diff --git a/Modules/US/USNavigation/Filter/mitkNodeDisplacementFilter.cpp b/Modules/US/USNavigation/Filter/mitkNodeDisplacementFilter.cpp index d03e602aea..590fe816f1 100644 --- a/Modules/US/USNavigation/Filter/mitkNodeDisplacementFilter.cpp +++ b/Modules/US/USNavigation/Filter/mitkNodeDisplacementFilter.cpp @@ -1,185 +1,185 @@ /*=================================================================== 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 "mitkNodeDisplacementFilter.h" mitk::NodeDisplacementFilter::NodeDisplacementFilter() : m_SelectedInput(-1) { } mitk::NodeDisplacementFilter::~NodeDisplacementFilter() { } bool mitk::NodeDisplacementFilter::AddNode( mitk::DataNode::Pointer node ) { // Consistency Checks if (node.IsNull()) { MITK_WARN("NodeDisplacementFilter") << "Null Node passed to NodeDisplacementFilter. Ignoring Node...."; return false; } if (node->GetData() == 0) { MITK_WARN("NodeDisplacementFilter") << "Empty Node passed to NodeDisplacementFilter. Ignoring Node...."; return false; } if(m_SelectedInput == -1) { MITK_ERROR("NodeDisplacementFilter") << "Cannot add nodes before input Stream was selected"; mitkThrow() << "Cannot add nodes before input Stream was selected"; } this->Update(); // make sure we are working on current data mitk::NavigationData::Pointer reference = this->GetOutput(m_SelectedInput); if (! reference->IsDataValid()) { MITK_WARN("NodeDisplacementFilter") << "Cannot add node while selected tool is not tracked. Ignoring Node...."; return false; } // find transformation and add node mitk::AffineTransform3D::Pointer inverseAffineTransform = mitk::AffineTransform3D::New(); if ( ! reference->GetAffineTransform3D()->GetInverse(inverseAffineTransform) ) { MITK_ERROR("NodeDisplacementFilter") << "Could not get the inverse transformation of the navigation data transformation."; mitkThrow() << "Could not get the inverse transformation of the navigation data transformation."; } inverseAffineTransform->Compose(node->GetData()->GetGeometry()->GetIndexToWorldTransform(), true); m_Transforms.push_back(inverseAffineTransform); m_Nodes.push_back(node); return true; } bool mitk::NodeDisplacementFilter::RemoveNode(unsigned int i) { if ( i >= m_Nodes.size() ) { return false; } m_Nodes.erase(m_Nodes.begin()+i); m_Transforms.erase(m_Transforms.begin()+i); return true; } int mitk::NodeDisplacementFilter::GetNumberOfNodes() { return m_Nodes.size(); } mitk::DataNode::Pointer mitk::NodeDisplacementFilter::GetNode (unsigned int i) { if (i < m_Nodes.size() ) { return m_Nodes.at(i); } else { return NULL; } } std::vector< mitk::DataNode::Pointer > mitk::NodeDisplacementFilter::GetNodes() { return m_Nodes; } void mitk::NodeDisplacementFilter::SelectInput(int i) { if (i < 0) { mitkThrow() << "Negative Input selected in NodeDisplacementFilter"; } if (! (static_cast(i) < this->GetInputs().size())) { MITK_ERROR("NodeDisplacementFilter") << "Selected input index is larger than actual number of inputs."; mitkThrow() << "Selected input index is larger than actual number of inputs in NodeDisplacementFilter"; } m_SelectedInput = i; } mitk::NavigationData::Pointer mitk::NodeDisplacementFilter::GetRawDisplacementNavigationData(unsigned int i) { mitk::NavigationData::Pointer returnValue = mitk::NavigationData::New(); - if(m_Nodes.at(i).IsNotNull()) + if((m_Nodes.size()>i) && (m_Nodes.at(i).IsNotNull())) { try { returnValue = mitk::NavigationData::New(m_Nodes.at(i)->GetData()->GetGeometry()->GetIndexToWorldTransform()); } catch (mitk::Exception& e) { returnValue->SetDataValid(false); MITK_WARN << "Excetion while returning navigation data: " << e.GetDescription(); } } else { returnValue->SetDataValid(false); MITK_WARN << "Node Nr. " << i << " does not exist!"; } return returnValue; } void mitk::NodeDisplacementFilter::GenerateData() { // copy the navigation data from the inputs to the outputs mitk::NavigationDataPassThroughFilter::GenerateData(); // if no reference has been set yet, warn and abort if (m_SelectedInput == -1) { MITK_INFO("NodeDisplacementFilter") << "No input has been selected. Only forwarding NavigationData..."; return; } // cancel, if selected tool is currently not being tracked if ( ! this->GetInput(m_SelectedInput)->IsDataValid() ) { return; } // outputs have been updated, now to transform the nodes // 1) Generate Pseudo-Geometry for Reference mitk::Geometry3D::Pointer refGeom = this->TransformToGeometry( this->GetInput(m_SelectedInput)->GetAffineTransform3D()); // 2) For each node, calculate new position for (unsigned int index=0; index < m_Nodes.size(); index++) { mitk::Geometry3D::Pointer transformGeometry = refGeom->Clone(); // create transformation to the reference position and from there to // the node position (node has fixed transformation from reference position) transformGeometry->Compose(m_Transforms.at(index), true); m_Nodes.at(index)->GetData()->SetGeometry(transformGeometry); } } void mitk::NodeDisplacementFilter::ResetNodes() { m_Nodes.clear(); m_Transforms.clear(); } mitk::Geometry3D::Pointer mitk::NodeDisplacementFilter::TransformToGeometry(mitk::AffineTransform3D::Pointer transform){ mitk::Geometry3D::Pointer g3d = mitk::Geometry3D::New(); g3d->SetIndexToWorldTransform(transform); g3d->TransferItkToVtkTransform(); // update VTK Transform for rendering too g3d->Modified(); return g3d; } diff --git a/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.cpp b/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.cpp index 9eca91eb8d..d88c825bc1 100644 --- a/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.cpp +++ b/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxView.cpp @@ -1,1106 +1,1107 @@ /*=================================================================== 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 // Qmitk #include "QmitkMITKIGTTrackingToolboxView.h" #include "QmitkStdMultiWidget.h" // Qt #include #include // MITK #include #include #include #include #include #include #include #include // vtk #include //for exceptions #include #include const std::string QmitkMITKIGTTrackingToolboxView::VIEW_ID = "org.mitk.views.mitkigttrackingtoolbox"; QmitkMITKIGTTrackingToolboxView::QmitkMITKIGTTrackingToolboxView() : QmitkFunctionality() , m_Controls( 0 ) , m_MultiWidget( NULL ) { m_TrackingTimer = new QTimer(this); m_tracking = false; m_logging = false; m_loggedFrames = 0; //initialize worker thread m_WorkerThread = new QThread(); m_Worker = new QmitkMITKIGTTrackingToolboxViewWorker(); } QmitkMITKIGTTrackingToolboxView::~QmitkMITKIGTTrackingToolboxView() { try { //clean up worker thread if(m_WorkerThread) {delete m_WorkerThread;} if(m_Worker) {delete m_Worker;} //remove the tracking volume this->GetDataStorage()->Remove(m_TrackingVolumeNode); //remove the tool storage