diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkControlVisualizationPropertiesView.cpp b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkControlVisualizationPropertiesView.cpp index d376fd0fbe..37a0c4eb32 100644 --- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkControlVisualizationPropertiesView.cpp +++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/internal/QmitkControlVisualizationPropertiesView.cpp @@ -1,1856 +1,1862 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "QmitkControlVisualizationPropertiesView.h" #include "mitkNodePredicateDataType.h" #include "mitkDataNodeObject.h" #include "mitkOdfNormalizationMethodProperty.h" #include "mitkOdfScaleByProperty.h" #include "mitkResliceMethodProperty.h" #include "mitkRenderingManager.h" #include "mitkTbssImage.h" #include "mitkPlanarFigure.h" #include "mitkFiberBundleX.h" #include "QmitkDataStorageComboBox.h" #include "QmitkStdMultiWidget.h" #include "mitkFiberBundleInteractor.h" #include "mitkPlanarFigureInteractor.h" #include #include #include #include #include "mitkGlobalInteraction.h" #include "usModuleRegistry.h" #include "mitkGeometry2D.h" #include "berryIWorkbenchWindow.h" #include "berryIWorkbenchPage.h" #include "berryISelectionService.h" #include "berryConstants.h" #include "berryPlatformUI.h" #include "itkRGBAPixel.h" #include #include "qwidgetaction.h" #include "qcolordialog.h" #include #define ROUND(a) ((a)>0 ? (int)((a)+0.5) : -(int)(0.5-(a))) static bool DetermineAffectedImageSlice( const mitk::Image* image, const mitk::PlaneGeometry* plane, int& affectedDimension, int& affectedSlice ) { assert(image); assert(plane); // compare normal of plane to the three axis vectors of the image mitk::Vector3D normal = plane->GetNormal(); mitk::Vector3D imageNormal0 = image->GetSlicedGeometry()->GetAxisVector(0); mitk::Vector3D imageNormal1 = image->GetSlicedGeometry()->GetAxisVector(1); mitk::Vector3D imageNormal2 = image->GetSlicedGeometry()->GetAxisVector(2); normal.Normalize(); imageNormal0.Normalize(); imageNormal1.Normalize(); imageNormal2.Normalize(); imageNormal0.SetVnlVector( vnl_cross_3d(normal.GetVnlVector(),imageNormal0.GetVnlVector()) ); imageNormal1.SetVnlVector( vnl_cross_3d(normal.GetVnlVector(),imageNormal1.GetVnlVector()) ); imageNormal2.SetVnlVector( vnl_cross_3d(normal.GetVnlVector(),imageNormal2.GetVnlVector()) ); double eps( 0.00001 ); // axial if ( imageNormal2.GetNorm() <= eps ) { affectedDimension = 2; } // sagittal else if ( imageNormal1.GetNorm() <= eps ) { affectedDimension = 1; } // frontal else if ( imageNormal0.GetNorm() <= eps ) { affectedDimension = 0; } else { affectedDimension = -1; // no idea return false; } // determine slice number in image mitk::Geometry3D* imageGeometry = image->GetGeometry(0); mitk::Point3D testPoint = imageGeometry->GetCenter(); mitk::Point3D projectedPoint; plane->Project( testPoint, projectedPoint ); mitk::Point3D indexPoint; imageGeometry->WorldToIndex( projectedPoint, indexPoint ); affectedSlice = ROUND( indexPoint[affectedDimension] ); MITK_DEBUG << "indexPoint " << indexPoint << " affectedDimension " << affectedDimension << " affectedSlice " << affectedSlice; // check if this index is still within the image if ( affectedSlice < 0 || affectedSlice >= static_cast(image->GetDimension(affectedDimension)) ) return false; return true; } const std::string QmitkControlVisualizationPropertiesView::VIEW_ID = "org.mitk.views.controlvisualizationpropertiesview"; using namespace berry; struct CvpSelListener : ISelectionListener { berryObjectMacro(CvpSelListener); CvpSelListener(QmitkControlVisualizationPropertiesView* view) { m_View = view; } void ApplySettings(mitk::DataNode::Pointer node) { bool tex_int; node->GetBoolProperty("texture interpolation", tex_int); if(tex_int) { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexON); m_View->m_Controls->m_TextureIntON->setChecked(true); m_View->m_TexIsOn = true; } else { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexOFF); m_View->m_Controls->m_TextureIntON->setChecked(false); m_View->m_TexIsOn = false; } int val; node->GetIntProperty("ShowMaxNumber", val); m_View->m_Controls->m_ShowMaxNumber->setValue(val); m_View->m_Controls->m_NormalizationDropdown->setCurrentIndex(dynamic_cast(node->GetProperty("Normalization"))->GetValueAsId()); float fval; node->GetFloatProperty("Scaling",fval); m_View->m_Controls->m_ScalingFactor->setValue(fval); m_View->m_Controls->m_AdditionalScaling->setCurrentIndex(dynamic_cast(node->GetProperty("ScaleBy"))->GetValueAsId()); node->GetFloatProperty("IndexParam1",fval); m_View->m_Controls->m_IndexParam1->setValue(fval); node->GetFloatProperty("IndexParam2",fval); m_View->m_Controls->m_IndexParam2->setValue(fval); } void DoSelectionChanged(ISelection::ConstPointer selection) { // save current selection in member variable m_View->m_CurrentSelection = selection.Cast(); m_View->m_Controls->m_VisibleOdfsON_T->setVisible(false); m_View->m_Controls->m_VisibleOdfsON_S->setVisible(false); m_View->m_Controls->m_VisibleOdfsON_C->setVisible(false); m_View->m_Controls->m_TextureIntON->setVisible(false); m_View->m_Controls->m_ImageControlsFrame->setVisible(false); m_View->m_Controls->m_PlanarFigureControlsFrame->setVisible(false); m_View->m_Controls->m_BundleControlsFrame->setVisible(false); m_View->m_SelectedNode = 0; if(m_View->m_CurrentSelection.IsNull()) return; if(m_View->m_CurrentSelection->Size() == 1) { mitk::DataNodeObject::Pointer nodeObj = m_View->m_CurrentSelection->Begin()->Cast(); if(nodeObj.IsNotNull()) { mitk::DataNode::Pointer node = nodeObj->GetDataNode(); // check if node has data, // if some helper nodes are shown in the DataManager, the GetData() returns 0x0 which would lead to SIGSEV mitk::BaseData* nodeData = node->GetData(); if(nodeData != NULL ) { if(dynamic_cast(nodeData) != 0) { m_View->m_Controls->m_PlanarFigureControlsFrame->setVisible(true); m_View->m_SelectedNode = node; float val; node->GetFloatProperty("planarfigure.line.width", val); m_View->m_Controls->m_PFWidth->setValue((int)(val*10.0)); QString label = "Width %1"; label = label.arg(val); m_View->m_Controls->label_pfwidth->setText(label); float color[3]; node->GetColor( color, NULL, "planarfigure.default.line.color"); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color[0]*255.0)); styleSheet.append(","); styleSheet.append(QString::number(color[1]*255.0)); styleSheet.append(","); styleSheet.append(QString::number(color[2]*255.0)); styleSheet.append(")"); m_View->m_Controls->m_PFColor->setAutoFillBackground(true); m_View->m_Controls->m_PFColor->setStyleSheet(styleSheet); node->GetColor( color, NULL, "color"); styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color[0]*255.0)); styleSheet.append(","); styleSheet.append(QString::number(color[1]*255.0)); styleSheet.append(","); styleSheet.append(QString::number(color[2]*255.0)); styleSheet.append(")"); m_View->PlanarFigureFocus(); } if(dynamic_cast(nodeData) != 0) { m_View->m_Controls->m_BundleControlsFrame->setVisible(true); m_View->m_SelectedNode = node; if(m_View->m_CurrentPickingNode != 0 && node.GetPointer() != m_View->m_CurrentPickingNode) { m_View->m_Controls->m_Crosshair->setEnabled(false); } else { m_View->m_Controls->m_Crosshair->setEnabled(true); } float val; node->GetFloatProperty("TubeRadius", val); m_View->m_Controls->m_TubeRadius->setValue((int)(val * 100.0)); QString label = "Radius %1"; label = label.arg(val); m_View->m_Controls->label_tuberadius->setText(label); int width; node->GetIntProperty("LineWidth", width); m_View->m_Controls->m_LineWidth->setValue(width); label = "Width %1"; label = label.arg(width); m_View->m_Controls->label_linewidth->setText(label); float range; node->GetFloatProperty("Fiber2DSliceThickness",range); - label = "Range %1"; - label = label.arg(range*0.1); - m_View->m_Controls->label_range->setText(label); + mitk::FiberBundleX::Pointer fib = dynamic_cast(node->GetData()); + mitk::Geometry3D::Pointer geo = fib->GetGeometry(); + mitk::ScalarType max = geo->GetExtentInMM(0); + max = std::max(max, geo->GetExtentInMM(1)); + max = std::max(max, geo->GetExtentInMM(2)); + + m_View->m_Controls->m_FiberThicknessSlider->setMaximum(max * 10); + + m_View->m_Controls->m_FiberThicknessSlider->setValue(range * 10); } } // check node data != NULL } } if(m_View->m_CurrentSelection->Size() > 0 && m_View->m_SelectedNode == 0) { m_View->m_Controls->m_ImageControlsFrame->setVisible(true); bool foundDiffusionImage = false; bool foundQBIVolume = false; bool foundTensorVolume = false; bool foundImage = false; bool foundMultipleOdfImages = false; bool foundRGBAImage = false; bool foundTbssImage = false; // do something with the selected items if(m_View->m_CurrentSelection) { // iterate selection for (IStructuredSelection::iterator i = m_View->m_CurrentSelection->Begin(); i != m_View->m_CurrentSelection->End(); ++i) { // extract datatree node if (mitk::DataNodeObject::Pointer nodeObj = i->Cast()) { mitk::DataNode::Pointer node = nodeObj->GetDataNode(); mitk::BaseData* nodeData = node->GetData(); if(nodeData != NULL ) { // only look at interesting types if(QString("DiffusionImage").compare(nodeData->GetNameOfClass())==0) { foundDiffusionImage = true; bool tex_int; node->GetBoolProperty("texture interpolation", tex_int); if(tex_int) { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexON); m_View->m_Controls->m_TextureIntON->setChecked(true); m_View->m_TexIsOn = true; } else { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexOFF); m_View->m_Controls->m_TextureIntON->setChecked(false); m_View->m_TexIsOn = false; } int val; node->GetIntProperty("DisplayChannel", val); m_View->m_Controls->m_DisplayIndex->setValue(val); m_View->m_Controls->m_DisplayIndexSpinBox->setValue(val); QString label = "Channel %1"; label = label.arg(val); m_View->m_Controls->label_channel->setText(label); int maxVal = (dynamic_cast* >(nodeData))->GetVectorImage()->GetVectorLength(); m_View->m_Controls->m_DisplayIndex->setMaximum(maxVal-1); m_View->m_Controls->m_DisplayIndexSpinBox->setMaximum(maxVal-1); } if(QString("TbssImage").compare(nodeData->GetNameOfClass())==0) { foundTbssImage = true; bool tex_int; node->GetBoolProperty("texture interpolation", tex_int); if(tex_int) { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexON); m_View->m_Controls->m_TextureIntON->setChecked(true); m_View->m_TexIsOn = true; } else { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexOFF); m_View->m_Controls->m_TextureIntON->setChecked(false); m_View->m_TexIsOn = false; } int val; node->GetIntProperty("DisplayChannel", val); m_View->m_Controls->m_DisplayIndex->setValue(val); m_View->m_Controls->m_DisplayIndexSpinBox->setValue(val); QString label = "Channel %1"; label = label.arg(val); m_View->m_Controls->label_channel->setText(label); int maxVal = (dynamic_cast(nodeData))->GetImage()->GetVectorLength(); m_View->m_Controls->m_DisplayIndex->setMaximum(maxVal-1); m_View->m_Controls->m_DisplayIndexSpinBox->setMaximum(maxVal-1); } else if(QString("QBallImage").compare(nodeData->GetNameOfClass())==0) { foundMultipleOdfImages = foundQBIVolume || foundTensorVolume; foundQBIVolume = true; ApplySettings(node); } else if(QString("TensorImage").compare(nodeData->GetNameOfClass())==0) { foundMultipleOdfImages = foundQBIVolume || foundTensorVolume; foundTensorVolume = true; ApplySettings(node); } else if(QString("Image").compare(nodeData->GetNameOfClass())==0) { foundImage = true; mitk::Image::Pointer img = dynamic_cast(nodeData); if(img.IsNotNull() && img->GetPixelType().GetPixelType() == itk::ImageIOBase::RGBA && img->GetPixelType().GetComponentType() == itk::ImageIOBase::UCHAR ) { foundRGBAImage = true; } bool tex_int; node->GetBoolProperty("texture interpolation", tex_int); if(tex_int) { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexON); m_View->m_Controls->m_TextureIntON->setChecked(true); m_View->m_TexIsOn = true; } else { m_View->m_Controls->m_TextureIntON->setIcon(*m_View->m_IconTexOFF); m_View->m_Controls->m_TextureIntON->setChecked(false); m_View->m_TexIsOn = false; } } } // END CHECK node != NULL } } } m_View->m_FoundSingleOdfImage = (foundQBIVolume || foundTensorVolume) && !foundMultipleOdfImages; m_View->m_Controls->m_NumberGlyphsFrame->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->m_NormalizationDropdown->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->label->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->m_ScalingFactor->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->m_AdditionalScaling->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->m_NormalizationScalingFrame->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->OpacMinFrame->setVisible(foundRGBAImage || m_View->m_FoundSingleOdfImage); // changed for SPIE paper, Principle curvature scaling //m_View->m_Controls->params_frame->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->params_frame->setVisible(false); m_View->m_Controls->m_VisibleOdfsON_T->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->m_VisibleOdfsON_S->setVisible(m_View->m_FoundSingleOdfImage); m_View->m_Controls->m_VisibleOdfsON_C->setVisible(m_View->m_FoundSingleOdfImage); bool foundAnyImage = foundDiffusionImage || foundQBIVolume || foundTensorVolume || foundImage || foundTbssImage; m_View->m_Controls->m_Reinit->setVisible(foundAnyImage); m_View->m_Controls->m_TextureIntON->setVisible(foundAnyImage); m_View->m_Controls->m_TSMenu->setVisible(foundAnyImage); } } void SelectionChanged(IWorkbenchPart::Pointer part, ISelection::ConstPointer selection) { // check, if selection comes from datamanager if (part) { QString partname(part->GetPartName().c_str()); if(partname.compare("Data Manager")==0) { // apply selection DoSelectionChanged(selection); } } } QmitkControlVisualizationPropertiesView* m_View; }; QmitkControlVisualizationPropertiesView::QmitkControlVisualizationPropertiesView() : QmitkFunctionality(), m_Controls(NULL), m_MultiWidget(NULL), m_NodeUsedForOdfVisualization(NULL), m_IconTexOFF(new QIcon(":/QmitkDiffusionImaging/texIntOFFIcon.png")), m_IconTexON(new QIcon(":/QmitkDiffusionImaging/texIntONIcon.png")), m_IconGlyOFF_T(new QIcon(":/QmitkDiffusionImaging/glyphsoff_T.png")), m_IconGlyON_T(new QIcon(":/QmitkDiffusionImaging/glyphson_T.png")), m_IconGlyOFF_C(new