diff --git a/Modules/DiffusionImaging/Rendering/mitkOdfVtkMapper2D.txx b/Modules/DiffusionImaging/Rendering/mitkOdfVtkMapper2D.txx index 65638a5a5d..ce854fcf7c 100644 --- a/Modules/DiffusionImaging/Rendering/mitkOdfVtkMapper2D.txx +++ b/Modules/DiffusionImaging/Rendering/mitkOdfVtkMapper2D.txx @@ -1,1015 +1,1015 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date: 2008-08-25 18:10:57 +0200 (Mo, 25 Aug 2008) $ Version: $Revision: 15062 $ 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 __mitkOdfVtkMapper2D_txx__ #define __mitkOdfVtkMapper2D_txx__ #include "mitkOdfVtkMapper2D.h" #include "mitkDataNode.h" #include "mitkBaseRenderer.h" #include "mitkMatrixConvert.h" #include "mitkGeometry3D.h" #include "mitkOdfNormalizationMethodProperty.h" #include "mitkOdfScaleByProperty.h" #include "mitkProperties.h" #include "mitkTensorImage.h" #include "vtkSphereSource.h" #include "vtkPropCollection.h" #include "vtkMaskedGlyph3D.h" #include "vtkGlyph2D.h" #include "vtkGlyph3D.h" #include "vtkMaskedProgrammableGlyphFilter.h" #include "vtkImageData.h" #include "vtkLinearTransform.h" #include "vtkCamera.h" #include "vtkPointData.h" #include "vtkTransformPolyDataFilter.h" #include "vtkTransform.h" #include "vtkOdfSource.h" #include "vtkDoubleArray.h" #include "vtkLookupTable.h" #include "vtkProperty.h" #include "vtkPolyDataNormals.h" #include "vtkLight.h" #include "vtkLightCollection.h" #include "vtkMath.h" #include "vtkFloatArray.h" #include "vtkDelaunay2D.h" #include "vtkMapper.h" #include "vtkRenderer.h" #include "itkOrientationDistributionFunction.h" #include "itkFixedArray.h" #include #include "vtkOpenGLRenderer.h" #define _USE_MATH_DEFINES #include template vtkSmartPointer mitk::OdfVtkMapper2D::m_OdfTransform = vtkSmartPointer::New(); template vtkSmartPointer mitk::OdfVtkMapper2D::m_OdfVals = vtkSmartPointer::New(); template vtkSmartPointer mitk::OdfVtkMapper2D::m_OdfSource = vtkSmartPointer::New(); template float mitk::OdfVtkMapper2D::m_Scaling; template int mitk::OdfVtkMapper2D::m_Normalization; template int mitk::OdfVtkMapper2D::m_ScaleBy; template float mitk::OdfVtkMapper2D::m_IndexParam1; template float mitk::OdfVtkMapper2D::m_IndexParam2; #define ODF_MAPPER_PI M_PI template mitk::OdfVtkMapper2D ::OdfVtkMapper2D() { m_PropAssemblies.push_back(vtkPropAssembly::New()); m_PropAssemblies.push_back(vtkPropAssembly::New()); m_PropAssemblies.push_back(vtkPropAssembly::New()); m_OdfsPlanes.push_back(vtkAppendPolyData::New()); m_OdfsPlanes.push_back(vtkAppendPolyData::New()); m_OdfsPlanes.push_back(vtkAppendPolyData::New()); m_OdfsPlanes[0]->AddInput(vtkPolyData::New()); m_OdfsPlanes[1]->AddInput(vtkPolyData::New()); m_OdfsPlanes[2]->AddInput(vtkPolyData::New()); m_OdfsActors.push_back(vtkActor::New()); m_OdfsActors.push_back(vtkActor::New()); m_OdfsActors.push_back(vtkActor::New()); m_OdfsActors[0]->GetProperty()->SetInterpolationToGouraud(); m_OdfsActors[1]->GetProperty()->SetInterpolationToGouraud(); m_OdfsActors[2]->GetProperty()->SetInterpolationToGouraud(); m_OdfsMappers.push_back(vtkPolyDataMapper::New()); m_OdfsMappers.push_back(vtkPolyDataMapper::New()); m_OdfsMappers.push_back(vtkPolyDataMapper::New()); vtkLookupTable *lut = vtkLookupTable::New(); m_OdfsMappers[0]->SetLookupTable(lut); m_OdfsMappers[1]->SetLookupTable(lut); m_OdfsMappers[2]->SetLookupTable(lut); m_OdfsActors[0]->SetMapper(m_OdfsMappers[0]); m_OdfsActors[1]->SetMapper(m_OdfsMappers[1]); m_OdfsActors[2]->SetMapper(m_OdfsMappers[2]); m_Planes.push_back(vtkPlane::New()); m_Planes.push_back(vtkPlane::New()); m_Planes.push_back(vtkPlane::New()); m_Cutters.push_back(vtkCutter::New()); m_Cutters.push_back(vtkCutter::New()); m_Cutters.push_back(vtkCutter::New()); m_Cutters[0]->SetCutFunction( m_Planes[0] ); m_Cutters[0]->GenerateValues( 1, 0, 1 ); m_Cutters[1]->SetCutFunction( m_Planes[1] ); m_Cutters[1]->GenerateValues( 1, 0, 1 ); m_Cutters[2]->SetCutFunction( m_Planes[2] ); m_Cutters[2]->GenerateValues( 1, 0, 1 ); // Windowing the cutted planes in direction 1 m_ThickPlanes1.push_back(vtkThickPlane::New()); m_ThickPlanes1.push_back(vtkThickPlane::New()); m_ThickPlanes1.push_back(vtkThickPlane::New()); m_Clippers1.push_back(vtkClipPolyData::New()); m_Clippers1.push_back(vtkClipPolyData::New()); m_Clippers1.push_back(vtkClipPolyData::New()); m_Clippers1[0]->SetClipFunction( m_ThickPlanes1[0] ); m_Clippers1[1]->SetClipFunction( m_ThickPlanes1[1] ); m_Clippers1[2]->SetClipFunction( m_ThickPlanes1[2] ); // Windowing the cutted planes in direction 2 m_ThickPlanes2.push_back(vtkThickPlane::New()); m_ThickPlanes2.push_back(vtkThickPlane::New()); m_ThickPlanes2.push_back(vtkThickPlane::New()); m_Clippers2.push_back(vtkClipPolyData::New()); m_Clippers2.push_back(vtkClipPolyData::New()); m_Clippers2.push_back(vtkClipPolyData::New()); m_Clippers2[0]->SetClipFunction( m_ThickPlanes2[0] ); m_Clippers2[1]->SetClipFunction( m_ThickPlanes2[1] ); m_Clippers2[2]->SetClipFunction( m_ThickPlanes2[2] ); m_TemplateOdf = itk::OrientationDistributionFunction::GetBaseMesh(); m_OdfVals->Allocate(N); m_OdfSource->SetTemplateOdf(m_TemplateOdf); m_OdfSource->SetOdfVals(m_OdfVals); m_ShowMaxNumber = 500; } template mitk::OdfVtkMapper2D ::~OdfVtkMapper2D() { m_PropAssemblies[0]->Delete(); m_PropAssemblies[1]->Delete(); m_PropAssemblies[2]->Delete(); m_OdfsPlanes[0]->Delete(); m_OdfsPlanes[1]->Delete(); m_OdfsPlanes[2]->Delete(); m_OdfsActors[0]->Delete(); m_OdfsActors[1]->Delete(); m_OdfsActors[2]->Delete(); m_OdfsMappers[0]->Delete(); m_OdfsMappers[1]->Delete(); m_OdfsMappers[2]->Delete(); m_Planes[0]->Delete(); m_Planes[1]->Delete(); m_Planes[2]->Delete(); m_Cutters[0]->Delete(); m_Cutters[1]->Delete(); m_Cutters[2]->Delete(); m_ThickPlanes1[0]->Delete(); m_ThickPlanes1[1]->Delete(); m_ThickPlanes1[2]->Delete(); m_ThickPlanes2[0]->Delete(); m_ThickPlanes2[1]->Delete(); m_ThickPlanes2[2]->Delete(); m_Clippers1[0]->Delete(); m_Clippers1[1]->Delete(); m_Clippers1[2]->Delete(); m_Clippers2[0]->Delete(); m_Clippers2[1]->Delete(); m_Clippers2[2]->Delete(); } template mitk::Image* mitk::OdfVtkMapper2D ::GetInput() { return static_cast ( m_DataNode->GetData() ); } template vtkProp* mitk::OdfVtkMapper2D ::GetVtkProp(mitk::BaseRenderer* renderer) { return m_PropAssemblies[GetIndex(renderer)]; } template int mitk::OdfVtkMapper2D ::GetIndex(mitk::BaseRenderer* renderer) { if(!strcmp(renderer->GetName(),"stdmulti.widget1")) return 0; if(!strcmp(renderer->GetName(),"stdmulti.widget2")) return 1; if(!strcmp(renderer->GetName(),"stdmulti.widget3")) return 2; return 0; } template void mitk::OdfVtkMapper2D ::GlyphMethod(void *arg) { vtkMaskedProgrammableGlyphFilter *pfilter=(vtkMaskedProgrammableGlyphFilter*)arg; double point[3]; double debugpoint[3]; pfilter->GetPoint(point); pfilter->GetPoint(debugpoint); itk::Point p(point); Vector3D spacing = pfilter->GetGeometry()->GetSpacing(); p[0] /= spacing[0]; p[1] /= spacing[1]; p[2] /= spacing[2]; mitk::Point3D p2; pfilter->GetGeometry()->IndexToWorld( p, p2 ); point[0] = p2[0]; point[1] = p2[1]; point[2] = p2[2]; vtkPointData* data = pfilter->GetPointData(); vtkDataArray* odfvals = data->GetArray("vector"); vtkIdType id = pfilter->GetPointId(); m_OdfTransform->Identity(); m_OdfTransform->Translate(point[0],point[1],point[2]); typedef itk::OrientationDistributionFunction OdfType; OdfType odf; if(odfvals->GetNumberOfComponents()==6) { float tensorelems[6] = { (float)odfvals->GetComponent(id,0), (float)odfvals->GetComponent(id,1), (float)odfvals->GetComponent(id,2), (float)odfvals->GetComponent(id,3), (float)odfvals->GetComponent(id,4), (float)odfvals->GetComponent(id,5), }; itk::DiffusionTensor3D tensor(tensorelems); odf.InitFromTensor(tensor); } else { for(int i=0; iGetComponent(id,i); } switch(m_Normalization) { case ODFN_MINMAX: odf = odf.MinMaxNormalize(); break; case ODFN_MAX: odf = odf.MaxNormalize(); break; case ODFN_NONE: // nothing break; case ODFN_GLOBAL_MAX: // global max not implemented yet break; default: odf = odf.MinMaxNormalize(); } switch(m_ScaleBy) { case ODFSB_NONE: m_OdfSource->SetAdditionalScale(1.0); break; case ODFSB_GFA: m_OdfSource->SetAdditionalScale(odf.GetGeneralizedGFA(m_IndexParam1, m_IndexParam2)); break; case ODFSB_PC: m_OdfSource->SetAdditionalScale(odf.GetPrincipleCurvature(m_IndexParam1, m_IndexParam2, 0)); break; } for(int i=0; iSetComponent(0,i,0.5*odf[i]*m_Scaling); m_OdfSource->Modified(); } template typename mitk::OdfVtkMapper2D::OdfDisplayGeometry mitk::OdfVtkMapper2D ::MeasureDisplayedGeometry(mitk::BaseRenderer* renderer) { Geometry2D::ConstPointer worldGeometry = renderer->GetCurrentWorldGeometry2D(); PlaneGeometry::ConstPointer worldPlaneGeometry = dynamic_cast( worldGeometry.GetPointer() ); // set up the cutter orientation according to the current geometry of // the renderers plane vtkFloatingPointType vp[ 3 ], vnormal[ 3 ]; Point3D point = worldPlaneGeometry->GetOrigin(); Vector3D normal = worldPlaneGeometry->GetNormal(); normal.Normalize(); vnl2vtk( point.Get_vnl_vector(), vp ); vnl2vtk( normal.Get_vnl_vector(), vnormal ); mitk::DisplayGeometry::Pointer dispGeometry = renderer->GetDisplayGeometry(); mitk::Vector2D size = dispGeometry->GetSizeInMM(); mitk::Vector2D origin = dispGeometry->GetOriginInMM(); // // |------O------| // | d2 | // L d1 M | // | | // |-------------| // mitk::Vector2D M; mitk::Vector2D L; mitk::Vector2D O; M[0] = origin[0] + size[0]/2; M[1] = origin[1] + size[1]/2; L[0] = origin[0]; L[1] = origin[1] + size[1]/2; O[0] = origin[0] + size[0]/2; O[1] = origin[1] + size[1]; mitk::Point2D point1; point1[0] = M[0]; point1[1] = M[1]; mitk::Point3D M3D; dispGeometry->Map(point1, M3D); point1[0] = L[0]; point1[1] = L[1]; mitk::Point3D L3D; dispGeometry->Map(point1, L3D); point1[0] = O[0]; point1[1] = O[1]; mitk::Point3D O3D; dispGeometry->Map(point1, O3D); double d1 = sqrt((M3D[0]-L3D[0])*(M3D[0]-L3D[0]) + (M3D[1]-L3D[1])*(M3D[1]-L3D[1]) + (M3D[2]-L3D[2])*(M3D[2]-L3D[2])); double d2 = sqrt((M3D[0]-O3D[0])*(M3D[0]-O3D[0]) + (M3D[1]-O3D[1])*(M3D[1]-O3D[1]) + (M3D[2]-O3D[2])*(M3D[2]-O3D[2])); double d = d1>d2 ? d1 : d2; d = d2; OdfDisplayGeometry retval; retval.vp[0] = vp[0]; retval.vp[1] = vp[1]; retval.vp[2] = vp[2]; retval.vnormal[0] = vnormal[0]; retval.vnormal[1] = vnormal[1]; retval.vnormal[2] = vnormal[2]; retval.normal[0] = normal[0]; retval.normal[1] = normal[1]; retval.normal[2] = normal[2]; retval.d = d; retval.d1 = d1; retval.d2 = d2; retval.M3D[0] = M3D[0]; retval.M3D[1] = M3D[1]; retval.M3D[2] = M3D[2]; retval.L3D[0] = L3D[0]; retval.L3D[1] = L3D[1]; retval.L3D[2] = L3D[2]; retval.O3D[0] = O3D[0]; retval.O3D[1] = O3D[1]; retval.O3D[2] = O3D[2]; retval.vp_original[0] = vp[0]; retval.vp_original[1] = vp[1]; retval.vp_original[2] = vp[2]; retval.vnormal_original[0] = vnormal[0]; retval.vnormal_original[1] = vnormal[1]; retval.vnormal_original[2] = vnormal[2]; retval.size[0] = size[0]; retval.size[1] = size[1]; retval.origin[0] = origin[0]; retval.origin[1] = origin[1]; return retval; } template void mitk::OdfVtkMapper2D ::Slice(mitk::BaseRenderer* renderer, OdfDisplayGeometry dispGeo) { vtkLinearTransform * vtktransform = this->GetDataNode()->GetVtkTransform(this->GetTimestep()); int index = GetIndex(renderer); vtkTransform* inversetransform = vtkTransform::New(); inversetransform->Identity(); inversetransform->Concatenate(vtktransform->GetLinearInverse()); double myscale[3]; ((vtkTransform*)vtktransform)->GetScale(myscale); inversetransform->PostMultiply(); inversetransform->Scale(1*myscale[0],1*myscale[1],1*myscale[2]); inversetransform->TransformPoint( dispGeo.vp, dispGeo.vp ); inversetransform->TransformNormalAtPoint( dispGeo.vp, dispGeo.vnormal, dispGeo.vnormal ); // vtk works in axis align coords // thus the normal also must be axis align, since // we do not allow arbitrary cutting through volume // // vnormal should already be axis align, but in order // to get rid of precision effects, we set the two smaller // components to zero here int dims[3]; m_VtkImage->GetDimensions(dims); double spac[3]; m_VtkImage->GetSpacing(spac); if(fabs(dispGeo.vnormal[0]) > fabs(dispGeo.vnormal[1]) && fabs(dispGeo.vnormal[0]) > fabs(dispGeo.vnormal[2]) ) { if(fabs(dispGeo.vp[0]/spac[0]) < 0.4) dispGeo.vp[0] = 0.4*spac[0]; if(fabs(dispGeo.vp[0]/spac[0]) > (dims[0]-1)-0.4) dispGeo.vp[0] = ((dims[0]-1)-0.4)*spac[0]; dispGeo.vnormal[1] = 0; dispGeo.vnormal[2] = 0; } if(fabs(dispGeo.vnormal[1]) > fabs(dispGeo.vnormal[0]) && fabs(dispGeo.vnormal[1]) > fabs(dispGeo.vnormal[2]) ) { if(fabs(dispGeo.vp[1]/spac[1]) < 0.4) dispGeo.vp[1] = 0.4*spac[1]; if(fabs(dispGeo.vp[1]/spac[1]) > (dims[1]-1)-0.4) dispGeo.vp[1] = ((dims[1]-1)-0.4)*spac[1]; dispGeo.vnormal[0] = 0; dispGeo.vnormal[2] = 0; } if(fabs(dispGeo.vnormal[2]) > fabs(dispGeo.vnormal[1]) && fabs(dispGeo.vnormal[2]) > fabs(dispGeo.vnormal[0]) ) { if(fabs(dispGeo.vp[2]/spac[2]) < 0.4) dispGeo.vp[2] = 0.4*spac[2]; if(fabs(dispGeo.vp[2]/spac[2]) > (dims[2]-1)-0.4) dispGeo.vp[2] = ((dims[2]-1)-0.4)*spac[2]; dispGeo.vnormal[0] = 0; dispGeo.vnormal[1] = 0; } m_Planes[index]->SetTransform( (vtkAbstractTransform*)NULL ); m_Planes[index]->SetOrigin( dispGeo.vp ); m_Planes[index]->SetNormal( dispGeo.vnormal ); vtkPoints* points = NULL; vtkPoints* tmppoints = NULL; vtkPolyData* polydata = NULL; vtkFloatArray* pointdata = NULL; vtkDelaunay2D *delaunay = NULL; vtkPolyData* cuttedPlane = NULL; // the cutter only works if we do not have a 2D-image // or if we have a 2D-image and want to see the whole image. // // for side views of 2D-images, we need some special treatment if(!