diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp index c73f21693d..a281c32d28 100755 --- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp +++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkFiberfoxView.cpp @@ -1,1991 +1,1991 @@ /*=================================================================== 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. ===================================================================*/ //misc #define _USE_MATH_DEFINES #include // Blueberry #include #include // Qmitk #include "QmitkFiberfoxView.h" // MITK #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define _USE_MATH_DEFINES #include const std::string QmitkFiberfoxView::VIEW_ID = "org.mitk.views.fiberfoxview"; QmitkFiberfoxView::QmitkFiberfoxView() : QmitkAbstractView() , m_Controls( 0 ) , m_SelectedImage( NULL ) { } // Destructor QmitkFiberfoxView::~QmitkFiberfoxView() { } void QmitkFiberfoxView::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::QmitkFiberfoxViewControls; m_Controls->setupUi( parent ); m_Controls->m_StickWidget1->setVisible(true); m_Controls->m_StickWidget2->setVisible(false); m_Controls->m_ZeppelinWidget1->setVisible(false); m_Controls->m_ZeppelinWidget2->setVisible(false); m_Controls->m_TensorWidget1->setVisible(false); m_Controls->m_TensorWidget2->setVisible(false); m_Controls->m_BallWidget1->setVisible(true); m_Controls->m_BallWidget2->setVisible(false); m_Controls->m_AstrosticksWidget1->setVisible(false); m_Controls->m_AstrosticksWidget2->setVisible(false); m_Controls->m_DotWidget1->setVisible(false); m_Controls->m_DotWidget2->setVisible(false); m_Controls->m_Comp4FractionFrame->setVisible(false); m_Controls->m_DiffusionPropsMessage->setVisible(false); m_Controls->m_GeometryMessage->setVisible(false); m_Controls->m_AdvancedSignalOptionsFrame->setVisible(false); m_Controls->m_AdvancedFiberOptionsFrame->setVisible(false); m_Controls->m_VarianceBox->setVisible(false); m_Controls->m_GibbsRingingFrame->setVisible(false); m_Controls->m_NoiseFrame->setVisible(false); m_Controls->m_GhostFrame->setVisible(false); m_Controls->m_DistortionsFrame->setVisible(false); m_Controls->m_EddyFrame->setVisible(false); m_Controls->m_FrequencyMapBox->SetDataStorage(this->GetDataStorage()); mitk::TNodePredicateDataType::Pointer isMitkImage = mitk::TNodePredicateDataType::New(); mitk::NodePredicateDataType::Pointer isDwi = mitk::NodePredicateDataType::New("DiffusionImage"); mitk::NodePredicateDataType::Pointer isDti = mitk::NodePredicateDataType::New("TensorImage"); mitk::NodePredicateDataType::Pointer isQbi = mitk::NodePredicateDataType::New("QBallImage"); mitk::NodePredicateOr::Pointer isDiffusionImage = mitk::NodePredicateOr::New(isDwi, isDti); isDiffusionImage = mitk::NodePredicateOr::New(isDiffusionImage, isQbi); mitk::NodePredicateNot::Pointer noDiffusionImage = mitk::NodePredicateNot::New(isDiffusionImage); mitk::NodePredicateAnd::Pointer finalPredicate = mitk::NodePredicateAnd::New(isMitkImage, noDiffusionImage); m_Controls->m_FrequencyMapBox->SetPredicate(finalPredicate); connect((QObject*) m_Controls->m_GenerateImageButton, SIGNAL(clicked()), (QObject*) this, SLOT(GenerateImage())); connect((QObject*) m_Controls->m_GenerateFibersButton, SIGNAL(clicked()), (QObject*) this, SLOT(GenerateFibers())); connect((QObject*) m_Controls->m_CircleButton, SIGNAL(clicked()), (QObject*) this, SLOT(OnDrawROI())); connect((QObject*) m_Controls->m_FlipButton, SIGNAL(clicked()), (QObject*) this, SLOT(OnFlipButton())); connect((QObject*) m_Controls->m_JoinBundlesButton, SIGNAL(clicked()), (QObject*) this, SLOT(JoinBundles())); connect((QObject*) m_Controls->m_VarianceBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnVarianceChanged(double))); connect((QObject*) m_Controls->m_DistributionBox, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(OnDistributionChanged(int))); connect((QObject*) m_Controls->m_FiberDensityBox, SIGNAL(valueChanged(int)), (QObject*) this, SLOT(OnFiberDensityChanged(int))); connect((QObject*) m_Controls->m_FiberSamplingBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnFiberSamplingChanged(double))); connect((QObject*) m_Controls->m_TensionBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnTensionChanged(double))); connect((QObject*) m_Controls->m_ContinuityBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnContinuityChanged(double))); connect((QObject*) m_Controls->m_BiasBox, SIGNAL(valueChanged(double)), (QObject*) this, SLOT(OnBiasChanged(double))); connect((QObject*) m_Controls->m_AddGibbsRinging, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddGibbsRinging(int))); connect((QObject*) m_Controls->m_AddNoise, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddNoise(int))); connect((QObject*) m_Controls->m_AddGhosts, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddGhosts(int))); connect((QObject*) m_Controls->m_AddDistortions, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddDistortions(int))); connect((QObject*) m_Controls->m_AddEddy, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnAddEddy(int))); connect((QObject*) m_Controls->m_ConstantRadiusBox, SIGNAL(stateChanged(int)), (QObject*) this, SLOT(OnConstantRadius(int))); connect((QObject*) m_Controls->m_CopyBundlesButton, SIGNAL(clicked()), (QObject*) this, SLOT(CopyBundles())); connect((QObject*) m_Controls->m_TransformBundlesButton, SIGNAL(clicked()), (QObject*) this, SLOT(ApplyTransform())); connect((QObject*) m_Controls->m_AlignOnGrid, SIGNAL(clicked()), (QObject*) this, SLOT(AlignOnGrid())); connect((QObject*) m_Controls->m_Compartment1Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp1ModelFrameVisibility(int))); connect((QObject*) m_Controls->m_Compartment2Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp2ModelFrameVisibility(int))); connect((QObject*) m_Controls->m_Compartment3Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp3ModelFrameVisibility(int))); connect((QObject*) m_Controls->m_Compartment4Box, SIGNAL(currentIndexChanged(int)), (QObject*) this, SLOT(Comp4ModelFrameVisibility(int))); connect((QObject*) m_Controls->m_AdvancedOptionsBox, SIGNAL( stateChanged(int)), (QObject*) this, SLOT(ShowAdvancedOptions(int))); connect((QObject*) m_Controls->m_AdvancedOptionsBox_2, SIGNAL( stateChanged(int)), (QObject*) this, SLOT(ShowAdvancedOptions(int))); connect((QObject*) m_Controls->m_SaveParametersButton, SIGNAL(clicked()), (QObject*) this, SLOT(SaveParameters())); connect((QObject*) m_Controls->m_LoadParametersButton, SIGNAL(clicked()), (QObject*) this, SLOT(LoadParameters())); } } void QmitkFiberfoxView::UpdateImageParameters() { m_ImageGenParameters.artifactList.clear(); m_ImageGenParameters.nonFiberModelList.clear(); m_ImageGenParameters.fiberModelList.clear(); m_ImageGenParameters.signalModelString = ""; m_ImageGenParameters.artifactModelString = ""; m_ImageGenParameters.resultNode = mitk::DataNode::New(); m_ImageGenParameters.tissueMaskImage = NULL; m_ImageGenParameters.frequencyMap = NULL; if (m_SelectedDWI.IsNotNull()) // use parameters of selected DWI { mitk::DiffusionImage::Pointer dwi = dynamic_cast*>(m_SelectedDWI->GetData()); m_ImageGenParameters.imageRegion = dwi->GetVectorImage()->GetLargestPossibleRegion(); m_ImageGenParameters.imageSpacing = dwi->GetVectorImage()->GetSpacing(); m_ImageGenParameters.imageOrigin = dwi->GetVectorImage()->GetOrigin(); m_ImageGenParameters.imageDirection = dwi->GetVectorImage()->GetDirection(); m_ImageGenParameters.b_value = dwi->GetB_Value(); mitk::DiffusionImage::GradientDirectionContainerType::Pointer dirs = dwi->GetDirections(); m_ImageGenParameters.numGradients = 0; for (int i=0; iSize(); i++) { DiffusionSignalModel::GradientType g; g[0] = dirs->at(i)[0]; g[1] = dirs->at(i)[1]; g[2] = dirs->at(i)[2]; m_ImageGenParameters.gradientDirections.push_back(g); if (dirs->at(i).magnitude()>0.0001) m_ImageGenParameters.numGradients++; } } else if (m_SelectedImage.IsNotNull()) // use geometry of selected image { mitk::Image::Pointer img = dynamic_cast(m_SelectedImage->GetData()); itk::Image< float, 3 >::Pointer itkImg = itk::Image< float, 3 >::New(); CastToItkImage< itk::Image< float, 3 > >(img, itkImg); m_ImageGenParameters.imageRegion = itkImg->GetLargestPossibleRegion(); m_ImageGenParameters.imageSpacing = itkImg->GetSpacing(); m_ImageGenParameters.imageOrigin = itkImg->GetOrigin(); m_ImageGenParameters.imageDirection = itkImg->GetDirection(); m_ImageGenParameters.numGradients = m_Controls->m_NumGradientsBox->value(); m_ImageGenParameters.gradientDirections = GenerateHalfShell(m_Controls->m_NumGradientsBox->value()); m_ImageGenParameters.b_value = m_Controls->m_BvalueBox->value(); } else // use GUI parameters { m_ImageGenParameters.imageRegion.SetSize(0, m_Controls->m_SizeX->value()); m_ImageGenParameters.imageRegion.SetSize(1, m_Controls->m_SizeY->value()); m_ImageGenParameters.imageRegion.SetSize(2, m_Controls->m_SizeZ->value()); m_ImageGenParameters.imageSpacing[0] = m_Controls->m_SpacingX->value(); m_ImageGenParameters.imageSpacing[1] = m_Controls->m_SpacingY->value(); m_ImageGenParameters.imageSpacing[2] = m_Controls->m_SpacingZ->value(); m_ImageGenParameters.imageOrigin[0] = m_ImageGenParameters.imageSpacing[0]/2; m_ImageGenParameters.imageOrigin[1] = m_ImageGenParameters.imageSpacing[1]/2; m_ImageGenParameters.imageOrigin[2] = m_ImageGenParameters.imageSpacing[2]/2; m_ImageGenParameters.imageDirection.SetIdentity(); m_ImageGenParameters.numGradients = m_Controls->m_NumGradientsBox->value(); m_ImageGenParameters.gradientDirections = GenerateHalfShell(m_Controls->m_NumGradientsBox->value());; m_ImageGenParameters.b_value = m_Controls->m_BvalueBox->value(); } // signal