diff --git a/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.h b/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.h index ac58bbf9cc..51920c02c2 100644 --- a/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.h +++ b/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.h @@ -1,302 +1,303 @@ /*=================================================================== 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. ===================================================================*/ #ifndef QmitkMITKIGTTrackingToolboxView_h #define QmitkMITKIGTTrackingToolboxView_h #include +#include #include #include "ui_QmitkMITKIGTTrackingToolboxViewControls.h" //mitk headers #include #include #include #include #include #include #include //QT headers #include class QmitkMITKIGTTrackingToolboxViewWorker; /*! \brief QmitkMITKIGTTrackingToolboxView This is the view of the bundle IGT Tracking Toolbox. The IGT Tracking Toolbox can be used to access tracking devices with MITK-IGT. The Tracking Toolbox can be used to log tracking data in XML or CSV format for measurement purposes. The Tracking Toolbox further allows for visualization of tools with given surfaces in combination with the NaviagtionToolManager. */ class QmitkMITKIGTTrackingToolboxView : public QmitkAbstractView { // this is needed for all Qt objects that should have a Qt meta-object // (everything that derives from QObject and wants to have signal/slots) Q_OBJECT public: static const std::string VIEW_ID; QmitkMITKIGTTrackingToolboxView(); virtual ~QmitkMITKIGTTrackingToolboxView(); virtual void CreateQtPartControl(QWidget *parent) override; /// /// Sets the focus to an internal widget. /// virtual void SetFocus() override; protected slots: /** @brief changes name of the filename when switching fileextension by radio button */ void OnToggleFileExtension(); /** @brief This slot is called if the user wants to load a new tool file. A new window opens where the user can choose a file. If the chosen file is corrupt or not valid the user gets an error message. If the file was loaded successfully the tools are show in the tool status widget. */ void OnLoadTools(); /** Starts tracking if tracking is stopped / stops tracking if tracking is started. */ void OnStartStopTracking(); /** Connects the device if it is disconnected / disconnects the device if it is connected. */ void OnConnectDisconnect(); /** Freezes the device if it is not frozen / unfreezes the device if it is frozen. */ void OnFreezeUnfreezeTracking(); /** @brief This slot connects to the device. In status "connected" configuration of the device is disabled. */ void OnConnect(); /** @brief This slot disconnects from the device. */ void OnDisconnect(); /** @brief This slot tries to start tracking with the current device. If start tracking fails the user gets an error message and tracking stays off.*/ void OnStartTracking(); /** @brief This slot stops tracking. If tracking is not strated it does nothing.*/ void OnStopTracking(); /** @brief This slot is called if the user want's to choose a file name for logging. A new windows to navigate through the file system and choose a file opens.*/ void OnChooseFileClicked(); /** @brief This slot starts logging. Logging is only possible if a device is tracking. If not the logging mechanism start when the start tracking is called.*/ void StartLogging(); /** @brief This slot stops logging. If logging is not running it does nothing.*/ void StopLogging(); /** @brief This slot enables / disables UI elements depending on the tracking device after a device is changed.*/ void OnTrackingDeviceChanged(); /** @brief This slot selects the Tracking Volume appropriate for a given model */ void OnTrackingVolumeChanged(QString qstr); /** @brief Shows or hides the tracking volume according to the checkboxe's state */ void OnShowTrackingVolumeChanged(); /** @brief This slot auto detects tools of a NDI Aurora tracking device. If tools where found they will be stored internally as a tool storage. The user is also asked if he wants to save this tool storage to load it later. Only call it if a Aurora device was configured because other devices don't support auto detection.