diff --git a/Modules/IGT/TrackingDevices/mitkNDIAuroraTypeInformation.cpp b/Modules/IGT/TrackingDevices/mitkNDIAuroraTypeInformation.cpp index 921083741c..f09315317c 100644 --- a/Modules/IGT/TrackingDevices/mitkNDIAuroraTypeInformation.cpp +++ b/Modules/IGT/TrackingDevices/mitkNDIAuroraTypeInformation.cpp @@ -1,149 +1,147 @@ /*=================================================================== 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 "mitkNDIAuroraTypeInformation.h" #include "mitkIGTHardwareException.h" #include "mitkNDITrackingDevice.h" namespace mitk { std::string NDIAuroraTypeInformation::GetTrackingDeviceName() { return "NDI Aurora"; } TrackingDeviceData NDIAuroraTypeInformation::GetDeviceDataAuroraCompact() { TrackingDeviceData data = { NDIAuroraTypeInformation::GetTrackingDeviceName(), "Aurora Compact", "NDIAuroraCompactFG_Dome.stl", "A" }; return data; } TrackingDeviceData NDIAuroraTypeInformation::GetDeviceDataAuroraPlanarCube() { TrackingDeviceData data = { NDIAuroraTypeInformation::GetTrackingDeviceName(), "Aurora Planar (Cube)", "NDIAurora.stl", "9" }; return data; } TrackingDeviceData NDIAuroraTypeInformation::GetDeviceDataAuroraPlanarDome() { TrackingDeviceData data = { NDIAuroraTypeInformation::GetTrackingDeviceName(), "Aurora Planar (Dome)", "NDIAuroraPlanarFG_Dome.stl", "A" }; return data; } TrackingDeviceData NDIAuroraTypeInformation::GetDeviceDataAuroraTabletop() { TrackingDeviceData data = { NDIAuroraTypeInformation::GetTrackingDeviceName(), "Aurora Tabletop", "NDIAuroraTabletopFG_Dome.stl", "A" }; return data; } NDIAuroraTypeInformation::NDIAuroraTypeInformation() { m_DeviceName = NDIAuroraTypeInformation::GetTrackingDeviceName(); m_TrackingDeviceData.push_back(GetDeviceDataAuroraCompact()); m_TrackingDeviceData.push_back(GetDeviceDataAuroraPlanarCube()); m_TrackingDeviceData.push_back(GetDeviceDataAuroraPlanarDome()); m_TrackingDeviceData.push_back(GetDeviceDataAuroraTabletop()); } NDIAuroraTypeInformation::~NDIAuroraTypeInformation() { } mitk::TrackingDeviceSource::Pointer NDIAuroraTypeInformation::CreateTrackingDeviceSource( mitk::TrackingDevice::Pointer trackingDevice, mitk::NavigationToolStorage::Pointer navigationTools, std::string* errorMessage, std::vector* toolCorrespondencesInToolStorage) { MITK_DEBUG << "Creating Aurora tracking device."; mitk::TrackingDeviceSource::Pointer returnValue = mitk::TrackingDeviceSource::New(); mitk::NDITrackingDevice::Pointer thisDevice = dynamic_cast(trackingDevice.GetPointer()); try { //connect to aurora to dectect tools automatically thisDevice->OpenConnection(); } catch (mitk::IGTHardwareException& e) { errorMessage->append("Hardware error on opening the connection ("); errorMessage->append(e.GetDescription()); errorMessage->append(")"); return NULL; } catch (mitk::IGTException& e) { errorMessage->append("Error on opening the connection ("); errorMessage->append(e.GetDescription()); errorMessage->append(")"); return NULL; } //now search for automatically detected tools in the tool storage and save them mitk::NavigationToolStorage::Pointer newToolStorageInRightOrder = mitk::NavigationToolStorage::New(); std::vector alreadyFoundTools = std::vector(); *toolCorrespondencesInToolStorage = std::vector(); for (unsigned int i = 0; i < thisDevice->GetToolCount(); i++) { bool toolFound = false; for (int j = 0; j < navigationTools->GetToolCount(); j++) { //check if the serial number is the same to identify the tool if ((dynamic_cast(thisDevice->GetTool(i)))->GetSerialNumber() == navigationTools->GetTool(j)->GetSerialNumber()) { //check if this tool was already added to make sure that every tool is only added once (in case of same serial numbers) bool toolAlreadyAdded = false; for (unsigned int k = 0; k < alreadyFoundTools.size(); k++) if (alreadyFoundTools.at(k) == j) toolAlreadyAdded = true; if (!toolAlreadyAdded) { //add tool in right order newToolStorageInRightOrder->AddTool(navigationTools->GetTool(j)); toolCorrespondencesInToolStorage->push_back(j); //adapt name of tool dynamic_cast(thisDevice->GetTool(i))->SetToolName(navigationTools->GetTool(j)->GetToolName()); //set tip of tool dynamic_cast(thisDevice->GetTool(i))->SetToolTip(navigationTools->GetTool(j)->GetToolTipPosition(), navigationTools->GetTool(j)->GetToolTipOrientation()); //rember that this tool was already found alreadyFoundTools.push_back(j); toolFound = true; break; } } } if (!toolFound) { errorMessage->append("Error: did not find every automatically detected tool in the loaded tool storage: aborting initialization."); return NULL; } } - //delete all tools from the tool storage - navigationTools->DeleteAllTools(); - - //and add only the detected tools in the right order + //And resort them (this was done in TrackingToolBoxWorker before). for (int i = 0; i < newToolStorageInRightOrder->GetToolCount(); i++) { - navigationTools->AddTool(newToolStorageInRightOrder->GetTool(i)); + navigationTools->AssignToolNumber(newToolStorageInRightOrder->GetTool(i)->GetIdentifier(), i); } + returnValue->SetTrackingDevice(thisDevice); MITK_DEBUG << "Number of tools of created tracking device: " << thisDevice->GetToolCount(); MITK_DEBUG << "Number of outputs of created source: " << returnValue->GetNumberOfOutputs(); return returnValue; } -} +} \ No newline at end of file diff --git a/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxViewWorker.cpp b/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxViewWorker.cpp index 4f6272aeba..9264f49b43 100644 --- a/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxViewWorker.cpp +++ b/Plugins/org.mitk.gui.qt.igttracking/src/internal/QmitkMITKIGTTrackingToolboxViewWorker.cpp @@ -1,266 +1,249 @@ /*=================================================================== 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. ===================================================================*/ // Qmitk #include "QmitkMITKIGTTrackingToolboxViewWorker.h" #include QmitkMITKIGTTrackingToolboxViewWorker::QmitkMITKIGTTrackingToolboxViewWorker() { } QmitkMITKIGTTrackingToolboxViewWorker::~QmitkMITKIGTTrackingToolboxViewWorker() { } 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; } //! [Thread 7] 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; } } //! [Thread 7] void QmitkMITKIGTTrackingToolboxViewWorker::AutoDetectTools() { mitk::NavigationToolStorage::Pointer autoDetectedStorage = mitk::NavigationToolStorage::New(m_DataStorage); try { mitk::NavigationToolStorage::Pointer tempStorage = m_TrackingDevice->AutoDetectTools(); for (int i = 0; i < tempStorage->GetToolCount(); i++) { autoDetectedStorage->AddTool(tempStorage->GetTool(i)); } } catch (mitk::Exception& e) { MITK_WARN << e.GetDescription(); emit AutoDetectToolsFinished(false, e.GetDescription()); return; } m_NavigationToolStorage = nullptr; m_NavigationToolStorage = autoDetectedStorage; emit AutoDetectToolsFinished(true, ""); } void QmitkMITKIGTTrackingToolboxViewWorker::ConnectDevice() { std::string message = ""; //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; //Create Navigation Data Source with the factory class mitk::TrackingDeviceSourceConfigurator::Pointer myTrackingDeviceSourceFactory = mitk::TrackingDeviceSourceConfigurator::New(m_NavigationToolStorage, trackingDevice); m_TrackingDeviceSource = myTrackingDeviceSourceFactory->CreateTrackingDeviceSource(m_ToolVisualizationFilter); 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 << "Connected device with " << m_TrackingDeviceSource->GetNumberOfOutputs() << " tools."; - //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 - - for (int i = 0; i < toolsInNewOrder->GetToolCount(); i++) - { - m_NavigationToolStorage->AssignToolNumber(toolsInNewOrder->GetTool(i)->GetIdentifier(), i); - } - } - //connect to device try { m_TrackingDeviceSource->Connect(); //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::TrackingDeviceSource::Pointer QmitkMITKIGTTrackingToolboxViewWorker::GetTrackingDeviceSource() { return this->m_TrackingDeviceSource; } 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; } //remember the original colors of the tools m_OriginalColors = std::map(); for (int i = 0; i < this->m_NavigationToolStorage->GetToolCount(); i++) { mitk::DataNode::Pointer currentToolNode = m_NavigationToolStorage->GetTool(i)->GetDataNode(); float c[3]; currentToolNode->GetColor(c); mitk::Color color; color.SetRed(c[0]); color.SetGreen(c[1]); color.SetBlue(c[2]); m_OriginalColors[currentToolNode] = color; } emit StartTrackingFinished(true, errorMessage); } void QmitkMITKIGTTrackingToolboxViewWorker::StopTracking() { //stop tracking try { m_TrackingDeviceSource->StopTracking(); } catch (mitk::Exception& e) { emit StopTrackingFinished(false, e.GetDescription()); } //restore the original colors of the tools for (int i = 0; i < this->m_NavigationToolStorage->GetToolCount(); i++) { mitk::DataNode::Pointer currentToolNode = m_NavigationToolStorage->GetTool(i)->GetDataNode(); if (m_OriginalColors.find(currentToolNode) == m_OriginalColors.end()) { MITK_WARN << "Cannot restore original color of tool " << m_NavigationToolStorage->GetTool(i)->GetToolName(); } else { currentToolNode->SetColor(m_OriginalColors[currentToolNode]); } } //emit signal emit StopTrackingFinished(true, ""); } void QmitkMITKIGTTrackingToolboxViewWorker::DisconnectDevice() { try { if (m_TrackingDeviceSource->IsTracking()) { m_TrackingDeviceSource->StopTracking(); } m_TrackingDeviceSource->Disconnect(); m_TrackingDeviceSource->UnRegisterMicroservice(); m_NavigationToolStorage->UnLockStorage(); m_TrackingDeviceSource = nullptr; } catch (mitk::Exception& e) { emit DisconnectDeviceFinished(false, e.GetDescription()); } emit DisconnectDeviceFinished(true, ""); } \ No newline at end of file