diff --git a/Modules/SegmentationUI/Qmitk/QmitkSlicesInterpolator.cpp b/Modules/SegmentationUI/Qmitk/QmitkSlicesInterpolator.cpp index cd351b7163..e51013eac5 100644 --- a/Modules/SegmentationUI/Qmitk/QmitkSlicesInterpolator.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitkSlicesInterpolator.cpp @@ -1,1137 +1,1137 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "QmitkSlicesInterpolator.h" #include "QmitkStdMultiWidget.h" #include "QmitkSelectableGLWidget.h" #include "mitkToolManager.h" #include "mitkDataNodeFactory.h" #include "mitkLevelWindowProperty.h" #include "mitkColorProperty.h" #include "mitkProperties.h" #include "mitkRenderingManager.h" #include "mitkOverwriteSliceImageFilter.h" #include "mitkProgressBar.h" #include "mitkGlobalInteraction.h" #include "mitkOperationEvent.h" #include "mitkUndoController.h" #include "mitkInteractionConst.h" #include "mitkApplyDiffImageOperation.h" #include "mitkDiffImageApplier.h" #include "mitkSegTool2D.h" #include "mitkCoreObjectFactory.h" #include "mitkSurfaceToImageFilter.h" #include "mitkSliceNavigationController.h" #include #include #include #include #include #include #include #include #include #include #include //#define ROUND(a) ((a)>0 ? (int)((a)+0.5) : -(int)(0.5-(a))) float SURFACE_COLOR_RGB [3] = {0.49f, 1.0f, 0.16f}; const std::map QmitkSlicesInterpolator::createActionToSliceDimension() { std::map actionToSliceDimension; foreach(mitk::SliceNavigationController* slicer, m_ControllerToDeleteObserverTag.keys()) { actionToSliceDimension[new QAction(QString::fromStdString(slicer->GetViewDirectionAsString()),0)] = slicer; } return actionToSliceDimension; } QmitkSlicesInterpolator::QmitkSlicesInterpolator(QWidget* parent, const char* /*name*/) :QWidget(parent), // ACTION_TO_SLICEDIMENSION( createActionToSliceDimension() ), m_Interpolator( mitk::SegmentationInterpolationController::New() ), m_SurfaceInterpolator(mitk::SurfaceInterpolationController::GetInstance()), m_ToolManager(NULL), m_Initialized(false), m_LastSNC(0), m_LastSliceIndex(0), m_2DInterpolationEnabled(false), m_3DInterpolationEnabled(false) { m_GroupBoxEnableExclusiveInterpolationMode = new QGroupBox("Interpolation", this); QVBoxLayout* vboxLayout = new QVBoxLayout(m_GroupBoxEnableExclusiveInterpolationMode); m_CmbInterpolation = new QComboBox(m_GroupBoxEnableExclusiveInterpolationMode); m_CmbInterpolation->addItem("Disabled"); m_CmbInterpolation->addItem("2-Dimensional"); m_CmbInterpolation->addItem("3-Dimensional"); vboxLayout->addWidget(m_CmbInterpolation); m_BtnApply2D = new QPushButton("Confirm for single slice", m_GroupBoxEnableExclusiveInterpolationMode); vboxLayout->addWidget(m_BtnApply2D); m_BtnApplyForAllSlices2D = new QPushButton("Confirm for all slices", m_GroupBoxEnableExclusiveInterpolationMode); vboxLayout->addWidget(m_BtnApplyForAllSlices2D); m_BtnApply3D = new QPushButton("Confirm", m_GroupBoxEnableExclusiveInterpolationMode); vboxLayout->addWidget(m_BtnApply3D); m_BtnReinit3DInterpolation = new QPushButton("Reinit Interpolation", m_GroupBoxEnableExclusiveInterpolationMode); vboxLayout->addWidget(m_BtnReinit3DInterpolation); m_ChkShowPositionNodes = new QCheckBox("Show Position Nodes", m_GroupBoxEnableExclusiveInterpolationMode); vboxLayout->addWidget(m_ChkShowPositionNodes); this->HideAllInterpolationControls(); connect(m_CmbInterpolation, SIGNAL(currentIndexChanged(int)), this, SLOT(OnInterpolationMethodChanged(int))); connect(m_BtnApply2D, SIGNAL(clicked()), this, SLOT(OnAcceptInterpolationClicked())); connect(m_BtnApplyForAllSlices2D, SIGNAL(clicked()), this, SLOT(OnAcceptAllInterpolationsClicked())); connect(m_BtnApply3D, SIGNAL(clicked()), this, SLOT(OnAccept3DInterpolationClicked())); connect(m_BtnReinit3DInterpolation, SIGNAL(clicked()), this, SLOT(OnReinit3DInterpolation())); connect(m_ChkShowPositionNodes, SIGNAL(toggled(bool)), this, SLOT(OnShowMarkers(bool))); connect(m_ChkShowPositionNodes, SIGNAL(toggled(bool)), this, SIGNAL(SignalShowMarkerNodes(bool))); QHBoxLayout* layout = new QHBoxLayout(this); layout->addWidget(m_GroupBoxEnableExclusiveInterpolationMode); this->setLayout(layout); itk::ReceptorMemberCommand::Pointer command = itk::ReceptorMemberCommand::New(); command->SetCallbackFunction( this, &QmitkSlicesInterpolator::OnInterpolationInfoChanged ); InterpolationInfoChangedObserverTag = m_Interpolator->AddObserver( itk::ModifiedEvent(), command ); itk::ReceptorMemberCommand::Pointer command2 = itk::ReceptorMemberCommand::New(); command2->SetCallbackFunction( this, &QmitkSlicesInterpolator::OnSurfaceInterpolationInfoChanged ); SurfaceInterpolationInfoChangedObserverTag = m_SurfaceInterpolator->AddObserver( itk::ModifiedEvent(), command2 ); // feedback node and its visualization properties m_FeedbackNode = mitk::DataNode::New(); mitk::CoreObjectFactory::GetInstance()->SetDefaultProperties( m_FeedbackNode ); m_FeedbackNode->SetProperty( "binary", mitk::BoolProperty::New(true) ); m_FeedbackNode->SetProperty( "outline binary", mitk::BoolProperty::New(true) ); m_FeedbackNode->SetProperty( "color", mitk::ColorProperty::New(255.0, 255.0, 0.0) ); m_FeedbackNode->SetProperty( "texture interpolation", mitk::BoolProperty::New(false) ); m_FeedbackNode->SetProperty( "layer", mitk::IntProperty::New( 20 ) ); m_FeedbackNode->SetProperty( "levelwindow", mitk::LevelWindowProperty::New( mitk::LevelWindow(0, 1) ) ); m_FeedbackNode->SetProperty( "name", mitk::StringProperty::New("Interpolation feedback") ); m_FeedbackNode->SetProperty( "opacity", mitk::FloatProperty::New(0.8) ); m_FeedbackNode->SetProperty( "helper object", mitk::BoolProperty::New(true) ); m_InterpolatedSurfaceNode = mitk::DataNode::New(); m_InterpolatedSurfaceNode->SetProperty( "color", mitk::ColorProperty::New(SURFACE_COLOR_RGB) ); m_InterpolatedSurfaceNode->SetProperty( "name", mitk::StringProperty::New("Surface Interpolation feedback") ); m_InterpolatedSurfaceNode->SetProperty( "opacity", mitk::FloatProperty::New(0.5) ); m_InterpolatedSurfaceNode->SetProperty( "line width", mitk::IntProperty::New(4) ); m_InterpolatedSurfaceNode->SetProperty( "includeInBoundingBox", mitk::BoolProperty::New(false)); m_InterpolatedSurfaceNode->SetProperty( "helper object", mitk::BoolProperty::New(true) ); m_InterpolatedSurfaceNode->SetVisibility(false); m_3DContourNode = mitk::DataNode::New(); m_3DContourNode->SetProperty( "color", mitk::ColorProperty::New(0.0, 0.0, 0.0) ); - m_3DContourNode->SetProperty("hidden object", mitk::BoolProperty::New(true)); + m_3DContourNode->SetProperty("helper object", mitk::BoolProperty::New(true)); m_3DContourNode->SetProperty( "name", mitk::StringProperty::New("Drawn Contours") ); m_3DContourNode->SetProperty("material.representation", mitk::VtkRepresentationProperty::New(VTK_WIREFRAME)); m_3DContourNode->SetProperty("material.wireframeLineWidth", mitk::FloatProperty::New(2.0f)); m_3DContourNode->SetProperty("3DContourContainer", mitk::BoolProperty::New(true)); m_3DContourNode->SetProperty( "includeInBoundingBox", mitk::BoolProperty::New(false)); m_3DContourNode->SetVisibility(false, mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget1"))); m_3DContourNode->SetVisibility(false, mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget2"))); m_3DContourNode->SetVisibility(false, mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget3"))); m_3DContourNode->SetVisibility(false, mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))); QWidget::setContentsMargins(0, 0, 0, 0); if ( QWidget::layout() != NULL ) { QWidget::layout()->setContentsMargins(0, 0, 0, 0); } //For running 3D Interpolation in background // create a QFuture and a QFutureWatcher connect(&m_Watcher, SIGNAL(started()), this, SLOT(StartUpdateInterpolationTimer())); connect(&m_Watcher, SIGNAL(finished()), this, SLOT(OnSurfaceInterpolationFinished())); connect(&m_Watcher, SIGNAL(finished()), this, SLOT(StopUpdateInterpolationTimer())); m_Timer = new QTimer(this); connect(m_Timer, SIGNAL(timeout()), this, SLOT(ChangeSurfaceColor())); } void QmitkSlicesInterpolator::SetDataStorage( mitk::DataStorage::Pointer storage ) { m_DataStorage = storage; m_SurfaceInterpolator->SetDataStorage(storage); } mitk::DataStorage* QmitkSlicesInterpolator::GetDataStorage() { if ( m_DataStorage.IsNotNull() ) { return m_DataStorage; } else { return NULL; } } void QmitkSlicesInterpolator::Initialize(mitk::ToolManager* toolManager, const QList &controllers) { Q_ASSERT(!controllers.empty()); if (m_Initialized) { // remove old observers Uninitialize(); } m_ToolManager = toolManager; if (m_ToolManager) { // set enabled only if a segmentation is selected mitk::DataNode* node = m_ToolManager->GetWorkingData(0); QWidget::setEnabled( node != NULL ); // react whenever the set of selected segmentation changes m_ToolManager->WorkingDataChanged += mitk::MessageDelegate( this, &QmitkSlicesInterpolator::OnToolManagerWorkingDataModified ); m_ToolManager->ReferenceDataChanged += mitk::MessageDelegate( this, &QmitkSlicesInterpolator::OnToolManagerReferenceDataModified ); // connect to the slice navigation controller. after each change, call the interpolator foreach(mitk::SliceNavigationController* slicer, controllers) { //Has to be initialized m_LastSNC = slicer; m_TimeStep.insert(slicer, slicer->GetTime()->GetPos()); itk::MemberCommand::Pointer deleteCommand = itk::MemberCommand::New(); deleteCommand->SetCallbackFunction( this, &QmitkSlicesInterpolator::OnSliceNavigationControllerDeleted); m_ControllerToDeleteObserverTag.insert(slicer, slicer->AddObserver(itk::DeleteEvent(), deleteCommand)); itk::MemberCommand::Pointer timeChangedCommand = itk::MemberCommand::New(); timeChangedCommand->SetCallbackFunction( this, &QmitkSlicesInterpolator::OnTimeChanged); m_ControllerToTimeObserverTag.insert(slicer, slicer->AddObserver(mitk::SliceNavigationController::TimeGeometryEvent(NULL,0), timeChangedCommand)); itk::MemberCommand::Pointer sliceChangedCommand = itk::MemberCommand::New(); sliceChangedCommand->SetCallbackFunction( this, &QmitkSlicesInterpolator::OnSliceChanged); m_ControllerToSliceObserverTag.insert(slicer, slicer->AddObserver(mitk::SliceNavigationController::GeometrySliceEvent(NULL,0), sliceChangedCommand)); } ACTION_TO_SLICEDIMENSION = createActionToSliceDimension(); } m_Initialized = true; } void QmitkSlicesInterpolator::Uninitialize() { if (m_ToolManager.IsNotNull()) { m_ToolManager->WorkingDataChanged -= mitk::MessageDelegate(this, &QmitkSlicesInterpolator::OnToolManagerWorkingDataModified); m_ToolManager->ReferenceDataChanged -= mitk::MessageDelegate(this, &QmitkSlicesInterpolator::OnToolManagerReferenceDataModified); } foreach(mitk::SliceNavigationController* slicer, m_ControllerToSliceObserverTag.keys()) { slicer->RemoveObserver(m_ControllerToDeleteObserverTag.take(slicer)); slicer->RemoveObserver(m_ControllerToTimeObserverTag.take(slicer)); slicer->RemoveObserver(m_ControllerToSliceObserverTag.take(slicer)); } ACTION_TO_SLICEDIMENSION.clear(); m_ToolManager = NULL; m_Initialized = false; } QmitkSlicesInterpolator::~QmitkSlicesInterpolator() { if (m_Initialized) { // remove old observers Uninitialize(); } if(m_DataStorage->Exists(m_3DContourNode)) m_DataStorage->Remove(m_3DContourNode); if(m_DataStorage->Exists(m_InterpolatedSurfaceNode)) m_DataStorage->Remove(m_InterpolatedSurfaceNode); // remove observer m_Interpolator->RemoveObserver( InterpolationInfoChangedObserverTag ); m_SurfaceInterpolator->RemoveObserver( SurfaceInterpolationInfoChangedObserverTag ); delete m_Timer; } /** External enableization... */ void QmitkSlicesInterpolator::setEnabled( bool enable ) { QWidget::setEnabled(enable); //Set the gui elements of the different interpolation modi enabled if (enable) { if (m_2DInterpolationEnabled) { this->Show2DInterpolationControls(true); m_Interpolator->Activate2DInterpolation(true); } else if (m_3DInterpolationEnabled) { this->Show3DInterpolationControls(true); this->Show3DInterpolationResult(true); } } //Set all gui elements of the interpolation disabled else { this->HideAllInterpolationControls(); this->Show3DInterpolationResult(false); } } void QmitkSlicesInterpolator::On2DInterpolationEnabled(bool status) { OnInterpolationActivated(status); m_Interpolator->Activate2DInterpolation(status); } void QmitkSlicesInterpolator::On3DInterpolationEnabled(bool status) { On3DInterpolationActivated(status); } void QmitkSlicesInterpolator::OnInterpolationDisabled(bool status) { if (status) { OnInterpolationActivated(!status); On3DInterpolationActivated(!status); this->Show3DInterpolationResult(false); } } void QmitkSlicesInterpolator::HideAllInterpolationControls() { this->Show2DInterpolationControls(false); this->Show3DInterpolationControls(false); } void QmitkSlicesInterpolator::Show2DInterpolationControls(bool show) { m_BtnApply2D->setVisible(show); m_BtnApplyForAllSlices2D->setVisible(show); } void QmitkSlicesInterpolator::Show3DInterpolationControls(bool show) { m_BtnApply3D->setVisible(show); m_ChkShowPositionNodes->setVisible(show); m_BtnReinit3DInterpolation->setVisible(show); } void QmitkSlicesInterpolator::OnInterpolationMethodChanged(int index) { switch(index) { case 0: // Disabled m_GroupBoxEnableExclusiveInterpolationMode->setTitle("Interpolation"); this->HideAllInterpolationControls(); this->OnInterpolationActivated(false); this->On3DInterpolationActivated(false); this->Show3DInterpolationResult(false); m_Interpolator->Activate2DInterpolation(false); break; case 1: // 2D m_GroupBoxEnableExclusiveInterpolationMode->setTitle("Interpolation (Enabled)"); this->HideAllInterpolationControls(); this->Show2DInterpolationControls(true); this->OnInterpolationActivated(true); this->On3DInterpolationActivated(false); m_Interpolator->Activate2DInterpolation(true); break; case 2: // 3D m_GroupBoxEnableExclusiveInterpolationMode->setTitle("Interpolation (Enabled)"); this->HideAllInterpolationControls(); this->Show3DInterpolationControls(true); this->OnInterpolationActivated(false); this->On3DInterpolationActivated(true); m_Interpolator->Activate2DInterpolation(false); break; default: MITK_ERROR << "Unknown interpolation method!"; m_CmbInterpolation->setCurrentIndex(0); break; } } void QmitkSlicesInterpolator::OnShowMarkers(bool state) { mitk::DataStorage::SetOfObjects::ConstPointer allContourMarkers = m_DataStorage->GetSubset(mitk::NodePredicateProperty::New("isContourMarker" , mitk::BoolProperty::New(true))); for (mitk::DataStorage::SetOfObjects::ConstIterator it = allContourMarkers->Begin(); it != allContourMarkers->End(); ++it) { it->Value()->SetProperty("helper object", mitk::BoolProperty::New(!state)); } } void QmitkSlicesInterpolator::OnToolManagerWorkingDataModified() { if (m_ToolManager->GetWorkingData(0) != 0) { m_Segmentation = dynamic_cast(m_ToolManager->GetWorkingData(0)->GetData()); m_BtnReinit3DInterpolation->setEnabled(true); } else { //If no workingdata is set, remove the interpolation feedback this->GetDataStorage()->Remove(m_FeedbackNode); m_FeedbackNode->SetData(NULL); this->GetDataStorage()->Remove(m_3DContourNode); m_3DContourNode->SetData(NULL); this->GetDataStorage()->Remove(m_InterpolatedSurfaceNode); m_InterpolatedSurfaceNode->SetData(NULL); m_BtnReinit3DInterpolation->setEnabled(false); return; } //Updating the current selected segmentation for the 3D interpolation SetCurrentContourListID(); if (m_2DInterpolationEnabled) { OnInterpolationActivated( true ); // re-initialize if needed } this->CheckSupportedImageDimension(); } void QmitkSlicesInterpolator::OnToolManagerReferenceDataModified() { } void QmitkSlicesInterpolator::OnTimeChanged(itk::Object* sender, const itk::EventObject& e) { //Check if we really have a GeometryTimeEvent if (!dynamic_cast(&e)) return; mitk::SliceNavigationController* slicer = dynamic_cast(sender); Q_ASSERT(slicer); m_TimeStep[slicer]; if (m_LastSNC == slicer) { slicer->SendSlice();//will trigger a new interpolation } } void QmitkSlicesInterpolator::OnSliceChanged(itk::Object *sender, const itk::EventObject &e) { //Check whether we really have a GeometrySliceEvent if (!dynamic_cast(&e)) return; mitk::SliceNavigationController* slicer = dynamic_cast(sender); if (TranslateAndInterpolateChangedSlice(e, slicer)) { slicer->GetRenderer()->RequestUpdate(); } } bool QmitkSlicesInterpolator::TranslateAndInterpolateChangedSlice(const itk::EventObject& e, mitk::SliceNavigationController* slicer) { if (!m_2DInterpolationEnabled) return false; try { const mitk::SliceNavigationController::GeometrySliceEvent& event = dynamic_cast(e); mitk::TimeGeometry* tsg = event.GetTimeGeometry(); if (tsg && m_TimeStep.contains(slicer)) { mitk::SlicedGeometry3D* slicedGeometry = dynamic_cast(tsg->GetGeometryForTimeStep(m_TimeStep[slicer]).GetPointer()); if (slicedGeometry) { m_LastSNC = slicer; mitk::PlaneGeometry* plane = dynamic_cast(slicedGeometry->GetPlaneGeometry( event.GetPos() )); if (plane) Interpolate( plane, m_TimeStep[slicer], slicer ); return true; } } } catch(std::bad_cast) { return false; // so what } return false; } void QmitkSlicesInterpolator::Interpolate( mitk::PlaneGeometry* plane, unsigned