if(m_toolStorage) {m_toolStorage->UnRegisterMicroservice();} if(m_TrackingDeviceSource) {m_TrackingDeviceSource->UnRegisterMicroservice();} } catch(std::exception& e) {MITK_WARN << "Unexpected exception during clean up of tracking toolbox view: " << e.what();} catch(...) {MITK_WARN << "Unexpected unknown error during clean up of tracking toolbox view!";} } void QmitkMITKIGTTrackingToolboxView::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::QmitkMITKIGTTrackingToolboxViewControls; m_Controls->setupUi( parent ); //create connections connect( m_Controls->m_LoadTools, SIGNAL(clicked()), this, SLOT(OnLoadTools()) ); connect( m_Controls->m_Connect, SIGNAL(clicked()), this, SLOT(OnConnect()) ); connect( m_Controls->m_Disconnect, SIGNAL(clicked()), this, SLOT(OnDisconnect()) ); connect( m_Controls->m_StartTracking, SIGNAL(clicked()), this, SLOT(OnStartTracking()) ); connect( m_Controls->m_StopTracking, SIGNAL(clicked()), this, SLOT(OnStopTracking()) ); connect( m_TrackingTimer, SIGNAL(timeout()), this, SLOT(UpdateTrackingTimer())); connect( m_Controls->m_ChooseFile, SIGNAL(clicked()), this, SLOT(OnChooseFileClicked())); connect( m_Controls->m_StartLogging, SIGNAL(clicked()), this, SLOT(StartLogging())); connect( m_Controls->m_StopLogging, SIGNAL(clicked()), this, SLOT(StopLogging())); connect( m_Controls->m_VolumeSelectionBox, SIGNAL(currentIndexChanged(QString)), this, SLOT(OnTrackingVolumeChanged(QString))); connect( m_Controls->m_ShowTrackingVolume, SIGNAL(clicked()), this, SLOT(OnShowTrackingVolumeChanged())); connect( m_Controls->m_AutoDetectTools, SIGNAL(clicked()), this, SLOT(OnAutoDetectTools())); connect( m_Controls->m_ResetTools, SIGNAL(clicked()), this, SLOT(OnResetTools())); connect( m_Controls->m_AddSingleTool, SIGNAL(clicked()), this, SLOT(OnAddSingleTool())); connect( m_Controls->m_NavigationToolCreationWidget, SIGNAL(NavigationToolFinished()), this, SLOT(OnAddSingleToolFinished())); connect( m_Controls->m_NavigationToolCreationWidget, SIGNAL(Canceled()), this, SLOT(OnAddSingleToolCanceled())); connect( m_Controls->m_csvFormat, SIGNAL(clicked()), this, SLOT(OnToggleFileExtension())); connect( m_Controls->m_xmlFormat, SIGNAL(clicked()), this, SLOT(OnToggleFileExtension())); //connections for the tracking device configuration widget connect( m_Controls->m_configurationWidget, SIGNAL(TrackingDeviceSelectionChanged()), this, SLOT(OnTrackingDeviceChanged())); connect( m_Controls->m_configurationWidget, SIGNAL(ProgressStarted()), this, SLOT(DisableOptionsButtons())); connect( m_Controls->m_configurationWidget, SIGNAL(ProgressStarted()), this, SLOT(DisableTrackingConfigurationButtons())); connect( m_Controls->m_configurationWidget, SIGNAL(ProgressStarted()), this, SLOT(DisableTrackingControls())); connect( m_Controls->m_configurationWidget, SIGNAL(ProgressFinished()), this, SLOT(EnableOptionsButtons())); connect( m_Controls->m_configurationWidget, SIGNAL(ProgressFinished()), this, SLOT(EnableTrackingConfigurationButtons())); connect( m_Controls->m_configurationWidget, SIGNAL(ProgressFinished()), this, SLOT(EnableTrackingControls())); //connect worker thread connect(m_Worker, SIGNAL(AutoDetectToolsFinished(bool,QString)), this, SLOT(OnAutoDetectToolsFinished(bool,QString)) ); connect(m_Worker, SIGNAL(ConnectDeviceFinished(bool,QString)), this, SLOT(OnConnectFinished(bool,QString)) ); connect(m_Worker, SIGNAL(StartTrackingFinished(bool,QString)), this, SLOT(OnStartTrackingFinished(bool,QString)) ); connect(m_Worker, SIGNAL(StopTrackingFinished(bool,QString)), this, SLOT(OnStopTrackingFinished(bool,QString)) ); connect(m_Worker, SIGNAL(DisconnectDeviceFinished(bool,QString)), this, SLOT(OnDisconnectFinished(bool,QString)) ); connect(m_WorkerThread,SIGNAL(started()), m_Worker, SLOT(ThreadFunc()) ); //move the worker to the thread m_Worker->moveToThread(m_WorkerThread); //initialize widgets m_Controls->m_configurationWidget->EnableAdvancedUserControl(false); m_Controls->m_TrackingToolsStatusWidget->SetShowPositions(true); m_Controls->m_TrackingToolsStatusWidget->SetTextAlignment(Qt::AlignLeft); //initialize tracking volume node m_TrackingVolumeNode = mitk::DataNode::New(); m_TrackingVolumeNode->SetName("TrackingVolume"); m_TrackingVolumeNode->SetOpacity(0.25); m_TrackingVolumeNode->SetBoolProperty("Backface Culling",true); mitk::Color red; red.SetRed(1); m_TrackingVolumeNode->SetColor(red); GetDataStorage()->Add(m_TrackingVolumeNode); //initialize buttons m_Controls->m_Connect->setEnabled(true); m_Controls->m_Disconnect->setEnabled(false); m_Controls->m_StartTracking->setEnabled(false); m_Controls->m_StopTracking->setEnabled(false); m_Controls->m_AutoDetectTools->setVisible(false); //only visible if tracking device is Aurora //Update List of available models for selected tool. std::vector Compatibles = mitk::GetDeviceDataForLine( m_Controls->m_configurationWidget->GetTrackingDevice()->GetType()); m_Controls->m_VolumeSelectionBox->clear(); for(int i = 0; i < Compatibles.size(); i++) { m_Controls->m_VolumeSelectionBox->addItem(Compatibles[i].Model.c_str()); } //initialize tool storage m_toolStorage = mitk::NavigationToolStorage::New(GetDataStorage()); m_toolStorage->SetName("TrackingToolbox Default Storage"); m_toolStorage->RegisterAsMicroservice("no tracking device"); //set home directory as default path for logfile m_Controls->m_LoggingFileName->setText(QDir::toNativeSeparators(QDir::homePath()) + QDir::separator() + "logfile.csv"); } } void QmitkMITKIGTTrackingToolboxView::StdMultiWidgetAvailable (QmitkStdMultiWidget &stdMultiWidget) { m_MultiWidget = &stdMultiWidget; } void QmitkMITKIGTTrackingToolboxView::StdMultiWidgetNotAvailable() { m_MultiWidget = NULL; } void QmitkMITKIGTTrackingToolboxView::OnLoadTools() { //read in filename QString filename = QFileDialog::getOpenFileName(NULL,tr("Open Tool Storage"), "/", tr("Tool Storage Files (*.IGTToolStorage)")); if (filename.isNull()) return; //read tool storage from disk std::string errorMessage = ""; mitk::NavigationToolStorageDeserializer::Pointer myDeserializer = mitk::NavigationToolStorageDeserializer::New(GetDataStorage()); // try-catch block for exceptions try { this->ReplaceCurrentToolStorage(myDeserializer->Deserialize(filename.toStdString()),filename.toStdString()); } catch(mitk::IGTException) { std::string errormessage = "Error during deserializing. Problems with file,please check the file?"; QMessageBox::warning(NULL, "IGTPlayer: Error", errormessage.c_str()); return; } if(m_toolStorage->isEmpty()) { errorMessage = myDeserializer->GetErrorMessage(); MessageBox(errorMessage); return; } //update label Poco::Path myPath = Poco::Path(filename.toStdString()); //use this to seperate filename from path QString toolLabel = QString("Loaded Tools: ") + QString::number(m_toolStorage->GetToolCount()) + " Tools from " + myPath.getFileName().c_str(); m_Controls->m_toolLabel->setText(toolLabel); //update tool preview