diff --git a/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilView.cpp b/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilView.cpp index cb6228f053..93a022b94d 100644 --- a/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilView.cpp +++ b/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilView.cpp @@ -1,681 +1,683 @@ /*=================================================================== 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. ===================================================================*/ // Blueberry #include #include #include // Qmitk #include "QmitkToFUtilView.h" #include #include // Qt #include #include //QT headers #include #include #include // MITK #include #include #include #include #include #include #include #include #include //itk headers #include // VTK #include // ITK #include #include const std::string QmitkToFUtilView::VIEW_ID = "org.mitk.views.tofutil"; //Constructor QmitkToFUtilView::QmitkToFUtilView() : QmitkAbstractView() , m_Controls(NULL), m_MultiWidget( NULL ) , m_MitkDistanceImage(NULL), m_MitkAmplitudeImage(NULL), m_MitkIntensityImage(NULL), m_Surface(NULL) , m_DistanceImageNode(NULL), m_AmplitudeImageNode(NULL), m_IntensityImageNode(NULL), m_RGBImageNode(NULL), m_SurfaceNode(NULL) , m_ToFImageRecorder(NULL), m_ToFImageGrabber(NULL), m_ToFDistanceImageToSurfaceFilter(NULL), m_ToFCompositeFilter(NULL) , m_2DDisplayCount(0) , m_RealTimeClock(NULL) , m_StepsForFramerate(100) , m_2DTimeBefore(0.0) , m_2DTimeAfter(0.0) , m_CameraIntrinsics(NULL) { this->m_Frametimer = new QTimer(this); this->m_ToFDistanceImageToSurfaceFilter = mitk::ToFDistanceImageToSurfaceFilter::New(); this->m_ToFCompositeFilter = mitk::ToFCompositeFilter::New(); this->m_ToFImageRecorder = mitk::ToFImageRecorder::New(); this->m_ToFSurfaceVtkMapper3D = mitk::ToFSurfaceVtkMapper3D::New(); } //Destructor, specifically calling OnToFCameraStopped() and OnToFCammeraDiconnected() QmitkToFUtilView::~QmitkToFUtilView() { OnToFCameraStopped(); OnToFCameraDisconnected(); } //Createing the PartControl Signal-Slot principal void QmitkToFUtilView::CreateQtPartControl( QWidget *parent ) { // build up qt view, unless already done if ( !m_Controls ) { // create GUI widgets from the Qt Designer's .ui file m_Controls = new Ui::QmitkToFUtilViewControls; m_Controls->setupUi( parent ); //Looking for Input and Defining reaction connect(m_Frametimer, SIGNAL(timeout()), this, SLOT(OnUpdateCamera())); connect( (QObject*)(m_Controls->m_ToFConnectionWidget), SIGNAL(KinectAcquisitionModeChanged()), this, SLOT(OnKinectAcquisitionModeChanged()) ); // Todo in Widget2 connect( (QObject*)(m_Controls->m_ToFConnectionWidget), SIGNAL(ToFCameraConnected()), this, SLOT(OnToFCameraConnected()) ); connect( (QObject*)(m_Controls->m_ToFConnectionWidget), SIGNAL(ToFCameraDisconnected()), this, SLOT(OnToFCameraDisconnected()) ); connect( (QObject*)(m_Controls->m_ToFConnectionWidget), SIGNAL(ToFCameraSelected(const QString)), this, SLOT(OnToFCameraSelected(const QString)) ); connect( (QObject*)(m_Controls->m_ToFRecorderWidget), SIGNAL(ToFCameraStarted()), this, SLOT(OnToFCameraStarted()) ); connect( (QObject*)(m_Controls->m_ToFRecorderWidget), SIGNAL(ToFCameraStopped()), this, SLOT(OnToFCameraStopped()) ); connect( (QObject*)(m_Controls->m_ToFRecorderWidget), SIGNAL(RecordingStarted()), this, SLOT(OnToFCameraStopped()) ); connect( (QObject*)(m_Controls->m_ToFRecorderWidget), SIGNAL(RecordingStopped()), this, SLOT(OnToFCameraStarted()) ); connect( (QObject*)(m_Controls->m_SurfaceCheckBox), SIGNAL(toggled(bool)), this, SLOT(OnSurfaceCheckboxChecked(bool)) ); connect( (QObject*)(m_Controls->m_TextureCheckBox), SIGNAL(toggled(bool)), this, SLOT(OnTextureCheckBoxChecked(bool)) ); connect( (QObject*)(m_Controls->m_KinectTextureCheckBox), SIGNAL(toggled(bool)), this, SLOT(OnKinectRGBTextureCheckBoxChecked(bool)) ); } } //SetFocus-Method -> actually seting Focus to the Recorder void QmitkToFUtilView::SetFocus() { m_Controls->m_ToFRecorderWidget->setFocus(); } //Activated-Method->Generating RenderWindow void QmitkToFUtilView::Activated() { //get the current RenderWindowPart or open a new one if there is none if(this->GetRenderWindowPart(OPEN)) { mitk::ILinkedRenderWindowPart* linkedRenderWindowPart = dynamic_cast(this->GetRenderWindowPart()); if(linkedRenderWindowPart == 0) { MITK_ERROR << "No linked StdMultiWidget avaiable!!!"; } else { linkedRenderWindowPart->EnableSlicingPlanes(false); } GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Axial); GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetSliceNavigationController()->SliceLockedOn(); GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Axial); GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetSliceNavigationController()->SliceLockedOn(); GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Axial); GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetSliceNavigationController()->SliceLockedOn(); this->GetRenderWindowPart()->GetRenderingManager()->InitializeViews(); this->UseToFVisibilitySettings(true); if (this->m_ToFCompositeFilter) { m_Controls->m_ToFCompositeFilterWidget->SetToFCompositeFilter(this->m_ToFCompositeFilter); } if (this->GetDataStorage()) { m_Controls->m_ToFCompositeFilterWidget->SetDataStorage(this->GetDataStorage()); } if (this->m_ToFImageGrabber.IsNull()) { m_Controls->m_ToFRecorderWidget->setEnabled(false); m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(false); m_Controls->m_ToFCompositeFilterWidget->setEnabled(false); m_Controls->tofMeasurementWidget->setEnabled(false); m_Controls->SurfacePropertiesBox->setEnabled(false); } } } //ZomnnieView-Method -> Resetting GUI to default. Why not just QmitkToFUtilView()?! void QmitkToFUtilView::ActivatedZombieView(berry::IWorkbenchPartReference::Pointer /*zombieView*/) { ResetGUIToDefault(); } void QmitkToFUtilView::Deactivated() { } void QmitkToFUtilView::Visible() { } //Reset of the ToFUtilView void QmitkToFUtilView::Hidden() { ResetGUIToDefault(); } void QmitkToFUtilView::OnToFCameraConnected() { MITK_DEBUG <<"OnToFCameraConnected"; this->m_2DDisplayCount = 0; this->m_ToFImageGrabber = m_Controls->m_ToFConnectionWidget->GetToFImageGrabber(); // initialize surface generation this->m_ToFDistanceImageToSurfaceFilter = mitk::ToFDistanceImageToSurfaceFilter::New(); this->m_ToFSurfaceVtkMapper3D = mitk::ToFSurfaceVtkMapper3D::New(); // initialize ToFImageRecorder and ToFRecorderWidget this->m_ToFImageRecorder = mitk::ToFImageRecorder::New(); this->m_ToFImageRecorder->SetCameraDevice(this->m_ToFImageGrabber->GetCameraDevice()); m_Controls->m_ToFRecorderWidget->SetParameter(this->m_ToFImageGrabber, this->m_ToFImageRecorder); m_Controls->m_ToFRecorderWidget->setEnabled(true); m_Controls->m_ToFRecorderWidget->ResetGUIToInitial(); m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(false); // initialize ToFCompositeFilterWidget this->m_ToFCompositeFilter = mitk::ToFCompositeFilter::New(); if (this->m_ToFCompositeFilter) { m_Controls->m_ToFCompositeFilterWidget->SetToFCompositeFilter(this->m_ToFCompositeFilter); } if (this->GetDataStorage()) { m_Controls->m_ToFCompositeFilterWidget->SetDataStorage(this->GetDataStorage()); } // initialize measurement widget m_Controls->tofMeasurementWidget->InitializeWidget(this->GetRenderWindowPart()->GetQmitkRenderWindows(),this->GetDataStorage(), this->m_ToFDistanceImageToSurfaceFilter->GetCameraIntrinsics()); this->m_RealTimeClock = mitk::RealTimeClock::New(); this->m_2DTimeBefore = this->m_RealTimeClock->GetCurrentStamp(); this->RequestRenderWindowUpdate(); } void QmitkToFUtilView::ResetGUIToDefault() { if(this->GetRenderWindowPart()) { mitk::ILinkedRenderWindowPart* linkedRenderWindowPart = dynamic_cast(this->GetRenderWindowPart()); if(linkedRenderWindowPart == 0) { MITK_ERROR << "No linked StdMultiWidget avaiable!!!"; } else { linkedRenderWindowPart->EnableSlicingPlanes(true); } GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Axial); GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetSliceNavigationController()->SliceLockedOff(); GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Sagittal); GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetSliceNavigationController()->SliceLockedOff(); GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Frontal); GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetSliceNavigationController()->SliceLockedOff(); this->UseToFVisibilitySettings(false); //global reinit this->GetRenderWindowPart()->GetRenderingManager()->InitializeViews(); this->RequestRenderWindowUpdate(); } } void QmitkToFUtilView::OnToFCameraDisconnected() { m_Controls->m_ToFRecorderWidget->OnStop(); m_Controls->m_ToFRecorderWidget->setEnabled(false); m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(false); m_Controls->tofMeasurementWidget->setEnabled(false); m_Controls->SurfacePropertiesBox->setEnabled(false); //clean up measurement widget m_Controls->tofMeasurementWidget->CleanUpWidget(); } void QmitkToFUtilView::OnKinectAcquisitionModeChanged() { if (m_ToFCompositeFilter.IsNotNull()&&m_ToFImageGrabber.IsNotNull()) { if (m_SelectedCamera.contains("Kinect")) { if (m_ToFImageGrabber->GetBoolProperty("RGB")) { this->m_RGBImageNode = ReplaceNodeData("RGB image",this->m_ToFImageGrabber->GetOutput(3)); this->m_ToFDistanceImageToSurfaceFilter->SetInput(3,this->m_ToFImageGrabber->GetOutput(3)); } else if (m_ToFImageGrabber->GetBoolProperty("IR")) { this->m_MitkAmplitudeImage = m_ToFCompositeFilter->GetOutput(1); this->m_AmplitudeImageNode = ReplaceNodeData("Amplitude image",m_MitkAmplitudeImage); } } this->UseToFVisibilitySettings(true); } } void QmitkToFUtilView::OnToFCameraStarted() { if (m_ToFImageGrabber.IsNotNull()) { // initialize camera intrinsics if (this->m_ToFImageGrabber->GetProperty("CameraIntrinsics")) { m_CameraIntrinsics = dynamic_cast(this->m_ToFImageGrabber->GetProperty("CameraIntrinsics"))->GetValue(); MITK_INFO << m_CameraIntrinsics->ToString(); } else { m_CameraIntrinsics = NULL; MITK_ERROR << "No camera intrinsics were found!"; } // set camera intrinsics if ( m_CameraIntrinsics.IsNotNull() ) { this->m_ToFDistanceImageToSurfaceFilter->SetCameraIntrinsics(m_CameraIntrinsics); } // initial update of image grabber this->m_ToFImageGrabber->Update(); this->m_ToFCompositeFilter->SetInput(0,this->m_ToFImageGrabber->GetOutput(0)); this->m_ToFCompositeFilter->SetInput(1,this->m_ToFImageGrabber->GetOutput(1)); this->m_ToFCompositeFilter->SetInput(2,this->m_ToFImageGrabber->GetOutput(2)); // initial