int timeStep, mitk::SliceNavigationController* slicer ) { if (m_ToolManager) { mitk::DataNode* node = m_ToolManager->GetWorkingData(0); if (node) { m_Segmentation = dynamic_cast(node->GetData()); if (m_Segmentation) { int clickedSliceDimension(-1); int clickedSliceIndex(-1); // calculate real slice position, i.e. slice of the image and not slice of the TimeSlicedGeometry mitk::SegTool2D::DetermineAffectedImageSlice( m_Segmentation, plane, clickedSliceDimension, clickedSliceIndex ); mitk::Image::Pointer interpolation = m_Interpolator->Interpolate( clickedSliceDimension, clickedSliceIndex, plane, timeStep ); m_FeedbackNode->SetData( interpolation ); m_LastSNC = slicer; m_LastSliceIndex = clickedSliceIndex; } } } } void QmitkSlicesInterpolator::OnSurfaceInterpolationFinished() { mitk::Surface::Pointer interpolatedSurface = m_SurfaceInterpolator->GetInterpolationResult(); mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); if(interpolatedSurface.IsNotNull() && workingNode && workingNode->IsVisible(mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget3")))) { m_BtnApply3D->setEnabled(true); m_InterpolatedSurfaceNode->SetData(interpolatedSurface); m_3DContourNode->SetData(m_SurfaceInterpolator->GetContoursAsSurface()); this->Show3DInterpolationResult(true); if( !m_DataStorage->Exists(m_InterpolatedSurfaceNode) ) { m_DataStorage->Add(m_InterpolatedSurfaceNode); } if (!m_DataStorage->Exists(m_3DContourNode)) { m_DataStorage->Add(m_3DContourNode, workingNode); } } else if (interpolatedSurface.IsNull()) { m_BtnApply3D->setEnabled(false); if (m_DataStorage->Exists(m_InterpolatedSurfaceNode)) { this->Show3DInterpolationResult(false); } } m_BtnReinit3DInterpolation->setEnabled(true); foreach (mitk::SliceNavigationController* slicer, m_ControllerToTimeObserverTag.keys()) { slicer->GetRenderer()->RequestUpdate(); } } void QmitkSlicesInterpolator::OnAcceptInterpolationClicked() { if (m_Segmentation && m_FeedbackNode->GetData()) { //making interpolation separately undoable mitk::UndoStackItem::IncCurrObjectEventId(); mitk::UndoStackItem::IncCurrGroupEventId(); mitk::UndoStackItem::ExecuteIncrement(); //Make sure that for reslicing and overwriting the same alogrithm is used. We can specify the mode of the vtk reslicer vtkSmartPointer reslice = vtkSmartPointer::New(); // Set slice as input mitk::Image::Pointer slice = dynamic_cast(m_FeedbackNode->GetData()); reslice->SetInputSlice(slice->GetSliceData()->GetVtkImageAccessor(slice)->GetVtkImageData()); //set overwrite mode to true to write back to the image volume reslice->SetOverwriteMode(true); reslice->Modified(); mitk::ExtractSliceFilter::Pointer extractor = mitk::ExtractSliceFilter::New(reslice); extractor->SetInput( m_Segmentation ); unsigned int timestep = m_LastSNC->GetTime()->GetPos(); extractor->SetTimeStep( timestep ); extractor->SetWorldGeometry( m_LastSNC->GetCurrentPlaneGeometry() ); extractor->SetVtkOutputRequest(true); extractor->SetResliceTransformByGeometry( m_Segmentation->GetTimeGeometry()->GetGeometryForTimeStep( timestep ) ); extractor->Modified(); extractor->Update(); //the image was modified within the pipeline, but not marked so m_Segmentation->Modified(); m_Segmentation->GetVtkImageData()->Modified(); m_FeedbackNode->SetData(NULL); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkSlicesInterpolator::AcceptAllInterpolations(mitk::SliceNavigationController* slicer) { /* * What exactly is done here: * 1. We create an empty diff image for the current segmentation * 2. All interpolated slices are written into the diff image * 3. Then the diffimage is applied to the original segmentation */ if (m_Segmentation) { //making interpolation separately undoable mitk::UndoStackItem::IncCurrObjectEventId(); mitk::UndoStackItem::IncCurrGroupEventId(); mitk::UndoStackItem::ExecuteIncrement(); mitk::Image::Pointer image3D = m_Segmentation; unsigned int timeStep( slicer->GetTime()->GetPos() ); if (m_Segmentation->GetDimension() == 4) { mitk::ImageTimeSelector::Pointer timeSelector = mitk::ImageTimeSelector::New(); timeSelector->SetInput( m_Segmentation ); timeSelector->SetTimeNr( timeStep ); timeSelector->Update(); image3D = timeSelector->GetOutput(); } // create a empty diff image for the undo operation mitk::Image::Pointer diffImage = mitk::Image::New(); diffImage->Initialize( image3D ); // Create scope for ImageWriteAccessor so that the accessor is destroyed // after the image is initialized. Otherwise later image access will lead to an error { mitk::ImageWriteAccessor imAccess(diffImage); // Set all pixels to zero mitk::PixelType pixelType( mitk::MakeScalarPixelType() ); memset( imAccess.GetData(), 0, (pixelType.GetBpe() >> 3) * diffImage->GetDimension(0) * diffImage->GetDimension(1) * diffImage->GetDimension(2) ); } // Since we need to shift the plane it must be clone so that the original plane isn't altered mitk::PlaneGeometry::Pointer reslicePlane = slicer->GetCurrentPlaneGeometry()->Clone(); int sliceDimension(-1); int sliceIndex(-1); mitk::SegTool2D::DetermineAffectedImageSlice( m_Segmentation, reslicePlane, sliceDimension, sliceIndex ); unsigned int zslices = m_Segmentation->GetDimension( sliceDimension ); mitk::ProgressBar::GetInstance()->AddStepsToDo(zslices); mitk::Point3D origin = reslicePlane->GetOrigin(); unsigned int totalChangedSlices(0); for (unsigned int sliceIndex = 0; sliceIndex < zslices; ++sliceIndex) { // Transforming the current origin of the reslice plane // so that it matches the one of the next slice m_Segmentation->GetSlicedGeometry()->WorldToIndex(origin, origin); origin[sliceDimension] = sliceIndex; m_Segmentation->GetSlicedGeometry()->IndexToWorld(origin, origin); reslicePlane->SetOrigin(origin); //Set the slice as 'input' mitk::Image::Pointer interpolation = m_Interpolator->Interpolate( sliceDimension, sliceIndex, reslicePlane, timeStep ); if (interpolation.IsNotNull()) // we don't check if interpolation is necessary/sensible - but m_Interpolator does { //Setting up the reslicing pipeline which allows us to write the interpolation results back into //the image volume vtkSmartPointer reslice = vtkSmartPointer::New(); //set overwrite mode to true to write back to the image volume reslice->SetInputSlice(interpolation->GetSliceData()->GetVtkImageAccessor(interpolation)->GetVtkImageData()); reslice->SetOverwriteMode(true); reslice->Modified(); mitk::ExtractSliceFilter::Pointer diffslicewriter = mitk::ExtractSliceFilter::New(reslice); diffslicewriter->SetInput( diffImage ); diffslicewriter->SetTimeStep( timeStep ); diffslicewriter->SetWorldGeometry(reslicePlane); diffslicewriter->SetVtkOutputRequest(true); diffslicewriter->SetResliceTransformByGeometry( diffImage->GetTimeGeometry()->GetGeometryForTimeStep( timeStep ) ); diffslicewriter->Modified(); diffslicewriter->Update(); ++totalChangedSlices; } mitk::ProgressBar::GetInstance()->Progress(); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); if (totalChangedSlices > 0) { // store undo stack items if ( true ) { // create do/undo operations mitk::ApplyDiffImageOperation* doOp = new mitk::ApplyDiffImageOperation( mitk::OpTEST, m_Segmentation, diffImage, timeStep ); mitk::ApplyDiffImageOperation* undoOp = new mitk::ApplyDiffImageOperation( mitk::OpTEST, m_Segmentation, diffImage, timeStep ); undoOp->SetFactor( -1.0 ); std::stringstream comment; comment << "Confirm all interpolations (" << totalChangedSlices << ")"; mitk::OperationEvent* undoStackItem = new mitk::OperationEvent( mitk::DiffImageApplier::GetInstanceForUndo(), doOp, undoOp, comment.str() ); mitk::UndoController::GetCurrentUndoModel()->SetOperationEvent( undoStackItem ); // acutally apply the changes here to the original image mitk::DiffImageApplier::GetInstanceForUndo()->ExecuteOperation( doOp ); } } m_FeedbackNode->SetData(NULL); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkSlicesInterpolator::FinishInterpolation(mitk::SliceNavigationController* slicer) { //this redirect is for calling from outside if (slicer == NULL) OnAcceptAllInterpolationsClicked(); else AcceptAllInterpolations( slicer ); } void QmitkSlicesInterpolator::OnAcceptAllInterpolationsClicked() { QMenu orientationPopup(this); std::map::const_iterator it; for(it = ACTION_TO_SLICEDIMENSION.begin(); it != ACTION_TO_SLICEDIMENSION.end(); it++) orientationPopup.addAction(it->first); connect( &orientationPopup, SIGNAL(triggered(QAction*)), this, SLOT(OnAcceptAllPopupActivated(QAction*)) ); orientationPopup.exec( QCursor::pos() ); } void QmitkSlicesInterpolator::OnAccept3DInterpolationClicked() { if (m_InterpolatedSurfaceNode.IsNotNull() && m_InterpolatedSurfaceNode->GetData()) { mitk::SurfaceToImageFilter::Pointer s2iFilter = mitk::SurfaceToImageFilter::New(); s2iFilter->MakeOutputBinaryOn(); s2iFilter->SetInput(dynamic_cast(m_InterpolatedSurfaceNode->GetData())); // check if ToolManager holds valid ReferenceData if (m_ToolManager->GetReferenceData(0) == NULL || m_ToolManager->GetWorkingData(0) == NULL) { return; } s2iFilter->SetImage(dynamic_cast(m_ToolManager->GetReferenceData(0)->GetData())); s2iFilter->Update(); mitk::DataNode* segmentationNode = m_ToolManager->GetWorkingData(0); segmentationNode->SetData(s2iFilter->GetOutput()); m_CmbInterpolation->setCurrentIndex(0); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); mitk::DataNode::Pointer segSurface = mitk::DataNode::New(); float rgb[3]; segmentationNode->GetColor(rgb); segSurface->SetColor(rgb); segSurface->SetData(m_InterpolatedSurfaceNode->GetData()); std::stringstream stream; stream << segmentationNode->GetName(); stream << "_"; stream << "3D-interpolation"; segSurface->SetName(stream.str()); segSurface->SetProperty( "opacity", mitk::FloatProperty::New(0.7) ); segSurface->SetProperty( "includeInBoundingBox", mitk::BoolProperty::New(false)); m_DataStorage->Add(segSurface, segmentationNode); this->Show3DInterpolationResult(false); } } void QmitkSlicesInterpolator::OnReinit3DInterpolation() { mitk::NodePredicateProperty::Pointer pred = mitk::NodePredicateProperty::New("3DContourContainer", mitk::BoolProperty::New(true)); mitk::DataStorage::SetOfObjects::ConstPointer contourNodes = m_DataStorage->GetDerivations( m_ToolManager->GetWorkingData(0), pred); if (contourNodes->Size() != 0) { m_3DContourNode = contourNodes->at(0); } else { QMessageBox errorInfo; errorInfo.setWindowTitle("Reinitialize surface interpolation"); errorInfo.setIcon(QMessageBox::Information); errorInfo.setText("No contours available for the selected segmentation!"); errorInfo.exec(); } mitk::Surface::Pointer contours = dynamic_cast(m_3DContourNode->GetData()); if (contours) mitk::SurfaceInterpolationController::GetInstance()->ReinitializeInterpolation(contours); m_BtnReinit3DInterpolation->setEnabled(false); } void QmitkSlicesInterpolator::OnAcceptAllPopupActivated(QAction* action) { try { std::map::const_iterator iter = ACTION_TO_SLICEDIMENSION.find( action ); if (iter != ACTION_TO_SLICEDIMENSION.end()) { mitk::SliceNavigationController* slicer = iter->second; AcceptAllInterpolations( slicer ); } } catch(...) { /* Showing message box with possible memory error */ QMessageBox errorInfo; errorInfo.setWindowTitle("Interpolation Process"); errorInfo.setIcon(QMessageBox::Critical); errorInfo.setText("An error occurred during interpolation. Possible cause: Not enough memory!"); errorInfo.exec(); //additional error message on std::cerr std::cerr << "Ill construction in " __FILE__ " l. " << __LINE__ << std::endl; } } void QmitkSlicesInterpolator::OnInterpolationActivated(bool on) { m_2DInterpolationEnabled = on; try { if ( m_DataStorage.IsNotNull() ) { if (on && !m_DataStorage->Exists(m_FeedbackNode)) { m_DataStorage->Add( m_FeedbackNode ); } } } catch(...) { // don't care (double add/remove) } if (m_ToolManager) { mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); mitk::DataNode* referenceNode = m_ToolManager->GetReferenceData(0); QWidget::setEnabled( workingNode != NULL ); m_BtnApply2D->setEnabled( on ); m_FeedbackNode->SetVisibility( on ); if (!on) { mitk::RenderingManager::GetInstance()->RequestUpdateAll(); return; } if (workingNode) { mitk::Image* segmentation = dynamic_cast(workingNode->GetData()); if (segmentation) { m_Interpolator->SetSegmentationVolume( segmentation ); if (referenceNode) { mitk::Image* referenceImage = dynamic_cast(referenceNode->GetData()); m_Interpolator->SetReferenceVolume( referenceImage ); // may be NULL } } } } UpdateVisibleSuggestion(); } void QmitkSlicesInterpolator::Run3DInterpolation() { m_SurfaceInterpolator->Interpolate(); } void QmitkSlicesInterpolator::StartUpdateInterpolationTimer() { m_Timer->start(500); } void QmitkSlicesInterpolator::StopUpdateInterpolationTimer() { m_Timer->stop(); m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(SURFACE_COLOR_RGB)); mitk::RenderingManager::GetInstance()->RequestUpdate(mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))->GetRenderWindow()); } void QmitkSlicesInterpolator::ChangeSurfaceColor() { float currentColor[3]; m_InterpolatedSurfaceNode->GetColor(currentColor); if( currentColor[2] == SURFACE_COLOR_RGB[2]) { m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(1.0f,1.0f,1.0f)); } else { m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(SURFACE_COLOR_RGB)); } m_InterpolatedSurfaceNode->Update(); mitk::RenderingManager::GetInstance()->RequestUpdate(mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))->GetRenderWindow()); } void QmitkSlicesInterpolator::On3DInterpolationActivated(bool on) { m_3DInterpolationEnabled = on; this->CheckSupportedImageDimension(); try { if ( m_DataStorage.IsNotNull() && m_ToolManager && m_3DInterpolationEnabled) { mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); if (workingNode) { bool isInterpolationResult(false); workingNode->GetBoolProperty("3DInterpolationResult",isInterpolationResult); if ((workingNode->IsVisible(mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget3")))) && !isInterpolationResult && m_3DInterpolationEnabled) { int ret = QMessageBox::Yes; if (m_SurfaceInterpolator->EstimatePortionOfNeededMemory() > 0.5) { QMessageBox msgBox; msgBox.setText("Due to short handed system memory the 3D interpolation may be very slow!"); msgBox.setInformativeText("Are you sure you want to activate the 3D interpolation?"); msgBox.setStandardButtons(QMessageBox::No | QMessageBox::Yes); ret = msgBox.exec(); } if (m_Watcher.isRunning()) m_Watcher.waitForFinished(); if (ret == QMessageBox::Yes) { m_Future = QtConcurrent::run(this, &QmitkSlicesInterpolator::Run3DInterpolation); m_Watcher.setFuture(m_Future); } else { m_CmbInterpolation->setCurrentIndex(0); } } else if (!m_3DInterpolationEnabled) { this->Show3DInterpolationResult(false); m_BtnApply3D->setEnabled(m_3DInterpolationEnabled); } } else { QWidget::setEnabled( false ); m_ChkShowPositionNodes->setEnabled(m_3DInterpolationEnabled); } } if (!m_3DInterpolationEnabled) { this->Show3DInterpolationResult(false); m_BtnApply3D->setEnabled(m_3DInterpolationEnabled); } } catch(...) { MITK_ERROR<<"Error with 3D surface interpolation!"; } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSlicesInterpolator::EnableInterpolation(bool on) { // only to be called from the outside world // just a redirection to OnInterpolationActivated OnInterpolationActivated(on); } void QmitkSlicesInterpolator::Enable3DInterpolation(bool on) { // only to be called from the outside world // just a redirection to OnInterpolationActivated On3DInterpolationActivated(on); } void QmitkSlicesInterpolator::UpdateVisibleSuggestion() { if (m_2DInterpolationEnabled && m_LastSNC) { // determine which one is the current view, try to do an initial interpolation mitk::BaseRenderer* renderer = m_LastSNC->GetRenderer(); if (renderer && renderer->GetMapperID() == mitk::BaseRenderer::Standard2D) { const mitk::TimeGeometry* timeGeometry = dynamic_cast( renderer->GetWorldGeometry() ); if (timeGeometry) { mitk::SliceNavigationController::GeometrySliceEvent event( const_cast(timeGeometry), renderer->GetSlice() ); TranslateAndInterpolateChangedSlice(event, m_LastSNC); } } } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSlicesInterpolator::OnInterpolationInfoChanged(const itk::EventObject& /*e*/) { // something (e.g. undo) changed the interpolation info, we should refresh our display UpdateVisibleSuggestion(); } void QmitkSlicesInterpolator::OnSurfaceInterpolationInfoChanged(const itk::EventObject& /*e*/) { if(m_3DInterpolationEnabled) { if (m_Watcher.isRunning()) m_Watcher.waitForFinished(); m_Future = QtConcurrent::run(this, &QmitkSlicesInterpolator::Run3DInterpolation); m_Watcher.setFuture(m_Future); } } void QmitkSlicesInterpolator:: SetCurrentContourListID() { // New ContourList = hide current interpolation Show3DInterpolationResult(false); if ( m_DataStorage.IsNotNull() && m_ToolManager && m_LastSNC ) { mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); if (workingNode) { bool isInterpolationResult(false); workingNode->GetBoolProperty("3DInterpolationResult",isInterpolationResult); if (!isInterpolationResult) { QWidget::setEnabled( true ); //TODO Aufruf hier pruefen! mitk::Vector3D spacing = workingNode->GetData()->GetGeometry( m_LastSNC->GetTime()->GetPos() )->GetSpacing(); double minSpacing (100); double maxSpacing (0); for (int i =0; i < 3; i++) { if (spacing[i] < minSpacing) { minSpacing = spacing[i]; } else if (spacing[i] > maxSpacing) { maxSpacing = spacing[i]; } } m_SurfaceInterpolator->SetMaxSpacing(maxSpacing); m_SurfaceInterpolator->SetMinSpacing(minSpacing); m_SurfaceInterpolator->SetDistanceImageVolume(50000); mitk::Image* segmentationImage = dynamic_cast(workingNode->GetData()); if (segmentationImage->GetDimension() == 3) m_SurfaceInterpolator->SetCurrentInterpolationSession(segmentationImage); else MITK_INFO<<"3D Interpolation is only supported for 3D images at the moment!"; if (m_3DInterpolationEnabled) { if (m_Watcher.isRunning()) m_Watcher.waitForFinished(); m_Future = QtConcurrent::run(this, &QmitkSlicesInterpolator::Run3DInterpolation); m_Watcher.setFuture(m_Future); } } } else { QWidget::setEnabled(false); } } } void QmitkSlicesInterpolator::Show3DInterpolationResult(bool status) { if (m_InterpolatedSurfaceNode.IsNotNull()) m_InterpolatedSurfaceNode->SetVisibility(status); if (m_3DContourNode.IsNotNull()) m_3DContourNode->SetVisibility(status, mitk::BaseRenderer::GetInstance( mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSlicesInterpolator::CheckSupportedImageDimension() { if (m_3DInterpolationEnabled && m_Segmentation->GetDimension() != 3) { QMessageBox info; info.setWindowTitle("3D Interpolation Process"); info.setIcon(QMessageBox::Information); info.setText("3D Interpolation is only supported for 3D images at the moment!"); info.exec(); m_CmbInterpolation->setCurrentIndex(0); } } void QmitkSlicesInterpolator::OnSliceNavigationControllerDeleted(const itk::Object *sender, const itk::EventObject& /*e*/) { //Don't know how to avoid const_cast here?! mitk::SliceNavigationController* slicer = dynamic_cast(const_cast(sender)); if (slicer) { m_ControllerToTimeObserverTag.remove(slicer); m_ControllerToSliceObserverTag.remove(slicer); m_ControllerToDeleteObserverTag.remove(slicer); } } diff --git a/Plugins/org.mitk.gui.qt.datamanager/src/QmitkDataManagerView.cpp b/Plugins/org.mitk.gui.qt.datamanager/src/QmitkDataManagerView.cpp index 4fcfab2d00..a8f51effe6 100644 --- a/Plugins/org.mitk.gui.qt.datamanager/src/QmitkDataManagerView.cpp +++ b/Plugins/org.mitk.gui.qt.datamanager/src/QmitkDataManagerView.cpp @@ -1,1034 +1,1033 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "QmitkDataManagerView.h" #include //# Own Includes //## mitk #include "mitkDataStorageEditorInput.h" #include "mitkIDataStorageReference.h" #include "mitkNodePredicateDataType.h" #include "mitkCoreObjectFactory.h" #include "mitkDataNodeFactory.h" #include "mitkColorProperty.h" #include "mitkCommon.h" #include "mitkNodePredicateData.h" #include "mitkNodePredicateNot.h" #include "mitkNodePredicateOr.h" #include "mitkNodePredicateProperty.h" #include "mitkEnumerationProperty.h" #include "mitkLookupTableProperty.h" #include "mitkProperties.h" #include #include #include #include #include //## Qmitk #include #include #include #include #include #include #include #include "src/internal/QmitkNodeTableViewKeyFilter.h" #include "src/internal/QmitkInfoDialog.h" #include "src/internal/QmitkDataManagerItemDelegate.h" //## Berry #include #include #include #include #include #include //# Toolkit Includes #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mitkDataNodeObject.h" #include "mitkIContextMenuAction.h" #include "berryIExtensionPointService.h" #include "mitkRenderingModeProperty.h" const std::string QmitkDataManagerView::VIEW_ID = "org.mitk.views.datamanager"; QmitkDataManagerView::QmitkDataManagerView() : m_GlobalReinitOnNodeDelete(true), m_ItemDelegate(NULL) { } QmitkDataManagerView::~QmitkDataManagerView() { //Remove all registered actions from each descriptor for (std::vector< std::pair< QmitkNodeDescriptor*, QAction* > >::iterator it = m_DescriptorActionList.begin();it != m_DescriptorActionList.end(); it++) { // first== the NodeDescriptor; second== the registered QAction (it->first)->RemoveAction(it->second); } } void QmitkDataManagerView::CreateQtPartControl(QWidget* parent) { m_CurrentRowCount = 0; m_Parent = parent; //# Preferences berry::IPreferencesService::Pointer prefService = berry::Platform::GetServiceRegistry() .GetServiceById(berry::IPreferencesService::ID); berry::IBerryPreferences::Pointer prefs = (prefService->GetSystemPreferences()->Node(VIEW_ID)) .Cast(); assert( prefs ); prefs->OnChanged.AddListener( berry::MessageDelegate1( this , &QmitkDataManagerView::OnPreferencesChanged ) ); //# GUI m_NodeTreeModel = new QmitkDataStorageTreeModel(this->GetDataStorage()); m_NodeTreeModel->setParent( parent ); m_NodeTreeModel->SetPlaceNewNodesOnTop( prefs->GetBool("Place new nodes on top", true) ); m_SurfaceDecimation = prefs->GetBool("Use surface decimation", false); // Prepare filters - m_HelperObjectFilterPredicate = mitk::NodePredicateOr::New( - mitk::NodePredicateProperty::New("helper object", mitk::BoolProperty::New(true)), - mitk::NodePredicateProperty::New("hidden object")); + m_HelperObjectFilterPredicate = mitk::NodePredicateProperty::New("helper object", + mitk::BoolProperty::New(true)); m_NodeWithNoDataFilterPredicate = mitk::NodePredicateData::New(0); m_FilterModel = new QmitkDataStorageFilterProxyModel(); m_FilterModel->setSourceModel(m_NodeTreeModel); m_FilterModel->AddFilterPredicate(m_HelperObjectFilterPredicate); m_FilterModel->AddFilterPredicate(m_NodeWithNoDataFilterPredicate); //# Tree View (experimental) m_NodeTreeView = new QTreeView; m_NodeTreeView->setHeaderHidden(true); m_NodeTreeView->setSelectionMode( QAbstractItemView::ExtendedSelection ); m_NodeTreeView->setSelectionBehavior( QAbstractItemView::SelectRows ); m_NodeTreeView->setAlternatingRowColors(true); m_NodeTreeView->setDragEnabled(true); m_NodeTreeView->setDropIndicatorShown(true); m_NodeTreeView->setAcceptDrops(true); m_NodeTreeView->setContextMenuPolicy(Qt::CustomContextMenu); m_NodeTreeView->setModel(m_FilterModel); m_NodeTreeView->setTextElideMode(Qt::ElideMiddle); m_NodeTreeView->installEventFilter(new QmitkNodeTableViewKeyFilter(this)); m_ItemDelegate = new QmitkDataManagerItemDelegate(m_NodeTreeView); m_NodeTreeView->setItemDelegate(m_ItemDelegate); QObject::connect( m_NodeTreeView, SIGNAL(customContextMenuRequested(const QPoint&)) , this, SLOT(NodeTableViewContextMenuRequested(const QPoint&)) ); QObject::connect( m_NodeTreeModel, SIGNAL(rowsInserted (const QModelIndex&, int, int)) , this, SLOT(NodeTreeViewRowsInserted ( const QModelIndex&, int, int )) ); QObject::connect( m_NodeTreeModel, SIGNAL(rowsRemoved (const QModelIndex&, int, int)) , this, SLOT(NodeTreeViewRowsRemoved( const QModelIndex&, int, int )) ); QObject::connect( m_NodeTreeView->selectionModel() , SIGNAL( selectionChanged ( const QItemSelection &, const QItemSelection & ) ) , this , SLOT( NodeSelectionChanged ( const QItemSelection &, const QItemSelection & ) ) ); //# m_NodeMenu m_NodeMenu = new QMenu(m_NodeTreeView); // # Actions berry::IEditorRegistry* editorRegistry = berry::PlatformUI::GetWorkbench()->GetEditorRegistry(); std::list editors = editorRegistry->GetEditors("*.mitk"); if (editors.size() > 1) { m_ShowInMapper = new QSignalMapper(this); foreach(berry::IEditorDescriptor::Pointer descriptor, editors) { QAction* action = new QAction(QString::fromStdString(descriptor->GetLabel()), this); m_ShowInActions << action; m_ShowInMapper->connect(action, SIGNAL(triggered()), m_ShowInMapper, SLOT(map())); m_ShowInMapper->setMapping(action, QString::fromStdString(descriptor->GetId())); } connect(m_ShowInMapper, SIGNAL(mapped(QString)), this, SLOT(ShowIn(QString))); } QmitkNodeDescriptor* unknownDataNodeDescriptor = QmitkNodeDescriptorManager::GetInstance()->GetUnknownDataNodeDescriptor(); QmitkNodeDescriptor* imageDataNodeDescriptor = QmitkNodeDescriptorManager::GetInstance()->GetDescriptor("Image"); QmitkNodeDescriptor* surfaceDataNodeDescriptor = QmitkNodeDescriptorManager::GetInstance()->GetDescriptor("Surface"); QAction* globalReinitAction = new QAction(QIcon(":/org.mitk.gui.qt.datamanager/Refresh_48.png"), "Global Reinit", this); QObject::connect( globalReinitAction, SIGNAL( triggered(bool) ) , this, SLOT( GlobalReinit(bool) ) ); unknownDataNodeDescriptor->AddAction(globalReinitAction); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor, globalReinitAction)); QAction* saveAction = new