m_Controls->m_TrackingToolsStatusWidget->RemoveStatusLabels(); m_Controls->m_TrackingToolsStatusWidget->PreShowTools(m_toolStorage); } void QmitkMITKIGTTrackingToolboxView::OnResetTools() { this->ReplaceCurrentToolStorage(mitk::NavigationToolStorage::New(GetDataStorage()),"TrackingToolbox Default Storage"); m_Controls->m_TrackingToolsStatusWidget->RemoveStatusLabels(); QString toolLabel = QString("Loaded Tools: "); m_Controls->m_toolLabel->setText(toolLabel); } void QmitkMITKIGTTrackingToolboxView::OnConnect() { MITK_INFO << "Connect Clicked"; //check if everything is ready to start tracking if (this->m_toolStorage.IsNull()) { MessageBox("Error: No Tools Loaded Yet!"); return; } else if (this->m_toolStorage->GetToolCount() == 0) { MessageBox("Error: No Way To Track Without Tools!"); return; } //parse tracking device data mitk::TrackingDeviceData data = mitk::DeviceDataUnspecified; QString qstr = m_Controls->m_VolumeSelectionBox->currentText(); if ( (! qstr.isNull()) || (! qstr.isEmpty()) ) { std::string str = qstr.toStdString(); data = mitk::GetDeviceDataByName(str); //Data will be set later, after device generation } //initialize worker thread m_Worker->SetWorkerMethod(QmitkMITKIGTTrackingToolboxViewWorker::eConnectDevice); m_Worker->SetTrackingDevice(this->m_Controls->m_configurationWidget->GetTrackingDevice()); m_Worker->SetInverseMode(m_Controls->m_InverseMode->isChecked()); m_Worker->SetNavigationToolStorage(this->m_toolStorage); m_Worker->SetTrackingDeviceData(data); //start worker thread m_WorkerThread->start(); //disable buttons this->m_Controls->m_MainWidget->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::OnConnectFinished(bool success, QString errorMessage) { m_WorkerThread->quit(); //enable buttons this->m_Controls->m_MainWidget->setEnabled(true); if (!success) { MITK_WARN << errorMessage.toStdString(); MessageBox(errorMessage.toStdString()); return; } //get data from worker thread m_TrackingDeviceSource = m_Worker->GetTrackingDeviceSource(); m_TrackingDeviceData = m_Worker->GetTrackingDeviceData(); m_ToolVisualizationFilter = m_Worker->GetToolVisualizationFilter(); //enable/disable Buttons m_Controls->m_Disconnect->setEnabled(true); m_Controls->m_StartTracking->setEnabled(true); m_Controls->m_StopTracking->setEnabled(false); m_Controls->m_Connect->setEnabled(false); DisableOptionsButtons(); DisableTrackingConfigurationButtons(); m_Controls->m_configurationWidget->ConfigurationFinished(); m_Controls->m_TrackingControlLabel->setText("Status: connected"); } void QmitkMITKIGTTrackingToolboxView::OnDisconnect() { m_Worker->SetWorkerMethod(QmitkMITKIGTTrackingToolboxViewWorker::eDisconnectDevice); m_WorkerThread->start(); m_Controls->m_MainWidget->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::OnDisconnectFinished(bool success, QString errorMessage) { m_WorkerThread->quit(); m_Controls->m_MainWidget->setEnabled(true); if (!success) { MITK_WARN << errorMessage.toStdString(); MessageBox(errorMessage.toStdString()); return; } //enable/disable Buttons m_Controls->m_Disconnect->setEnabled(false); m_Controls->m_StartTracking->setEnabled(false); m_Controls->m_StopTracking->setEnabled(false); m_Controls->m_Connect->setEnabled(true); EnableOptionsButtons(); EnableTrackingConfigurationButtons(); m_Controls->m_configurationWidget->Reset(); m_Controls->m_TrackingControlLabel->setText("Status: disconnected"); } void QmitkMITKIGTTrackingToolboxView::OnStartTracking() { m_Worker->SetWorkerMethod(QmitkMITKIGTTrackingToolboxViewWorker::eStartTracking); m_WorkerThread->start(); this->m_Controls->m_MainWidget->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::OnStartTrackingFinished(bool success, QString errorMessage) { m_WorkerThread->quit(); this->m_Controls->m_MainWidget->setEnabled(true); if(!success) { MessageBox(errorMessage.toStdString()); MITK_WARN << errorMessage.toStdString(); return; } m_TrackingTimer->start(1000/(m_Controls->m_UpdateRate->value())); m_Controls->m_TrackingControlLabel->setText("Status: tracking"); //connect the tool visualization widget for(int i=0; iGetNumberOfOutputs(); i++) { m_Controls->m_TrackingToolsStatusWidget->AddNavigationData(m_TrackingDeviceSource->GetOutput(i)); } m_Controls->m_TrackingToolsStatusWidget->ShowStatusLabels(); if (m_Controls->m_ShowToolQuaternions->isChecked()) {m_Controls->m_TrackingToolsStatusWidget->SetShowQuaternions(true);} else {m_Controls->m_TrackingToolsStatusWidget->SetShowQuaternions(false);} //show tracking volume this->OnTrackingVolumeChanged(m_Controls->m_VolumeSelectionBox->currentText()); //enable/disable Buttons m_Controls->m_Disconnect->setEnabled(true); m_Controls->m_StartTracking->setEnabled(false); m_Controls->m_StopTracking->setEnabled(true); m_Controls->m_Connect->setEnabled(false); m_tracking = true; this->GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::OnStopTracking() { if (!m_tracking) return; m_TrackingTimer->stop(); m_Worker->SetWorkerMethod(QmitkMITKIGTTrackingToolboxViewWorker::eStopTracking); m_WorkerThread->start(); m_Controls->m_MainWidget->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::OnStopTrackingFinished(bool success, QString errorMessage) { m_WorkerThread->quit(); m_Controls->m_MainWidget->setEnabled(true); if(!success) { MessageBox(errorMessage.toStdString()); MITK_WARN << errorMessage.toStdString(); return; } m_Controls->m_TrackingControlLabel->setText("Status: connected"); if (m_logging) StopLogging(); m_Controls->m_TrackingToolsStatusWidget->RemoveStatusLabels(); m_Controls->m_TrackingToolsStatusWidget->PreShowTools(m_toolStorage); m_tracking = false; //enable/disable Buttons m_Controls->m_Disconnect->setEnabled(true); m_Controls->m_StartTracking->setEnabled(true); m_Controls->m_StopTracking->setEnabled(false); m_Controls->m_Connect->setEnabled(false); this->GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::OnTrackingDeviceChanged() { mitk::TrackingDeviceType Type; if (m_Controls->m_configurationWidget->GetTrackingDevice().IsNotNull()) { Type = m_Controls->m_configurationWidget->GetTrackingDevice()->GetType(); //enable controls because device is valid m_Controls->m_TrackingToolsGoupBox->setEnabled(true); m_Controls->m_TrackingControlsGroupBox->setEnabled(true); } else { Type = mitk::TrackingSystemNotSpecified; MessageBox("Error: This tracking device is not included in this project. Please make sure that the device is installed and activated in your MITK build."); m_Controls->m_TrackingToolsGoupBox->setEnabled(false); m_Controls->m_TrackingControlsGroupBox->setEnabled(false); return; } // Code to enable/disable device specific buttons if (Type == mitk::NDIAurora) //Aurora { m_Controls->m_AutoDetectTools->setVisible(true); m_Controls->m_AddSingleTool->setEnabled(false); } else //Polaris or Microntracker { m_Controls->m_AutoDetectTools->setVisible(false); m_Controls->m_AddSingleTool->setEnabled(true); } // Code