( (dims[0] == 1 && dispGeo.vnormal[0] != 0) || (dims[1] == 1 && dispGeo.vnormal[1] != 0) || (dims[2] == 1 && dispGeo.vnormal[2] != 0) )) { m_Cutters[index]->SetCutFunction( m_Planes[index] ); m_Cutters[index]->SetInput( m_VtkImage ); m_Cutters[index]->Update(); cuttedPlane = m_Cutters[index]->GetOutput(); } else { // cutting of a 2D-Volume does not work, // so we have to build up our own polydata object cuttedPlane = vtkPolyData::New(); points = vtkPoints::New(); points->SetNumberOfPoints(m_VtkImage->GetNumberOfPoints()); for(int i=0; iGetNumberOfPoints(); i++) { points->SetPoint(i, m_VtkImage->GetPoint(i)); } cuttedPlane->SetPoints(points); pointdata = vtkFloatArray::New(); int comps = m_VtkImage->GetPointData()->GetScalars()->GetNumberOfComponents(); pointdata->SetNumberOfComponents(comps); int tuples = m_VtkImage->GetPointData()->GetScalars()->GetNumberOfTuples(); pointdata->SetNumberOfTuples(tuples); for(int i=0; iSetTuple(i,m_VtkImage->GetPointData()->GetScalars()->GetTuple(i)); pointdata->SetName( "vector" ); cuttedPlane->GetPointData()->AddArray(pointdata); int nZero1, nZero2; if(dims[0]==1) { nZero1 = 1; nZero2 = 2; } else if(dims[1]==1) { nZero1 = 0; nZero2 = 2; } else { nZero1 = 0; nZero2 = 1; } tmppoints = vtkPoints::New(); for(int j=0; jGetNumberOfPoints(); j++){ double pt[3]; m_VtkImage->GetPoint(j,pt); tmppoints->InsertNextPoint(pt[nZero1],pt[nZero2],0); } polydata = vtkPolyData::New(); polydata->SetPoints( tmppoints ); delaunay = vtkDelaunay2D::New(); delaunay->SetInput( polydata ); delaunay->Update(); vtkCellArray* polys = delaunay->GetOutput()->GetPolys(); cuttedPlane->SetPolys(polys); } if(cuttedPlane->GetNumberOfPoints()) { // WINDOWING HERE inversetransform = vtkTransform::New(); inversetransform->Identity(); inversetransform->Concatenate(vtktransform->GetLinearInverse()); double myscale[3]; ((vtkTransform*)vtktransform)->GetScale(myscale); inversetransform->PostMultiply(); inversetransform->Scale(1*myscale[0],1*myscale[1],1*myscale[2]); dispGeo.vnormal[0] = dispGeo.M3D[0]-dispGeo.O3D[0]; dispGeo.vnormal[1] = dispGeo.M3D[1]-dispGeo.O3D[1]; dispGeo.vnormal[2] = dispGeo.M3D[2]-dispGeo.O3D[2]; vtkMath::Normalize(dispGeo.vnormal); dispGeo.vp[0] = dispGeo.M3D[0]; dispGeo.vp[1] = dispGeo.M3D[1]; dispGeo.vp[2] = dispGeo.M3D[2]; inversetransform->TransformPoint( dispGeo.vp, dispGeo.vp ); inversetransform->TransformNormalAtPoint( dispGeo.vp, dispGeo.vnormal, dispGeo.vnormal ); m_ThickPlanes1[index]->count = 0; m_ThickPlanes1[index]->SetTransform((vtkAbstractTransform*)NULL ); m_ThickPlanes1[index]->SetPose( dispGeo.vnormal, dispGeo.vp ); m_ThickPlanes1[index]->SetThickness(dispGeo.d2); m_Clippers1[index]->SetClipFunction( m_ThickPlanes1[index] ); m_Clippers1[index]->SetInput( cuttedPlane ); m_Clippers1[index]->SetInsideOut(1); m_Clippers1[index]->Update(); dispGeo.vnormal[0] = dispGeo.M3D[0]-dispGeo.L3D[0]; dispGeo.vnormal[1] = dispGeo.M3D[1]-dispGeo.L3D[1]; dispGeo.vnormal[2] = dispGeo.M3D[2]-dispGeo.L3D[2]; vtkMath::Normalize(dispGeo.vnormal); dispGeo.vp[0] = dispGeo.M3D[0]; dispGeo.vp[1] = dispGeo.M3D[1]; dispGeo.vp[2] = dispGeo.M3D[2]; inversetransform->TransformPoint( dispGeo.vp, dispGeo.vp ); inversetransform->TransformNormalAtPoint( dispGeo.vp, dispGeo.vnormal, dispGeo.vnormal ); m_ThickPlanes2[index]->count = 0; m_ThickPlanes2[index]->SetTransform((vtkAbstractTransform*)NULL ); m_ThickPlanes2[index]->SetPose( dispGeo.vnormal, dispGeo.vp ); m_ThickPlanes2[index]->SetThickness(dispGeo.d1); m_Clippers2[index]->SetClipFunction( m_ThickPlanes2[index] ); m_Clippers2[index]->SetInput( m_Clippers1[index]->GetOutput() ); m_Clippers2[index]->SetInsideOut(1); m_Clippers2[index]->Update(); cuttedPlane = m_Clippers2[index]->GetOutput (); if(cuttedPlane->GetNumberOfPoints()) { m_OdfsPlanes[index]->RemoveAllInputs(); vtkPolyDataNormals* normals = vtkPolyDataNormals::New(); normals->SetInputConnection( m_OdfSource->GetOutputPort() ); normals->SplittingOff(); normals->ConsistencyOff(); normals->AutoOrientNormalsOff(); normals->ComputePointNormalsOn(); normals->ComputeCellNormalsOff(); normals->FlipNormalsOff(); normals->NonManifoldTraversalOff(); vtkTransformPolyDataFilter* trans = vtkTransformPolyDataFilter::New(); trans->SetInputConnection( normals->GetOutputPort() ); trans->SetTransform(m_OdfTransform); vtkMaskedProgrammableGlyphFilter* glyphGenerator = vtkMaskedProgrammableGlyphFilter::New(); glyphGenerator->SetMaximumNumberOfPoints(m_ShowMaxNumber); glyphGenerator->SetRandomMode(1); glyphGenerator->SetUseMaskPoints(1); glyphGenerator->SetSource( trans->GetOutput() ); glyphGenerator->SetInput(cuttedPlane); glyphGenerator->SetColorModeToColorBySource(); glyphGenerator->SetInputArrayToProcess(0,0,0, vtkDataObject::FIELD_ASSOCIATION_POINTS , "vector"); glyphGenerator->SetGeometry(this->GetDataNode()->GetData()->GetGeometry()); glyphGenerator->SetGlyphMethod(&(GlyphMethod),(void *)glyphGenerator); try { glyphGenerator->Update(); } catch( itk::ExceptionObject& err ) { std::cout << err << std::endl; } m_OdfsPlanes[index]->AddInput(glyphGenerator->GetOutput()); trans->Delete(); glyphGenerator->Delete(); normals->Delete(); m_OdfsPlanes[index]->Update(); } } m_PropAssemblies[index]->VisibilityOn(); if(m_PropAssemblies[index]->GetParts()->IsItemPresent(m_OdfsActors[index])) m_PropAssemblies[index]->RemovePart(m_OdfsActors[index]); m_OdfsMappers[index]->SetInput(m_OdfsPlanes[index]->GetOutput()); m_PropAssemblies[index]->AddPart(m_OdfsActors[index]); if(inversetransform) inversetransform->Delete(); if(points) points->Delete(); if(pointdata) pointdata->Delete(); if(tmppoints) tmppoints->Delete(); if(polydata) polydata->Delete(); if(delaunay) delaunay->Delete(); } template bool mitk::OdfVtkMapper2D ::IsVisibleOdfs(mitk::BaseRenderer* renderer) { if(this->IsPlaneRotated(renderer)) return false; bool retval = false; switch(GetIndex(renderer)) { case 0: retval = this->IsVisible(renderer, "VisibleOdfs_T"); break; case 1: retval = this->IsVisible(renderer, "VisibleOdfs_S"); break; case 2: retval = this->IsVisible(renderer, "VisibleOdfs_C"); break; } return retval; } template void mitk::OdfVtkMapper2D ::MitkRenderOverlay(mitk::BaseRenderer* renderer) { if ( this->IsVisibleOdfs(renderer)==false ) return; if ( this->GetVtkProp(renderer)->GetVisibility() ) { this->GetVtkProp(renderer)->RenderOverlay(renderer->GetVtkRenderer()); } } template void mitk::OdfVtkMapper2D ::MitkRenderOpaqueGeometry(mitk::BaseRenderer* renderer) { if ( this->IsVisibleOdfs( renderer )==false ) return; if ( this->GetVtkProp(renderer)->GetVisibility() ) { // adapt cam pos OdfDisplayGeometry dispGeo = MeasureDisplayedGeometry( renderer); this->GetVtkProp(renderer)->RenderOpaqueGeometry( renderer->GetVtkRenderer() ); } } template void mitk::OdfVtkMapper2D ::MitkRenderTranslucentGeometry(mitk::BaseRenderer* renderer) { if ( this->IsVisibleOdfs(renderer)==false ) return; if ( this->GetVtkProp(renderer)->GetVisibility() ) this->GetVtkProp(renderer)->RenderTranslucentPolygonalGeometry(renderer->GetVtkRenderer()); } template void mitk::OdfVtkMapper2D ::GenerateData() { mitk::Image::Pointer input = const_cast( this->GetInput() ); if ( input.IsNull() ) return ; std::string classname("TensorImage"); if(classname.compare(input->GetNameOfClass())==0) { m_VtkImage = dynamic_cast( this->GetInput() )->GetNonRgbVtkImageData(); } std::string qclassname("QBallImage"); if(qclassname.compare(input->GetNameOfClass())==0) { m_VtkImage = dynamic_cast( this->GetInput() )->GetNonRgbVtkImageData(); } if( m_VtkImage ) { // make sure, that we have point data with more than 1 component (as vectors) vtkPointData* pointData = m_VtkImage->GetPointData(); if ( pointData == NULL ) { itkWarningMacro( << "m_VtkImage->GetPointData() returns NULL!" ); return ; } if ( pointData->GetNumberOfArrays() == 0 ) { itkWarningMacro( << "m_VtkImage->GetPointData()->GetNumberOfArrays() is 0!" ); return ; } else if ( pointData->GetArray(0)->GetNumberOfComponents() != N && pointData->GetArray(0)->GetNumberOfComponents() != 6 /*for tensor visualization*/) { itkWarningMacro( << "number of components != number of directions in ODF!" ); return; } else if ( pointData->GetArrayName( 0 ) == NULL ) { m_VtkImage->GetPointData()->GetArray(0)->SetName("vector"); } } else { itkWarningMacro( << "m_VtkImage is NULL!" ); return ; } } template void mitk::OdfVtkMapper2D ::AdaptOdfScalingToImageSpacing( int index ) { // Spacing adapted scaling double spacing[3]; m_VtkImage->GetSpacing(spacing); double min; if(index==0) { min = spacing[0]; min = min > spacing[1] ? spacing[1] : min; } if(index==1) { min = spacing[1]; min = min > spacing[2] ? spacing[2] : min; } if(index==2) { min = spacing[0]; min = min > spacing[2] ? spacing[2] : min; } m_OdfSource->SetScale(min); } template void mitk::OdfVtkMapper2D ::SetRendererLightSources( mitk::BaseRenderer *renderer ) { // Light Sources vtkCollectionSimpleIterator sit; vtkLight* light; for(renderer->GetVtkRenderer()->GetLights()->InitTraversal(sit); (light = renderer->GetVtkRenderer()->GetLights()->GetNextLight(sit)); ) { renderer->GetVtkRenderer()->RemoveLight(light); } light = vtkLight::New(); light->SetFocalPoint(0,0,0); light->SetLightTypeToSceneLight(); light->SwitchOn(); light->SetIntensity(1.0); light->PositionalOff(); itk::Point p; int index = GetIndex(renderer); if(index==0) { p[0] = 0; p[1] = 0; p[2] = 10000; } if(index==1) { p[0] = 0; p[1] = 10000; p[2] = 0; } if(index==2) { p[0] = 10000; p[1] = 0; p[2] = 0; } mitk::Point3D p2; this->GetInput()->GetGeometry()->IndexToWorld(p,p2); light->SetPosition(p2[0],p2[1],p2[2]); renderer->GetVtkRenderer()->AddLight(light); } template void mitk::OdfVtkMapper2D ::ApplyPropertySettings() { this->GetDataNode()->GetFloatProperty( "Scaling", m_Scaling ); this->GetDataNode()->GetIntProperty( "ShowMaxNumber", m_ShowMaxNumber ); OdfNormalizationMethodProperty* nmp = dynamic_cast ( this->GetDataNode()->GetProperty( "Normalization" )); if(nmp) { m_Normalization = nmp->GetNormalization(); } OdfScaleByProperty* sbp = dynamic_cast ( this->GetDataNode()->GetProperty( "ScaleBy" )); if(sbp) { m_ScaleBy = sbp->GetScaleBy(); } this->GetDataNode()->GetFloatProperty( "IndexParam1", m_IndexParam1); this->GetDataNode()->GetFloatProperty( "IndexParam2", m_IndexParam2); } template bool mitk::OdfVtkMapper2D ::IsPlaneRotated(mitk::BaseRenderer* renderer) { Geometry2D::ConstPointer worldGeometry = renderer->GetCurrentWorldGeometry2D(); PlaneGeometry::ConstPointer worldPlaneGeometry = dynamic_cast( worldGeometry.GetPointer() ); vtkFloatingPointType vnormal[ 3 ]; Vector3D normal = worldPlaneGeometry->GetNormal(); normal.Normalize(); vnl2vtk( normal.Get_vnl_vector(), vnormal ); vtkLinearTransform * vtktransform = this->GetDataNode()->GetVtkTransform(this->GetTimestep()); vtkTransform* inversetransform = vtkTransform::New(); inversetransform->Identity(); inversetransform->Concatenate(vtktransform->GetLinearInverse()); double* n = inversetransform->TransformNormal(vnormal); int nonZeros = 0; for (int j=0; j<3; j++) { if (fabs(n[j])>1e-7){ nonZeros++; } } if(nonZeros>1) return true; return false; } template void mitk::OdfVtkMapper2D ::GenerateDataForRenderer( mitk::BaseRenderer *renderer ) { if(!m_VtkImage) { itkWarningMacro( << "m_VtkImage is NULL!" ); return ; } int index = GetIndex(renderer); if(IsVisibleOdfs(renderer)==false) { m_OdfsActors[0]->VisibilityOff(); m_OdfsActors[1]->VisibilityOff(); m_OdfsActors[2]->VisibilityOff(); return; } else { m_OdfsActors[0]->VisibilityOn(); m_OdfsActors[1]->VisibilityOn(); m_OdfsActors[2]->VisibilityOn(); OdfDisplayGeometry dispGeo = MeasureDisplayedGeometry( renderer); AdaptOdfScalingToImageSpacing(index); - SetRendererLightSources(renderer); + //SetRendererLightSources(renderer); ApplyPropertySettings(); Slice(renderer, dispGeo); m_LastDisplayGeometry = dispGeo; } // Get the TimeSlicedGeometry of the input object mitk::Image::Pointer input = const_cast(this->GetInput()); const TimeSlicedGeometry *inputTimeGeometry = input->GetTimeSlicedGeometry(); if (( inputTimeGeometry == NULL ) || ( inputTimeGeometry->GetTimeSteps() == 0 )) { m_PropAssemblies[0]->VisibilityOff(); m_PropAssemblies[1]->VisibilityOff(); m_PropAssemblies[2]->VisibilityOff(); return; } if( inputTimeGeometry->IsValidTime( this->GetTimestep() ) == false ) { m_PropAssemblies[0]->VisibilityOff(); m_PropAssemblies[1]->VisibilityOff(); m_PropAssemblies[2]->VisibilityOff(); return; } } template void mitk::OdfVtkMapper2D ::SetDefaultProperties(mitk::DataNode* node, mitk::BaseRenderer* /*renderer*/, bool /*overwrite*/) { node->SetProperty( "ShowMaxNumber", mitk::IntProperty::New( 150 ) ); node->SetProperty( "Scaling", mitk::FloatProperty::New( 1.0 ) ); node->SetProperty( "Normalization", mitk::OdfNormalizationMethodProperty::New()); node->SetProperty( "ScaleBy", mitk::OdfScaleByProperty::New()); node->SetProperty( "IndexParam1", mitk::FloatProperty::New(2)); node->SetProperty( "IndexParam2", mitk::FloatProperty::New(1)); node->SetProperty( "visible", mitk::BoolProperty::New( true ) ); node->SetProperty( "VisibleOdfs_T", mitk::BoolProperty::New( false ) ); node->SetProperty( "VisibleOdfs_C", mitk::BoolProperty::New( false ) ); node->SetProperty( "VisibleOdfs_S", mitk::BoolProperty::New( false ) ); node->SetProperty ("layer", mitk::IntProperty::New(100)); node->SetProperty( "DoRefresh", mitk::BoolProperty::New( true ) ); } #endif // __mitkOdfVtkMapper2D_txx__ diff --git a/Modules/Qmitk/QmitkStdMultiWidget.cpp b/Modules/Qmitk/QmitkStdMultiWidget.cpp index 3c2219591d..19a2232ab5 100644 --- a/Modules/Qmitk/QmitkStdMultiWidget.cpp +++ b/Modules/Qmitk/QmitkStdMultiWidget.cpp @@ -1,2198 +1,2214 @@ /*========================================================================= 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. =========================================================================*/ #define SMW_INFO MITK_INFO("widget.stdmulti") #include "QmitkStdMultiWidget.h" #include #include #include #include #include #include #include #include #include "mitkProperties.h" #include "mitkGeometry2DDataMapper2D.h" #include "mitkGlobalInteraction.h" #include "mitkDisplayInteractor.h" #include "mitkPointSet.h" #include "mitkPositionEvent.h" #include "mitkStateEvent.h" #include "mitkLine.h" #include "mitkInteractionConst.h" #include "mitkDataStorage.h" #include "mitkNodePredicateBase.h" #include "mitkNodePredicateDataType.h" #include "mitkNodePredicateNot.h" #include "mitkNodePredicateProperty.h" #include "mitkStatusBar.h" #include "mitkImage.h" #include "mitkVtkLayerController.h" -QmitkStdMultiWidget::QmitkStdMultiWidget(QWidget* parent, Qt::WindowFlags f) +QmitkStdMultiWidget::QmitkStdMultiWidget(QWidget* parent, Qt::WindowFlags f, mitk::RenderingManager* renderingManager) : QWidget(parent, f), mitkWidget1(NULL), mitkWidget2(NULL), mitkWidget3(NULL), mitkWidget4(NULL), +levelWindowWidget(NULL), +QmitkStdMultiWidgetLayout(NULL), +m_Layout(LAYOUT_DEFAULT), +m_PlaneMode(PLANE_MODE_SLICING), +m_RenderingManager(renderingManager), m_GradientBackgroundFlag(true), -m_PlaneNode1(NULL), -m_PlaneNode2(NULL), -m_PlaneNode3(NULL), -m_Node(NULL), +m_MainSplit(NULL), +m_LayoutSplit(NULL), +m_SubSplit1(NULL), +m_SubSplit2(NULL), +mitkWidget1Container(NULL), +mitkWidget2Container(NULL), +mitkWidget3Container(NULL), +mitkWidget4Container(NULL), m_PendingCrosshairPositionEvent(false), m_CrosshairNavigationEnabled(false) { + /****************************************************** + * Use the global RenderingManager is none was specified + * ****************************************************/ + if (m_RenderingManager == NULL) + { + m_RenderingManager = mitk::RenderingManager::GetInstance(); + } + /*******************************/ //Create Widget manually /*******************************/ //create Layouts QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); QmitkStdMultiWidgetLayout->setContentsMargins(0,0,0,0); //Set Layout to widget this->setLayout(QmitkStdMultiWidgetLayout); // QmitkNavigationToolBar* toolBar = new QmitkNavigationToolBar(); // QmitkStdMultiWidgetLayout->addWidget( toolBar ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( Qt::Vertical, m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //creae Widget Container mitkWidget1Container = new QWidget(m_SubSplit1); mitkWidget2Container = new QWidget(m_SubSplit1); mitkWidget3Container = new QWidget(m_SubSplit2); mitkWidget4Container = new QWidget(m_SubSplit2); mitkWidget1Container->setContentsMargins(0,0,0,0); mitkWidget2Container->setContentsMargins(0,0,0,0); mitkWidget3Container->setContentsMargins(0,0,0,0); mitkWidget4Container->setContentsMargins(0,0,0,0); //create Widget Layout QHBoxLayout *mitkWidgetLayout1 = new QHBoxLayout(mitkWidget1Container); QHBoxLayout *mitkWidgetLayout2 = new QHBoxLayout(mitkWidget2Container); QHBoxLayout *mitkWidgetLayout3 = new QHBoxLayout(mitkWidget3Container); QHBoxLayout *mitkWidgetLayout4 = new QHBoxLayout(mitkWidget4Container); mitkWidgetLayout1->setMargin(0); mitkWidgetLayout2->setMargin(0); mitkWidgetLayout3->setMargin(0); mitkWidgetLayout4->setMargin(0); //set Layout to Widget Container mitkWidget1Container->setLayout(mitkWidgetLayout1); mitkWidget2Container->setLayout(mitkWidgetLayout2); mitkWidget3Container->setLayout(mitkWidgetLayout3); mitkWidget4Container->setLayout(mitkWidgetLayout4); //set SizePolicy mitkWidget1Container->setSizePolicy(QSizePolicy::Expanding,QSizePolicy::Expanding); mitkWidget2Container->setSizePolicy(QSizePolicy::Expanding,QSizePolicy::Expanding); mitkWidget3Container->setSizePolicy(QSizePolicy::Expanding,QSizePolicy::Expanding); mitkWidget4Container->setSizePolicy(QSizePolicy::Expanding,QSizePolicy::Expanding); //insert Widget Container into the splitters m_SubSplit1->addWidget( mitkWidget1Container ); m_SubSplit1->addWidget( mitkWidget2Container ); m_SubSplit2->addWidget( mitkWidget3Container ); m_SubSplit2->addWidget( mitkWidget4Container ); -// mitk::RenderingManager::GetInstance()->SetGlobalInteraction( mitk::GlobalInteraction::GetInstance() ); + // m_RenderingManager->SetGlobalInteraction( mitk::GlobalInteraction::GetInstance() ); //Create RenderWindows 1 - mitkWidget1 = new QmitkRenderWindow(mitkWidget1Container, "stdmulti.widget1"); + mitkWidget1 = new QmitkRenderWindow(mitkWidget1Container, "stdmulti.widget1", NULL, m_RenderingManager); mitkWidget1->setMaximumSize(2000,2000); mitkWidget1->SetLayoutIndex( TRANSVERSAL ); mitkWidgetLayout1->addWidget(mitkWidget1); //Create RenderWindows 2 - mitkWidget2 = new QmitkRenderWindow(mitkWidget2Container, "stdmulti.widget2"); + mitkWidget2 = new QmitkRenderWindow(mitkWidget2Container, "stdmulti.widget2", NULL, m_RenderingManager); mitkWidget2->setMaximumSize(2000,2000); mitkWidget2->setEnabled( TRUE ); mitkWidget2->SetLayoutIndex( SAGITTAL ); mitkWidgetLayout2->addWidget(mitkWidget2); //Create RenderWindows 3 - mitkWidget3 = new QmitkRenderWindow(mitkWidget3Container, "stdmulti.widget3"); + mitkWidget3 = new QmitkRenderWindow(mitkWidget3Container, "stdmulti.widget3", NULL, m_RenderingManager); mitkWidget3->setMaximumSize(2000,2000); mitkWidget3->SetLayoutIndex( CORONAL ); mitkWidgetLayout3->addWidget(mitkWidget3); //Create RenderWindows 4 - mitkWidget4 = new QmitkRenderWindow(mitkWidget4Container, "stdmulti.widget4"); + mitkWidget4 = new QmitkRenderWindow(mitkWidget4Container, "stdmulti.widget4", NULL, m_RenderingManager); mitkWidget4->setMaximumSize(2000,2000); mitkWidget4->SetLayoutIndex( THREE_D ); mitkWidgetLayout4->addWidget(mitkWidget4); //create SignalSlot Connection connect( mitkWidget1, SIGNAL( SignalLayoutDesignChanged(int) ), this, SLOT( OnLayoutDesignChanged(int) ) ); connect( mitkWidget1, SIGNAL( ResetView() ), this, SLOT( ResetCrosshair() ) ); connect( mitkWidget1, SIGNAL( ChangeCrosshairRotationMode(int) ), this, SLOT( SetWidgetPlaneMode(int) ) ); connect( this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget1, SLOT(OnWidgetPlaneModeChanged(int)) ); connect( mitkWidget2, SIGNAL( SignalLayoutDesignChanged(int) ), this, SLOT( OnLayoutDesignChanged(int) ) ); connect( mitkWidget2, SIGNAL( ResetView() ), this, SLOT( ResetCrosshair() ) ); connect( mitkWidget2, SIGNAL( ChangeCrosshairRotationMode(int) ), this, SLOT( SetWidgetPlaneMode(int) ) ); connect( this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget2, SLOT(OnWidgetPlaneModeChanged(int)) ); connect( mitkWidget3, SIGNAL( SignalLayoutDesignChanged(int) ), this, SLOT( OnLayoutDesignChanged(int) ) ); connect( mitkWidget3, SIGNAL( ResetView() ), this, SLOT( ResetCrosshair() ) ); connect( mitkWidget3, SIGNAL( ChangeCrosshairRotationMode(int) ), this, SLOT( SetWidgetPlaneMode(int) ) ); connect( this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget3, SLOT(OnWidgetPlaneModeChanged(int)) ); connect( mitkWidget4, SIGNAL( SignalLayoutDesignChanged(int) ), this, SLOT( OnLayoutDesignChanged(int) ) ); connect( mitkWidget4, SIGNAL( ResetView() ), this, SLOT( ResetCrosshair() ) ); connect( mitkWidget4, SIGNAL( ChangeCrosshairRotationMode(int) ), this, SLOT( SetWidgetPlaneMode(int) ) ); connect( this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget4, SLOT(OnWidgetPlaneModeChanged(int)) ); //Create Level Window Widget levelWindowWidget = new QmitkLevelWindowWidget( m_MainSplit ); //this levelWindowWidget->setObjectName(QString::fromUtf8("levelWindowWidget")); QSizePolicy sizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred); sizePolicy.setHorizontalStretch(0); sizePolicy.setVerticalStretch(0); sizePolicy.setHeightForWidth(levelWindowWidget->sizePolicy().hasHeightForWidth()); levelWindowWidget->setSizePolicy(sizePolicy); levelWindowWidget->setMaximumSize(QSize(50, 2000)); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //show mainSplitt and add to Layout m_MainSplit->show(); //resize Image. this->resize( QSize(364, 477).expandedTo(minimumSizeHint()) ); //Initialize the widgets. this->InitializeWidget(); //Activate Widget Menu this->ActivateMenuWidget( true ); } void QmitkStdMultiWidget::InitializeWidget() { m_PositionTracker = NULL; // transfer colors in WorldGeometry-Nodes of the associated Renderer QColor qcolor; //float color[3] = {1.0f,1.0f,1.0f}; mitk::DataNode::Pointer planeNode; mitk::IntProperty::Pointer layer; // of widget 1 planeNode = mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetCurrentWorldGeometry2DNode(); planeNode->SetColor(1.0,0.0,0.0); layer = mitk::IntProperty::New(1000); planeNode->SetProperty("layer",layer); // ... of widget 2 planeNode = mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->GetCurrentWorldGeometry2DNode(); planeNode->SetColor(0.0,1.0,0.0); layer = mitk::IntProperty::New(1000); planeNode->SetProperty("layer",layer); // ... of widget 3 planeNode = mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->GetCurrentWorldGeometry2DNode(); planeNode->SetColor(0.0,0.0,1.0); layer = mitk::IntProperty::New(1000); planeNode->SetProperty("layer",layer); // ... of widget 4 planeNode = mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->GetCurrentWorldGeometry2DNode(); planeNode->SetColor(1.0,1.0,0.0); layer = mitk::IntProperty::New(1000); planeNode->SetProperty("layer",layer); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->SetMapperID(mitk::BaseRenderer::Standard3D); // Set plane mode (slicing/rotation behavior) to slicing (default) m_PlaneMode = PLANE_MODE_SLICING; // Set default view directions for SNCs mitkWidget1->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Transversal ); mitkWidget2->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Sagittal ); mitkWidget3->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Frontal ); mitkWidget4->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Original ); /*************************************************/ //Write Layout Names into the viewers -- hardCoded //Info for later: //int view = this->GetRenderWindow1()->GetSliceNavigationController()->GetDefaultViewDirection(); //QString layoutName; //if( view == mitk::SliceNavigationController::Transversal ) // layoutName = "Transversal"; //else if( view == mitk::SliceNavigationController::Sagittal ) // layoutName = "Sagittal"; //else if( view == mitk::SliceNavigationController::Frontal ) // layoutName = "Coronal"; //else if( view == mitk::SliceNavigationController::Original ) // layoutName = "Original"; //if( view >= 0 && view < 4 ) // //write LayoutName --> Viewer 3D shoudn't write the layoutName. //Render Window 1 == transversal m_CornerAnnotaions[0].cornerText = vtkCornerAnnotation::New(); m_CornerAnnotaions[0].cornerText->SetText(0, "Transversal"); m_CornerAnnotaions[0].cornerText->SetMaximumFontSize(12); m_CornerAnnotaions[0].textProp = vtkTextProperty::New(); m_CornerAnnotaions[0].textProp->SetColor( 1.0, 0.0, 0.0 ); m_CornerAnnotaions[0].cornerText->SetTextProperty( m_CornerAnnotaions[0].textProp ); m_CornerAnnotaions[0].ren = vtkRenderer::New(); m_CornerAnnotaions[0].ren->AddActor(m_CornerAnnotaions[0].cornerText); m_CornerAnnotaions[0].ren->InteractiveOff(); mitk::VtkLayerController::GetInstance(this->GetRenderWindow1()->GetRenderWindow())->InsertForegroundRenderer(m_CornerAnnotaions[0].ren,true); //Render Window 2 == sagittal m_CornerAnnotaions[1].cornerText = vtkCornerAnnotation::New(); m_CornerAnnotaions[1].cornerText->SetText(0, "Sagittal"); m_CornerAnnotaions[1].cornerText->SetMaximumFontSize(12); m_CornerAnnotaions[1].textProp = vtkTextProperty::New(); m_CornerAnnotaions[1].textProp->SetColor( 0.0, 1.0, 0.0 ); m_CornerAnnotaions[1].cornerText->SetTextProperty( m_CornerAnnotaions[1].textProp ); m_CornerAnnotaions[1].ren = vtkRenderer::New(); m_CornerAnnotaions[1].ren->AddActor(m_CornerAnnotaions[1].cornerText); m_CornerAnnotaions[1].ren->InteractiveOff(); mitk::VtkLayerController::GetInstance(this->GetRenderWindow2()->GetRenderWindow())->InsertForegroundRenderer(m_CornerAnnotaions[1].ren,true); //Render Window 3 == coronal m_CornerAnnotaions[2].cornerText = vtkCornerAnnotation::New(); m_CornerAnnotaions[2].cornerText->SetText(0, "Coronal"); m_CornerAnnotaions[2].cornerText->SetMaximumFontSize(12); m_CornerAnnotaions[2].textProp = vtkTextProperty::New(); m_CornerAnnotaions[2].textProp->SetColor( 0.295, 0.295, 1.0 ); m_CornerAnnotaions[2].cornerText->SetTextProperty( m_CornerAnnotaions[2].textProp ); m_CornerAnnotaions[2].ren = vtkRenderer::New(); m_CornerAnnotaions[2].ren->AddActor(m_CornerAnnotaions[2].cornerText); m_CornerAnnotaions[2].ren->InteractiveOff(); mitk::VtkLayerController::GetInstance(this->GetRenderWindow3()->GetRenderWindow())->InsertForegroundRenderer(m_CornerAnnotaions[2].ren,true); /*************************************************/ // create a slice rotator // m_SlicesRotator = mitk::SlicesRotator::New(); // @TODO next line causes sure memory leak // rotator will be created nonetheless (will be switched on and off) m_SlicesRotator = mitk::SlicesRotator::New("slices-rotator"); m_SlicesRotator->AddSliceController( mitkWidget1->GetSliceNavigationController() ); m_SlicesRotator->AddSliceController( mitkWidget2->GetSliceNavigationController() ); m_SlicesRotator->AddSliceController( mitkWidget3->GetSliceNavigationController() ); // create a slice swiveller (using the same state-machine as SlicesRotator) m_SlicesSwiveller = mitk::SlicesSwiveller::New("slices-rotator"); m_SlicesSwiveller->AddSliceController( mitkWidget1->GetSliceNavigationController() ); m_SlicesSwiveller->AddSliceController( mitkWidget2->GetSliceNavigationController() ); m_SlicesSwiveller->AddSliceController( mitkWidget3->GetSliceNavigationController() ); //initialize m_TimeNavigationController: send time via sliceNavigationControllers m_TimeNavigationController = mitk::SliceNavigationController::New("dummy"); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget1->GetSliceNavigationController() , false); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget2->GetSliceNavigationController() , false); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget3->GetSliceNavigationController() , false); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget4->GetSliceNavigationController() , false); mitkWidget1->GetSliceNavigationController() ->ConnectGeometrySendEvent(mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())); // Set TimeNavigationController to RenderingManager // (which uses it internally for views initialization!) - mitk::RenderingManager::GetInstance()->SetTimeNavigationController( - m_TimeNavigationController ); + m_RenderingManager->SetTimeNavigationController( m_TimeNavigationController ); //reverse connection between sliceNavigationControllers and m_TimeNavigationController mitkWidget1->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); mitkWidget2->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); mitkWidget3->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); mitkWidget4->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); m_MouseModeSwitcher = mitk::MouseModeSwitcher::New( mitk::GlobalInteraction::GetInstance() ); m_LastLeftClickPositionSupplier = mitk::CoordinateSupplier::New("navigation", NULL); mitk::GlobalInteraction::GetInstance()->AddListener( m_LastLeftClickPositionSupplier ); // setup gradient background m_GradientBackground1 = mitk::GradientBackground::New(); m_GradientBackground1->SetRenderWindow( mitkWidget1->GetRenderWindow() ); m_GradientBackground1->Disable(); m_GradientBackground2 = mitk::GradientBackground::New(); m_GradientBackground2->SetRenderWindow( mitkWidget2->GetRenderWindow() ); m_GradientBackground2->Disable(); m_GradientBackground3 = mitk::GradientBackground::New(); m_GradientBackground3->SetRenderWindow( mitkWidget3->GetRenderWindow() ); m_GradientBackground3->Disable(); m_GradientBackground4 = mitk::GradientBackground::New(); m_GradientBackground4->SetRenderWindow( mitkWidget4->GetRenderWindow() ); m_GradientBackground4->SetGradientColors(0.1,0.1,0.1,0.5,0.5,0.5); m_GradientBackground4->Enable(); // setup the department logo rendering m_LogoRendering1 = mitk::ManufacturerLogo::New(); m_LogoRendering1->SetRenderWindow( mitkWidget1->GetRenderWindow() ); m_LogoRendering1->Disable(); m_LogoRendering2 = mitk::ManufacturerLogo::New(); m_LogoRendering2->SetRenderWindow( mitkWidget2->GetRenderWindow() ); m_LogoRendering2->Disable(); m_LogoRendering3 = mitk::ManufacturerLogo::New(); m_LogoRendering3->SetRenderWindow( mitkWidget3->GetRenderWindow() ); m_LogoRendering3->Disable(); m_LogoRendering4 = mitk::ManufacturerLogo::New(); m_LogoRendering4->SetRenderWindow( mitkWidget4->GetRenderWindow() ); m_LogoRendering4->Enable(); m_RectangleRendering1 = mitk::RenderWindowFrame::New(); m_RectangleRendering1->SetRenderWindow( mitkWidget1->GetRenderWindow() ); m_RectangleRendering1->Enable(1.0,0.0,0.0); m_RectangleRendering2 = mitk::RenderWindowFrame::New(); m_RectangleRendering2->SetRenderWindow( mitkWidget2->GetRenderWindow() ); m_RectangleRendering2->Enable(0.0,1.0,0.0); m_RectangleRendering3 = mitk::RenderWindowFrame::New(); m_RectangleRendering3->SetRenderWindow( mitkWidget3->GetRenderWindow() ); m_RectangleRendering3->Enable(0.0,0.0,1.0); m_RectangleRendering4 = mitk::RenderWindowFrame::New(); m_RectangleRendering4->SetRenderWindow( mitkWidget4->GetRenderWindow() ); m_RectangleRendering4->Enable(1.0,1.0,0.0); } QmitkStdMultiWidget::~QmitkStdMultiWidget() { DisablePositionTracking(); DisableNavigationControllerEventListening(); mitk::VtkLayerController::GetInstance(this->GetRenderWindow1()->GetRenderWindow())->RemoveRenderer( m_CornerAnnotaions[0].ren ); mitk::VtkLayerController::GetInstance(this->GetRenderWindow2()->GetRenderWindow())->RemoveRenderer( m_CornerAnnotaions[1].ren ); mitk::VtkLayerController::GetInstance(this->GetRenderWindow3()->GetRenderWindow())->RemoveRenderer( m_CornerAnnotaions[2].ren ); //Delete CornerAnnotation m_CornerAnnotaions[0].cornerText->Delete(); m_CornerAnnotaions[0].textProp->Delete(); m_CornerAnnotaions[0].ren->Delete(); m_CornerAnnotaions[1].cornerText->Delete(); m_CornerAnnotaions[1].textProp->Delete(); m_CornerAnnotaions[1].ren->Delete(); m_CornerAnnotaions[2].cornerText->Delete(); m_CornerAnnotaions[2].textProp->Delete(); m_CornerAnnotaions[2].ren->Delete(); } void QmitkStdMultiWidget::RemovePlanesFromDataStorage() { if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_Node.IsNotNull()) { if(m_DataStorage.IsNotNull()) { m_DataStorage->Remove(m_PlaneNode1); m_DataStorage->Remove(m_PlaneNode2); m_DataStorage->Remove(m_PlaneNode3); m_DataStorage->Remove(m_Node); } } } void QmitkStdMultiWidget::AddPlanesToDataStorage() { if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_Node.IsNotNull()) { if (m_DataStorage.IsNotNull()) { m_DataStorage->Add(m_Node); m_DataStorage->Add(m_PlaneNode1, m_Node); m_DataStorage->Add(m_PlaneNode2, m_Node); m_DataStorage->Add(m_PlaneNode3, m_Node); static_cast(m_PlaneNode1->GetMapper(mitk::BaseRenderer::Standard2D))->SetDatastorageAndGeometryBaseNode(m_DataStorage, m_Node); static_cast(m_PlaneNode2->GetMapper(mitk::BaseRenderer::Standard2D))->SetDatastorageAndGeometryBaseNode(m_DataStorage, m_Node); static_cast(m_PlaneNode3->GetMapper(mitk::BaseRenderer::Standard2D))->SetDatastorageAndGeometryBaseNode(m_DataStorage, m_Node); } } } void QmitkStdMultiWidget::changeLayoutTo2DImagesUp() { SMW_INFO << "changing layout to 2D images up... " << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //Set Layout to widget this->setLayout(QmitkStdMultiWidgetLayout); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( Qt::Vertical, m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //insert Widget Container into splitter top m_SubSplit1->addWidget( mitkWidget1Container ); m_SubSplit1->addWidget( mitkWidget2Container ); m_SubSplit1->addWidget( mitkWidget3Container ); //set SplitterSize for splitter top QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes( splitterSize ); //insert Widget Container into splitter bottom m_SubSplit2->addWidget( mitkWidget4Container ); //set SplitterSize for splitter m_LayoutSplit splitterSize.clear(); splitterSize.push_back(400); splitterSize.push_back(1000); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt m_MainSplit->show(); //show Widget if hidden if ( mitkWidget1->isHidden() ) mitkWidget1->show(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); //Change Layout Name m_Layout = LAYOUT_2D_IMAGES_UP; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_2D_IMAGES_UP ); mitkWidget2->LayoutDesignListChanged( LAYOUT_2D_IMAGES_UP ); mitkWidget3->LayoutDesignListChanged( LAYOUT_2D_IMAGES_UP ); mitkWidget4->LayoutDesignListChanged( LAYOUT_2D_IMAGES_UP ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutTo2DImagesLeft() { SMW_INFO << "changing layout to 2D images left... " << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( Qt::Vertical, m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //insert Widget into the splitters m_SubSplit1->addWidget( mitkWidget1Container ); m_SubSplit1->addWidget( mitkWidget2Container ); m_SubSplit1->addWidget( mitkWidget3Container ); //set splitterSize of SubSplit1 QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes( splitterSize ); m_SubSplit2->addWidget( mitkWidget4Container ); //set splitterSize of Layout Split splitterSize.clear(); splitterSize.push_back(400); splitterSize.push_back(1000); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt and add to Layout m_MainSplit->show(); //show Widget if hidden if ( mitkWidget1->isHidden() ) mitkWidget1->show(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); //update Layout Name m_Layout = LAYOUT_2D_IMAGES_LEFT; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_2D_IMAGES_LEFT ); mitkWidget2->LayoutDesignListChanged( LAYOUT_2D_IMAGES_LEFT ); mitkWidget3->LayoutDesignListChanged( LAYOUT_2D_IMAGES_LEFT ); mitkWidget4->LayoutDesignListChanged( LAYOUT_2D_IMAGES_LEFT ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToDefault() { SMW_INFO << "changing layout to default... " << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( Qt::Vertical, m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //insert Widget container into the splitters m_SubSplit1->addWidget( mitkWidget1Container ); m_SubSplit1->addWidget( mitkWidget2Container ); m_SubSplit2->addWidget( mitkWidget3Container ); m_SubSplit2->addWidget( mitkWidget4Container ); //set splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes( splitterSize ); m_SubSplit2->setSizes( splitterSize ); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt and add to Layout m_MainSplit->show(); //show Widget if hidden if ( mitkWidget1->isHidden() ) mitkWidget1->show(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_DEFAULT; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_DEFAULT ); mitkWidget2->LayoutDesignListChanged( LAYOUT_DEFAULT ); mitkWidget3->LayoutDesignListChanged( LAYOUT_DEFAULT ); mitkWidget4->LayoutDesignListChanged( LAYOUT_DEFAULT ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToBig3D() { SMW_INFO << "changing layout to big 3D ..