diff --git a/Modules/DiffusionImaging/Rendering/mitkConnectomicsNetworkMapper3D.cpp b/Modules/DiffusionImaging/Rendering/mitkConnectomicsNetworkMapper3D.cpp index d3ad4e0972..1e966ebe91 100644 --- a/Modules/DiffusionImaging/Rendering/mitkConnectomicsNetworkMapper3D.cpp +++ b/Modules/DiffusionImaging/Rendering/mitkConnectomicsNetworkMapper3D.cpp @@ -1,613 +1,620 @@ /*=================================================================== 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 "mitkConnectomicsNetworkMapper3D.h" #include #include "vtkGraphLayout.h" #include #include "vtkGraphToPolyData.h" #include #include "vtkGlyph3D.h" #include "vtkGlyphSource2D.h" #include "mitkConnectomicsRenderingProperties.h" #include "mitkConnectomicsRenderingSchemeProperty.h" #include "mitkConnectomicsRenderingEdgeFilteringProperty.h" #include "mitkConnectomicsRenderingNodeFilteringProperty.h" #include "mitkConnectomicsRenderingNodeColorParameterProperty.h" #include "mitkConnectomicsRenderingNodeRadiusParameterProperty.h" #include "mitkConnectomicsRenderingEdgeColorParameterProperty.h" #include "mitkConnectomicsRenderingEdgeRadiusParameterProperty.h" +#include "mitkConnectomicsRenderingNodeThresholdParameterProperty.h" +#include "mitkConnectomicsRenderingEdgeThresholdParameterProperty.h" #include mitk::ConnectomicsNetworkMapper3D::ConnectomicsNetworkMapper3D() { m_NetworkAssembly = vtkPropAssembly::New(); } mitk::ConnectomicsNetworkMapper3D:: ~ConnectomicsNetworkMapper3D() { m_NetworkAssembly->Delete(); } void mitk::ConnectomicsNetworkMapper3D::GenerateDataForRenderer(mitk::BaseRenderer* renderer) { if( this->GetInput() == NULL ) { return; } bool propertiesHaveChanged = this->PropertiesChanged(); if( this->GetInput()->GetIsModified( ) || propertiesHaveChanged ) { GenerateData(); } } void mitk::ConnectomicsNetworkMapper3D::GenerateData() { m_NetworkAssembly->Delete(); m_NetworkAssembly = vtkPropAssembly::New(); // Here is the part where a graph is given and converted to points and connections between points... std::vector< mitk::ConnectomicsNetwork::NetworkNode > vectorOfNodes = this->GetInput()->GetVectorOfAllNodes(); std::vector< std::pair< std::pair< mitk::ConnectomicsNetwork::NetworkNode, mitk::ConnectomicsNetwork::NetworkNode > , mitk::ConnectomicsNetwork::NetworkEdge > > vectorOfEdges = this->GetInput()->GetVectorOfAllEdges(); // Decide on the style of rendering due to property if( m_ChosenRenderingScheme == connectomicsRenderingMITKScheme ) { mitk::Point3D tempWorldPoint, tempCNFGeometryPoint; //////////////////////Prepare coloring and radius//////////// std::vector< double > vectorOfNodeRadiusParameterValues; vectorOfNodeRadiusParameterValues.resize( vectorOfNodes.size() ); double maxNodeRadiusParameterValue( FillNodeParameterVector( &vectorOfNodeRadiusParameterValues, m_NodeRadiusParameter ) ); std::vector< double > vectorOfNodeColorParameterValues; vectorOfNodeColorParameterValues.resize( vectorOfNodes.size() ); double maxNodeColorParameterValue( FillNodeParameterVector( &vectorOfNodeColorParameterValues, m_NodeColorParameter ) ); std::vector< double > vectorOfEdgeRadiusParameterValues; vectorOfEdgeRadiusParameterValues.resize( vectorOfEdges.size() ); double maxEdgeRadiusParameterValue( FillEdgeParameterVector( &vectorOfEdgeRadiusParameterValues, m_EdgeRadiusParameter ) ); std::vector< double > vectorOfEdgeColorParameterValues; vectorOfEdgeColorParameterValues.resize( vectorOfEdges.size() ); double maxEdgeColorParameterValue( FillEdgeParameterVector( &vectorOfEdgeColorParameterValues, m_EdgeColorParameter ) ); //////////////////////Create Spheres///////////////////////// for(unsigned int i = 0; i < vectorOfNodes.size(); i++) { vtkSmartPointer sphereSource = vtkSmartPointer::New(); for(unsigned int dimension = 0; dimension < 3; dimension++) { tempCNFGeometryPoint.SetElement( dimension , vectorOfNodes[i].coordinates[dimension] ); } this->GetData()->GetGeometry()->IndexToWorld( tempCNFGeometryPoint, tempWorldPoint ); sphereSource->SetCenter( tempWorldPoint[0] , tempWorldPoint[1], tempWorldPoint[2] ); // determine radius double radiusFactor = vectorOfNodeRadiusParameterValues[i] / maxNodeRadiusParameterValue; double radius = m_NodeRadiusStart + ( m_NodeRadiusEnd - m_NodeRadiusStart) * radiusFactor; sphereSource->SetRadius( radius ); vtkSmartPointer mapper = vtkSmartPointer::New(); mapper->SetInput(sphereSource->GetOutput()); vtkSmartPointer actor = vtkSmartPointer::New(); actor->SetMapper(mapper); // determine color double colorFactor = vectorOfNodeColorParameterValues[i] / maxNodeColorParameterValue; double redStart = m_NodeColorStart.GetElement( 0 ); double greenStart = m_NodeColorStart.GetElement( 1 ); double blueStart = m_NodeColorStart.GetElement( 2 ); double redEnd = m_NodeColorEnd.GetElement( 0 ); double greenEnd = m_NodeColorEnd.GetElement( 1 ); double blueEnd = m_NodeColorEnd.GetElement( 2 ); double red = redStart + ( redEnd - redStart ) * colorFactor; double green = greenStart + ( greenEnd - greenStart ) * colorFactor; double blue = blueStart + ( blueEnd - blueStart ) * colorFactor; actor->GetProperty()->SetColor( red, green, blue); m_NetworkAssembly->AddPart(actor); } //////////////////////Create Tubes///////////////////////// double maxWeight = (double) this->GetInput()->GetMaximumWeight(); for(unsigned int i = 0; i < vectorOfEdges.size(); i++) { vtkSmartPointer lineSource = vtkSmartPointer::New(); for(unsigned int dimension = 0; dimension < 3; dimension++) { tempCNFGeometryPoint[ dimension ] = vectorOfEdges[i].first.first.coordinates[dimension]; } this->GetData()->GetGeometry()->IndexToWorld( tempCNFGeometryPoint, tempWorldPoint ); lineSource->SetPoint1(tempWorldPoint[0], tempWorldPoint[1],tempWorldPoint[2] ); for(unsigned int