diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingView.cpp b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingView.cpp index 61b59d7311..2eca4ddbd1 100644 --- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingView.cpp +++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkGibbsTrackingView.cpp @@ -1,754 +1,758 @@ /*=================================================================== 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 "QmitkGibbsTrackingView.h" #include // Qt #include #include #include // MITK #include #include #include #include #include // ITK #include #include #include // MISC #include QmitkTrackingWorker::QmitkTrackingWorker(QmitkGibbsTrackingView* view) : m_View(view) { } void QmitkTrackingWorker::run() { m_View->m_GlobalTracker = QmitkGibbsTrackingView::GibbsTrackingFilterType::New(); m_View->m_GlobalTracker->SetQBallImage(m_View->m_ItkQBallImage); m_View->m_GlobalTracker->SetTensorImage(m_View->m_ItkTensorImage); m_View->m_GlobalTracker->SetMaskImage(m_View->m_MaskImage); m_View->m_GlobalTracker->SetStartTemperature((float)m_View->m_Controls->m_StartTempSlider->value()/100); m_View->m_GlobalTracker->SetEndTemperature((float)m_View->m_Controls->m_EndTempSlider->value()/10000); m_View->m_GlobalTracker->SetIterations(m_View->m_Iterations); m_View->m_GlobalTracker->SetParticleWeight((float)m_View->m_Controls->m_ParticleWeightSlider->value()/10000); m_View->m_GlobalTracker->SetParticleWidth((float)(m_View->m_Controls->m_ParticleWidthSlider->value())/10); m_View->m_GlobalTracker->SetParticleLength((float)(m_View->m_Controls->m_ParticleLengthSlider->value())/10); m_View->m_GlobalTracker->SetInexBalance((float)m_View->m_Controls->m_InExBalanceSlider->value()/10); m_View->m_GlobalTracker->SetMinFiberLength(m_View->m_Controls->m_FiberLengthSlider->value()); m_View->m_GlobalTracker->SetCurvatureThreshold(cos((float)m_View->m_Controls->m_CurvatureThresholdSlider->value()*M_PI/180)); m_View->m_GlobalTracker->SetRandomSeed(m_View->m_Controls->m_RandomSeedSlider->value()); try{ m_View->m_GlobalTracker->Update(); } catch( mitk::Exception e ) { MITK_ERROR << "Internal error occured: " << e.what() << "\nAborting"; } m_View->m_TrackingThread.quit(); } const std::string QmitkGibbsTrackingView::VIEW_ID = "org.mitk.views.gibbstracking"; QmitkGibbsTrackingView::QmitkGibbsTrackingView() : QmitkFunctionality() , m_Controls( 0 ) , m_MultiWidget(NULL) , m_FiberBundle(NULL) , m_MaskImage(NULL) , m_TensorImage(NULL) , m_QBallImage(NULL) , m_ItkQBallImage(NULL) , m_ItkTensorImage(NULL) , m_ImageNode(NULL) , m_MaskImageNode(NULL) , m_FiberBundleNode(NULL) , m_ThreadIsRunning(false) , m_ElapsedTime(0) , m_Iterations(10000000) , m_LastStep(0) , m_GlobalTracker(NULL) , m_TrackingWorker(this) { m_TrackingWorker.moveToThread(&m_TrackingThread); connect(&m_TrackingThread, SIGNAL(started()), this, SLOT(BeforeThread())); connect(&m_TrackingThread, SIGNAL(started()), &m_TrackingWorker, SLOT(run())); connect(&m_TrackingThread, SIGNAL(finished()), this, SLOT(AfterThread())); connect(&m_TrackingThread, SIGNAL(terminated()), this, SLOT(AfterThread())); m_TrackingTimer = new QTimer(this); } QmitkGibbsTrackingView::~QmitkGibbsTrackingView() { - delete m_TrackingTimer; + if (m_GlobalTracker.IsNull()) + return; + + m_GlobalTracker->SetAbortTracking(true); + m_TrackingThread.wait(); } // update tracking status and generate fiber bundle void QmitkGibbsTrackingView::TimerUpdate() { int currentStep = m_GlobalTracker->GetCurrentStep(); mitk::ProgressBar::GetInstance()->Progress(currentStep-m_LastStep); UpdateTrackingStatus(); GenerateFiberBundle(); m_LastStep = currentStep; } // tell global tractography filter to stop after current step void QmitkGibbsTrackingView::StopGibbsTracking() { if (m_GlobalTracker.IsNull()) return; //mitk::ProgressBar::GetInstance()->Progress(m_GlobalTracker->GetSteps()-m_LastStep+1); m_GlobalTracker->SetAbortTracking(true); m_Controls->m_TrackingStop->setEnabled(false); m_Controls->m_TrackingStop->setText("Stopping Tractography ..."); } // update gui elements and generate fiber bundle after tracking is finished void QmitkGibbsTrackingView::AfterThread() { m_ThreadIsRunning = false; m_TrackingTimer->stop(); mitk::ProgressBar::GetInstance()->Progress(m_GlobalTracker->GetSteps()-m_LastStep+1); UpdateGUI(); if( !m_GlobalTracker->GetIsInValidState() ) { QMessageBox::critical( NULL, "Gibbs Tracking", "An internal error occured. Tracking aborted.\n Please check the log for details." ); m_FiberBundleNode = NULL; return; } UpdateTrackingStatus(); if(m_Controls->m_ParticleWeightSlider->value()==0) { m_Controls->m_ParticleWeightLabel->setText(QString::number(m_GlobalTracker->GetParticleWeight())); m_Controls->m_ParticleWeightSlider->setValue(m_GlobalTracker->GetParticleWeight()*10000); } if(m_Controls->m_ParticleWidthSlider->value()==0) { m_Controls->m_ParticleWidthLabel->setText(QString::number(m_GlobalTracker->GetParticleWidth())); m_Controls->m_ParticleWidthSlider->setValue(m_GlobalTracker->GetParticleWidth()*10); } if(m_Controls->m_ParticleLengthSlider->value()==0) { m_Controls->m_ParticleLengthLabel->setText(QString::number(m_GlobalTracker->GetParticleLength())); m_Controls->m_ParticleLengthSlider->setValue(m_GlobalTracker->GetParticleLength()*10); } GenerateFiberBundle(); m_FiberBundleNode = 0; m_GlobalTracker = 0; // images not needed anymore ( relevant only for computation ) // we need to release them to remove the memory access block created through CastToItk<> calls this->m_ItkQBallImage = 0; this->m_ItkTensorImage = 0; } // start tracking timer and update gui elements before tracking is started void QmitkGibbsTrackingView::BeforeThread() { m_ThreadIsRunning = true; m_TrackingTime = QTime::currentTime(); m_ElapsedTime = 0; m_TrackingTimer->start(1000); m_LastStep = 0; UpdateGUI(); } // setup gui elements and signal/slot connections void QmitkGibbsTrackingView::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::QmitkGibbsTrackingViewControls; m_Controls->setupUi( parent ); AdvancedSettings(); connect( m_TrackingTimer, SIGNAL(timeout()), this, SLOT(TimerUpdate()) ); connect( m_Controls->m_TrackingStop, SIGNAL(clicked()), this, SLOT(StopGibbsTracking()) ); connect( m_Controls->m_TrackingStart, SIGNAL(clicked()), this, SLOT(StartGibbsTracking()) ); connect( m_Controls->m_AdvancedSettingsCheckbox, SIGNAL(clicked()), this, SLOT(AdvancedSettings()) ); connect( m_Controls->m_SaveTrackingParameters, SIGNAL(clicked()), this, SLOT(SaveTrackingParameters()) ); connect( m_Controls->m_LoadTrackingParameters, SIGNAL(clicked()), this, SLOT(LoadTrackingParameters()) ); connect( m_Controls->m_IterationsSlider, SIGNAL(valueChanged(int)), this, SLOT(SetIterations(int)) ); connect( m_Controls->m_ParticleWidthSlider, SIGNAL(valueChanged(int)), this, SLOT(SetParticleWidth(int)) ); connect( m_Controls->m_ParticleLengthSlider, SIGNAL(valueChanged(int)), this, SLOT(SetParticleLength(int)) ); connect( m_Controls->m_InExBalanceSlider, SIGNAL(valueChanged