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //add widget Splitter to main Splitter m_MainSplit->addWidget( mitkWidget4Container ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); mitkWidget3->hide(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_BIG_3D; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_BIG_3D ); mitkWidget2->LayoutDesignListChanged( LAYOUT_BIG_3D ); mitkWidget3->LayoutDesignListChanged( LAYOUT_BIG_3D ); mitkWidget4->LayoutDesignListChanged( LAYOUT_BIG_3D ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToWidget1() { SMW_INFO << "changing layout to big Widget1 ..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //add widget Splitter to main Splitter m_MainSplit->addWidget( mitkWidget1Container ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets if ( mitkWidget1->isHidden() ) mitkWidget1->show(); mitkWidget2->hide(); mitkWidget3->hide(); mitkWidget4->hide(); m_Layout = LAYOUT_WIDGET1; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_WIDGET1 ); mitkWidget2->LayoutDesignListChanged( LAYOUT_WIDGET1 ); mitkWidget3->LayoutDesignListChanged( LAYOUT_WIDGET1 ); mitkWidget4->LayoutDesignListChanged( LAYOUT_WIDGET1 ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToWidget2() { SMW_INFO << "changing layout to big Widget2 ..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //add widget Splitter to main Splitter m_MainSplit->addWidget( mitkWidget2Container ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets mitkWidget1->hide(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); mitkWidget3->hide(); mitkWidget4->hide(); m_Layout = LAYOUT_WIDGET2; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_WIDGET2 ); mitkWidget2->LayoutDesignListChanged( LAYOUT_WIDGET2 ); mitkWidget3->LayoutDesignListChanged( LAYOUT_WIDGET2 ); mitkWidget4->LayoutDesignListChanged( LAYOUT_WIDGET2 ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToWidget3() { SMW_INFO << "changing layout to big Widget3 ..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //add widget Splitter to main Splitter m_MainSplit->addWidget( mitkWidget3Container ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); mitkWidget4->hide(); m_Layout = LAYOUT_WIDGET3; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_WIDGET3 ); mitkWidget2->LayoutDesignListChanged( LAYOUT_WIDGET3 ); mitkWidget3->LayoutDesignListChanged( LAYOUT_WIDGET3 ); mitkWidget4->LayoutDesignListChanged( LAYOUT_WIDGET3 ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToRowWidget3And4() { SMW_INFO << "changing layout to Widget3 and 4 in a Row..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( Qt::Vertical, m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //add Widgets to splitter m_LayoutSplit->addWidget( mitkWidget3Container ); m_LayoutSplit->addWidget( mitkWidget4Container ); //set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_ROW_WIDGET_3_AND_4; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_ROW_WIDGET_3_AND_4 ); mitkWidget2->LayoutDesignListChanged( LAYOUT_ROW_WIDGET_3_AND_4 ); mitkWidget3->LayoutDesignListChanged( LAYOUT_ROW_WIDGET_3_AND_4 ); mitkWidget4->LayoutDesignListChanged( LAYOUT_ROW_WIDGET_3_AND_4 ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToColumnWidget3And4() { SMW_INFO << "changing layout to Widget3 and 4 in one Column..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //add Widgets to splitter m_LayoutSplit->addWidget( mitkWidget3Container ); m_LayoutSplit->addWidget( mitkWidget4Container ); //set SplitterSize QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_COLUMN_WIDGET_3_AND_4; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_COLUMN_WIDGET_3_AND_4 ); mitkWidget2->LayoutDesignListChanged( LAYOUT_COLUMN_WIDGET_3_AND_4 ); mitkWidget3->LayoutDesignListChanged( LAYOUT_COLUMN_WIDGET_3_AND_4 ); mitkWidget4->LayoutDesignListChanged( LAYOUT_COLUMN_WIDGET_3_AND_4 ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToRowWidgetSmall3andBig4() { SMW_INFO << "changing layout to Widget3 and 4 in a Row..." << std::endl; this->changeLayoutToRowWidget3And4(); m_Layout = LAYOUT_ROW_WIDGET_SMALL3_AND_BIG4; } void QmitkStdMultiWidget::changeLayoutToSmallUpperWidget2Big3and4() { SMW_INFO << "changing layout to Widget3 and 4 in a Row..." << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( Qt::Vertical, m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( Qt::Vertical, m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //insert Widget into the splitters m_SubSplit1->addWidget( mitkWidget2Container ); m_SubSplit2->addWidget( mitkWidget3Container ); m_SubSplit2->addWidget( mitkWidget4Container ); //set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit2->setSizes( splitterSize ); splitterSize.clear(); splitterSize.push_back(500); splitterSize.push_back(1000); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt m_MainSplit->show(); //show Widget if hidden mitkWidget1->hide(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); if ( mitkWidget3->isHidden() ) mitkWidget3->show(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4 ); mitkWidget2->LayoutDesignListChanged( LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4 ); mitkWidget3->LayoutDesignListChanged( LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4 ); mitkWidget4->LayoutDesignListChanged( LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4 ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutTo2x2Dand3DWidget() { SMW_INFO << "changing layout to 2 x 2D and 3D Widget" << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( Qt::Vertical, m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //add Widgets to splitter m_SubSplit1->addWidget( mitkWidget1Container ); m_SubSplit1->addWidget( mitkWidget2Container ); m_SubSplit2->addWidget( mitkWidget4Container ); //set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes( splitterSize ); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets if ( mitkWidget1->isHidden() ) mitkWidget1->show(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); mitkWidget3->hide(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_2X_2D_AND_3D_WIDGET; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_2X_2D_AND_3D_WIDGET ); mitkWidget2->LayoutDesignListChanged( LAYOUT_2X_2D_AND_3D_WIDGET ); mitkWidget3->LayoutDesignListChanged( LAYOUT_2X_2D_AND_3D_WIDGET ); mitkWidget4->LayoutDesignListChanged( LAYOUT_2X_2D_AND_3D_WIDGET ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToLeft2Dand3DRight2D() { SMW_INFO << "changing layout to 2D and 3D left, 2D right Widget" << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( Qt::Vertical, m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //add Widgets to splitter m_SubSplit1->addWidget( mitkWidget1Container ); m_SubSplit1->addWidget( mitkWidget4Container ); m_SubSplit2->addWidget( mitkWidget2Container ); //set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes( splitterSize ); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt and add to Layout m_MainSplit->show(); //show/hide Widgets if ( mitkWidget1->isHidden() ) mitkWidget1->show(); if ( mitkWidget2->isHidden() ) mitkWidget2->show(); mitkWidget3->hide(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET ); mitkWidget2->LayoutDesignListChanged( LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET ); mitkWidget3->LayoutDesignListChanged( LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET ); mitkWidget4->LayoutDesignListChanged( LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET ); //update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutTo2DUpAnd3DDown() { SMW_INFO << "changing layout to 2D up and 3D down" << std::endl; //Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout ; //create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout( this ); //Set Layout to widget this->setLayout(QmitkStdMultiWidgetLayout); //create main splitter m_MainSplit = new QSplitter( this ); QmitkStdMultiWidgetLayout->addWidget( m_MainSplit ); //create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter( Qt::Vertical, m_MainSplit ); m_MainSplit->addWidget( m_LayoutSplit ); //add LevelWindow Widget to mainSplitter m_MainSplit->addWidget( levelWindowWidget ); //create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter( m_LayoutSplit ); m_SubSplit2 = new QSplitter( m_LayoutSplit ); //insert Widget Container into splitter top m_SubSplit1->addWidget( mitkWidget1Container ); //set SplitterSize for splitter top QList splitterSize; // splitterSize.push_back(1000); // splitterSize.push_back(1000); // splitterSize.push_back(1000); // m_SubSplit1->setSizes( splitterSize ); //insert Widget Container into splitter bottom m_SubSplit2->addWidget( mitkWidget4Container ); //set SplitterSize for splitter m_LayoutSplit splitterSize.clear(); splitterSize.push_back(700); splitterSize.push_back(700); m_LayoutSplit->setSizes( splitterSize ); //show mainSplitt m_MainSplit->show(); //show/hide Widgets if ( mitkWidget1->isHidden() ) mitkWidget1->show(); mitkWidget2->hide(); mitkWidget3->hide(); if ( mitkWidget4->isHidden() ) mitkWidget4->show(); m_Layout = LAYOUT_2D_UP_AND_3D_DOWN; //update Layout Design List mitkWidget1->LayoutDesignListChanged( LAYOUT_2D_UP_AND_3D_DOWN ); mitkWidget2->LayoutDesignListChanged( LAYOUT_2D_UP_AND_3D_DOWN ); mitkWidget3->LayoutDesignListChanged( LAYOUT_2D_UP_AND_3D_DOWN ); mitkWidget4->LayoutDesignListChanged( LAYOUT_2D_UP_AND_3D_DOWN ); //update all Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::SetDataStorage( mitk::DataStorage* ds ) { mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->SetDataStorage(ds); mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->SetDataStorage(ds); mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->SetDataStorage(ds); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->SetDataStorage(ds); m_DataStorage = ds; } void QmitkStdMultiWidget::Fit() { vtkRenderer * vtkrenderer; mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetDisplayGeometry()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->GetDisplayGeometry()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->GetDisplayGeometry()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->GetDisplayGeometry()->Fit(); int w = vtkObject::GetGlobalWarningDisplay(); vtkObject::GlobalWarningDisplayOff(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkObject::SetGlobalWarningDisplay(w); } void QmitkStdMultiWidget::InitPositionTracking() { //PoinSetNode for MouseOrientation m_PositionTrackerNode = mitk::DataNode::New(); m_PositionTrackerNode->SetProperty("name", mitk::StringProperty::New("Mouse Position")); m_PositionTrackerNode->SetData( mitk::PointSet::New() ); m_PositionTrackerNode->SetColor(1.0,0.33,0.0); m_PositionTrackerNode->SetProperty("layer", mitk::IntProperty::New(1001)); m_PositionTrackerNode->SetVisibility(true); m_PositionTrackerNode->SetProperty("inputdevice", mitk::BoolProperty::New(true) ); m_PositionTrackerNode->SetProperty("BaseRendererMapperID", mitk::IntProperty::New(0) );//point position 2D mouse m_PositionTrackerNode->SetProperty("baserenderer", mitk::StringProperty::New("N/A")); } void QmitkStdMultiWidget::AddDisplayPlaneSubTree() { // add the displayed planes of the multiwidget to a node to which the subtree // @a planesSubTree points ... float white[3] = {1.0f,1.0f,1.0f}; mitk::Geometry2DDataMapper2D::Pointer mapper; // ... of widget 1 m_PlaneNode1 = (mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow()))->GetCurrentWorldGeometry2DNode(); m_PlaneNode1->SetColor(white, mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())); m_PlaneNode1->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode1->SetProperty("name", mitk::StringProperty::New("widget1Plane")); m_PlaneNode1->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode1->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::Geometry2DDataMapper2D::New(); m_PlaneNode1->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 