dimension = 0; dimension < 3; dimension++) { tempCNFGeometryPoint[ dimension ] = vectorOfEdges[i].first.second.coordinates[dimension]; } this->GetData()->GetGeometry()->IndexToWorld( tempCNFGeometryPoint, tempWorldPoint ); lineSource->SetPoint2(tempWorldPoint[0], tempWorldPoint[1], tempWorldPoint[2] ); vtkSmartPointer tubes = vtkSmartPointer::New(); tubes->SetInput( lineSource->GetOutput() ); tubes->SetNumberOfSides( 12 ); // determine radius double radiusFactor = vectorOfEdgeRadiusParameterValues[i] / maxEdgeRadiusParameterValue; double radius = m_EdgeRadiusStart + ( m_EdgeRadiusEnd - m_EdgeRadiusStart) * radiusFactor; tubes->SetRadius( radius ); // originally we used a logarithmic scaling, // double radiusFactor = 1.0 + ((double) vectorOfEdges[i].second.weight) / 10.0 ; // tubes->SetRadius( std::log10( radiusFactor ) ); vtkSmartPointer mapper2 = vtkSmartPointer::New(); mapper2->SetInput( tubes->GetOutput() ); vtkSmartPointer actor = vtkSmartPointer::New(); actor->SetMapper(mapper2); // determine color double colorFactor = vectorOfEdgeColorParameterValues[i] / maxEdgeColorParameterValue; double redStart = m_EdgeColorStart.GetElement( 0 ); double greenStart = m_EdgeColorStart.GetElement( 1 ); double blueStart = m_EdgeColorStart.GetElement( 2 ); double redEnd = m_EdgeColorEnd.GetElement( 0 ); double greenEnd = m_EdgeColorEnd.GetElement( 1 ); double blueEnd = m_EdgeColorEnd.GetElement( 2 ); double red = redStart + ( redEnd - redStart ) * colorFactor; double green = greenStart + ( greenEnd - greenStart ) * colorFactor; double blue = blueStart + ( blueEnd - blueStart ) * colorFactor; actor->GetProperty()->SetColor( red, green, blue); m_NetworkAssembly->AddPart(actor); } } else if( m_ChosenRenderingScheme == connectomicsRenderingVTKScheme ) { vtkSmartPointer graph = vtkSmartPointer::New(); std::vector< vtkIdType > networkToVTKvector; networkToVTKvector.resize(vectorOfNodes.size()); for(unsigned int i = 0; i < vectorOfNodes.size(); i++) { networkToVTKvector[vectorOfNodes[i].id] = graph->AddVertex(); } for(unsigned int i = 0; i < vectorOfEdges.size(); i++) { graph->AddEdge(networkToVTKvector[vectorOfEdges[i].first.first.id], networkToVTKvector[vectorOfEdges[i].first.second.id]); } vtkSmartPointer points = vtkSmartPointer::New(); for(unsigned int i = 0; i < vectorOfNodes.size(); i++) { double x = vectorOfNodes[i].coordinates[0]; double y = vectorOfNodes[i].coordinates[1]; double z = vectorOfNodes[i].coordinates[2]; points->InsertNextPoint( x, y, z); } graph->SetPoints(points); vtkGraphLayout* layout = vtkGraphLayout::New(); layout->SetInput(graph); layout->SetLayoutStrategy(vtkPassThroughLayoutStrategy::New()); vtkGraphToPolyData* graphToPoly = vtkGraphToPolyData::New(); graphToPoly->SetInputConnection(layout->GetOutputPort()); // Create the standard VTK polydata mapper and actor // for the connections (edges) in the tree. vtkPolyDataMapper* edgeMapper = vtkPolyDataMapper::New(); edgeMapper->SetInputConnection(graphToPoly->GetOutputPort()); vtkActor* edgeActor = vtkActor::New(); edgeActor->SetMapper(edgeMapper); edgeActor->GetProperty()->SetColor(0.0, 0.5, 1.0); // Glyph the points of the tree polydata to create // VTK_VERTEX cells at each vertex in the tree. vtkGlyph3D* vertGlyph = vtkGlyph3D::New(); vertGlyph->SetInputConnection(0, graphToPoly->GetOutputPort()); vtkGlyphSource2D* glyphSource = vtkGlyphSource2D::New(); glyphSource->SetGlyphTypeToVertex(); vertGlyph->SetInputConnection(1, glyphSource->GetOutputPort()); // Create a mapper for the vertices, and tell the mapper // to use the specified color array. vtkPolyDataMapper* vertMapper = vtkPolyDataMapper::New(); vertMapper->SetInputConnection(vertGlyph->GetOutputPort()); /*if (colorArray) { vertMapper->SetScalarModeToUsePointFieldData(); vertMapper->SelectColorArray(colorArray); vertMapper->SetScalarRange(colorRange); }*/ // Create an actor for the vertices. Move the actor forward // in the z direction so it is drawn on top of the edge actor. vtkActor* vertActor = vtkActor::New(); vertActor->SetMapper(vertMapper); vertActor->GetProperty()->SetPointSize(5); vertActor->SetPosition(0, 0, 0.001); m_NetworkAssembly->AddPart(edgeActor); m_NetworkAssembly->AddPart(vertActor); } (static_cast ( GetData() ) )->SetIsModified( false ); } const mitk::ConnectomicsNetwork* mitk::ConnectomicsNetworkMapper3D::GetInput() { return static_cast ( GetData() ); } void mitk::ConnectomicsNetworkMapper3D::SetDefaultProperties(DataNode* node, BaseRenderer* renderer , bool overwrite) { // Initialize enumeration properties mitk::ConnectomicsRenderingSchemeProperty::Pointer connectomicsRenderingScheme = mitk::ConnectomicsRenderingSchemeProperty::New(); mitk::ConnectomicsRenderingEdgeFilteringProperty::Pointer connectomicsRenderingEdgeFiltering = mitk::ConnectomicsRenderingEdgeFilteringProperty::New(); mitk::ConnectomicsRenderingNodeFilteringProperty::Pointer connectomicsRenderingNodeFiltering = mitk::ConnectomicsRenderingNodeFilteringProperty::New(); mitk::ConnectomicsRenderingNodeColorParameterProperty::Pointer connectomicsRenderingNodeGradientColorParameter = mitk::ConnectomicsRenderingNodeColorParameterProperty::New(); mitk::ConnectomicsRenderingNodeRadiusParameterProperty::Pointer connectomicsRenderingNodeRadiusParameter = mitk::ConnectomicsRenderingNodeRadiusParameterProperty::New(); mitk::ConnectomicsRenderingEdgeColorParameterProperty::Pointer connectomicsRenderingEdgeGradientColorParameter = mitk::ConnectomicsRenderingEdgeColorParameterProperty::New(); mitk::ConnectomicsRenderingEdgeRadiusParameterProperty::Pointer connectomicsRenderingEdgeRadiusParameter = mitk::ConnectomicsRenderingEdgeRadiusParameterProperty::New(); + mitk::ConnectomicsRenderingNodeThresholdParameterProperty::Pointer