update of composite filter this->m_ToFCompositeFilter->Update(); this->m_MitkDistanceImage = m_ToFCompositeFilter->GetOutput(); this->m_DistanceImageNode = ReplaceNodeData("Distance image",m_MitkDistanceImage); std::string rgbFileName; m_ToFImageGrabber->GetCameraDevice()->GetStringProperty("RGBImageFileName",rgbFileName); bool hasRGBImage = false; m_ToFImageGrabber->GetCameraDevice()->GetBoolProperty("HasRGBImage",hasRGBImage); bool hasIntensityImage = false; m_ToFImageGrabber->GetCameraDevice()->GetBoolProperty("HasIntensityImage",hasIntensityImage); bool hasAmplitudeImage = false; m_ToFImageGrabber->GetCameraDevice()->GetBoolProperty("HasAmplitudeImage",hasAmplitudeImage); bool KinectReconstructionMode = false; m_ToFImageGrabber->GetCameraDevice()->GetBoolProperty("KinectReconstructionMode",KinectReconstructionMode); if(KinectReconstructionMode) { //set the reconstruction mode for kinect this->m_ToFDistanceImageToSurfaceFilter->SetReconstructionMode(mitk::ToFDistanceImageToSurfaceFilter::Kinect); } if (m_CameraIntrinsics.IsNotNull()) { m_ToFDistanceImageToSurfaceFilter->SetCameraIntrinsics(m_CameraIntrinsics); } if(hasRGBImage || (rgbFileName!="")) { if(m_ToFImageGrabber->GetBoolProperty("IR")) { this->m_MitkAmplitudeImage = m_ToFCompositeFilter->GetOutput(1); } else { this->m_RGBImageNode = ReplaceNodeData("RGB image",this->m_ToFImageGrabber->GetOutput(3)); } } else { this->m_RGBImageNode = NULL; } if(hasAmplitudeImage) { this->m_MitkAmplitudeImage = m_ToFCompositeFilter->GetOutput(1); this->m_AmplitudeImageNode = ReplaceNodeData("Amplitude image",m_MitkAmplitudeImage); } if(hasIntensityImage) { this->m_MitkIntensityImage = m_ToFCompositeFilter->GetOutput(2); this->m_IntensityImageNode = ReplaceNodeData("Intensity image",m_MitkIntensityImage); } // if ((rgbFileName!="") || hasRGBImage) // { // } // else // { // } // this->m_AmplitudeImageNode = ReplaceNodeData("Amplitude image",m_MitkAmplitudeImage); // this->m_IntensityImageNode = ReplaceNodeData("Intensity image",m_MitkIntensityImage); this->m_ToFDistanceImageToSurfaceFilter->SetInput(0,m_MitkDistanceImage); this->m_ToFDistanceImageToSurfaceFilter->SetInput(1,m_MitkAmplitudeImage); this->m_ToFDistanceImageToSurfaceFilter->SetInput(2,m_MitkIntensityImage); this->m_Surface = this->m_ToFDistanceImageToSurfaceFilter->GetOutput(0); this->m_SurfaceNode = ReplaceNodeData("Surface",m_Surface); this->UseToFVisibilitySettings(true); m_Controls->m_ToFCompositeFilterWidget->UpdateFilterParameter(); // initialize visualization widget m_Controls->m_ToFVisualisationSettingsWidget->Initialize(this->m_DistanceImageNode, this->m_AmplitudeImageNode, this->m_IntensityImageNode); // set distance image to measurement widget m_Controls->tofMeasurementWidget->SetDistanceImage(m_MitkDistanceImage); this->m_Frametimer->start(0); m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(true); m_Controls->m_ToFCompositeFilterWidget->setEnabled(true); m_Controls->tofMeasurementWidget->setEnabled(true); m_Controls->SurfacePropertiesBox->setEnabled(true); if (m_Controls->m_TextureCheckBox->isChecked()) { OnTextureCheckBoxChecked(true); } if (m_Controls->m_KinectTextureCheckBox->isChecked()) { OnKinectRGBTextureCheckBoxChecked(true); } } m_Controls->m_TextureCheckBox->setEnabled(true); } void QmitkToFUtilView::OnToFCameraStopped() { m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(false); m_Controls->m_ToFCompositeFilterWidget->setEnabled(false); m_Controls->SurfacePropertiesBox->setEnabled(false); this->m_Frametimer->stop(); } void