diff --git a/Modules/Bundles/org.mitk.gui.qt.igttrackingtoolbox/src/internal/QmitkMITKIGTTrackingToolboxView.cpp b/Modules/Bundles/org.mitk.gui.qt.igttrackingtoolbox/src/internal/QmitkMITKIGTTrackingToolboxView.cpp index d1cdb7498c..5a3afd6501 100644 --- a/Modules/Bundles/org.mitk.gui.qt.igttrackingtoolbox/src/internal/QmitkMITKIGTTrackingToolboxView.cpp +++ b/Modules/Bundles/org.mitk.gui.qt.igttrackingtoolbox/src/internal/QmitkMITKIGTTrackingToolboxView.cpp @@ -1,497 +1,499 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date$ Version: $Revision$ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ // Blueberry #include #include // Qmitk #include "QmitkMITKIGTTrackingToolboxView.h" #include "QmitkStdMultiWidget.h" // Qt #include #include // MITK #include #include #include #include #include #include #include // vtk #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; } QmitkMITKIGTTrackingToolboxView::~QmitkMITKIGTTrackingToolboxView() { } 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_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_configurationWidget, SIGNAL(TrackingDeviceSelectionChanged()), this, SLOT(OnTrackingDeviceChanged())); connect( m_Controls->VolumeSelectionBox, SIGNAL(currentIndexChanged(QString)), this, SLOT(OnTrackingVolumeChanged(QString))); connect( m_Controls->m_AutoDetectTools, SIGNAL(clicked()), this, SLOT(OnAutoDetectTools())); //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"); this->GetDataStorage()->Add(m_TrackingVolumeNode); //initialize buttons m_Controls->m_StopTracking->setEnabled(false); m_Controls->m_StopLogging->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->VolumeSelectionBox->clear(); for(int i = 0; i < Compatibles.size(); i++) { m_Controls->VolumeSelectionBox->addItem(Compatibles[i].Model.c_str()); } } } 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 Toolfile"), "/", tr("All Files (*.*)")); //later perhaps: tr("Toolfile (*.tfl)" if (filename.isNull()) return; //read tool storage from disk mitk::NavigationToolStorageDeserializer::Pointer myDeserializer = mitk::NavigationToolStorageDeserializer::New(GetDataStorage()); m_toolStorage = myDeserializer->Deserialize(filename.toStdString()); if (m_toolStorage.IsNull()) { MessageBox(myDeserializer->GetErrorMessage()); m_toolStorage = NULL; 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::OnStartTracking() { //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; } //build the IGT pipeline mitk::TrackingDevice::Pointer trackingDevice = this->m_Controls->m_configurationWidget->GetTrackingDevice(); //Get Tracking Volume Data mitk::TrackingDeviceData data = mitk::DeviceDataUnspecified; QString qstr = m_Controls->VolumeSelectionBox->currentText(); if ( (! qstr.isNull()) || (! qstr.isEmpty()) ) { std::string str = qstr.toStdString(); - data = mitk::GetDeviceDataByName(str); + data = mitk::GetDeviceDataByName(str); //Data will be set later, after device generation } -trackingDevice->SetData(data); + mitk::TrackingDeviceSourceConfigurator::Pointer myTrackingDeviceSourceFactory = mitk::TrackingDeviceSourceConfigurator::New(this->m_toolStorage,trackingDevice); m_TrackingDeviceSource = myTrackingDeviceSourceFactory->CreateTrackingDeviceSource(this->m_ToolVisualizationFilter); if (m_TrackingDeviceSource.IsNull()) { MessageBox(myTrackingDeviceSourceFactory->GetErrorMessage()); return; } //initialize tracking try { m_TrackingDeviceSource->Connect(); m_TrackingDeviceSource->StartTracking(); } catch (...) { MessageBox("Error while starting the tracking device!"); 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);} //disable loading new tools this->m_Controls->m_LoadTools->setEnabled(false); this->m_Controls->m_AutoDetectTools->setEnabled(false); //set configuration finished this->m_Controls->m_configurationWidget->ConfigurationFinished(); //show tracking volume if (m_Controls->m_ShowTrackingVolume->isChecked()) { mitk::TrackingVolumeGenerator::Pointer volumeGenerator = mitk::TrackingVolumeGenerator::New(); - volumeGenerator->SetTrackingDeviceType(m_TrackingDeviceSource->GetTrackingDevice()->GetType()); + + volumeGenerator->SetTrackingDeviceData(data); + //volumeGenerator->SetTrackingDeviceType(m_TrackingDeviceSource->GetTrackingDevice()->GetType()); volumeGenerator->Update(); mitk::Surface::Pointer