relaxation m_ImageGenParameters.doSimulateRelaxation = m_Controls->m_RelaxationBox->isChecked(); if (m_ImageGenParameters.doSimulateRelaxation) m_ImageGenParameters.artifactModelString += "_RELAX"; // N/2 ghosts if (m_Controls->m_AddGhosts->isChecked()) { m_ImageGenParameters.artifactModelString += "_GHOST"; m_ImageGenParameters.kspaceLineOffset = m_Controls->m_kOffsetBox->value(); } else m_ImageGenParameters.kspaceLineOffset = 0; m_ImageGenParameters.tLine = m_Controls->m_LineReadoutTimeBox->value(); m_ImageGenParameters.tInhom = m_Controls->m_T2starBox->value(); m_ImageGenParameters.tEcho = m_Controls->m_TEbox->value(); m_ImageGenParameters.repetitions = m_Controls->m_RepetitionsBox->value(); m_ImageGenParameters.doDisablePartialVolume = m_Controls->m_EnforcePureFiberVoxelsBox->isChecked(); m_ImageGenParameters.interpolationShrink = m_Controls->m_InterpolationShrink->value(); m_ImageGenParameters.axonRadius = m_Controls->m_FiberRadius->value(); m_ImageGenParameters.signalScale = m_Controls->m_SignalScaleBox->value(); // adjust echo time if needed if ( m_ImageGenParameters.tEcho < m_ImageGenParameters.imageRegion.GetSize(1)*m_ImageGenParameters.tLine ) { this->m_Controls->m_TEbox->setValue( m_ImageGenParameters.imageRegion.GetSize(1)*m_ImageGenParameters.tLine ); m_ImageGenParameters.tEcho = m_Controls->m_TEbox->value(); QMessageBox::information( NULL, "Warning", "Echo time is too short! Time not sufficient to read slice. Automaticall adjusted to "+QString::number(m_ImageGenParameters.tEcho)+" ms"); } // check tissue mask if (m_TissueMask.IsNotNull()) { m_ImageGenParameters.tissueMaskImage = ItkUcharImgType::New(); mitk::CastToItkImage(m_TissueMask, m_ImageGenParameters.tissueMaskImage); } // rician noise if (m_Controls->m_AddNoise->isChecked()) { double noiseVariance = m_Controls->m_NoiseLevel->value(); m_ImageGenParameters.ricianNoiseModel.SetNoiseVariance(noiseVariance); m_ImageGenParameters.artifactModelString += "_NOISE"; m_ImageGenParameters.artifactModelString += QString::number(noiseVariance); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Noise-Variance", DoubleProperty::New(noiseVariance)); } else m_ImageGenParameters.ricianNoiseModel.SetNoiseVariance(0); // gibbs ringing m_ImageGenParameters.upsampling = 1; if (m_Controls->m_AddGibbsRinging->isChecked()) { m_ImageGenParameters.artifactModelString += "_RINGING"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Ringing-Upsampling", DoubleProperty::New(m_Controls->m_ImageUpsamplingBox->value())); m_ImageGenParameters.upsampling = m_Controls->m_ImageUpsamplingBox->value(); } // adjusting line readout time to the adapted image size needed for the DFT int y = m_ImageGenParameters.imageRegion.GetSize(1); if ( y%2 == 1 ) y += 1; if ( y>m_ImageGenParameters.imageRegion.GetSize(1) ) m_ImageGenParameters.tLine *= (double)m_ImageGenParameters.imageRegion.GetSize(1)/y; // add distortions if (m_Controls->m_AddDistortions->isChecked() && m_Controls->m_FrequencyMapBox->GetSelectedNode().IsNotNull()) { mitk::DataNode::Pointer fMapNode = m_Controls->m_FrequencyMapBox->GetSelectedNode(); mitk::Image* img = dynamic_cast(fMapNode->GetData()); ItkDoubleImgType::Pointer itkImg = ItkDoubleImgType::New(); CastToItkImage< ItkDoubleImgType >(img, itkImg); if (m_ImageGenParameters.imageRegion.GetSize(0)==itkImg->GetLargestPossibleRegion().GetSize(0) && m_ImageGenParameters.imageRegion.GetSize(1)==itkImg->GetLargestPossibleRegion().GetSize(1) && m_ImageGenParameters.imageRegion.GetSize(2)==itkImg->GetLargestPossibleRegion().GetSize(2)) { m_ImageGenParameters.frequencyMap = itkImg; m_ImageGenParameters.artifactModelString += "_DISTORTED"; } } m_ImageGenParameters.doSimulateEddyCurrents = m_Controls->m_AddEddy->isChecked(); m_ImageGenParameters.eddyStrength = 0; if (m_Controls->m_AddEddy->isChecked()) { m_ImageGenParameters.eddyStrength = m_Controls->m_EddyGradientStrength->value(); m_ImageGenParameters.artifactModelString += "_EDDY"; } // signal models m_ImageGenParameters.comp3Weight = 1; m_ImageGenParameters.comp4Weight = 0; if (m_Controls->m_Compartment4Box->currentIndex()>0) { m_ImageGenParameters.comp4Weight = m_Controls->m_Comp4FractionBox->value(); m_ImageGenParameters.comp3Weight -= m_ImageGenParameters.comp4Weight; } // compartment 1 switch (m_Controls->m_Compartment1Box->currentIndex()) { case 0: MITK_INFO << "Using stick model"; m_StickModel1.SetGradientList(m_ImageGenParameters.gradientDirections); m_StickModel1.SetBvalue(m_ImageGenParameters.b_value); m_StickModel1.SetDiffusivity(m_Controls->m_StickWidget1->GetD()); m_StickModel1.SetT2(m_Controls->m_StickWidget1->GetT2()); m_ImageGenParameters.fiberModelList.push_back(&m_StickModel1); m_ImageGenParameters.signalModelString += "Stick"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Stick") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.D", DoubleProperty::New(m_Controls->m_StickWidget1->GetD()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.T2", DoubleProperty::New(m_StickModel1.GetT2()) ); break; case 1: MITK_INFO << "Using zeppelin model"; m_ZeppelinModel1.SetGradientList(m_ImageGenParameters.gradientDirections); m_ZeppelinModel1.SetBvalue(m_ImageGenParameters.b_value); m_ZeppelinModel1.SetDiffusivity1(m_Controls->m_ZeppelinWidget1->GetD1()); m_ZeppelinModel1.SetDiffusivity2(m_Controls->m_ZeppelinWidget1->GetD2()); m_ZeppelinModel1.SetDiffusivity3(m_Controls->m_ZeppelinWidget1->GetD2()); m_ZeppelinModel1.SetT2(m_Controls->m_ZeppelinWidget1->GetT2()); m_ImageGenParameters.fiberModelList.push_back(&m_ZeppelinModel1); m_ImageGenParameters.signalModelString += "Zeppelin"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Zeppelin") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.D1", DoubleProperty::New(m_Controls->m_ZeppelinWidget1->GetD1()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.D2", DoubleProperty::New(m_Controls->m_ZeppelinWidget1->GetD2()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.T2", DoubleProperty::New(m_ZeppelinModel1.GetT2()) ); break; case 2: MITK_INFO << "Using tensor model"; m_TensorModel1.SetGradientList(m_ImageGenParameters.gradientDirections); m_TensorModel1.SetBvalue(m_ImageGenParameters.b_value); m_TensorModel1.SetDiffusivity1(m_Controls->m_TensorWidget1->GetD1()); m_TensorModel1.SetDiffusivity2(m_Controls->m_TensorWidget1->GetD2()); m_TensorModel1.SetDiffusivity3(m_Controls->m_TensorWidget1->GetD3()); m_TensorModel1.SetT2(m_Controls->m_TensorWidget1->GetT2()); m_ImageGenParameters.fiberModelList.push_back(&m_TensorModel1); m_ImageGenParameters.signalModelString += "Tensor"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.Description", StringProperty::New("Intra-axonal compartment") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.Model", StringProperty::New("Tensor") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.D1", DoubleProperty::New(m_Controls->m_TensorWidget1->GetD1()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.D2", DoubleProperty::New(m_Controls->m_TensorWidget1->GetD2()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.D3", DoubleProperty::New(m_Controls->m_TensorWidget1->GetD3()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment1.T2", DoubleProperty::New(m_ZeppelinModel1.GetT2()) ); break; } // compartment 2 switch (m_Controls->m_Compartment2Box->currentIndex()) { case 0: break; case 1: m_StickModel2.SetGradientList(m_ImageGenParameters.gradientDirections); m_StickModel2.SetBvalue(m_ImageGenParameters.b_value); m_StickModel2.SetDiffusivity(m_Controls->m_StickWidget2->GetD()); m_StickModel2.SetT2(m_Controls->m_StickWidget2->GetT2()); m_ImageGenParameters.fiberModelList.push_back(&m_StickModel2); m_ImageGenParameters.signalModelString += "Stick"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.Description", StringProperty::New("Inter-axonal compartment") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.Model", StringProperty::New("Stick") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.D", DoubleProperty::New(m_Controls->m_StickWidget2->GetD()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.T2", DoubleProperty::New(m_StickModel2.GetT2()) ); break; case 2: m_ZeppelinModel2.SetGradientList(m_ImageGenParameters.gradientDirections); m_ZeppelinModel2.SetBvalue(m_ImageGenParameters.b_value); m_ZeppelinModel2.SetDiffusivity1(m_Controls->m_ZeppelinWidget2->GetD1()); m_ZeppelinModel2.SetDiffusivity2(m_Controls->m_ZeppelinWidget2->GetD2()); m_ZeppelinModel2.SetDiffusivity3(m_Controls->m_ZeppelinWidget2->GetD2()); m_ZeppelinModel2.SetT2(m_Controls->m_ZeppelinWidget2->GetT2()); m_ImageGenParameters.fiberModelList.push_back(&m_ZeppelinModel2); m_ImageGenParameters.signalModelString += "Zeppelin"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.Description", StringProperty::New("Inter-axonal compartment") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.Model", StringProperty::New("Zeppelin") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.D1", DoubleProperty::New(m_Controls->m_ZeppelinWidget2->GetD1()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.D2", DoubleProperty::New(m_Controls->m_ZeppelinWidget2->GetD2()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.T2", DoubleProperty::New(m_ZeppelinModel2.GetT2()) ); break; case 3: m_TensorModel2.SetGradientList(m_ImageGenParameters.gradientDirections); m_TensorModel2.SetBvalue(m_ImageGenParameters.b_value); m_TensorModel2.SetDiffusivity1(m_Controls->m_TensorWidget2->GetD1()); m_TensorModel2.SetDiffusivity2(m_Controls->m_TensorWidget2->GetD2()); m_TensorModel2.SetDiffusivity3(m_Controls->m_TensorWidget2->GetD3()); m_TensorModel2.SetT2(m_Controls->m_TensorWidget2->GetT2()); m_ImageGenParameters.fiberModelList.push_back(&m_TensorModel2); m_ImageGenParameters.signalModelString += "Tensor"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.Description", StringProperty::New("Inter-axonal compartment") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.Model", StringProperty::New("Tensor") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.D1", DoubleProperty::New(m_Controls->m_TensorWidget2->GetD1()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.D2", DoubleProperty::New(m_Controls->m_TensorWidget2->GetD2()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.D3", DoubleProperty::New(m_Controls->m_TensorWidget2->GetD3()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment2.T2", DoubleProperty::New(m_ZeppelinModel2.GetT2()) ); break; } // compartment 3 switch (m_Controls->m_Compartment3Box->currentIndex()) { case 0: m_BallModel1.SetGradientList(m_ImageGenParameters.gradientDirections); m_BallModel1.SetBvalue(m_ImageGenParameters.b_value); m_BallModel1.SetDiffusivity(m_Controls->m_BallWidget1->GetD()); m_BallModel1.SetT2(m_Controls->m_BallWidget1->GetT2()); m_BallModel1.SetWeight(m_ImageGenParameters.comp3Weight); m_ImageGenParameters.nonFiberModelList.push_back(&m_BallModel1); m_ImageGenParameters.signalModelString += "Ball"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Ball") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.D", DoubleProperty::New(m_Controls->m_BallWidget1->GetD()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.T2", DoubleProperty::New(m_BallModel1.GetT2()) ); break; case 1: m_AstrosticksModel1.SetGradientList(m_ImageGenParameters.gradientDirections); m_AstrosticksModel1.SetBvalue(m_ImageGenParameters.b_value); m_AstrosticksModel1.SetDiffusivity(m_Controls->m_AstrosticksWidget1->GetD()); m_AstrosticksModel1.SetT2(m_Controls->m_AstrosticksWidget1->GetT2()); m_AstrosticksModel1.SetRandomizeSticks(m_Controls->m_AstrosticksWidget1->GetRandomizeSticks()); m_AstrosticksModel1.SetWeight(m_ImageGenParameters.comp3Weight); m_ImageGenParameters.nonFiberModelList.push_back(&m_AstrosticksModel1); m_ImageGenParameters.signalModelString += "Astrosticks"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Astrosticks") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.D", DoubleProperty::New(m_Controls->m_AstrosticksWidget1->GetD()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.T2", DoubleProperty::New(m_AstrosticksModel1.GetT2()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.RandomSticks", BoolProperty::New(m_Controls->m_AstrosticksWidget1->GetRandomizeSticks()) ); break; case 2: m_DotModel1.SetGradientList(m_ImageGenParameters.gradientDirections); m_DotModel1.SetT2(m_Controls->m_DotWidget1->GetT2()); m_DotModel1.SetWeight(m_ImageGenParameters.comp3Weight); m_ImageGenParameters.nonFiberModelList.push_back(&m_DotModel1); m_ImageGenParameters.signalModelString += "Dot"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.Description", StringProperty::New("Extra-axonal compartment 1") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.Model", StringProperty::New("Dot") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment3.T2", DoubleProperty::New(m_DotModel1.GetT2()) ); break; } // compartment 4 switch (m_Controls->m_Compartment4Box->currentIndex()) { case 0: break; case 1: m_BallModel2.SetGradientList(m_ImageGenParameters.gradientDirections); m_BallModel2.SetBvalue(m_ImageGenParameters.b_value); m_BallModel2.SetDiffusivity(m_Controls->m_BallWidget2->GetD()); m_BallModel2.SetT2(m_Controls->m_BallWidget2->GetT2()); m_BallModel2.SetWeight(m_ImageGenParameters.comp4Weight); m_ImageGenParameters.nonFiberModelList.push_back(&m_BallModel2); m_ImageGenParameters.signalModelString += "Ball"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Ball") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.D", DoubleProperty::New(m_Controls->m_BallWidget2->GetD()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.T2", DoubleProperty::New(m_BallModel2.GetT2()) ); break; case 2: m_AstrosticksModel2.SetGradientList(m_ImageGenParameters.gradientDirections); m_AstrosticksModel2.SetBvalue(m_ImageGenParameters.b_value); m_AstrosticksModel2.SetDiffusivity(m_Controls->m_AstrosticksWidget2->GetD()); m_AstrosticksModel2.SetT2(m_Controls->m_AstrosticksWidget2->GetT2()); m_AstrosticksModel2.SetRandomizeSticks(m_Controls->m_AstrosticksWidget2->GetRandomizeSticks()); m_AstrosticksModel2.SetWeight(m_ImageGenParameters.comp4Weight); m_ImageGenParameters.nonFiberModelList.push_back(&m_AstrosticksModel2); m_ImageGenParameters.signalModelString += "Astrosticks"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Astrosticks") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.D", DoubleProperty::New(m_Controls->m_AstrosticksWidget2->GetD()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.T2", DoubleProperty::New(m_AstrosticksModel2.GetT2()) ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.RandomSticks", BoolProperty::New(m_Controls->m_AstrosticksWidget2->GetRandomizeSticks()) ); break; case 3: m_DotModel2.SetGradientList(m_ImageGenParameters.gradientDirections); m_DotModel2.SetT2(m_Controls->m_DotWidget2->GetT2()); m_DotModel2.SetWeight(m_ImageGenParameters.comp4Weight); m_ImageGenParameters.nonFiberModelList.push_back(&m_DotModel2); m_ImageGenParameters.signalModelString += "Dot"; m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.Description", StringProperty::New("Extra-axonal compartment 2") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.Model", StringProperty::New("Dot") ); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Compartment4.T2", DoubleProperty::New(m_DotModel2.GetT2()) ); break; } m_ImageGenParameters.resultNode->AddProperty("Fiberfox.InterpolationShrink", IntProperty::New(m_ImageGenParameters.interpolationShrink)); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.SignalScale", IntProperty::New(m_ImageGenParameters.signalScale)); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.FiberRadius", IntProperty::New(m_ImageGenParameters.axonRadius)); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Tinhom", IntProperty::New(m_ImageGenParameters.tInhom)); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Repetitions", IntProperty::New(m_ImageGenParameters.repetitions)); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.b-value", DoubleProperty::New(m_ImageGenParameters.b_value)); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.Model", StringProperty::New(m_ImageGenParameters.signalModelString.toStdString())); m_ImageGenParameters.resultNode->AddProperty("Fiberfox.PureFiberVoxels", BoolProperty::New(m_ImageGenParameters.doDisablePartialVolume)); m_ImageGenParameters.resultNode->AddProperty("binary", BoolProperty::New(false)); } void QmitkFiberfoxView::SaveParameters() { UpdateImageParameters(); QString filename = QFileDialog::getSaveFileName( 0, tr("Save Parameters"), QDir::currentPath()+"/param.ffp", tr("Fiberfox Parameters (*.ffp)") ); if(filename.isEmpty() || filename.isNull()) return; if(!filename.endsWith(".ffp")) filename += ".ffp"; boost::property_tree::ptree parameters; // fiber generation parameters parameters.put("fiberfox.fibers.realtime", m_Controls->m_RealTimeFibers->isChecked()); parameters.put("fiberfox.fibers.showadvanced", m_Controls->m_AdvancedOptionsBox->isChecked()); parameters.put("fiberfox.fibers.distribution", m_Controls->m_DistributionBox->currentIndex()); parameters.put("fiberfox.fibers.variance", m_Controls->m_VarianceBox->value()); parameters.put("fiberfox.fibers.density", m_Controls->m_FiberDensityBox->value()); parameters.put("fiberfox.fibers.spline.sampling", m_Controls->m_FiberSamplingBox->value()); parameters.put("fiberfox.fibers.spline.tension", m_Controls->m_TensionBox->value()); parameters.put("fiberfox.fibers.spline.continuity", m_Controls->m_ContinuityBox->value()); parameters.put("fiberfox.fibers.spline.bias", m_Controls->m_BiasBox->value()); parameters.put("fiberfox.fibers.constantradius", m_Controls->m_ConstantRadiusBox->isChecked()); parameters.put("fiberfox.fibers.rotation.x", m_Controls->m_XrotBox->value()); parameters.put("fiberfox.fibers.rotation.y", m_Controls->m_YrotBox->value()); parameters.put("fiberfox.fibers.rotation.z", m_Controls->m_ZrotBox->value()); parameters.put("fiberfox.fibers.translation.x", m_Controls->m_XtransBox->value()); parameters.put("fiberfox.fibers.translation.y", m_Controls->m_YtransBox->value()); parameters.put("fiberfox.fibers.translation.z", m_Controls->m_ZtransBox->value()); parameters.put("fiberfox.fibers.scale.x", m_Controls->m_XscaleBox->value()); parameters.put("fiberfox.fibers.scale.y", m_Controls->m_YscaleBox->value()); parameters.put("fiberfox.fibers.scale.z", m_Controls->m_ZscaleBox->value()); parameters.put("fiberfox.fibers.includeFiducials", m_Controls->m_IncludeFiducials->isChecked()); parameters.put("fiberfox.fibers.includeFiducials", m_Controls->m_IncludeFiducials->isChecked()); // image generation parameters