connectomicsRenderingNodeThresholdParameter = + mitk::ConnectomicsRenderingNodeThresholdParameterProperty::New(); + mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::Pointer connectomicsRenderingEdgeThresholdParameter = + mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::New(); + // set the properties node->AddProperty( connectomicsRenderingSchemePropertyName.c_str(), connectomicsRenderingScheme, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeFilteringPropertyName.c_str(), connectomicsRenderingEdgeFiltering, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeThresholdFilterParameterName.c_str(), - connectomicsRenderingEdgeThresholdFilterParameterDefault, renderer, overwrite ); + connectomicsRenderingEdgeThresholdParameter, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeThresholdFilterThresholdName.c_str(), connectomicsRenderingEdgeThresholdFilterThresholdDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeFilteringPropertyName.c_str(), connectomicsRenderingNodeFiltering, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeThresholdFilterParameterName.c_str(), - connectomicsRenderingNodeThresholdFilterParameterDefault, renderer, overwrite ); + connectomicsRenderingNodeThresholdParameter, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeThresholdFilterThresholdName.c_str(), connectomicsRenderingNodeThresholdFilterThresholdDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeGradientStartColorName.c_str(), connectomicsRenderingNodeGradientStartColorDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeGradientEndColorName.c_str(), connectomicsRenderingNodeGradientEndColorDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeGradientColorParameterName.c_str(), connectomicsRenderingNodeGradientColorParameter, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeRadiusStartName.c_str(), connectomicsRenderingNodeRadiusStartDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeRadiusEndName.c_str(), connectomicsRenderingNodeRadiusEndDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeRadiusParameterName.c_str(), connectomicsRenderingNodeRadiusParameter, renderer, overwrite ); node->AddProperty( connectomicsRenderingNodeChosenNodeName.c_str(), connectomicsRenderingNodeChosenNodeDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeGradientStartColorName.c_str(), connectomicsRenderingEdgeGradientStartColorDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeGradientEndColorName.c_str(), connectomicsRenderingEdgeGradientEndColorDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeGradientColorParameterName.c_str(), connectomicsRenderingEdgeGradientColorParameter, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeRadiusStartName.c_str(), connectomicsRenderingEdgeRadiusStartDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeRadiusEndName.c_str(), connectomicsRenderingEdgeRadiusEndDefault, renderer, overwrite ); node->AddProperty( connectomicsRenderingEdgeRadiusParameterName.c_str(), connectomicsRenderingEdgeRadiusParameter, renderer, overwrite ); Superclass::SetDefaultProperties(node, renderer, overwrite); } void mitk::ConnectomicsNetworkMapper3D::ApplyProperties(mitk::BaseRenderer* renderer) { //TODO: implement } void mitk::ConnectomicsNetworkMapper3D::SetVtkMapperImmediateModeRendering(vtkMapper *mapper) { //TODO: implement } void mitk::ConnectomicsNetworkMapper3D::UpdateVtkObjects() { //TODO: implement } vtkProp* mitk::ConnectomicsNetworkMapper3D::GetVtkProp(mitk::BaseRenderer *renderer) { return m_NetworkAssembly; } bool mitk::ConnectomicsNetworkMapper3D::PropertiesChanged() { mitk::ConnectomicsRenderingSchemeProperty * renderingScheme = static_cast< mitk::ConnectomicsRenderingSchemeProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingSchemePropertyName.c_str() ) ); mitk::ConnectomicsRenderingEdgeFilteringProperty * edgeFilter = static_cast< mitk::ConnectomicsRenderingEdgeFilteringProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeFilteringPropertyName.c_str() ) ); mitk::FloatProperty * edgeThreshold = static_cast< mitk::FloatProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeThresholdFilterThresholdName.c_str() ) ); mitk::ConnectomicsRenderingNodeFilteringProperty * nodeFilter = static_cast< mitk::ConnectomicsRenderingNodeFilteringProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeFilteringPropertyName.c_str() ) ); mitk::FloatProperty * nodeThreshold = static_cast< mitk::FloatProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeThresholdFilterThresholdName.c_str() ) ); mitk::ColorProperty * nodeColorStart = static_cast< mitk::ColorProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeGradientStartColorName.c_str() ) ); mitk::ColorProperty * nodeColorEnd = static_cast< mitk::ColorProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeGradientEndColorName.c_str() ) ); mitk::FloatProperty * nodeRadiusStart = static_cast< mitk::FloatProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeRadiusStartName.c_str() ) ); mitk::FloatProperty * nodeRadiusEnd = static_cast< mitk::FloatProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeRadiusEndName.c_str() ) ); mitk::StringProperty * chosenNode = static_cast< mitk::StringProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeChosenNodeName.c_str() ) ); mitk::ColorProperty * edgeColorStart = static_cast< mitk::ColorProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeGradientStartColorName.c_str() ) ); mitk::ColorProperty * edgeColorEnd = static_cast< mitk::ColorProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeGradientEndColorName.c_str() ) ); mitk::FloatProperty * edgeRadiusStart = static_cast< mitk::FloatProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeRadiusStartName.c_str() ) ); mitk::FloatProperty * edgeRadiusEnd = static_cast< mitk::FloatProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeRadiusEndName.c_str() ) ); mitk::ConnectomicsRenderingNodeColorParameterProperty * nodeColorParameter = static_cast< mitk::ConnectomicsRenderingNodeColorParameterProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeGradientColorParameterName.c_str() ) ); mitk::ConnectomicsRenderingNodeRadiusParameterProperty * nodeRadiusParameter = static_cast< mitk::ConnectomicsRenderingNodeRadiusParameterProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingNodeRadiusParameterName.c_str() ) ); mitk::ConnectomicsRenderingEdgeColorParameterProperty * edgeColorParameter = static_cast< mitk::ConnectomicsRenderingEdgeColorParameterProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeGradientColorParameterName.c_str() ) ); mitk::ConnectomicsRenderingEdgeRadiusParameterProperty * edgeRadiusParameter = static_cast< mitk::ConnectomicsRenderingEdgeRadiusParameterProperty * > ( this->GetDataNode()->GetProperty( connectomicsRenderingEdgeRadiusParameterName.c_str() ) ); if( m_ChosenRenderingScheme != renderingScheme->GetValueAsString() || m_ChosenEdgeFilter != edgeFilter->GetValueAsString() || m_EdgeThreshold != edgeThreshold->GetValue() || m_ChosenNodeFilter != nodeFilter->GetValueAsString() || m_NodeThreshold != nodeThreshold->GetValue() || m_NodeColorStart != nodeColorStart->GetValue() || m_NodeColorEnd != nodeColorEnd->GetValue() || m_NodeRadiusStart != nodeRadiusStart->GetValue() || m_NodeRadiusEnd != nodeRadiusEnd->GetValue() || m_ChosenNodeLabel != chosenNode->GetValueAsString() || m_EdgeColorStart != edgeColorStart->GetValue() || m_EdgeColorEnd != edgeColorEnd->GetValue() || m_EdgeRadiusStart != edgeRadiusStart->GetValue() || m_EdgeRadiusEnd != edgeRadiusEnd->GetValue() || m_NodeColorParameter != nodeColorParameter->GetValueAsString() || m_NodeRadiusParameter != nodeRadiusParameter->GetValueAsString() || m_EdgeColorParameter != edgeColorParameter->GetValueAsString() || m_EdgeRadiusParameter != edgeRadiusParameter->GetValueAsString() ) { m_ChosenRenderingScheme = renderingScheme->GetValueAsString(); m_ChosenEdgeFilter = edgeFilter->GetValueAsString(); m_EdgeThreshold = edgeThreshold->GetValue(); m_ChosenNodeFilter = nodeFilter->GetValueAsString(); m_NodeThreshold = nodeThreshold->GetValue(); m_NodeColorStart = nodeColorStart->GetValue(); m_NodeColorEnd = nodeColorEnd->GetValue(); m_NodeRadiusStart = nodeRadiusStart->GetValue(); m_NodeRadiusEnd = nodeRadiusEnd->GetValue(); m_ChosenNodeLabel = chosenNode->GetValueAsString(); m_EdgeColorStart = edgeColorStart->GetValue(); m_EdgeColorEnd = edgeColorEnd->GetValue(); m_EdgeRadiusStart = edgeRadiusStart->GetValue(); m_EdgeRadiusEnd = edgeRadiusEnd->GetValue(); m_NodeColorParameter = nodeColorParameter->GetValueAsString(); m_NodeRadiusParameter = nodeRadiusParameter->GetValueAsString(); m_EdgeColorParameter = edgeColorParameter->GetValueAsString(); m_EdgeRadiusParameter = edgeRadiusParameter->GetValueAsString(); return true; } return false; } double mitk::ConnectomicsNetworkMapper3D::FillNodeParameterVector( std::vector< double > * parameterVector, std::string parameterName ) { int end( parameterVector->size() ); // constant parameter - uniform style if( parameterName == connectomicsRenderingNodeParameterConstant ) { for(int index(0); index < end; index++) { parameterVector->at( index ) = 1.0; } return 1.0; } double maximum( 0.0 ); // using the degree as parameter if( parameterName == connectomicsRenderingNodeParameterDegree ) { std::vector< int > vectorOfDegree = this->GetInput()->GetDegreeOfNodes(); for(int index(0); index < end; index++) { parameterVector->at( index ) = vectorOfDegree[ index ]; } maximum = *std::max_element( parameterVector->begin(), parameterVector->end() ); } // using betweenness centrality as parameter if( parameterName == connectomicsRenderingNodeParameterBetweenness ) { std::vector< double > vectorOfBetweenness = this->GetInput()->GetBetweennessVector(); for(int index(0); index < end; index++) { parameterVector->at( index ) = vectorOfBetweenness[index]; } maximum = *std::max_element( parameterVector->begin(), parameterVector->end() ); } // using clustering coefficient as parameter if( parameterName == connectomicsRenderingNodeParameterClustering ) { const std::vector< double > vectorOfClustering = this->GetInput()->GetLocalClusteringCoefficients(); for(int index(0); index < end; index++) { parameterVector->at( index ) = vectorOfClustering[index]; } maximum = *std::max_element( parameterVector->begin(), parameterVector->end() ); } // using distance to a specific node as parameter if( parameterName == connectomicsRenderingNodeParameterColoringShortestPath ) { bool labelFound( this->GetInput()->CheckForLabel( m_ChosenNodeLabel ) ); // check whether the chosen node is valid if( !labelFound ) { MITK_WARN << "Node chosen for rendering is not valid."; for(int index(0); index < end; index++) { parameterVector->at( index ) = 1.0; } return 1.0; } else { const std::vector< double > distanceVector = this->GetInput()->GetShortestDistanceVectorFromLabel( m_ChosenNodeLabel ); for(int index(0); index < end; index++) { parameterVector->at( index ) = distanceVector[index]; } maximum = *std::max_element( parameterVector->begin(), parameterVector->end() ); } } // if the maximum is nearly zero if( std::abs( maximum ) < mitk::eps ) { maximum = 1.0; } return maximum; } double mitk::ConnectomicsNetworkMapper3D::FillEdgeParameterVector( std::vector< double > * parameterVector, std::string parameterName ) { int end( parameterVector->size() ); // constant parameter - uniform style if( parameterName == connectomicsRenderingEdgeParameterConstant ) { for(int index(0); index < end; index++) { parameterVector->at( index ) = 1.0; } return 1.0; } double maximum( 0.0 ); // using the weight as parameter if( parameterName == connectomicsRenderingEdgeParameterWeight ) { std::vector< std::pair< std::pair< mitk::ConnectomicsNetwork::NetworkNode, mitk::ConnectomicsNetwork::NetworkNode > , mitk::ConnectomicsNetwork::NetworkEdge > > vectorOfEdges = this->GetInput()->GetVectorOfAllEdges(); for(int index(0); index < end; index++) { parameterVector->at( index ) = vectorOfEdges[ index ].second.weight; } maximum = *std::max_element( parameterVector->begin(), parameterVector->end() ); } // if the maximum is nearly zero if( std::abs( maximum ) < mitk::eps ) { maximum = 1.0; } return maximum; } diff --git a/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.cpp b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.cpp new file mode 100644 index 0000000000..d87aa806ca --- /dev/null +++ b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.cpp @@ -0,0 +1,66 @@ +/*=================================================================== + +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 "mitkConnectomicsRenderingEdgeThresholdParameterProperty.h" +#include "mitkConnectomicsRenderingProperties.h" + +#define EDGE_THRESHOLD_WEIGHT 0 + +mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::ConnectomicsRenderingEdgeThresholdParameterProperty( ) +{ + AddRenderingEdgeThresholdParameters(); + SetValue( EDGE_THRESHOLD_WEIGHT ); +} + + +mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::ConnectomicsRenderingEdgeThresholdParameterProperty( const IdType& value ) +{ + AddRenderingEdgeThresholdParameters(); + if ( IsValidEnumerationValue( value ) ) + { + SetValue( value ) ; + } + else + { + SetValue( EDGE_THRESHOLD_WEIGHT ); + } +} + +mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::ConnectomicsRenderingEdgeThresholdParameterProperty( const std::string& value ) +{ + AddRenderingEdgeThresholdParameters(); + if ( IsValidEnumerationValue( value ) ) + { + SetValue( value ); + } + else + { + SetValue( EDGE_THRESHOLD_WEIGHT ); + } +} + + + +void mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::AddRenderingEdgeThresholdParameters() +{ + AddEnum( connectomicsRenderingEdgeParameterWeight , EDGE_THRESHOLD_WEIGHT ); +} + + +bool mitk::ConnectomicsRenderingEdgeThresholdParameterProperty::AddEnum( const std::string& name, const IdType& id ) +{ + return Superclass::AddEnum( name, id ); +} diff --git a/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.h b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.h new file mode 100644 index 0000000000..3a0d7bef6e --- /dev/null +++ b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.h @@ -0,0 +1,94 @@ +/*=================================================================== + +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. + +===================================================================*/ + +#ifndef _MITK_CONNECTOMICS_RENDERING_EDGE_THRESHOLD_PARAMETER_PROPERTY__H_ +#define _MITK_CONNECTOMICS_RENDERING_EDGE_THRESHOLD_PARAMETER_PROPERTY__H_ + +#include "mitkEnumerationProperty.h" +#include "MitkDiffusionImagingExports.h" + +namespace mitk +{ + +#ifdef _MSC_VER +# pragma warning(push) +# pragma warning(disable: 4522) +#endif + +/** + * Encapsulates the enumeration of different rendering schemes for connectomics networks + */ +class MitkDiffusionImaging_EXPORT ConnectomicsRenderingEdgeThresholdParameterProperty : public EnumerationProperty +{ +public: + + mitkClassMacro( ConnectomicsRenderingEdgeThresholdParameterProperty, EnumerationProperty ); + + itkNewMacro(ConnectomicsRenderingEdgeThresholdParameterProperty); + + mitkNewMacro1Param(ConnectomicsRenderingEdgeThresholdParameterProperty, const IdType&); + + mitkNewMacro1Param(ConnectomicsRenderingEdgeThresholdParameterProperty, const std::string&); + + using BaseProperty::operator=; + +protected: + + /** + * Constructor. Sets the representation to a default value of 0 + */ + ConnectomicsRenderingEdgeThresholdParameterProperty( ); + + /** + * Constructor. Sets the parameter to the given value. If it is not + * valid, the value is set to 0 + * @param value the integer representation of the parameter + */ + ConnectomicsRenderingEdgeThresholdParameterProperty( const IdType& value ); + + /** + * Constructor. Sets the parameter to the given value. If it is not + * valid, the value is set to 0 + * @param value the string representation of the parameter + */ + ConnectomicsRenderingEdgeThresholdParameterProperty( const std::string& value ); + + /** + * this function is overridden as protected, so that the user may not add + * additional enumerations. + */ + virtual bool AddEnum( const std::string& name, const IdType& id ); + + /** + * Adds the enumeration types as defined by vtk to the list of known + * enumeration values. + */ + virtual void AddRenderingEdgeThresholdParameters(); + +private: + + // purposely not implemented + ConnectomicsRenderingEdgeThresholdParameterProperty(const ConnectomicsRenderingEdgeThresholdParameterProperty&); + ConnectomicsRenderingEdgeThresholdParameterProperty& operator=(const ConnectomicsRenderingEdgeThresholdParameterProperty&); +}; + +#ifdef _MSC_VER +# pragma warning(pop) +#endif + +} // end of namespace mitk + +#endif diff --git a/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.cpp b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.cpp new file mode 100644 index 0000000000..0fbb89f439 --- /dev/null +++ b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.cpp @@ -0,0 +1,70 @@ +/*=================================================================== + +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 "mitkConnectomicsRenderingNodeThresholdParameterProperty.h" +#include "mitkConnectomicsRenderingProperties.h" + +#define