QmitkFileSaveAction(QIcon(":/org.mitk.gui.qt.datamanager/Save_48.png"), this->GetSite()->GetWorkbenchWindow()); unknownDataNodeDescriptor->AddAction(saveAction); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,saveAction)); QAction* removeAction = new QAction(QIcon(":/org.mitk.gui.qt.datamanager/Remove_48.png"), "Remove", this); QObject::connect( removeAction, SIGNAL( triggered(bool) ) , this, SLOT( RemoveSelectedNodes(bool) ) ); unknownDataNodeDescriptor->AddAction(removeAction); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,removeAction)); QAction* reinitAction = new QAction(QIcon(":/org.mitk.gui.qt.datamanager/Refresh_48.png"), "Reinit", this); QObject::connect( reinitAction, SIGNAL( triggered(bool) ) , this, SLOT( ReinitSelectedNodes(bool) ) ); unknownDataNodeDescriptor->AddAction(reinitAction); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,reinitAction)); // find contextMenuAction extension points and add them to the node descriptor berry::IExtensionPointService::Pointer extensionPointService = berry::Platform::GetExtensionPointService(); berry::IConfigurationElement::vector cmActions( extensionPointService->GetConfigurationElementsFor("org.mitk.gui.qt.datamanager.contextMenuActions") ); berry::IConfigurationElement::vector::iterator cmActionsIt; std::string cmNodeDescriptorName; std::string cmLabel; std::string cmIcon; std::string cmClass; QmitkNodeDescriptor* tmpDescriptor; QAction* contextMenuAction; QVariant cmActionDataIt; m_ConfElements.clear(); int i=1; for (cmActionsIt = cmActions.begin() ; cmActionsIt != cmActions.end() ; ++cmActionsIt) { cmIcon.erase(); if((*cmActionsIt)->GetAttribute("nodeDescriptorName", cmNodeDescriptorName) && (*cmActionsIt)->GetAttribute("label", cmLabel) && (*cmActionsIt)->GetAttribute("class", cmClass)) { (*cmActionsIt)->GetAttribute("icon", cmIcon); // create context menu entry here tmpDescriptor = QmitkNodeDescriptorManager::GetInstance()->GetDescriptor(QString::fromStdString(cmNodeDescriptorName)); if(!tmpDescriptor) { MITK_WARN << "cannot add action \"" << cmLabel << "\" because descriptor " << cmNodeDescriptorName << " does not exist"; continue; } contextMenuAction = new QAction( QString::fromStdString(cmLabel), parent); tmpDescriptor->AddAction(contextMenuAction); m_DescriptorActionList.push_back(std::pair(tmpDescriptor,contextMenuAction)); m_ConfElements[contextMenuAction] = *cmActionsIt; cmActionDataIt.setValue(i); contextMenuAction->setData( cmActionDataIt ); connect( contextMenuAction, SIGNAL( triggered(bool) ) , this, SLOT( ContextMenuActionTriggered(bool) ) ); ++i; } } m_OpacitySlider = new QSlider; m_OpacitySlider->setMinimum(0); m_OpacitySlider->setMaximum(100); m_OpacitySlider->setOrientation(Qt::Horizontal); QObject::connect( m_OpacitySlider, SIGNAL( valueChanged(int) ) , this, SLOT( OpacityChanged(int) ) ); QLabel* _OpacityLabel = new QLabel("Opacity: "); QHBoxLayout* _OpacityWidgetLayout = new QHBoxLayout; _OpacityWidgetLayout->setContentsMargins(4,4,4,4); _OpacityWidgetLayout->addWidget(_OpacityLabel); _OpacityWidgetLayout->addWidget(m_OpacitySlider); QWidget* _OpacityWidget = new QWidget; _OpacityWidget->setLayout(_OpacityWidgetLayout); QWidgetAction* opacityAction = new QWidgetAction(this); opacityAction ->setDefaultWidget(_OpacityWidget); QObject::connect( opacityAction , SIGNAL( changed() ) , this, SLOT( OpacityActionChanged() ) ); unknownDataNodeDescriptor->AddAction(opacityAction , false); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,opacityAction)); m_ColorButton = new QPushButton; m_ColorButton->setSizePolicy(QSizePolicy::Expanding,QSizePolicy::Minimum); //m_ColorButton->setText("Change color"); QObject::connect( m_ColorButton, SIGNAL( clicked() ) , this, SLOT( ColorChanged() ) ); QLabel* _ColorLabel = new QLabel("Color: "); _ColorLabel->setSizePolicy(QSizePolicy::Minimum,QSizePolicy::Minimum); QHBoxLayout* _ColorWidgetLayout = new QHBoxLayout; _ColorWidgetLayout->setContentsMargins(4,4,4,4); _ColorWidgetLayout->addWidget(_ColorLabel); _ColorWidgetLayout->addWidget(m_ColorButton); QWidget* _ColorWidget = new QWidget; _ColorWidget->setLayout(_ColorWidgetLayout); QWidgetAction* colorAction = new QWidgetAction(this); colorAction->setDefaultWidget(_ColorWidget); QObject::connect( colorAction, SIGNAL( changed() ) , this, SLOT( ColorActionChanged() ) ); unknownDataNodeDescriptor->AddAction(colorAction, false); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,colorAction)); m_ComponentSlider = new QmitkNumberPropertySlider; m_ComponentSlider->setOrientation(Qt::Horizontal); //QObject::connect( m_OpacitySlider, SIGNAL( valueChanged(int) ) // , this, SLOT( OpacityChanged(int) ) ); QLabel* _ComponentLabel = new QLabel("Component: "); QHBoxLayout* _ComponentWidgetLayout = new QHBoxLayout; _ComponentWidgetLayout->setContentsMargins(4,4,4,4); _ComponentWidgetLayout->addWidget(_ComponentLabel); _ComponentWidgetLayout->addWidget(m_ComponentSlider); QLabel* _ComponentValueLabel = new QLabel(); _ComponentWidgetLayout->addWidget(_ComponentValueLabel); connect(m_ComponentSlider, SIGNAL(valueChanged(int)), _ComponentValueLabel, SLOT(setNum(int))); QWidget* _ComponentWidget = new QWidget; _ComponentWidget->setLayout(_ComponentWidgetLayout); QWidgetAction* componentAction = new QWidgetAction(this); componentAction->setDefaultWidget(_ComponentWidget); QObject::connect( componentAction , SIGNAL( changed() ) , this, SLOT( ComponentActionChanged() ) ); imageDataNodeDescriptor->AddAction(componentAction, false); m_DescriptorActionList.push_back(std::pair(imageDataNodeDescriptor,componentAction)); m_TextureInterpolation = new QAction("Texture Interpolation", this); m_TextureInterpolation->setCheckable ( true ); QObject::connect( m_TextureInterpolation, SIGNAL( changed() ) , this, SLOT( TextureInterpolationChanged() ) ); QObject::connect( m_TextureInterpolation, SIGNAL( toggled(bool) ) , this, SLOT( TextureInterpolationToggled(bool) ) ); imageDataNodeDescriptor->AddAction(m_TextureInterpolation, false); m_DescriptorActionList.push_back(std::pair(imageDataNodeDescriptor,m_TextureInterpolation)); m_ColormapAction = new QAction("Colormap", this); m_ColormapAction->setMenu(new QMenu); QObject::connect( m_ColormapAction->menu(), SIGNAL( aboutToShow() ) , this, SLOT( ColormapMenuAboutToShow() ) ); imageDataNodeDescriptor->AddAction(m_ColormapAction, false); m_DescriptorActionList.push_back(std::pair(imageDataNodeDescriptor, m_ColormapAction)); m_SurfaceRepresentation = new QAction("Surface Representation", this); m_SurfaceRepresentation->setMenu(new QMenu); QObject::connect( m_SurfaceRepresentation->menu(), SIGNAL( aboutToShow() ) , this, SLOT( SurfaceRepresentationMenuAboutToShow() ) ); surfaceDataNodeDescriptor->AddAction(m_SurfaceRepresentation, false); m_DescriptorActionList.push_back(std::pair(surfaceDataNodeDescriptor, m_SurfaceRepresentation)); QAction* showOnlySelectedNodes = new QAction(QIcon(":/org.mitk.gui.qt.datamanager/ShowSelectedNode_48.png") , "Show only selected nodes", this); QObject::connect( showOnlySelectedNodes, SIGNAL( triggered(bool) ) , this, SLOT( ShowOnlySelectedNodes(bool) ) ); unknownDataNodeDescriptor->AddAction(showOnlySelectedNodes); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor, showOnlySelectedNodes)); QAction* toggleSelectedVisibility = new QAction(QIcon(":/org.mitk.gui.qt.datamanager/InvertShowSelectedNode_48.png") , "Toggle visibility", this); QObject::connect( toggleSelectedVisibility, SIGNAL( triggered(bool) ) , this, SLOT( ToggleVisibilityOfSelectedNodes(bool) ) ); unknownDataNodeDescriptor->AddAction(toggleSelectedVisibility); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,toggleSelectedVisibility)); QAction* actionShowInfoDialog = new QAction(QIcon(":/org.mitk.gui.qt.datamanager/ShowDataInfo_48.png") , "Details...", this); QObject::connect( actionShowInfoDialog, SIGNAL( triggered(bool) ) , this, SLOT( ShowInfoDialogForSelectedNodes(bool) ) ); unknownDataNodeDescriptor->AddAction(actionShowInfoDialog); m_DescriptorActionList.push_back(std::pair(unknownDataNodeDescriptor,actionShowInfoDialog)); //obsolete... //QAction* otsuFilterAction = new QAction("Apply Otsu Filter", this); //QObject::connect( otsuFilterAction, SIGNAL( triggered(bool) ) // , this, SLOT( OtsuFilter(bool) ) ); // //Otsu filter does not work properly, remove it temporarily // imageDataNodeDescriptor->AddAction(otsuFilterAction); // m_DescriptorActionList.push_back(std::pair(imageDataNodeDescriptor,otsuFilterAction)); QGridLayout* _DndFrameWidgetLayout = new