(int)), this, SLOT(SetInExBalance(int)) ); connect( m_Controls->m_FiberLengthSlider, SIGNAL(valueChanged(int)), this, SLOT(SetFiberLength(int)) ); connect( m_Controls->m_ParticleWeightSlider, SIGNAL(valueChanged(int)), this, SLOT(SetParticleWeight(int)) ); connect( m_Controls->m_StartTempSlider, SIGNAL(valueChanged(int)), this, SLOT(SetStartTemp(int)) ); connect( m_Controls->m_EndTempSlider, SIGNAL(valueChanged(int)), this, SLOT(SetEndTemp(int)) ); connect( m_Controls->m_CurvatureThresholdSlider, SIGNAL(valueChanged(int)), this, SLOT(SetCurvatureThreshold(int)) ); connect( m_Controls->m_RandomSeedSlider, SIGNAL(valueChanged(int)), this, SLOT(SetRandomSeed(int)) ); connect( m_Controls->m_OutputFileButton, SIGNAL(clicked()), this, SLOT(SetOutputFile()) ); } } void QmitkGibbsTrackingView::SetInExBalance(int value) { m_Controls->m_InExBalanceLabel->setText(QString::number((float)value/10)); } void QmitkGibbsTrackingView::SetFiberLength(int value) { m_Controls->m_FiberLengthLabel->setText(QString::number(value)+"mm"); } void QmitkGibbsTrackingView::SetRandomSeed(int value) { if (value>=0) m_Controls->m_RandomSeedLabel->setText(QString::number(value)); else m_Controls->m_RandomSeedLabel->setText("auto"); } void QmitkGibbsTrackingView::SetParticleWeight(int value) { if (value>0) m_Controls->m_ParticleWeightLabel->setText(QString::number((float)value/10000)); else m_Controls->m_ParticleWeightLabel->setText("auto"); } void QmitkGibbsTrackingView::SetStartTemp(int value) { m_Controls->m_StartTempLabel->setText(QString::number((float)value/100)); } void QmitkGibbsTrackingView::SetEndTemp(int value) { m_Controls->m_EndTempLabel->setText(QString::number((float)value/10000)); } void QmitkGibbsTrackingView::SetParticleWidth(int value) { if (value>0) m_Controls->m_ParticleWidthLabel->setText(QString::number((float)value/10)+" mm"); else m_Controls->m_ParticleWidthLabel->setText("auto"); } void QmitkGibbsTrackingView::SetParticleLength(int value) { if (value>0) m_Controls->m_ParticleLengthLabel->setText(QString::number((float)value/10)+" mm"); else m_Controls->m_ParticleLengthLabel->setText("auto"); } void QmitkGibbsTrackingView::SetCurvatureThreshold(int value) { m_Controls->m_CurvatureThresholdLabel->setText(QString::number(value)+"°"); } void QmitkGibbsTrackingView::SetIterations(int value) { switch(value) { case 0: m_Controls->m_IterationsLabel->setText("Iterations: 1x10^4"); m_Iterations = 10000; break; case 1: m_Controls->m_IterationsLabel->setText("Iterations: 5x10^4"); m_Iterations = 50000; break; case 2: m_Controls->m_IterationsLabel->setText("Iterations: 1x10^5"); m_Iterations = 100000; break; case 3: m_Controls->m_IterationsLabel->setText("Iterations: 5x10^5"); m_Iterations = 500000; break; case 4: m_Controls->m_IterationsLabel->setText("Iterations: 1x10^6"); m_Iterations = 1000000; break; case 5: m_Controls->m_IterationsLabel->setText("Iterations: 5x10^6"); m_Iterations = 5000000; break; case 6: m_Controls->m_IterationsLabel->setText("Iterations: 1x10^7"); m_Iterations = 10000000; break; case 7: m_Controls->m_IterationsLabel->setText("Iterations: 5x10^7"); m_Iterations = 50000000; break; case 8: m_Controls->m_IterationsLabel->setText("Iterations: 1x10^8"); m_Iterations = 100000000; break; case 9: m_Controls->m_IterationsLabel->setText("Iterations: 5x10^8"); m_Iterations = 500000000; break; } } void QmitkGibbsTrackingView::StdMultiWidgetAvailable(QmitkStdMultiWidget &stdMultiWidget) { m_MultiWidget = &stdMultiWidget; } void