diff --git a/Core/Code/Rendering/mitkPointSetVtkMapper3D.cpp b/Core/Code/Rendering/mitkPointSetVtkMapper3D.cpp
index e315d83c12..5d348124f9 100755
--- a/Core/Code/Rendering/mitkPointSetVtkMapper3D.cpp
+++ b/Core/Code/Rendering/mitkPointSetVtkMapper3D.cpp
@@ -1,675 +1,673 @@
 /*=========================================================================
 
 Program:   Medical Imaging & Interaction Toolkit
 Language:  C++
 Date:      $Date$
 Version:   $Revision$
 
 Copyright (c) German Cancer Research Center, Division of Medical and
 Biological Informatics. All rights reserved.
 See MITKCopyright.txt or http://www.mitk.org/copyright.html for details.
 
 This software is distributed WITHOUT ANY WARRANTY; without even
 the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
 PURPOSE.  See the above copyright notices for more information.
 
 =========================================================================*/
 
 
 #include "mitkPointSetVtkMapper3D.h"
 #include "mitkDataNode.h"
 #include "mitkProperties.h"
 #include "mitkColorProperty.h"
 #include "mitkVtkPropRenderer.h"
 #include "mitkPointSet.h"
 
 #include <vtkActor.h>
 #include <vtkAppendPolyData.h>
 #include <vtkPropAssembly.h>
 #include <vtkTubeFilter.h>
 #include <vtkRenderer.h>
 #include <vtkSphereSource.h>
 #include <vtkCubeSource.h>
 #include <vtkConeSource.h>
 #include <vtkCylinderSource.h>
 #include <vtkProperty.h>
 #include <vtkPolyDataMapper.h>
 #include <vtkCellArray.h>
 #include <vtkVectorText.h>
 #include <vtkTransform.h>
 #include <vtkTransformPolyDataFilter.h>
 
 #if (VTK_MAJOR_VERSION >= 5)
 #include <vtkPolyDataAlgorithm.h>
 #else
 #include <vtkPolyData.h>
 #endif
 
 #include <stdlib.h>
 
 
 
 const mitk::PointSet* mitk::PointSetVtkMapper3D::GetInput()
 {
   return static_cast<const mitk::PointSet * > ( GetData() );
 }
 
 mitk::PointSetVtkMapper3D::PointSetVtkMapper3D() 
 : m_vtkSelectedPointList(NULL),
  m_vtkUnselectedPointList(NULL), 
  //m_vtkContourPolyData(NULL),
  m_VtkSelectedPolyDataMapper(NULL), 
  m_VtkUnselectedPolyDataMapper(NULL),
  //m_vtkContourPolyDataMapper(NULL),
  m_vtkTextList(NULL), 
  //m_Contour(NULL), 
  //m_TubeFilter(NULL),
  m_NumberOfSelectedAdded(0), 
  m_NumberOfUnselectedAdded(0),
  m_PointSize(1.0),
  m_ContourRadius(0.5)
 {
   //propassembly
   m_PointsAssembly = vtkPropAssembly::New();
 
   //creating actors to be able to set transform
   m_SelectedActor = vtkActor::New();
   m_UnselectedActor = vtkActor::New();
   m_ContourActor = vtkActor::New();
 }
 
 mitk::PointSetVtkMapper3D::~PointSetVtkMapper3D()
 {
   m_PointsAssembly->Delete();
 
   m_SelectedActor->Delete();
   m_UnselectedActor->Delete();
   m_ContourActor->Delete();
 }
 
 void mitk::PointSetVtkMapper3D::ReleaseGraphicsResources(vtkWindow *renWin)
 {
   m_PointsAssembly->ReleaseGraphicsResources(renWin);
 
   m_SelectedActor->ReleaseGraphicsResources(renWin);
   m_UnselectedActor->ReleaseGraphicsResources(renWin);
   m_ContourActor->ReleaseGraphicsResources(renWin);
 }
 
 void mitk::PointSetVtkMapper3D::CreateVTKRenderObjects()
 {
   m_vtkSelectedPointList = vtkAppendPolyData::New();
   m_vtkUnselectedPointList = vtkAppendPolyData::New();
 
   m_PointsAssembly->VisibilityOn();
 
   if(m_PointsAssembly->GetParts()->IsItemPresent(m_SelectedActor))
     m_PointsAssembly->RemovePart(m_SelectedActor);
   if(m_PointsAssembly->GetParts()->IsItemPresent(m_UnselectedActor))
     m_PointsAssembly->RemovePart(m_UnselectedActor);
   if(m_PointsAssembly->GetParts()->IsItemPresent(m_ContourActor))
     m_PointsAssembly->RemovePart(m_ContourActor);
 