QIcon(":/QmitkDiffusionImaging/glyphsoff_C.png")), m_IconGlyON_C(new QIcon(":/QmitkDiffusionImaging/glyphson_C.png")), m_IconGlyOFF_S(new QIcon(":/QmitkDiffusionImaging/glyphsoff_S.png")), m_IconGlyON_S(new QIcon(":/QmitkDiffusionImaging/glyphson_S.png")), m_CurrentSelection(0), m_CurrentPickingNode(0), m_GlyIsOn_S(false), m_GlyIsOn_C(false), m_GlyIsOn_T(false), m_FiberBundleObserverTag(0), m_Color(NULL) { currentThickSlicesMode = 1; m_MyMenu = NULL; int numThread = itk::MultiThreader::GetGlobalMaximumNumberOfThreads(); if (numThread > 12) numThread = 12; itk::MultiThreader::SetGlobalDefaultNumberOfThreads(numThread); } QmitkControlVisualizationPropertiesView::QmitkControlVisualizationPropertiesView(const QmitkControlVisualizationPropertiesView& other) { Q_UNUSED(other) throw std::runtime_error("Copy constructor not implemented"); } QmitkControlVisualizationPropertiesView::~QmitkControlVisualizationPropertiesView() { if(m_SlicesRotationObserverTag1 ) { mitk::SlicesCoordinator* coordinator = m_MultiWidget->GetSlicesRotator(); if( coordinator) coordinator->RemoveObserver(m_SlicesRotationObserverTag1); } if( m_SlicesRotationObserverTag2) { mitk::SlicesCoordinator* coordinator = m_MultiWidget->GetSlicesRotator(); if( coordinator ) coordinator->RemoveObserver(m_SlicesRotationObserverTag1); } this->GetSite()->GetWorkbenchWindow()->GetSelectionService()->RemovePostSelectionListener(/*"org.mitk.views.datamanager",*/ m_SelListener); } void QmitkControlVisualizationPropertiesView::OnThickSlicesModeSelected( QAction* action ) { currentThickSlicesMode = action->data().toInt(); switch(currentThickSlicesMode) { default: case 1: this->m_Controls->m_TSMenu->setText("MIP"); break; case 2: this->m_Controls->m_TSMenu->setText("SUM"); break; case 3: this->m_Controls->m_TSMenu->setText("WEIGH"); break; } mitk::DataNode* n; n = this->m_MultiWidget->GetWidgetPlane1(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( currentThickSlicesMode ) ); n = this->m_MultiWidget->GetWidgetPlane2(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( currentThickSlicesMode ) ); n = this->m_MultiWidget->GetWidgetPlane3(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( currentThickSlicesMode ) ); mitk::BaseRenderer::Pointer renderer = this->GetActiveStdMultiWidget()->GetRenderWindow1()->GetRenderer(); if(renderer.IsNotNull()) { renderer->SendUpdateSlice(); } renderer = this->GetActiveStdMultiWidget()->GetRenderWindow2()->GetRenderer(); if(renderer.IsNotNull()) { renderer->SendUpdateSlice(); } renderer = this->GetActiveStdMultiWidget()->GetRenderWindow3()->GetRenderer(); if(renderer.IsNotNull()) { renderer->SendUpdateSlice(); } renderer->GetRenderingManager()->RequestUpdateAll(); } void QmitkControlVisualizationPropertiesView::OnTSNumChanged(int num) { if(num==0) { mitk::DataNode* n; n = this->m_MultiWidget->GetWidgetPlane1(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( 0 ) ); n = this->m_MultiWidget->GetWidgetPlane2(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( 0 ) ); n = this->m_MultiWidget->GetWidgetPlane3(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( 0 ) ); } else { mitk::DataNode* n; n = this->m_MultiWidget->GetWidgetPlane1(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( currentThickSlicesMode ) ); n = this->m_MultiWidget->GetWidgetPlane2(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( currentThickSlicesMode ) ); n = this->m_MultiWidget->GetWidgetPlane3(); if(n) n->SetProperty( "reslice.thickslices", mitk::ResliceMethodProperty::New( currentThickSlicesMode ) ); n = this->m_MultiWidget->GetWidgetPlane1(); if(n) n->SetProperty( "reslice.thickslices.num", mitk::IntProperty::New( num ) ); n = this->m_MultiWidget->GetWidgetPlane2(); if(n) n->SetProperty( "reslice.thickslices.num", mitk::IntProperty::New( num ) ); n = this->m_MultiWidget->GetWidgetPlane3(); if(n) n->SetProperty( "reslice.thickslices.num", mitk::IntProperty::New( num ) ); } m_TSLabel->setText(QString::number(num*2+1)); mitk::BaseRenderer::Pointer renderer = this->GetActiveStdMultiWidget()->GetRenderWindow1()->GetRenderer(); if(renderer.IsNotNull()) { renderer->SendUpdateSlice(); } renderer = this->GetActiveStdMultiWidget()->GetRenderWindow2()->GetRenderer(); if(renderer.IsNotNull()) { renderer->SendUpdateSlice(); } renderer = this->GetActiveStdMultiWidget()->GetRenderWindow3()->GetRenderer(); if(renderer.IsNotNull()) { renderer->SendUpdateSlice(); } renderer->GetRenderingManager()->RequestUpdateAll(mitk::RenderingManager::REQUEST_UPDATE_2DWINDOWS); } void QmitkControlVisualizationPropertiesView::CreateQtPartControl(QWidget *parent) { if (!m_Controls) { // create GUI widgets m_Controls = new Ui::QmitkControlVisualizationPropertiesViewControls; m_Controls->setupUi(parent); this->CreateConnections(); // hide warning (ODFs in rotated planes) m_Controls->m_lblRotatedPlanesWarning->hide(); m_MyMenu = new QMenu(parent); connect( m_MyMenu, SIGNAL( aboutToShow() ), this, SLOT(OnMenuAboutToShow()) ); // button for changing rotation mode m_Controls->m_TSMenu->setMenu( m_MyMenu ); //m_CrosshairModeButton->setIcon( QIcon( iconCrosshairMode_xpm ) ); m_Controls->params_frame->setVisible(false); QIcon icon5(":/QmitkDiffusionImaging/Refresh_48.png"); m_Controls->m_Reinit->setIcon(icon5); m_Controls->m_Focus->setIcon(icon5); QIcon iconColor(":/QmitkDiffusionImaging/color24.gif"); m_Controls->m_PFColor->setIcon(iconColor); m_Controls->m_Color->setIcon(iconColor); QIcon iconReset(":/QmitkDiffusionImaging/reset.png"); m_Controls->m_ResetColoring->setIcon(iconReset); m_Controls->m_PFColor->setToolButtonStyle(Qt::ToolButtonTextBesideIcon); QIcon iconCrosshair(":/QmitkDiffusionImaging/crosshair.png"); m_Controls->m_Crosshair->setIcon(iconCrosshair); // was is los QIcon iconPaint(":/QmitkDiffusionImaging/paint2.png"); m_Controls->m_TDI->setIcon(iconPaint); QIcon iconFiberFade(":/QmitkDiffusionImaging/MapperEfx2D.png"); m_Controls->m_FiberFading2D->setIcon(iconFiberFade); m_Controls->m_TextureIntON->setCheckable(true); #ifndef DIFFUSION_IMAGING_EXTENDED int size = m_Controls->m_AdditionalScaling->count(); for(int t=0; tm_AdditionalScaling->itemText(t).toStdString() == "Scale by ASR") { m_Controls->m_AdditionalScaling->removeItem(t); } } #endif m_Controls->m_OpacitySlider->setRange(0.0,1.0); m_Controls->m_OpacitySlider->setLowerValue(0.0); m_Controls->m_OpacitySlider->setUpperValue(0.0); m_Controls->m_ScalingFrame->setVisible(false); m_Controls->m_NormalizationFrame->setVisible(false); m_Controls->frame_tube->setVisible(false); m_Controls->frame_wire->setVisible(false); } m_IsInitialized = false; m_SelListener = berry::ISelectionListener::Pointer(new CvpSelListener(this)); this->GetSite()->GetWorkbenchWindow()->GetSelectionService()->AddPostSelectionListener(/*"org.mitk.views.datamanager",*/ m_SelListener); berry::ISelection::ConstPointer sel( this->GetSite()->GetWorkbenchWindow()->GetSelectionService()->GetSelection("org.mitk.views.datamanager")); m_CurrentSelection = sel.Cast(); m_SelListener.Cast()->DoSelectionChanged(sel); m_IsInitialized = true; } void QmitkControlVisualizationPropertiesView::OnMenuAboutToShow () { // THICK SLICE SUPPORT QMenu *myMenu = m_MyMenu; myMenu->clear(); QActionGroup* thickSlicesActionGroup = new QActionGroup(myMenu); thickSlicesActionGroup->setExclusive(true); mitk::BaseRenderer::Pointer renderer = this->GetActiveStdMultiWidget()->GetRenderWindow1()->GetRenderer(); int currentTSMode = 0; { mitk::ResliceMethodProperty::Pointer m = dynamic_cast(renderer->GetCurrentWorldGeometry2DNode()->GetProperty( "reslice.thickslices" )); if( m.IsNotNull() ) currentTSMode = m->GetValueAsId(); } const int maxTS = 30; int currentNum = 0; { mitk::IntProperty::Pointer m = dynamic_cast(renderer->GetCurrentWorldGeometry2DNode()->GetProperty( "reslice.thickslices.num" )); if( m.IsNotNull() ) { currentNum = m->GetValue(); if(currentNum < 0) currentNum = 0; if(currentNum > maxTS) currentNum = maxTS; } } if(currentTSMode==0) currentNum=0; QSlider *m_TSSlider = new QSlider(myMenu); m_TSSlider->setMinimum(0); m_TSSlider->setMaximum(maxTS-1); m_TSSlider->setValue(currentNum); m_TSSlider->setOrientation(Qt::Horizontal); connect( m_TSSlider, SIGNAL( valueChanged(int) ), this, SLOT( OnTSNumChanged(int) ) ); QHBoxLayout* _TSLayout = new QHBoxLayout; _TSLayout->setContentsMargins(4,4,4,4); _TSLayout->addWidget(m_TSSlider); _TSLayout->addWidget(m_TSLabel=new QLabel(QString::number(currentNum*2+1),myMenu)); QWidget* _TSWidget = new QWidget; _TSWidget->setLayout(_TSLayout); QActionGroup* thickSliceModeActionGroup = new QActionGroup(myMenu); thickSliceModeActionGroup->setExclusive(true); QWidgetAction *m_TSSliderAction = new QWidgetAction(myMenu); m_TSSliderAction->setDefaultWidget(_TSWidget); myMenu->addAction(m_TSSliderAction); QAction* mipThickSlicesAction = new QAction(myMenu); mipThickSlicesAction->setActionGroup(thickSliceModeActionGroup); mipThickSlicesAction->setText("MIP (max. intensity proj.)"); mipThickSlicesAction->setCheckable(true); mipThickSlicesAction->setChecked(currentThickSlicesMode==1); mipThickSlicesAction->setData(1); myMenu->addAction( mipThickSlicesAction ); QAction* sumThickSlicesAction = new QAction(myMenu); sumThickSlicesAction->setActionGroup(thickSliceModeActionGroup); sumThickSlicesAction->setText("SUM (sum intensity proj.)"); sumThickSlicesAction->setCheckable(true); sumThickSlicesAction->setChecked(currentThickSlicesMode==2); sumThickSlicesAction->setData(2); myMenu->addAction( sumThickSlicesAction ); QAction* weightedThickSlicesAction = new QAction(myMenu); weightedThickSlicesAction->setActionGroup(thickSliceModeActionGroup); weightedThickSlicesAction->setText("WEIGHTED (gaussian proj.)"); weightedThickSlicesAction->setCheckable(true); weightedThickSlicesAction->setChecked(currentThickSlicesMode==3); weightedThickSlicesAction->setData(3); myMenu->addAction( weightedThickSlicesAction ); connect( thickSliceModeActionGroup, SIGNAL(triggered(QAction*)), this, SLOT(OnThickSlicesModeSelected(QAction*)) ); } void QmitkControlVisualizationPropertiesView::StdMultiWidgetAvailable (QmitkStdMultiWidget &stdMultiWidget) { m_MultiWidget = &stdMultiWidget; if (m_MultiWidget) { mitk::SlicesCoordinator* coordinator = m_MultiWidget->GetSlicesRotator(); if (coordinator) { itk::ReceptorMemberCommand::Pointer command2 = itk::ReceptorMemberCommand::New(); command2->SetCallbackFunction( this, &QmitkControlVisualizationPropertiesView::SliceRotation ); m_SlicesRotationObserverTag1 = coordinator->AddObserver( mitk::SliceRotationEvent(), command2 ); } coordinator = m_MultiWidget->GetSlicesSwiveller(); if (coordinator) { itk::ReceptorMemberCommand::Pointer command2 = itk::ReceptorMemberCommand::New(); command2->SetCallbackFunction( this, &QmitkControlVisualizationPropertiesView::SliceRotation ); m_SlicesRotationObserverTag2 = coordinator->AddObserver( mitk::SliceRotationEvent(), command2 ); } } } void QmitkControlVisualizationPropertiesView::SliceRotation(const itk::EventObject&) { // test if plane rotated if( m_GlyIsOn_T || m_GlyIsOn_C || m_GlyIsOn_S ) { if( this->IsPlaneRotated() ) { // show label m_Controls->m_lblRotatedPlanesWarning->show(); } else { //hide label m_Controls->m_lblRotatedPlanesWarning->hide(); } } } void QmitkControlVisualizationPropertiesView::StdMultiWidgetNotAvailable() { m_MultiWidget = NULL; } void QmitkControlVisualizationPropertiesView::CreateConnections() { if ( m_Controls ) { connect( (QObject*)(m_Controls->m_DisplayIndex), SIGNAL(valueChanged(int)), this, SLOT(DisplayIndexChanged(int)) ); connect( (QObject*)(m_Controls->m_DisplayIndexSpinBox), SIGNAL(valueChanged(int)), this, SLOT(DisplayIndexChanged(int)) ); connect( (QObject*)(m_Controls->m_TextureIntON), SIGNAL(clicked()), this, SLOT(TextIntON()) ); connect( (QObject*)(m_Controls->m_Reinit), SIGNAL(clicked()), this, SLOT(Reinit()) ); connect( (QObject*)(m_Controls->m_VisibleOdfsON_T), SIGNAL(clicked()), this, SLOT(VisibleOdfsON_T()) ); connect( (QObject*)(m_Controls->m_VisibleOdfsON_S), SIGNAL(clicked()), this, SLOT(VisibleOdfsON_S()) ); connect( (QObject*)(m_Controls->m_VisibleOdfsON_C), SIGNAL(clicked()), this, SLOT(VisibleOdfsON_C()) ); connect( (QObject*)(m_Controls->m_ShowMaxNumber), SIGNAL(editingFinished()), this, SLOT(ShowMaxNumberChanged()) ); connect( (QObject*)(m_Controls->m_NormalizationDropdown), SIGNAL(currentIndexChanged(int)), this, SLOT(NormalizationDropdownChanged(int)) ); connect( (QObject*)(m_Controls->m_ScalingFactor), SIGNAL(valueChanged(double)), this, SLOT(ScalingFactorChanged(double)) ); connect( (QObject*)(m_Controls->m_AdditionalScaling), SIGNAL(currentIndexChanged(int)), this, SLOT(AdditionalScaling(int)) ); connect( (QObject*)(m_Controls->m_IndexParam1), SIGNAL(valueChanged(double)), this, SLOT(IndexParam1Changed(double)) ); connect( (QObject*)(m_Controls->m_IndexParam2), SIGNAL(valueChanged(double)), this, SLOT(IndexParam2Changed(double)) ); connect( (QObject*)(m_Controls->m_ScalingCheckbox), SIGNAL(clicked()), this, SLOT(ScalingCheckbox()) ); connect( (QObject*)(m_Controls->m_OpacitySlider), SIGNAL(spanChanged(double,double)), this, SLOT(OpacityChanged(double,double)) ); connect((QObject*) m_Controls->m_Wire, SIGNAL(clicked()), (QObject*) this, SLOT(BundleRepresentationWire())); connect((QObject*) m_Controls->m_Tube, SIGNAL(clicked()), (QObject*) this, SLOT(BundleRepresentationTube())); connect((QObject*) m_Controls->m_Color, SIGNAL(clicked()), (QObject*) this, SLOT(BundleRepresentationColor())); connect((QObject*) m_Controls->m_ResetColoring, SIGNAL(clicked()), (QObject*) this, SLOT(BundleRepresentationResetColoring())); connect((QObject*) m_Controls->m_Focus, SIGNAL(clicked()), (QObject*) this, SLOT(PlanarFigureFocus())); connect((QObject*) m_Controls->m_FiberFading2D, SIGNAL(clicked()), (QObject*) this, SLOT( Fiber2DfadingEFX() ) ); connect((QObject*) m_Controls->m_FiberThicknessSlider, SIGNAL(sliderReleased()), (QObject*) this, SLOT( FiberSlicingThickness2D() ) ); connect((QObject*) m_Controls->m_FiberThicknessSlider, SIGNAL(valueChanged(int)), (QObject*) this, SLOT( FiberSlicingUpdateLabel(int) )); connect((QObject*) m_Controls->m_Crosshair, SIGNAL(clicked()), (QObject*) this, SLOT(SetInteractor())); connect((QObject*) m_Controls->m_PFWidth, SIGNAL(valueChanged(int)), (QObject*) this, SLOT(PFWidth(int))); connect((QObject*) m_Controls->m_PFColor, SIGNAL(clicked()), (QObject*) this, SLOT(PFColor())); connect((QObject*) m_Controls->m_TDI, SIGNAL(clicked()), (QObject*) this, SLOT(GenerateTdi())); connect((QObject*) m_Controls->m_LineWidth, SIGNAL(valueChanged(int)), (QObject*) this, SLOT(LineWidthChanged(int))); connect((QObject*) m_Controls->m_TubeRadius, SIGNAL(valueChanged(int)), (QObject*) this, SLOT(TubeRadiusChanged(int))); } } void