QmitkGibbsTrackingView::StdMultiWidgetNotAvailable() { m_MultiWidget = NULL; } // called if datamanager selection changes void QmitkGibbsTrackingView::OnSelectionChanged( std::vector nodes ) { if (m_ThreadIsRunning) return; m_ImageNode = NULL; m_MaskImageNode = NULL; // iterate all selected objects for( std::vector::iterator it = nodes.begin(); it != nodes.end(); ++it ) { mitk::DataNode::Pointer node = *it; if( node.IsNotNull() && dynamic_cast(node->GetData()) ) m_ImageNode = node; else if( node.IsNotNull() && dynamic_cast(node->GetData()) ) m_ImageNode = node; else if( node.IsNotNull() && dynamic_cast(node->GetData()) ) { mitk::Image::Pointer img = dynamic_cast(node->GetData()); if (img->GetPixelType().GetPixelType()==itk::ImageIOBase::SCALAR) m_MaskImageNode = node; } } UpdateGUI(); } // update gui elements displaying trackings status void QmitkGibbsTrackingView::UpdateTrackingStatus() { if (m_GlobalTracker.IsNull()) return; m_ElapsedTime += m_TrackingTime.elapsed()/1000; m_TrackingTime.restart(); unsigned long hours = m_ElapsedTime/3600; unsigned long minutes = (m_ElapsedTime%3600)/60; unsigned long seconds = m_ElapsedTime%60; m_Controls->m_ProposalAcceptance->setText(QString::number(m_GlobalTracker->GetProposalAcceptance()*100)+"%"); m_Controls->m_TrackingTimeLabel->setText( QString::number(hours)+QString("h ")+QString::number(minutes)+QString("m ")+QString::number(seconds)+QString("s") ); m_Controls->m_NumConnectionsLabel->setText( QString::number(m_GlobalTracker->GetNumConnections()) ); m_Controls->m_NumParticlesLabel->setText( QString::number(m_GlobalTracker->GetNumParticles()) ); m_Controls->m_CurrentStepLabel->setText( QString::number(100*(float)(m_GlobalTracker->GetCurrentStep()-1)/m_GlobalTracker->GetSteps())+"%" ); m_Controls->m_AcceptedFibersLabel->setText( QString::number(m_GlobalTracker->GetNumAcceptedFibers()) ); } // update gui elements (enable/disable elements and set tooltips) void QmitkGibbsTrackingView::UpdateGUI() { if (m_ImageNode.IsNotNull()) { m_Controls->m_QballImageLabel->setText(m_ImageNode->GetName().c_str()); m_Controls->m_DataFrame->setTitle("Input Data"); } else { m_Controls->m_QballImageLabel->setText("mandatory"); m_Controls->m_DataFrame->setTitle("Please Select Input Data"); } if (m_MaskImageNode.IsNotNull()) m_Controls->m_MaskImageLabel->setText(m_MaskImageNode->GetName().c_str()); else m_Controls->m_MaskImageLabel->setText("optional"); if (!m_ThreadIsRunning && m_ImageNode.IsNotNull()) { m_Controls->m_TrackingStop->setEnabled(false); m_Controls->m_TrackingStart->setEnabled(true); m_Controls->m_LoadTrackingParameters->setEnabled(true); m_Controls->m_IterationsSlider->setEnabled(true); m_Controls->m_AdvancedFrame->setEnabled(true); m_Controls->m_TrackingStop->setText("Stop Tractography"); m_Controls->m_TrackingStart->setToolTip("Start tractography. No further change of parameters possible."); m_Controls->m_TrackingStop->setToolTip(""); } else if (!m_ThreadIsRunning) { m_Controls->m_TrackingStop->setEnabled(false); m_Controls->m_TrackingStart->setEnabled(false); m_Controls->m_LoadTrackingParameters->setEnabled(true); m_Controls->m_IterationsSlider->setEnabled(true); m_Controls->m_AdvancedFrame->setEnabled(true); m_Controls->m_TrackingStop->setText("Stop Tractography"); m_Controls->m_TrackingStart->setToolTip("No Q-Ball image selected."); m_Controls->m_TrackingStop->setToolTip(""); } else { m_Controls->m_TrackingStop->setEnabled(true); m_Controls->m_TrackingStart->setEnabled(false); m_Controls->m_LoadTrackingParameters->setEnabled(false); m_Controls->m_IterationsSlider->setEnabled(false); m_Controls->m_AdvancedFrame->setEnabled(false); m_Controls->m_AdvancedFrame->setVisible(false); m_Controls->m_AdvancedSettingsCheckbox->setChecked(false); m_Controls->m_TrackingStart->setToolTip("Tracking in progress."); m_Controls->m_TrackingStop->setToolTip("Stop tracking and display results."); } } // show/hide advanced settings frame void QmitkGibbsTrackingView::AdvancedSettings() { m_Controls->m_AdvancedFrame->setVisible(m_Controls->m_AdvancedSettingsCheckbox->isChecked()); } // set mask image data node void QmitkGibbsTrackingView::SetMask() { std::vector nodes = GetDataManagerSelection(); if (nodes.empty()) { m_MaskImageNode = NULL; m_Controls->m_MaskImageLabel->setText("-"); return; } for( std::vector::iterator it = nodes.begin(); it != nodes.end(); ++it ) { mitk::DataNode::Pointer node = *it; if (node.IsNotNull() && dynamic_cast(node->GetData())) { m_MaskImageNode = node; m_Controls->m_MaskImageLabel->setText(node->GetName().c_str()); return; } } } // check for mask and qbi and start tracking thread void QmitkGibbsTrackingView::StartGibbsTracking() { if(m_ThreadIsRunning) { MITK_WARN("QmitkGibbsTrackingView")<<"Thread already running!"; return; } m_GlobalTracker = NULL; if (m_ImageNode.IsNull()) { QMessageBox::information( NULL, "Warning", "Please load and select a qball image before starting image processing."); return; } if (dynamic_cast(m_ImageNode->GetData())) m_QBallImage = dynamic_cast(m_ImageNode->GetData()); else if (dynamic_cast(m_ImageNode->GetData())) m_TensorImage = dynamic_cast(m_ImageNode->GetData()); if (m_QBallImage.IsNull() && m_TensorImage.IsNull()) return; // cast qbi to itk m_ItkTensorImage = NULL; m_ItkQBallImage = NULL; m_MaskImage = NULL; if (m_QBallImage.IsNotNull()) { m_ItkQBallImage = ItkQBallImgType::New(); mitk::CastToItkImage(m_QBallImage, m_ItkQBallImage); } else { m_ItkTensorImage = ItkTensorImage::New(); mitk::CastToItkImage(m_TensorImage, m_ItkTensorImage); } // mask image found? // catch exceptions thrown by the itkAccess macros try{ if(m_MaskImageNode.IsNotNull()) { if (dynamic_cast(m_MaskImageNode->GetData())) mitk::CastToItkImage(dynamic_cast(m_MaskImageNode->GetData()), m_MaskImage); } } catch(...){}; unsigned int steps = m_Iterations/10000; if (steps<10) steps = 10; m_LastStep = 1; mitk::ProgressBar::GetInstance()->AddStepsToDo(steps); // start worker thread m_TrackingThread.start(QThread::LowestPriority); } // generate mitkFiberBundle from tracking filter output void QmitkGibbsTrackingView::GenerateFiberBundle() { if (m_GlobalTracker.IsNull() || (!(m_Controls->m_VisualizationCheckbox->isChecked() || m_Controls->m_VisualizeOnceButton->isChecked()) && m_ThreadIsRunning)) return; if (m_Controls->m_VisualizeOnceButton->isChecked()) m_Controls->m_VisualizeOnceButton->setChecked(false); vtkSmartPointer fiberBundle = m_GlobalTracker->GetFiberBundle(); if ( m_GlobalTracker->GetNumAcceptedFibers()==0 ) return; m_FiberBundle = mitk::FiberBundleX::New(fiberBundle); m_FiberBundle->SetReferenceGeometry(dynamic_cast(m_ImageNode->GetData())->GetGeometry()); if (m_FiberBundleNode.IsNotNull()){ GetDefaultDataStorage()->Remove(m_FiberBundleNode); m_FiberBundleNode = 0; } m_FiberBundleNode = mitk::DataNode::New(); m_FiberBundleNode->SetData(m_FiberBundle); QString name("FiberBundle_"); name += m_ImageNode->GetName().c_str(); name += "_Gibbs"; m_FiberBundleNode->SetName(name.toStdString()); m_FiberBundleNode->SetVisibility(true); if (!m_OutputFileName.isEmpty() && !m_ThreadIsRunning) { QString filename = m_OutputFileName; mitk::FiberBundleXWriter::Pointer writer = mitk::FiberBundleXWriter::New(); writer->SetFileName(filename.toStdString()); writer->SetInputFiberBundleX(m_FiberBundle.GetPointer()); try { writer->Update(); QMessageBox::information(NULL, "Fiber bundle saved to", filename); } catch (itk::ExceptionObject &ex) { QMessageBox::information(NULL, "Fiber bundle could not be saved", QString("%1\n%2\n%3\n%4\n%5\n%6").arg(ex.GetNameOfClass()).arg(ex.GetFile()).arg(ex.GetLine()).arg(ex.GetLocation()).arg(ex.what()).arg(ex.GetDescription())); } } if(m_ImageNode.IsNull()) GetDataStorage()->Add(m_FiberBundleNode); else GetDataStorage()->Add(m_FiberBundleNode, m_ImageNode); } void QmitkGibbsTrackingView::SetOutputFile() { // SELECT FOLDER DIALOG m_OutputFileName = QFileDialog::getSaveFileName(0, tr("Set file name"), QDir::currentPath()+"/FiberBundle.fib", tr("Fiber Bundle (*.fib)") ); if (m_OutputFileName.isEmpty()) m_Controls->m_OutputFileLabel->setText("N/A"); else m_Controls->m_OutputFileLabel->setText(m_OutputFileName); } // save current tracking paramters as xml file (.gtp) void QmitkGibbsTrackingView::SaveTrackingParameters() { TiXmlDocument documentXML; TiXmlDeclaration* declXML = new TiXmlDeclaration( "1.0", "", "" ); documentXML.LinkEndChild( declXML ); TiXmlElement* mainXML = new TiXmlElement("global_tracking_parameter_file"); mainXML->SetAttribute("file_version", "0.1"); documentXML.LinkEndChild(mainXML); TiXmlElement* paramXML = new TiXmlElement("parameter_set"); paramXML->SetAttribute("iterations", QString::number(m_Iterations).toStdString()); paramXML->SetAttribute("particle_length", QString::number((float)m_Controls->m_ParticleLengthSlider->value()/10).toStdString()); paramXML->SetAttribute("particle_width", QString::number((float)m_Controls->m_ParticleWidthSlider->value()/10).toStdString()); paramXML->SetAttribute("particle_weight", QString::number((float)m_Controls->m_ParticleWeightSlider->value()/10000).toStdString()); paramXML->SetAttribute("temp_start", QString::number((float)m_Controls->m_StartTempSlider->value()/100).toStdString()); paramXML->SetAttribute("temp_end", QString::number((float)m_Controls->m_EndTempSlider->value()/10000).toStdString()); paramXML->SetAttribute("inexbalance", QString::number((float)m_Controls->m_InExBalanceSlider->value()/10).toStdString()); paramXML->SetAttribute("fiber_length", QString::number(m_Controls->m_FiberLengthSlider->value()).toStdString()); paramXML->SetAttribute("curvature_threshold", QString::number(m_Controls->m_CurvatureThresholdSlider->value()).toStdString()); mainXML->LinkEndChild(paramXML); QString filename = QFileDialog::getSaveFileName( 0, tr("Save Parameters"), QDir::currentPath()+"/param.gtp", tr("Global Tracking Parameters (*.gtp)") ); if(filename.isEmpty() || filename.isNull()) return; if(!filename.endsWith(".gtp")) filename += ".gtp"; documentXML.SaveFile( filename.toStdString() ); } void QmitkGibbsTrackingView::UpdateIteraionsGUI(unsigned long iterations) { switch(iterations) { case 10000: m_Controls->m_IterationsSlider->setValue(0); m_Controls->m_IterationsLabel->setText("Iterations: 10^4"); break; case 50000: m_Controls->m_IterationsSlider->setValue(1); m_Controls->m_IterationsLabel->setText("Iterations: 5x10^4"); break; case 100000: m_Controls->m_IterationsSlider->setValue(2); m_Controls->m_IterationsLabel->setText("Iterations: 10^5"); break; case 