ~QmitkMxNMultiWidget(); void InitializeMultiWidget() override; void Synchronize(bool synchronized) override; QmitkRenderWindow* GetRenderWindow(const QString& widgetName) const override; QmitkRenderWindow* GetRenderWindow(const mitk::BaseRenderer::ViewDirection& viewDirection) const override; void SetActiveRenderWindowWidget(RenderWindowWidgetPointer activeRenderWindowWidget) override; /** * @brief Set the reference geometry for interaction inside the active render windows of the MxNMultiWidget. * * @param referenceGeometry The reference geometry which is used for updating the * time geometry inside the active render window. * @param resetCamera If true, the camera and crosshair will be reset to the default view (centered, no zoom). * If false, the current crosshair position and the camera zoom will be stored and reset * after the reference geometry has been updated. */ void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) override; + /** + * @brief Returns true if the render windows are coupled; false if not. + * + * For the MxNMultiWidget the render windows are typically decoupled. + */ + bool HasCoupledRenderWindows() const override; + void SetSelectedPosition(const mitk::Point3D& newPosition, const QString& widgetName) override; const mitk::Point3D GetSelectedPosition(const QString& widgetName) const override; void SetCrosshairVisibility(bool visible) override; bool GetCrosshairVisibility() const override; void SetCrosshairGap(unsigned int gapSize) override; void ResetCrosshair() override; void SetWidgetPlaneMode(int userMode) override; mitk::SliceNavigationController* GetTimeNavigationController(); void AddPlanesToDataStorage(); void RemovePlanesFromDataStorage(); public Q_SLOTS: // mouse events void wheelEvent(QWheelEvent* e) override; void mousePressEvent(QMouseEvent* e) override; void moveEvent(QMoveEvent* e) override; Q_SIGNALS: void WheelMoved(QWheelEvent *); void Moved(); protected: void RemoveRenderWindowWidget() override; private: void SetLayoutImpl() override; void SetInteractionSchemeImpl() override { } void CreateRenderWindowWidget(); mitk::SliceNavigationController* m_TimeNavigationController; bool m_CrosshairVisibility; }; #endif // QMITKMXNMULTIWIDGET_H diff --git a/Modules/QtWidgets/include/QmitkStdMultiWidget.h b/Modules/QtWidgets/include/QmitkStdMultiWidget.h index abde547c05..c9b4e1dceb 100644 --- a/Modules/QtWidgets/include/QmitkStdMultiWidget.h +++ b/Modules/QtWidgets/include/QmitkStdMultiWidget.h @@ -1,162 +1,169 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef QMITKSTDMULTIWIDGET_H #define QMITKSTDMULTIWIDGET_H // qt widgets module #include "MitkQtWidgetsExports.h" #include "QmitkAbstractMultiWidget.h" /** * @brief The 'QmitkStdMultiWidget' is a 'QmitkAbstractMultiWidget' that is used to display multiple render windows at once. * Render windows are predefined in a 2x2 design with 3 different 2D view planes and a 3D render window. */ class MITKQTWIDGETS_EXPORT QmitkStdMultiWidget : public QmitkAbstractMultiWidget { Q_OBJECT public: QmitkStdMultiWidget( QWidget *parent = nullptr, Qt::WindowFlags f = nullptr, const QString &name = "stdmulti"); ~QmitkStdMultiWidget() override; virtual void InitializeMultiWidget() override; virtual QmitkRenderWindow* GetRenderWindow(const QString& widgetName) const override; virtual QmitkRenderWindow* GetRenderWindow(const mitk::BaseRenderer::ViewDirection& viewDirection) const override; /** * @brief Set the reference geometry for interaction inside all render windows of the StdMultiWidget. * * @param referenceGeometry The reference geometry which is used for updating the * time geometry inside all four render windows. * @param resetCamera If true, the camera and crosshair will be reset to the default view (centered, no zoom). * If false, the current crosshair position and the camera zoom will be stored and reset * after the reference geometry has been updated. */ void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) override; + /** + * @brief Returns true if the render windows are coupled; false if not. + * + * For the StdMultiWidget the render windows are typically coupled. + */ + bool HasCoupledRenderWindows() const override; + virtual void SetSelectedPosition(const mitk::Point3D& newPosition, const QString& widgetName) override; virtual const mitk::Point3D GetSelectedPosition(const QString& widgetName) const override; virtual void SetCrosshairVisibility(bool) override; virtual bool GetCrosshairVisibility() const override; void SetCrosshairGap(unsigned int gapSize) override; virtual void ResetCrosshair() override; virtual void SetWidgetPlaneMode(int mode) override; mitk::SliceNavigationController* GetTimeNavigationController(); void AddPlanesToDataStorage(); void RemovePlanesFromDataStorage(); /** * @brief Convenience method to get a render window widget. * @param number of the widget (0-3) * @return The render window widget */ QmitkRenderWindow* GetRenderWindow(unsigned int number) const; QmitkRenderWindow* GetRenderWindow1() const; QmitkRenderWindow* GetRenderWindow2() const; QmitkRenderWindow* GetRenderWindow3() const; QmitkRenderWindow* GetRenderWindow4() const; /** * @brief Convenience method to get a widget plane. * @param number of the widget plane (1-3) * @return The widget plane as data node */ mitk::DataNode::Pointer GetWidgetPlane(unsigned int number) const; mitk::DataNode::Pointer GetWidgetPlane1() const; mitk::DataNode::Pointer GetWidgetPlane2() const; mitk::DataNode::Pointer GetWidgetPlane3() const; /** * @brief SetDecorationColor Set the color of the decoration of the 4 widgets. * * This is used to color the frame of the renderwindow and the corner annatation. * For the first 3 widgets, this color is a property of the helper object nodes * which contain the respective plane geometry. For widget 4, this is a member, * since there is no data node for this widget. */ void SetDecorationColor(unsigned int widgetNumber, mitk::Color color); /** * @brief GetDecorationColorForWidget Get the color for annotation, crosshair and rectangle. * @param widgetNumber Number of the renderwindow (0-3). * @return Color in mitk format. */ mitk::Color GetDecorationColor(unsigned int widgetNumber); public Q_SLOTS: // mouse events virtual void mousePressEvent(QMouseEvent*) override; virtual void moveEvent(QMoveEvent* e) override; virtual void wheelEvent(QWheelEvent* e) override; void Fit(); void AddDisplayPlaneSubTree(); void EnsureDisplayContainsPoint(mitk::BaseRenderer *renderer, const mitk::Point3D &p); void SetWidgetPlaneVisibility(const char *widgetName, bool visible, mitk::BaseRenderer *renderer = nullptr); void SetWidgetPlanesVisibility(bool visible, mitk::BaseRenderer *renderer = nullptr); Q_SIGNALS: void NotifyCrosshairVisibilityChanged(bool visible); void NotifyCrosshairRotationModeChanged(int mode); void WheelMoved(QWheelEvent *); void Moved(); private: virtual void SetLayoutImpl() override; virtual void SetInteractionSchemeImpl() override { } void CreateRenderWindowWidgets(); mitk::SliceNavigationController* m_TimeNavigationController; /** * @brief The 3 helper objects which contain the plane geometry. */ mitk::DataNode::Pointer m_PlaneNode1; mitk::DataNode::Pointer m_PlaneNode2; mitk::DataNode::Pointer m_PlaneNode3; /** * @brief m_ParentNodeForGeometryPlanes This helper object is added to the datastorage * and contains the 3 planes for displaying the image geometry (crosshair and 3D planes). */ mitk::DataNode::Pointer m_ParentNodeForGeometryPlanes; /** * @brief m_DecorationColorWidget4 color for annotation and rectangle of widget 4. * * For other widgets1-3, the color is a property of the respective data node. * There is no node for widget 4, hence, we need an extra member. */ mitk::Color m_DecorationColorWidget4; }; #endif // QMITKSTDMULTIWIDGET_H diff --git a/Modules/QtWidgets/src/QmitkMxNMultiWidget.cpp b/Modules/QtWidgets/src/QmitkMxNMultiWidget.cpp index 580fd3049b..4b049ca746 100644 --- a/Modules/QtWidgets/src/QmitkMxNMultiWidget.cpp +++ b/Modules/QtWidgets/src/QmitkMxNMultiWidget.cpp @@ -1,377 +1,382 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #include "QmitkMxNMultiWidget.h" #include "QmitkRenderWindowWidget.h" // mitk core #include #include #include // qt #include #include QmitkMxNMultiWidget::QmitkMxNMultiWidget(QWidget* parent, Qt::WindowFlags f/* = 0*/, const QString& multiWidgetName/* = "mxnmulti"*/) : QmitkAbstractMultiWidget(parent, f, multiWidgetName) , m_TimeNavigationController(nullptr) , m_CrosshairVisibility(false) { m_TimeNavigationController = mitk::RenderingManager::GetInstance()->GetTimeNavigationController(); } QmitkMxNMultiWidget::~QmitkMxNMultiWidget() { auto allRenderWindows = this->GetRenderWindows(); for (auto& renderWindow : allRenderWindows) { m_TimeNavigationController->Disconnect(renderWindow->GetSliceNavigationController()); } } void QmitkMxNMultiWidget::InitializeMultiWidget() { SetLayout(1, 1); SetDisplayActionEventHandler(std::make_unique()); auto displayActionEventHandler = GetDisplayActionEventHandler(); if (nullptr != displayActionEventHandler) { displayActionEventHandler->InitActions(); } } void QmitkMxNMultiWidget::Synchronize(bool synchronized) { if (synchronized) { SetDisplayActionEventHandler(std::make_unique()); } else { SetDisplayActionEventHandler(std::make_unique()); } auto displayActionEventHandler = GetDisplayActionEventHandler(); if (nullptr != displayActionEventHandler) { displayActionEventHandler->InitActions(); } } QmitkRenderWindow* QmitkMxNMultiWidget::GetRenderWindow(const QString& widgetName) const { if ("axial" == widgetName || "sagittal" == widgetName || "coronal" == widgetName || "3d" == widgetName) { return GetActiveRenderWindowWidget()->GetRenderWindow(); } return QmitkAbstractMultiWidget::GetRenderWindow(widgetName); } QmitkRenderWindow* QmitkMxNMultiWidget::GetRenderWindow(const mitk::BaseRenderer::ViewDirection& /*viewDirection*/) const { // currently no mapping between view directions and render windows // simply return the currently active render window return GetActiveRenderWindowWidget()->GetRenderWindow(); } void QmitkMxNMultiWidget::SetActiveRenderWindowWidget(RenderWindowWidgetPointer activeRenderWindowWidget) { auto currentActiveRenderWindowWidget = GetActiveRenderWindowWidget(); if (currentActiveRenderWindowWidget == activeRenderWindowWidget) { return; } // reset the decoration color of the previously active render window widget if (nullptr != currentActiveRenderWindowWidget) { auto decorationColor = currentActiveRenderWindowWidget->GetDecorationColor(); QColor hexColor(decorationColor[0] * 255, decorationColor[1] * 255, decorationColor[2] * 255); currentActiveRenderWindowWidget->setStyleSheet("QmitkRenderWindowWidget { border: 2px solid " + hexColor.name(QColor::HexRgb) + "; }"); } // set the new decoration color of the currently active render window widget if (nullptr != activeRenderWindowWidget) { activeRenderWindowWidget->setStyleSheet("QmitkRenderWindowWidget { border: 2px solid #FF6464; }"); } QmitkAbstractMultiWidget::SetActiveRenderWindowWidget(activeRenderWindowWidget); } void QmitkMxNMultiWidget::SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) { auto* renderingManager = mitk::RenderingManager::GetInstance(); mitk::Point3D currentPosition = mitk::Point3D(); unsigned int imageTimeStep = 0; if (!resetCamera) { // store the current position to set it again later, if the camera should not be reset currentPosition = this->GetSelectedPosition(""); // store the current time step to set it again later, if the camera should not be reset const auto currentTimePoint = renderingManager->GetTimeNavigationController()->GetSelectedTimePoint(); if (referenceGeometry->IsValidTimePoint(currentTimePoint)) { imageTimeStep = referenceGeometry->TimePointToTimeStep(currentTimePoint); } } // initialize active render window renderingManager->InitializeView( this->GetActiveRenderWindowWidget()->GetRenderWindow()->GetVtkRenderWindow(), referenceGeometry, resetCamera); if (!resetCamera) { this->SetSelectedPosition(currentPosition, ""); renderingManager->GetTimeNavigationController()->GetTime()->SetPos(imageTimeStep); } } +bool QmitkMxNMultiWidget::HasCoupledRenderWindows() const +{ + return false; +} + void QmitkMxNMultiWidget::SetSelectedPosition(const mitk::Point3D& newPosition, const QString& widgetName) { RenderWindowWidgetPointer renderWindowWidget; if (widgetName.isNull() || widgetName.isEmpty()) { renderWindowWidget = GetActiveRenderWindowWidget(); } else { renderWindowWidget = GetRenderWindowWidget(widgetName); } if (nullptr != renderWindowWidget) { renderWindowWidget->GetSliceNavigationController()->SelectSliceByPoint(newPosition); renderWindowWidget->SetCrosshairPosition(newPosition); return; } MITK_ERROR << "Position can not be set for an unknown render window widget."; } const mitk::Point3D QmitkMxNMultiWidget::GetSelectedPosition(const QString& widgetName) const { RenderWindowWidgetPointer renderWindowWidget; if (widgetName.isNull() || widgetName.isEmpty()) { renderWindowWidget = GetActiveRenderWindowWidget(); } else { renderWindowWidget = GetRenderWindowWidget(widgetName); } if (nullptr != renderWindowWidget) { return renderWindowWidget->GetCrosshairPosition(); } MITK_ERROR << "Crosshair position can not be retrieved."; return mitk::Point3D(0.0); } void QmitkMxNMultiWidget::SetCrosshairVisibility(bool visible) { // get the specific render window that sent the signal QmitkRenderWindow* renderWindow = qobject_cast(sender()); if (nullptr == renderWindow) { return; } auto renderWindowWidget = this->GetRenderWindowWidget(renderWindow); renderWindowWidget->SetCrosshairVisibility(visible); } bool QmitkMxNMultiWidget::GetCrosshairVisibility() const { // get the specific render window that sent the signal QmitkRenderWindow* renderWindow = qobject_cast(sender()); if (nullptr == renderWindow) { return false; } auto renderWindowWidget = this->GetRenderWindowWidget(renderWindow); return renderWindowWidget->GetCrosshairVisibility(); } void QmitkMxNMultiWidget::SetCrosshairGap(unsigned int gapSize) { auto renderWindowWidgets = this->GetRenderWindowWidgets(); for (const auto& renderWindowWidget : renderWindowWidgets) { renderWindowWidget.second->SetCrosshairGap(gapSize); } } void QmitkMxNMultiWidget::ResetCrosshair() { auto dataStorage = GetDataStorage(); if (nullptr == dataStorage) { return; } // get the specific render window that sent the signal QmitkRenderWindow* renderWindow = qobject_cast(sender()); if (nullptr == renderWindow) { return; } mitk::RenderingManager::GetInstance()->InitializeViewByBoundingObjects(renderWindow->GetRenderWindow(), dataStorage); SetWidgetPlaneMode(mitk::InteractionSchemeSwitcher::MITKStandard); } void QmitkMxNMultiWidget::SetWidgetPlaneMode(int userMode) { MITK_DEBUG << "Changing crosshair mode to " << userMode; switch (userMode) { case 0: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKStandard); break; case 1: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKRotationUncoupled); break; case 2: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKRotationCoupled); break; case 3: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKSwivel); break; } } mitk::SliceNavigationController* QmitkMxNMultiWidget::GetTimeNavigationController() { return m_TimeNavigationController; } void QmitkMxNMultiWidget::AddPlanesToDataStorage() { auto renderWindowWidgets = this->GetRenderWindowWidgets(); for (const auto& renderWindowWidget : renderWindowWidgets) { renderWindowWidget.second->AddPlanesToDataStorage(); } } void QmitkMxNMultiWidget::RemovePlanesFromDataStorage() { auto renderWindowWidgets = this->GetRenderWindowWidgets(); for (const auto& renderWindowWidget : renderWindowWidgets) { renderWindowWidget.second->RemovePlanesFromDataStorage(); } } ////////////////////////////////////////////////////////////////////////// // PUBLIC SLOTS // MOUSE EVENTS ////////////////////////////////////////////////////////////////////////// void QmitkMxNMultiWidget::wheelEvent(QWheelEvent* e) { emit WheelMoved(e); } void QmitkMxNMultiWidget::mousePressEvent(QMouseEvent*) { // nothing here, but necessary for mouse interactions (.xml-configuration files) } void QmitkMxNMultiWidget::moveEvent(QMoveEvent* e) { QWidget::moveEvent(e); // it is necessary to readjust the position of the overlays as the MultiWidget has moved // unfortunately it's not done by QmitkRenderWindow::moveEvent -> must be done here emit Moved(); } void QmitkMxNMultiWidget::RemoveRenderWindowWidget() { auto renderWindowWidgets = this->GetRenderWindowWidgets(); auto iterator = renderWindowWidgets.find(this->GetNameFromIndex(this->GetNumberOfRenderWindowWidgets() - 1)); if (iterator == renderWindowWidgets.end()) { return; } // disconnect each signal of this render window widget RenderWindowWidgetPointer renderWindowWidgetToRemove = iterator->second; m_TimeNavigationController->Disconnect(renderWindowWidgetToRemove->GetSliceNavigationController()); QmitkAbstractMultiWidget::RemoveRenderWindowWidget(); } ////////////////////////////////////////////////////////////////////////// // PRIVATE ////////////////////////////////////////////////////////////////////////// void QmitkMxNMultiWidget::SetLayoutImpl() { int requiredRenderWindowWidgets = GetRowCount() * GetColumnCount(); int existingRenderWindowWidgets = GetRenderWindowWidgets().size(); int difference = requiredRenderWindowWidgets - existingRenderWindowWidgets; while (0 < difference) { // more render window widgets needed CreateRenderWindowWidget(); --difference; } while (0 > difference) { // less render window widgets needed RemoveRenderWindowWidget(); ++difference; } auto firstRenderWindowWidget = GetFirstRenderWindowWidget(); if (nullptr != firstRenderWindowWidget) { SetActiveRenderWindowWidget(firstRenderWindowWidget); } GetMultiWidgetLayoutManager()->SetLayoutDesign(QmitkMultiWidgetLayoutManager::LayoutDesign::DEFAULT); } void QmitkMxNMultiWidget::CreateRenderWindowWidget() { // create the render window widget and connect signal / slot QString renderWindowWidgetName = GetNameFromIndex(GetNumberOfRenderWindowWidgets()); RenderWindowWidgetPointer renderWindowWidget = std::make_shared(this, renderWindowWidgetName, GetDataStorage(), true); renderWindowWidget->SetCornerAnnotationText(renderWindowWidgetName.toStdString()); AddRenderWindowWidget(renderWindowWidgetName, renderWindowWidget); auto renderWindow = renderWindowWidget->GetRenderWindow(); auto layoutManager = GetMultiWidgetLayoutManager(); connect(renderWindow, &QmitkRenderWindow::LayoutDesignChanged, layoutManager, &QmitkMultiWidgetLayoutManager::SetLayoutDesign); connect(renderWindow, &QmitkRenderWindow::ResetView, this, &QmitkMxNMultiWidget::ResetCrosshair); connect(renderWindow, &QmitkRenderWindow::CrosshairVisibilityChanged, this, &QmitkMxNMultiWidget::SetCrosshairVisibility); connect(renderWindow, &QmitkRenderWindow::CrosshairRotationModeChanged, this, &QmitkMxNMultiWidget::SetWidgetPlaneMode); // connect time navigation controller to react on geometry time events with the render window's slice naviation controller m_TimeNavigationController->ConnectGeometryTimeEvent(renderWindow->GetSliceNavigationController()); // reverse connection between the render window's slice navigation controller and the time navigation controller renderWindow->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController); } diff --git a/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp b/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp index 059b1fed8e..8e8abb1b22 100644 --- a/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp +++ b/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp @@ -1,741 +1,746 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #define SMW_INFO MITK_INFO("widget.stdmulti") #include "QmitkStdMultiWidget.h" #include "QmitkRenderWindowWidget.h" // mitk core #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // qt #include #include #include // vtk #include // c++ #include QmitkStdMultiWidget::QmitkStdMultiWidget(QWidget *parent, Qt::WindowFlags f/* = 0*/, const QString &name/* = "stdmulti"*/) : QmitkAbstractMultiWidget(parent, f, name) , m_TimeNavigationController(nullptr) { m_TimeNavigationController = mitk::RenderingManager::GetInstance()->GetTimeNavigationController(); } QmitkStdMultiWidget::~QmitkStdMultiWidget() { auto allRenderWindows = this->GetRenderWindows(); for (auto& renderWindow : allRenderWindows) { m_TimeNavigationController->Disconnect(renderWindow->GetSliceNavigationController()); } } void QmitkStdMultiWidget::InitializeMultiWidget() { // yellow is default color for widget4 m_DecorationColorWidget4[0] = 1.0f; m_DecorationColorWidget4[1] = 1.0f; m_DecorationColorWidget4[2] = 0.0f; SetLayout(2, 2); // transfer colors in WorldGeometry-Nodes of the associated Renderer mitk::IntProperty::Pointer layer; // of widget 1 m_PlaneNode1 = mitk::BaseRenderer::GetInstance(GetRenderWindow1()->renderWindow())->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode1->SetColor(GetDecorationColor(0)); layer = mitk::IntProperty::New(1000); m_PlaneNode1->SetProperty("layer", layer); // of widget 2 m_PlaneNode2 = mitk::BaseRenderer::GetInstance(GetRenderWindow2()->renderWindow())->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode2->SetColor(GetDecorationColor(1)); layer = mitk::IntProperty::New(1000); m_PlaneNode2->SetProperty("layer", layer); // of widget 3 m_PlaneNode3 = mitk::BaseRenderer::GetInstance(GetRenderWindow3()->renderWindow())->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode3->SetColor(GetDecorationColor(2)); layer = mitk::IntProperty::New(1000); m_PlaneNode3->SetProperty("layer", layer); // the parent node m_ParentNodeForGeometryPlanes = mitk::BaseRenderer::GetInstance(GetRenderWindow4()->renderWindow())->GetCurrentWorldPlaneGeometryNode(); layer = mitk::IntProperty::New(1000); m_ParentNodeForGeometryPlanes->SetProperty("layer", layer); AddDisplayPlaneSubTree(); SetDisplayActionEventHandler(std::make_unique()); auto displayActionEventHandler = GetDisplayActionEventHandler(); if (nullptr != displayActionEventHandler) { displayActionEventHandler->InitActions(); } } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow(const QString& widgetName) const { if ("axial" == widgetName) { return GetRenderWindow1(); } if ("sagittal" == widgetName) { return GetRenderWindow2(); } if ("coronal" == widgetName) { return GetRenderWindow3(); } if ("3d" == widgetName) { return GetRenderWindow4(); } return QmitkAbstractMultiWidget::GetRenderWindow(widgetName); } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow(const mitk::BaseRenderer::ViewDirection& viewDirection) const { return GetRenderWindow(static_cast(viewDirection)); } void QmitkStdMultiWidget::SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) { auto* renderingManager = mitk::RenderingManager::GetInstance(); mitk::Point3D currentPosition = mitk::Point3D(); unsigned int imageTimeStep = 0; if (!resetCamera) { // store the current position to set it again later, if the camera should not be reset currentPosition = this->GetSelectedPosition(""); // store the current time step to set it again later, if the camera should not be reset const auto currentTimePoint = renderingManager->GetTimeNavigationController()->GetSelectedTimePoint(); if (referenceGeometry->IsValidTimePoint(currentTimePoint)) { imageTimeStep = referenceGeometry->TimePointToTimeStep(currentTimePoint); } } // initialize render windows renderingManager->InitializeViews(referenceGeometry, mitk::RenderingManager::REQUEST_UPDATE_ALL, resetCamera); if (!resetCamera) { this->SetSelectedPosition(currentPosition, ""); renderingManager->GetTimeNavigationController()->GetTime()->SetPos(imageTimeStep); } } +bool QmitkStdMultiWidget::HasCoupledRenderWindows() const +{ + return true; +} + void QmitkStdMultiWidget::SetSelectedPosition(const mitk::Point3D& newPosition, const QString& /*widgetName*/) { GetRenderWindow1()->GetSliceNavigationController()->SelectSliceByPoint(newPosition); GetRenderWindow2()->GetSliceNavigationController()->SelectSliceByPoint(newPosition); GetRenderWindow3()->GetSliceNavigationController()->SelectSliceByPoint(newPosition); RequestUpdateAll(); } const mitk::Point3D QmitkStdMultiWidget::GetSelectedPosition(const QString& /*widgetName*/) const { const mitk::PlaneGeometry* plane1 = GetRenderWindow1()->GetSliceNavigationController()->GetCurrentPlaneGeometry(); const mitk::PlaneGeometry* plane2 = GetRenderWindow2()->GetSliceNavigationController()->GetCurrentPlaneGeometry(); const mitk::PlaneGeometry* plane3 = GetRenderWindow3()->GetSliceNavigationController()->GetCurrentPlaneGeometry(); mitk::Line3D line; if ((plane1 != nullptr) && (plane2 != nullptr) && (plane1->IntersectionLine(plane2, line))) { mitk::Point3D point; if ((plane3 != nullptr) && (plane3->IntersectionPoint(line, point))) { return point; } } return mitk::Point3D(); } void QmitkStdMultiWidget::SetCrosshairVisibility(bool visible) { if (m_PlaneNode1.IsNotNull()) { m_PlaneNode1->SetVisibility(visible); } if (m_PlaneNode2.IsNotNull()) { m_PlaneNode2->SetVisibility(visible); } if (m_PlaneNode3.IsNotNull()) { m_PlaneNode3->SetVisibility(visible); } emit NotifyCrosshairVisibilityChanged(visible); RequestUpdateAll(); } bool QmitkStdMultiWidget::GetCrosshairVisibility() const { bool crosshairVisibility = true; if (m_PlaneNode1.IsNotNull()) { bool visibilityProperty = false; m_PlaneNode1->GetVisibility(visibilityProperty, nullptr); crosshairVisibility &= visibilityProperty; } if (m_PlaneNode2.IsNotNull()) { bool visibilityProperty = false; crosshairVisibility &= m_PlaneNode2->GetVisibility(visibilityProperty, nullptr); crosshairVisibility &= visibilityProperty; } if (m_PlaneNode3.IsNotNull()) { bool visibilityProperty = false; crosshairVisibility &= m_PlaneNode3->GetVisibility(visibilityProperty, nullptr); crosshairVisibility &= visibilityProperty; } return crosshairVisibility; } void QmitkStdMultiWidget::SetCrosshairGap(unsigned int gapSize) { m_PlaneNode1->SetIntProperty("Crosshair.Gap Size", gapSize); m_PlaneNode2->SetIntProperty("Crosshair.Gap Size", gapSize); m_PlaneNode3->SetIntProperty("Crosshair.Gap Size", gapSize); } void QmitkStdMultiWidget::ResetCrosshair() { auto dataStorage = GetDataStorage(); if (nullptr == dataStorage) { return; } mitk::RenderingManager::GetInstance()->InitializeViewsByBoundingObjects(dataStorage); SetWidgetPlaneMode(mitk::InteractionSchemeSwitcher::MITKStandard); } void QmitkStdMultiWidget::SetWidgetPlaneMode(int userMode) { MITK_DEBUG << "Changing crosshair mode to " << userMode; switch (userMode) { case 0: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKStandard); break; case 1: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKRotationUncoupled); break; case 2: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKRotationCoupled); break; case 3: SetInteractionScheme(mitk::InteractionSchemeSwitcher::MITKSwivel); break; } emit NotifyCrosshairRotationModeChanged(userMode); } mitk::SliceNavigationController* QmitkStdMultiWidget::GetTimeNavigationController() { return m_TimeNavigationController; } void QmitkStdMultiWidget::AddPlanesToDataStorage() { auto dataStorage = GetDataStorage(); if (nullptr == dataStorage) { return; } if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_ParentNodeForGeometryPlanes.IsNotNull()) { dataStorage->Add(m_ParentNodeForGeometryPlanes); dataStorage->Add(m_PlaneNode1, m_ParentNodeForGeometryPlanes); dataStorage->Add(m_PlaneNode2, m_ParentNodeForGeometryPlanes); dataStorage->Add(m_PlaneNode3, m_ParentNodeForGeometryPlanes); } } void QmitkStdMultiWidget::RemovePlanesFromDataStorage() { auto dataStorage = GetDataStorage(); if (nullptr == dataStorage) { return; } if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_ParentNodeForGeometryPlanes.IsNotNull()) { dataStorage->Remove(m_PlaneNode1); dataStorage->Remove(m_PlaneNode2); dataStorage->Remove(m_PlaneNode3); dataStorage->Remove(m_ParentNodeForGeometryPlanes); } } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow(unsigned int number) const { switch (number) { case 0: return GetRenderWindow1(); case 1: return GetRenderWindow2(); case 2: return GetRenderWindow3(); case 3: return GetRenderWindow4(); default: MITK_ERROR << "Requested unknown render window"; break; } return nullptr; } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow1() const { return QmitkAbstractMultiWidget::GetRenderWindow(GetNameFromIndex(0, 0)); } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow2() const { return QmitkAbstractMultiWidget::GetRenderWindow(GetNameFromIndex(0, 1)); } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow3() const { return QmitkAbstractMultiWidget::GetRenderWindow(GetNameFromIndex(1, 0)); } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow4() const { return QmitkAbstractMultiWidget::GetRenderWindow(GetNameFromIndex(1, 1)); } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane1() const { return m_PlaneNode1; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane2() const { return m_PlaneNode2; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane3() const { return