   // exceptional displaying for PositionTracker -> MouseOrientationTool
   int mapperID;
   bool isInputDevice=false;   
   if( this->GetDataNode()->GetBoolProperty("inputdevice",isInputDevice) && isInputDevice )
   {
     if( this->GetDataNode()->GetIntProperty("BaseRendererMapperID",mapperID) && mapperID == 2)
       return; //The event for the PositionTracker came from the 3d widget and  not needs to be displayed
   }
 
   // get and update the PointSet
   mitk::PointSet::Pointer input  = const_cast<mitk::PointSet*>(this->GetInput());
   
   /* only update the input data, if the property tells us to */
   bool update = true;
   this->GetDataNode()->GetBoolProperty("updateDataOnRender", update);
   if (update == true)
     input->Update();
 
   int timestep = this->GetTimestep();
 
   mitk::PointSet::DataType::Pointer itkPointSet = input->GetPointSet( timestep );
 
   if ( itkPointSet.GetPointer() == NULL) 
   {
     m_PointsAssembly->VisibilityOff();
     return;
   }
 
   mitk::PointSet::PointsContainer::Iterator pointsIter;
   mitk::PointSet::PointDataContainer::Iterator pointDataIter;
   int j;
 
   m_NumberOfSelectedAdded = 0;
   m_NumberOfUnselectedAdded = 0;
 
   //create contour
   bool makeContour = false;
   this->GetDataNode()->GetBoolProperty("show contour", makeContour);
   if (makeContour)
   {
     this->CreateContour(NULL);
   }
 
   //now fill selected and unselected pointList
   //get size of Points in Property
   m_PointSize = 2;
   mitk::FloatProperty::Pointer pointSizeProp = dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetProperty("pointsize"));
   if ( pointSizeProp.IsNotNull() )
     m_PointSize = pointSizeProp->GetValue();
 
   //get the property for creating a label onto every point only once
   bool showLabel = true;
   this->GetDataNode()->GetBoolProperty("show label", showLabel);
   const char * pointLabel=NULL;
   if(showLabel)
   {
     if(dynamic_cast<mitk::StringProperty *>(this->GetDataNode()->GetPropertyList()->GetProperty("label")) != NULL)
       pointLabel =dynamic_cast<mitk::StringProperty *>(this->GetDataNode()->GetPropertyList()->GetProperty("label"))->GetValue();
     else
       showLabel = false;
   }
 
 
   //check if the list for the PointDataContainer is the same size as the PointsContainer. Is not, then the points were inserted manually and can not be visualized according to the PointData (selected/unselected)
   bool pointDataBroken = (itkPointSet->GetPointData()->Size() != itkPointSet->GetPoints()->Size());
   //now add an object for each point in data
   pointDataIter = itkPointSet->GetPointData()->Begin();
   for (j=0, pointsIter=itkPointSet->GetPoints()->Begin(); 
     pointsIter!=itkPointSet->GetPoints()->End();
     pointsIter++, j++)
   {
     //check for the pointtype in data and decide which geom-object to take and then add to the selected or unselected list
     int pointType;
 
     if(itkPointSet->GetPointData()->size() == 0 || pointDataBroken)
       pointType = mitk::PTUNDEFINED;
     else
       pointType = pointDataIter.Value().pointSpec;
 
 #if (VTK_MAJOR_VERSION >= 5)
     vtkPolyDataAlgorithm *source;
 #else
     vtkPolyDataSource *source;
 #endif
 
     switch (pointType)
     {
     case mitk::PTUNDEFINED:
       {
         vtkSphereSource *sphere = vtkSphereSource::New();
         sphere->SetRadius(m_PointSize);
         itk::Point<float> point1 = pointsIter->Value();
         sphere->SetCenter(point1[0],point1[1],point1[2]);
         //sphere->SetCenter(pointsIter.Value()[0],pointsIter.Value()[1],pointsIter.Value()[2]);
 