to select appropriate tracking volume for current type std::vector Compatibles = mitk::GetDeviceDataForLine(Type); m_Controls->m_VolumeSelectionBox->clear(); for(int i = 0; i < Compatibles.size(); i++) { m_Controls->m_VolumeSelectionBox->addItem(Compatibles[i].Model.c_str()); } } void QmitkMITKIGTTrackingToolboxView::OnTrackingVolumeChanged(QString qstr) { if (qstr.isNull()) return; if (qstr.isEmpty()) return; if (m_Controls->m_ShowTrackingVolume->isChecked()) { mitk::TrackingVolumeGenerator::Pointer volumeGenerator = mitk::TrackingVolumeGenerator::New(); std::string str = qstr.toStdString(); mitk::TrackingDeviceData data = mitk::GetDeviceDataByName(str); m_TrackingDeviceData = data; volumeGenerator->SetTrackingDeviceData(data); volumeGenerator->Update(); mitk::Surface::Pointer volumeSurface = volumeGenerator->GetOutput(); m_TrackingVolumeNode->SetData(volumeSurface); GlobalReinit(); } } void QmitkMITKIGTTrackingToolboxView::OnShowTrackingVolumeChanged() { if (m_Controls->m_ShowTrackingVolume->isChecked()) { OnTrackingVolumeChanged(m_Controls->m_VolumeSelectionBox->currentText()); GetDataStorage()->Add(m_TrackingVolumeNode); } else { GetDataStorage()->Remove(m_TrackingVolumeNode); GlobalReinit(); } } void QmitkMITKIGTTrackingToolboxView::OnAutoDetectTools() { if (m_Controls->m_configurationWidget->GetTrackingDevice()->GetType() == mitk::NDIAurora) { DisableTrackingConfigurationButtons(); m_Worker->SetWorkerMethod(QmitkMITKIGTTrackingToolboxViewWorker::eAutoDetectTools); m_Worker->SetTrackingDevice(m_Controls->m_configurationWidget->GetTrackingDevice().GetPointer()); m_Worker->SetDataStorage(this->GetDataStorage()); m_WorkerThread->start(); //disable controls until worker thread is finished this->m_Controls->m_MainWidget->setEnabled(false); } } void QmitkMITKIGTTrackingToolboxView::OnAutoDetectToolsFinished(bool success, QString errorMessage) { m_WorkerThread->quit(); //enable controls again this->m_Controls->m_MainWidget->setEnabled(true); if(!success) { MITK_WARN << errorMessage.toStdString(); MessageBox(errorMessage.toStdString()); EnableTrackingConfigurationButtons(); return; } mitk::NavigationToolStorage::Pointer autoDetectedStorage = m_Worker->GetNavigationToolStorage(); //save detected tools this->ReplaceCurrentToolStorage(autoDetectedStorage,"Autodetected NDI Aurora Storage"); //update label QString toolLabel = QString("Loaded Tools: ") + QString::number(m_toolStorage->GetToolCount()) + " Tools (Auto Detected)"; m_Controls->m_toolLabel->setText(toolLabel); //update tool preview m_Controls->m_TrackingToolsStatusWidget->RemoveStatusLabels(); m_Controls->m_TrackingToolsStatusWidget->PreShowTools(m_toolStorage); EnableTrackingConfigurationButtons(); if (m_toolStorage->GetToolCount()>0) { //ask the user if he wants to save the detected tools QMessageBox msgBox; switch(m_toolStorage->GetToolCount()) { case 1: msgBox.setText("Found one tool!"); break; default: msgBox.setText("Found " + QString::number(m_toolStorage->GetToolCount()) + " tools!"); } msgBox.setInformativeText("Do you want to save this tools as tool storage, so you can load them again?"); msgBox.setStandardButtons(QMessageBox::Yes | QMessageBox::No); msgBox.setDefaultButton(QMessageBox::No); int ret = msgBox.exec(); if (ret == 16384) //yes { //ask the user for a filename QString fileName = QFileDialog::getSaveFileName(NULL, tr("Save File"),"/",tr("*.IGTToolStorage")); //check for empty filename if(fileName == "") {return;} mitk::NavigationToolStorageSerializer::Pointer mySerializer = mitk::NavigationToolStorageSerializer::New(); //when Serialize method is used exceptions are thrown, need to be adapted //try-catch block for exception handling in Serializer try { mySerializer->Serialize(fileName.toStdString(),m_toolStorage); } catch(mitk::IGTException) { std::string errormessage = "Error during serialization. Please check the Zip file."; QMessageBox::warning(NULL, "IGTPlayer: Error", errormessage.c_str());} return; } else if (ret == 65536) //no { return; } } } void QmitkMITKIGTTrackingToolboxView::MessageBox(std::string s) { QMessageBox msgBox; msgBox.setText(s.c_str()); msgBox.exec(); } void QmitkMITKIGTTrackingToolboxView::UpdateTrackingTimer() { m_ToolVisualizationFilter->Update(); MITK_DEBUG << "Number of outputs ToolVisualizationFilter: " << m_ToolVisualizationFilter->GetNumberOfIndexedOutputs(); MITK_DEBUG << "Number of inputs ToolVisualizationFilter: " << m_ToolVisualizationFilter->GetNumberOfIndexedInputs(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); if (m_logging) { this->m_loggingFilter->Update(); m_loggedFrames = this->m_loggingFilter->GetRecordCounter(); this->m_Controls->m_LoggedFramesLabel->setText("Logged Frames: "+QString::number(m_loggedFrames)); //check if logging stopped automatically if((m_loggedFrames>1)&&(!m_loggingFilter->GetRecording())){StopLogging();} } m_Controls->m_TrackingToolsStatusWidget->Refresh(); } void QmitkMITKIGTTrackingToolboxView::OnChooseFileClicked() { QDir currentPath = QFileInfo(m_Controls->m_LoggingFileName->text()).dir(); // if no path was selected (QDir would select current working dir then) or the // selected path does not exist -> use home directory if ( currentPath == QDir() || ! currentPath.exists() ) { currentPath = QDir(QDir::homePath()); } QString filename = QFileDialog::getSaveFileName(NULL,tr("Choose Logging File"), currentPath.absolutePath(), "*.*"); if (filename == "") return; this->m_Controls->m_LoggingFileName->setText(filename); this->OnToggleFileExtension(); } // bug-16470: toggle file extension after clicking on radio button void QmitkMITKIGTTrackingToolboxView::OnToggleFileExtension() { QString currentInputText = this->m_Controls->m_LoggingFileName->text(); QString currentFile = QFileInfo(currentInputText).baseName(); QDir currentPath = QFileInfo(currentInputText).dir(); if(currentFile.isEmpty()) { currentFile = "logfile"; } // Setting currentPath to default home path when currentPath is empty or it does not exist if(currentPath == QDir() || !currentPath.exists()) { currentPath = QDir::homePath(); } // check if csv radio button is clicked if(this->m_Controls->m_csvFormat->isChecked()) { // you needn't add a seperator to the input text when currentpath is the rootpath if(currentPath.isRoot()) { this->m_Controls->m_LoggingFileName->setText(QDir::toNativeSeparators(currentPath.absolutePath()) + currentFile + ".csv"); } else { this->m_Controls->m_LoggingFileName->setText(QDir::toNativeSeparators(currentPath.absolutePath()) + QDir::separator() + currentFile + ".csv"); } } // check if xml radio button is clicked else if(this->m_Controls->m_xmlFormat->isChecked()) { // you needn't add a seperator to the input text when currentpath is the rootpath if(currentPath.isRoot()) { this->m_Controls->m_LoggingFileName->setText(QDir::toNativeSeparators(currentPath.absolutePath()) + currentFile + ".xml"); } else { this->m_Controls->m_LoggingFileName->setText(QDir::toNativeSeparators(currentPath.absolutePath()) + QDir::separator() + currentFile + ".xml"); } } } void QmitkMITKIGTTrackingToolboxView::StartLogging() { if (m_ToolVisualizationFilter.IsNull()) { MessageBox("Cannot activate logging without a connected device. Configure and connect a tracking device first."); return; } if (!m_logging) { //initialize logging filter m_loggingFilter = mitk::NavigationDataRecorder::New(); m_loggingFilter->SetRecordingMode(mitk::NavigationDataRecorder::NormalFile); if (m_Controls->m_xmlFormat->isChecked()) m_loggingFilter->SetOutputFormat(mitk::NavigationDataRecorder::xml); else if (m_Controls->m_csvFormat->isChecked()) m_loggingFilter->SetOutputFormat(mitk::NavigationDataRecorder::csv); std::string filename = m_Controls->m_LoggingFileName->text().toStdString().c_str(); // this part has been changed in order to prevent crash of the program if(!filename.empty()) m_loggingFilter->SetFileName(filename); else if(filename.empty()){ std::string errormessage = "File name has not been set, please set the file name"; mitkThrowException(mitk::IGTIOException)<SetFileName(filename); } if (m_Controls->m_LoggingLimit->isChecked()){m_loggingFilter->SetRecordCountLimit(m_Controls->m_LoggedFramesLimit->value());} //connect filter for(int i=0; iGetNumberOfOutputs(); i++){m_loggingFilter->AddNavigationData(m_ToolVisualizationFilter->GetOutput(i));} //start filter with try-catch block for exceptions try { m_loggingFilter->StartRecording(); } catch(mitk::IGTException) { std::string errormessage = "Error during start recording. Recorder already started recording?"; QMessageBox::warning(NULL, "IGTPlayer: Error", errormessage.c_str()); m_loggingFilter->StopRecording(); return; } //update labels / logging variables this->m_Controls->m_LoggingLabel->setText("Logging ON"); this->m_Controls->m_LoggedFramesLabel->setText("Logged Frames: 0"); m_loggedFrames = 0; m_logging = true; DisableLoggingButtons(); } } void QmitkMITKIGTTrackingToolboxView::StopLogging() { if (m_logging) { //update label this->m_Controls->m_LoggingLabel->setText("Logging OFF"); m_loggingFilter->StopRecording(); m_logging = false; EnableLoggingButtons(); } } void QmitkMITKIGTTrackingToolboxView::OnAddSingleTool() { QString Identifier = "Tool#"; if (m_toolStorage.IsNotNull()) Identifier += QString::number(m_toolStorage->GetToolCount()); else Identifier += "0"; m_Controls->m_NavigationToolCreationWidget->Initialize(GetDataStorage(),Identifier.toStdString()); m_Controls->m_NavigationToolCreationWidget->SetTrackingDeviceType(m_Controls->m_configurationWidget->GetTrackingDevice()->GetType(),false); m_Controls->m_TrackingToolsWidget->setCurrentIndex(1); //disable tracking volume during tool editing lastTrackingVolumeState = m_Controls->m_ShowTrackingVolume->isChecked(); if (lastTrackingVolumeState) m_Controls->m_ShowTrackingVolume->click(); GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::OnAddSingleToolFinished() { m_Controls->m_TrackingToolsWidget->setCurrentIndex(0); if (this->m_toolStorage.IsNull()) { //this shouldn't happen! MITK_WARN << "No ToolStorage available, cannot add tool, aborting!"; return; } m_toolStorage->AddTool(m_Controls->m_NavigationToolCreationWidget->GetCreatedTool()); m_Controls->m_TrackingToolsStatusWidget->PreShowTools(m_toolStorage); QString toolLabel = QString("Loaded Tools: "); //enable tracking volume again if (lastTrackingVolumeState) m_Controls->m_ShowTrackingVolume->click(); GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::OnAddSingleToolCanceled() { m_Controls->m_TrackingToolsWidget->setCurrentIndex(0); //enable tracking volume again if (lastTrackingVolumeState) m_Controls->m_ShowTrackingVolume->click(); GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::GlobalReinit() { // get all nodes that have not set "includeInBoundingBox" to false mitk::NodePredicateNot::Pointer pred = mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("includeInBoundingBox", mitk::BoolProperty::New(false))); mitk::DataStorage::SetOfObjects::ConstPointer rs = this->GetDataStorage()->GetSubset(pred); // calculate bounding geometry of these nodes mitk::TimeGeometry::Pointer bounds = this->GetDataStorage()->ComputeBoundingGeometry3D(rs, "visible"); // initialize the views to the bounding geometry mitk::RenderingManager::GetInstance()->InitializeViews(bounds); } void QmitkMITKIGTTrackingToolboxView::DisableLoggingButtons() { m_Controls->m_StartLogging->setEnabled(false); m_Controls->m_LoggingFileName->setEnabled(false); m_Controls->m_ChooseFile->setEnabled(false); m_Controls->m_LoggingLimit->setEnabled(false); m_Controls->m_LoggedFramesLimit->setEnabled(false); m_Controls->m_csvFormat->setEnabled(false); m_Controls->m_xmlFormat->setEnabled(false); m_Controls->m_StopLogging->setEnabled(true); } void QmitkMITKIGTTrackingToolboxView::EnableLoggingButtons() { m_Controls->m_StartLogging->setEnabled(true); m_Controls->m_LoggingFileName->setEnabled(true); m_Controls->m_ChooseFile->setEnabled(true); m_Controls->m_LoggingLimit->setEnabled(true); m_Controls->m_LoggedFramesLimit->setEnabled(true); m_Controls->m_csvFormat->setEnabled(true); m_Controls->m_xmlFormat->setEnabled(true); m_Controls->m_StopLogging->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::DisableOptionsButtons() { m_Controls->m_ShowTrackingVolume->setEnabled(false); m_Controls->m_UpdateRate->setEnabled(false); m_Controls->m_ShowToolQuaternions->setEnabled(false); m_Controls->m_OptionsUpdateRateLabel->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::EnableOptionsButtons() { m_Controls->m_ShowTrackingVolume->setEnabled(true); m_Controls->m_UpdateRate->setEnabled(true); m_Controls->m_ShowToolQuaternions->setEnabled(true); m_Controls->m_OptionsUpdateRateLabel->setEnabled(true); } void QmitkMITKIGTTrackingToolboxView::EnableTrackingControls() { m_Controls->m_TrackingControlsGroupBox->setEnabled(true); } void QmitkMITKIGTTrackingToolboxView::DisableTrackingControls() { m_Controls->m_TrackingControlsGroupBox->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::EnableTrackingConfigurationButtons() { m_Controls->m_AutoDetectTools->setEnabled(true); if (m_Controls->m_configurationWidget->GetTrackingDevice()->GetType() != mitk::NDIAurora) m_Controls->m_AddSingleTool->setEnabled(true); m_Controls->m_LoadTools->setEnabled(true); m_Controls->m_ResetTools->setEnabled(true); } void QmitkMITKIGTTrackingToolboxView::DisableTrackingConfigurationButtons() { m_Controls->m_AutoDetectTools->setEnabled(false); if (m_Controls->m_configurationWidget->GetTrackingDevice()->GetType() != mitk::NDIAurora) m_Controls->m_AddSingleTool->setEnabled(false); m_Controls->m_LoadTools->setEnabled(false); m_Controls->m_ResetTools->setEnabled(false); } void