QmitkToFUtilView::OnToFCameraSelected(const QString selected) { m_SelectedCamera = selected; if (selected.contains("O3D")) { MITK_INFO<<"Surface representation currently not available for CamBoard and O3. Intrinsic parameters missing."; this->m_Controls->m_SurfaceCheckBox->setEnabled(false); this->m_Controls->m_TextureCheckBox->setEnabled(false); this->m_Controls->m_KinectTextureCheckBox->setEnabled(false); this->m_Controls->m_SurfaceCheckBox->setChecked(false); this->m_Controls->m_TextureCheckBox->setChecked(false); this->m_Controls->m_KinectTextureCheckBox->setChecked(false); } else { this->m_Controls->m_SurfaceCheckBox->setEnabled(true); this->m_Controls->m_TextureCheckBox->setEnabled(true); this->m_Controls->m_KinectTextureCheckBox->setEnabled(true); } } void QmitkToFUtilView::OnSurfaceCheckboxChecked(bool checked) { if(checked) { //initialize the surface once MITK_DEBUG << "OnSurfaceCheckboxChecked true"; this->m_SurfaceNode->SetData(this->m_Surface); this->m_SurfaceNode->SetMapper(mitk::BaseRenderer::Standard3D, m_ToFSurfaceVtkMapper3D); + this->m_ToFDistanceImageToSurfaceFilter->SetTriangulationThreshold( this->m_Controls->m_TriangulationThreshold->value() ); + //we need to initialize (reinit) the surface, to make it fit into the renderwindow this->GetRenderWindowPart()->GetRenderingManager()->InitializeViews( this->m_Surface->GetTimeSlicedGeometry(), mitk::RenderingManager::REQUEST_UPDATE_3DWINDOWS, true); // correctly place the vtk camera for appropriate surface rendering vtkCamera* camera3d = GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderer()->GetVtkRenderer()->GetActiveCamera(); //1m distance to camera should be a nice default value for most cameras camera3d->SetPosition(0,0,0); camera3d->SetViewUp(0,-1,0); camera3d->SetFocalPoint(0,0,1); if (this->m_CameraIntrinsics.IsNotNull()) { // compute view angle from camera intrinsics camera3d->SetViewAngle(mitk::ToFProcessingCommon::CalculateViewAngle(m_CameraIntrinsics,m_ToFImageGrabber->GetCaptureWidth())); } else { camera3d->SetViewAngle(45); } camera3d->SetClippingRange(1, 10000); } } void QmitkToFUtilView::OnUpdateCamera() { //##### Code for surface ##### if (m_Controls->m_SurfaceCheckBox->isChecked()) { // update surface m_ToFDistanceImageToSurfaceFilter->SetTextureIndex(m_Controls->m_ToFVisualisationSettingsWidget->GetSelectedImageIndex()); //if the user wants to see the texture, it has to be updated for every frame if(m_Controls->m_KinectTextureCheckBox->isChecked() && (m_SelectedCamera.contains("Kinect")) && (m_ToFImageGrabber->GetBoolProperty("RGB"))) { //remove the vtkScalarsToColors object, if there was one. this->m_ToFSurfaceVtkMapper3D->SetVtkScalarsToColors(NULL); //set RGB-iamge as texture this->m_ToFSurfaceVtkMapper3D->SetTexture((this->m_ToFImageGrabber->GetOutput(3)->GetVtkImageData())); } else { //we have to delete the texture, if there was one. this->m_ToFSurfaceVtkMapper3D->SetTexture(NULL); //get the colortransferfunction from the visualization widget this->m_ToFSurfaceVtkMapper3D->SetVtkScalarsToColors(m_Controls->m_ToFVisualisationSettingsWidget->GetSelectedColorTransferFunction()); } //update pipeline this->m_Surface->Update(); } //##### End code for surface ##### else { // update pipeline this->m_MitkDistanceImage->Update(); } this->RequestRenderWindowUpdate(); this->m_2DDisplayCount++; if ((this->m_2DDisplayCount % this->m_StepsForFramerate) == 