m_PlaneNode3; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane(unsigned number) const { switch (number) { case 1: return m_PlaneNode1; case 2: return m_PlaneNode2; case 3: return m_PlaneNode3; default: MITK_ERROR << "Requested unknown render window"; break; } return nullptr; } void QmitkStdMultiWidget::SetDecorationColor(unsigned int widgetNumber, mitk::Color color) { switch (widgetNumber) { case 0: if (m_PlaneNode1.IsNotNull()) { m_PlaneNode1->SetColor(color); } break; case 1: if (m_PlaneNode2.IsNotNull()) { m_PlaneNode2->SetColor(color); } break; case 2: if (m_PlaneNode3.IsNotNull()) { m_PlaneNode3->SetColor(color); } break; case 3: m_DecorationColorWidget4 = color; break; default: MITK_ERROR << "Decoration color for unknown widget!"; break; } } mitk::Color QmitkStdMultiWidget::GetDecorationColor(unsigned int widgetNumber) { // The implementation looks a bit messy here, but it avoids // synchronization of the color of the geometry nodes and an // internal member here. // Default colors were chosen for decent visibility. // Feel free to change your preferences in the workbench. float tmp[3] = { 0.0f, 0.0f, 0.0f }; switch (widgetNumber) { case 0: { if (m_PlaneNode1.IsNotNull()) { if (m_PlaneNode1->GetColor(tmp)) { return dynamic_cast(m_PlaneNode1->GetProperty("color"))->GetColor(); } } float red[3] = { 0.753f, 0.0f, 0.0f }; // This is #C00000 in hex return mitk::Color(red); } case 1: { if (m_PlaneNode2.IsNotNull()) { if (m_PlaneNode2->GetColor(tmp)) { return dynamic_cast(m_PlaneNode2->GetProperty("color"))->GetColor(); } } float green[3] = { 0.0f, 0.69f, 0.0f }; // This is #00B000 in hex return mitk::Color(green); } case 2: { if (m_PlaneNode3.IsNotNull()) { if (m_PlaneNode3->GetColor(tmp)) { return dynamic_cast(m_PlaneNode3->GetProperty("color"))->GetColor(); } } float blue[3] = { 0.0, 0.502f, 1.0f }; // This is #0080FF in hex return mitk::Color(blue); } case 3: { return m_DecorationColorWidget4; } default: MITK_ERROR << "Decoration color for unknown widget!"; float black[3] = { 0.0f, 0.0f, 0.0f }; return mitk::Color(black); } } void QmitkStdMultiWidget::mousePressEvent(QMouseEvent*) { // nothing here, but necessary for mouse interactions (.xml-configuration files) } void QmitkStdMultiWidget::moveEvent(QMoveEvent* e) { QWidget::moveEvent(e); // it is necessary to readjust the position of the Annotation as the StdMultiWidget has moved // unfortunately it's not done by QmitkRenderWindow::moveEvent -> must be done here emit Moved(); } void QmitkStdMultiWidget::wheelEvent(QWheelEvent* e) { emit WheelMoved(e); } void QmitkStdMultiWidget::Fit() { vtkSmartPointer vtkrenderer; vtkrenderer = mitk::BaseRenderer::GetInstance(GetRenderWindow1()->renderWindow())->GetVtkRenderer(); if (nullptr != vtkrenderer) { vtkrenderer->ResetCamera(); } vtkrenderer = mitk::BaseRenderer::GetInstance(GetRenderWindow2()->renderWindow())->GetVtkRenderer(); if (nullptr != vtkrenderer) { vtkrenderer->ResetCamera(); } vtkrenderer = mitk::BaseRenderer::GetInstance(GetRenderWindow3()->renderWindow())->GetVtkRenderer(); if (nullptr != vtkrenderer) { vtkrenderer->ResetCamera(); } vtkrenderer = mitk::BaseRenderer::GetInstance(GetRenderWindow4()->renderWindow())->GetVtkRenderer(); if (nullptr != vtkrenderer) { vtkrenderer->ResetCamera(); } mitk::BaseRenderer::GetInstance(GetRenderWindow1()->renderWindow())->GetCameraController()->Fit(); mitk::BaseRenderer::GetInstance(GetRenderWindow2()->renderWindow())->GetCameraController()->Fit(); mitk::BaseRenderer::GetInstance(GetRenderWindow3()->renderWindow())->GetCameraController()->Fit(); mitk::BaseRenderer::GetInstance(GetRenderWindow4()->renderWindow())->GetCameraController()->Fit(); int w = vtkObject::GetGlobalWarningDisplay(); vtkObject::GlobalWarningDisplayOff(); vtkObject::SetGlobalWarningDisplay(w); } void QmitkStdMultiWidget::AddDisplayPlaneSubTree() { // add the displayed planes of the multiwidget to a node to which the subtree // @a planesSubTree points ... mitk::PlaneGeometryDataMapper2D::Pointer mapper; // ... of widget 1 mitk::BaseRenderer* renderer1 = mitk::BaseRenderer::GetInstance(GetRenderWindow1()->renderWindow()); m_PlaneNode1 = renderer1->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode1->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode1->SetProperty("name", mitk::StringProperty::New(std::string(renderer1->GetName()) + ".plane")); m_PlaneNode1->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode1->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::PlaneGeometryDataMapper2D::New(); m_PlaneNode1->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 2 mitk::BaseRenderer* renderer2 = mitk::BaseRenderer::GetInstance(GetRenderWindow2()->renderWindow()); m_PlaneNode2 = renderer2->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode2->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode2->SetProperty("name", mitk::StringProperty::New(std::string(renderer2->GetName()) + ".plane")); m_PlaneNode2->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode2->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::PlaneGeometryDataMapper2D::New(); m_PlaneNode2->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 3 mitk::BaseRenderer *renderer3 = mitk::BaseRenderer::GetInstance(GetRenderWindow3()->renderWindow()); m_PlaneNode3 = renderer3->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode3->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode3->SetProperty("name", mitk::StringProperty::New(std::string(renderer3->GetName()) + ".plane")); m_PlaneNode3->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode3->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::PlaneGeometryDataMapper2D::New(); m_PlaneNode3->SetMapper(mitk::BaseRenderer::Standard2D, mapper); m_ParentNodeForGeometryPlanes = mitk::DataNode::New(); m_ParentNodeForGeometryPlanes->SetProperty("name", mitk::StringProperty::New("Widgets")); m_ParentNodeForGeometryPlanes->SetProperty("helper object", mitk::BoolProperty::New(true)); } void QmitkStdMultiWidget::EnsureDisplayContainsPoint(mitk::BaseRenderer *renderer, const mitk::Point3D &p) { mitk::Point2D pointOnDisplay; renderer->WorldToDisplay(p, pointOnDisplay); if (pointOnDisplay[0] < renderer->GetVtkRenderer()->GetOrigin()[0] || pointOnDisplay[1] < renderer->GetVtkRenderer()->GetOrigin()[1] || pointOnDisplay[0] > renderer->GetVtkRenderer()->GetOrigin()[0] + renderer->GetViewportSize()[0] || pointOnDisplay[1] > renderer->GetVtkRenderer()->GetOrigin()[1] + renderer->GetViewportSize()[1]) { mitk::Point2D pointOnPlane; renderer->GetCurrentWorldPlaneGeometry()->Map(p, pointOnPlane); renderer->GetCameraController()->MoveCameraToPoint(pointOnPlane); } } void QmitkStdMultiWidget::SetWidgetPlaneVisibility(const char *widgetName, bool visible, mitk::BaseRenderer *renderer) { auto dataStorage = GetDataStorage(); if (nullptr != dataStorage) { mitk::DataNode* dataNode = dataStorage->GetNamedNode(widgetName); if (dataNode != nullptr) { dataNode->SetVisibility(visible, renderer); } } } void QmitkStdMultiWidget::SetWidgetPlanesVisibility(bool visible, mitk::BaseRenderer *renderer) { if (m_PlaneNode1.IsNotNull()) { m_PlaneNode1->SetVisibility(visible, renderer); } if (m_PlaneNode2.IsNotNull()) { m_PlaneNode2->SetVisibility(visible, renderer); } if (m_PlaneNode3.IsNotNull()) { m_PlaneNode3->SetVisibility(visible, renderer); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } ////////////////////////////////////////////////////////////////////////// // PRIVATE ////////////////////////////////////////////////////////////////////////// void QmitkStdMultiWidget::SetLayoutImpl() { CreateRenderWindowWidgets(); GetMultiWidgetLayoutManager()->SetLayoutDesign(QmitkMultiWidgetLayoutManager::LayoutDesign::DEFAULT); // Initialize views as axial, sagittal, coronal to all data objects in DataStorage auto geo = GetDataStorage()->ComputeBoundingGeometry3D(GetDataStorage()->GetAll()); mitk::RenderingManager::GetInstance()->InitializeViews(geo); } void QmitkStdMultiWidget::CreateRenderWindowWidgets() { // create axial render window (widget) QString renderWindowWidgetName = GetNameFromIndex(0, 0); RenderWindowWidgetPointer renderWindowWidget1 = std::make_shared(this, renderWindowWidgetName, GetDataStorage()); auto renderWindow1 = renderWindowWidget1->GetRenderWindow(); renderWindow1->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Axial); renderWindowWidget1->SetDecorationColor(GetDecorationColor(0)); renderWindowWidget1->SetCornerAnnotationText("Axial"); renderWindowWidget1->GetRenderWindow()->SetLayoutIndex(ViewDirection::AXIAL); AddRenderWindowWidget(renderWindowWidgetName, renderWindowWidget1); // create sagittal render window (widget) renderWindowWidgetName = GetNameFromIndex(0, 1); RenderWindowWidgetPointer renderWindowWidget2 = std::make_shared(this, renderWindowWidgetName, GetDataStorage()); auto renderWindow2 = renderWindowWidget2->GetRenderWindow(); renderWindow2->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Sagittal); renderWindowWidget2->SetDecorationColor(GetDecorationColor(1)); renderWindowWidget2->setStyleSheet("border: 0px"); renderWindowWidget2->SetCornerAnnotationText("Sagittal"); renderWindowWidget2->GetRenderWindow()->SetLayoutIndex(ViewDirection::SAGITTAL); AddRenderWindowWidget(renderWindowWidgetName, renderWindowWidget2); // create coronal render window (widget) renderWindowWidgetName = GetNameFromIndex(1, 0); RenderWindowWidgetPointer renderWindowWidget3 = std::make_shared(this, renderWindowWidgetName, GetDataStorage()); auto renderWindow3 = renderWindowWidget3->GetRenderWindow(); renderWindow3->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Coronal); renderWindowWidget3->SetDecorationColor(GetDecorationColor(2)); renderWindowWidget3->SetCornerAnnotationText("Coronal"); renderWindowWidget3->GetRenderWindow()->SetLayoutIndex(ViewDirection::CORONAL); AddRenderWindowWidget(renderWindowWidgetName, renderWindowWidget3); // create 3D render window (widget) renderWindowWidgetName = GetNameFromIndex(1, 1); RenderWindowWidgetPointer renderWindowWidget4 = std::make_shared(this, renderWindowWidgetName, GetDataStorage()); auto renderWindow4 = renderWindowWidget4->GetRenderWindow(); renderWindow4->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Original); renderWindowWidget4->SetDecorationColor(GetDecorationColor(3)); renderWindowWidget4->SetCornerAnnotationText("3D"); renderWindowWidget4->GetRenderWindow()->SetLayoutIndex(ViewDirection::THREE_D); mitk::BaseRenderer::GetInstance(renderWindowWidget4->GetRenderWindow()->renderWindow())->SetMapperID(mitk::BaseRenderer::Standard3D); AddRenderWindowWidget(renderWindowWidgetName, renderWindowWidget4); SetActiveRenderWindowWidget(renderWindowWidget1); // connect to the "time navigation controller": send time via sliceNavigationControllers m_TimeNavigationController->ConnectGeometryTimeEvent(renderWindow1->GetSliceNavigationController()); m_TimeNavigationController->ConnectGeometryTimeEvent(renderWindow2->GetSliceNavigationController()); m_TimeNavigationController->ConnectGeometryTimeEvent(renderWindow3->GetSliceNavigationController()); m_TimeNavigationController->ConnectGeometryTimeEvent(renderWindow4->GetSliceNavigationController()); renderWindow1->GetSliceNavigationController()->ConnectGeometrySendEvent( mitk::BaseRenderer::GetInstance(renderWindow4->renderWindow())); // reverse connection between sliceNavigationControllers and timeNavigationController renderWindow1->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController); renderWindow2->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController); renderWindow3->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController); //renderWindow4->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController); auto layoutManager = GetMultiWidgetLayoutManager(); connect(renderWindow1, &QmitkRenderWindow::ResetView, this, &QmitkStdMultiWidget::ResetCrosshair); connect(renderWindow1, &QmitkRenderWindow::CrosshairVisibilityChanged, this, &QmitkStdMultiWidget::SetCrosshairVisibility); connect(renderWindow1, &QmitkRenderWindow::CrosshairRotationModeChanged, this, &QmitkStdMultiWidget::SetWidgetPlaneMode); connect(renderWindow1, &QmitkRenderWindow::LayoutDesignChanged, layoutManager, &QmitkMultiWidgetLayoutManager::SetLayoutDesign); connect(this, &QmitkStdMultiWidget::NotifyCrosshairVisibilityChanged, renderWindow1, &QmitkRenderWindow::UpdateCrosshairVisibility); connect(this, &QmitkStdMultiWidget::NotifyCrosshairRotationModeChanged, renderWindow1, &QmitkRenderWindow::UpdateCrosshairRotationMode); connect(renderWindow2, &QmitkRenderWindow::ResetView, this, &QmitkStdMultiWidget::ResetCrosshair); connect(renderWindow2, &QmitkRenderWindow::CrosshairVisibilityChanged, this, &QmitkStdMultiWidget::SetCrosshairVisibility); connect(renderWindow2, &QmitkRenderWindow::CrosshairRotationModeChanged, this, &QmitkStdMultiWidget::SetWidgetPlaneMode); connect(renderWindow2, &QmitkRenderWindow::LayoutDesignChanged, layoutManager, &QmitkMultiWidgetLayoutManager::SetLayoutDesign); connect(this, &QmitkStdMultiWidget::NotifyCrosshairVisibilityChanged, renderWindow2, &QmitkRenderWindow::UpdateCrosshairVisibility); connect(this, &QmitkStdMultiWidget::NotifyCrosshairRotationModeChanged, renderWindow2, &QmitkRenderWindow::UpdateCrosshairRotationMode); connect(renderWindow3, &QmitkRenderWindow::ResetView, this, &QmitkStdMultiWidget::ResetCrosshair); connect(renderWindow3, &QmitkRenderWindow::CrosshairVisibilityChanged, this, &QmitkStdMultiWidget::SetCrosshairVisibility); connect(renderWindow3, &QmitkRenderWindow::CrosshairRotationModeChanged, this, &QmitkStdMultiWidget::SetWidgetPlaneMode); connect(renderWindow3, &QmitkRenderWindow::LayoutDesignChanged, layoutManager, &QmitkMultiWidgetLayoutManager::SetLayoutDesign); connect(this, &QmitkStdMultiWidget::NotifyCrosshairVisibilityChanged, renderWindow3, &QmitkRenderWindow::UpdateCrosshairVisibility); connect(this, &QmitkStdMultiWidget::NotifyCrosshairRotationModeChanged, renderWindow3, &QmitkRenderWindow::UpdateCrosshairRotationMode); connect(renderWindow4, &QmitkRenderWindow::ResetView, this, &QmitkStdMultiWidget::ResetCrosshair); connect(renderWindow4, &QmitkRenderWindow::CrosshairVisibilityChanged, this, &QmitkStdMultiWidget::SetCrosshairVisibility); connect(renderWindow4, &QmitkRenderWindow::CrosshairRotationModeChanged, this, &QmitkStdMultiWidget::SetWidgetPlaneMode); connect(renderWindow4, &QmitkRenderWindow::LayoutDesignChanged, layoutManager, &QmitkMultiWidgetLayoutManager::SetLayoutDesign); connect(this, &QmitkStdMultiWidget::NotifyCrosshairVisibilityChanged, renderWindow4, &QmitkRenderWindow::UpdateCrosshairVisibility); connect(this, &QmitkStdMultiWidget::NotifyCrosshairRotationModeChanged, renderWindow4, &QmitkRenderWindow::UpdateCrosshairRotationMode); } diff --git a/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp b/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp index f3c59c86fb..7016cc6971 100755 --- a/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp @@ -1,663 +1,622 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ //#define MBILOG_ENABLE_DEBUG 1 #include #include "QmitkToolSelectionBox.h" #include "QmitkToolGUI.h" #include "mitkBaseRenderer.h" #include #include #include #include #include #include #include #include "usModuleResource.h" #include "usModuleResourceStream.h" #include "mitkToolManagerProvider.h" QmitkToolSelectionBox::QmitkToolSelectionBox(QWidget *parent, mitk::DataStorage *) : QWidget(parent), m_SelfCall(false), m_DisplayedGroups("default"), m_LayoutColumns(2), m_ShowNames(true), m_GenerateAccelerators(false), m_ToolGUIWidget(nullptr), m_LastToolGUI(nullptr), m_ToolButtonGroup(nullptr), m_ButtonLayout(nullptr) { QFont currentFont = QWidget::font(); currentFont.setBold(true); QWidget::setFont(currentFont); m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); // QButtonGroup m_ToolButtonGroup = new QButtonGroup(this); // some features of QButtonGroup m_ToolButtonGroup->setExclusive(false); // mutually exclusive toggle buttons RecreateButtons(); QWidget::setContentsMargins(0, 0, 0, 0); if (layout() != nullptr) { layout()->setContentsMargins(0, 0, 0, 0); } // reactions to signals connect(m_ToolButtonGroup, SIGNAL(buttonClicked(int)), this, SLOT(toolButtonClicked(int))); // reactions to ToolManager events m_ToolManager->ActiveToolChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); // show active tool SetOrUnsetButtonForActiveTool(); QWidget::setEnabled(false); } QmitkToolSelectionBox::~QmitkToolSelectionBox() { m_ToolManager->ActiveToolChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); } mitk::ToolManager *QmitkToolSelectionBox::GetToolManager() { return m_ToolManager; } void QmitkToolSelectionBox::SetToolManager( mitk::ToolManager &newManager) // no nullptr pointer allowed here, a manager is required { // say bye to the old manager m_ToolManager->ActiveToolChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); if (QWidget::isEnabled()) { m_ToolManager->UnregisterClient(); } m_ToolManager = &newManager; RecreateButtons(); // greet the new one m_ToolManager->ActiveToolChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); if (QWidget::isEnabled()) { m_ToolManager->RegisterClient(); } // ask the new one what the situation is like SetOrUnsetButtonForActiveTool(); } void QmitkToolSelectionBox::toolButtonClicked(int id) { if (!QWidget::isEnabled()) return; // this method could be triggered from the constructor, when we are still disabled MITK_DEBUG << "toolButtonClicked(" << id << "): id translates to tool ID " << m_ToolIDForButtonID[id]; QToolButton *toolButton = dynamic_cast(m_ToolButtonGroup->buttons().at(id)); if (toolButton) { if ((m_ButtonIDForToolID.find(m_ToolManager->GetActiveToolID()) != m_ButtonIDForToolID.end()) // if we have this tool in our box && (m_ButtonIDForToolID[m_ToolManager->GetActiveToolID()] == id)) // the tool corresponding to this button is already active { // disable this button, disable all tools toolButton->setChecked(false); m_ToolManager->ActivateTool(-1); // disable everything } else { // enable the corresponding tool m_SelfCall = true; m_ToolManager->ActivateTool(m_ToolIDForButtonID[id]); m_SelfCall = false; } } } void QmitkToolSelectionBox::OnToolManagerToolModified() { SetOrUnsetButtonForActiveTool(); } void QmitkToolSelectionBox::SetOrUnsetButtonForActiveTool() { // we want to emit a signal in any case, whether we selected ourselves or somebody else changes "our" tool manager. // --> emit before check on m_SelfCall int id = m_ToolManager->GetActiveToolID(); // don't emit signal for shape model tools bool emitSignal = true; mitk::Tool *tool = m_ToolManager->GetActiveTool(); if (tool && std::string(tool->GetGroup()) == "organ_segmentation") emitSignal = false; if (emitSignal) emit ToolSelected(id); // delete old GUI (if any) if (m_LastToolGUI && m_ToolGUIWidget) { if (m_ToolGUIWidget->layout()) { m_ToolGUIWidget->layout()->removeWidget(m_LastToolGUI); } m_LastToolGUI->setParent(nullptr); delete m_LastToolGUI; // will hopefully notify parent and layouts m_LastToolGUI = nullptr; QLayout *layout = m_ToolGUIWidget->layout(); if (layout) { layout->activate(); } } QToolButton *toolButton(nullptr); if (m_ButtonIDForToolID.find(id) != m_ButtonIDForToolID.end()) // if this tool is in our box { toolButton = dynamic_cast(m_ToolButtonGroup->buttons().at(m_ButtonIDForToolID[id])); } if (toolButton) { // mmueller // uncheck all other buttons QAbstractButton *tmpBtn = nullptr; QList::iterator it; for (int i = 0; i < m_ToolButtonGroup->buttons().size(); ++i) { tmpBtn = m_ToolButtonGroup->buttons().at(i); if (tmpBtn != toolButton) dynamic_cast(tmpBtn)->setChecked(false); } toolButton->setChecked(true); if (m_ToolGUIWidget && tool) { // create and reparent new GUI (if any) itk::Object::Pointer possibleGUI = tool->GetGUI("Qmitk", "GUI").GetPointer(); // prefix and postfix if (possibleGUI.IsNull()) possibleGUI = tool->GetGUI("", "GUI").GetPointer(); QmitkToolGUI *gui = dynamic_cast(possibleGUI.GetPointer()); //! m_LastToolGUI = gui; if (gui) { gui->SetTool(tool); gui->setParent(m_ToolGUIWidget); gui->move(gui->geometry().topLeft()); gui->show(); QLayout *layout = m_ToolGUIWidget->layout(); if (!layout) { layout = new QVBoxLayout(m_ToolGUIWidget); } if (layout) { layout->addWidget(gui); layout->activate(); } } } } else { // disable all buttons QToolButton *selectedToolButton = dynamic_cast(m_ToolButtonGroup->checkedButton()); if (selectedToolButton) { selectedToolButton->setChecked(false); } } } void QmitkToolSelectionBox::OnToolManagerReferenceDataModified() { if (m_SelfCall) return; MITK_DEBUG << "OnToolManagerReferenceDataModified()"; this->UpdateButtonsEnabledState(); - this->SetGUIEnabledAccordingToToolManagerState(); } void QmitkToolSelectionBox::OnToolManagerWorkingDataModified() { if (m_SelfCall) return; MITK_DEBUG << "OnToolManagerWorkingDataModified()"; this->UpdateButtonsEnabledState(); - this->SetGUIEnabledAccordingToToolManagerState(); } -/** - Implementes the logic, which decides, when tools are activated/deactivated. -*/ -void QmitkToolSelectionBox::SetGUIEnabledAccordingToToolManagerState() +void QmitkToolSelectionBox::setEnabled(bool enable) { - auto* referenceNode = m_ToolManager->GetReferenceData(0); - auto* workingNode = m_ToolManager->GetWorkingData(0); - mitk::LabelSetImage* workingData = nullptr; - - if (workingNode != nullptr) - workingData = dynamic_cast(workingNode->GetData()); - - bool enabled = - referenceNode != nullptr && workingNode != nullptr && workingData != nullptr && - referenceNode->IsVisible(nullptr) && workingNode->IsVisible(nullptr) && - workingData->GetNumberOfLabels(workingData->GetActiveLayer()) > 1 && - isVisible(); - - if (QWidget::isEnabled() == enabled) + if (QWidget::isEnabled() == enable) return; - QWidget::setEnabled(enabled); + QWidget::setEnabled(enable); - if (enabled) + if (enable) { m_ToolManager->RegisterClient(); auto id = m_ToolManager->GetActiveToolID(); emit ToolSelected(id); } else { m_ToolManager->ActivateTool(-1); m_ToolManager->UnregisterClient(); emit ToolSelected(-1); } } -/** - External enableization... -*/ -void QmitkToolSelectionBox::setEnabled(bool /*enable*/) -{ - SetGUIEnabledAccordingToToolManagerState(); -} - void QmitkToolSelectionBox::UpdateButtonsEnabledState() { auto buttons = m_ToolButtonGroup->buttons(); const auto refDataNode = m_ToolManager->GetReferenceData(0); const mitk::BaseData* refData = nullptr; if (nullptr != refDataNode) { refData = refDataNode->GetData(); } const auto workingDataNode = m_ToolManager->GetWorkingData(0); const mitk::BaseData* workingData = nullptr; if (nullptr != workingDataNode) { workingData = workingDataNode->GetData(); } for (const auto& button : qAsConst(buttons)) { const auto buttonID = m_ToolButtonGroup->id(button); const auto toolID = m_ToolIDForButtonID[buttonID]; const auto tool = m_ToolManager->GetToolById(toolID); button->setEnabled(tool->CanHandle(refData, workingData)); } } void QmitkToolSelectionBox::RecreateButtons() { if (m_ToolManager.IsNull()) return; QList l = m_ToolButtonGroup->buttons(); // remove all buttons that are there QList::iterator it; QAbstractButton *btn; for (it = l.begin(); it != l.end(); ++it) { btn = *it; m_ToolButtonGroup->removeButton(btn); delete btn; } mitk::ToolManager::ToolVectorTypeConst allPossibleTools = m_ToolManager->GetTools(); mitk::ToolManager::ToolVectorTypeConst allTools; typedef std::pair SortPairType; typedef std::priority_queue SortedToolQueueType; SortedToolQueueType toolPositions; // clear and sort all tools // step one: find name/group of all tools in m_DisplayedGroups string. remember these positions for all tools. for (mitk::ToolManager::ToolVectorTypeConst::const_iterator iter = allPossibleTools.begin(); iter != allPossibleTools.end(); ++iter) { const mitk::Tool *tool = *iter; std::string::size_type namePos = m_DisplayedGroups.find(std::string("'") + tool->GetName() + "'"); std::string::size_type groupPos = m_DisplayedGroups.find(std::string("'") + tool->GetGroup() + "'"); if (!m_DisplayedGroups.empty() && namePos == std::string::npos && groupPos == std::string::npos) continue; // skip if (m_DisplayedGroups.empty() && std::string(tool->GetName()).length() > 0) { namePos = static_cast(tool->GetName()[0]); } SortPairType thisPair = std::make_pair(namePos < groupPos ? namePos : groupPos, *iter); toolPositions.push(thisPair); } // step two: sort tools according to previously found positions in m_DisplayedGroups MITK_DEBUG << "Sorting order of tools (lower number --> earlier in button group)"; while (!toolPositions.empty()) { SortPairType thisPair = toolPositions.top(); MITK_DEBUG << "Position " << thisPair.first << " : " << thisPair.second->GetName(); allTools.push_back(thisPair.second); toolPositions.pop(); } std::reverse(allTools.begin(), allTools.end()); MITK_DEBUG << "Sorted tools:"; for (mitk::ToolManager::ToolVectorTypeConst::const_iterator iter = allTools.begin(); iter != allTools.end(); ++iter) { MITK_DEBUG << (*iter)->GetName(); } if (m_ButtonLayout == nullptr) m_ButtonLayout = new QGridLayout; int row(0); int column(-1); int currentButtonID(0); m_ButtonIDForToolID.clear(); m_ToolIDForButtonID.clear(); QToolButton *button = nullptr; MITK_DEBUG << "Creating buttons for tools"; // fill group box with buttons for (mitk::ToolManager::ToolVectorTypeConst::const_iterator iter = allTools.begin(); iter != allTools.end(); ++iter) { const mitk::Tool *tool = *iter; int currentToolID(m_ToolManager->GetToolID(tool)); ++column; // new line if we are at the maximum columns if (column == m_LayoutColumns) { ++row; column = 0; } button = new QToolButton; button->setSizePolicy(QSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum)); // add new button to the group MITK_DEBUG << "Adding button with ID " << currentToolID; m_ToolButtonGroup->addButton(button, currentButtonID); // ... and to the layout MITK_DEBUG << "Adding button in row/column " << row << "/" << column; m_ButtonLayout->addWidget(button, row, column); if (m_LayoutColumns == 1) { button->setToolButtonStyle(Qt::ToolButtonTextBesideIcon); } else { button->setToolButtonStyle(Qt::ToolButtonTextUnderIcon); } button->setCheckable(true); if (currentToolID == m_ToolManager->GetActiveToolID()) button->setChecked(true); QString label; if (m_GenerateAccelerators) { label += "&"; } label += tool->GetName(); QString tooltip = tool->GetName(); MITK_DEBUG << tool->GetName() << ", " << label.toLocal8Bit().constData() << ", '" << tooltip.toLocal8Bit().constData(); if (m_ShowNames) { button->setText(label); // a label button->setToolTip(tooltip); QFont currentFont = button->font(); currentFont.setBold(false); button->setFont(currentFont); } us::ModuleResource iconResource = tool->GetIconResource(); if (!iconResource.IsValid()) { button->setIcon(QIcon(QPixmap(tool->GetXPM()))); } else { auto isSVG = "svg" == iconResource.GetSuffix(); auto openmode = isSVG ? std::ios_base::in : std::ios_base::binary; us::ModuleResourceStream resourceStream(iconResource, openmode); resourceStream.seekg(0, std::ios::end); std::ios::pos_type length = resourceStream.tellg(); resourceStream.seekg(0, std::ios::beg); char *data = new char[length]; resourceStream.read(data, length); if (isSVG) { button->setIcon(QmitkStyleManager::ThemeIcon(QByteArray::fromRawData(data, length))); } else { QPixmap pixmap; pixmap.loadFromData(QByteArray::fromRawData(data, length)); button->setIcon(QIcon(pixmap)); } delete[] data; if (m_ShowNames) { if (m_LayoutColumns == 1) button->setToolButtonStyle(Qt::ToolButtonTextBesideIcon); else button->setToolButtonStyle(Qt::ToolButtonTextUnderIcon); button->setIconSize(QSize(24, 24)); } else { button->setToolButtonStyle(Qt::ToolButtonIconOnly); button->setIconSize(QSize(32, 32)); button->setToolTip(tooltip); } } if (m_GenerateAccelerators) { QString firstLetter = QString(tool->GetName()); firstLetter.truncate(1); button->setShortcut( firstLetter); // a keyboard shortcut (just the first letter of the given name w/o any CTRL or something) } m_ButtonIDForToolID[currentToolID] = currentButtonID; m_ToolIDForButtonID[currentButtonID] = currentToolID; MITK_DEBUG << "m_ButtonIDForToolID[" << currentToolID << "] == " << currentButtonID; MITK_DEBUG << "m_ToolIDForButtonID[" << currentButtonID << "] == " << currentToolID; tool->GUIProcessEventsMessage += mitk::MessageDelegate( this, &QmitkToolSelectionBox::OnToolGUIProcessEventsMessage); // will never add a listener twice, so we don't have // to check here tool->ErrorMessage += mitk::MessageDelegate1( this, &QmitkToolSelectionBox::OnToolErrorMessage); // will never add a listener twice, so we don't have to check here tool->GeneralMessage += mitk::MessageDelegate1(this, &QmitkToolSelectionBox::OnGeneralToolMessage); ++currentButtonID; } // setting grid layout for this groupbox this->setLayout(m_ButtonLayout); this->UpdateButtonsEnabledState(); // this->update(); } void QmitkToolSelectionBox::OnToolGUIProcessEventsMessage() { qApp->processEvents(); } void QmitkToolSelectionBox::OnToolErrorMessage(std::string s) { QMessageBox::critical( this, "MITK", QString(s.c_str()), QMessageBox::Ok, QMessageBox::NoButton, QMessageBox::NoButton); } void