NODE_THRESHOLD_DEGREE 0 +#define NODE_THRESHOLD_BETWEENNESS 1 +#define NODE_THRESHOLD_CLUSTERING 2 + +mitk::ConnectomicsRenderingNodeThresholdParameterProperty::ConnectomicsRenderingNodeThresholdParameterProperty( ) +{ + AddRenderingNodeThresholdParameters(); + SetValue( NODE_THRESHOLD_DEGREE ); +} + + +mitk::ConnectomicsRenderingNodeThresholdParameterProperty::ConnectomicsRenderingNodeThresholdParameterProperty( const IdType& value ) +{ + AddRenderingNodeThresholdParameters(); + if ( IsValidEnumerationValue( value ) ) + { + SetValue( value ) ; + } + else + { + SetValue( NODE_THRESHOLD_DEGREE ); + } +} + +mitk::ConnectomicsRenderingNodeThresholdParameterProperty::ConnectomicsRenderingNodeThresholdParameterProperty( const std::string& value ) +{ + AddRenderingNodeThresholdParameters(); + if ( IsValidEnumerationValue( value ) ) + { + SetValue( value ); + } + else + { + SetValue( NODE_THRESHOLD_DEGREE ); + } +} + + + +void mitk::ConnectomicsRenderingNodeThresholdParameterProperty::AddRenderingNodeThresholdParameters() +{ + AddEnum( connectomicsRenderingNodeParameterDegree , NODE_THRESHOLD_DEGREE ); + AddEnum( connectomicsRenderingNodeParameterBetweenness , NODE_THRESHOLD_BETWEENNESS ); + AddEnum( connectomicsRenderingNodeParameterClustering , NODE_THRESHOLD_CLUSTERING ); +} + + +bool mitk::ConnectomicsRenderingNodeThresholdParameterProperty::AddEnum( const std::string& name, const IdType& id ) +{ + return Superclass::AddEnum( name, id ); +} diff --git a/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.h b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.h new file mode 100644 index 0000000000..22bef2a13f --- /dev/null +++ b/Modules/DiffusionImaging/Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.h @@ -0,0 +1,94 @@ +/*=================================================================== + +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. + +===================================================================*/ + +#ifndef _MITK_CONNECTOMICS_RENDERING_NODE_THRESHOLD_PARAMETER_PROPERTY__H_ +#define _MITK_CONNECTOMICS_RENDERING_NODE_THRESHOLD_PARAMETER_PROPERTY__H_ + +#include "mitkEnumerationProperty.h" +#include "MitkDiffusionImagingExports.h" + +namespace mitk +{ + +#ifdef _MSC_VER +# pragma warning(push) +# pragma warning(disable: 4522) +#endif + +/** + * Encapsulates the enumeration of different rendering schemes for connectomics networks + */ +class MitkDiffusionImaging_EXPORT ConnectomicsRenderingNodeThresholdParameterProperty : public EnumerationProperty +{ +public: + + mitkClassMacro( ConnectomicsRenderingNodeThresholdParameterProperty, EnumerationProperty ); + + itkNewMacro(ConnectomicsRenderingNodeThresholdParameterProperty); + + mitkNewMacro1Param(ConnectomicsRenderingNodeThresholdParameterProperty, const IdType&); + + mitkNewMacro1Param(ConnectomicsRenderingNodeThresholdParameterProperty, const std::string&); + + using BaseProperty::operator=; + +protected: + + /** + * Constructor. Sets the representation to a default value of 0 + */ + ConnectomicsRenderingNodeThresholdParameterProperty( ); + + /** + * Constructor. Sets the parameter to the given value. If it is not + * valid, the value is set to 0 + * @param value the integer representation of the parameter + */ + ConnectomicsRenderingNodeThresholdParameterProperty( const IdType& value ); + + /** + * Constructor. Sets the parameter to the given value. If it is not + * valid, the value is set to 0 + * @param value the string representation of the parameter + */ + ConnectomicsRenderingNodeThresholdParameterProperty( const std::string& value ); + + /** + * this function is overridden as protected, so that the user may not add + * additional enumerations. + */ + virtual bool AddEnum( const std::string& name, const IdType& id ); + + /** + * Adds the enumeration types as defined by vtk to the list of known + * enumeration values. + */ + virtual void AddRenderingNodeThresholdParameters(); + +private: + + // purposely not implemented + ConnectomicsRenderingNodeThresholdParameterProperty(const ConnectomicsRenderingNodeThresholdParameterProperty&); + ConnectomicsRenderingNodeThresholdParameterProperty& operator=(const ConnectomicsRenderingNodeThresholdParameterProperty&); +}; + +#ifdef _MSC_VER +# pragma warning(pop) +#endif + +} // end of namespace mitk + +#endif diff --git a/Modules/DiffusionImaging/files.cmake b/Modules/DiffusionImaging/files.cmake index 4c335b7b32..7bb74e3ce0 100644 --- a/Modules/DiffusionImaging/files.cmake +++ b/Modules/DiffusionImaging/files.cmake @@ -1,277 +1,281 @@ set(CPP_FILES # DicomImport DicomImport/mitkDicomDiffusionImageReader.cpp DicomImport/mitkGroupDiffusionHeadersFilter.cpp DicomImport/mitkDicomDiffusionImageHeaderReader.cpp DicomImport/mitkGEDicomDiffusionImageHeaderReader.cpp DicomImport/mitkPhilipsDicomDiffusionImageHeaderReader.cpp DicomImport/mitkSiemensDicomDiffusionImageHeaderReader.cpp DicomImport/mitkSiemensMosaicDicomDiffusionImageHeaderReader.cpp # DataStructures IODataStructures/mitkDiffusionImagingObjectFactory.cpp # DataStructures -> DWI IODataStructures/DiffusionWeightedImages/mitkDiffusionImageHeaderInformation.cpp IODataStructures/DiffusionWeightedImages/mitkDiffusionImageSource.cpp IODataStructures/DiffusionWeightedImages/mitkNrrdDiffusionImageReader.cpp IODataStructures/DiffusionWeightedImages/mitkNrrdDiffusionImageWriter.cpp IODataStructures/DiffusionWeightedImages/mitkNrrdDiffusionImageIOFactory.cpp IODataStructures/DiffusionWeightedImages/mitkNrrdDiffusionImageWriterFactory.cpp IODataStructures/DiffusionWeightedImages/mitkDiffusionImageSerializer.cpp # DataStructures -> QBall IODataStructures/QBallImages/mitkQBallImageSource.cpp IODataStructures/QBallImages/mitkNrrdQBallImageReader.cpp