         //MouseOrientation Tool (PositionTracker)
         if(isInputDevice)
         {
           sphere->SetThetaResolution(10);
           sphere->SetPhiResolution(10);
         }
         else
         {
           sphere->SetThetaResolution(20);
           sphere->SetPhiResolution(20);
         }
         source = sphere;
       }
       break;
     case mitk::PTSTART:
       {
         vtkCubeSource *cube = vtkCubeSource::New();
         cube->SetXLength(m_PointSize/2);
         cube->SetYLength(m_PointSize/2);
         cube->SetZLength(m_PointSize/2);
         itk::Point<float> point1 = pointsIter->Value();
         cube->SetCenter(point1[0],point1[1],point1[2]);
         source = cube;
       }
       break;
     case mitk::PTCORNER:
       {
         vtkConeSource *cone = vtkConeSource::New();
         cone->SetRadius(m_PointSize);
         itk::Point<float> point1 = pointsIter->Value();
         cone->SetCenter(point1[0],point1[1],point1[2]);
         cone->SetResolution(20);
         source = cone;
       }
       break;
     case mitk::PTEDGE:
       {
         vtkCylinderSource *cylinder = vtkCylinderSource::New();
         cylinder->SetRadius(m_PointSize);
         itk::Point<float> point1 = pointsIter->Value();
         cylinder->SetCenter(point1[0],point1[1],point1[2]);
         cylinder->SetResolution(20);
         source = cylinder;
       }
       break;
     case mitk::PTEND:
       {
         vtkSphereSource *sphere = vtkSphereSource::New();
         sphere->SetRadius(m_PointSize);
         itk::Point<float> point1 = pointsIter->Value(); 
         sphere->SetThetaResolution(20);
         sphere->SetPhiResolution(20);
         source = sphere;
       }
       break;
     default:
       {
         vtkSphereSource *sphere = vtkSphereSource::New();
         sphere->SetRadius(m_PointSize);
         itk::Point<float> point1 = pointsIter->Value(); 
         sphere->SetCenter(point1[0],point1[1],point1[2]);
         sphere->SetThetaResolution(20);
         sphere->SetPhiResolution(20);
         source = sphere;
       }
       break;
     }
     if (!pointDataBroken)
     {
       if (pointDataIter.Value().selected)
       {
         m_vtkSelectedPointList->AddInput(source->GetOutput());
         ++m_NumberOfSelectedAdded;
       }
       else 
       {
         m_vtkUnselectedPointList->AddInput(source->GetOutput());
         ++m_NumberOfUnselectedAdded;
       }
     }
     else
     {
       m_vtkUnselectedPointList->AddInput(source->GetOutput());
       ++m_NumberOfUnselectedAdded;
     }
 
     source->Delete();
 
     if (showLabel)
     {
       char buffer[20];
       std::string l = pointLabel;
       if ( input->GetSize()>1 )
       {
         sprintf(buffer,"%d",j+1);
         l.append(buffer);
       }
       // Define the text for the label
       vtkVectorText *label = vtkVectorText::New();
       label->SetText(l.c_str());
 
       //# Set up a transform to move the label to a new position.
       vtkTransform *aLabelTransform =vtkTransform::New();
       aLabelTransform->Identity();
       itk::Point<float> point1 = pointsIter->Value();
       aLabelTransform->Translate(point1[0]+2,point1[1]+2,point1[2]);
       aLabelTransform->Scale(5.7,5.7,5.7);
 
       //# Move the label to a new position.
       vtkTransformPolyDataFilter *labelTransform = vtkTransformPolyDataFilter::New();
       labelTransform->SetTransform(aLabelTransform);
       aLabelTransform->Delete();
       labelTransform->SetInput(label->GetOutput());
       label->Delete();
 
       //add it to the wright PointList
       if (pointType)
       {
         m_vtkSelectedPointList->AddInput(labelTransform->GetOutput());
         ++m_NumberOfSelectedAdded;
       }
       else 
       {
         m_vtkUnselectedPointList->AddInput(labelTransform->GetOutput());
         ++m_NumberOfUnselectedAdded;
       }
       labelTransform->Delete();
     }
 
     if(pointDataIter != itkPointSet->GetPointData()->End())
       pointDataIter++;
   } // end FOR
   