*/ void OnAutoDetectTools(); /** @brief Slot for tracking timer. The timer updates the IGT pipline and also the logging filter if logging is activated.*/ void UpdateRenderTrackingTimer(); void UpdateLoggingTrackingTimer(); /** @brief Slot for showing the rendering disabled warning label*/ void OnChangeRenderUpdateRate(); /** @brief Resets the Tracking Tools: this means all tools are removed. */ void OnResetTools(); /** @brief Opens a dialog where a new navigation tool can be created. */ void OnAddSingleTool(); /** @brief This slot is called if the user finishes the creation of a new tool. */ void OnAddSingleToolFinished(); /** @brief This slot is called if the user cancels the creation of a new tool. */ void OnAddSingleToolCanceled(); void OnTimeOut(); protected slots: //help slots for enable/disable buttons void DisableLoggingButtons(); void EnableLoggingButtons(); void DisableOptionsButtons(); void EnableOptionsButtons(); void EnableTrackingConfigurationButtons(); void DisableTrackingConfigurationButtons(); void EnableTrackingControls(); void DisableTrackingControls(); void EnableDisableTimerButtons(int enable); void OnToggleDifferentUpdateRates(); //slots for worker thread void OnAutoDetectToolsFinished(bool success, QString errorMessage); void OnConnectFinished(bool success, QString errorMessage); void OnStartTrackingFinished(bool success, QString errorMessage); void OnStopTrackingFinished(bool success, QString errorMessage); void OnDisconnectFinished(bool success, QString errorMessage); protected: Ui::QmitkMITKIGTTrackingToolboxViewControls* m_Controls; bool m_tracking; ///> bool which is true if tracking is running, false if not bool m_connected; ///> bool that is true when a tracking device is connected bool m_logging; ///> bool which is true if logging is running, false if not int m_loggedFrames; ///> stores the current number of logged frames if logging is on mitk::NavigationToolStorage::Pointer m_toolStorage; ///>stores the loaded tools mitk::DataNode::Pointer m_TrackingVolumeNode; ///>holds the data node of the tracking volume if volume is visualized bool lastTrackingVolumeState; ///>temporary holds the state of the tracking volume (activated/not activated) during some methods QString m_ToolStorageFilename; ///>stores the filename of the current tool storage QString m_AutoSaveFilename; ///>a filename for auto saving tools if no m_ToolStorageFilename was given by the user /** @brief Shows a message box with the text given as parameter. */ void MessageBox(std::string s); /** @brief reinits the view globally. */ void GlobalReinit(); //members for the filter pipeline mitk::TrackingDeviceSource::Pointer m_TrackingDeviceSource; ///> member for the source of the IGT pipeline mitk::TrackingDeviceData m_TrackingDeviceData; ///> stores the tracking device data as long as this is not handled by the tracking device configuration widget mitk::NavigationDataObjectVisualizationFilter::Pointer m_ToolVisualizationFilter; ///> holds the tool visualization filter (second filter of the IGT pipeline) mitk::NavigationDataRecorder::Pointer m_loggingFilter; ///> holds the logging filter if logging is on (third filter of the IGT pipeline) //members for open IGT link server mitk::NavigationDataToIGTLMessageFilter::Pointer m_IGTLConversionFilter; ///> Converts the navigation data as open IGT link message and makes this filter available as microservice mitk::IGTLServer::Pointer m_IGTLServer; mitk::IGTLMessageProvider::Pointer m_IGTLMessageProvider; /** @brief This timer updates the IGT pipline and also the logging filter if logging is activated.