QmitkControlVisualizationPropertiesView::Activated() { berry::ISelection::ConstPointer sel( this->GetSite()->GetWorkbenchWindow()->GetSelectionService()->GetSelection("org.mitk.views.datamanager")); m_CurrentSelection = sel.Cast(); m_SelListener.Cast()->DoSelectionChanged(sel); QmitkFunctionality::Activated(); } void QmitkControlVisualizationPropertiesView::Deactivated() { QmitkFunctionality::Deactivated(); } int QmitkControlVisualizationPropertiesView::GetSizeFlags(bool width) { if(!width) { return berry::Constants::MIN | berry::Constants::MAX | berry::Constants::FILL; } else { return 0; } } int QmitkControlVisualizationPropertiesView::ComputePreferredSize(bool width, int /*availableParallel*/, int /*availablePerpendicular*/, int preferredResult) { if(width==false) { return m_FoundSingleOdfImage ? 120 : 80; } else { return preferredResult; } } // set diffusion image channel to b0 volume void QmitkControlVisualizationPropertiesView::NodeAdded(const mitk::DataNode *node) { mitk::DataNode* notConst = const_cast(node); if (dynamic_cast*>(notConst->GetData())) { mitk::DiffusionImage::Pointer dimg = dynamic_cast*>(notConst->GetData()); // if there is no b0 image in the dataset, the GetB0Indices() returns a vector of size 0 // and hence we cannot set the Property directly to .front() int displayChannelPropertyValue = 0; mitk::DiffusionImage::BValueMap map = dimg->GetBValueMap(); if( map[0].size() > 0) displayChannelPropertyValue = map[0].front(); notConst->SetIntProperty("DisplayChannel", displayChannelPropertyValue ); } } /* OnSelectionChanged is registered to SelectionService, therefore no need to implement SelectionService Listener explicitly */ void QmitkControlVisualizationPropertiesView::OnSelectionChanged( std::vector nodes ) { // deactivate channel slider if no diffusion weighted image or tbss image is selected m_Controls->m_DisplayIndex->setVisible(false); m_Controls->m_DisplayIndexSpinBox->setVisible(false); m_Controls->label_channel->setVisible(false); for( std::vector::iterator it = nodes.begin(); it != nodes.end(); ++it ) { mitk::DataNode::Pointer node = *it; // check if node has data, // if some helper nodes are shown in the DataManager, the GetData() returns 0x0 which would lead to SIGSEV mitk::BaseData* nodeData = node->GetData(); if(nodeData == NULL) continue; if (node.IsNotNull() && (dynamic_cast(nodeData) || dynamic_cast*>(nodeData))) { m_Controls->m_DisplayIndex->setVisible(true); m_Controls->m_DisplayIndexSpinBox->setVisible(true); m_Controls->label_channel->setVisible(true); } else if (node.IsNotNull() && dynamic_cast(node->GetData())) { if (m_Color.IsNotNull()) m_Color->RemoveObserver(m_FiberBundleObserverTag); itk::ReceptorMemberCommand::Pointer command = itk::ReceptorMemberCommand::New(); command->SetCallbackFunction( this, &QmitkControlVisualizationPropertiesView::SetFiberBundleCustomColor ); m_Color = dynamic_cast(node->GetProperty("color", NULL)); if (m_Color.IsNotNull()) m_FiberBundleObserverTag = m_Color->AddObserver( itk::ModifiedEvent(), command ); } } for( std::vector::iterator it = nodes.begin(); it != nodes.end(); ++it ) { mitk::DataNode::Pointer node = *it; // check if node has data, // if some helper nodes are shown in the DataManager, the GetData() returns 0x0 which would lead to SIGSEV mitk::BaseData* nodeData = node->GetData(); if(nodeData == NULL) continue; if( node.IsNotNull() && (dynamic_cast(nodeData) || dynamic_cast(nodeData)) ) { if(m_NodeUsedForOdfVisualization.IsNotNull()) { m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_S", false); m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_C", false); m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_T", false); } m_NodeUsedForOdfVisualization = node; m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_S", m_GlyIsOn_S); m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_C", m_GlyIsOn_C); m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_T", m_GlyIsOn_T); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); m_Controls->m_TSMenu->setVisible(false); // deactivate mip etc. for tensor and q-ball images break; } else if( node.IsNotNull() && dynamic_cast(nodeData) ) m_Controls->m_TSMenu->setVisible(false); else m_Controls->m_TSMenu->setVisible(true); } // if selection changes, set the current selction member and call SellListener::DoSelectionChanged berry::ISelection::ConstPointer sel( this->GetSite()->GetWorkbenchWindow()->GetSelectionService()->GetSelection("org.mitk.views.datamanager")); m_CurrentSelection = sel.Cast(); m_SelListener.Cast()->DoSelectionChanged(sel); } mitk::DataStorage::SetOfObjects::Pointer QmitkControlVisualizationPropertiesView::ActiveSet(std::string classname) { if (m_CurrentSelection) { mitk::DataStorage::SetOfObjects::Pointer set = mitk::DataStorage::SetOfObjects::New(); int at = 0; for (IStructuredSelection::iterator i = m_CurrentSelection->Begin(); i != m_CurrentSelection->End(); ++i) { if (mitk::DataNodeObject::Pointer nodeObj = i->Cast()) { mitk::DataNode::Pointer node = nodeObj->GetDataNode(); // check if node has data, // if some helper nodes are shown in the DataManager, the GetData() returns 0x0 which would lead to SIGSEV const mitk::BaseData* nodeData = node->GetData(); if(nodeData == NULL) continue; if(QString(classname.c_str()).compare(nodeData->GetNameOfClass())==0) { set->InsertElement(at++, node); } } } return set; } return 0; } void QmitkControlVisualizationPropertiesView::SetBoolProp( mitk::DataStorage::SetOfObjects::Pointer set, std::string name, bool value) { if(set.IsNotNull()) { mitk::DataStorage::SetOfObjects::const_iterator itemiter( set->begin() ); mitk::DataStorage::SetOfObjects::const_iterator itemiterend( set->end() ); while ( itemiter != itemiterend ) { (*itemiter)->SetBoolProperty(name.c_str(), value); ++itemiter; } } } void QmitkControlVisualizationPropertiesView::SetIntProp( mitk::DataStorage::SetOfObjects::Pointer set, std::string name, int value) { if(set.IsNotNull()) { mitk::DataStorage::SetOfObjects::const_iterator itemiter( set->begin() ); mitk::DataStorage::SetOfObjects::const_iterator itemiterend( set->end() ); while ( itemiter != itemiterend ) { (*itemiter)->SetIntProperty(name.c_str(), value); ++itemiter; } } } void QmitkControlVisualizationPropertiesView::SetFloatProp( mitk::DataStorage::SetOfObjects::Pointer set, std::string name, float value) { if(set.IsNotNull()) { mitk::DataStorage::SetOfObjects::const_iterator itemiter( set->begin() ); mitk::DataStorage::SetOfObjects::const_iterator itemiterend( set->end() ); while ( itemiter != itemiterend ) { (*itemiter)->SetFloatProperty(name.c_str(), value); ++itemiter; } } } void QmitkControlVisualizationPropertiesView::SetLevelWindowProp( mitk::DataStorage::SetOfObjects::Pointer