   
   //now according to number of elements added to selected or unselected, build up the rendering pipeline
   if (m_NumberOfSelectedAdded > 0)
   {
     m_VtkSelectedPolyDataMapper = vtkPolyDataMapper::New();
     m_VtkSelectedPolyDataMapper->SetInput(m_vtkSelectedPointList->GetOutput());
 
     //create a new instance of the actor
     m_SelectedActor->Delete();
     m_SelectedActor = vtkActor::New();
 
     m_SelectedActor->SetMapper(m_VtkSelectedPolyDataMapper);
     m_VtkSelectedPolyDataMapper->Delete();
     m_PointsAssembly->AddPart(m_SelectedActor);
   }
   m_vtkSelectedPointList->Delete();
 
   if (m_NumberOfUnselectedAdded > 0)
   {
     m_VtkUnselectedPolyDataMapper = vtkPolyDataMapper::New();
     m_VtkUnselectedPolyDataMapper->SetInput(m_vtkUnselectedPointList->GetOutput());
 
     //create a new instance of the actor
     m_UnselectedActor->Delete();
     m_UnselectedActor = vtkActor::New();
 
     m_UnselectedActor->SetMapper(m_VtkUnselectedPolyDataMapper);
     m_VtkUnselectedPolyDataMapper->Delete();
     m_PointsAssembly->AddPart(m_UnselectedActor);
   }
   m_vtkUnselectedPointList->Delete();
 }
 
 
 void mitk::PointSetVtkMapper3D::GenerateData()
 {
   //create new vtk render objects (e.g. sphere for a point)
   this->CreateVTKRenderObjects();
 
   //apply props
-  Superclass::ApplyProperties( m_ContourActor, NULL );
-  this->ApplyProperties(NULL);
+  this->ApplyProperties(m_ContourActor,NULL);
 
 }
 
 
 void mitk::PointSetVtkMapper3D::GenerateData( mitk::BaseRenderer *renderer )
 {
   SetVtkMapperImmediateModeRendering(m_VtkSelectedPolyDataMapper);
   SetVtkMapperImmediateModeRendering(m_VtkUnselectedPolyDataMapper);
 
   mitk::FloatProperty::Pointer pointSizeProp = dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetProperty("pointsize"));
   mitk::FloatProperty::Pointer contourSizeProp = dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetProperty("contoursize"));
   // only create new vtk render objects if property values were changed
   if ( pointSizeProp.IsNotNull() &&  contourSizeProp.IsNotNull() )
   {
     if (m_PointSize!=pointSizeProp->GetValue() || m_ContourRadius!= contourSizeProp->GetValue())
     {
       this->CreateVTKRenderObjects();
     }
   }
 
-
-  Superclass::ApplyProperties( m_ContourActor, renderer );
-  this->ApplyProperties(renderer);
+  this->ApplyProperties(m_ContourActor,renderer);
 
   if(IsVisible(renderer)==false)
   {
     m_UnselectedActor->VisibilityOff();
     m_SelectedActor->VisibilityOff();
     m_ContourActor->VisibilityOff();
     return;
   }
 
   bool showPoints = true;
   this->GetDataNode()->GetBoolProperty("show points", showPoints);
   if(showPoints)
   {
     m_UnselectedActor->VisibilityOn();
     m_SelectedActor->VisibilityOn();
   }
   else
   {
     m_UnselectedActor->VisibilityOff();
     m_SelectedActor->VisibilityOff();
   }
 
   if(dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetProperty("opacity")) != NULL)
   {  
     mitk::FloatProperty::Pointer pointOpacity =dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetProperty("opacity"));
     float opacity = pointOpacity->GetValue();
     m_ContourActor->GetProperty()->SetOpacity(opacity);
     m_UnselectedActor->GetProperty()->SetOpacity(opacity);
     m_SelectedActor->GetProperty()->SetOpacity(opacity);
   }
 
   bool makeContour = false;
   this->GetDataNode()->GetBoolProperty("show contour", makeContour);
   if (makeContour)
   {
     m_ContourActor->VisibilityOn();
   }
   else
   {
     m_ContourActor->VisibilityOff();
   }
 }
 
 
 void mitk::PointSetVtkMapper3D::ResetMapper( BaseRenderer* /*renderer*/ )
 {
   m_PointsAssembly->VisibilityOff();
 }
 
 
 vtkProp* mitk::PointSetVtkMapper3D::GetVtkProp(mitk::BaseRenderer * /*renderer*/)
 {
   return m_PointsAssembly;
 }
 
 void mitk::PointSetVtkMapper3D::UpdateVtkTransform(mitk::BaseRenderer * /*renderer*/)
 {
   vtkLinearTransform * vtktransform = 
     this->GetDataNode()->GetVtkTransform(this->GetTimestep());
 
   m_SelectedActor->SetUserTransform(vtktransform);
   m_UnselectedActor->SetUserTransform(vtktransform);
   m_ContourActor->SetUserTransform(vtktransform);
 }
 