volumeSurface = volumeGenerator->GetOutput(); m_TrackingVolumeNode->SetData(volumeSurface); m_TrackingVolumeNode->SetOpacity(0.25); mitk::Color red; red.SetRed(1); m_TrackingVolumeNode->SetColor(red); } m_tracking = true; //disable Buttons m_Controls->m_StopTracking->setEnabled(true); m_Controls->m_StartTracking->setEnabled(false); DisableOptionsButtons(); this->GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::OnStopTracking() { if (!m_tracking) return; m_TrackingTimer->stop(); m_TrackingDeviceSource->StopTracking(); m_TrackingDeviceSource->Disconnect(); this->m_Controls->m_configurationWidget->Reset(); m_Controls->m_TrackingControlLabel->setText("Status: stopped"); if (m_logging) StopLogging(); this->m_Controls->m_LoadTools->setEnabled(true); this->m_Controls->m_AutoDetectTools->setEnabled(true); m_Controls->m_TrackingToolsStatusWidget->RemoveStatusLabels(); m_Controls->m_TrackingToolsStatusWidget->PreShowTools(m_toolStorage); m_TrackingVolumeNode->SetData(NULL); m_tracking = false; //enable Buttons m_Controls->m_StopTracking->setEnabled(false); m_Controls->m_StartTracking->setEnabled(true); EnableOptionsButtons(); this->GlobalReinit(); } void QmitkMITKIGTTrackingToolboxView::OnTrackingDeviceChanged() { mitk::TrackingDeviceType Type = m_Controls->m_configurationWidget->GetTrackingDevice()->GetType(); // Code to enable auto detection if (Type == mitk::NDIAurora) {m_Controls->m_AutoDetectTools->setVisible(true);} else {m_Controls->m_AutoDetectTools->setVisible(false);} // Code to select appropriate tracking volumes std::vector Compatibles = mitk::GetDeviceDataForLine(Type); m_Controls->VolumeSelectionBox->clear(); for(int i = 0; i < Compatibles.size(); i++) { m_Controls->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); volumeGenerator->SetTrackingDeviceData(data); volumeGenerator->Update(); mitk::Surface::Pointer volumeSurface = volumeGenerator->GetOutput(); m_TrackingVolumeNode->SetData(volumeSurface); m_TrackingVolumeNode->SetOpacity(0.25); mitk::Color red; red.SetRed(1); m_TrackingVolumeNode->SetColor(red); } } void QmitkMITKIGTTrackingToolboxView::OnAutoDetectTools() { if (m_Controls->m_configurationWidget->GetTrackingDevice()->GetType() == mitk::NDIAurora) { mitk::NDITrackingDevice::Pointer currentDevice = dynamic_cast(m_Controls->m_configurationWidget->GetTrackingDevice().GetPointer()); currentDevice->OpenConnection(); currentDevice->StartTracking(); mitk::NavigationToolStorage::Pointer autoDetectedStorage = mitk::NavigationToolStorage::New(this->GetDataStorage()); 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); } //save detected tools m_toolStorage = autoDetectedStorage; //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); currentDevice->StopTracking(); currentDevice->CloseConnection(); if (m_toolStorage->GetToolCount()>0) { //ask the user if he wants to save the detected tools QMessageBox msgBox; 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("*.*")); mitk::NavigationToolStorageSerializer::Pointer mySerializer = mitk::NavigationToolStorageSerializer::New(); if (!mySerializer->Serialize(fileName.toStdString(),m_toolStorage)) MessageBox(mySerializer->GetErrorMessage()); 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::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() { QString filename = QFileDialog::getSaveFileName(NULL,tr("Choose Logging File"), "/", "*.*"); this->m_Controls->m_LoggingFileName->setText(filename); } void QmitkMITKIGTTrackingToolboxView::StartLogging() { 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); m_loggingFilter->SetFileName(m_Controls->m_LoggingFileName->text().toStdString().c_str()); 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 m_loggingFilter->StartRecording(); //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::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::TimeSlicedGeometry::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); } diff --git a/Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Dome.stl b/Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Dome.stl index 731db787ce..f41777ff30 100644 Binary files a/Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Dome.stl