*/ QTimer* m_TrackingRenderTimer; QTimer* m_TrackingLoggingTimer; QTimer* m_TimeoutTimer; /** Replaces the current navigation tool storage which is stored in m_toolStorage. * Basically handles the microservice stuff: unregisteres the old storage, then * replaces the storage and registers the new one. */ void ReplaceCurrentToolStorage(mitk::NavigationToolStorage::Pointer newStorage, std::string newStorageName); /** * \brief Stores the properties of some QWidgets (and the tool storage file name) to QSettings. */ void StoreUISettings(); /** * \brief Loads the properties of some QWidgets (and the tool storage file name) from QSettings. */ void LoadUISettings(); /** * Help method for updating the tool label */ void UpdateToolStorageLabel(QString pathOfLoadedStorage); /** * Auto saves the current tool storage to a temporary file. This ist used for persistence. */ void AutoSaveToolStorage(); //members for worker thread QThread* m_WorkerThread; QmitkMITKIGTTrackingToolboxViewWorker* m_Worker; private: ctkServiceReference m_DeviceTypeServiceReference; mitk::TrackingDeviceTypeCollection* m_DeviceTypeCollection; }; /** * Worker thread class for this view. */ class QmitkMITKIGTTrackingToolboxViewWorker : public QObject { Q_OBJECT public: enum WorkerMethod{ eAutoDetectTools = 0, eConnectDevice = 1, eStartTracking = 2, eStopTracking = 3, eDisconnectDevice = 4 }; void SetWorkerMethod(WorkerMethod w); void SetTrackingDevice(mitk::TrackingDevice::Pointer t); void SetDataStorage(mitk::DataStorage::Pointer d); void SetInverseMode(bool mode); void SetTrackingDeviceData(mitk::TrackingDeviceData d); void SetNavigationToolStorage(mitk::NavigationToolStorage::Pointer n); itkGetMacro(NavigationToolStorage,mitk::NavigationToolStorage::Pointer); itkGetMacro(TrackingDeviceSource,mitk::TrackingDeviceSource::Pointer); itkGetMacro(TrackingDeviceData,mitk::TrackingDeviceData); itkGetMacro(ToolVisualizationFilter,mitk::NavigationDataObjectVisualizationFilter::Pointer); public slots: void ThreadFunc(); signals: void AutoDetectToolsFinished(bool success, QString errorMessage); void ConnectDeviceFinished(bool success, QString errorMessage); void StartTrackingFinished(bool success, QString errorMessage); void StopTrackingFinished(bool success, QString errorMessage); void DisconnectDeviceFinished(bool success, QString errorMessage); protected: mitk::TrackingDevice::Pointer m_TrackingDevice; WorkerMethod m_WorkerMethod; mitk::DataStorage::Pointer m_DataStorage; mitk::NavigationToolStorage::Pointer m_NavigationToolStorage; //members for the filter pipeline which is created in the worker thread during ConnectDevice() mitk::TrackingDeviceSource::Pointer m_TrackingDeviceSource; ///> member for the source of the IGT pipeline mitk::TrackingDeviceData m_TrackingDeviceData; ///> stores the tracking device data as long as this is not handled by the tracking device configuration widget mitk::NavigationDataObjectVisualizationFilter::Pointer m_ToolVisualizationFilter; ///> holds the tool visualization filter (second filter of the IGT pipeline) //members some internal flags bool m_InverseMode; //flag that is true when the inverse mode is enabled //stores the original colors of the tracking tools std::map m_OriginalColors; //internal methods void AutoDetectTools(); void ConnectDevice(); void StartTracking(); void StopTracking(); void DisconnectDevice(); }; #endif // _QMITKMITKIGTTRACKINGTOOLBOXVIEW_H_INCLUDED 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 cdc4325848..081cc5ef59 100644 --- a/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilView.cpp +++ b/Plugins/org.mitk.gui.qt.tofutil/src/internal/QmitkToFUtilView.cpp @@ -1,525 +1,525 @@ /*=================================================================== 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" // Qt #include #include #include #include #include // MITK #include #include #include #include #include #include #include #include #include #include // VTK #include #include #include // ITK #include #include const std::string QmitkToFUtilView::VIEW_ID = "org.mitk.views.tofutil"; //Constructor QmitkToFUtilView::QmitkToFUtilView() : QmitkAbstractView() - , m_Controls(NULL), + , m_Controls(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(); } //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_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()) ); } } //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 render window part 