IODataStructures/QBallImages/mitkNrrdQBallImageWriter.cpp IODataStructures/QBallImages/mitkNrrdQBallImageIOFactory.cpp IODataStructures/QBallImages/mitkNrrdQBallImageWriterFactory.cpp IODataStructures/QBallImages/mitkQBallImage.cpp IODataStructures/QBallImages/mitkQBallImageSerializer.cpp # DataStructures -> Tensor IODataStructures/TensorImages/mitkTensorImageSource.cpp IODataStructures/TensorImages/mitkNrrdTensorImageReader.cpp IODataStructures/TensorImages/mitkNrrdTensorImageWriter.cpp IODataStructures/TensorImages/mitkNrrdTensorImageIOFactory.cpp IODataStructures/TensorImages/mitkNrrdTensorImageWriterFactory.cpp IODataStructures/TensorImages/mitkTensorImage.cpp IODataStructures/TensorImages/mitkTensorImageSerializer.cpp # DataStructures -> FiberBundleX IODataStructures/FiberBundleX/mitkFiberBundleX.cpp IODataStructures/FiberBundleX/mitkFiberBundleXWriter.cpp IODataStructures/FiberBundleX/mitkFiberBundleXReader.cpp IODataStructures/FiberBundleX/mitkFiberBundleXIOFactory.cpp IODataStructures/FiberBundleX/mitkFiberBundleXWriterFactory.cpp IODataStructures/FiberBundleX/mitkFiberBundleXSerializer.cpp IODataStructures/FiberBundleX/mitkFiberBundleXThreadMonitor.cpp # DataStructures -> PlanarFigureComposite IODataStructures/PlanarFigureComposite/mitkPlanarFigureComposite.cpp # DataStructures -> Tbss IODataStructures/TbssImages/mitkTbssImageSource.cpp IODataStructures/TbssImages/mitkTbssRoiImageSource.cpp IODataStructures/TbssImages/mitkNrrdTbssImageReader.cpp IODataStructures/TbssImages/mitkNrrdTbssImageIOFactory.cpp IODataStructures/TbssImages/mitkNrrdTbssRoiImageReader.cpp IODataStructures/TbssImages/mitkNrrdTbssRoiImageIOFactory.cpp IODataStructures/TbssImages/mitkTbssImage.cpp IODataStructures/TbssImages/mitkTbssRoiImage.cpp IODataStructures/TbssImages/mitkNrrdTbssImageWriter.cpp IODataStructures/TbssImages/mitkNrrdTbssImageWriterFactory.cpp IODataStructures/TbssImages/mitkNrrdTbssRoiImageWriter.cpp IODataStructures/TbssImages/mitkNrrdTbssRoiImageWriterFactory.cpp IODataStructures/TbssImages/mitkTbssImporter.cpp # DataStructures Connectomics IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetwork.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkReader.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkIOFactory.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkSerializer.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkWriter.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkWriterFactory.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkDefinitions.cpp IODataStructures/ConnectomicsNetwork/mitkConnectomicsConstantsManager.cpp # Rendering Rendering/vtkMaskedProgrammableGlyphFilter.cpp Rendering/mitkCompositeMapper.cpp Rendering/mitkVectorImageVtkGlyphMapper3D.cpp Rendering/vtkOdfSource.cxx Rendering/vtkThickPlane.cxx Rendering/mitkOdfNormalizationMethodProperty.cpp Rendering/mitkOdfScaleByProperty.cpp Rendering/mitkFiberBundleXMapper2D.cpp Rendering/mitkFiberBundleXMapper3D.cpp Rendering/mitkFiberBundleXThreadMonitorMapper3D.cpp Rendering/mitkTbssImageMapper.cpp Rendering/mitkPlanarFigureMapper3D.cpp # Rendering Connectomics Rendering/mitkConnectomicsNetworkMapper3D.cpp Rendering/mitkConnectomicsRenderingSchemeProperty.cpp Rendering/mitkConnectomicsRenderingEdgeFilteringProperty.cpp Rendering/mitkConnectomicsRenderingNodeFilteringProperty.cpp Rendering/mitkConnectomicsRenderingEdgeColorParameterProperty.cpp Rendering/mitkConnectomicsRenderingEdgeRadiusParameterProperty.cpp Rendering/mitkConnectomicsRenderingNodeColorParameterProperty.cpp Rendering/mitkConnectomicsRenderingNodeRadiusParameterProperty.cpp + Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.cpp + Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.cpp # Interactions Interactions/mitkFiberBundleInteractor.cpp # Algorithms Algorithms/mitkPartialVolumeAnalysisHistogramCalculator.cpp Algorithms/mitkPartialVolumeAnalysisClusteringCalculator.cpp Algorithms/mitkTractAnalyzer.cpp # Algorithms Connectomics Algorithms/Connectomics/mitkConnectomicsNetworkCreator.cpp Algorithms/Connectomics/mitkConnectomicsHistogramBase.cpp Algorithms/Connectomics/mitkConnectomicsDegreeHistogram.cpp Algorithms/Connectomics/mitkConnectomicsShortestPathHistogram.cpp Algorithms/Connectomics/mitkConnectomicsBetweennessHistogram.cpp Algorithms/Connectomics/mitkConnectomicsHistogramCache.cpp Algorithms/Connectomics/mitkConnectomicsSyntheticNetworkGenerator.cpp Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingPermutationBase.cpp Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingPermutationModularity.cpp Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingManager.cpp Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingCostFunctionBase.cpp Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingCostFunctionModularity.cpp Algorithms/Connectomics/itkConnectomicsNetworkToConnectivityMatrixImageFilter.cpp # Tractography Tractography/GibbsTracking/mitkParticleGrid.cpp Tractography/GibbsTracking/mitkMetropolisHastingsSampler.cpp Tractography/GibbsTracking/mitkEnergyComputer.cpp Tractography/GibbsTracking/mitkGibbsEnergyComputer.cpp Tractography/GibbsTracking/mitkFiberBuilder.cpp # Function Collection mitkDiffusionFunctionCollection.cpp ) set(H_FILES # function Collection mitkDiffusionFunctionCollection.h # Rendering Rendering/mitkDiffusionImageMapper.h Rendering/mitkTbssImageMapper.h Rendering/mitkOdfVtkMapper2D.h Rendering/mitkFiberBundleXMapper3D.h Rendering/mitkFiberBundleXMapper2D.h Rendering/mitkFiberBundleXThreadMonitorMapper3D.h Rendering/mitkPlanarFigureMapper3D.h # Rendering Connectomics Rendering/mitkConnectomicsNetworkMapper3D.h Rendering/mitkConnectomicsRenderingProperties.h Rendering/mitkConnectomicsRenderingSchemeProperty.h Rendering/mitkConnectomicsRenderingEdgeFilteringProperty.h