-void mitk::PointSetVtkMapper3D::ApplyProperties(mitk::BaseRenderer* renderer)
+void mitk::PointSetVtkMapper3D::ApplyProperties(vtkActor* actor, mitk::BaseRenderer* renderer)
 {
+  Superclass::ApplyProperties(actor,renderer);
   //check for color props and use it for rendering of selected/unselected points and contour 
   //due to different params in VTK (double/float) we have to convert!
 
   //vars to convert to
   vtkFloatingPointType unselectedColor[4]={1.0f,1.0f,0.0f,1.0f};//yellow
   vtkFloatingPointType selectedColor[4]={1.0f,0.0f,0.0f,1.0f};//red
   vtkFloatingPointType contourColor[4]={1.0f,0.0f,0.0f,1.0f};//red
 
   //different types for color!!!
   mitk::Color tmpColor;
   double opacity = 1.0;
 
   //check if there is an unselected property
   if (dynamic_cast<mitk::ColorProperty*>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("unselectedcolor")) != NULL)
   {
     tmpColor = dynamic_cast<mitk::ColorProperty *>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("unselectedcolor"))->GetValue();
     unselectedColor[0] = tmpColor[0];
     unselectedColor[1] = tmpColor[1];
     unselectedColor[2] = tmpColor[2];
     unselectedColor[3] = 1.0f; //!!define a new ColorProp to be able to pass alpha value
   }
   else if (dynamic_cast<mitk::ColorProperty*>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("unselectedcolor")) != NULL)
   {
     tmpColor = dynamic_cast<mitk::ColorProperty *>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("unselectedcolor"))->GetValue();
     unselectedColor[0] = tmpColor[0];
     unselectedColor[1] = tmpColor[1];
     unselectedColor[2] = tmpColor[2];
     unselectedColor[3] = 1.0f; //!!define a new ColorProp to be able to pass alpha value
   }
   else
   {
     //check if the node has a color
     float unselectedColorTMP[4]={1.0f,1.0f,0.0f,1.0f};//yellow
     m_DataNode->GetColor(unselectedColorTMP, NULL);
     unselectedColor[0] = unselectedColorTMP[0];
     unselectedColor[1] = unselectedColorTMP[1];
     unselectedColor[2] = unselectedColorTMP[2];
     //unselectedColor[3] stays 1.0f
   }
 
   //get selected property
   if (dynamic_cast<mitk::ColorProperty*>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("selectedcolor")) != NULL)
   {
     tmpColor = dynamic_cast<mitk::ColorProperty *>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("selectedcolor"))->GetValue();
     selectedColor[0] = tmpColor[0];
     selectedColor[1] = tmpColor[1];
     selectedColor[2] = tmpColor[2];
     selectedColor[3] = 1.0f;
   }
   else if (dynamic_cast<mitk::ColorProperty*>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("selectedcolor")) != NULL)
   {
     tmpColor = dynamic_cast<mitk::ColorProperty *>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("selectedcolor"))->GetValue();
     selectedColor[0] = tmpColor[0];
     selectedColor[1] = tmpColor[1];
     selectedColor[2] = tmpColor[2];
     selectedColor[3] = 1.0f;
   }
 
   //get contour property
   if (dynamic_cast<mitk::ColorProperty*>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("contourcolor")) != NULL)
   {
     tmpColor = dynamic_cast<mitk::ColorProperty *>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("contourcolor"))->GetValue();
     contourColor[0] = tmpColor[0];
     contourColor[1] = tmpColor[1];
     contourColor[2] = tmpColor[2];
     contourColor[3] = 1.0f;
   }
   else if (dynamic_cast<mitk::ColorProperty*>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("contourcolor")) != NULL)
   {
     tmpColor = dynamic_cast<mitk::ColorProperty *>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("contourcolor"))->GetValue();
     contourColor[0] = tmpColor[0];
     contourColor[1] = tmpColor[1];
     contourColor[2] = tmpColor[2];
     contourColor[3] = 1.0f;
   }
 
   if(dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("opacity")) != NULL)
   {
     mitk::FloatProperty::Pointer pointOpacity =dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("opacity"));
     opacity = pointOpacity->GetValue();
   }
   else if(dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("opacity")) != NULL)
   {
     mitk::FloatProperty::Pointer pointOpacity =dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("opacity"));
     opacity = pointOpacity->GetValue();
   }
   //finished color / opacity fishing!
 