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(); mitk::RenderingManager::GetInstance()->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->m_ToFMeasurementWidget->setEnabled(false); m_Controls->m_ToFSurfaceGenerationWidget->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(); // 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()); } if ( this->GetRenderWindowPart() ) // initialize measurement widget m_Controls->m_ToFMeasurementWidget->InitializeWidget(this->GetRenderWindowPart()->GetQmitkRenderWindows(),this->GetDataStorage(), this->m_ToFDistanceImageToSurfaceFilter->GetCameraIntrinsics()); else MITK_WARN << "No render window part available!!! MeasurementWidget will not work."; 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 render window part 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 mitk::RenderingManager::GetInstance()->InitializeViews(); this->RequestRenderWindowUpdate(); } } void QmitkToFUtilView::OnToFCameraDisconnected() { this->GetDataStorage()->Remove(m_DistanceImageNode); if(m_RGBImageNode) this->GetDataStorage()->Remove(m_RGBImageNode); if(m_AmplitudeImageNode) this->GetDataStorage()->Remove(m_AmplitudeImageNode); if(m_IntensityImageNode) this->GetDataStorage()->Remove(m_IntensityImageNode); if(m_SurfaceNode) this->GetDataStorage()->Remove(m_SurfaceNode); m_Controls->m_ToFRecorderWidget->OnStop(); m_Controls->m_ToFRecorderWidget->setEnabled(false); m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(false); m_Controls->m_ToFMeasurementWidget->setEnabled(false); m_Controls->m_ToFSurfaceGenerationWidget->setEnabled(false); //clean up measurement widget m_Controls->m_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(); 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); this->m_ToFCompositeFilter->SetInput(0,this->m_ToFImageGrabber->GetOutput(0)); if(hasAmplitudeImage) this->m_ToFCompositeFilter->SetInput(1,this->m_ToFImageGrabber->GetOutput(1)); if(hasIntensityImage) 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); 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); } this->m_ToFDistanceImageToSurfaceFilter->SetInput(0,m_MitkDistanceImage); this->m_ToFDistanceImageToSurfaceFilter->SetInput(1,m_MitkAmplitudeImage); this->m_ToFDistanceImageToSurfaceFilter->SetInput(2,m_MitkIntensityImage); this->UseToFVisibilitySettings(true); this->m_SurfaceNode = ReplaceNodeData("Surface", NULL); m_Controls->m_ToFCompositeFilterWidget->UpdateFilterParameter(); // initialize visualization widget m_Controls->m_ToFVisualisationSettingsWidget->Initialize(this->m_DistanceImageNode, this->m_AmplitudeImageNode, this->m_IntensityImageNode, this->m_SurfaceNode); m_Controls->m_ToFSurfaceGenerationWidget->Initialize(m_ToFDistanceImageToSurfaceFilter, m_ToFImageGrabber, m_CameraIntrinsics, m_SurfaceNode, GetRenderWindowPart()->GetQmitkRenderWindow("3d")->GetRenderer()->GetVtkRenderer()->GetActiveCamera()); // set distance image to measurement widget m_Controls->m_ToFMeasurementWidget->SetDistanceImage(m_MitkDistanceImage); this->m_Frametimer->start(0); m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(true); m_Controls->m_ToFCompositeFilterWidget->setEnabled(true); m_Controls->m_ToFMeasurementWidget->setEnabled(true); m_Controls->m_ToFSurfaceGenerationWidget->setEnabled(true); } } void QmitkToFUtilView::OnToFCameraStopped() { m_Controls->m_ToFVisualisationSettingsWidget->setEnabled(false); m_Controls->m_ToFCompositeFilterWidget->setEnabled(false); this->m_Frametimer->stop(); } void QmitkToFUtilView::OnUpdateCamera() { if(!m_Controls->m_ToFSurfaceGenerationWidget->UpdateSurface()) { // 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::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->SetName(nodeName); node->SetBoolProperty("binary",false); node->SetData(data); 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()) { 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()) { 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())) { 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()) { mitk::RenderingManager::GetInstance()->InitializeViews( this->m_MitkDistanceImage->GetTimeGeometry(), 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() ); } } }