and b/Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Dome.stl differ diff --git a/Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Dome.stl b/Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Prototype_Dome.stl similarity index 100% copy from Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Dome.stl copy to Modules/IGT/IGTTrackingDevices/TrackingVolumeData/NDIAuroraTabletopFG_Prototype_Dome.stl diff --git a/Modules/IGT/IGTTrackingDevices/mitkTrackingTypes.h b/Modules/IGT/IGTTrackingDevices/mitkTrackingTypes.h index ca028d0d2c..f4f343cbbe 100644 --- a/Modules/IGT/IGTTrackingDevices/mitkTrackingTypes.h +++ b/Modules/IGT/IGTTrackingDevices/mitkTrackingTypes.h @@ -1,252 +1,253 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date$ Version: $Revision$ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #ifndef MITKTRACKINGTYPES_H_HEADER_INCLUDED_ #define MITKTRACKINGTYPES_H_HEADER_INCLUDED_ #include #include //#include namespace mitk { /**Documentation * \brief Error codes of NDI tracking devices */ enum NDIErrorCode { NDIOKAY = 0, NDIERROR = 1, SERIALINTERFACENOTSET, SERIALSENDERROR, SERIALRECEIVEERROR, SROMFILETOOLARGE, SROMFILETOOSMALL, NDICRCERROR, // reply has crc error, local computer detected the error NDIINVALIDCOMMAND, NDICOMMANDTOOLONG, NDICOMMANDTOOSHORT, NDICRCDOESNOTMATCH, // command had crc error, tracking device detected the error NDITIMEOUT, NDIUNABLETOSETNEWCOMMPARAMETERS, NDIINCORRECTNUMBEROFPARAMETERS, NDIINVALIDPORTHANDLE, NDIINVALIDTRACKINGPRIORITY, NDIINVALIDLED, NDIINVALIDLEDSTATE, NDICOMMANDINVALIDINCURRENTMODE, NDINOTOOLFORPORT, NDIPORTNOTINITIALIZED, NDISYSTEMNOTINITIALIZED, NDIUNABLETOSTOPTRACKING, NDIUNABLETOSTARTTRACKING, NDIINITIALIZATIONFAILED, NDIINVALIDVOLUMEPARAMETERS, NDICANTSTARTDIAGNOSTICMODE, NDICANTINITIRDIAGNOSTICS, NDIFAILURETOWRITESROM, NDIENABLEDTOOLSNOTSUPPORTED, NDICOMMANDPARAMETEROUTOFRANGE, NDINOMEMORYAVAILABLE, NDIPORTHANDLENOTALLOCATED, NDIPORTHASBECOMEUNOCCUPIED, NDIOUTOFHANDLES, NDIINCOMPATIBLEFIRMWAREVERSIONS, NDIINVALIDPORTDESCRIPTION, NDIINVALIDOPERATIONFORDEVICE, NDIWARNING, NDIUNKNOWNERROR, NDIUNEXPECTEDREPLY, UNKNOWNHANDLERETURNED, TRACKINGDEVICERESET, TRACKINGDEVICENOTSET }; /**Documentation * \brief identifier for tracking device. The way it is currently used * represents a product line rather than an actal type. Refactoring is a future option. */ enum TrackingDeviceType { NDIPolaris, ///< Polaris: optical Tracker from NDI NDIAurora, ///< Aurora: electromagnetic Tracker from NDI ClaronMicron, ///< Micron Tracker: optical Tracker from Claron IntuitiveDaVinci, ///< Intuitive Surgical: DaVinci Telemanipulator API Interface AscensionMicroBird, ///< Ascension microBird / PCIBird family VirtualTracker, ///< Virtual Tracking device class that produces random tracking coordinates TrackingSystemNotSpecified,///< entry for not specified or initialized tracking system TrackingSystemInvalid ///< entry for invalid state (mainly for testing) }; /**Documentation * \brief Error codes of NDI tracking devices */ enum OperationMode { ToolTracking6D, ToolTracking5D, MarkerTracking3D, HybridTracking }; /** * \brief This enum is deprecated. In future, please use the new TrackingDeviceData to model Specific tracking Volumes * Represents the setting of the tracking volume of a NDI tracking device. The tracking volume of * a tracking device itself (as 3d-Object) is represented by an instance of the class mitk::TrackingVolume * as defined by NDI API SFLIST (Aurora and Polaris API guide) * */ enum NDITrackingVolume { Standard, Pyramid, SpectraPyramid, VicraVolume, Cube, Dome }; /** * /brief This structure defines key variables of a device model and type. * It is specifically used to find out which models belong to which vendor, and what volume * to use for a specific Model. Leaving VolumeModelLocation set to null will instruct the Generator * to generate a field to the best of his ability */ struct TrackingDeviceData { TrackingDeviceType Line; std::string Model; std::string VolumeModelLocation; }; /** * Here all supported devices are defined. Dont forget to introduce new Devices into the TrackingDeviceList Array at the bottom! * If a model does not have a corresponding tracking