   //check if a contour shall be drawn
   bool makeContour = false;
   this->GetDataNode()->GetBoolProperty("show contour", makeContour, renderer);
   int visibleBefore = m_ContourActor->GetVisibility();
   if(makeContour && (m_ContourActor != NULL) )
   {
     if ( visibleBefore == 0)//was not visible before, so create it.
       this->CreateContour(renderer);
     m_ContourActor->GetProperty()->SetColor(contourColor);
     m_ContourActor->GetProperty()->SetOpacity(opacity);
   }
 
   m_SelectedActor->GetProperty()->SetColor(selectedColor);
   m_SelectedActor->GetProperty()->SetOpacity(opacity);
 
   m_UnselectedActor->GetProperty()->SetColor(unselectedColor);
   m_UnselectedActor->GetProperty()->SetOpacity(opacity);
 
 }
 
 void mitk::PointSetVtkMapper3D::CreateContour(mitk::BaseRenderer* renderer)
 {
   vtkAppendPolyData* vtkContourPolyData = vtkAppendPolyData::New();
   vtkPolyDataMapper* vtkContourPolyDataMapper = vtkPolyDataMapper::New(); 
 
   vtkPoints *points = vtkPoints::New();
   vtkCellArray *polys = vtkCellArray::New();
 
   mitk::PointSet::PointsContainer::Iterator pointsIter;
   mitk::PointSet::PointDataContainer::Iterator pointDataIter;
   int j;
 
   // get and update the PointSet
   mitk::PointSet::Pointer input  = const_cast<mitk::PointSet*>(this->GetInput());
   //input->Update();
 
   int timestep = this->GetTimestep();
   mitk::PointSet::DataType::Pointer itkPointSet = input->GetPointSet( timestep );
   if ( itkPointSet.GetPointer() == NULL) 
   {
     return;
   }
 
   for (j=0, pointsIter=itkPointSet->GetPoints()->Begin(); pointsIter!=itkPointSet->GetPoints()->End() ; pointsIter++,j++)
   {
     vtkIdType cell[2] = {j-1,j};
     itk::Point<float> point1 = pointsIter->Value();
     points->InsertPoint(j,point1[0],point1[1],point1[2]);
     if (j>0)
       polys->InsertNextCell(2,cell);
   }
 
   bool close;
   if (dynamic_cast<mitk::BoolProperty *>(this->GetDataNode()->GetPropertyList()->GetProperty("close contour"), renderer) == NULL)
     close = false;
   else
     close = dynamic_cast<mitk::BoolProperty *>(this->GetDataNode()->GetPropertyList()->GetProperty("close contour"), renderer)->GetValue();
   if (close) 
   {
     vtkIdType cell[2] = {j-1,0};
     polys->InsertNextCell(2,cell);
   }
 
   vtkPolyData* contour = vtkPolyData::New();
   contour->SetPoints(points);
   points->Delete();
   contour->SetLines(polys);
   polys->Delete();
   contour->Update();
 
   vtkTubeFilter* tubeFilter = vtkTubeFilter::New();
   tubeFilter->SetNumberOfSides( 12 );
   tubeFilter->SetInput(contour);
   contour->Delete();
 
   //check for property contoursize. 
   m_ContourRadius = 0.5;
   mitk::FloatProperty::Pointer contourSizeProp = dynamic_cast<mitk::FloatProperty *>(this->GetDataNode()->GetProperty("contoursize") );
 
   if (contourSizeProp.IsNotNull())
     m_ContourRadius = contourSizeProp->GetValue();
 
   tubeFilter->SetRadius( m_ContourRadius );
   tubeFilter->Update();
 
   //add to pipeline
   vtkContourPolyData->AddInput(tubeFilter->GetOutput());
   tubeFilter->Delete();
   vtkContourPolyDataMapper->SetInput(vtkContourPolyData->GetOutput());
   vtkContourPolyData->Delete();
 