QGridLayout; _DndFrameWidgetLayout->addWidget(m_NodeTreeView, 0, 0); _DndFrameWidgetLayout->setContentsMargins(0,0,0,0); m_DndFrameWidget = new QmitkDnDFrameWidget(m_Parent); m_DndFrameWidget->setLayout(_DndFrameWidgetLayout); QVBoxLayout* layout = new QVBoxLayout(parent); layout->addWidget(m_DndFrameWidget); layout->setContentsMargins(0,0,0,0); m_Parent->setLayout(layout); } void QmitkDataManagerView::SetFocus() { } void QmitkDataManagerView::ContextMenuActionTriggered( bool ) { QAction* action = qobject_cast ( sender() ); std::map::iterator it = m_ConfElements.find( action ); if( it == m_ConfElements.end() ) { MITK_WARN << "associated conf element for action " << action->text().toStdString() << " not found"; return; } berry::IConfigurationElement::Pointer confElem = it->second; mitk::IContextMenuAction* contextMenuAction = confElem->CreateExecutableExtension("class"); std::string className; std::string smoothed; confElem->GetAttribute("class", className); confElem->GetAttribute("smoothed", smoothed); if(className == "QmitkCreatePolygonModelAction") { contextMenuAction->SetDataStorage(this->GetDataStorage()); if(smoothed == "false") { contextMenuAction->SetSmoothed(false); } else { contextMenuAction->SetSmoothed(true); } contextMenuAction->SetDecimated(m_SurfaceDecimation); } else if(className == "QmitkStatisticsAction") { contextMenuAction->SetFunctionality(this); } else if(className == "QmitkCreateSimulationAction") { contextMenuAction->SetDataStorage(this->GetDataStorage()); } contextMenuAction->Run( this->GetCurrentSelection() ); // run the action } void QmitkDataManagerView::OnPreferencesChanged(const berry::IBerryPreferences* prefs) { if( m_NodeTreeModel->GetPlaceNewNodesOnTopFlag() != prefs->GetBool("Place new nodes on top", true) ) m_NodeTreeModel->SetPlaceNewNodesOnTop( !m_NodeTreeModel->GetPlaceNewNodesOnTopFlag() ); bool hideHelperObjects = !prefs->GetBool("Show helper objects", false); if (m_FilterModel->HasFilterPredicate(m_HelperObjectFilterPredicate) != hideHelperObjects) { if (hideHelperObjects) { m_FilterModel->AddFilterPredicate(m_HelperObjectFilterPredicate); } else { m_FilterModel->RemoveFilterPredicate(m_HelperObjectFilterPredicate); } } bool hideNodesWithNoData = !prefs->GetBool("Show nodes containing no data", false); if (m_FilterModel->HasFilterPredicate(m_NodeWithNoDataFilterPredicate) != hideNodesWithNoData) { if (hideNodesWithNoData) { m_FilterModel->AddFilterPredicate(m_NodeWithNoDataFilterPredicate); } else { m_FilterModel->RemoveFilterPredicate(m_NodeWithNoDataFilterPredicate); } } m_GlobalReinitOnNodeDelete = prefs->GetBool("Call global reinit if node is deleted", true); m_NodeTreeView->expandAll(); m_SurfaceDecimation = prefs->GetBool("Use surface decimation", false); this->GlobalReinit(); } void QmitkDataManagerView::NodeTableViewContextMenuRequested( const QPoint & pos ) { QModelIndex selectedProxy = m_NodeTreeView->indexAt ( pos ); QModelIndex selected = m_FilterModel->mapToSource(selectedProxy); mitk::DataNode::Pointer node = m_NodeTreeModel->GetNode(selected); QList selectedNodes = this->GetCurrentSelection(); if(!selectedNodes.isEmpty()) { m_NodeMenu->clear(); QList actions; if(selectedNodes.size() == 1 ) { actions = QmitkNodeDescriptorManager::GetInstance()->GetActions(node); for(QList::iterator it = actions.begin(); it != actions.end(); ++it) { (*it)->setData(QVariant::fromValue(node.GetPointer())); } } else actions = QmitkNodeDescriptorManager::GetInstance()->GetActions(selectedNodes); if (!m_ShowInActions.isEmpty()) { QMenu* showInMenu = m_NodeMenu->addMenu("Show In"); showInMenu->addActions(m_ShowInActions); } m_NodeMenu->addActions(actions); m_NodeMenu->popup(QCursor::pos()); } } void QmitkDataManagerView::OpacityChanged(int value) { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(node) { float opacity = static_cast(value)/100.0f; node->SetFloatProperty("opacity", opacity); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkDataManagerView::OpacityActionChanged() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(node) { float opacity = 0.0; if(node->GetFloatProperty("opacity", opacity)) { m_OpacitySlider->setValue(static_cast(opacity*100)); } } } void QmitkDataManagerView::ComponentActionChanged() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); mitk::IntProperty* componentProperty = NULL; int numComponents = 0; if(node) { componentProperty = dynamic_cast(node->GetProperty("Image.Displayed Component")); mitk::Image* img = dynamic_cast(node->GetData()); if (img != NULL) { numComponents = img->GetPixelType().GetNumberOfComponents(); } } if (componentProperty && numComponents > 1) { m_ComponentSlider->SetProperty(componentProperty); m_ComponentSlider->setMinValue(0); m_ComponentSlider->setMaxValue(numComponents-1); } else { m_ComponentSlider->SetProperty(static_cast(NULL)); } } void QmitkDataManagerView::ColorChanged() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(node) { mitk::Color color; mitk::ColorProperty::Pointer colorProp; node->GetProperty(colorProp,"color"); if(colorProp.IsNull()) return; color = colorProp->GetValue(); QColor initial(color.GetRed()*255,color.GetGreen()*255,color.GetBlue()*255); QColor qcolor = QColorDialog::getColor(initial,0,QString("Change color")); if (!qcolor.isValid()) return; m_ColorButton->setAutoFillBackground(true); node->SetProperty("color",mitk::ColorProperty::New(qcolor.red()/255.0,qcolor.green()/255.0,qcolor.blue()/255.0)); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkDataManagerView::ColorActionChanged() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(node) { mitk::Color color; mitk::ColorProperty::Pointer colorProp; node->GetProperty(colorProp,"color"); if(colorProp.IsNull()) return; color = colorProp->GetValue(); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color[0]*255)); styleSheet.append(","); styleSheet.append(QString::number(color[1]*255)); styleSheet.append(","); styleSheet.append(QString::number(color[2]*255)); styleSheet.append(")"); m_ColorButton->setStyleSheet(styleSheet); } } void QmitkDataManagerView::TextureInterpolationChanged() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(node) { bool textureInterpolation = false; node->GetBoolProperty("texture interpolation", textureInterpolation); m_TextureInterpolation->setChecked(textureInterpolation); } } void QmitkDataManagerView::TextureInterpolationToggled( bool checked ) { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(node) { node->SetBoolProperty("texture interpolation", checked); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkDataManagerView::ColormapActionToggled( bool /*checked*/ ) { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(!node) return; mitk::LookupTableProperty::Pointer lookupTableProperty = dynamic_cast(node->GetProperty("LookupTable")); if (!lookupTableProperty) return; QAction* senderAction = qobject_cast(QObject::sender()); if(!senderAction) return; std::string activatedItem = senderAction->text().toStdString(); mitk::LookupTable::Pointer lookupTable = lookupTableProperty->GetValue(); if (!lookupTable) return; lookupTable->SetType(activatedItem); lookupTableProperty->SetValue(lookupTable); mitk::RenderingModeProperty::Pointer renderingMode = dynamic_cast(node->GetProperty("Image Rendering.Mode")); renderingMode->SetValue(mitk::RenderingModeProperty::LOOKUPTABLE_LEVELWINDOW_COLOR); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkDataManagerView::ColormapMenuAboutToShow() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(!node) return; mitk::LookupTableProperty::Pointer lookupTableProperty = dynamic_cast(node->GetProperty("LookupTable")); if (!lookupTableProperty) { mitk::LookupTable::Pointer mitkLut = mitk::LookupTable::New(); lookupTableProperty = mitk::LookupTableProperty::New(); lookupTableProperty->SetLookupTable(mitkLut); node->SetProperty("LookupTable", lookupTableProperty); } mitk::LookupTable::Pointer lookupTable = lookupTableProperty->GetValue(); if (!lookupTable) return; m_ColormapAction->menu()->clear(); QAction* tmp; int i = 0; std::string lutType = lookupTable->typenameList[i]; while (lutType != "END_OF_ARRAY") { tmp = m_ColormapAction->menu()->addAction(QString::fromStdString(lutType)); tmp->setCheckable(true); if (lutType == lookupTable->GetActiveTypeAsString()) { tmp->setChecked(true); } QObject::connect(tmp, SIGNAL(triggered(bool)), this, SLOT(ColormapActionToggled(bool))); lutType = lookupTable->typenameList[++i]; } } void QmitkDataManagerView::SurfaceRepresentationMenuAboutToShow() { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(!node) return; mitk::EnumerationProperty* representationProp = dynamic_cast (node->GetProperty("material.representation")); if(!representationProp) return; // clear menu m_SurfaceRepresentation->menu()->clear(); QAction* tmp; // create menu entries for(mitk::EnumerationProperty::EnumConstIterator it=representationProp->Begin(); it!