QmitkToolSelectionBox::OnGeneralToolMessage(std::string s) { QMessageBox::information( this, "MITK", QString(s.c_str()), QMessageBox::Ok, QMessageBox::NoButton, QMessageBox::NoButton); } void QmitkToolSelectionBox::SetDisplayedToolGroups(const std::string &toolGroups) { if (m_DisplayedGroups != toolGroups) { QString q_DisplayedGroups = toolGroups.c_str(); // quote all unquoted single words q_DisplayedGroups = q_DisplayedGroups.replace(QRegExp("\\b(\\w+)\\b|'([^']+)'"), "'\\1\\2'"); MITK_DEBUG << "m_DisplayedGroups was \"" << toolGroups << "\""; m_DisplayedGroups = q_DisplayedGroups.toLocal8Bit().constData(); MITK_DEBUG << "m_DisplayedGroups is \"" << m_DisplayedGroups << "\""; RecreateButtons(); SetOrUnsetButtonForActiveTool(); } } void QmitkToolSelectionBox::SetLayoutColumns(int columns) { if (columns > 0 && columns != m_LayoutColumns) { m_LayoutColumns = columns; RecreateButtons(); } } void QmitkToolSelectionBox::SetShowNames(bool show) { if (show != m_ShowNames) { m_ShowNames = show; RecreateButtons(); } } void QmitkToolSelectionBox::SetGenerateAccelerators(bool accel) { if (accel != m_GenerateAccelerators) { m_GenerateAccelerators = accel; RecreateButtons(); } } void QmitkToolSelectionBox::SetToolGUIArea(QWidget *parentWidget) { m_ToolGUIWidget = parentWidget; } -void QmitkToolSelectionBox::setTitle(const QString & /*title*/) -{ -} - -void QmitkToolSelectionBox::showEvent(QShowEvent *e) -{ - QWidget::showEvent(e); - SetGUIEnabledAccordingToToolManagerState(); -} - -void QmitkToolSelectionBox::hideEvent(QHideEvent *e) -{ - QWidget::hideEvent(e); - SetGUIEnabledAccordingToToolManagerState(); -} diff --git a/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.h b/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.h index 9fa2c0f0cb..dbdc0e8c49 100755 --- a/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.h +++ b/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.h @@ -1,139 +1,134 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef QmitkToolSelectionBox_h_Included #define QmitkToolSelectionBox_h_Included #include "QmitkToolGUIArea.h" #include #include "mitkToolManager.h" #include #include #include #include class QmitkToolGUI; /** \brief Display the tool selection state of a mitk::ToolManager \sa mitk::ToolManager \ingroup org_mitk_gui_qt_interactivesegmentation \ingroup ToolManagerEtAl This widget graphically displays the active tool of a mitk::ToolManager as a set of toggle buttons. Each button show the identification of a Tool (icon and name). When a button's toggle state is "down", the tool is activated. When a different button is clicked, the active tool is switched. When you click an already active button, the associated tool is deactivated with no replacement, which means that no tool is active then. When this widget is enabled/disabled it (normally) also enables/disables the tools. There could be cases where two QmitkToolSelectionBox widgets are associated to the same ToolManager, but if this happens, please look deeply into the code. Last contributor: $Author: maleike $ */ class MITKSEGMENTATIONUI_EXPORT QmitkToolSelectionBox : public QWidget //! { Q_OBJECT public: QmitkToolSelectionBox(QWidget *parent = nullptr, mitk::DataStorage *storage = nullptr); ~QmitkToolSelectionBox() override; mitk::ToolManager *GetToolManager(); void SetToolManager(mitk::ToolManager &); // no nullptr pointer allowed here, a manager is required - void setTitle(const QString &title); - /** You may specify a list of tool "groups" that should be displayed in this widget. Every Tool can report its group as a string. This method will try to find the tool's group inside the supplied string \c toolGroups . If there is a match, the tool is displayed. Effectively, you can provide a human readable list like "default, lymphnodevolumetry, oldERISstuff". @param toolGroups */ void SetDisplayedToolGroups(const std::string &toolGroups = nullptr); void OnToolManagerToolModified(); void OnToolManagerReferenceDataModified(); void OnToolManagerWorkingDataModified(); void OnToolGUIProcessEventsMessage(); void OnToolErrorMessage(std::string s); void OnGeneralToolMessage(std::string s); void RecreateButtons(); signals: /// Whenever a tool is activated. id is the index of the active tool. Counting starts at 0, -1 indicates "no tool /// selected" /// This signal is also emitted, when the whole QmitkToolSelectionBox get disabled. Then it will claim /// ToolSelected(-1) /// When it is enabled again, there will be another ToolSelected event with the tool that is currently selected void ToolSelected(int id); public slots: virtual void setEnabled(bool); virtual void SetLayoutColumns(int); virtual void SetShowNames(bool); virtual void SetGenerateAccelerators(bool); virtual void SetToolGUIArea(QWidget *parentWidget); protected slots: void toolButtonClicked(int id); - void SetGUIEnabledAccordingToToolManagerState(); void UpdateButtonsEnabledState(); protected: - void showEvent(QShowEvent *) override; - void hideEvent(QHideEvent *) override; void SetOrUnsetButtonForActiveTool(); mitk::ToolManager::Pointer m_ToolManager; bool m_SelfCall; std::string m_DisplayedGroups; /// stores relationship between button IDs of the Qt widget and tool IDs of ToolManager std::map m_ButtonIDForToolID; /// stores relationship between button IDs of the Qt widget and tool IDs of ToolManager std::map m_ToolIDForButtonID; int m_LayoutColumns; bool m_ShowNames; bool m_GenerateAccelerators; QWidget *m_ToolGUIWidget; QmitkToolGUI *m_LastToolGUI; // store buttons in this group QButtonGroup *m_ToolButtonGroup; QGridLayout *m_ButtonLayout; }; #endif diff --git a/Plugins/org.mitk.gui.common/src/mitkIRenderWindowPart.h b/Plugins/org.mitk.gui.common/src/mitkIRenderWindowPart.h index 8b794c82d7..99ccfe8289 100644 --- a/Plugins/org.mitk.gui.common/src/mitkIRenderWindowPart.h +++ b/Plugins/org.mitk.gui.common/src/mitkIRenderWindowPart.h @@ -1,210 +1,218 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef MITKIRENDERWINDOWPART_H #define MITKIRENDERWINDOWPART_H #include #include #include #include #include #include #include #include class QmitkRenderWindow; namespace mitk { struct IRenderingManager; class SliceNavigationController; /** * \ingroup org_mitk_gui_common * * \brief Interface for a MITK Workbench Part providing a render window. * * This interface allows generic access to Workbench parts which provide some * kind of render window. The interface is intended to be implemented by * subclasses of berry::IWorkbenchPart. Usually, the interface is implemented * by a Workbench editor. * * A IRenderWindowPart provides zero or more QmitkRenderWindow instances which can * be controlled via this interface. QmitkRenderWindow instances have an associated * \e id, which is implementation specific. * Additionally the defined values AXIAL, SAGITTAL, CORONAL, THREE_D from mitk::BaseRenderer * can be used to retrieve a specific QmitkRenderWindow. * * \see ILinkedRenderWindowPart * \see IRenderWindowPartListener * \see QmitkAbstractRenderEditor */ struct MITK_GUI_COMMON_PLUGIN IRenderWindowPart { static const QString DECORATION_BORDER; // = "border" static const QString DECORATION_LOGO; // = "logo" static const QString DECORATION_MENU; // = "menu" static const QString DECORATION_BACKGROUND; // = "background" static const QString DECORATION_CORNER_ANNOTATION; // = "corner annotation" virtual ~IRenderWindowPart(); /** * Get the currently active (focused) render window. * Focus handling is implementation specific. * * \return The active QmitkRenderWindow instance; nullptr * if no render window is active. */ virtual QmitkRenderWindow* GetActiveQmitkRenderWindow() const = 0; /** * Get all render windows with their ids. * * \return A hash map mapping the render window id to the QmitkRenderWindow instance. */ virtual QHash GetQmitkRenderWindows() const = 0; /** * Get a render window with a specific id. * * \param id The render window id. * \return The QmitkRenderWindow instance for id */ virtual QmitkRenderWindow* GetQmitkRenderWindow(const QString& id) const = 0; /** * Get a render window with a specific view direction. * * \param viewDirection The render window view direction. * \return The QmitkRenderWindow instance for viewDirection */ virtual QmitkRenderWindow* GetQmitkRenderWindow(const mitk::BaseRenderer::ViewDirection& viewDirection) const = 0; /** * Get the rendering manager used by this render window part. * * \return The current IRenderingManager instance or nullptr * if no rendering manager is used. */ virtual mitk::IRenderingManager* GetRenderingManager() const = 0; /** * Request an update of all render windows. * * \param requestType Specifies the type of render windows for which an update * will be requested. */ virtual void RequestUpdate(mitk::RenderingManager::RequestType requestType = mitk::RenderingManager::REQUEST_UPDATE_ALL) = 0; /** * Force an immediate update of all render windows. * * \param requestType Specifies the type of render windows for which an immediate update * will be requested. */ virtual void ForceImmediateUpdate(mitk::RenderingManager::RequestType requestType = mitk::RenderingManager::REQUEST_UPDATE_ALL) = 0; /** * @brief Set the reference geometry for interaction inside the render windows of the render window part. * * @param referenceGeometry The reference geometry which is used for updating the * time geometry inside the render windows. * @param resetCamera If true, the camera and crosshair will be reset to the default view (centered, no zoom). * If false, the current crosshair position and the camera zoom will be stored and reset * after the reference geometry has been updated. */ virtual void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) = 0; + /** + * @brief Returns true if the render windows are coupled; false if not. + * + * Render windows are coupled if the slice navigation controller of the render windows + * are connected which means that always the same geometry is used for the render windows. + */ + virtual bool HasCoupledRenderWindows() const = 0; + /** * Get the SliceNavigationController for controlling time positions. * * \return A SliceNavigationController if the render window supports this * operation; otherwise returns nullptr. */ virtual mitk::SliceNavigationController* GetTimeNavigationController() const = 0; /** * Get the selected position in the render window with id id * or in the active render window if id is an empty string. * * \param id The render window id. * \return The currently selected position in world coordinates. */ virtual mitk::Point3D GetSelectedPosition(const QString& id = QString()) const = 0; /** * Set the selected position in the render window with id id * or in the active render window if id is nullptr. * * \param pos The position in world coordinates which should be selected. * \param id The render window id in which the selection should take place. */ virtual void SetSelectedPosition(const mitk::Point3D& pos, const QString& id = QString()) = 0; /** * Get the time point selected in the render window with id id * or in the active render window if id is an empty string. * * \param id The render window id. * \return The currently selected position in world coordinates. */ virtual TimePointType GetSelectedTimePoint(const QString& id = QString()) const = 0; /** * Enable \e decorations like colored borders, menu widgets, logos, text annotations, etc. * * Decorations are implementation specific. A set of standardized decoration names is listed * in GetDecorations(). * * \param enable If true enable the decorations specified in decorations, * otherwise disable them. * \param decorations A list of decoration names. If empty, all supported decorations are affected. * * \see GetDecorations() */ virtual void EnableDecorations(bool enable, const QStringList& decorations = QStringList()) = 0; /** * Return if a specific decoration is enabled. * * \return true if the decoration is enabled, false if it is disabled * or unknown. * * \see GetDecorations() */ virtual bool IsDecorationEnabled(const QString& decoration) const = 0; /** * Get a list of supported decorations. * * The following decoration names are standardized and should not be used for other decoration types: *
    *
  • \e DECORATION_BORDER Any border decorations like colored rectangles, etc. *
  • \e DECORATION_MENU Menus associated with render windows *
  • \e DECORATION_BACKGROUND All kinds of backgrounds (patterns, gradients, etc.) except for solid colored backgrounds *
  • \e DECORATION_LOGO Any kind of logo overlayed on the rendered scene *