500000: m_Controls->m_IterationsSlider->setValue(3); m_Controls->m_IterationsLabel->setText("Iterations: 5x10^5"); break; case 1000000: m_Controls->m_IterationsSlider->setValue(4); m_Controls->m_IterationsLabel->setText("Iterations: 10^6"); break; case 5000000: m_Controls->m_IterationsSlider->setValue(5); m_Controls->m_IterationsLabel->setText("Iterations: 5x10^6"); break; case 10000000: m_Controls->m_IterationsSlider->setValue(6); m_Controls->m_IterationsLabel->setText("Iterations: 10^7"); break; case 50000000: m_Controls->m_IterationsSlider->setValue(7); m_Controls->m_IterationsLabel->setText("Iterations: 5x10^7"); break; case 100000000: m_Controls->m_IterationsSlider->setValue(8); m_Controls->m_IterationsLabel->setText("Iterations: 10^8"); break; case 500000000: m_Controls->m_IterationsSlider->setValue(9); m_Controls->m_IterationsLabel->setText("Iterations: 5x10^8"); break; case 1000000000: m_Controls->m_IterationsSlider->setValue(10); m_Controls->m_IterationsLabel->setText("Iterations: 10^9"); break; case 5000000000: m_Controls->m_IterationsSlider->setValue(11); m_Controls->m_IterationsLabel->setText("Iterations: 5x10^9"); break; } } // load current tracking paramters from xml file (.gtp) void QmitkGibbsTrackingView::LoadTrackingParameters() { QString filename = QFileDialog::getOpenFileName(0, tr("Load Parameters"), QDir::currentPath(), tr("Global Tracking Parameters (*.gtp)") ); if(filename.isEmpty() || filename.isNull()) return; TiXmlDocument doc( filename.toStdString() ); doc.LoadFile(); TiXmlHandle hDoc(&doc); TiXmlElement* pElem; TiXmlHandle hRoot(0); pElem = hDoc.FirstChildElement().Element(); hRoot = TiXmlHandle(pElem); pElem = hRoot.FirstChildElement("parameter_set").Element(); QString iterations(pElem->Attribute("iterations")); m_Iterations = iterations.toULong(); UpdateIteraionsGUI(m_Iterations); QString particleLength(pElem->Attribute("particle_length")); float pLength = particleLength.toFloat(); QString particleWidth(pElem->Attribute("particle_width")); float pWidth = particleWidth.toFloat(); if (pLength==0) m_Controls->m_ParticleLengthLabel->setText("auto"); else m_Controls->m_ParticleLengthLabel->setText(particleLength+" mm"); if (pWidth==0) m_Controls->m_ParticleWidthLabel->setText("auto"); else m_Controls->m_ParticleWidthLabel->setText(particleWidth+" mm"); m_Controls->m_ParticleWidthSlider->setValue(pWidth*10); m_Controls->m_ParticleLengthSlider->setValue(pLength*10); QString partWeight(pElem->Attribute("particle_weight")); m_Controls->m_ParticleWeightSlider->setValue(partWeight.toFloat()*10000); m_Controls->m_ParticleWeightLabel->setText(partWeight); QString startTemp(pElem->Attribute("temp_start")); m_Controls->m_StartTempSlider->setValue(startTemp.toFloat()*100); m_Controls->m_StartTempLabel->setText(startTemp); QString endTemp(pElem->Attribute("temp_end")); m_Controls->m_EndTempSlider->setValue(endTemp.toFloat()*10000); m_Controls->m_EndTempLabel->setText(endTemp); QString inExBalance(pElem->Attribute("inexbalance")); m_Controls->m_InExBalanceSlider->setValue(inExBalance.toFloat()*10); m_Controls->m_InExBalanceLabel->setText(inExBalance); QString fiberLength(pElem->Attribute("fiber_length")); m_Controls->m_FiberLengthSlider->setValue(fiberLength.toInt()); m_Controls->m_FiberLengthLabel->setText(fiberLength+"mm"); QString curvThres(pElem->Attribute("curvature_threshold")); m_Controls->m_CurvatureThresholdSlider->setValue(curvThres.toInt()); m_Controls->m_CurvatureThresholdLabel->setText(curvThres+"°"); }