=representationProp->End() ; it++) { tmp = m_SurfaceRepresentation->menu()->addAction(QString::fromStdString(it->second)); tmp->setCheckable(true); if(it->second == representationProp->GetValueAsString()) { tmp->setChecked(true); } QObject::connect( tmp, SIGNAL( triggered(bool) ) , this, SLOT( SurfaceRepresentationActionToggled(bool) ) ); } } void QmitkDataManagerView::SurfaceRepresentationActionToggled( bool /*checked*/ ) { mitk::DataNode* node = m_NodeTreeModel->GetNode(m_FilterModel->mapToSource(m_NodeTreeView->selectionModel()->currentIndex())); if(!node) return; mitk::EnumerationProperty* representationProp = dynamic_cast (node->GetProperty("material.representation")); if(!representationProp) return; QAction* senderAction = qobject_cast ( QObject::sender() ); if(!senderAction) return; std::string activatedItem = senderAction->text().toStdString(); if ( activatedItem != representationProp->GetValueAsString() ) { if ( representationProp->IsValidEnumerationValue( activatedItem ) ) { representationProp->SetValue( activatedItem ); representationProp->InvokeEvent( itk::ModifiedEvent() ); representationProp->Modified(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } } void QmitkDataManagerView::ReinitSelectedNodes( bool ) { mitk::IRenderWindowPart* renderWindow = this->GetRenderWindowPart(); if (renderWindow == NULL) renderWindow = this->OpenRenderWindowPart(false); QList selectedNodes = this->GetCurrentSelection(); foreach(mitk::DataNode::Pointer node, selectedNodes) { mitk::BaseData::Pointer basedata = node->GetData(); if ( basedata.IsNotNull() && basedata->GetTimeGeometry()->IsValid() ) { renderWindow->GetRenderingManager()->InitializeViews( basedata->GetTimeGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true ); renderWindow->GetRenderingManager()->RequestUpdateAll(); } } } void QmitkDataManagerView::RemoveSelectedNodes( bool ) { QModelIndexList indexesOfSelectedRowsFiltered = m_NodeTreeView->selectionModel()->selectedRows(); QModelIndexList indexesOfSelectedRows; for (int i = 0; i < indexesOfSelectedRowsFiltered.size(); ++i) { indexesOfSelectedRows.push_back(m_FilterModel->mapToSource(indexesOfSelectedRowsFiltered[i])); } if(indexesOfSelectedRows.size() < 1) { return; } std::vector selectedNodes; mitk::DataNode* node = 0; QString question = tr("Do you really want to remove "); for (QModelIndexList::iterator it = indexesOfSelectedRows.begin() ; it != indexesOfSelectedRows.end(); it++) { node = m_NodeTreeModel->GetNode(*it); // if node is not defined or if the node contains geometry data do not remove it if ( node != 0 /*& strcmp(node->GetData()->GetNameOfClass(), "PlaneGeometryData") != 0*/ ) { selectedNodes.push_back(node); question.append(QString::fromStdString(node->GetName())); question.append(", "); } } // remove the last two characters = ", " question = question.remove(question.size()-2, 2); question.append(" from data storage?"); QMessageBox::StandardButton answerButton = QMessageBox::question( m_Parent , tr("DataManager") , question , QMessageBox::Yes | QMessageBox::No, QMessageBox::Yes); if(answerButton == QMessageBox::Yes) { for (std::vector::iterator it = selectedNodes.begin() ; it != selectedNodes.end(); it++) { node = *it; this->GetDataStorage()->Remove(node); if (m_GlobalReinitOnNodeDelete) this->GlobalReinit(false); } } } void QmitkDataManagerView::MakeAllNodesInvisible( bool ) { QList nodes = m_NodeTreeModel->GetNodeSet(); foreach(mitk::DataNode::Pointer node, nodes) { node->SetVisibility(false); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkDataManagerView::ShowOnlySelectedNodes( bool ) { QList selectedNodes = this->GetCurrentSelection(); QList allNodes = m_NodeTreeModel->GetNodeSet(); foreach(mitk::DataNode::Pointer node, allNodes) { node->SetVisibility(selectedNodes.contains(node)); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkDataManagerView::ToggleVisibilityOfSelectedNodes( bool ) { QList selectedNodes = this->GetCurrentSelection(); bool isVisible = false; foreach(mitk::DataNode::Pointer node, selectedNodes) { isVisible = false; node->GetBoolProperty("visible", isVisible); node->SetVisibility(!isVisible); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkDataManagerView::ShowInfoDialogForSelectedNodes( bool ) { QList selectedNodes = this->GetCurrentSelection(); QmitkInfoDialog _QmitkInfoDialog(selectedNodes, this->m_Parent); _QmitkInfoDialog.exec(); } void QmitkDataManagerView::NodeChanged(const mitk::DataNode* node) { // m_FilterModel->invalidate(); // fix as proposed by R. Khlebnikov in the mitk-users mail from 02.09.2014 QMetaObject::invokeMethod( m_FilterModel, "invalidate", Qt::QueuedConnection ); } QItemSelectionModel *QmitkDataManagerView::GetDataNodeSelectionModel() const { return m_NodeTreeView->selectionModel(); } void QmitkDataManagerView::GlobalReinit( bool ) { mitk::IRenderWindowPart* renderWindow = this->GetRenderWindowPart(); if (renderWindow == NULL) renderWindow = this->OpenRenderWindowPart(false); // no render window available if (renderWindow == NULL) return; mitk::RenderingManager::GetInstance()->InitializeViewsByBoundingObjects(this->GetDataStorage()); } void QmitkDataManagerView::OtsuFilter( bool ) { QList selectedNodes = this->GetCurrentSelection(); mitk::Image::Pointer mitkImage = 0; foreach(mitk::DataNode::Pointer node, selectedNodes) { mitkImage = dynamic_cast( node->GetData() ); if(mitkImage.IsNull()) continue; try { // get selected mitk image const unsigned short dim = 3; typedef short InputPixelType; typedef unsigned char OutputPixelType; typedef itk::Image< InputPixelType, dim > InputImageType; typedef itk::Image< OutputPixelType, dim > OutputImageType; typedef itk::OtsuThresholdImageFilter< InputImageType, OutputImageType > FilterType; FilterType::Pointer filter = FilterType::New(); filter->SetOutsideValue( 1 ); filter->SetInsideValue( 0 ); InputImageType::Pointer itkImage; mitk::CastToItkImage(mitkImage, itkImage); filter->SetInput( itkImage ); filter->Update(); mitk::DataNode::Pointer resultNode = mitk::DataNode::New(); std::string nameOfResultImage = node->GetName(); nameOfResultImage.append("Otsu"); resultNode->SetProperty("name", mitk::StringProperty::New(nameOfResultImage) ); resultNode->SetProperty("binary", mitk::BoolProperty::New(true) ); resultNode->SetData( mitk::ImportItkImage(filter->GetOutput())->Clone()); this->GetDataStorage()->Add(resultNode, node); } catch( std::exception& err ) { MITK_ERROR(this->GetClassName()) << err.what(); } } } void QmitkDataManagerView::NodeTreeViewRowsRemoved ( const QModelIndex & /*parent*/, int /*start*/, int /*end*/ ) { m_CurrentRowCount = m_NodeTreeModel->rowCount(); } void QmitkDataManagerView::NodeTreeViewRowsInserted( const QModelIndex & parent, int, int ) { m_NodeTreeView->setExpanded(parent, true); // a new row was inserted if( m_CurrentRowCount == 0 && m_NodeTreeModel->rowCount() == 1 ) { this->OpenRenderWindowPart(); m_CurrentRowCount = m_NodeTreeModel->rowCount(); } } void QmitkDataManagerView::NodeSelectionChanged( const QItemSelection & /*selected*/, const QItemSelection & /*deselected*/ ) { QList nodes = m_NodeTreeModel->GetNodeSet(); foreach(mitk::DataNode::Pointer node, nodes) { if ( node.IsNotNull() ) node->SetBoolProperty("selected", false); } nodes.clear(); nodes = this->GetCurrentSelection(); foreach(mitk::DataNode::Pointer node, nodes) { if ( node.IsNotNull() ) node->SetBoolProperty("selected", true); } //changing the selection does NOT require any rendering processes! //mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkDataManagerView::ShowIn(const QString &editorId) { berry::IWorkbenchPage::Pointer page = this->GetSite()->GetPage(); berry::IEditorInput::Pointer input(new mitk::DataStorageEditorInput(this->GetDataStorageReference())); page->OpenEditor(input, editorId.toStdString(), false, berry::IWorkbenchPage::MATCH_ID); } mitk::IRenderWindowPart* QmitkDataManagerView::OpenRenderWindowPart(bool activatedEditor) { if (activatedEditor) { return this->GetRenderWindowPart(QmitkAbstractView::ACTIVATE | QmitkAbstractView::OPEN); } else { return this->GetRenderWindowPart(QmitkAbstractView::BRING_TO_FRONT | QmitkAbstractView::OPEN); } }