QmitkMITKIGTTrackingToolboxView::ReplaceCurrentToolStorage(mitk::NavigationToolStorage::Pointer newStorage, std::string newStorageName) { //first: get rid of the old one m_toolStorage->UnLockStorage(); //only to be sure... m_toolStorage->UnRegisterMicroservice(); m_toolStorage = NULL; //now: replace by the new one m_toolStorage = newStorage; m_toolStorage->SetName(newStorageName); m_toolStorage->RegisterAsMicroservice("no tracking device"); } + void QmitkMITKIGTTrackingToolboxViewWorker::SetWorkerMethod(WorkerMethod w) { m_WorkerMethod = w; } void QmitkMITKIGTTrackingToolboxViewWorker::SetTrackingDevice(mitk::TrackingDevice::Pointer t) { m_TrackingDevice = t; } void QmitkMITKIGTTrackingToolboxViewWorker::SetDataStorage(mitk::DataStorage::Pointer d) { m_DataStorage = d; } void QmitkMITKIGTTrackingToolboxViewWorker::SetInverseMode(bool mode) { m_InverseMode = mode; } void QmitkMITKIGTTrackingToolboxViewWorker::SetTrackingDeviceData(mitk::TrackingDeviceData d) { m_TrackingDeviceData = d; } void QmitkMITKIGTTrackingToolboxViewWorker::SetNavigationToolStorage(mitk::NavigationToolStorage::Pointer n) { m_NavigationToolStorage = n; } void QmitkMITKIGTTrackingToolboxViewWorker::ThreadFunc() { switch(m_WorkerMethod) { case eAutoDetectTools: this->AutoDetectTools(); break; case eConnectDevice: this->ConnectDevice(); break; case eStartTracking: this->StartTracking(); break; case eStopTracking: this->StopTracking(); break; case eDisconnectDevice: this->DisconnectDevice(); break; default: MITK_WARN << "Undefined worker method was set ... something went wrong!"; break; } } void QmitkMITKIGTTrackingToolboxViewWorker::AutoDetectTools() { mitk::ProgressBar::GetInstance()->AddStepsToDo(4); mitk::NavigationToolStorage::Pointer autoDetectedStorage = mitk::NavigationToolStorage::New(m_DataStorage); mitk::NDITrackingDevice::Pointer currentDevice = dynamic_cast(m_TrackingDevice.GetPointer()); try { currentDevice->OpenConnection(); mitk::ProgressBar::GetInstance()->Progress(); currentDevice->StartTracking(); } catch(mitk::Exception& e) { QString message = QString("Warning, can not auto-detect tools! (") + QString(e.GetDescription()) + QString(")"); //MessageBox(message.toStdString()); //TODO: give message to the user here! MITK_WARN << message.toStdString(); mitk::ProgressBar::GetInstance()->Progress(4); emit AutoDetectToolsFinished(false,message.toStdString().c_str()); return; } for (int i=0; iGetToolCount(); i++) { //create a navigation tool with sphere as surface std::stringstream toolname; toolname << "AutoDetectedTool" << i; mitk::NavigationTool::Pointer newTool = mitk::NavigationTool::New(); newTool->SetSerialNumber(dynamic_cast(currentDevice->GetTool(i))->GetSerialNumber()); newTool->SetIdentifier(toolname.str()); newTool->SetTrackingDeviceType(mitk::NDIAurora); mitk::DataNode::Pointer newNode = mitk::DataNode::New(); mitk::Surface::Pointer mySphere = mitk::Surface::New(); vtkSphereSource *vtkData = vtkSphereSource::New(); vtkData->SetRadius(3.0f); vtkData->SetCenter(0.0, 0.0, 0.0); vtkData->Update(); mySphere->SetVtkPolyData(vtkData->GetOutput()); vtkData->Delete(); newNode->SetData(mySphere); newNode->SetName(toolname.str()); newTool->SetDataNode(newNode); autoDetectedStorage->AddTool(newTool); } m_NavigationToolStorage = autoDetectedStorage; currentDevice->StopTracking(); mitk::ProgressBar::GetInstance()->Progress(); currentDevice->CloseConnection(); emit AutoDetectToolsFinished(true,""); mitk::ProgressBar::GetInstance()->Progress(4); } void QmitkMITKIGTTrackingToolboxViewWorker::ConnectDevice() { std::string message = ""; mitk::ProgressBar::GetInstance()->AddStepsToDo(10); //build the IGT pipeline mitk::TrackingDevice::Pointer trackingDevice = m_TrackingDevice; trackingDevice->SetData(m_TrackingDeviceData); //set device to rotation mode transposed becaus we are working with VNL style quaternions if(m_InverseMode) {trackingDevice->SetRotationMode(mitk::TrackingDevice::RotationTransposed);} //Get Tracking Volume Data mitk::TrackingDeviceData data = m_TrackingDeviceData; mitk::ProgressBar::GetInstance()->Progress(); //Create Navigation Data Source with the factory class mitk::TrackingDeviceSourceConfigurator::Pointer myTrackingDeviceSourceFactory = mitk::TrackingDeviceSourceConfigurator::New(m_NavigationToolStorage,trackingDevice); m_TrackingDeviceSource = myTrackingDeviceSourceFactory->CreateTrackingDeviceSource(m_ToolVisualizationFilter); mitk::ProgressBar::GetInstance()->Progress(); if ( m_TrackingDeviceSource.IsNull() ) { message = std::string("Cannot connect to device: ") + myTrackingDeviceSourceFactory->GetErrorMessage(); emit ConnectDeviceFinished(false,QString(message.c_str())); return; } //set filter to rotation mode transposed becaus we are working with VNL style quaternions if(m_InverseMode) m_ToolVisualizationFilter->SetRotationMode(mitk::NavigationDataObjectVisualizationFilter::RotationTransposed); //First check if the created object is valid if (m_TrackingDeviceSource.IsNull()) { message = myTrackingDeviceSourceFactory->GetErrorMessage(); emit ConnectDeviceFinished(false,QString(message.c_str())); return; } MITK_INFO << "Number of tools: " << m_TrackingDeviceSource->GetNumberOfOutputs(); mitk::ProgressBar::GetInstance()->Progress(); //The tools are maybe reordered after initialization, e.g. in case of auto-detected tools of NDI Aurora mitk::NavigationToolStorage::Pointer toolsInNewOrder = myTrackingDeviceSourceFactory->GetUpdatedNavigationToolStorage(); if ((toolsInNewOrder.IsNotNull()) && (toolsInNewOrder->GetToolCount() > 0)) { //so delete the old tools in wrong order and add them in the right order //we cannot simply replace the tool storage because the new storage is //not correctly initialized with the right data storage m_NavigationToolStorage->DeleteAllTools(); for (int i=0; i < toolsInNewOrder->GetToolCount(); i++) {m_NavigationToolStorage->AddTool(toolsInNewOrder->GetTool(i));} } mitk::ProgressBar::GetInstance()->Progress(); //connect to device try { m_TrackingDeviceSource->Connect(); mitk::ProgressBar::GetInstance()->Progress(); //Microservice registration: m_TrackingDeviceSource->RegisterAsMicroservice(); m_NavigationToolStorage->UnRegisterMicroservice(); m_NavigationToolStorage->RegisterAsMicroservice(m_TrackingDeviceSource->GetMicroserviceID()); m_NavigationToolStorage->LockStorage(); } catch (...) //todo: change to mitk::IGTException { message = "Error on connecting the tracking device."; emit ConnectDeviceFinished(false,QString(message.c_str())); return; } emit ConnectDeviceFinished(true,QString(message.c_str())); mitk::ProgressBar::GetInstance()->Progress(10); } void QmitkMITKIGTTrackingToolboxViewWorker::StartTracking() { QString errorMessage = ""; try { m_TrackingDeviceSource->StartTracking(); } catch (...) //todo: change to mitk::IGTException { errorMessage += "Error while starting the tracking device!"; emit StartTrackingFinished(false,errorMessage); return; } emit StartTrackingFinished(true,errorMessage); } void QmitkMITKIGTTrackingToolboxViewWorker::StopTracking() { try { m_TrackingDeviceSource->StopTracking(); } catch(mitk::Exception& e) { emit StopTrackingFinished(false, e.GetDescription()); } emit StopTrackingFinished(true, ""); } void QmitkMITKIGTTrackingToolboxViewWorker::DisconnectDevice() { try { if (m_TrackingDeviceSource->IsTracking()) {m_TrackingDeviceSource->StopTracking();} m_TrackingDeviceSource->Disconnect(); m_TrackingDeviceSource->UnRegisterMicroservice(); m_NavigationToolStorage->UnLockStorage(); } catch(mitk::Exception& e) { emit DisconnectDeviceFinished(false, e.GetDescription()); } emit DisconnectDeviceFinished(true, ""); } diff --git a/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.cpp b/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.cpp index bc9424cc54..2091795463 100644 --- a/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.cpp +++ b/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.cpp @@ -1,343 +1,343 @@ /*=================================================================== 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 //Mitk #include #include #include #include // Qmitk #include "UltrasoundSupport.h" #include // Qt #include // Ultrasound #include "mitkUSDevice.h" #include "QmitkUSAbstractCustomWidget.h" #include #include #include "usServiceReference.h" #include "internal/org_mitk_gui_qt_ultrasound_Activator.h" const std::string UltrasoundSupport::VIEW_ID = "org.mitk.views.ultrasoundsupport"; void UltrasoundSupport::SetFocus() { } void UltrasoundSupport::CreateQtPartControl( QWidget *parent ) { m_Timer = new QTimer(this); // create GUI widgets from the Qt Designer's .ui file m_Controls.setupUi( parent ); connect( m_Controls.m_DeviceManagerWidget, SIGNAL(NewDeviceButtonClicked()), this, SLOT(OnClickedAddNewDevice()) ); // Change Widget Visibilities connect( m_Controls.m_DeviceManagerWidget, SIGNAL(NewDeviceButtonClicked()), this->m_Controls.m_NewVideoDeviceWidget, SLOT(CreateNewDevice()) ); // Init NewDeviceWidget connect( m_Controls.m_NewVideoDeviceWidget, SIGNAL(Finished()), this, SLOT(OnNewDeviceWidgetDone()) ); // After NewDeviceWidget finished editing connect( m_Controls.m_BtnView, SIGNAL(clicked()), this, SLOT(OnClickedViewDevice()) ); connect( m_Controls.m_FrameRate, SIGNAL(valueChanged(int)), this, SLOT(OnChangedFramerateLimit(int)) ); connect( m_Controls.m_FreezeButton, SIGNAL(clicked()), this, SLOT(OnClickedFreezeButton()) ); connect( m_Timer, SIGNAL(timeout()), this, SLOT(DisplayImage())); // Initializations m_Controls.m_NewVideoDeviceWidget->setVisible(false); std::string filter = "(&(" + us::ServiceConstants::OBJECTCLASS() + "=" + "org.mitk.services.UltrasoundDevice)(" + mitk::USDevice::GetPropertyKeys().US_PROPKEY_ISACTIVE + "=true))"; m_Controls.m_ActiveVideoDevices->Initialize( mitk::USDevice::GetPropertyKeys().US_PROPKEY_LABEL ,filter); m_Node = this->GetDataStorage()->GetNamedNode("US Image Stream"); if (m_Node.IsNull()) { // Create Node for US Stream m_Node = mitk::DataNode::New(); m_Node->SetName("US Image Stream"); this->GetDataStorage()->Add(m_Node); } m_Controls.tabWidget->setTabEnabled(1, false); } void UltrasoundSupport::OnClickedAddNewDevice() { m_Controls.m_NewVideoDeviceWidget->setVisible(true); m_Controls.m_DeviceManagerWidget->setVisible(false); m_Controls.m_Headline->setText("Add New Video Device:"); m_Controls.m_WidgetActiveDevices->setVisible(false); } void UltrasoundSupport::DisplayImage() { m_Device->Modified(); m_Device->Update(); mitk::Image::Pointer curOutput = m_Device->GetOutput(); if (! m_ImageAlreadySetToNode && curOutput.IsNotNull() && curOutput->IsInitialized()) { m_Node->SetData(curOutput); m_ImageAlreadySetToNode = true; } if ( curOutput.GetPointer() != m_Node->GetData() ) { MITK_INFO << "Data Node of the ultrasound image stream was changed by another plugin. Stop viewing."; - this->StopViewing(); + this->StopViewing(false); return; } this->RequestRenderWindowUpdate(); if ( curOutput->GetDimension() > 1 && (curOutput->GetDimension(0) != m_CurrentImageWidth || curOutput->GetDimension(1) != m_CurrentImageHeight) ) { // make a reinit on the ultrasound image mitk::IRenderWindowPart* renderWindow = this->GetRenderWindowPart(); if ( renderWindow != NULL && curOutput->GetTimeGeometry()->IsValid() ) { renderWindow->GetRenderingManager()->InitializeViews( curOutput->GetTimeGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true ); renderWindow->GetRenderingManager()->RequestUpdateAll(); } m_CurrentImageWidth = curOutput->GetDimension(0); m_CurrentImageHeight = curOutput->GetDimension(1); } m_FrameCounter ++; if (m_FrameCounter == 10) { int nMilliseconds = m_Clock.restart(); int fps = 10000.0f / (nMilliseconds ); m_Controls.m_FramerateLabel->setText("Current Framerate: "+ QString::number(fps) +" FPS"); m_FrameCounter = 0; } } void UltrasoundSupport::OnClickedViewDevice() { m_FrameCounter = 0; // We use the activity state of the timer to determine whether we are currently viewing images if ( ! m_Timer->isActive() ) // Activate Imaging { this->StartViewing(); } else //deactivate imaging { this->StopViewing(); } } void UltrasoundSupport::OnChangedFramerateLimit(int value) { m_Timer->setInterval(1000 / value); } void UltrasoundSupport::OnClickedFreezeButton() { if ( m_Device->GetIsFreezed() ) { m_Device->SetIsFreezed(false); m_Controls.m_FreezeButton->setText("Freeze"); } else { m_Device->SetIsFreezed(true); m_Controls.m_FreezeButton->setText("Start Viewing Again"); } } void UltrasoundSupport::OnNewDeviceWidgetDone() { m_Controls.m_NewVideoDeviceWidget->setVisible(false); m_Controls.m_DeviceManagerWidget->setVisible(true); m_Controls.m_Headline->setText("Ultrasound Devices:"); m_Controls.m_WidgetActiveDevices->setVisible(true); } void UltrasoundSupport::StartViewing() { m_ImageAlreadySetToNode = false; m_Controls.tabWidget->setTabEnabled(1, true); m_Controls.tabWidget->setCurrentIndex(1); //get device & set data node m_Device = m_Controls.m_ActiveVideoDevices->GetSelectedService(); if (m_Device.IsNull()) { m_Timer->stop(); return; } //start timer int interval = (1000 / m_Controls.m_FrameRate->value()); m_Timer->setInterval(interval); m_Timer->start(); //change UI elements m_Controls.m_BtnView->setText("Stop Viewing"); this->CreateControlWidgets(); } -void UltrasoundSupport::StopViewing() +void UltrasoundSupport::StopViewing(bool RenderWindowUpdate) { m_Controls.tabWidget->setTabEnabled(1, false); this->RemoveControlWidgets(); //stop timer & release data m_Timer->stop(); m_Node->ReleaseData(); - this->RequestRenderWindowUpdate(); + if (RenderWindowUpdate) {this->RequestRenderWindowUpdate();} //change UI elements m_Controls.m_BtnView->setText("Start