   //create a new instance of the actor
   m_ContourActor->Delete();
   m_ContourActor = vtkActor::New();
 
   m_ContourActor->SetMapper(vtkContourPolyDataMapper);
   vtkContourPolyDataMapper->Delete();
 
   m_PointsAssembly->AddPart(m_ContourActor);
 }
 
 void mitk::PointSetVtkMapper3D::SetDefaultProperties(mitk::DataNode* node, mitk::BaseRenderer* renderer, bool overwrite)
 {
   node->AddProperty( "line width", mitk::IntProperty::New(2), renderer, overwrite );
   node->AddProperty( "pointsize", mitk::FloatProperty::New(1.0), renderer, overwrite);
   node->AddProperty( "selectedcolor", mitk::ColorProperty::New(1.0f, 0.0f, 0.0f), renderer, overwrite);  //red
   node->AddProperty( "color", mitk::ColorProperty::New(1.0f, 1.0f, 0.0f), renderer, overwrite);  //yellow
   node->AddProperty( "show contour", mitk::BoolProperty::New(false), renderer, overwrite );
   node->AddProperty( "contourcolor", mitk::ColorProperty::New(1.0f, 0.0f, 0.0f), renderer, overwrite);
   node->AddProperty( "contoursize", mitk::FloatProperty::New(0.5), renderer, overwrite );
   node->AddProperty( "show points", mitk::BoolProperty::New(true), renderer, overwrite );
   node->AddProperty( "updateDataOnRender", mitk::BoolProperty::New(true), renderer, overwrite );  
   Superclass::SetDefaultProperties(node, renderer, overwrite);
 }
 
diff --git a/Core/Code/Rendering/mitkPointSetVtkMapper3D.h b/Core/Code/Rendering/mitkPointSetVtkMapper3D.h
index cd5ecd542a..ad4e5886b1 100755
--- a/Core/Code/Rendering/mitkPointSetVtkMapper3D.h
+++ b/Core/Code/Rendering/mitkPointSetVtkMapper3D.h
@@ -1,158 +1,158 @@
 /*=========================================================================
 
 Program:   Medical Imaging & Interaction Toolkit
 Language:  C++
 Date:      $Date$
 Version:   $Revision$
 
 Copyright (c) German Cancer Research Center, Division of Medical and
 Biological Informatics. All rights reserved.
 See MITKCopyright.txt or http://www.mitk.org/copyright.html for details.
 
 This software is distributed WITHOUT ANY WARRANTY; without even
 the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
 PURPOSE.  See the above copyright notices for more information.
 
 =========================================================================*/
 
 
 #ifndef MITKPointSetVtkMAPPER3D_H_HEADER_INCLUDED_C1907273
 #define MITKPointSetVtkMAPPER3D_H_HEADER_INCLUDED_C1907273
 
 #include "mitkCommon.h"
 #include "mitkVtkMapper3D.h"
 #include "mitkBaseRenderer.h"
 
 class vtkActor;
 class vtkPropAssembly;
 class vtkAppendPolyData;
 class vtkPolyData;
 class vtkTubeFilter;
 class vtkPolyDataMapper;
 
 namespace mitk {
 
   class PointSet;
 
   /**
   * @brief Vtk-based mapper for PointSet
   *
   * Due to the need of different colors for selected 
   * and unselected points and the facts, that we also have a contour and 
   * labels for the points, the vtk structure is build up the following way: 
   *
   * We have two AppendPolyData, one selected, and one unselected and one 
   * for a contour between the points. Each one is connected to an own 
   * PolyDaraMapper and an Actor. The different color for the unselected and 
   * selected state and for the contour is read from properties.
   *
   * "unselectedcolor", "selectedcolor" and "contourcolor" are the strings, 
   * that are looked for. Pointlabels are added besides the selected or the 
   * deselected points.
   *
   * Then the three Actors are combined inside a vtkPropAssembly and this 
   * object is returned in GetProp() and so hooked up into the rendering 
   * pipeline. 
   