Rendering/mitkConnectomicsRenderingNodeFilteringProperty.h Rendering/mitkConnectomicsRenderingEdgeColorParameterProperty.h Rendering/mitkConnectomicsRenderingEdgeRadiusParameterProperty.h Rendering/mitkConnectomicsRenderingNodeColorParameterProperty.h Rendering/mitkConnectomicsRenderingNodeRadiusParameterProperty.h + Rendering/mitkConnectomicsRenderingNodeThresholdParameterProperty.h + Rendering/mitkConnectomicsRenderingEdgeThresholdParameterProperty.h # Reconstruction Reconstruction/itkDiffusionQballReconstructionImageFilter.h Reconstruction/mitkTeemDiffusionTensor3DReconstructionImageFilter.h Reconstruction/itkAnalyticalDiffusionQballReconstructionImageFilter.h Reconstruction/itkDiffusionMultiShellQballReconstructionImageFilter.h Reconstruction/itkPointShell.h Reconstruction/itkOrientationDistributionFunction.h Reconstruction/itkDiffusionIntravoxelIncoherentMotionReconstructionImageFilter.h Reconstruction/itkRegularizedIVIMLocalVariationImageFilter.h Reconstruction/itkRegularizedIVIMReconstructionFilter.h Reconstruction/itkRegularizedIVIMReconstructionSingleIteration.h # IO Datastructures IODataStructures/DiffusionWeightedImages/mitkDiffusionImage.h IODataStructures/TbssImages/mitkTbssImporter.h # DataStructures -> FiberBundleX IODataStructures/FiberBundleX/mitkFiberBundleX.h IODataStructures/FiberBundleX/mitkFiberBundleXWriter.h IODataStructures/FiberBundleX/mitkFiberBundleXReader.h IODataStructures/FiberBundleX/mitkFiberBundleXIOFactory.h IODataStructures/FiberBundleX/mitkFiberBundleXWriterFactory.h IODataStructures/FiberBundleX/mitkFiberBundleXSerializer.h IODataStructures/FiberBundleX/mitkFiberBundleXThreadMonitor.h # Datastructures Connectomics IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetwork.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkReader.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkIOFactory.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkSerializer.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkWriter.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkWriterFactory.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsNetworkDefinitions.h IODataStructures/ConnectomicsNetwork/mitkConnectomicsConstantsManager.h # Tractography Tractography/itkGibbsTrackingFilter.h Tractography/itkStochasticTractographyFilter.h Tractography/itkStreamlineTrackingFilter.h Tractography/GibbsTracking/mitkParticle.h Tractography/GibbsTracking/mitkParticleGrid.h Tractography/GibbsTracking/mitkMetropolisHastingsSampler.h Tractography/GibbsTracking/mitkSimpSamp.h Tractography/GibbsTracking/mitkEnergyComputer.h Tractography/GibbsTracking/mitkGibbsEnergyComputer.h Tractography/GibbsTracking/mitkSphereInterpolator.h Tractography/GibbsTracking/mitkFiberBuilder.h # Algorithms Algorithms/itkDiffusionQballGeneralizedFaImageFilter.h Algorithms/itkDiffusionQballPrepareVisualizationImageFilter.h Algorithms/itkTensorDerivedMeasurementsFilter.h Algorithms/itkBrainMaskExtractionImageFilter.h Algorithms/itkB0ImageExtractionImageFilter.h Algorithms/itkB0ImageExtractionToSeparateImageFilter.h Algorithms/itkTensorImageToDiffusionImageFilter.h Algorithms/itkTensorToL2NormImageFilter.h Algorithms/itkTractDensityImageFilter.h Algorithms/itkTractsToFiberEndingsImageFilter.h Algorithms/itkTractsToRgbaImageFilter.h Algorithms/itkGaussianInterpolateImageFunction.h Algorithms/mitkPartialVolumeAnalysisHistogramCalculator.h Algorithms/mitkPartialVolumeAnalysisClusteringCalculator.h Algorithms/itkDiffusionTensorPrincipalDirectionImageFilter.h Algorithms/itkCartesianToPolarVectorImageFilter.h Algorithms/itkPolarToCartesianVectorImageFilter.h Algorithms/itkDistanceMapFilter.h Algorithms/itkProjectionFilter.h Algorithms/itkSkeletonizationFilter.h Algorithms/itkResidualImageFilter.h Algorithms/itkExtractChannelFromRgbaImageFilter.h Algorithms/itkTensorReconstructionWithEigenvalueCorrectionFilter.h Algorithms/itkElectrostaticRepulsionDiffusionGradientReductionFilter.h Algorithms/itkMergeDiffusionImagesFilter.h Algorithms/itkDwiPhantomGenerationFilter.h Algorithms/itkFiniteDiffOdfMaximaExtractionFilter.h Algorithms/itkMrtrixPeakImageConverter.h Algorithms/itkFslPeakImageConverter.h Algorithms/itkFslShCoefficientImageConverter.h Algorithms/itkOdfMaximaExtractionFilter.h Algorithms/itkFibersFromPlanarFiguresFilter.h Algorithms/itkTractsToDWIImageFilter.h Algorithms/itkTractsToVectorImageFilter.h # Algorithms Connectomics Algorithms/Connectomics/mitkConnectomicsNetworkCreator.h Algorithms/Connectomics/mitkConnectomicsHistogramBase.h Algorithms/Connectomics/mitkConnectomicsDegreeHistogram.h Algorithms/Connectomics/mitkConnectomicsShortestPathHistogram.h Algorithms/Connectomics/mitkConnectomicsBetweennessHistogram.h Algorithms/Connectomics/mitkConnectomicsHistogramCache.h Algorithms/Connectomics/mitkConnectomicsSyntheticNetworkGenerator.h Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingPermutationBase.h Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingPermutationModularity.h Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingManager.h Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingCostFunctionBase.h Algorithms/Connectomics/mitkConnectomicsSimulatedAnnealingCostFunctionModularity.h Algorithms/Connectomics/itkConnectomicsNetworkToConnectivityMatrixImageFilter.h SignalModels/mitkDiffusionSignalModel.h SignalModels/mitkTensorModel.h SignalModels/mitkBallModel.h SignalModels/mitkStickModel.h SignalModels/mitkDiffusionNoiseModel.h SignalModels/mitkRicianNoiseModel.h SignalModels/mitkKspaceArtifact.h SignalModels/mitkGibbsRingingArtifact.h SignalModels/mitkT2SmearingArtifact.h ) set( TOOL_FILES ) if(WIN32) endif(WIN32) #MITK_MULTIPLEX_PICTYPE( Algorithms/mitkImageRegistrationMethod-TYPE.cpp )