0) { this->m_2DTimeAfter = this->m_RealTimeClock->GetCurrentStamp() - this->m_2DTimeBefore; MITK_INFO << " 2D-Display-framerate (fps): " << this->m_StepsForFramerate / (this->m_2DTimeAfter/1000); this->m_2DTimeBefore = this->m_RealTimeClock->GetCurrentStamp(); } } void QmitkToFUtilView::OnTextureCheckBoxChecked(bool checked) { if(m_SurfaceNode.IsNotNull()) { if (checked) { this->m_SurfaceNode->SetBoolProperty("scalar visibility", true); } else { this->m_SurfaceNode->SetBoolProperty("scalar visibility", false); } } } void QmitkToFUtilView::OnKinectRGBTextureCheckBoxChecked(bool checked) { if((m_SelectedCamera.contains("Kinect")) && (m_ToFImageGrabber->GetBoolProperty("RGB"))) { if (checked) { //define the dimensions of the texture this->m_ToFDistanceImageToSurfaceFilter->SetTextureImageWidth(this->m_ToFImageGrabber->GetOutput(3)->GetDimension(0)); this->m_ToFDistanceImageToSurfaceFilter->SetTextureImageHeight(this->m_ToFImageGrabber->GetOutput(3)->GetDimension(1)); } } } void QmitkToFUtilView::OnChangeCoronalWindowOutput(int index) { this->OnToFCameraStopped(); if(index == 0) { if(this->m_IntensityImageNode.IsNotNull()) this->m_IntensityImageNode->SetVisibility(false); if(this->m_RGBImageNode.IsNotNull()) this->m_RGBImageNode->SetVisibility(true); } else if(index == 1) { if(this->m_IntensityImageNode.IsNotNull()) this->m_IntensityImageNode->SetVisibility(true); if(this->m_RGBImageNode.IsNotNull()) this->m_RGBImageNode->SetVisibility(false); } this->RequestRenderWindowUpdate(); this->OnToFCameraStarted(); } mitk::DataNode::Pointer QmitkToFUtilView::ReplaceNodeData( std::string nodeName, mitk::BaseData* data ) { mitk::DataNode::Pointer node = this->GetDataStorage()->GetNamedNode(nodeName); if (node.IsNull()) { node = mitk::DataNode::New(); node->SetData(data); node->SetName(nodeName); node->SetBoolProperty("binary",false); this->GetDataStorage()->Add(node); } else { node->SetData(data); } return node; } void QmitkToFUtilView::UseToFVisibilitySettings(bool useToF) { //We need this property for every node. mitk::RenderingModeProperty::Pointer renderingModePropertyForTransferFunction = mitk::RenderingModeProperty::New(mitk::RenderingModeProperty::COLORTRANSFERFUNCTION_COLOR); // set node properties if (m_DistanceImageNode.IsNotNull()) { this->m_DistanceImageNode->SetProperty( "visible" , mitk::BoolProperty::New( true )); this->m_DistanceImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetRenderWindow() ) ); this->m_DistanceImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetRenderWindow() ) ); this->m_DistanceImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderWindow() ) ); this->m_DistanceImageNode->SetProperty("Image Rendering.Mode", renderingModePropertyForTransferFunction); } if (m_AmplitudeImageNode.IsNotNull()) { if ((m_SelectedCamera.contains("Kinect"))&&(m_ToFImageGrabber->GetBoolProperty("RGB"))) { this->m_AmplitudeImageNode->SetProperty( "visible" , mitk::BoolProperty::New( false )); } else { this->m_AmplitudeImageNode->SetProperty( "visible" , mitk::BoolProperty::New( true )); } this->m_AmplitudeImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetRenderWindow() ) ); this->m_AmplitudeImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetRenderWindow() ) ); this->m_AmplitudeImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderWindow() ) ); this->m_AmplitudeImageNode->SetProperty("Image Rendering.Mode", renderingModePropertyForTransferFunction); } if (m_IntensityImageNode.IsNotNull()) { if (m_SelectedCamera.contains("Kinect")) { this->m_IntensityImageNode->SetProperty( "visible" , mitk::BoolProperty::New( false )); } else { this->m_IntensityImageNode->SetProperty( "visible" , mitk::BoolProperty::New( true )); this->m_IntensityImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetRenderWindow() ) ); this->m_IntensityImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetRenderWindow() ) ); this->m_IntensityImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderWindow() ) ); this->m_IntensityImageNode->SetProperty("Image Rendering.Mode", renderingModePropertyForTransferFunction); } } if ((m_RGBImageNode.IsNotNull())) { if ((m_SelectedCamera.contains("Kinect"))&&(m_ToFImageGrabber->GetBoolProperty("IR"))) { this->m_RGBImageNode->SetProperty( "visible" , mitk::BoolProperty::New( false )); } else { this->m_RGBImageNode->SetProperty( "visible" , mitk::BoolProperty::New( true )); this->m_RGBImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("axial")->GetRenderWindow() ) ); this->m_RGBImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("sagittal")->GetRenderWindow() ) ); this->m_RGBImageNode->SetVisibility( !useToF, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderWindow() ) ); } } // initialize images if (m_MitkDistanceImage.IsNotNull()) { this->GetRenderWindowPart()->GetRenderingManager()->InitializeViews( this->m_MitkDistanceImage->GetTimeSlicedGeometry(), mitk::RenderingManager::REQUEST_UPDATE_2DWINDOWS, true); } if(this->m_SurfaceNode.IsNotNull()) { QHash renderWindowHashMap = this->GetRenderWindowPart()->GetQmitkRenderWindows(); QHashIterator i(renderWindowHashMap); while (i.hasNext()){ i.next(); this->m_SurfaceNode->SetVisibility( false, mitk::BaseRenderer::GetInstance(i.value()->GetRenderWindow()) ); } this->m_SurfaceNode->SetVisibility( true, mitk::BaseRenderer::GetInstance(GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderWindow() ) ); } //disable/enable gradient background this->GetRenderWindowPart()->EnableDecorations(!useToF, QStringList(QString("background"))); if((this->m_RGBImageNode.IsNotNull())) { bool RGBImageHasDifferentResolution = false; m_ToFImageGrabber->GetCameraDevice()->GetBoolProperty("RGBImageHasDifferentResolution",RGBImageHasDifferentResolution); if(RGBImageHasDifferentResolution) { //update the display geometry by using the RBG image node. Only for renderwindow coronal mitk::RenderingManager::GetInstance()->InitializeView( GetRenderWindowPart()->GetQmitkRenderWindow("coronal")->GetRenderWindow(), this->m_RGBImageNode->GetData()->GetGeometry() ); } } } diff --git a/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilViewControls.ui b/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilViewControls.ui index fa7d74512a..cf85f78dbe 100644 --- a/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilViewControls.ui +++ b/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilViewControls.ui @@ -1,154 +1,164 @@ QmitkToFUtilViewControls 0 0 466 452 0 0 QmitkTemplate Qt::Vertical 20 311 true Surface false Surface true Kinect RGB Texture false Texture + + + + + + + Triangulation Threshold + + + 0 0 0 0 true 0 0 QmitkToFRecorderWidget QWidget
QmitkToFRecorderWidget.h
1
QmitkToFVisualisationSettingsWidget QWidget
QmitkToFVisualisationSettingsWidget.h
1
QmitkToFCompositeFilterWidget QWidget
QmitkToFCompositeFilterWidget.h
1
QmitkToFPointSetWidget QWidget
QmitkToFPointSetWidget.h
1
QmitkToFConnectionWidget QWidget
QmitkToFConnectionWidget.h
1