parameters.put("fiberfox.image.basic.size.x", m_ImageGenParameters.imageRegion.GetSize(0)); parameters.put("fiberfox.image.basic.size.y", m_ImageGenParameters.imageRegion.GetSize(1)); parameters.put("fiberfox.image.basic.size.z", m_ImageGenParameters.imageRegion.GetSize(2)); parameters.put("fiberfox.image.basic.spacing.x", m_ImageGenParameters.imageSpacing[0]); parameters.put("fiberfox.image.basic.spacing.y", m_ImageGenParameters.imageSpacing[1]); parameters.put("fiberfox.image.basic.spacing.z", m_ImageGenParameters.imageSpacing[2]); parameters.put("fiberfox.image.basic.numgradients", m_ImageGenParameters.numGradients); parameters.put("fiberfox.image.basic.bvalue", m_ImageGenParameters.b_value); parameters.put("fiberfox.image.showadvanced", m_Controls->m_AdvancedOptionsBox_2->isChecked()); parameters.put("fiberfox.image.repetitions", m_ImageGenParameters.repetitions); parameters.put("fiberfox.image.signalScale", m_ImageGenParameters.signalScale); parameters.put("fiberfox.image.tEcho", m_ImageGenParameters.tEcho); parameters.put("fiberfox.image.tLine", m_Controls->m_LineReadoutTimeBox->value()); parameters.put("fiberfox.image.tInhom", m_ImageGenParameters.tInhom); parameters.put("fiberfox.image.axonRadius", m_ImageGenParameters.axonRadius); parameters.put("fiberfox.image.interpolationShrink", m_ImageGenParameters.interpolationShrink); parameters.put("fiberfox.image.doSimulateRelaxation", m_ImageGenParameters.doSimulateRelaxation); parameters.put("fiberfox.image.doDisablePartialVolume", m_ImageGenParameters.doDisablePartialVolume); parameters.put("fiberfox.image.outputvolumefractions", m_Controls->m_VolumeFractionsBox->isChecked()); parameters.put("fiberfox.image.artifacts.addnoise", m_Controls->m_AddNoise->isChecked()); - parameters.put("fiberfox.image.artifacts.noisevariance", m_Controls->m_VarianceBox->value()); + parameters.put("fiberfox.image.artifacts.noisevariance", m_Controls->m_NoiseLevel->value()); parameters.put("fiberfox.image.artifacts.addghost", m_Controls->m_AddGhosts->isChecked()); parameters.put("fiberfox.image.artifacts.kspaceLineOffset", m_Controls->m_kOffsetBox->value()); parameters.put("fiberfox.image.artifacts.distortions", m_Controls->m_AddDistortions->isChecked()); parameters.put("fiberfox.image.artifacts.addeddy", m_Controls->m_AddEddy->isChecked()); parameters.put("fiberfox.image.artifacts.eddyStrength", m_Controls->m_EddyGradientStrength->value()); parameters.put("fiberfox.image.artifacts.addringing", m_Controls->m_AddGibbsRinging->isChecked()); parameters.put("fiberfox.image.artifacts.ringingupsampling", m_Controls->m_ImageUpsamplingBox->value()); parameters.put("fiberfox.image.compartment1.index", m_Controls->m_Compartment1Box->currentIndex()); parameters.put("fiberfox.image.compartment2.index", m_Controls->m_Compartment2Box->currentIndex()); parameters.put("fiberfox.image.compartment3.index", m_Controls->m_Compartment3Box->currentIndex()); parameters.put("fiberfox.image.compartment4.index", m_Controls->m_Compartment4Box->currentIndex()); parameters.put("fiberfox.image.compartment1.stick.d", m_Controls->m_StickWidget1->GetD()); parameters.put("fiberfox.image.compartment1.stick.t2", m_Controls->m_StickWidget1->GetT2()); parameters.put("fiberfox.image.compartment1.zeppelin.d1", m_Controls->m_ZeppelinWidget1->GetD1()); parameters.put("fiberfox.image.compartment1.zeppelin.d2", m_Controls->m_ZeppelinWidget1->GetD2()); parameters.put("fiberfox.image.compartment1.zeppelin.t2", m_Controls->m_ZeppelinWidget1->GetT2()); parameters.put("fiberfox.image.compartment1.tensor.d1", m_Controls->m_TensorWidget1->GetD1()); parameters.put("fiberfox.image.compartment1.tensor.d2", m_Controls->m_TensorWidget1->GetD2()); parameters.put("fiberfox.image.compartment1.tensor.d3", m_Controls->m_TensorWidget1->GetD3()); parameters.put("fiberfox.image.compartment1.tensor.t2", m_Controls->m_TensorWidget1->GetT2()); parameters.put("fiberfox.image.compartment2.stick.d", m_Controls->m_StickWidget2->GetD()); parameters.put("fiberfox.image.compartment2.stick.t2", m_Controls->m_StickWidget2->GetT2()); parameters.put("fiberfox.image.compartment2.zeppelin.d1", m_Controls->m_ZeppelinWidget2->GetD1()); parameters.put("fiberfox.image.compartment2.zeppelin.d2", m_Controls->m_ZeppelinWidget2->GetD2()); parameters.put("fiberfox.image.compartment2.zeppelin.t2", m_Controls->m_ZeppelinWidget2->GetT2()); parameters.put("fiberfox.image.compartment2.tensor.d1", m_Controls->m_TensorWidget2->GetD1()); parameters.put("fiberfox.image.compartment2.tensor.d2", m_Controls->m_TensorWidget2->GetD2()); parameters.put("fiberfox.image.compartment2.tensor.d3", m_Controls->m_TensorWidget2->GetD3()); parameters.put("fiberfox.image.compartment2.tensor.t2", m_Controls->m_TensorWidget2->GetT2()); parameters.put("fiberfox.image.compartment3.ball.d", m_Controls->m_BallWidget1->GetD()); parameters.put("fiberfox.image.compartment3.ball.t2", m_Controls->m_BallWidget1->GetT2()); parameters.put("fiberfox.image.compartment3.astrosticks.d", m_Controls->m_AstrosticksWidget1->GetD()); parameters.put("fiberfox.image.compartment3.astrosticks.t2", m_Controls->m_AstrosticksWidget1->GetT2()); parameters.put("fiberfox.image.compartment3.astrosticks.randomize", m_Controls->m_AstrosticksWidget1->GetRandomizeSticks()); parameters.put("fiberfox.image.compartment3.dot.t2", m_Controls->m_DotWidget1->GetT2()); parameters.put("fiberfox.image.compartment4.ball.d", m_Controls->m_BallWidget2->GetD()); parameters.put("fiberfox.image.compartment4.ball.t2", m_Controls->m_BallWidget2->GetT2()); parameters.put("fiberfox.image.compartment4.astrosticks.d", m_Controls->m_AstrosticksWidget2->GetD()); parameters.put("fiberfox.image.compartment4.astrosticks.t2", m_Controls->m_AstrosticksWidget2->GetT2()); parameters.put("fiberfox.image.compartment4.astrosticks.randomize", m_Controls->m_AstrosticksWidget2->GetRandomizeSticks()); parameters.put("fiberfox.image.compartment4.dot.t2", m_Controls->m_DotWidget2->GetT2()); parameters.put("fiberfox.image.compartment4.weight", m_Controls->m_Comp4FractionBox->value()); boost::property_tree::xml_parser::write_xml(filename.toStdString(), parameters); } void QmitkFiberfoxView::LoadParameters() { QString filename = QFileDialog::getOpenFileName(0, tr("Load Parameters"), QDir::currentPath(), tr("Fiberfox Parameters (*.ffp)") ); if(filename.isEmpty() || filename.isNull()) return; boost::property_tree::ptree parameters; boost::property_tree::xml_parser::read_xml(filename.toStdString(), parameters); BOOST_FOREACH( boost::property_tree::ptree::value_type const& v1, parameters.get_child("fiberfox") ) { if( v1.first == "fibers" ) { m_Controls->m_RealTimeFibers->setChecked(v1.second.get("realtime")); m_Controls->m_AdvancedOptionsBox->setChecked(v1.second.get("showadvanced")); m_Controls->m_DistributionBox->setCurrentIndex(v1.second.get("distribution")); m_Controls->m_VarianceBox->setValue(v1.second.get("variance")); m_Controls->m_FiberDensityBox->setValue(v1.second.get("density")); m_Controls->m_IncludeFiducials->setChecked(v1.second.get("includeFiducials")); m_Controls->m_ConstantRadiusBox->setChecked(v1.second.get("constantradius")); BOOST_FOREACH( boost::property_tree::ptree::value_type const& v2, v1.second ) { if( v2.first == "spline" ) { m_Controls->m_FiberSamplingBox->setValue(v2.second.get("sampling")); m_Controls->m_TensionBox->setValue(v2.second.get("tension")); m_Controls->m_ContinuityBox->setValue(v2.second.get("continuity")); m_Controls->m_BiasBox->setValue(v2.second.get("bias")); } if( v2.first == "rotation" ) { m_Controls->m_XrotBox->setValue(v2.second.get("x")); m_Controls->m_YrotBox->setValue(v2.second.get("y")); m_Controls->m_ZrotBox->setValue(v2.second.get("z")); } if( v2.first == "translation" ) { m_Controls->m_XtransBox->setValue(v2.second.get("x")); m_Controls->m_YtransBox->setValue(v2.second.get("y")); m_Controls->m_ZtransBox->setValue(v2.second.get("z")); } if( v2.first == "scale" ) { m_Controls->m_XscaleBox->setValue(v2.second.get("x")); m_Controls->m_YscaleBox->setValue(v2.second.get("y")); m_Controls->m_ZscaleBox->setValue(v2.second.get("z")); } } } if( v1.first == "image" ) { m_Controls->m_SizeX->setValue(v1.second.get("basic.size.x")); m_Controls->m_SizeY->setValue(v1.second.get("basic.size.y")); m_Controls->m_SizeZ->setValue(v1.second.get("basic.size.z")); m_Controls->m_SpacingX->setValue(v1.second.get("basic.spacing.x")); m_Controls->m_SpacingY->setValue(v1.second.get("basic.spacing.y")); m_Controls->m_SpacingZ->setValue(v1.second.get("basic.spacing.z")); m_Controls->m_NumGradientsBox->setValue(v1.second.get("basic.numgradients")); m_Controls->m_BvalueBox->setValue(v1.second.get("basic.bvalue")); m_Controls->m_AdvancedOptionsBox_2->setChecked(v1.second.get("showadvanced")); m_Controls->m_RepetitionsBox->setValue(v1.second.get("repetitions")); m_Controls->m_SignalScaleBox->setValue(v1.second.get("signalScale")); m_Controls->m_TEbox->setValue(v1.second.get("tEcho")); m_Controls->m_LineReadoutTimeBox->setValue(v1.second.get("tLine")); m_Controls->m_T2starBox->setValue(v1.second.get("tInhom")); m_Controls->m_FiberRadius->setValue(v1.second.get("axonRadius")); m_Controls->m_InterpolationShrink->setValue(v1.second.get("interpolationShrink")); m_Controls->m_RelaxationBox->setChecked(v1.second.get("doSimulateRelaxation")); m_Controls->m_EnforcePureFiberVoxelsBox->setChecked(v1.second.get("doDisablePartialVolume")); m_Controls->m_VolumeFractionsBox->setChecked(v1.second.get("outputvolumefractions")); m_Controls->m_AddNoise->setChecked(v1.second.get("artifacts.addnoise")); - m_Controls->m_VarianceBox->setValue(v1.second.get("artifacts.noisevariance")); + m_Controls->m_NoiseLevel->setValue(v1.second.get("artifacts.noisevariance")); m_Controls->m_AddGhosts->setChecked(v1.second.get("artifacts.addghost")); m_Controls->m_kOffsetBox->setValue(v1.second.get("artifacts.kspaceLineOffset")); m_Controls->m_AddDistortions->setChecked(v1.second.get("artifacts.distortions")); m_Controls->m_AddEddy->setChecked(v1.second.get("artifacts.addeddy")); m_Controls->m_EddyGradientStrength->setValue(v1.second.get("artifacts.eddyStrength")); m_Controls->m_AddGibbsRinging->setChecked(v1.second.get("artifacts.addringing")); m_Controls->m_ImageUpsamplingBox->setValue(v1.second.get("artifacts.ringingupsampling