* * \return A list of supported decoration names. */ virtual QStringList GetDecorations() const = 0; }; } Q_DECLARE_INTERFACE(mitk::IRenderWindowPart, "org.mitk.ui.IRenderWindowPart") #endif // MITKIRENDERWINDOWPART_H diff --git a/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.cpp b/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.cpp index b8abf40226..55390c7ad5 100644 --- a/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.cpp +++ b/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.cpp @@ -1,230 +1,241 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #include "QmitkAbstractMultiWidgetEditor.h" // mitk qt widgets module #include #include // mitk gui qt common plugin #include "QmitkMultiWidgetDecorationManager.h" // berry #include const QString QmitkAbstractMultiWidgetEditor::EDITOR_ID = "org.mitk.editors.abstractmultiwidget"; struct QmitkAbstractMultiWidgetEditor::Impl final { Impl(); ~Impl() = default; QmitkAbstractMultiWidget* m_MultiWidget; std::unique_ptr m_MultiWidgetDecorationManager; }; QmitkAbstractMultiWidgetEditor::Impl::Impl() : m_MultiWidget(nullptr) { // nothing here } QmitkAbstractMultiWidgetEditor::QmitkAbstractMultiWidgetEditor() : m_Impl(std::make_unique()) { // nothing here } QmitkAbstractMultiWidgetEditor::~QmitkAbstractMultiWidgetEditor() {} QmitkRenderWindow* QmitkAbstractMultiWidgetEditor::GetActiveQmitkRenderWindow() const { const auto& multiWidget = GetMultiWidget(); if (nullptr != multiWidget) { auto activeRenderWindowWidget = multiWidget->GetActiveRenderWindowWidget(); if (nullptr != activeRenderWindowWidget) { return activeRenderWindowWidget->GetRenderWindow(); } } return nullptr; } QHash QmitkAbstractMultiWidgetEditor::GetQmitkRenderWindows() const { QHash result; const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return result; } result = multiWidget->GetRenderWindows(); return result; } QmitkRenderWindow* QmitkAbstractMultiWidgetEditor::GetQmitkRenderWindow(const QString& id) const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return nullptr; } return multiWidget->GetRenderWindow(id); } QmitkRenderWindow* QmitkAbstractMultiWidgetEditor::GetQmitkRenderWindow(const mitk::BaseRenderer::ViewDirection& viewDirection) const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return nullptr; } return multiWidget->GetRenderWindow(viewDirection); } void QmitkAbstractMultiWidgetEditor::SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return; } multiWidget->SetReferenceGeometry(referenceGeometry, resetCamera); } +bool QmitkAbstractMultiWidgetEditor::HasCoupledRenderWindows() const +{ + const auto& multiWidget = GetMultiWidget(); + if (nullptr == multiWidget) + { + return false; + } + + return multiWidget->HasCoupledRenderWindows(); +} + mitk::Point3D QmitkAbstractMultiWidgetEditor::GetSelectedPosition(const QString& id/* = QString()*/) const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return mitk::Point3D(); } return multiWidget->GetSelectedPosition(id); } void QmitkAbstractMultiWidgetEditor::SetSelectedPosition(const mitk::Point3D& pos, const QString& id/* = QString()*/) { const auto& multiWidget = GetMultiWidget(); if (nullptr != multiWidget) { return multiWidget->SetSelectedPosition(pos, id); } } void QmitkAbstractMultiWidgetEditor::EnableDecorations(bool enable, const QStringList& decorations) { m_Impl->m_MultiWidgetDecorationManager->ShowDecorations(enable, decorations); } bool QmitkAbstractMultiWidgetEditor::IsDecorationEnabled(const QString& decoration) const { return m_Impl->m_MultiWidgetDecorationManager->IsDecorationVisible(decoration); } QStringList QmitkAbstractMultiWidgetEditor::GetDecorations() const { return m_Impl->m_MultiWidgetDecorationManager->GetDecorations(); } QmitkRenderWindow* QmitkAbstractMultiWidgetEditor::GetQmitkRenderWindowByIndex(int index) const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return nullptr; } QString renderWindowName = multiWidget->GetNameFromIndex(index); return multiWidget->GetRenderWindow(renderWindowName); } QmitkRenderWindow* QmitkAbstractMultiWidgetEditor::GetQmitkRenderWindowByIndex(int row, int column) const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return nullptr; } QString renderWindowName = multiWidget->GetNameFromIndex(row, column); return multiWidget->GetRenderWindow(renderWindowName); } void QmitkAbstractMultiWidgetEditor::SetMultiWidget(QmitkAbstractMultiWidget* multiWidget) { m_Impl->m_MultiWidget = multiWidget; m_Impl->m_MultiWidgetDecorationManager.reset(new QmitkMultiWidgetDecorationManager(multiWidget)); } QmitkAbstractMultiWidget* QmitkAbstractMultiWidgetEditor::GetMultiWidget() const { return m_Impl->m_MultiWidget; } int QmitkAbstractMultiWidgetEditor::GetRowCount() const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return 0; } return multiWidget->GetRowCount(); } int QmitkAbstractMultiWidgetEditor::GetColumnCount() const { const auto& multiWidget = GetMultiWidget(); if (nullptr == multiWidget) { return 0; } return multiWidget->GetColumnCount(); } void QmitkAbstractMultiWidgetEditor::OnLayoutSet(int row, int column) { const auto& multiWidget = GetMultiWidget(); if (nullptr != multiWidget) { multiWidget->SetLayout(row, column); FirePropertyChange(berry::IWorkbenchPartConstants::PROP_INPUT); } } void QmitkAbstractMultiWidgetEditor::OnSynchronize(bool synchronized) { const auto& multiWidget = GetMultiWidget(); if (nullptr != multiWidget) { multiWidget->Synchronize(synchronized); } } void QmitkAbstractMultiWidgetEditor::OnInteractionSchemeChanged(mitk::InteractionSchemeSwitcher::InteractionScheme scheme) { const auto& multiWidget = GetMultiWidget(); if (nullptr != multiWidget) { multiWidget->SetInteractionScheme(scheme); } } diff --git a/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.h b/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.h index e963d3c09d..c053a419c6 100644 --- a/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.h +++ b/Plugins/org.mitk.gui.qt.common/src/QmitkAbstractMultiWidgetEditor.h @@ -1,131 +1,135 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #ifndef QMITKABSTRACTMULTIWIDGETEDITOR_H #define QMITKABSTRACTMULTIWIDGETEDITOR_H #include // org mitk gui qt common plugin #include // mitk core #include // berry #include // c++ #include class QmitkAbstractMultiWidget; class QmitkLevelWindowWidget; class MITK_QT_COMMON QmitkAbstractMultiWidgetEditor : public QmitkAbstractRenderEditor, public berry::IPartListener { Q_OBJECT public: berryObjectMacro(QmitkAbstractMultiWidgetEditor, QmitkAbstractRenderEditor, IPartListener); static const QString EDITOR_ID; QmitkAbstractMultiWidgetEditor(); virtual ~QmitkAbstractMultiWidgetEditor() override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual QmitkRenderWindow* GetActiveQmitkRenderWindow() const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual QHash GetQmitkRenderWindows() const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual QmitkRenderWindow* GetQmitkRenderWindow(const QString& id) const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual QmitkRenderWindow* GetQmitkRenderWindow(const mitk::BaseRenderer::ViewDirection& viewDirection) const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ - virtual void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) override; + void SetReferenceGeometry(const mitk::TimeGeometry* referenceGeometry, bool resetCamera) override; + /** + * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart + */ + bool HasCoupledRenderWindows() const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual mitk::Point3D GetSelectedPosition(const QString& id = QString()) const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual void SetSelectedPosition(const mitk::Point3D& pos, const QString& id = QString()) override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual void EnableDecorations(bool enable, const QStringList& decorations = QStringList()) override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual bool IsDecorationEnabled(const QString& decoration) const override; /** * @brief Overridden from QmitkAbstractRenderEditor : IRenderWindowPart */ virtual QStringList GetDecorations() const override; /** * @brief Retrieve a QmitkRenderWindow by its index. */ virtual QmitkRenderWindow* GetQmitkRenderWindowByIndex(int index) const; /** * @brief Retrieve a QmitkRenderWindow by the row and column position. */ virtual QmitkRenderWindow* GetQmitkRenderWindowByIndex(int row, int column) const; /** * @brief Set the current multi widget of this editor. */ virtual void SetMultiWidget(QmitkAbstractMultiWidget* multiWidget); /** * @brief Return the current multi widget of this editor. */ virtual QmitkAbstractMultiWidget* GetMultiWidget() const; /** * @brief Return the number of rows of the underlying multi widget. */ virtual int GetRowCount() const; /** * @brief Return the number of columns of the underlying multi widget. */ virtual int GetColumnCount() const; virtual QmitkLevelWindowWidget* GetLevelWindowWidget() const = 0; public Q_SLOTS: /** * @brief A slot that can be called if the layout has been changed. * This function will call the function 'SetLayout' of the multi widget where * custom behavior can be implemented. * Finally 'FirePropertyChange' is called to inform the workbench about an input change. */ virtual void OnLayoutSet(int row, int column); virtual void OnSynchronize(bool synchronized); virtual void OnInteractionSchemeChanged(mitk::InteractionSchemeSwitcher::InteractionScheme scheme); private: struct Impl; std::unique_ptr m_Impl; }; #endif // QMITKABSTRACTMULTIWIDGETEDITOR_H diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp index a56e3c2acf..5d9a9bf351 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp +++ b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp @@ -1,1100 +1,1137 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #include "QmitkSegmentationView.h" #include "mitkPluginActivator.h" // blueberry #include // mitk #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Qmitk #include #include #include // us #include #include // Qt #include #include #include // vtk #include #include const std::string QmitkSegmentationView::VIEW_ID = "org.mitk.views.segmentation"; QmitkSegmentationView::QmitkSegmentationView() : m_Parent(nullptr) , m_Controls(nullptr) , m_RenderWindowPart(nullptr) , m_ToolManager(nullptr) , m_ReferenceNode(nullptr) , m_WorkingNode(nullptr) , m_DrawOutline(true) , m_SelectionMode(false) , m_MouseCursorSet(false) , m_DefaultLabelNaming(true) , m_SelectionChangeIsAlreadyBeingHandled(false) { auto isImage = mitk::TNodePredicateDataType::New(); auto isDwi = mitk::NodePredicateDataType::New("DiffusionImage"); auto isDti = mitk::NodePredicateDataType::New("TensorImage"); auto isOdf = mitk::NodePredicateDataType::New("OdfImage"); auto isSegment = mitk::NodePredicateDataType::New("Segment"); auto validImages = mitk::NodePredicateOr::New(); validImages->AddPredicate(mitk::NodePredicateAnd::New(isImage, mitk::NodePredicateNot::New(isSegment))); validImages->AddPredicate(isDwi); validImages->AddPredicate(isDti); validImages->AddPredicate(isOdf); auto isBinary = mitk::NodePredicateProperty::New("binary", mitk::BoolProperty::New(true)); auto isMask = mitk::NodePredicateAnd::New(isBinary, isImage); auto validSegmentations = mitk::NodePredicateOr::New(); validSegmentations->AddPredicate(mitk::TNodePredicateDataType::New()); validSegmentations->AddPredicate(isMask); m_SegmentationPredicate = mitk::NodePredicateAnd::New(); m_SegmentationPredicate->AddPredicate(validSegmentations); m_SegmentationPredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("helper object"))); m_SegmentationPredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("hidden object"))); m_ReferencePredicate = mitk::NodePredicateAnd::New(); m_ReferencePredicate->AddPredicate(validImages); m_ReferencePredicate->AddPredicate(mitk::NodePredicateNot::New(m_SegmentationPredicate)); m_ReferencePredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("helper object"))); m_ReferencePredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("hidden object"))); m_SegmentationInteractor = mitk::SegmentationInteractor::New(); // add observer for the 'SegmentationInteractionEvent' itk::ReceptorMemberCommand::Pointer geometryNotAlignedCommand = itk::ReceptorMemberCommand::New(); geometryNotAlignedCommand->SetCallbackFunction(this, &QmitkSegmentationView::ValidateRendererGeometry); m_SegmentationInteractor->AddObserver(mitk::SegmentationInteractionEvent(nullptr, true), geometryNotAlignedCommand); m_SegmentationInteractor->Disable(); } QmitkSegmentationView::~QmitkSegmentationView() { if (nullptr != m_Controls) { this->LooseLabelSetConnection(); // deactivate all tools m_ToolManager->ActivateTool(-1); // removing all observers from working data for (NodeTagMapType::iterator dataIter = m_WorkingDataObserverTags.begin(); dataIter != m_WorkingDataObserverTags.end(); ++dataIter) { (*dataIter).first->GetProperty("visible")->RemoveObserver((*dataIter).second); } m_WorkingDataObserverTags.clear(); // removing all observers from reference data for (NodeTagMapType::iterator dataIter = m_ReferenceDataObserverTags.begin(); dataIter != m_ReferenceDataObserverTags.end(); ++dataIter) { (*dataIter).first->GetProperty("visible")->RemoveObserver((*dataIter).second); } m_ReferenceDataObserverTags.clear(); mitk::RenderingManager::GetInstance()->RemoveObserver(m_RenderingManagerObserverTag); ctkPluginContext* context = mitk::PluginActivator::getContext(); ctkServiceReference ppmRef = context->getServiceReference(); mitk::PlanePositionManagerService* service = context->getService(ppmRef); service->RemoveAllPlanePositions(); context->ungetService(ppmRef); m_ToolManager->SetReferenceData(nullptr); m_ToolManager->SetWorkingData(nullptr); } m_ToolManager->ActiveToolChanged -= mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); delete m_Controls; } /**********************************************************************/ /* private Q_SLOTS */ /**********************************************************************/ void QmitkSegmentationView::OnReferenceSelectionChanged(QList) { this->OnAnySelectionChanged(); } void QmitkSegmentationView::OnSegmentationSelectionChanged(QList) { this->OnAnySelectionChanged(); } void QmitkSegmentationView::OnAnySelectionChanged() { // When only a segmentation has been selected and the method is then called by a reference image selection, // the already selected segmentation may not match the geometry predicate of the new reference image anymore. // This will trigger a recursive call of this method further below. While it would be resolved gracefully, we // can spare the extra call with an early-out. The original call of this method will handle the segmentation // selection change afterwards anyway. if (m_SelectionChangeIsAlreadyBeingHandled) return; auto selectedReferenceNode = m_Controls->referenceNodeSelector->GetSelectedNode(); bool referenceNodeChanged = false; m_ToolManager->ActivateTool(-1); if (m_ReferenceNode != selectedReferenceNode) { referenceNodeChanged = true; // Remove visibility observer for the current reference node if (m_ReferenceDataObserverTags.find(m_ReferenceNode) != m_ReferenceDataObserverTags.end()) { m_ReferenceNode->GetProperty("visible")->RemoveObserver(m_ReferenceDataObserverTags[m_ReferenceNode]); m_ReferenceDataObserverTags.erase(m_ReferenceNode); } // Set new reference node m_ReferenceNode = selectedReferenceNode; m_ToolManager->SetReferenceData(m_ReferenceNode); // Prepare for a potential recursive call when changing node predicates of the working node selector m_SelectionChangeIsAlreadyBeingHandled = true; if (m_ReferenceNode.IsNull()) { // Without a reference image, allow all segmentations to be selected m_Controls->workingNodeSelector->SetNodePredicate(m_SegmentationPredicate); m_SelectionChangeIsAlreadyBeingHandled = false; } else { // With a reference image, only allow segmentations that fit the geometry of the reference image to be selected. m_Controls->workingNodeSelector->SetNodePredicate(mitk::NodePredicateAnd::New( mitk::NodePredicateSubGeometry::New(m_ReferenceNode->GetData()->GetGeometry()), m_SegmentationPredicate.GetPointer())); m_SelectionChangeIsAlreadyBeingHandled = false; this->ApplySelectionModeOnReferenceNode(); // Add visibility observer for the new reference node auto command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); m_ReferenceDataObserverTags[m_ReferenceNode] = m_ReferenceNode->GetProperty("visible")->AddObserver(itk::ModifiedEvent(), command); } } auto