set, std::string name, mitk::LevelWindow value) { if(set.IsNotNull()) { mitk::LevelWindowProperty::Pointer prop = mitk::LevelWindowProperty::New(value); mitk::DataStorage::SetOfObjects::const_iterator itemiter( set->begin() ); mitk::DataStorage::SetOfObjects::const_iterator itemiterend( set->end() ); while ( itemiter != itemiterend ) { (*itemiter)->SetProperty(name.c_str(), prop); ++itemiter; } } } void QmitkControlVisualizationPropertiesView::SetEnumProp( mitk::DataStorage::SetOfObjects::Pointer set, std::string name, mitk::EnumerationProperty::Pointer value) { if(set.IsNotNull()) { mitk::DataStorage::SetOfObjects::const_iterator itemiter( set->begin() ); mitk::DataStorage::SetOfObjects::const_iterator itemiterend( set->end() ); while ( itemiter != itemiterend ) { (*itemiter)->SetProperty(name.c_str(), value); ++itemiter; } } } void QmitkControlVisualizationPropertiesView::DisplayIndexChanged(int dispIndex) { m_Controls->m_DisplayIndex->setValue(dispIndex); m_Controls->m_DisplayIndexSpinBox->setValue(dispIndex); QString label = "Channel %1"; label = label.arg(dispIndex); m_Controls->label_channel->setText(label); std::vector sets; sets.push_back("DiffusionImage"); sets.push_back("TbssImage"); std::vector::iterator it = sets.begin(); while(it != sets.end()) { std::string s = *it; mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet(s); if(set.IsNotNull()) { mitk::DataStorage::SetOfObjects::const_iterator itemiter( set->begin() ); mitk::DataStorage::SetOfObjects::const_iterator itemiterend( set->end() ); while ( itemiter != itemiterend ) { (*itemiter)->SetIntProperty("DisplayChannel", dispIndex); ++itemiter; } //m_MultiWidget->RequestUpdate(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } it++; } } void QmitkControlVisualizationPropertiesView::Reinit() { if (m_CurrentSelection) { mitk::DataNodeObject::Pointer nodeObj = m_CurrentSelection->Begin()->Cast(); mitk::DataNode::Pointer node = nodeObj->GetDataNode(); mitk::BaseData::Pointer basedata = node->GetData(); if (basedata.IsNotNull()) { mitk::RenderingManager::GetInstance()->InitializeViews( basedata->GetTimeGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, true ); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } } void QmitkControlVisualizationPropertiesView::TextIntON() { if(m_TexIsOn) { m_Controls->m_TextureIntON->setIcon(*m_IconTexOFF); } else { m_Controls->m_TextureIntON->setIcon(*m_IconTexON); } mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("DiffusionImage"); SetBoolProp(set,"texture interpolation", !m_TexIsOn); set = ActiveSet("TensorImage"); SetBoolProp(set,"texture interpolation", !m_TexIsOn); set = ActiveSet("QBallImage"); SetBoolProp(set,"texture interpolation", !m_TexIsOn); set = ActiveSet("Image"); SetBoolProp(set,"texture interpolation", !m_TexIsOn); m_TexIsOn = !m_TexIsOn; if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::VisibleOdfsON_S() { m_GlyIsOn_S = m_Controls->m_VisibleOdfsON_S->isChecked(); if (m_NodeUsedForOdfVisualization.IsNull()) { MITK_WARN << "ODF visualization activated but m_NodeUsedForOdfVisualization is NULL"; return; } m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_S", m_GlyIsOn_S); VisibleOdfsON(0); } void QmitkControlVisualizationPropertiesView::VisibleOdfsON_T() { m_GlyIsOn_T = m_Controls->m_VisibleOdfsON_T->isChecked(); if (m_NodeUsedForOdfVisualization.IsNull()) { MITK_WARN << "ODF visualization activated but m_NodeUsedForOdfVisualization is NULL"; return; } m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_T", m_GlyIsOn_T); VisibleOdfsON(1); } void QmitkControlVisualizationPropertiesView::VisibleOdfsON_C() { m_GlyIsOn_C = m_Controls->m_VisibleOdfsON_C->isChecked(); if (m_NodeUsedForOdfVisualization.IsNull()) { MITK_WARN << "ODF visualization activated but m_NodeUsedForOdfVisualization is NULL"; return; } m_NodeUsedForOdfVisualization->SetBoolProperty("VisibleOdfs_C", m_GlyIsOn_C); VisibleOdfsON(2); } bool QmitkControlVisualizationPropertiesView::IsPlaneRotated() { // for all 2D renderwindows of m_MultiWidget check alignment mitk::PlaneGeometry::ConstPointer displayPlane = dynamic_cast( m_MultiWidget->GetRenderWindow1()->GetRenderer()->GetCurrentWorldGeometry2D() ); if (displayPlane.IsNull()) return false; mitk::Image* currentImage = dynamic_cast( m_NodeUsedForOdfVisualization->GetData() ); if( currentImage == NULL ) { MITK_ERROR << " Casting problems. Returning false"; return false; } int affectedDimension(-1); int affectedSlice(-1); return !(DetermineAffectedImageSlice( currentImage, displayPlane, affectedDimension, affectedSlice )); } void QmitkControlVisualizationPropertiesView::VisibleOdfsON(int view) { if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::ShowMaxNumberChanged() { int maxNr = m_Controls->m_ShowMaxNumber->value(); if ( maxNr < 1 ) { m_Controls->m_ShowMaxNumber->setValue( 1 ); maxNr = 1; } mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetIntProp(set,"ShowMaxNumber", maxNr); set = ActiveSet("TensorImage"); SetIntProp(set,"ShowMaxNumber", maxNr); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::NormalizationDropdownChanged(int normDropdown) { typedef mitk::OdfNormalizationMethodProperty PropType; PropType::Pointer normMeth = PropType::New(); switch(normDropdown) { case 0: normMeth->SetNormalizationToMinMax(); break; case 1: normMeth->SetNormalizationToMax(); break; case 2: normMeth->SetNormalizationToNone(); break; case 3: normMeth->SetNormalizationToGlobalMax(); break; default: normMeth->SetNormalizationToMinMax(); } mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetEnumProp(set,"Normalization", normMeth.GetPointer()); set = ActiveSet("TensorImage"); SetEnumProp(set,"Normalization", normMeth.GetPointer()); // if(m_MultiWidget) // m_MultiWidget->RequestUpdate(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkControlVisualizationPropertiesView::ScalingFactorChanged(double scalingFactor) { mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetFloatProp(set,"Scaling", scalingFactor); set = ActiveSet("TensorImage"); SetFloatProp(set,"Scaling", scalingFactor); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::AdditionalScaling(int additionalScaling) { typedef mitk::OdfScaleByProperty PropType; PropType::Pointer scaleBy = PropType::New(); switch(additionalScaling) { case 0: scaleBy->SetScaleByNothing(); break; case 1: scaleBy->SetScaleByGFA(); //m_Controls->params_frame->setVisible(true); break; #ifdef DIFFUSION_IMAGING_EXTENDED case 2: scaleBy->SetScaleByPrincipalCurvature(); // commented in for SPIE paper, Principle curvature scaling //m_Controls->params_frame->setVisible(true); break; #endif default: scaleBy->SetScaleByNothing(); } mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetEnumProp(set,"ScaleBy", scaleBy.GetPointer()); set = ActiveSet("TensorImage"); SetEnumProp(set,"ScaleBy", scaleBy.GetPointer()); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::IndexParam1Changed(double param1) { mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetFloatProp(set,"IndexParam1", param1); set = ActiveSet("TensorImage"); SetFloatProp(set,"IndexParam1", param1); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::IndexParam2Changed(double