")); m_Controls->m_Compartment1Box->setCurrentIndex(v1.second.get("compartment1.index")); m_Controls->m_Compartment2Box->setCurrentIndex(v1.second.get("compartment2.index")); m_Controls->m_Compartment3Box->setCurrentIndex(v1.second.get("compartment3.index")); m_Controls->m_Compartment4Box->setCurrentIndex(v1.second.get("compartment4.index")); m_Controls->m_StickWidget1->SetD(v1.second.get("compartment1.stick.d")); m_Controls->m_StickWidget1->SetT2(v1.second.get("compartment1.stick.t2")); m_Controls->m_ZeppelinWidget1->SetD1(v1.second.get("compartment1.zeppelin.d1")); m_Controls->m_ZeppelinWidget1->SetD2(v1.second.get("compartment1.zeppelin.d2")); m_Controls->m_ZeppelinWidget1->SetT2(v1.second.get("compartment1.zeppelin.t2")); m_Controls->m_TensorWidget1->SetD1(v1.second.get("compartment1.tensor.d1")); m_Controls->m_TensorWidget1->SetD2(v1.second.get("compartment1.tensor.d2")); m_Controls->m_TensorWidget1->SetD3(v1.second.get("compartment1.tensor.d3")); m_Controls->m_TensorWidget1->SetT2(v1.second.get("compartment1.tensor.t2")); m_Controls->m_StickWidget2->SetD(v1.second.get("compartment2.stick.d")); m_Controls->m_StickWidget2->SetT2(v1.second.get("compartment2.stick.t2")); m_Controls->m_ZeppelinWidget2->SetD1(v1.second.get("compartment2.zeppelin.d1")); m_Controls->m_ZeppelinWidget2->SetD2(v1.second.get("compartment2.zeppelin.d2")); m_Controls->m_ZeppelinWidget2->SetT2(v1.second.get("compartment2.zeppelin.t2")); m_Controls->m_TensorWidget2->SetD1(v1.second.get("compartment2.tensor.d1")); m_Controls->m_TensorWidget2->SetD2(v1.second.get("compartment2.tensor.d2")); m_Controls->m_TensorWidget2->SetD3(v1.second.get("compartment2.tensor.d3")); m_Controls->m_TensorWidget2->SetT2(v1.second.get("compartment2.tensor.t2")); m_Controls->m_BallWidget1->SetD(v1.second.get("compartment3.ball.d")); m_Controls->m_BallWidget1->SetT2(v1.second.get("compartment3.ball.t2")); m_Controls->m_AstrosticksWidget1->SetD(v1.second.get("compartment3.astrosticks.d")); m_Controls->m_AstrosticksWidget1->SetT2(v1.second.get("compartment3.astrosticks.t2")); m_Controls->m_AstrosticksWidget1->SetRandomizeSticks(v1.second.get("compartment3.astrosticks.randomize")); m_Controls->m_DotWidget1->SetT2(v1.second.get("compartment3.dot.t2")); m_Controls->m_BallWidget2->SetD(v1.second.get("compartment4.ball.d")); m_Controls->m_BallWidget2->SetT2(v1.second.get("compartment4.ball.t2")); m_Controls->m_AstrosticksWidget2->SetD(v1.second.get("compartment4.astrosticks.d")); m_Controls->m_AstrosticksWidget2->SetT2(v1.second.get("compartment4.astrosticks.t2")); m_Controls->m_AstrosticksWidget2->SetRandomizeSticks(v1.second.get("compartment4.astrosticks.randomize")); m_Controls->m_DotWidget2->SetT2(v1.second.get("compartment4.dot.t2")); m_Controls->m_Comp4FractionBox->setValue(v1.second.get("compartment4.weight")); } } UpdateImageParameters(); } void QmitkFiberfoxView::ShowAdvancedOptions(int state) { if (state) { m_Controls->m_AdvancedFiberOptionsFrame->setVisible(true); m_Controls->m_AdvancedSignalOptionsFrame->setVisible(true); m_Controls->m_AdvancedOptionsBox->setChecked(true); m_Controls->m_AdvancedOptionsBox_2->setChecked(true); } else { m_Controls->m_AdvancedFiberOptionsFrame->setVisible(false); m_Controls->m_AdvancedSignalOptionsFrame->setVisible(false); m_Controls->m_AdvancedOptionsBox->setChecked(false); m_Controls->m_AdvancedOptionsBox_2->setChecked(false); } } void QmitkFiberfoxView::Comp1ModelFrameVisibility(int index) { m_Controls->m_StickWidget1->setVisible(false); m_Controls->m_ZeppelinWidget1->setVisible(false); m_Controls->m_TensorWidget1->setVisible(false); switch (index) { case 0: m_Controls->m_StickWidget1->setVisible(true); break; case 1: m_Controls->m_ZeppelinWidget1->setVisible(true); break; case 2: m_Controls->m_TensorWidget1->setVisible(true); break; } } void QmitkFiberfoxView::Comp2ModelFrameVisibility(int index) { m_Controls->m_StickWidget2->setVisible(false); m_Controls->m_ZeppelinWidget2->setVisible(false); m_Controls->m_TensorWidget2->setVisible(false); switch (index) { case 0: break; case 1: m_Controls->m_StickWidget2->setVisible(true); break; case 2: m_Controls->m_ZeppelinWidget2->setVisible(true); break; case 3: m_Controls->m_TensorWidget2->setVisible(true); break; } } void QmitkFiberfoxView::Comp3ModelFrameVisibility(int index) { m_Controls->m_BallWidget1->setVisible(false); m_Controls->m_AstrosticksWidget1->setVisible(false); m_Controls->m_DotWidget1->setVisible(false); switch (index) { case 0: m_Controls->m_BallWidget1->setVisible(true); break; case 1: m_Controls->m_AstrosticksWidget1->setVisible(true); break; case 2: m_Controls->m_DotWidget1->setVisible(true); break; } } void QmitkFiberfoxView::Comp4ModelFrameVisibility(int index) { m_Controls->m_BallWidget2->setVisible(false); m_Controls->m_AstrosticksWidget2->setVisible(false); m_Controls->m_DotWidget2->setVisible(false); m_Controls->m_Comp4FractionFrame->setVisible(false); switch (index) { case 0: break; case 1: m_Controls->m_BallWidget2->setVisible(true); m_Controls->m_Comp4FractionFrame->setVisible(true); break; case 2: m_Controls->m_AstrosticksWidget2->setVisible(true); m_Controls->m_Comp4FractionFrame->setVisible(true); break; case 3: m_Controls->m_DotWidget2->setVisible(true); m_Controls->m_Comp4FractionFrame->setVisible(true); break; } } void QmitkFiberfoxView::OnConstantRadius(int value) { if (value>0 && m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnAddEddy(int value) { if (value>0) m_Controls->m_EddyFrame->setVisible(true); else m_Controls->m_EddyFrame->setVisible(false); } void QmitkFiberfoxView::OnAddDistortions(int value) { if (value>0) m_Controls->m_DistortionsFrame->setVisible(true); else m_Controls->m_DistortionsFrame->setVisible(false); } void QmitkFiberfoxView::OnAddGhosts(int value) { if (value>0) m_Controls->m_GhostFrame->setVisible(true); else m_Controls->m_GhostFrame->setVisible(false); } void QmitkFiberfoxView::OnAddNoise(int value) { if (value>0) m_Controls->m_NoiseFrame->setVisible(true); else m_Controls->m_NoiseFrame->setVisible(false); } void QmitkFiberfoxView::OnAddGibbsRinging(int value) { if (value>0) m_Controls->m_GibbsRingingFrame->setVisible(true); else m_Controls->m_GibbsRingingFrame->setVisible(false); } void QmitkFiberfoxView::OnDistributionChanged(int value) { if (value==1) m_Controls->m_VarianceBox->setVisible(true); else m_Controls->m_VarianceBox->setVisible(false); if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnVarianceChanged(double value) { if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnFiberDensityChanged(int value) { if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnFiberSamplingChanged(double value) { if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnTensionChanged(double value) { if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnContinuityChanged(double value) { if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnBiasChanged(double value) { if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::AlignOnGrid() { for (int i=0; i(m_SelectedFiducials.at(i)->GetData()); mitk::Point3D wc0 = pe->GetWorldControlPoint(0); mitk::DataStorage::SetOfObjects::ConstPointer parentFibs = GetDataStorage()->GetSources(m_SelectedFiducials.at(i)); for( mitk::DataStorage::SetOfObjects::const_iterator it = parentFibs->begin(); it != parentFibs->end(); ++it ) { mitk::DataNode::Pointer pFibNode = *it; if ( pFibNode.IsNotNull() && dynamic_cast(pFibNode->GetData()) ) { mitk::DataStorage::SetOfObjects::ConstPointer parentImgs = GetDataStorage()->GetSources(pFibNode); for( mitk::DataStorage::SetOfObjects::const_iterator it2 = parentImgs->begin(); it2 != parentImgs->end(); ++it2 ) { mitk::DataNode::Pointer pImgNode = *it2; if ( pImgNode.IsNotNull() && dynamic_cast(pImgNode->GetData()) ) { mitk::Image::Pointer img = dynamic_cast(pImgNode->GetData()); mitk::Geometry3D::Pointer geom = img->GetGeometry(); itk::Index<3> idx; geom->WorldToIndex(wc0, idx); mitk::Point3D cIdx; cIdx[0]=idx[0]; cIdx[1]=idx[1]; cIdx[2]=idx[2]; mitk::Point3D world; geom->IndexToWorld(cIdx,world); mitk::Vector3D trans = world - wc0; pe->GetGeometry()->Translate(trans); break; } } break; } } } for( int i=0; iGetSources(fibNode); for( mitk::DataStorage::SetOfObjects::const_iterator it = sources->begin(); it != sources->end(); ++it ) { mitk::DataNode::Pointer imgNode = *it; if ( imgNode.IsNotNull() && dynamic_cast(imgNode->GetData()) ) { mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(fibNode); for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations->begin(); it2 != derivations->end(); ++it2 ) { mitk::DataNode::Pointer fiducialNode = *it2; if ( fiducialNode.IsNotNull() && dynamic_cast(fiducialNode->GetData()) ) { mitk::PlanarEllipse::Pointer pe = dynamic_cast(fiducialNode->GetData()); mitk::Point3D wc0 = pe->GetWorldControlPoint(0); mitk::Image::Pointer img = dynamic_cast(imgNode->GetData()); mitk::Geometry3D::Pointer geom = img->GetGeometry(); itk::Index<3> idx; geom->WorldToIndex(wc0, idx); mitk::Point3D cIdx; cIdx[0]=idx[0]; cIdx[1]=idx[1]; cIdx[2]=idx[2]; mitk::Point3D world; geom->IndexToWorld(cIdx,world); mitk::Vector3D trans = world - wc0; pe->GetGeometry()->Translate(trans); } } break; } } } for( int i=0; i(m_SelectedImages.at(i)->GetData()); mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(m_SelectedImages.at(i)); for( mitk::DataStorage::SetOfObjects::const_iterator it = derivations->begin(); it != derivations->end(); ++it ) { mitk::DataNode::Pointer fibNode = *it; if ( fibNode.IsNotNull() && dynamic_cast(fibNode->GetData()) ) { mitk::DataStorage::SetOfObjects::ConstPointer derivations2 = GetDataStorage()->GetDerivations(fibNode); for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations2->begin(); it2 != derivations2->end(); ++it2 ) { mitk::DataNode::Pointer fiducialNode = *it2; if ( fiducialNode.IsNotNull() && dynamic_cast(fiducialNode->GetData()) ) { mitk::PlanarEllipse::Pointer pe = dynamic_cast(fiducialNode->GetData()); mitk::Point3D wc0 = pe->GetWorldControlPoint(0); mitk::Geometry3D::Pointer geom = img->GetGeometry(); itk::Index<3> idx; geom->WorldToIndex(wc0, idx); mitk::Point3D cIdx; cIdx[0]=idx[0]; cIdx[1]=idx[1]; cIdx[2]=idx[2]; mitk::Point3D world; geom->IndexToWorld(cIdx,world); mitk::Vector3D trans = world - wc0; pe->GetGeometry()->Translate(trans); } } } } } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::OnFlipButton() { if (m_SelectedFiducial.IsNull()) return; std::map::iterator it = m_DataNodeToPlanarFigureData.find(m_SelectedFiducial.GetPointer()); if( it != m_DataNodeToPlanarFigureData.end() ) { QmitkPlanarFigureData& data = it->second; data.m_Flipped += 1; data.m_Flipped %= 2; } if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } QmitkFiberfoxView::GradientListType QmitkFiberfoxView::GenerateHalfShell(int NPoints) { NPoints *= 2; GradientListType pointshell; int numB0 = NPoints/20; if (numB0==0) numB0=1; GradientType g; g.Fill(0.0); for (int i=0; i theta; theta.set_size(NPoints); vnl_vector phi; phi.set_size(NPoints); double C = sqrt(4*M_PI); phi(0) = 0.0; phi(NPoints-1) = 0.0; for(int i=0; i0 && i std::vector > QmitkFiberfoxView::MakeGradientList() { std::vector > retval; vnl_matrix_fixed* U = itk::PointShell >::DistributePointShell(); // Add 0 vector for B0 int numB0 = ndirs/10; if (numB0==0) numB0=1; itk::Vector v; v.Fill(0.0); for (int i=0; i v; v[0] = U->get(0,i); v[1] = U->get(1,i); v[2] = U->get(2,i); retval.push_back(v); } return retval; } void QmitkFiberfoxView::OnAddBundle() { if (m_SelectedImage.IsNull()) return; mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedImage); mitk::FiberBundleX::Pointer bundle = mitk::FiberBundleX::New(); mitk::DataNode::Pointer node = mitk::DataNode::New(); node->SetData( bundle ); QString name = QString("Bundle_%1").arg(children->size()); node->SetName(name.toStdString()); m_SelectedBundles.push_back(node); UpdateGui(); GetDataStorage()->Add(node, m_SelectedImage); } void QmitkFiberfoxView::OnDrawROI() { if (m_SelectedBundles.empty()) OnAddBundle(); if (m_SelectedBundles.empty()) return; mitk::DataStorage::SetOfObjects::ConstPointer children = GetDataStorage()->GetDerivations(m_SelectedBundles.at(0)); mitk::PlanarEllipse::Pointer figure = mitk::PlanarEllipse::New(); mitk::DataNode::Pointer node = mitk::DataNode::New(); node->SetData( figure ); QList nodes = this->GetDataManagerSelection(); for( int i=0; iSetSelected(false); m_SelectedFiducial = node; QString name = QString("Fiducial_%1").arg(children->size()); node->SetName(name.toStdString()); node->SetSelected(true); GetDataStorage()->Add(node, m_SelectedBundles.at(0)); this->DisableCrosshairNavigation(); mitk::PlanarFigureInteractor::Pointer figureInteractor = dynamic_cast(node->GetInteractor()); if(figureInteractor.IsNull()) figureInteractor = mitk::PlanarFigureInteractor::New("PlanarFigureInteractor", node); mitk::GlobalInteraction::GetInstance()->AddInteractor(figureInteractor); UpdateGui(); } bool CompareLayer(mitk::DataNode::Pointer i,mitk::DataNode::Pointer j) { int li = -1; i->GetPropertyValue("layer", li); int lj = -1; j->GetPropertyValue("layer", lj); return liGetSources(m_SelectedFiducial); for( mitk::DataStorage::SetOfObjects::const_iterator it = parents->begin(); it != parents->end(); ++it ) if(dynamic_cast((*it)->GetData())) m_SelectedBundles.push_back(*it); if (m_SelectedBundles.empty()) return; } vector< vector< mitk::PlanarEllipse::Pointer > > fiducials; vector< vector< unsigned int > > fliplist; for (int i=0; iGetDerivations(m_SelectedBundles.at(i)); std::vector< mitk::DataNode::Pointer > childVector; for( mitk::DataStorage::SetOfObjects::const_iterator it = children->begin(); it != children->end(); ++it ) childVector.push_back(*it); sort(childVector.begin(), childVector.end(), CompareLayer); vector< mitk::PlanarEllipse::Pointer > fib; vector< unsigned int > flip; float radius = 1; int count = 0; for( std::vector< mitk::DataNode::Pointer >::const_iterator it = childVector.begin(); it != childVector.end(); ++it ) { mitk::DataNode::Pointer node = *it; if ( node.IsNotNull() && dynamic_cast(node->GetData()) ) { mitk::PlanarEllipse* ellipse = dynamic_cast(node->GetData()); if (m_Controls->m_ConstantRadiusBox->isChecked()) { ellipse->SetTreatAsCircle(true); mitk::Point2D c = ellipse->GetControlPoint(0); mitk::Point2D p = ellipse->GetControlPoint(1); mitk::Vector2D v = p-c; if (count==0) { radius = v.GetVnlVector().magnitude(); ellipse->SetControlPoint(1, p); } else { v.Normalize(); v *= radius; ellipse->SetControlPoint(1, c+v); } } fib.push_back(ellipse); std::map::iterator it = m_DataNodeToPlanarFigureData.find(node.GetPointer()); if( it != m_DataNodeToPlanarFigureData.end() ) { QmitkPlanarFigureData& data = it->second; flip.push_back(data.m_Flipped); } else flip.push_back(0); } count++; } if (fib.size()>1) { fiducials.push_back(fib); fliplist.push_back(flip); } else if (fib.size()>0) m_SelectedBundles.at(i)->SetData( mitk::FiberBundleX::New() ); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } itk::FibersFromPlanarFiguresFilter::Pointer filter = itk::FibersFromPlanarFiguresFilter::New(); filter->SetFiducials(fiducials); filter->SetFlipList(fliplist); switch(m_Controls->m_DistributionBox->currentIndex()){ case 0: filter->SetFiberDistribution(itk::FibersFromPlanarFiguresFilter::DISTRIBUTE_UNIFORM); break; case 1: filter->SetFiberDistribution(itk::FibersFromPlanarFiguresFilter::DISTRIBUTE_GAUSSIAN); filter->SetVariance(m_Controls->m_VarianceBox->value()); break; } filter->SetDensity(m_Controls->m_FiberDensityBox->value()); filter->SetTension(m_Controls->m_TensionBox->value()); filter->SetContinuity(m_Controls->m_ContinuityBox->value()); filter->SetBias(m_Controls->m_BiasBox->value()); filter->SetFiberSampling(m_Controls->m_FiberSamplingBox->value()); filter->Update(); vector< mitk::FiberBundleX::Pointer > fiberBundles = filter->GetFiberBundles(); for (int i=0; iSetData( fiberBundles.at(i) ); if (fiberBundles.at(i)->GetNumFibers()>50000) m_SelectedBundles.at(i)->SetVisibility(false); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkFiberfoxView::GenerateImage() { UpdateImageParameters(); if (m_SelectedBundles.empty()) { if (m_SelectedDWI.IsNotNull()) // add artifacts to existing diffusion weighted image { for (int i=0; i*>(m_SelectedImages.at(i)->GetData())) continue; m_SelectedDWI = m_SelectedImages.at(i); UpdateImageParameters(); mitk::DiffusionImage::Pointer diffImg = dynamic_cast*>(m_SelectedImages.at(i)->GetData()); mitk::RicianNoiseModel noiseModel; noiseModel.SetNoiseVariance(m_ImageGenParameters.ricianNoiseModel.GetNoiseVariance()); itk::AddArtifactsToDwiImageFilter< short >::Pointer filter = itk::AddArtifactsToDwiImageFilter< short >::New(); filter->SetInput(diffImg->GetVectorImage()); filter->SettLine(m_ImageGenParameters.tLine); filter->SetkOffset(m_ImageGenParameters.kspaceLineOffset); filter->SetNoiseModel(&noiseModel); filter->SetGradientList(m_ImageGenParameters.gradientDirections); filter->SetTE(m_ImageGenParameters.tEcho); filter->SetSimulateEddyCurrents(m_ImageGenParameters.doSimulateEddyCurrents); filter->SetEddyGradientStrength(m_ImageGenParameters.eddyStrength); filter->SetUpsampling(m_ImageGenParameters.upsampling); filter->SetFrequencyMap(m_ImageGenParameters.frequencyMap); filter->Update(); mitk::DiffusionImage::Pointer image = mitk::DiffusionImage::New(); image->SetVectorImage( filter->GetOutput() ); image->SetB_Value(diffImg->GetB_Value()); image->SetDirections(diffImg->GetDirections()); image->InitializeFromVectorImage(); m_ImageGenParameters.resultNode->SetData( image ); m_ImageGenParameters.resultNode->SetName(m_SelectedImages.at(i)->GetName()+m_ImageGenParameters.artifactModelString.toStdString()); GetDataStorage()->Add(m_ImageGenParameters.resultNode); } m_SelectedDWI = m_SelectedImages.front(); return; } mitk::Image::Pointer image = mitk::ImageGenerator::GenerateGradientImage( m_Controls->m_SizeX->value(), m_Controls->m_SizeY->value(), m_Controls->m_SizeZ->value(), m_Controls->m_SpacingX->value(), m_Controls->m_SpacingY->value(), m_Controls->m_SpacingZ->value()); mitk::Geometry3D* geom = image->GetGeometry(); geom->SetOrigin(m_ImageGenParameters.imageOrigin); mitk::DataNode::Pointer node = mitk::DataNode::New(); node->SetData( image ); node->SetName("Dummy"); unsigned int window = m_Controls->m_SizeX->value()*m_Controls->m_SizeY->value()*m_Controls->m_SizeZ->value(); unsigned int level = window/2; mitk::LevelWindow lw; lw.SetLevelWindow(level, window); node->SetProperty( "levelwindow", mitk::LevelWindowProperty::New( lw ) ); GetDataStorage()->Add(node); m_SelectedImage = node; mitk::BaseData::Pointer basedata = node->GetData(); if (basedata.IsNotNull()) { mitk::RenderingManager::GetInstance()->InitializeViews( basedata->GetTimeSlicedGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true ); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } UpdateGui(); return; } for (int i=0; i(m_SelectedBundles.at(i)->GetData()); if (fiberBundle->GetNumFibers()<=0) continue; itk::TractsToDWIImageFilter< short >::Pointer tractsToDwiFilter = itk::TractsToDWIImageFilter< short >::New(); tractsToDwiFilter->SetSimulateEddyCurrents(m_ImageGenParameters.doSimulateEddyCurrents); tractsToDwiFilter->SetEddyGradientStrength(m_ImageGenParameters.eddyStrength); tractsToDwiFilter->SetUpsampling(m_ImageGenParameters.upsampling); tractsToDwiFilter->SetSimulateRelaxation(m_ImageGenParameters.doSimulateRelaxation); tractsToDwiFilter->SetImageRegion(m_ImageGenParameters.imageRegion); tractsToDwiFilter->SetSpacing(m_ImageGenParameters.imageSpacing); tractsToDwiFilter->SetOrigin(m_ImageGenParameters.imageOrigin); tractsToDwiFilter->SetDirectionMatrix(m_ImageGenParameters.imageDirection); tractsToDwiFilter->SetFiberBundle(fiberBundle); tractsToDwiFilter->SetFiberModels(m_ImageGenParameters.fiberModelList); tractsToDwiFilter->SetNonFiberModels(m_ImageGenParameters.nonFiberModelList); tractsToDwiFilter->SetNoiseModel(&m_ImageGenParameters.ricianNoiseModel); tractsToDwiFilter->SetKspaceArtifacts(m_ImageGenParameters.artifactList); tractsToDwiFilter->SetkOffset(m_ImageGenParameters.kspaceLineOffset); tractsToDwiFilter->SettLine(m_ImageGenParameters.tLine); tractsToDwiFilter->SettInhom(m_ImageGenParameters.tInhom); tractsToDwiFilter->SetTE(m_ImageGenParameters.tEcho); tractsToDwiFilter->SetNumberOfRepetitions(m_ImageGenParameters.repetitions); tractsToDwiFilter->SetEnforcePureFiberVoxels(m_ImageGenParameters.doDisablePartialVolume); tractsToDwiFilter->SetInterpolationShrink(m_ImageGenParameters.interpolationShrink); tractsToDwiFilter->SetFiberRadius(m_ImageGenParameters.axonRadius); tractsToDwiFilter->SetSignalScale(m_ImageGenParameters.signalScale); if (m_ImageGenParameters.interpolationShrink) tractsToDwiFilter->SetUseInterpolation(true); tractsToDwiFilter->SetTissueMask(m_ImageGenParameters.tissueMaskImage); tractsToDwiFilter->SetFrequencyMap(m_ImageGenParameters.frequencyMap); tractsToDwiFilter->Update(); mitk::DiffusionImage::Pointer image = mitk::DiffusionImage::New(); image->SetVectorImage( tractsToDwiFilter->GetOutput() ); image->SetB_Value(m_ImageGenParameters.b_value); image->SetDirections(m_ImageGenParameters.gradientDirections); image->InitializeFromVectorImage(); m_ImageGenParameters.resultNode->SetData( image ); m_ImageGenParameters.resultNode->SetName(m_SelectedBundles.at(i)->GetName() +"_D"+QString::number(m_ImageGenParameters.imageRegion.GetSize(0)).toStdString() +"-"+QString::number(m_ImageGenParameters.imageRegion.GetSize(1)).toStdString() +"-"+QString::number(m_ImageGenParameters.imageRegion.GetSize(2)).toStdString() +"_S"+QString::number(m_ImageGenParameters.imageSpacing[0]).toStdString() +"-"+QString::number(m_ImageGenParameters.imageSpacing[1]).toStdString() +"-"+QString::number(m_ImageGenParameters.imageSpacing[2]).toStdString() +"_b"+QString::number(m_ImageGenParameters.b_value).toStdString() +"_"+m_ImageGenParameters.signalModelString.toStdString() +m_ImageGenParameters.artifactModelString.toStdString()); GetDataStorage()->Add(m_ImageGenParameters.resultNode, m_SelectedBundles.at(i)); m_ImageGenParameters.resultNode->SetProperty( "levelwindow", mitk::LevelWindowProperty::New(tractsToDwiFilter->GetLevelWindow()) ); if (m_Controls->m_VolumeFractionsBox->isChecked()) { std::vector< itk::TractsToDWIImageFilter< short >::ItkDoubleImgType::Pointer > volumeFractions = tractsToDwiFilter->GetVolumeFractions(); for (int k=0; kInitializeByItk(volumeFractions.at(k).GetPointer()); image->SetVolume(volumeFractions.at(k)->GetBufferPointer()); mitk::DataNode::Pointer node = mitk::DataNode::New(); node->SetData( image ); node->SetName(m_SelectedBundles.at(i)->GetName()+"_CompartmentVolume-"+QString::number(k).toStdString()); GetDataStorage()->Add(node, m_SelectedBundles.at(i)); } } mitk::BaseData::Pointer basedata = m_ImageGenParameters.resultNode->GetData(); if (basedata.IsNotNull()) { mitk::RenderingManager::GetInstance()->InitializeViews( basedata->GetTimeSlicedGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true ); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } } void QmitkFiberfoxView::ApplyTransform() { vector< mitk::DataNode::Pointer > selectedBundles; for( int i=0; iGetDerivations(m_SelectedImages.at(i)); for( mitk::DataStorage::SetOfObjects::const_iterator it = derivations->begin(); it != derivations->end(); ++it ) { mitk::DataNode::Pointer fibNode = *it; if ( fibNode.IsNotNull() && dynamic_cast(fibNode->GetData()) ) selectedBundles.push_back(fibNode); } } if (selectedBundles.empty()) selectedBundles = m_SelectedBundles2; if (!selectedBundles.empty()) { std::vector::const_iterator it = selectedBundles.begin(); for (it; it!=selectedBundles.end(); ++it) { mitk::FiberBundleX::Pointer fib = dynamic_cast((*it)->GetData()); fib->RotateAroundAxis(m_Controls->m_XrotBox->value(), m_Controls->m_YrotBox->value(), m_Controls->m_ZrotBox->value()); fib->TranslateFibers(m_Controls->m_XtransBox->value(), m_Controls->m_YtransBox->value(), m_Controls->m_ZtransBox->value()); fib->ScaleFibers(m_Controls->m_XscaleBox->value(), m_Controls->m_YscaleBox->value(), m_Controls->m_ZscaleBox->value()); // handle child fiducials if (m_Controls->m_IncludeFiducials->isChecked()) { mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(*it); for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations->begin(); it2 != derivations->end(); ++it2 ) { mitk::DataNode::Pointer fiducialNode = *it2; if ( fiducialNode.IsNotNull() && dynamic_cast(fiducialNode->GetData()) ) { mitk::PlanarEllipse* pe = dynamic_cast(fiducialNode->GetData()); mitk::Geometry3D* geom = pe->GetGeometry(); // translate mitk::Vector3D world; world[0] = m_Controls->m_XtransBox->value(); world[1] = m_Controls->m_YtransBox->value(); world[2] = m_Controls->m_ZtransBox->value(); geom->Translate(world); // calculate rotation matrix double x = m_Controls->m_XrotBox->value()*M_PI/180; double y = m_Controls->m_YrotBox->value()*M_PI/180; double z = m_Controls->m_ZrotBox->value()*M_PI/180; itk::Matrix< float, 3, 3 > rotX; rotX.SetIdentity(); rotX[1][1] = cos(x); rotX[2][2] = rotX[1][1]; rotX[1][2] = -sin(x); rotX[2][1] = -rotX[1][2]; itk::Matrix< float, 3, 3 > rotY; rotY.SetIdentity(); rotY[0][0] = cos(y); rotY[2][2] = rotY[0][0]; rotY[0][2] = sin(y); rotY[2][0] = -rotY[0][2]; itk::Matrix< float, 3, 3 > rotZ; rotZ.SetIdentity(); rotZ[0][0] = cos(z); rotZ[1][1] = rotZ[0][0]; rotZ[0][1] = -sin(z); rotZ[1][0] = -rotZ[0][1]; itk::Matrix< float, 3, 3 > rot = rotZ*rotY*rotX; // transform control point coordinate into geometry translation geom->SetOrigin(pe->GetWorldControlPoint(0)); mitk::Point2D cp; cp.Fill(0.0); pe->SetControlPoint(0, cp); // rotate fiducial geom->GetIndexToWorldTransform()->SetMatrix(rot*geom->GetIndexToWorldTransform()->GetMatrix()); // implicit translation mitk::Vector3D trans; trans[0] = geom->GetOrigin()[0]-fib->GetGeometry()->GetCenter()[0]; trans[1] = geom->GetOrigin()[1]-fib->GetGeometry()->GetCenter()[1]; trans[2] = geom->GetOrigin()[2]-fib->GetGeometry()->GetCenter()[2]; mitk::Vector3D newWc = rot*trans; newWc = newWc-trans; geom->Translate(newWc); } } } } } else { for (int i=0; i(m_SelectedFiducials.at(i)->GetData()); mitk::Geometry3D* geom = pe->GetGeometry(); // translate mitk::Vector3D world; world[0] = m_Controls->m_XtransBox->value(); world[1] = m_Controls->m_YtransBox->value(); world[2] = m_Controls->m_ZtransBox->value(); geom->Translate(world); // calculate rotation matrix double x = m_Controls->m_XrotBox->value()*M_PI/180; double y = m_Controls->m_YrotBox->value()*M_PI/180; double z = m_Controls->m_ZrotBox->value()*M_PI/180; itk::Matrix< float, 3, 3 > rotX; rotX.SetIdentity(); rotX[1][1] = cos(x); rotX[2][2] = rotX[1][1]; rotX[1][2] = -sin(x); rotX[2][1] = -rotX[1][2]; itk::Matrix< float, 3, 3 > rotY; rotY.SetIdentity(); rotY[0][0] = cos(y); rotY[2][2] = rotY[0][0]; rotY[0][2] = sin(y); rotY[2][0] = -rotY[0][2]; itk::Matrix< float, 3, 3 > rotZ; rotZ.SetIdentity(); rotZ[0][0] = cos(z); rotZ[1][1] = rotZ[0][0]; rotZ[0][1] = -sin(z); rotZ[1][0] = -rotZ[0][1]; itk::Matrix< float, 3, 3 > rot = rotZ*rotY*rotX; // transform control point coordinate into geometry translation geom->SetOrigin(pe->GetWorldControlPoint(0)); mitk::Point2D cp; cp.Fill(0.0); pe->SetControlPoint(0, cp); // rotate fiducial geom->GetIndexToWorldTransform()->SetMatrix(rot*geom->GetIndexToWorldTransform()->GetMatrix()); } if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkFiberfoxView::CopyBundles() { if ( m_SelectedBundles.size()<1 ){ QMessageBox::information( NULL, "Warning", "Select at least one fiber bundle!"); MITK_WARN("QmitkFiberProcessingView") << "Select at least one fiber bundle!"; return; } std::vector::const_iterator it = m_SelectedBundles.begin(); for (it; it!=m_SelectedBundles.end(); ++it) { // find parent image mitk::DataNode::Pointer parentNode; mitk::DataStorage::SetOfObjects::ConstPointer parentImgs = GetDataStorage()->GetSources(*it); for( mitk::DataStorage::SetOfObjects::const_iterator it2 = parentImgs->begin(); it2 != parentImgs->end(); ++it2 ) { mitk::DataNode::Pointer pImgNode = *it2; if ( pImgNode.IsNotNull() && dynamic_cast(pImgNode->GetData()) ) { parentNode = pImgNode; break; } } mitk::FiberBundleX::Pointer fib = dynamic_cast((*it)->GetData()); mitk::FiberBundleX::Pointer newBundle = fib->GetDeepCopy(); QString name((*it)->GetName().c_str()); name += "_copy"; mitk::DataNode::Pointer fbNode = mitk::DataNode::New(); fbNode->SetData(newBundle); fbNode->SetName(name.toStdString()); fbNode->SetVisibility(true); if (parentNode.IsNotNull()) GetDataStorage()->Add(fbNode, parentNode); else GetDataStorage()->Add(fbNode); // copy child fiducials if (m_Controls->m_IncludeFiducials->isChecked()) { mitk::DataStorage::SetOfObjects::ConstPointer derivations = GetDataStorage()->GetDerivations(*it); for( mitk::DataStorage::SetOfObjects::const_iterator it2 = derivations->begin(); it2 != derivations->end(); ++it2 ) { mitk::DataNode::Pointer fiducialNode = *it2; if ( fiducialNode.IsNotNull() && dynamic_cast(fiducialNode->GetData()) ) { mitk::PlanarEllipse::Pointer pe = mitk::PlanarEllipse::New(); pe->DeepCopy(dynamic_cast(fiducialNode->GetData())); mitk::DataNode::Pointer newNode = mitk::DataNode::New(); newNode->SetData(pe); newNode->SetName(fiducialNode->GetName()); GetDataStorage()->Add(newNode, fbNode); } } } } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkFiberfoxView::JoinBundles() { if ( m_SelectedBundles.size()<2 ){ QMessageBox::information( NULL, "Warning", "Select at least two fiber bundles!"); MITK_WARN("QmitkFiberProcessingView") << "Select at least two fiber bundles!"; return; } std::vector::const_iterator it = m_SelectedBundles.begin(); mitk::FiberBundleX::Pointer newBundle = dynamic_cast((*it)->GetData()); QString name(""); name += QString((*it)->GetName().c_str()); ++it; for (it; it!