Viewing"); } void UltrasoundSupport::CreateControlWidgets() { m_ControlProbesWidget = new QmitkUSControlsProbesWidget(m_Device->GetControlInterfaceProbes(), m_Controls.m_ToolBoxControlWidgets); m_Controls.probesWidgetContainer->addWidget(m_ControlProbesWidget); // create b mode widget for current device m_ControlBModeWidget = new QmitkUSControlsBModeWidget(m_Device->GetControlInterfaceBMode(), m_Controls.m_ToolBoxControlWidgets); m_Controls.m_ToolBoxControlWidgets->addItem(m_ControlBModeWidget, "B Mode Controls"); if ( ! m_Device->GetControlInterfaceBMode() ) { m_Controls.m_ToolBoxControlWidgets->setItemEnabled(m_Controls.m_ToolBoxControlWidgets->count()-1, false); } // create doppler widget for current device m_ControlDopplerWidget = new QmitkUSControlsDopplerWidget(m_Device->GetControlInterfaceDoppler(), m_Controls.m_ToolBoxControlWidgets); m_Controls.m_ToolBoxControlWidgets->addItem(m_ControlDopplerWidget, "Doppler Controls"); if ( ! m_Device->GetControlInterfaceDoppler() ) { m_Controls.m_ToolBoxControlWidgets->setItemEnabled(m_Controls.m_ToolBoxControlWidgets->count()-1, false); } ctkPluginContext* pluginContext = mitk::PluginActivator::GetContext(); if ( pluginContext ) { std::string filter = "(ork.mitk.services.UltrasoundCustomWidget.deviceClass=" + m_Device->GetDeviceClass() + ")"; QString interfaceName ( us_service_interface_iid() ); m_CustomWidgetServiceReference = pluginContext->getServiceReferences(interfaceName, QString::fromStdString(filter)); if (m_CustomWidgetServiceReference.size() > 0) { m_ControlCustomWidget = pluginContext->getService (m_CustomWidgetServiceReference.at(0))->CloneForQt(m_Controls.tab2); m_ControlCustomWidget->SetDevice(m_Device); m_Controls.m_ToolBoxControlWidgets->addItem(m_ControlCustomWidget, "Custom Controls"); } else { m_Controls.m_ToolBoxControlWidgets->addItem(new QWidget(m_Controls.m_ToolBoxControlWidgets), "Custom Controls"); m_Controls.m_ToolBoxControlWidgets->setItemEnabled(m_Controls.m_ToolBoxControlWidgets->count()-1, false); } } // select first enabled control widget for ( int n = 0; n < m_Controls.m_ToolBoxControlWidgets->count(); ++n) { if ( m_Controls.m_ToolBoxControlWidgets->isItemEnabled(n) ) { m_Controls.m_ToolBoxControlWidgets->setCurrentIndex(n); break; } } } void UltrasoundSupport::RemoveControlWidgets() { // remove all control widgets from the tool box widget while (m_Controls.m_ToolBoxControlWidgets->count() > 0) { m_Controls.m_ToolBoxControlWidgets->removeItem(0); } // remove probes widget (which is not part of the tool box widget) m_Controls.probesWidgetContainer->removeWidget(m_ControlProbesWidget); delete m_ControlProbesWidget; m_ControlProbesWidget = 0; delete m_ControlBModeWidget; m_ControlBModeWidget = 0; delete m_ControlDopplerWidget; m_ControlDopplerWidget = 0; // delete custom widget if it is present if ( m_ControlCustomWidget ) { ctkPluginContext* pluginContext = mitk::PluginActivator::GetContext(); delete m_ControlCustomWidget; m_ControlCustomWidget = 0; if ( m_CustomWidgetServiceReference.size() > 0 ) { pluginContext->ungetService(m_CustomWidgetServiceReference.at(0)); } } } void UltrasoundSupport::OnDeciveServiceEvent(const ctkServiceEvent event) { if ( m_Device.IsNull() || event.getType() != us::ServiceEvent::MODIFIED ) { return; } ctkServiceReference service = event.getServiceReference(); if ( m_Device->GetDeviceManufacturer() != service.getProperty(mitk::USImageMetadata::PROP_DEV_MANUFACTURER).toString().toStdString() && m_Device->GetDeviceModel() != service.getProperty(mitk::USImageMetadata::PROP_DEV_MODEL).toString().toStdString() ) { return; } if ( ! m_Device->GetIsActive() && m_Timer->isActive() ) { - this->StopViewing(); + this->StopViewing(false); } } UltrasoundSupport::UltrasoundSupport() : m_ControlCustomWidget(0), m_ControlBModeWidget(0), m_ControlProbesWidget(0), m_ImageAlreadySetToNode(false), m_CurrentImageWidth(0), m_CurrentImageHeight(0) { ctkPluginContext* pluginContext = mitk::PluginActivator::GetContext(); if ( pluginContext ) { // to be notified about service event of an USDevice pluginContext->connectServiceListener(this, "OnDeciveServiceEvent", QString::fromStdString("(" + us::ServiceConstants::OBJECTCLASS() + "=" + us_service_interface_iid() + ")")); } } UltrasoundSupport::~UltrasoundSupport() { } diff --git a/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.h b/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.h index fa3c909ebc..87f8a24500 100644 --- a/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.h +++ b/Plugins/org.mitk.gui.qt.ultrasound/src/internal/UltrasoundSupport.h @@ -1,124 +1,124 @@ /*=================================================================== 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 UltrasoundSupport_h #define UltrasoundSupport_h #include #include #include "ui_UltrasoundSupportControls.h" #include "QmitkUSAbstractCustomWidget.h" #include "QmitkUSControlsBModeWidget.h" #include "QmitkUSControlsDopplerWidget.h" #include "QmitkUSControlsProbesWidget.h" #include #include /*! \brief UltrasoundSupport This plugin provides functionality to manage Ultrasound devices, create video devices and to view device images. \sa QmitkFunctionality \ingroup ${plugin_target}_internal */ class UltrasoundSupport : 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: virtual void SetFocus(); static const std::string VIEW_ID; virtual void CreateQtPartControl(QWidget *parent); UltrasoundSupport(); virtual ~UltrasoundSupport(); public slots: /* * \brief This is called when the newDeviceWidget is closed */ void OnNewDeviceWidgetDone(); protected slots: void OnClickedAddNewDevice(); void OnClickedViewDevice(); void OnChangedFramerateLimit(int); void OnClickedFreezeButton(); void OnDeciveServiceEvent(const ctkServiceEvent event); /* * \brief This is the main imaging loop that is called regularily during the imaging process */ void DisplayImage(); protected: void StartViewing(); - void StopViewing(); + void StopViewing(bool RenderWindowUpdate = true); void CreateControlWidgets(); void RemoveControlWidgets(); int m_FrameCounter; /* * \brief This timer triggers periodic updates to the pipeline */ QTimer* m_Timer; QTime m_Clock; /* * \brief The device that is currently used to aquire images */ mitk::USDevice::Pointer m_Device; /* * \brief The node that we feed images into */ mitk::DataNode::Pointer m_Node; mitk::Image::Pointer m_Image; Ui::UltrasoundSupportControls m_Controls; QmitkUSAbstractCustomWidget* m_ControlCustomWidget; QmitkUSControlsBModeWidget* m_ControlBModeWidget; QmitkUSControlsDopplerWidget* m_ControlDopplerWidget; QmitkUSControlsProbesWidget* m_ControlProbesWidget; QList m_CustomWidgetServiceReference; bool m_ImageAlreadySetToNode; unsigned int m_CurrentImageWidth; unsigned int m_CurrentImageHeight; }; #endif // UltrasoundSupport_h \ No newline at end of file