param2) { mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetFloatProp(set,"IndexParam2", param2); set = ActiveSet("TensorImage"); SetFloatProp(set,"IndexParam2", param2); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::OpacityChanged(double l, double u) { mitk::LevelWindow olw; olw.SetRangeMinMax(l*255, u*255); mitk::DataStorage::SetOfObjects::Pointer set = ActiveSet("QBallImage"); SetLevelWindowProp(set,"opaclevelwindow", olw); set = ActiveSet("TensorImage"); SetLevelWindowProp(set,"opaclevelwindow", olw); set = ActiveSet("Image"); SetLevelWindowProp(set,"opaclevelwindow", olw); m_Controls->m_OpacityMinFaLabel->setText(QString::number(l,'f',2) + " : " + QString::number(u,'f',2)); if(m_MultiWidget) m_MultiWidget->RequestUpdate(); } void QmitkControlVisualizationPropertiesView::ScalingCheckbox() { m_Controls->m_ScalingFrame->setVisible( m_Controls->m_ScalingCheckbox->isChecked()); if(!m_Controls->m_ScalingCheckbox->isChecked()) { m_Controls->m_AdditionalScaling->setCurrentIndex(0); m_Controls->m_ScalingFactor->setValue(1.0); } } void QmitkControlVisualizationPropertiesView::Fiber2DfadingEFX() { if (m_SelectedNode) { bool currentMode; m_SelectedNode->GetBoolProperty("Fiber2DfadeEFX", currentMode); m_SelectedNode->SetProperty("Fiber2DfadeEFX", mitk::BoolProperty::New(!currentMode)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } } void QmitkControlVisualizationPropertiesView::FiberSlicingThickness2D() { if (m_SelectedNode) { float fibThickness = m_Controls->m_FiberThicknessSlider->value() * 0.1; m_SelectedNode->SetProperty("Fiber2DSliceThickness", mitk::FloatProperty::New(fibThickness)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } } void QmitkControlVisualizationPropertiesView::FiberSlicingUpdateLabel(int value) { - QString label = "Range %1"; + QString label = "Range %1 mm"; label = label.arg(value * 0.1); m_Controls->label_range->setText(label); - + this->FiberSlicingThickness2D(); } void QmitkControlVisualizationPropertiesView::BundleRepresentationWire() { if(m_SelectedNode) { int width = m_Controls->m_LineWidth->value(); m_SelectedNode->SetProperty("LineWidth",mitk::IntProperty::New(width)); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(15)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(18)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(1)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(2)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(3)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(4)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(0)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } } void QmitkControlVisualizationPropertiesView::BundleRepresentationTube() { if(m_SelectedNode) { float radius = m_Controls->m_TubeRadius->value() / 100.0; m_SelectedNode->SetProperty("TubeRadius",mitk::FloatProperty::New(radius)); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(17)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(13)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(16)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); m_SelectedNode->SetProperty("ColorCoding",mitk::IntProperty::New(0)); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } } void QmitkControlVisualizationPropertiesView::SetFiberBundleCustomColor(const itk::EventObject& /*e*/) { float color[3]; m_SelectedNode->GetColor(color); m_Controls->m_Color->setAutoFillBackground(true); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color[0]*255.0)); styleSheet.append(","); styleSheet.append(QString::number(color[1]*255.0)); styleSheet.append(","); styleSheet.append(QString::number(color[2]*255.0)); styleSheet.append(")"); m_Controls->m_Color->setStyleSheet(styleSheet); m_SelectedNode->SetProperty("color",mitk::ColorProperty::New(color[0], color[1], color[2])); mitk::FiberBundleX::Pointer fib = dynamic_cast(m_SelectedNode->GetData()); fib->SetColorCoding(mitk::FiberBundleX::COLORCODING_CUSTOM); m_SelectedNode->Modified(); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } void QmitkControlVisualizationPropertiesView::BundleRepresentationColor() { if(m_SelectedNode) { QColor color = QColorDialog::getColor(); if (!color.isValid()) return; m_Controls->m_Color->setAutoFillBackground(true); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color.red())); styleSheet.append(","); styleSheet.append(QString::number(color.green())); styleSheet.append(","); styleSheet.append(QString::number(color.blue())); styleSheet.append(")"); m_Controls->m_Color->setStyleSheet(styleSheet); m_SelectedNode->SetProperty("color",mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); mitk::FiberBundleX::Pointer fib = dynamic_cast(m_SelectedNode->GetData()); fib->SetColorCoding(mitk::FiberBundleX::COLORCODING_CUSTOM); m_SelectedNode->Modified(); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } } void QmitkControlVisualizationPropertiesView::BundleRepresentationResetColoring() { if(m_SelectedNode) { MITK_INFO << "reset colorcoding to oBased"; m_Controls->m_Color->setAutoFillBackground(true); QString styleSheet = "background-color:rgb(255,255,255)"; m_Controls->m_Color->setStyleSheet(styleSheet); // m_SelectedNode->SetProperty("color",NULL); m_SelectedNode->SetProperty("color",mitk::ColorProperty::New(1.0, 1.0, 1.0)); mitk::FiberBundleX::Pointer fib = dynamic_cast(m_SelectedNode->GetData()); fib->SetColorCoding(mitk::FiberBundleX::COLORCODING_ORIENTATION_BASED); fib->DoColorCodingOrientationBased(); m_SelectedNode->Modified(); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } } void QmitkControlVisualizationPropertiesView::PlanarFigureFocus() { if(m_SelectedNode) { mitk::PlanarFigure* _PlanarFigure = 0; _PlanarFigure = dynamic_cast (m_SelectedNode->GetData()); if (_PlanarFigure && _PlanarFigure->GetGeometry2D()) { QmitkRenderWindow* selectedRenderWindow = 0; bool PlanarFigureInitializedWindow = false; QmitkRenderWindow* RenderWindow1 = this->GetActiveStdMultiWidget()->GetRenderWindow1(); if (m_SelectedNode->GetBoolProperty("PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, RenderWindow1->GetRenderer())) { selectedRenderWindow = RenderWindow1; } QmitkRenderWindow* RenderWindow2 = this->GetActiveStdMultiWidget()->GetRenderWindow2(); if (!selectedRenderWindow && m_SelectedNode->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, RenderWindow2->GetRenderer())) { selectedRenderWindow = RenderWindow2; } QmitkRenderWindow* RenderWindow3 = this->GetActiveStdMultiWidget()->GetRenderWindow3(); if (!selectedRenderWindow && m_SelectedNode->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, RenderWindow3->GetRenderer())) { selectedRenderWindow = RenderWindow3; } QmitkRenderWindow* RenderWindow4 = this->GetActiveStdMultiWidget()->GetRenderWindow4(); if (!selectedRenderWindow && m_SelectedNode->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, RenderWindow4->GetRenderer())) { selectedRenderWindow = RenderWindow4; } const mitk::PlaneGeometry * _PlaneGeometry = dynamic_cast (_PlanarFigure->GetGeometry2D()); mitk::VnlVector normal = _PlaneGeometry->GetNormalVnl(); mitk::Geometry2D::ConstPointer