=m_SelectedBundles.end(); ++it) { newBundle = newBundle->AddBundle(dynamic_cast((*it)->GetData())); name += "+"+QString((*it)->GetName().c_str()); } mitk::DataNode::Pointer fbNode = mitk::DataNode::New(); fbNode->SetData(newBundle); fbNode->SetName(name.toStdString()); fbNode->SetVisibility(true); GetDataStorage()->Add(fbNode); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkFiberfoxView::UpdateGui() { m_Controls->m_FiberBundleLabel->setText("mandatory"); m_Controls->m_GeometryFrame->setEnabled(true); m_Controls->m_GeometryMessage->setVisible(false); m_Controls->m_DiffusionPropsMessage->setVisible(false); m_Controls->m_FiberGenMessage->setVisible(true); m_Controls->m_TransformBundlesButton->setEnabled(false); m_Controls->m_CopyBundlesButton->setEnabled(false); m_Controls->m_GenerateFibersButton->setEnabled(false); m_Controls->m_FlipButton->setEnabled(false); m_Controls->m_CircleButton->setEnabled(false); m_Controls->m_BvalueBox->setEnabled(true); m_Controls->m_NumGradientsBox->setEnabled(true); m_Controls->m_JoinBundlesButton->setEnabled(false); m_Controls->m_AlignOnGrid->setEnabled(false); if (m_SelectedFiducial.IsNotNull()) { m_Controls->m_TransformBundlesButton->setEnabled(true); m_Controls->m_FlipButton->setEnabled(true); m_Controls->m_AlignOnGrid->setEnabled(true); } if (m_SelectedImage.IsNotNull() || !m_SelectedBundles.empty()) { m_Controls->m_TransformBundlesButton->setEnabled(true); m_Controls->m_CircleButton->setEnabled(true); m_Controls->m_FiberGenMessage->setVisible(false); m_Controls->m_AlignOnGrid->setEnabled(true); } if (m_TissueMask.IsNotNull() || m_SelectedImage.IsNotNull()) { m_Controls->m_GeometryMessage->setVisible(true); m_Controls->m_GeometryFrame->setEnabled(false); } if (m_SelectedDWI.IsNotNull()) { m_Controls->m_DiffusionPropsMessage->setVisible(true); m_Controls->m_BvalueBox->setEnabled(false); m_Controls->m_NumGradientsBox->setEnabled(false); m_Controls->m_GeometryMessage->setVisible(true); m_Controls->m_GeometryFrame->setEnabled(false); } if (!m_SelectedBundles.empty()) { m_Controls->m_CopyBundlesButton->setEnabled(true); m_Controls->m_GenerateFibersButton->setEnabled(true); m_Controls->m_FiberBundleLabel->setText(m_SelectedBundles.at(0)->GetName().c_str()); if (m_SelectedBundles.size()>1) m_Controls->m_JoinBundlesButton->setEnabled(true); } } void QmitkFiberfoxView::OnSelectionChanged( berry::IWorkbenchPart::Pointer, const QList& nodes ) { m_SelectedBundles2.clear(); m_SelectedImages.clear(); m_SelectedFiducials.clear(); m_SelectedFiducial = NULL; m_TissueMask = NULL; m_SelectedBundles.clear(); m_SelectedImage = NULL; m_SelectedDWI = NULL; m_Controls->m_TissueMaskLabel->setText("optional"); // iterate all selected objects, adjust warning visibility for( int i=0; i*>(node->GetData()) ) { m_SelectedDWI = node; m_SelectedImage = node; m_SelectedImages.push_back(node); } else if( node.IsNotNull() && dynamic_cast(node->GetData()) ) { m_SelectedImages.push_back(node); m_SelectedImage = node; bool isBinary = false; node->GetPropertyValue("binary", isBinary); if (isBinary) { m_TissueMask = dynamic_cast(node->GetData()); m_Controls->m_TissueMaskLabel->setText(node->GetName().c_str()); } } else if ( node.IsNotNull() && dynamic_cast(node->GetData()) ) { m_SelectedBundles2.push_back(node); if (m_Controls->m_RealTimeFibers->isChecked()) { m_SelectedBundles.push_back(node); mitk::FiberBundleX::Pointer newFib = dynamic_cast(node->GetData()); if (newFib->GetNumFibers()!=m_Controls->m_FiberDensityBox->value()) GenerateFibers(); } else m_SelectedBundles.push_back(node); } else if ( node.IsNotNull() && dynamic_cast(node->GetData()) ) { m_SelectedFiducials.push_back(node); m_SelectedFiducial = node; m_SelectedBundles.clear(); mitk::DataStorage::SetOfObjects::ConstPointer parents = GetDataStorage()->GetSources(node); for( mitk::DataStorage::SetOfObjects::const_iterator it = parents->begin(); it != parents->end(); ++it ) { mitk::DataNode::Pointer pNode = *it; if ( pNode.IsNotNull() && dynamic_cast(pNode->GetData()) ) m_SelectedBundles.push_back(pNode); } } } UpdateGui(); } void QmitkFiberfoxView::EnableCrosshairNavigation() { MITK_DEBUG << "EnableCrosshairNavigation"; // enable the crosshair navigation if (mitk::ILinkedRenderWindowPart* linkedRenderWindow = dynamic_cast(this->GetRenderWindowPart())) { MITK_DEBUG << "enabling linked navigation"; linkedRenderWindow->EnableLinkedNavigation(true); // linkedRenderWindow->EnableSlicingPlanes(true); } if (m_Controls->m_RealTimeFibers->isChecked()) GenerateFibers(); } void QmitkFiberfoxView::DisableCrosshairNavigation() { MITK_DEBUG << "DisableCrosshairNavigation"; // disable the crosshair navigation during the drawing if (mitk::ILinkedRenderWindowPart* linkedRenderWindow = dynamic_cast(this->GetRenderWindowPart())) { MITK_DEBUG << "disabling linked navigation"; linkedRenderWindow->EnableLinkedNavigation(false); // linkedRenderWindow->EnableSlicingPlanes(false); } } void QmitkFiberfoxView::NodeRemoved(const mitk::DataNode* node) { mitk::DataNode* nonConstNode = const_cast(node); std::map::iterator it = m_DataNodeToPlanarFigureData.find(nonConstNode); if( it != m_DataNodeToPlanarFigureData.end() ) { QmitkPlanarFigureData& data = it->second; // remove observers data.m_Figure->RemoveObserver( data.m_EndPlacementObserverTag ); data.m_Figure->RemoveObserver( data.m_SelectObserverTag ); data.m_Figure->RemoveObserver( data.m_StartInteractionObserverTag ); data.m_Figure->RemoveObserver( data.m_EndInteractionObserverTag ); m_DataNodeToPlanarFigureData.erase( it ); } } void QmitkFiberfoxView::NodeAdded( const mitk::DataNode* node ) { // add observer for selection in renderwindow mitk::PlanarFigure* figure = dynamic_cast(node->GetData()); bool isPositionMarker (false); node->GetBoolProperty("isContourMarker", isPositionMarker); if( figure && !isPositionMarker ) { MITK_DEBUG << "figure added. will add interactor if needed."; mitk::PlanarFigureInteractor::Pointer figureInteractor = dynamic_cast(node->GetInteractor()); mitk::DataNode* nonConstNode = const_cast( node ); if(figureInteractor.IsNull()) { figureInteractor = mitk::PlanarFigureInteractor::New("PlanarFigureInteractor", nonConstNode); } else { // just to be sure that the interactor is not added twice mitk::GlobalInteraction::GetInstance()->RemoveInteractor(figureInteractor); } MITK_DEBUG << "adding interactor to globalinteraction"; mitk::GlobalInteraction::GetInstance()->AddInteractor(figureInteractor); MITK_DEBUG << "will now add observers for planarfigure"; QmitkPlanarFigureData data; data.m_Figure = figure; // // add observer for event when figure has been placed typedef itk::SimpleMemberCommand< QmitkFiberfoxView > SimpleCommandType; // SimpleCommandType::Pointer initializationCommand = SimpleCommandType::New(); // initializationCommand->SetCallbackFunction( this, &QmitkFiberfoxView::PlanarFigureInitialized ); // data.m_EndPlacementObserverTag = figure->AddObserver( mitk::EndPlacementPlanarFigureEvent(), initializationCommand ); // add observer for event when figure is picked (selected) typedef itk::MemberCommand< QmitkFiberfoxView > MemberCommandType; MemberCommandType::Pointer selectCommand = MemberCommandType::New(); selectCommand->SetCallbackFunction( this, &QmitkFiberfoxView::PlanarFigureSelected ); data.m_SelectObserverTag = figure->AddObserver( mitk::SelectPlanarFigureEvent(), selectCommand ); // add observer for event when interaction with figure starts SimpleCommandType::Pointer startInteractionCommand = SimpleCommandType::New(); startInteractionCommand->SetCallbackFunction( this, &QmitkFiberfoxView::DisableCrosshairNavigation); data.m_StartInteractionObserverTag = figure->AddObserver( mitk::StartInteractionPlanarFigureEvent(), startInteractionCommand ); // add observer for event when interaction with figure starts SimpleCommandType::Pointer endInteractionCommand = SimpleCommandType::New(); endInteractionCommand->SetCallbackFunction( this, &QmitkFiberfoxView::EnableCrosshairNavigation); data.m_EndInteractionObserverTag = figure->AddObserver( mitk::EndInteractionPlanarFigureEvent(), endInteractionCommand ); m_DataNodeToPlanarFigureData[nonConstNode] = data; } } void QmitkFiberfoxView::PlanarFigureSelected( itk::Object* object, const itk::EventObject& ) { mitk::TNodePredicateDataType::Pointer isPf = mitk::TNodePredicateDataType::New(); mitk::DataStorage::SetOfObjects::ConstPointer allPfs = this->GetDataStorage()->GetSubset( isPf ); for ( mitk::DataStorage::SetOfObjects::const_iterator it = allPfs->begin(); it!=allPfs->end(); ++it) { mitk::DataNode* node = *it; if( node->GetData() == object ) { node->SetSelected(true); m_SelectedFiducial = node; } else node->SetSelected(false); } UpdateGui(); this->RequestRenderWindowUpdate(); } void QmitkFiberfoxView::SetFocus() { m_Controls->m_CircleButton->setFocus(); }