   * Properties that can be set for point sets and influence the PointSetVTKMapper3D are:
   *
 
   *   - \b "color": (ColorProperty*) Color of the point set
   *   - \b "Opacity": (FloatProperty) Opacity of the point set
   *   - \b "show contour": (BoolProperty) If the contour of the points are visible
   *   - \b "contourSizeProp":(FloatProperty) Contour size of the points
 
 
   The default properties are:
 
   *   - \b "line width": (IntProperty::New(2), renderer, overwrite )
   *   - \b "pointsize": (FloatProperty::New(1.0), renderer, overwrite)
   *   - \b "selectedcolor": (ColorProperty::New(1.0f, 0.0f, 0.0f), renderer, overwrite)  //red
   *   - \b "color": (ColorProperty::New(1.0f, 1.0f, 0.0f), renderer, overwrite)  //yellow
   *   - \b "show contour": (BoolProperty::New(false), renderer, overwrite )
   *   - \b "contourcolor": (ColorProperty::New(1.0f, 0.0f, 0.0f), renderer, overwrite)
   *   - \b "contoursize": (FloatProperty::New(0.5), renderer, overwrite )
   *   - \b "close contour": (BoolProperty::New(false), renderer, overwrite )
   *   - \b "show points": (BoolProperty::New(true), renderer, overwrite )
   *   - \b "updateDataOnRender": (BoolProperty::New(true), renderer, overwrite ) 
 
 
 
   *Other properties looked for are:
   *
   *   - \b "show contour": if set to on, lines between the points are shown
   *   - \b "close contour": if set to on, the open strip is closed (first point 
   *       connected with last point)
   *   - \b "pointsize": size of the points mapped
   *   - \b "label": text of the Points to show besides points
   *   - \b "contoursize": size of the contour drawn between the points 
   *       (if not set, the pointsize is taken)
   *
   * @ingroup Mapper
   */
   class MITK_CORE_EXPORT PointSetVtkMapper3D : public VtkMapper3D
   {
   public:
     mitkClassMacro(PointSetVtkMapper3D, VtkMapper3D);
 
     itkNewMacro(Self);
 
     virtual const mitk::PointSet* GetInput();
 
     //overwritten from VtkMapper3D to be able to return a 
     //m_PointsAssembly which is much faster than a vtkAssembly
     virtual vtkProp* GetVtkProp(mitk::BaseRenderer* renderer);
     virtual void UpdateVtkTransform(mitk::BaseRenderer* renderer);
 
 
     static void SetDefaultProperties(mitk::DataNode* node, mitk::BaseRenderer* renderer = NULL, bool overwrite = false);
 
     void ReleaseGraphicsResources(vtkWindow *renWin);
 
   protected:
     PointSetVtkMapper3D();
 
     virtual ~PointSetVtkMapper3D();
 
     virtual void GenerateData();
     virtual void GenerateData(mitk::BaseRenderer* renderer);
     virtual void ResetMapper( BaseRenderer* renderer );
-    virtual void ApplyProperties(mitk::BaseRenderer* renderer);
+    virtual void ApplyProperties(vtkActor* actor, mitk::BaseRenderer* renderer);
     virtual void CreateContour(mitk::BaseRenderer* renderer);
     virtual void CreateVTKRenderObjects();
 
 
 
     vtkAppendPolyData *m_vtkSelectedPointList;
     vtkAppendPolyData *m_vtkUnselectedPointList;
     //  vtkAppendPolyData *m_vtkContourPolyData;
 
     vtkPolyDataMapper *m_VtkSelectedPolyDataMapper;
     vtkPolyDataMapper *m_VtkUnselectedPolyDataMapper;
     //  vtkPolyDataMapper *m_vtkContourPolyDataMapper;
 
     vtkActor *m_SelectedActor;
     vtkActor *m_UnselectedActor;
     vtkActor *m_ContourActor;
 
     vtkPropAssembly *m_PointsAssembly;
 
     //help for contour between points
     vtkAppendPolyData *m_vtkTextList;
     //vtkPolyData *m_Contour;
     //vtkTubeFilter *m_TubeFilter;
 
     //variables to be able to log, how many inputs have been added to PolyDatas
     unsigned int m_NumberOfSelectedAdded;
     unsigned int m_NumberOfUnselectedAdded;
 
     //variables to check if an update of the vtk objects is needed
     ScalarType m_PointSize;
     ScalarType m_ContourRadius;
   };
 
 
 } // namespace mitk
 
 #endif /* MITKPointSetVtkMAPPER3D_H_HEADER_INCLUDED_C1907273 */