worldGeometry1 = RenderWindow1->GetRenderer()->GetCurrentWorldGeometry2D(); mitk::PlaneGeometry::ConstPointer _Plane1 = dynamic_cast( worldGeometry1.GetPointer() ); mitk::VnlVector normal1 = _Plane1->GetNormalVnl(); mitk::Geometry2D::ConstPointer worldGeometry2 = RenderWindow2->GetRenderer()->GetCurrentWorldGeometry2D(); mitk::PlaneGeometry::ConstPointer _Plane2 = dynamic_cast( worldGeometry2.GetPointer() ); mitk::VnlVector normal2 = _Plane2->GetNormalVnl(); mitk::Geometry2D::ConstPointer worldGeometry3 = RenderWindow3->GetRenderer()->GetCurrentWorldGeometry2D(); mitk::PlaneGeometry::ConstPointer _Plane3 = dynamic_cast( worldGeometry3.GetPointer() ); mitk::VnlVector normal3 = _Plane3->GetNormalVnl(); normal[0] = fabs(normal[0]); normal[1] = fabs(normal[1]); normal[2] = fabs(normal[2]); normal1[0] = fabs(normal1[0]); normal1[1] = fabs(normal1[1]); normal1[2] = fabs(normal1[2]); normal2[0] = fabs(normal2[0]); normal2[1] = fabs(normal2[1]); normal2[2] = fabs(normal2[2]); normal3[0] = fabs(normal3[0]); normal3[1] = fabs(normal3[1]); normal3[2] = fabs(normal3[2]); double ang1 = angle(normal, normal1); double ang2 = angle(normal, normal2); double ang3 = angle(normal, normal3); if(ang1 < ang2 && ang1 < ang3) { selectedRenderWindow = RenderWindow1; } else { if(ang2 < ang3) { selectedRenderWindow = RenderWindow2; } else { selectedRenderWindow = RenderWindow3; } } // make node visible if (selectedRenderWindow) { const mitk::Point3D& centerP = _PlaneGeometry->GetOrigin(); selectedRenderWindow->GetSliceNavigationController()->ReorientSlices( centerP, _PlaneGeometry->GetNormal()); } } // set interactor for new node (if not already set) mitk::PlanarFigureInteractor::Pointer figureInteractor = dynamic_cast(m_SelectedNode->GetDataInteractor().GetPointer()); if(figureInteractor.IsNull()) { figureInteractor = mitk::PlanarFigureInteractor::New(); us::Module* planarFigureModule = us::ModuleRegistry::GetModule( "MitkPlanarFigure" ); figureInteractor->LoadStateMachine("PlanarFigureInteraction.xml", planarFigureModule ); figureInteractor->SetEventConfig( "PlanarFigureConfig.xml", planarFigureModule ); figureInteractor->SetDataNode( m_SelectedNode ); } m_SelectedNode->SetProperty("planarfigure.iseditable",mitk::BoolProperty::New(true)); } } void QmitkControlVisualizationPropertiesView::SetInteractor() { typedef std::vector Container; Container _NodeSet = this->GetDataManagerSelection(); mitk::DataNode* node = 0; mitk::FiberBundleX* bundle = 0; mitk::FiberBundleInteractor::Pointer bundleInteractor = 0; // finally add all nodes to the model for(Container::const_iterator it=_NodeSet.begin(); it!=_NodeSet.end() ; it++) { node = const_cast(*it); bundle = dynamic_cast(node->GetData()); if(bundle) { bundleInteractor = dynamic_cast(node->GetInteractor()); if(bundleInteractor.IsNotNull()) mitk::GlobalInteraction::GetInstance()->RemoveInteractor(bundleInteractor); if(!m_Controls->m_Crosshair->isChecked()) { m_Controls->m_Crosshair->setChecked(false); this->GetActiveStdMultiWidget()->GetRenderWindow4()->setCursor(Qt::ArrowCursor); m_CurrentPickingNode = 0; } else { m_Controls->m_Crosshair->setChecked(true); bundleInteractor = mitk::FiberBundleInteractor::New("FiberBundleInteractor", node); mitk::GlobalInteraction::GetInstance()->AddInteractor(bundleInteractor); this->GetActiveStdMultiWidget()->GetRenderWindow4()->setCursor(Qt::CrossCursor); m_CurrentPickingNode = node; } } } } void QmitkControlVisualizationPropertiesView::PFWidth(int w) { double width = w/10.0; m_SelectedNode->SetProperty("planarfigure.line.width", mitk::FloatProperty::New(width) ); m_SelectedNode->SetProperty("planarfigure.shadow.widthmodifier", mitk::FloatProperty::New(width) ); m_SelectedNode->SetProperty("planarfigure.outline.width", mitk::FloatProperty::New(width) ); m_SelectedNode->SetProperty("planarfigure.helperline.width", mitk::FloatProperty::New(width) ); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); QString label = "Width %1"; label = label.arg(width); m_Controls->label_pfwidth->setText(label); } void QmitkControlVisualizationPropertiesView::PFColor() { QColor color = QColorDialog::getColor(); if (!color.isValid()) return; m_Controls->m_PFColor->setAutoFillBackground(true); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color.red())); styleSheet.append(","); styleSheet.append(QString::number(color.green())); styleSheet.append(","); styleSheet.append(QString::number(color.blue())); styleSheet.append(")"); m_Controls->m_PFColor->setStyleSheet(styleSheet); m_SelectedNode->SetProperty( "planarfigure.default.line.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); m_SelectedNode->SetProperty( "planarfigure.default.outline.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); m_SelectedNode->SetProperty( "planarfigure.default.helperline.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); m_SelectedNode->SetProperty( "planarfigure.default.markerline.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); m_SelectedNode->SetProperty( "planarfigure.default.marker.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); m_SelectedNode->SetProperty( "planarfigure.hover.line.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0) ); m_SelectedNode->SetProperty( "planarfigure.hover.outline.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0) ); m_SelectedNode->SetProperty( "planarfigure.hover.helperline.color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0) ); m_SelectedNode->SetProperty( "color", mitk::ColorProperty::New(color.red()/255.0, color.green()/255.0, color.blue()/255.0)); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkControlVisualizationPropertiesView::GenerateTdi() { if(m_SelectedNode) { mitk::FiberBundleX* bundle = dynamic_cast(m_SelectedNode->GetData()); if(!bundle) return; typedef float OutPixType; typedef itk::Image OutImageType; // run generator itk::TractDensityImageFilter< OutImageType >::Pointer generator = itk::TractDensityImageFilter< OutImageType >::New(); generator->SetFiberBundle(bundle); generator->SetOutputAbsoluteValues(true); generator->SetUpsamplingFactor(1); generator->Update(); // get result OutImageType::Pointer outImg = generator->GetOutput(); mitk::Image::Pointer img = mitk::Image::New(); img->InitializeByItk(outImg.GetPointer()); img->SetVolume(outImg->GetBufferPointer()); // to datastorage mitk::DataNode::Pointer node = mitk::DataNode::New(); node->SetData(img); QString name(m_SelectedNode->GetName().c_str()); name += "_TDI"; node->SetName(name.toStdString()); node->SetVisibility(true); GetDataStorage()->Add(node); } } void QmitkControlVisualizationPropertiesView::LineWidthChanged(int w) { QString label = "Width %1"; label = label.arg(w); m_Controls->label_linewidth->setText(label); BundleRepresentationWire(); } void QmitkControlVisualizationPropertiesView::TubeRadiusChanged(int r) { QString label = "Radius %1"; label = label.arg(r / 100.0); m_Controls->label_tuberadius->setText(label); this->BundleRepresentationTube(); } void QmitkControlVisualizationPropertiesView::Welcome() { berry::PlatformUI::GetWorkbench()->GetIntroManager()->ShowIntro( GetSite()->GetWorkbenchWindow(), false); }