selectedWorkingNode = m_Controls->workingNodeSelector->GetSelectedNode(); bool workingNodeChanged = false; if (m_WorkingNode != selectedWorkingNode) { workingNodeChanged = true; // Remove visibility observer for the current working node if (m_WorkingDataObserverTags.find(m_WorkingNode) != m_WorkingDataObserverTags.end()) { m_WorkingNode->GetProperty("visible")->RemoveObserver(m_WorkingDataObserverTags[m_WorkingNode]); m_WorkingDataObserverTags.erase(m_WorkingNode); } // Disconnect from current label set image this->LooseLabelSetConnection(); // Set new working node m_WorkingNode = selectedWorkingNode; m_ToolManager->SetWorkingData(m_WorkingNode); if (m_WorkingNode.IsNotNull()) { this->ApplySelectionModeOnWorkingNode(); // Connect to new label set image this->EstablishLabelSetConnection(); m_Controls->labelSetWidget->ResetAllTableWidgetItems(); // Add visibility observer for the new segmentation node auto command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); m_WorkingDataObserverTags[m_WorkingNode] = m_WorkingNode->GetProperty("visible")->AddObserver(itk::ModifiedEvent(), command); } } // Reset camera if any selection changed but only if both reference node and working node are set if ((referenceNodeChanged || workingNodeChanged) && (m_ReferenceNode.IsNotNull() && m_WorkingNode.IsNotNull())) { if (nullptr != m_RenderWindowPart) { m_RenderWindowPart->SetReferenceGeometry(m_ReferenceNode->GetData()->GetTimeGeometry(), false); } } this->UpdateGUI(); } void QmitkSegmentationView::OnVisibilityShortcutActivated() { if (m_WorkingNode.IsNull()) { return; } bool isVisible = false; m_WorkingNode->GetBoolProperty("visible", isVisible); m_WorkingNode->SetVisibility(!isVisible); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::OnLabelToggleShortcutActivated() { if (m_WorkingNode.IsNull()) { return; } auto workingImage = dynamic_cast(m_WorkingNode->GetData()); if (nullptr == workingImage) { return; } this->WaitCursorOn(); workingImage->GetActiveLabelSet()->SetNextActiveLabel(); workingImage->Modified(); this->WaitCursorOff(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::OnNewSegmentation() { m_ToolManager->ActivateTool(-1); if (m_ReferenceNode.IsNull()) { MITK_ERROR << "'Create new segmentation' button should never be clickable unless a reference image is selected."; return; } mitk::Image::ConstPointer referenceImage = dynamic_cast(m_ReferenceNode->GetData()); if (referenceImage.IsNull()) { QMessageBox::information( m_Parent, "New segmentation", "Please load and select an image before starting some action."); return; } if (referenceImage->GetDimension() <= 1) { QMessageBox::information( m_Parent, "New segmentation", "Segmentation is currently not supported for 2D images"); return; } auto segTemplateImage = referenceImage; if (referenceImage->GetDimension() > 3) { QmitkStaticDynamicSegmentationDialog dialog(m_Parent); dialog.SetReferenceImage(referenceImage.GetPointer()); dialog.exec(); segTemplateImage = dialog.GetSegmentationTemplate(); } mitk::DataNode::Pointer newSegmentationNode; try { this->WaitCursorOn(); newSegmentationNode = mitk::LabelSetImageHelper::CreateNewSegmentationNode(m_ReferenceNode, segTemplateImage); this->WaitCursorOff(); } catch (mitk::Exception& e) { this->WaitCursorOff(); MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::warning(m_Parent, "New segmentation", "Could not create a new segmentation."); return; } auto newLabelSetImage = dynamic_cast(newSegmentationNode->GetData()); if (nullptr == newLabelSetImage) { // something went wrong return; } const auto labelSetPreset = this->GetDefaultLabelSetPreset(); if (labelSetPreset.empty() || !mitk::LabelSetIOHelper::LoadLabelSetImagePreset(labelSetPreset, newLabelSetImage)) { auto newLabel = mitk::LabelSetImageHelper::CreateNewLabel(newLabelSetImage); if (!m_DefaultLabelNaming) { QmitkNewSegmentationDialog dialog(m_Parent); dialog.SetName(QString::fromStdString(newLabel->GetName())); dialog.SetColor(newLabel->GetColor()); if (QDialog::Rejected == dialog.exec()) return; auto name = dialog.GetName(); if (!name.isEmpty()) newLabel->SetName(name.toStdString()); newLabel->SetColor(dialog.GetColor()); } newLabelSetImage->GetActiveLabelSet()->AddLabel(newLabel); } if (!this->GetDataStorage()->Exists(newSegmentationNode)) { this->GetDataStorage()->Add(newSegmentationNode, m_ReferenceNode); } if (m_ToolManager->GetWorkingData(0)) { m_ToolManager->GetWorkingData(0)->SetSelected(false); } newSegmentationNode->SetSelected(true); m_Controls->workingNodeSelector->SetCurrentSelectedNode(newSegmentationNode); } std::string QmitkSegmentationView::GetDefaultLabelSetPreset() const { auto labelSetPreset = mitk::BaseApplication::instance().config().getString(mitk::BaseApplication::ARG_SEGMENTATION_LABELSET_PRESET.toStdString(), ""); if (labelSetPreset.empty()) labelSetPreset = m_LabelSetPresetPreference.toStdString(); return labelSetPreset; } void QmitkSegmentationView::OnManualTool2DSelected(int id) { this->ResetMouseCursor(); mitk::StatusBar::GetInstance()->DisplayText(""); if (id >= 0) { std::string text = "Active Tool: \""; text += m_ToolManager->GetToolById(id)->GetName(); text += "\""; mitk::StatusBar::GetInstance()->DisplayText(text.c_str()); us::ModuleResource resource = m_ToolManager->GetToolById(id)->GetCursorIconResource(); this->SetMouseCursor(resource, 0, 0); } } void QmitkSegmentationView::OnShowMarkerNodes(bool state) { mitk::SegTool2D::Pointer manualSegmentationTool; unsigned int numberOfExistingTools = m_ToolManager->GetTools().size(); for (unsigned int i = 0; i < numberOfExistingTools; i++) { manualSegmentationTool = dynamic_cast(m_ToolManager->GetToolById(i)); if (nullptr == manualSegmentationTool) { continue; } manualSegmentationTool->SetShowMarkerNodes(state); } } void QmitkSegmentationView::OnLayersChanged() { this->EstablishLabelSetConnection(); m_Controls->labelSetWidget->ResetAllTableWidgetItems(); } void QmitkSegmentationView::OnShowLabelTable(bool value) { m_Controls->labelSetWidget->setVisible(value); } void QmitkSegmentationView::OnGoToLabel(const mitk::Point3D& pos) { if (m_RenderWindowPart) { m_RenderWindowPart->SetSelectedPosition(pos); } } void QmitkSegmentationView::OnLabelSetWidgetReset() { this->ValidateSelectionInput(); } /**********************************************************************/ /* private */ /**********************************************************************/ void QmitkSegmentationView::CreateQtPartControl(QWidget* parent) { m_Parent = parent; m_Controls = new Ui::QmitkSegmentationViewControls; m_Controls->setupUi(parent); // *------------------------ // * SHORTCUTS // *------------------------ QShortcut* visibilityShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_H), parent); connect(visibilityShortcut, &QShortcut::activated, this, &QmitkSegmentationView::OnVisibilityShortcutActivated); QShortcut* labelToggleShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_L, Qt::CTRL | Qt::Key::Key_I), parent); connect(labelToggleShortcut, &QShortcut::activated, this, &QmitkSegmentationView::OnLabelToggleShortcutActivated); // *------------------------ // * DATA SELECTION WIDGETS // *------------------------ m_Controls->referenceNodeSelector->SetDataStorage(GetDataStorage()); m_Controls->referenceNodeSelector->SetNodePredicate(m_ReferencePredicate); m_Controls->referenceNodeSelector->SetInvalidInfo("Select an image"); m_Controls->referenceNodeSelector->SetPopUpTitel("Select an image"); m_Controls->referenceNodeSelector->SetPopUpHint("Select an image that should be used to define the geometry and bounds of the segmentation."); m_Controls->workingNodeSelector->SetDataStorage(GetDataStorage()); m_Controls->workingNodeSelector->SetNodePredicate(m_SegmentationPredicate); m_Controls->workingNodeSelector->SetInvalidInfo("Select a segmentation"); m_Controls->workingNodeSelector->SetPopUpTitel("Select a segmentation"); m_Controls->workingNodeSelector->SetPopUpHint("Select a segmentation that should be modified. Only segmentation with the same geometry and within the bounds of the reference image are selected."); connect(m_Controls->referenceNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkSegmentationView::OnReferenceSelectionChanged); connect(m_Controls->workingNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkSegmentationView::OnSegmentationSelectionChanged); // *------------------------ // * TOOLMANAGER // *------------------------ m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); m_ToolManager->SetDataStorage(*(this->GetDataStorage())); m_ToolManager->InitializeTools(); - // react if the active tool changed - m_ToolManager->ActiveToolChanged += - mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); - QString segTools2D = tr("Add Subtract Lasso Fill Erase Close Paint Wipe 'Region Growing' 'Live Wire'"); QString segTools3D = tr("Threshold 'UL Threshold' Otsu 'Region Growing 3D' Picking GrowCut"); #ifdef __linux__ segTools3D.append(" nnUNet"); // plugin not enabled for MacOS / Windows #endif std::regex extSegTool2DRegEx("SegTool2D$"); std::regex extSegTool3DRegEx("SegTool3D$"); auto tools = m_ToolManager->GetTools(); for (const auto &tool : tools) { if (std::regex_search(tool->GetNameOfClass(), extSegTool2DRegEx)) { segTools2D.append(QString(" '%1'").arg(tool->GetName())); } else if (std::regex_search(tool->GetNameOfClass(), extSegTool3DRegEx)) { segTools3D.append(QString(" '%1'").arg(tool->GetName())); } } // setup 2D tools m_Controls->toolSelectionBox2D->SetToolManager(*m_ToolManager); m_Controls->toolSelectionBox2D->SetGenerateAccelerators(true); m_Controls->toolSelectionBox2D->SetToolGUIArea(m_Controls->toolGUIArea2D); m_Controls->toolSelectionBox2D->SetDisplayedToolGroups(segTools2D.toStdString()); m_Controls->toolSelectionBox2D->SetLayoutColumns(3); connect(m_Controls->toolSelectionBox2D, &QmitkToolSelectionBox::ToolSelected, this, &QmitkSegmentationView::OnManualTool2DSelected); // setup 3D Tools m_Controls->toolSelectionBox3D->SetToolManager(*m_ToolManager); m_Controls->toolSelectionBox3D->SetGenerateAccelerators(true); m_Controls->toolSelectionBox3D->SetToolGUIArea(m_Controls->toolGUIArea3D); m_Controls->toolSelectionBox3D->SetDisplayedToolGroups(segTools3D.toStdString()); m_Controls->toolSelectionBox3D->SetLayoutColumns(3); m_Controls->slicesInterpolator->SetDataStorage(this->GetDataStorage()); // create general signal / slot connections connect(m_Controls->newSegmentationButton, &QToolButton::clicked, this, &QmitkSegmentationView::OnNewSegmentation); connect(m_Controls->slicesInterpolator, &QmitkSlicesInterpolator::SignalShowMarkerNodes, this, &QmitkSegmentationView::OnShowMarkerNodes); connect(m_Controls->layersWidget, &QmitkLayersWidget::LayersChanged, this, &QmitkSegmentationView::OnLayersChanged); connect(m_Controls->labelsWidget, &QmitkLabelsWidget::ShowLabelTable, this, &QmitkSegmentationView::OnShowLabelTable); // *------------------------ // * LABELSETWIDGET // *------------------------ connect(m_Controls->labelSetWidget, &QmitkLabelSetWidget::goToLabel, this, &QmitkSegmentationView::OnGoToLabel); connect(m_Controls->labelSetWidget, &QmitkLabelSetWidget::LabelSetWidgetReset, this, &QmitkSegmentationView::OnLabelSetWidgetReset); m_Controls->labelSetWidget->SetDataStorage(this->GetDataStorage()); m_Controls->labelSetWidget->hide(); auto command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); m_RenderingManagerObserverTag = mitk::RenderingManager::GetInstance()->AddObserver(mitk::RenderingManagerViewsInitializedEvent(), command); m_RenderWindowPart = this->GetRenderWindowPart(); if (nullptr != m_RenderWindowPart) { this->RenderWindowPartActivated(m_RenderWindowPart); } // Make sure the GUI notices if appropriate data is already present on creation. // Should be done last, if everything else is configured because it triggers the autoselection of data. m_Controls->referenceNodeSelector->SetAutoSelectNewNodes(true); m_Controls->workingNodeSelector->SetAutoSelectNewNodes(true); this->UpdateGUI(); } void QmitkSegmentationView::ActiveToolChanged() { auto activeTool = m_ToolManager->GetActiveTool(); if (nullptr == activeTool) { // no tool activated, deactivate the segmentation interactor m_SegmentationInteractor->Disable(); return; } // activate segmentation interactor to get informed about render window entered / left events m_SegmentationInteractor->Enable(); } void QmitkSegmentationView::ValidateRendererGeometry(const itk::EventObject& event) { if (!mitk::SegmentationInteractionEvent().CheckEvent(&event)) { return; } const auto* segmentationInteractionEvent = dynamic_cast(&event); const mitk::BaseRenderer::Pointer sendingRenderer = segmentationInteractionEvent->GetSender(); if (nullptr == sendingRenderer) { return; } bool entered = segmentationInteractionEvent->HasEnteredRenderWindow(); if (entered) { // mouse cursor of tool inside render window // check if tool can be used: reference geometry needs to be aligned with renderer geometry const auto* referenceDataNode = m_ToolManager->GetReferenceData(0); if (nullptr != referenceDataNode) { const auto workingImage = dynamic_cast(referenceDataNode->GetData()); if (nullptr != workingImage) { const mitk::TimeGeometry* workingImageGeometry = workingImage->GetTimeGeometry(); if (nullptr != workingImageGeometry) { bool isGeometryAligned = false; try { isGeometryAligned = mitk::BaseRendererHelper::IsRendererAlignedWithSegmentation(sendingRenderer, workingImageGeometry); } catch (const mitk::Exception& e) { MITK_ERROR << "Unable to validate renderer geometry\n" << "Reason: " << e.GetDescription(); this->ShowRenderWindowWarning(sendingRenderer, true); this->UpdateWarningLabel( tr("Unable to validate renderer geometry. Please see log!")); return; } if (!isGeometryAligned) { this->ShowRenderWindowWarning(sendingRenderer, true); this->UpdateWarningLabel( tr("Please perform a reinit on the segmentation image inside the entered Render Window!")); return; } } } } } this->ShowRenderWindowWarning(sendingRenderer, false); this->UpdateWarningLabel(tr("")); } void QmitkSegmentationView::ShowRenderWindowWarning(mitk::BaseRenderer* baseRenderer, bool show) { const auto* rendererName = baseRenderer->GetName(); auto* renderWindow = m_RenderWindowPart->GetQmitkRenderWindow(rendererName); renderWindow->ShowOverlayMessage(show); } void QmitkSegmentationView::RenderWindowPartActivated(mitk::IRenderWindowPart* renderWindowPart) { if (m_RenderWindowPart != renderWindowPart) { m_RenderWindowPart = renderWindowPart; } if (nullptr != m_Parent) { m_Parent->setEnabled(true); } if (nullptr == m_Controls) { return; } - // tell the interpolation about tool manager, data storage and render window part if (nullptr != m_RenderWindowPart) { + // tell the interpolation about tool manager, data storage and render window part QList controllers; controllers.push_back(m_RenderWindowPart->GetQmitkRenderWindow("axial")->GetSliceNavigationController()); controllers.push_back(m_RenderWindowPart->GetQmitkRenderWindow("sagittal")->GetSliceNavigationController()); controllers.push_back(m_RenderWindowPart->GetQmitkRenderWindow("coronal")->GetSliceNavigationController()); m_Controls->slicesInterpolator->Initialize(m_ToolManager, controllers); + + if (!m_RenderWindowPart->HasCoupledRenderWindows()) + { + // react if the active tool changed, only if a render window part with decoupled render windows is used + m_ToolManager->ActiveToolChanged += + mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); + } } } void QmitkSegmentationView::RenderWindowPartDeactivated(mitk::IRenderWindowPart* /*renderWindowPart*/) { m_RenderWindowPart = nullptr; if (nullptr != m_Parent) { m_Parent->setEnabled(false); } + + // remove message-connection to make sure no message is processed if no render window part is available + m_ToolManager->ActiveToolChanged -= + mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); } void QmitkSegmentationView::OnPreferencesChanged(const berry::IBerryPreferences* prefs) { auto labelSuggestions = mitk::BaseApplication::instance().config().getString(mitk::BaseApplication::ARG_SEGMENTATION_LABEL_SUGGESTIONS.toStdString(), ""); m_DefaultLabelNaming = labelSuggestions.empty() ? prefs->GetBool("default label naming", true) : false; // No default label naming when label suggestions are enforced via command-line argument if (nullptr != m_Controls) { m_Controls->labelsWidget->SetDefaultLabelNaming(m_DefaultLabelNaming); bool slimView = prefs->GetBool("slim view", false); m_Controls->toolSelectionBox2D->SetShowNames(!slimView); m_Controls->toolSelectionBox3D->SetShowNames(!slimView); } m_DrawOutline = prefs->GetBool("draw outline", true); m_SelectionMode = prefs->GetBool("selection mode", false); m_LabelSetPresetPreference = prefs->Get("label set preset", ""); this->ApplyDisplayOptions(); this->ApplySelectionMode(); } void QmitkSegmentationView::NodeAdded(const mitk::DataNode* node) { if (m_SegmentationPredicate->CheckNode(node)) this->ApplyDisplayOptions(const_cast(node)); this->ApplySelectionMode(); } void QmitkSegmentationView::NodeRemoved(const mitk::DataNode* node) { if (!m_SegmentationPredicate->CheckNode(node)) { return; } // remove all possible contour markers of the segmentation mitk::DataStorage::SetOfObjects::ConstPointer allContourMarkers = this->GetDataStorage()->GetDerivations( node, mitk::NodePredicateProperty::New("isContourMarker", mitk::BoolProperty::New(true))); ctkPluginContext* context = mitk::PluginActivator::getContext(); ctkServiceReference ppmRef = context->getServiceReference(); mitk::PlanePositionManagerService* service = context->getService(ppmRef); for (mitk::DataStorage::SetOfObjects::ConstIterator it = allContourMarkers->Begin(); it != allContourMarkers->End(); ++it) { std::string nodeName = node->GetName(); unsigned int t = nodeName.find_last_of(" "); unsigned int id = atof(nodeName.substr(t + 1).c_str()) - 1; service->RemovePlanePosition(id); this->GetDataStorage()->Remove(it->Value()); } context->ungetService(ppmRef); service = nullptr; mitk::Image* image = dynamic_cast(node->GetData()); mitk::SurfaceInterpolationController::GetInstance()->RemoveInterpolationSession(image); } void QmitkSegmentationView::EstablishLabelSetConnection() { if (m_WorkingNode.IsNull()) return; auto workingImage = dynamic_cast(m_WorkingNode->GetData()); workingImage->GetActiveLabelSet()->AddLabelEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->RemoveLabelEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->ModifyLabelEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->AllLabelsModifiedEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->ActiveLabelEvent += mitk::MessageDelegate1(m_Controls->labelSetWidget, &QmitkLabelSetWidget::SelectLabelByPixelValue); workingImage->AfterChangeLayerEvent += mitk::MessageDelegate( this, &QmitkSegmentationView::UpdateGUI); } void QmitkSegmentationView::LooseLabelSetConnection() { if (m_WorkingNode.IsNull()) return; auto workingImage = dynamic_cast(m_WorkingNode->GetData()); workingImage->GetActiveLabelSet()->AddLabelEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->RemoveLabelEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->ModifyLabelEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->AllLabelsModifiedEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->ActiveLabelEvent -= mitk::MessageDelegate1(m_Controls->labelSetWidget, &QmitkLabelSetWidget::SelectLabelByPixelValue); workingImage->AfterChangeLayerEvent -= mitk::MessageDelegate( this, &QmitkSegmentationView::UpdateGUI); } void QmitkSegmentationView::ApplyDisplayOptions() { if (nullptr == m_Parent) { return; } if (nullptr == m_Controls) { return; // might happen on initialization (preferences loaded) } mitk::DataStorage::SetOfObjects::ConstPointer allImages = this->GetDataStorage()->GetSubset(m_SegmentationPredicate); for (mitk::DataStorage::SetOfObjects::const_iterator iter = allImages->begin(); iter != allImages->end(); ++iter) { this->ApplyDisplayOptions(*iter); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::ApplyDisplayOptions(mitk::DataNode* node) { if (nullptr == node) { return; } auto labelSetImage = dynamic_cast(node->GetData()); if (nullptr != labelSetImage) { // node is a multi label segmentation // its outline property can be set in the segmentation preference page node->SetProperty("labelset.contour.active", mitk::BoolProperty::New(m_DrawOutline)); // force render window update to show outline node->GetData()->Modified(); } else if (nullptr != node->GetData()) { // node is a legacy binary segmentation bool isBinary = false; node->GetBoolProperty("binary", isBinary); if (isBinary) { node->SetProperty("outline binary", mitk::BoolProperty::New(m_DrawOutline)); node->SetProperty("outline width", mitk::FloatProperty::New(2.0)); // force render window update to show outline node->GetData()->Modified(); } } } void QmitkSegmentationView::ApplySelectionMode() { if (!m_SelectionMode) return; this->ApplySelectionModeOnReferenceNode(); this->ApplySelectionModeOnWorkingNode(); } void QmitkSegmentationView::ApplySelectionModeOnReferenceNode() { this->ApplySelectionMode(m_ReferenceNode, m_ReferencePredicate); } void QmitkSegmentationView::ApplySelectionModeOnWorkingNode() { this->ApplySelectionMode(m_WorkingNode, m_SegmentationPredicate); } void QmitkSegmentationView::ApplySelectionMode(mitk::DataNode* node, mitk::NodePredicateBase* predicate) { if (!m_SelectionMode || node == nullptr || predicate == nullptr) return; auto nodes = this->GetDataStorage()->GetSubset(predicate); for (auto iter = nodes->begin(); iter != nodes->end(); ++iter) (*iter)->SetVisibility(*iter == node); } void QmitkSegmentationView::OnContourMarkerSelected(const mitk::DataNode* node) { QmitkRenderWindow* selectedRenderWindow = nullptr; auto* renderWindowPart = this->GetRenderWindowPart(mitk::WorkbenchUtil::OPEN); auto* axialRenderWindow = renderWindowPart->GetQmitkRenderWindow("axial"); auto* sagittalRenderWindow = renderWindowPart->GetQmitkRenderWindow("sagittal"); auto* coronalRenderWindow = renderWindowPart->GetQmitkRenderWindow("coronal"); auto* threeDRenderWindow = renderWindowPart->GetQmitkRenderWindow("3d"); bool PlanarFigureInitializedWindow = false; // find initialized renderwindow if (node->GetBoolProperty("PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, axialRenderWindow->GetRenderer())) { selectedRenderWindow = axialRenderWindow; } if (!selectedRenderWindow && node->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, sagittalRenderWindow->GetRenderer())) { selectedRenderWindow = sagittalRenderWindow; } if (!selectedRenderWindow && node->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, coronalRenderWindow->GetRenderer())) { selectedRenderWindow = coronalRenderWindow; } if (!selectedRenderWindow && node->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, threeDRenderWindow->GetRenderer())) { selectedRenderWindow = threeDRenderWindow; } // make node visible if (nullptr != selectedRenderWindow) { std::string nodeName = node->GetName(); unsigned int t = nodeName.find_last_of(" "); unsigned int id = atof(nodeName.substr(t + 1).c_str()) - 1; ctkPluginContext* context = mitk::PluginActivator::getContext(); ctkServiceReference ppmRef = context->getServiceReference(); mitk::PlanePositionManagerService* service = context->getService(ppmRef); selectedRenderWindow->GetSliceNavigationController()->ExecuteOperation(service->GetPlanePosition(id)); context->ungetService(ppmRef); selectedRenderWindow->GetRenderer()->GetCameraController()->Fit(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkSegmentationView::OnSelectionChanged(berry::IWorkbenchPart::Pointer /*part*/, const QList& nodes) { if (0 == nodes.size()) { return; } std::string markerName = "Position"; unsigned int numberOfNodes = nodes.size(); std::string nodeName = nodes.at(0)->GetName(); if ((numberOfNodes == 1) && (nodeName.find(markerName) == 0)) { this->OnContourMarkerSelected(nodes.at(0)); return; } } void QmitkSegmentationView::ResetMouseCursor() { if (m_MouseCursorSet) { mitk::ApplicationCursor::GetInstance()->PopCursor(); m_MouseCursorSet = false; } } void QmitkSegmentationView::SetMouseCursor(const us::ModuleResource& resource, int hotspotX, int hotspotY) { // Remove previously set mouse cursor if (m_MouseCursorSet) { this->ResetMouseCursor(); } if (resource) { us::ModuleResourceStream cursor(resource, std::ios::binary); mitk::ApplicationCursor::GetInstance()->PushCursor(cursor, hotspotX, hotspotY); m_MouseCursorSet = true; } } void QmitkSegmentationView::UpdateGUI() { mitk::DataNode* referenceNode = m_ToolManager->GetReferenceData(0); bool hasReferenceNode = referenceNode != nullptr; mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); bool hasWorkingNode = workingNode != nullptr; m_Controls->newSegmentationButton->setEnabled(false); if (hasReferenceNode) { m_Controls->newSegmentationButton->setEnabled(true); } if (hasWorkingNode && hasReferenceNode) { int layer = -1; referenceNode->GetIntProperty("layer", layer); workingNode->SetIntProperty("layer", layer + 1); } m_Controls->layersWidget->UpdateGUI(); m_Controls->labelsWidget->UpdateGUI(); this->ValidateSelectionInput(); } void QmitkSegmentationView::ValidateSelectionInput() { auto referenceNode = m_Controls->referenceNodeSelector->GetSelectedNode(); auto workingNode = m_Controls->workingNodeSelector->GetSelectedNode(); bool hasReferenceNode = referenceNode.IsNotNull(); bool hasWorkingNode = workingNode.IsNotNull(); bool hasBothNodes = hasReferenceNode && hasWorkingNode; QString warning; + bool toolSelectionBoxesEnabled = hasReferenceNode && hasWorkingNode; + unsigned int numberOfLabels = 0; m_Controls->layersWidget->setEnabled(hasWorkingNode); m_Controls->labelsWidget->setEnabled(hasWorkingNode); m_Controls->labelSetWidget->setEnabled(hasWorkingNode); m_Controls->toolSelectionBox2D->setEnabled(hasBothNodes); m_Controls->toolSelectionBox3D->setEnabled(hasBothNodes); m_Controls->slicesInterpolator->setEnabled(false); m_Controls->interpolatorWarningLabel->hide(); - auto* renderWindowPart = this->GetRenderWindowPart(); - if (hasReferenceNode) { - if (nullptr != renderWindowPart && !referenceNode->IsVisible(renderWindowPart->GetQmitkRenderWindow("axial")->GetRenderer())) + if (!referenceNode->IsVisible(nullptr)) + { warning += tr("The selected reference image is currently not visible!"); + toolSelectionBoxesEnabled = false; + } } if (hasWorkingNode) { - if (nullptr != renderWindowPart && !workingNode->IsVisible(renderWindowPart->GetQmitkRenderWindow("axial")->GetRenderer())) - warning += (!warning.isEmpty() ? "
" : "") + tr("The selected segmentation is currently not visible!"); + if (!workingNode->IsVisible(nullptr)) + { + warning += (!warning.isEmpty() ? "
" : "") + tr("The selected segmentation is currently not visible!"); + toolSelectionBoxesEnabled = false; + } auto labelSetImage = dynamic_cast(workingNode->GetData()); auto activeLayer = labelSetImage->GetActiveLayer(); - auto numLabels = labelSetImage->GetNumberOfLabels(activeLayer); + numberOfLabels = labelSetImage->GetNumberOfLabels(activeLayer); - if (2 == numLabels) + if (2 == numberOfLabels) { m_Controls->slicesInterpolator->setEnabled(true); } - else if (2 < numLabels) + else if (2 < numberOfLabels) { m_Controls->interpolatorWarningLabel->setText( "Interpolation only works for single label segmentations."); m_Controls->interpolatorWarningLabel->show(); } } + toolSelectionBoxesEnabled &= numberOfLabels > 1; + + // Here we need to check whether the geometry of the selected segmentation image (working image geometry) + // is aligned with the geometry of the 3D render window. + // It is not allowed to use a geometry different from the working image geometry for segmenting. + // We only need to this if the tool selection box would be enabled without this check. + if (toolSelectionBoxesEnabled && nullptr != m_RenderWindowPart && m_RenderWindowPart->HasCoupledRenderWindows()) + { + const mitk::BaseGeometry* workingNodeGeometry = workingNode->GetData()->GetGeometry(); + const mitk::BaseGeometry* renderWindowGeometry = + m_RenderWindowPart->GetQmitkRenderWindow("3d")->GetSliceNavigationController()->GetCurrentGeometry3D(); + if (nullptr != workingNodeGeometry && nullptr != renderWindowGeometry) + { + if (!mitk::Equal(*workingNodeGeometry->GetBoundingBox(), *renderWindowGeometry->GetBoundingBox(), mitk::eps, true)) + { + warning += (!warning.isEmpty() ? "
" : "") + tr("Please reinitialize the selected segmentation image!"); + toolSelectionBoxesEnabled = false; + } + } + } + + m_Controls->toolSelectionBox2D->setEnabled(toolSelectionBoxesEnabled); + m_Controls->toolSelectionBox3D->setEnabled(toolSelectionBoxesEnabled); + this->UpdateWarningLabel(warning); m_ToolManager->SetReferenceData(referenceNode); m_ToolManager->SetWorkingData(workingNode); } void QmitkSegmentationView::UpdateWarningLabel(QString text) { if (text.isEmpty()) { m_Controls->selectionWarningLabel->hide(); } else { m_Controls->selectionWarningLabel->setText("" + text + ""); m_Controls->selectionWarningLabel->show(); } }