volume yet, pass an empty string to denote "No Model". pass "cube" to render * a default cube of 400x400 px. You can define additional magic strings in the TrackingVolumeGenerator. */ static TrackingDeviceData DeviceDataAuroraCompact = {NDIAurora, "CompactFG", "NDIAuroraCompactFG_Dome.stl"}; static TrackingDeviceData DeviceDataAuroraPlanarCube = {NDIAurora, "PlanarFG_Cube", "NDIAurora.stl"}; static TrackingDeviceData DeviceDataAuroraPlanarDome = {NDIAurora, "PlanarFG_Dome","NDIAuroraPlanarFG_Dome.stl"}; static TrackingDeviceData DeviceDataAuroraTabletop = {NDIAurora, "TabletopFG", "NDIAuroraTabletopFG_Dome.stl"}; + static TrackingDeviceData DeviceDataAuroraTabletopPrototype = {NDIAurora, "TabletopFG Prototype", "NDIAuroraTabletopFG_Prototype_Dome.stl"}; static TrackingDeviceData DeviceDataMicronTrackerH40 = {ClaronMicron, "Micron Tracker H40", "ClaronMicron.stl"}; static TrackingDeviceData DeviceDataPolarisSpectra = {NDIPolaris, "Spectra", "NDIPolaris.stl"}; static TrackingDeviceData DeviceDataPolarisVicra = {NDIPolaris, "Vicra", "NDIPolaris.stl"}; static TrackingDeviceData DeviceDataDaVinci = {IntuitiveDaVinci, "IntuitiveDaVinci", "IntuitiveDaVinci.stl"}; static TrackingDeviceData DeviceDataMicroBird = {AscensionMicroBird, "AscensionMicroBird", ""}; static TrackingDeviceData DeviceDataVirtualTracker = {VirtualTracker, "VirtualTracker", "cube"}; static TrackingDeviceData DeviceDataUnspecified = {TrackingSystemNotSpecified, "Unspecified System", ""}; // Careful when changing the "invalid" device: The mitkTrackingTypeTest is using it's data! static TrackingDeviceData DeviceDataInvalid = {TrackingSystemInvalid, "Invalid Tracking System", ""}; static TrackingDeviceData TrackingDeviceList[] = {DeviceDataAuroraPlanarCube, DeviceDataAuroraCompact, DeviceDataAuroraPlanarDome, - DeviceDataAuroraTabletop, DeviceDataMicronTrackerH40, DeviceDataPolarisSpectra, DeviceDataPolarisVicra, + DeviceDataAuroraTabletop, DeviceDataAuroraTabletopPrototype, DeviceDataMicronTrackerH40, DeviceDataPolarisSpectra, DeviceDataPolarisVicra, DeviceDataDaVinci, DeviceDataMicroBird, DeviceDataVirtualTracker, DeviceDataUnspecified, DeviceDataInvalid}; /** * /brief Returns all devices compatibel to the given Line of Devices */ static std::vector GetDeviceDataForLine(TrackingDeviceType Type){ std::vector Result; int size = (sizeof (TrackingDeviceList) / sizeof*(TrackingDeviceList)); for(int i=0; i < size; i++) { if(TrackingDeviceList[i].Line == Type ) Result.push_back(TrackingDeviceList[i]); } return Result; } /** * /brief Returns the first TracingDeviceData mathing a given line. Useful for backward compatibility * with the old way to manage Devices */ static TrackingDeviceData GetFirstCompatibleDeviceDataForLine(TrackingDeviceType Type){ return GetDeviceDataForLine(Type).front(); } /** * /brief Returns the device Data set matching the model name or the invalid device, if none was found */ static TrackingDeviceData GetDeviceDataByName(std::string modelName){ int size = (sizeof (TrackingDeviceList) / sizeof*(TrackingDeviceList)); for(int i=0; i < size; i++) { if(TrackingDeviceList[i].Model == modelName) return TrackingDeviceList[i]; } return DeviceDataInvalid; } /**Documentation * \brief activation rate of IR illuminator for NDI Polaris tracking device */ enum IlluminationActivationRate { Hz20 = 20, Hz30 = 30, Hz60 = 60 }; /**Documentation * \brief Data transfer mode for NDI tracking devices */ enum DataTransferMode { TX = 0, BX = 1 }; /**Documentation * \brief Query mode for NDI tracking devices */ enum PHSRQueryType { ALL = 0x00, FREED = 0x01, OCCUPIED = 0x02, INITIALIZED = 0x03, ENABLED = 0x04 }; typedef itk::Point MarkerPointType; typedef std::vector MarkerPointContainerType; /** * \brief Defines the tools (arms) of the daVinci system: * PSM1 - Patient side manipulator 1 * PSM2 - Patient side manipulator 2 * ECM - Endoscopic camera manipulator * MTML - Left master target manipulator * MTMR - Right master target manipulator * PSM - Patient side manipulator 3 (if not existent, its data will always be zero) **/ enum DaVinciToolType { PSM1 = 0, PSM2 = 1, ECM = 2, MTML = 3, MTMR = 4, PSM = 5, //UIEvents = 6, }; } // namespace mitk #endif /* MITKTRACKINGTYPES_H_HEADER_INCLUDED_ */