2 m_PlaneNode2 =( mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow()))->GetCurrentWorldGeometry2DNode(); m_PlaneNode2->SetColor(white, mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())); m_PlaneNode2->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode2->SetProperty("name", mitk::StringProperty::New("widget2Plane")); m_PlaneNode2->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode2->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::Geometry2DDataMapper2D::New(); m_PlaneNode2->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 3 m_PlaneNode3 = (mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow()))->GetCurrentWorldGeometry2DNode(); m_PlaneNode3->SetColor(white, mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())); m_PlaneNode3->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode3->SetProperty("name", mitk::StringProperty::New("widget3Plane")); m_PlaneNode3->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode3->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::Geometry2DDataMapper2D::New(); m_PlaneNode3->SetMapper(mitk::BaseRenderer::Standard2D, mapper); m_Node = mitk::DataNode::New(); m_Node->SetProperty("name", mitk::StringProperty::New("Widgets")); m_Node->SetProperty("helper object", mitk::BoolProperty::New(true)); } mitk::SliceNavigationController* QmitkStdMultiWidget::GetTimeNavigationController() { return m_TimeNavigationController.GetPointer(); } void QmitkStdMultiWidget::EnableStandardLevelWindow() { levelWindowWidget->disconnect(this); levelWindowWidget->SetDataStorage(mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetDataStorage()); levelWindowWidget->show(); } void QmitkStdMultiWidget::DisableStandardLevelWindow() { levelWindowWidget->disconnect(this); levelWindowWidget->hide(); } // CAUTION: Legacy code for enabling Qt-signal-controlled view initialization. // Use RenderingManager::InitializeViews() instead. bool QmitkStdMultiWidget::InitializeStandardViews( const mitk::Geometry3D * geometry ) { - return mitk::RenderingManager::GetInstance()->InitializeViews( geometry ); + return m_RenderingManager->InitializeViews( geometry ); } void QmitkStdMultiWidget::RequestUpdate() { - mitk::RenderingManager::GetInstance()->RequestUpdate(mitkWidget1->GetRenderWindow()); - mitk::RenderingManager::GetInstance()->RequestUpdate(mitkWidget2->GetRenderWindow()); - mitk::RenderingManager::GetInstance()->RequestUpdate(mitkWidget3->GetRenderWindow()); - mitk::RenderingManager::GetInstance()->RequestUpdate(mitkWidget4->GetRenderWindow()); + m_RenderingManager->RequestUpdate(mitkWidget1->GetRenderWindow()); + m_RenderingManager->RequestUpdate(mitkWidget2->GetRenderWindow()); + m_RenderingManager->RequestUpdate(mitkWidget3->GetRenderWindow()); + m_RenderingManager->RequestUpdate(mitkWidget4->GetRenderWindow()); } void QmitkStdMultiWidget::ForceImmediateUpdate() { - mitk::RenderingManager::GetInstance()->ForceImmediateUpdate(mitkWidget1->GetRenderWindow()); - mitk::RenderingManager::GetInstance()->ForceImmediateUpdate(mitkWidget2->GetRenderWindow()); - mitk::RenderingManager::GetInstance()->ForceImmediateUpdate(mitkWidget3->GetRenderWindow()); - mitk::RenderingManager::GetInstance()->ForceImmediateUpdate(mitkWidget4->GetRenderWindow()); + m_RenderingManager->ForceImmediateUpdate(mitkWidget1->GetRenderWindow()); + m_RenderingManager->ForceImmediateUpdate(mitkWidget2->GetRenderWindow()); + m_RenderingManager->ForceImmediateUpdate(mitkWidget3->GetRenderWindow()); + m_RenderingManager->ForceImmediateUpdate(mitkWidget4->GetRenderWindow()); } void QmitkStdMultiWidget::wheelEvent( QWheelEvent * e ) { emit WheelMoved( e ); } void QmitkStdMultiWidget::mousePressEvent(QMouseEvent * e) { if (e->button() == Qt::LeftButton) { mitk::Point3D pointValue = this->GetLastLeftClickPosition(); emit LeftMouseClicked(pointValue); } } void QmitkStdMultiWidget::moveEvent( QMoveEvent* e ) { QWidget::moveEvent( e ); // it is necessary to readjust the position of the overlays as the StdMultiWidget has moved // unfortunately it's not done by QmitkRenderWindow::moveEvent -> must be done here emit Moved(); } void QmitkStdMultiWidget::leaveEvent ( QEvent * /*e*/ ) { //set cursor back to initial state m_SlicesRotator->ResetMouseCursor(); } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow1() const { return mitkWidget1; } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow2() const { return mitkWidget2; } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow3() const { return mitkWidget3; } QmitkRenderWindow* QmitkStdMultiWidget::GetRenderWindow4() const { return mitkWidget4; } const mitk::Point3D& QmitkStdMultiWidget::GetLastLeftClickPosition() const { return m_LastLeftClickPositionSupplier->GetCurrentPoint(); } const mitk::Point3D QmitkStdMultiWidget::GetCrossPosition() const { const mitk::PlaneGeometry *plane1 = mitkWidget1->GetSliceNavigationController()->GetCurrentPlaneGeometry(); const mitk::PlaneGeometry *plane2 = mitkWidget2->GetSliceNavigationController()->GetCurrentPlaneGeometry(); const mitk::PlaneGeometry *plane3 = mitkWidget3->GetSliceNavigationController()->GetCurrentPlaneGeometry(); mitk::Line3D line; if ( (plane1 != NULL) && (plane2 != NULL) && (plane1->IntersectionLine( plane2, line )) ) { mitk::Point3D point; if ( (plane3 != NULL) && (plane3->IntersectionPoint( line, point )) ) { return point; } } return m_LastLeftClickPositionSupplier->GetCurrentPoint(); } void QmitkStdMultiWidget::EnablePositionTracking() { if (!m_PositionTracker) { m_PositionTracker = mitk::PositionTracker::New("PositionTracker", NULL); } mitk::GlobalInteraction* globalInteraction = mitk::GlobalInteraction::GetInstance(); if (globalInteraction) { if(m_DataStorage.IsNotNull()) m_DataStorage->Add(m_PositionTrackerNode); globalInteraction->AddListener(m_PositionTracker); } } void QmitkStdMultiWidget::DisablePositionTracking() { mitk::GlobalInteraction* globalInteraction = mitk::GlobalInteraction::GetInstance(); if(globalInteraction) { if (m_DataStorage.IsNotNull()) m_DataStorage->Remove(m_PositionTrackerNode); globalInteraction->RemoveListener(m_PositionTracker); } } void QmitkStdMultiWidget::EnsureDisplayContainsPoint( mitk::DisplayGeometry* displayGeometry, const mitk::Point3D& p) { mitk::Point2D pointOnPlane; displayGeometry->Map( p, pointOnPlane ); // point minus origin < width or height ==> outside ? mitk::Vector2D pointOnRenderWindow_MM; pointOnRenderWindow_MM = pointOnPlane.GetVectorFromOrigin() - displayGeometry->GetOriginInMM(); mitk::Vector2D sizeOfDisplay( displayGeometry->GetSizeInMM() ); if ( sizeOfDisplay[0] < pointOnRenderWindow_MM[0] || 0 > pointOnRenderWindow_MM[0] || sizeOfDisplay[1] < pointOnRenderWindow_MM[1] || 0 > pointOnRenderWindow_MM[1] ) { // point is not visible -> move geometry mitk::Vector2D offset( (pointOnRenderWindow_MM - sizeOfDisplay / 2.0) / displayGeometry->GetScaleFactorMMPerDisplayUnit() ); displayGeometry->MoveBy( offset ); } } void QmitkStdMultiWidget::MoveCrossToPosition(const mitk::Point3D& newPosition) { // create a PositionEvent with the given position and // tell the slice navigation controllers to move there mitk::Point2D p2d; mitk::PositionEvent event( mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow()), 0, 0, 0, mitk::Key_unknown, p2d, newPosition ); mitk::StateEvent stateEvent(mitk::EIDLEFTMOUSEBTN, &event); mitk::StateEvent stateEvent2(mitk::EIDLEFTMOUSERELEASE, &event); switch ( m_PlaneMode ) { default: case PLANE_MODE_SLICING: mitkWidget1->GetSliceNavigationController()->HandleEvent( &stateEvent ); mitkWidget2->GetSliceNavigationController()->HandleEvent( &stateEvent ); mitkWidget3->GetSliceNavigationController()->HandleEvent( &stateEvent ); // just in case SNCs will develop something that depends on the mouse // button being released again mitkWidget1->GetSliceNavigationController()->HandleEvent( &stateEvent2 ); mitkWidget2->GetSliceNavigationController()->HandleEvent( &stateEvent2 ); mitkWidget3->GetSliceNavigationController()->HandleEvent( &stateEvent2 ); break; case PLANE_MODE_ROTATION: m_SlicesRotator->HandleEvent( &stateEvent ); // just in case SNCs will develop something that depends on the mouse // button being released again m_SlicesRotator->HandleEvent( &stateEvent2 ); break; case PLANE_MODE_SWIVEL: m_SlicesSwiveller->HandleEvent( &stateEvent ); // just in case SNCs will develop something that depends on the mouse // button being released again m_SlicesSwiveller->HandleEvent( &stateEvent2 ); break; } // determine if cross is now out of display // if so, move the display window EnsureDisplayContainsPoint( mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow()) ->GetDisplayGeometry(), newPosition ); EnsureDisplayContainsPoint( mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow()) ->GetDisplayGeometry(), newPosition ); EnsureDisplayContainsPoint( mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow()) ->GetDisplayGeometry(), newPosition ); // update displays - mitk::RenderingManager::GetInstance()->RequestUpdateAll(); + m_RenderingManager->RequestUpdateAll(); } void QmitkStdMultiWidget::HandleCrosshairPositionEvent() { if(!m_PendingCrosshairPositionEvent) { m_PendingCrosshairPositionEvent=true; QTimer::singleShot(0,this,SLOT( HandleCrosshairPositionEventDelayed() ) ); } } void QmitkStdMultiWidget::HandleCrosshairPositionEventDelayed() { m_PendingCrosshairPositionEvent = false; // find image with highest layer mitk::Point3D crosshairPos = this->GetCrossPosition(); mitk::TNodePredicateDataType::Pointer isImageData = mitk::TNodePredicateDataType::New(); mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->m_DataStorage->GetSubset(isImageData).GetPointer(); std::string statusText; mitk::Image::Pointer image3D; int maxlayer = -32768; mitk::BaseRenderer* baseRenderer = this->mitkWidget1->GetSliceNavigationController()->GetRenderer(); // find image with largest layer, that is the image shown on top in the render window for (unsigned int x = 0; x < nodes->size(); x++) { if(nodes->at(x)->GetData()->GetGeometry()->IsInside(crosshairPos)) { int layer = 0; if(!(nodes->at(x)->GetIntProperty("layer", layer))) continue; if(layer > maxlayer) { if( static_cast(nodes->at(x))->IsVisible( baseRenderer ) ) { image3D = dynamic_cast(nodes->at(x)->GetData()); maxlayer = layer; } } } } std::stringstream stream; mitk::Index3D p; if(image3D.IsNotNull()) { image3D->GetGeometry()->WorldToIndex(crosshairPos, p); stream.precision(2); stream<<"Position: <" << std::fixed < mm"; stream<<"; Index: <"< "; mitk::ScalarType pixelValue = image3D->GetPixelValueByIndex(p, baseRenderer->GetTimeStep()); if (fabs(pixelValue)>1000000) { stream<<"; Time: " << baseRenderer->GetTime() << " ms; Pixelvalue: "<GetPixelValueByIndex(p, baseRenderer->GetTimeStep())<<" "; } else { stream<<"; Time: " << baseRenderer->GetTime() << " ms; Pixelvalue: "<GetPixelValueByIndex(p, baseRenderer->GetTimeStep())<<" "; } } else { stream << "No image information at this position!"; } statusText = stream.str(); mitk::StatusBar::GetInstance()->DisplayGreyValueText(statusText.c_str()); } void QmitkStdMultiWidget::EnableNavigationControllerEventListening() { // Let NavigationControllers listen to GlobalInteraction mitk::GlobalInteraction *gi = mitk::GlobalInteraction::GetInstance(); // Listen for SliceNavigationController mitkWidget1->GetSliceNavigationController()->crosshairPositionEvent.AddListener( mitk::MessageDelegate( this, &QmitkStdMultiWidget::HandleCrosshairPositionEvent ) ); mitkWidget2->GetSliceNavigationController()->crosshairPositionEvent.AddListener( mitk::MessageDelegate( this, &QmitkStdMultiWidget::HandleCrosshairPositionEvent ) ); mitkWidget3->GetSliceNavigationController()->crosshairPositionEvent.AddListener( mitk::MessageDelegate( this, &QmitkStdMultiWidget::HandleCrosshairPositionEvent ) ); switch ( m_PlaneMode ) { default: case PLANE_MODE_SLICING: gi->AddListener( mitkWidget1->GetSliceNavigationController() ); gi->AddListener( mitkWidget2->GetSliceNavigationController() ); gi->AddListener( mitkWidget3->GetSliceNavigationController() ); gi->AddListener( mitkWidget4->GetSliceNavigationController() ); break; case PLANE_MODE_ROTATION: gi->AddListener( m_SlicesRotator ); break; case PLANE_MODE_SWIVEL: gi->AddListener( m_SlicesSwiveller ); break; } gi->AddListener( m_TimeNavigationController ); m_CrosshairNavigationEnabled = true; } void QmitkStdMultiWidget::DisableNavigationControllerEventListening() { // Do not let NavigationControllers listen to GlobalInteraction mitk::GlobalInteraction *gi = mitk::GlobalInteraction::GetInstance(); switch ( m_PlaneMode ) { default: case PLANE_MODE_SLICING: gi->RemoveListener( mitkWidget1->GetSliceNavigationController() ); gi->RemoveListener( mitkWidget2->GetSliceNavigationController() ); gi->RemoveListener( mitkWidget3->GetSliceNavigationController() ); gi->RemoveListener( mitkWidget4->GetSliceNavigationController() ); break; case PLANE_MODE_ROTATION: m_SlicesRotator->ResetMouseCursor(); gi->RemoveListener( m_SlicesRotator ); break; case PLANE_MODE_SWIVEL: m_SlicesSwiveller->ResetMouseCursor(); gi->RemoveListener( m_SlicesSwiveller ); break; } gi->RemoveListener( m_TimeNavigationController ); m_CrosshairNavigationEnabled = false; } int QmitkStdMultiWidget::GetLayout() const { return m_Layout; } bool QmitkStdMultiWidget::GetGradientBackgroundFlag() const { return m_GradientBackgroundFlag; } void QmitkStdMultiWidget::EnableGradientBackground() { // gradient background is by default only in widget 4, otherwise // interferences between 2D rendering and VTK rendering may occur. //m_GradientBackground1->Enable(); //m_GradientBackground2->Enable(); //m_GradientBackground3->Enable(); m_GradientBackground4->Enable(); m_GradientBackgroundFlag = true; } void QmitkStdMultiWidget::DisableGradientBackground() { //m_GradientBackground1->Disable(); //m_GradientBackground2->Disable(); //m_GradientBackground3->Disable(); m_GradientBackground4->Disable(); m_GradientBackgroundFlag = false; } void QmitkStdMultiWidget::EnableDepartmentLogo() { m_LogoRendering4->Enable(); } void QmitkStdMultiWidget::DisableDepartmentLogo() { m_LogoRendering4->Disable(); } bool QmitkStdMultiWidget::IsDepartmentLogoEnabled() const { return m_LogoRendering4->IsEnabled(); } bool QmitkStdMultiWidget::IsCrosshairNavigationEnabled() const { return m_CrosshairNavigationEnabled; } mitk::SlicesRotator * QmitkStdMultiWidget::GetSlicesRotator() const { return m_SlicesRotator; } mitk::SlicesSwiveller * QmitkStdMultiWidget::GetSlicesSwiveller() const { return m_SlicesSwiveller; } void QmitkStdMultiWidget::SetWidgetPlaneVisibility(const char* widgetName, bool visible, mitk::BaseRenderer *renderer) { if (m_DataStorage.IsNotNull()) { mitk::DataNode* n = m_DataStorage->GetNamedNode(widgetName); if (n != NULL) n->SetVisibility(visible, renderer); } } void QmitkStdMultiWidget::SetWidgetPlanesVisibility(bool visible, mitk::BaseRenderer *renderer) { SetWidgetPlaneVisibility("widget1Plane", visible, renderer); SetWidgetPlaneVisibility("widget2Plane", visible, renderer); SetWidgetPlaneVisibility("widget3Plane", visible, renderer); - mitk::RenderingManager::GetInstance()->RequestUpdateAll(); + m_RenderingManager->RequestUpdateAll(); } void QmitkStdMultiWidget::SetWidgetPlanesLocked(bool locked) { //do your job and lock or unlock slices. GetRenderWindow1()->GetSliceNavigationController()->SetSliceLocked(locked); GetRenderWindow2()->GetSliceNavigationController()->SetSliceLocked(locked); GetRenderWindow3()->GetSliceNavigationController()->SetSliceLocked(locked); } void QmitkStdMultiWidget::SetWidgetPlanesRotationLocked(bool locked) { //do your job and lock or unlock slices. GetRenderWindow1()->GetSliceNavigationController()->SetSliceRotationLocked(locked); GetRenderWindow2()->GetSliceNavigationController()->SetSliceRotationLocked(locked); GetRenderWindow3()->GetSliceNavigationController()->SetSliceRotationLocked(locked); } void QmitkStdMultiWidget::SetWidgetPlanesRotationLinked( bool link ) { m_SlicesRotator->SetLinkPlanes( link ); m_SlicesSwiveller->SetLinkPlanes( link ); emit WidgetPlanesRotationLinked( link ); } void QmitkStdMultiWidget::SetWidgetPlaneMode( int userMode ) { MITK_DEBUG << "Changing crosshair mode to " << userMode; // first of all reset left mouse button interaction to default if PACS interaction style is active m_MouseModeSwitcher->SelectMouseMode( mitk::MouseModeSwitcher::MousePointer ); emit WidgetNotifyNewCrossHairMode( userMode ); int mode = m_PlaneMode; bool link = false; // Convert user interface mode to actual mode { switch(userMode) { case 0: mode = PLANE_MODE_SLICING; link = false; break; case 1: mode = PLANE_MODE_ROTATION; link = false; break; case 2: mode = PLANE_MODE_ROTATION; link = true; break; case 3: mode = PLANE_MODE_SWIVEL; link = false; break; } } // Slice rotation linked m_SlicesRotator->SetLinkPlanes( link ); m_SlicesSwiveller->SetLinkPlanes( link ); // Do nothing if mode didn't change if ( m_PlaneMode == mode ) { return; } mitk::GlobalInteraction *gi = mitk::GlobalInteraction::GetInstance(); // Remove listeners of previous mode switch ( m_PlaneMode ) { default: case PLANE_MODE_SLICING: // Notify MainTemplate GUI that this mode has been deselected emit WidgetPlaneModeSlicing( false ); gi->RemoveListener( mitkWidget1->GetSliceNavigationController() ); gi->RemoveListener( mitkWidget2->GetSliceNavigationController() ); gi->RemoveListener( mitkWidget3->GetSliceNavigationController() ); gi->RemoveListener( mitkWidget4->GetSliceNavigationController() ); break; case PLANE_MODE_ROTATION: // Notify MainTemplate GUI that this mode has been deselected emit WidgetPlaneModeRotation( false ); m_SlicesRotator->ResetMouseCursor(); gi->RemoveListener( m_SlicesRotator ); break; case PLANE_MODE_SWIVEL: // Notify MainTemplate GUI that this mode has been deselected emit WidgetPlaneModeSwivel( false ); m_SlicesSwiveller->ResetMouseCursor(); gi->RemoveListener( m_SlicesSwiveller ); break; } // Set new mode and add corresponding listener to GlobalInteraction m_PlaneMode = mode; switch ( m_PlaneMode ) { default: case PLANE_MODE_SLICING: // Notify MainTemplate GUI that this mode has been selected emit WidgetPlaneModeSlicing( true ); // Add listeners gi->AddListener( mitkWidget1->GetSliceNavigationController() ); gi->AddListener( mitkWidget2->GetSliceNavigationController() ); gi->AddListener( mitkWidget3->GetSliceNavigationController() ); gi->AddListener( mitkWidget4->GetSliceNavigationController() ); - mitk::RenderingManager::GetInstance()->InitializeViews(); + m_RenderingManager->InitializeViews(); break; case PLANE_MODE_ROTATION: // Notify MainTemplate GUI that this mode has been selected emit WidgetPlaneModeRotation( true ); // Add listener gi->AddListener( m_SlicesRotator ); break; case PLANE_MODE_SWIVEL: // Notify MainTemplate GUI that this mode has been selected emit WidgetPlaneModeSwivel( true ); // Add listener gi->AddListener( m_SlicesSwiveller ); break; } // Notify MainTemplate GUI that mode has changed emit WidgetPlaneModeChange(m_PlaneMode); } void QmitkStdMultiWidget::SetGradientBackgroundColors( const mitk::Color & upper, const mitk::Color & lower ) { m_GradientBackground1->SetGradientColors(upper[0], upper[1], upper[2], lower[0], lower[1], lower[2]); m_GradientBackground2->SetGradientColors(upper[0], upper[1], upper[2], lower[0], lower[1], lower[2]); m_GradientBackground3->SetGradientColors(upper[0], upper[1], upper[2], lower[0], lower[1], lower[2]); m_GradientBackground4->SetGradientColors(upper[0], upper[1], upper[2], lower[0], lower[1], lower[2]); m_GradientBackgroundFlag = true; } void QmitkStdMultiWidget::SetDepartmentLogoPath( const char * path ) { m_LogoRendering1->SetLogoSource(path); m_LogoRendering2->SetLogoSource(path); m_LogoRendering3->SetLogoSource(path); m_LogoRendering4->SetLogoSource(path); } void QmitkStdMultiWidget::SetWidgetPlaneModeToSlicing( bool activate ) { if ( activate ) { this->SetWidgetPlaneMode( PLANE_MODE_SLICING ); } } void QmitkStdMultiWidget::SetWidgetPlaneModeToRotation( bool activate ) { if ( activate ) { this->SetWidgetPlaneMode( PLANE_MODE_ROTATION ); } } void QmitkStdMultiWidget::SetWidgetPlaneModeToSwivel( bool activate ) { if ( activate ) { this->SetWidgetPlaneMode( PLANE_MODE_SWIVEL ); } } void QmitkStdMultiWidget::OnLayoutDesignChanged( int layoutDesignIndex ) { switch( layoutDesignIndex ) { case LAYOUT_DEFAULT: { this->changeLayoutToDefault(); break; } case LAYOUT_2D_IMAGES_UP: { this->changeLayoutTo2DImagesUp(); break; } case LAYOUT_2D_IMAGES_LEFT: { this->changeLayoutTo2DImagesLeft(); break; } case LAYOUT_BIG_3D: { this->changeLayoutToBig3D(); break; } case LAYOUT_WIDGET1: { this->changeLayoutToWidget1(); break; } case LAYOUT_WIDGET2: { this->changeLayoutToWidget2(); break; } case LAYOUT_WIDGET3: { this->changeLayoutToWidget3(); break; } case LAYOUT_2X_2D_AND_3D_WIDGET: { this->changeLayoutTo2x2Dand3DWidget(); break; } case LAYOUT_ROW_WIDGET_3_AND_4: { this->changeLayoutToRowWidget3And4(); break; } case LAYOUT_COLUMN_WIDGET_3_AND_4: { this->changeLayoutToColumnWidget3And4(); break; } case LAYOUT_ROW_WIDGET_SMALL3_AND_BIG4: { this->changeLayoutToRowWidgetSmall3andBig4(); break; } case LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4: { this->changeLayoutToSmallUpperWidget2Big3and4(); break; } case LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET: { this->changeLayoutToLeft2Dand3DRight2D(); break; } }; } void QmitkStdMultiWidget::UpdateAllWidgets() { mitkWidget1->resize( mitkWidget1Container->frameSize().width()-1, mitkWidget1Container->frameSize().height() ); mitkWidget1->resize( mitkWidget1Container->frameSize().width(), mitkWidget1Container->frameSize().height() ); mitkWidget2->resize( mitkWidget2Container->frameSize().width()-1, mitkWidget2Container->frameSize().height() ); mitkWidget2->resize( mitkWidget2Container->frameSize().width(), mitkWidget2Container->frameSize().height() ); mitkWidget3->resize( mitkWidget3Container->frameSize().width()-1, mitkWidget3Container->frameSize().height() ); mitkWidget3->resize( mitkWidget3Container->frameSize().width(), mitkWidget3Container->frameSize().height() ); mitkWidget4->resize( mitkWidget4Container->frameSize().width()-1, mitkWidget4Container->frameSize().height() ); mitkWidget4->resize( mitkWidget4Container->frameSize().width(), mitkWidget4Container->frameSize().height() ); } void QmitkStdMultiWidget::HideAllWidgetToolbars() { mitkWidget1->HideRenderWindowMenu(); mitkWidget2->HideRenderWindowMenu(); mitkWidget3->HideRenderWindowMenu(); mitkWidget4->HideRenderWindowMenu(); } void QmitkStdMultiWidget::ActivateMenuWidget( bool state ) { mitkWidget1->ActivateMenuWidget( state, this ); mitkWidget2->ActivateMenuWidget( state, this ); mitkWidget3->ActivateMenuWidget( state, this ); mitkWidget4->ActivateMenuWidget( state, this ); } bool QmitkStdMultiWidget::IsMenuWidgetEnabled() const { return mitkWidget1->GetActivateMenuWidgetFlag(); } void QmitkStdMultiWidget::ResetCrosshair() { if (m_DataStorage.IsNotNull()) { mitk::NodePredicateNot::Pointer pred = mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("includeInBoundingBox" , mitk::BoolProperty::New(false))); mitk::NodePredicateNot::Pointer pred2 = mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("includeInBoundingBox" , mitk::BoolProperty::New(true))); mitk::DataStorage::SetOfObjects::ConstPointer rs = m_DataStorage->GetSubset(pred); mitk::DataStorage::SetOfObjects::ConstPointer rs2 = m_DataStorage->GetSubset(pred2); // calculate bounding geometry of these nodes mitk::TimeSlicedGeometry::Pointer bounds = m_DataStorage->ComputeBoundingGeometry3D(rs, "visible"); - mitk::RenderingManager::GetInstance()->InitializeViews(bounds); - //mitk::RenderingManager::GetInstance()->InitializeViews( m_DataStorage->ComputeVisibleBoundingGeometry3D() ); + m_RenderingManager->InitializeViews(bounds); + //m_RenderingManager->InitializeViews( m_DataStorage->ComputeVisibleBoundingGeometry3D() ); // reset interactor to normal slicing this->SetWidgetPlaneMode(PLANE_MODE_SLICING); } } void QmitkStdMultiWidget::EnableColoredRectangles() { m_RectangleRendering1->Enable(1.0, 0.0, 0.0); m_RectangleRendering2->Enable(0.0, 1.0, 0.0); m_RectangleRendering3->Enable(0.0, 0.0, 1.0); m_RectangleRendering4->Enable(1.0, 1.0, 0.0); } void QmitkStdMultiWidget::DisableColoredRectangles() { m_RectangleRendering1->Disable(); m_RectangleRendering2->Disable(); m_RectangleRendering3->Disable(); m_RectangleRendering4->Disable(); } bool QmitkStdMultiWidget::IsColoredRectanglesEnabled() const { return m_RectangleRendering1->IsEnabled(); } mitk::MouseModeSwitcher* QmitkStdMultiWidget::GetMouseModeSwitcher() { return m_MouseModeSwitcher; } void QmitkStdMultiWidget::MouseModeSelected( mitk::MouseModeSwitcher::MouseMode mouseMode ) { if ( mouseMode == 0 ) { this->EnableNavigationControllerEventListening(); } else { this->DisableNavigationControllerEventListening(); } } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane1() { return this->m_PlaneNode1; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane2() { return this->m_PlaneNode2; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane3() { return this->m_PlaneNode3; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane(int id) { switch(id) { case 1: return this->m_PlaneNode1; break; case 2: return this->m_PlaneNode2; break; case 3: return this->m_PlaneNode3; break; default: return NULL; } } diff --git a/Modules/Qmitk/QmitkStdMultiWidget.h b/Modules/Qmitk/QmitkStdMultiWidget.h index 6f614ce0b3..41ac6a5983 100644 --- a/Modules/Qmitk/QmitkStdMultiWidget.h +++ b/Modules/Qmitk/QmitkStdMultiWidget.h @@ -1,353 +1,359 @@ /*========================================================================= 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 QMITKSTDMULTIWIDGET_H_ #define QMITKSTDMULTIWIDGET_H_ #include #include "mitkPositionTracker.h" #include "mitkSlicesRotator.h" #include "mitkSlicesSwiveller.h" #include "mitkRenderWindowFrame.h" #include "mitkManufacturerLogo.h" #include "mitkGradientBackground.h" #include "mitkCoordinateSupplier.h" #include "mitkDataStorage.h" #include "mitkMouseModeSwitcher.h" #include #include #include #include #include #include "vtkTextProperty.h" #include "vtkCornerAnnotation.h" class QHBoxLayout; class QVBoxLayout; class QGridLayout; class QSpacerItem; class QmitkLevelWindowWidget; class QmitkRenderWindow; +namespace mitk { +class RenderingManager; +} + class QMITK_EXPORT QmitkStdMultiWidget : public QWidget { Q_OBJECT public: - QmitkStdMultiWidget(QWidget* parent = 0, Qt::WindowFlags f = 0); + QmitkStdMultiWidget(QWidget* parent = 0, Qt::WindowFlags f = 0, mitk::RenderingManager* renderingManager = 0); virtual ~QmitkStdMultiWidget(); mitk::SliceNavigationController* GetTimeNavigationController(); void RequestUpdate(); void ForceImmediateUpdate(); mitk::MouseModeSwitcher* GetMouseModeSwitcher(); QmitkRenderWindow* GetRenderWindow1() const; QmitkRenderWindow* GetRenderWindow2() const; QmitkRenderWindow* GetRenderWindow3() const; QmitkRenderWindow* GetRenderWindow4() const; const mitk::Point3D & GetLastLeftClickPosition() const; const mitk::Point3D GetCrossPosition() const; void EnablePositionTracking(); void DisablePositionTracking(); int GetLayout() const; mitk::SlicesRotator * GetSlicesRotator() const; mitk::SlicesSwiveller * GetSlicesSwiveller() const; bool GetGradientBackgroundFlag() const; /*! \brief Access node of widget plane 1 \return DataNode holding widget plane 1 */ mitk::DataNode::Pointer GetWidgetPlane1(); /*! \brief Access node of widget plane 2 \return DataNode holding widget plane 2 */ mitk::DataNode::Pointer GetWidgetPlane2(); /*! \brief Access node of widget plane 3 \return DataNode holding widget plane 3 */ mitk::DataNode::Pointer GetWidgetPlane3(); /*! \brief Convenience method to access node of widget planes \param id number of widget plane to be returned \return DataNode holding widget plane 3 */ mitk::DataNode::Pointer GetWidgetPlane(int id); bool IsColoredRectanglesEnabled() const; bool IsDepartmentLogoEnabled() const; bool IsCrosshairNavigationEnabled() const; void InitializeWidget(); /// called when the StdMultiWidget is closed to remove the 3 widget planes and the helper node from the DataStorage void RemovePlanesFromDataStorage(); void AddPlanesToDataStorage(); void SetDataStorage( mitk::DataStorage* ds ); /** \brief Listener to the CrosshairPositionEvent Ensures the CrosshairPositionEvent is handled only once and at the end of the Qt-Event loop */ void HandleCrosshairPositionEvent(); /// activate Menu Widget. true: activated, false: deactivated void ActivateMenuWidget( bool state ); bool IsMenuWidgetEnabled() const; protected: void UpdateAllWidgets(); void HideAllWidgetToolbars(); public slots: /// Receives the signal from HandleCrosshairPositionEvent, executes the StatusBar update void HandleCrosshairPositionEventDelayed(); void changeLayoutTo2DImagesUp(); void changeLayoutTo2DImagesLeft(); void changeLayoutToDefault(); void changeLayoutToBig3D(); void changeLayoutToWidget1(); void changeLayoutToWidget2(); void changeLayoutToWidget3(); void changeLayoutToRowWidget3And4(); void changeLayoutToColumnWidget3And4(); void changeLayoutToRowWidgetSmall3andBig4(); void changeLayoutToSmallUpperWidget2Big3and4(); void changeLayoutTo2x2Dand3DWidget(); void changeLayoutToLeft2Dand3DRight2D(); void changeLayoutTo2DUpAnd3DDown(); void Fit(); void InitPositionTracking(); void AddDisplayPlaneSubTree(); void EnableStandardLevelWindow(); void DisableStandardLevelWindow(); bool InitializeStandardViews( const mitk::Geometry3D * geometry ); void wheelEvent( QWheelEvent * e ); void mousePressEvent(QMouseEvent * e); void moveEvent( QMoveEvent* e ); void leaveEvent ( QEvent * e ); void EnsureDisplayContainsPoint( mitk::DisplayGeometry* displayGeometry, const mitk::Point3D& p); void MoveCrossToPosition(const mitk::Point3D& newPosition); void EnableNavigationControllerEventListening(); void DisableNavigationControllerEventListening(); void EnableGradientBackground(); void DisableGradientBackground(); void EnableDepartmentLogo(); void DisableDepartmentLogo(); void EnableColoredRectangles(); void DisableColoredRectangles(); void SetWidgetPlaneVisibility(const char* widgetName, bool visible, mitk::BaseRenderer *renderer=NULL); void SetWidgetPlanesVisibility(bool visible, mitk::BaseRenderer *renderer=NULL); void SetWidgetPlanesLocked(bool locked); void SetWidgetPlanesRotationLocked(bool locked); void SetWidgetPlanesRotationLinked( bool link ); void SetWidgetPlaneMode( int mode ); void SetGradientBackgroundColors( const mitk::Color & upper, const mitk::Color & lower ); void SetDepartmentLogoPath( const char * path ); void SetWidgetPlaneModeToSlicing( bool activate ); void SetWidgetPlaneModeToRotation( bool activate ); void SetWidgetPlaneModeToSwivel( bool activate ); void OnLayoutDesignChanged( int layoutDesignIndex ); void ResetCrosshair(); void MouseModeSelected( mitk::MouseModeSwitcher::MouseMode mouseMode ); signals: void LeftMouseClicked(mitk::Point3D pointValue); void WheelMoved(QWheelEvent*); void WidgetPlanesRotationLinked(bool); void WidgetPlanesRotationEnabled(bool); void ViewsInitialized(); void WidgetPlaneModeSlicing(bool); void WidgetPlaneModeRotation(bool); void WidgetPlaneModeSwivel(bool); void WidgetPlaneModeChange(int); void WidgetNotifyNewCrossHairMode(int); void Moved(); public: /** Define RenderWindow (public)*/ QmitkRenderWindow* mitkWidget1; QmitkRenderWindow* mitkWidget2; QmitkRenderWindow* mitkWidget3; QmitkRenderWindow* mitkWidget4; QmitkLevelWindowWidget* levelWindowWidget; /********************************/ enum { PLANE_MODE_SLICING = 0, PLANE_MODE_ROTATION, PLANE_MODE_SWIVEL }; enum { LAYOUT_DEFAULT = 0, LAYOUT_2D_IMAGES_UP, LAYOUT_2D_IMAGES_LEFT, LAYOUT_BIG_3D, LAYOUT_WIDGET1, LAYOUT_WIDGET2, LAYOUT_WIDGET3, LAYOUT_2X_2D_AND_3D_WIDGET, LAYOUT_ROW_WIDGET_3_AND_4, LAYOUT_COLUMN_WIDGET_3_AND_4, LAYOUT_ROW_WIDGET_SMALL3_AND_BIG4 , LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4,LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET, LAYOUT_2D_UP_AND_3D_DOWN}; enum { TRANSVERSAL, SAGITTAL, CORONAL, THREE_D }; protected: QHBoxLayout* QmitkStdMultiWidgetLayout; int m_Layout; int m_PlaneMode; + mitk::RenderingManager* m_RenderingManager; + mitk::RenderWindowFrame::Pointer m_RectangleRendering3; mitk::RenderWindowFrame::Pointer m_RectangleRendering2; mitk::RenderWindowFrame::Pointer m_RectangleRendering1; mitk::RenderWindowFrame::Pointer m_RectangleRendering4; mitk::ManufacturerLogo::Pointer m_LogoRendering1; mitk::ManufacturerLogo::Pointer m_LogoRendering2; mitk::ManufacturerLogo::Pointer m_LogoRendering3; mitk::ManufacturerLogo::Pointer m_LogoRendering4; mitk::GradientBackground::Pointer m_GradientBackground1; mitk::GradientBackground::Pointer m_GradientBackground2; mitk::GradientBackground::Pointer m_GradientBackground4; mitk::GradientBackground::Pointer m_GradientBackground3; bool m_GradientBackgroundFlag; mitk::MouseModeSwitcher::Pointer m_MouseModeSwitcher; mitk::CoordinateSupplier::Pointer m_LastLeftClickPositionSupplier; mitk::PositionTracker::Pointer m_PositionTracker; mitk::SliceNavigationController::Pointer m_TimeNavigationController; mitk::SlicesRotator::Pointer m_SlicesRotator; mitk::SlicesSwiveller::Pointer m_SlicesSwiveller; mitk::DataNode::Pointer m_PositionTrackerNode; mitk::DataStorage::Pointer m_DataStorage; mitk::DataNode::Pointer m_PlaneNode1; mitk::DataNode::Pointer m_PlaneNode2; mitk::DataNode::Pointer m_PlaneNode3; mitk::DataNode::Pointer m_Node; QSplitter *m_MainSplit; QSplitter *m_LayoutSplit; QSplitter *m_SubSplit1; QSplitter *m_SubSplit2; QWidget *mitkWidget1Container; QWidget *mitkWidget2Container; QWidget *mitkWidget3Container; QWidget *mitkWidget4Container; struct { vtkCornerAnnotation *cornerText; vtkTextProperty *textProp; vtkRenderer *ren; } m_CornerAnnotaions[3]; bool m_PendingCrosshairPositionEvent; bool m_CrosshairNavigationEnabled; }; #endif /*QMITKSTDMULTIWIDGET_H_*/ diff --git a/Plugins/org.mitk.gui.qt.diffusionimaging/src/QmitkODFRenderWidget.cpp b/Plugins/org.mitk.gui.qt.diffusionimaging/src/QmitkODFRenderWidget.cpp index d5acaa8a1f..2e0d524f66 100644 --- a/Plugins/org.mitk.gui.qt.diffusionimaging/src/QmitkODFRenderWidget.cpp +++ b/Plugins/org.mitk.gui.qt.diffusionimaging/src/QmitkODFRenderWidget.cpp @@ -1,131 +1,131 @@ /*========================================================================= 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 "QmitkODFRenderWidget.h" #include #include #include #include #include QmitkODFRenderWidget::QmitkODFRenderWidget(QWidget* parent, Qt::WindowFlags f): QWidget(parent, f) { //create Layouts QmitkODFRenderWidgetLayout = new QHBoxLayout( this ); //Set Layout to widget this->setLayout(QmitkODFRenderWidgetLayout); //Create RenderWindow m_RenderWindow = new QmitkRenderWindow(this, "odf render widget"); m_RenderWindow->setMaximumSize(300,300); m_RenderWindow->GetRenderer()->SetMapperID( mitk::BaseRenderer::Standard3D ); //m_RenderWindow->SetLayoutIndex( 3 ); QmitkODFRenderWidgetLayout->addWidget( m_RenderWindow ); } QmitkODFRenderWidget::~QmitkODFRenderWidget() { } void QmitkODFRenderWidget::GenerateODF( itk::OrientationDistributionFunction odf ) { m_Surface = mitk::Surface::New(); m_ds = mitk::StandaloneDataStorage::New(); m_Node = mitk::DataNode::New(); vtkPolyData* m_TemplateOdf = itk::OrientationDistributionFunction::GetBaseMesh(); vtkPolyData *polyData = vtkPolyData::New(); vtkPoints *points = vtkPoints::New(); vtkFloatArray *scalars = vtkFloatArray::New(); double max = -10000; double min = 10000; for (int i=0; imax) max = odf[i]; if (std::fabs(max)GetPoints()->GetPoint(i,p); double val = odf[i]; p[0] *= val; p[1] *= val; p[2] *= val; points->InsertPoint(i,p); // scalars->InsertTuple1(i, 1-val/max); scalars->InsertTuple1(i, 1-val/max); } polyData->SetPoints(points); vtkCellArray* polys = m_TemplateOdf->GetPolys(); polyData->SetPolys(polys); polyData->GetPointData()->SetScalars(scalars); polys->Delete(); scalars->Delete(); points->Delete(); m_Surface->SetVtkPolyData(polyData); m_Node->SetData(m_Surface); mitk::LookupTable::Pointer mitkLut = mitk::LookupTable::New(); vtkLookupTable* vtkLut = mitkLut->GetVtkLookupTable(); vtkLut->SetTableRange(0, 1); vtkLut->Build(); mitk::LookupTableProperty::Pointer mitkLutProp = mitk::LookupTableProperty::New(); mitkLutProp->SetLookupTable(mitkLut); m_Node->SetProperty( "LookupTable", mitkLutProp ); m_Node->SetProperty("scalar visibility", mitk::BoolProperty::New(true)); m_Node->SetProperty("color mode", mitk::BoolProperty::New(true)); m_Node->SetProperty("material.specularCoefficient", mitk::FloatProperty::New(0.5)); m_ds->Add(m_Node); m_RenderWindow->GetRenderer()->SetDataStorage( m_ds ); // adjust camera to current plane rotation mitk::Geometry2D::ConstPointer worldGeometry = mitk::GlobalInteraction::GetInstance()->GetFocus()->GetCurrentWorldGeometry2D(); mitk::PlaneGeometry::ConstPointer worldPlaneGeometry = dynamic_cast( worldGeometry.GetPointer() ); mitk::Vector3D normal = worldPlaneGeometry->GetNormal(); mitk::Vector3D up = worldPlaneGeometry->GetAxisVector(1); normal.Normalize(); up.Normalize(); vtkSmartPointer cam = vtkSmartPointer::New(); const double camPos[3] = {normal[0],normal[1],normal[2]}; const double camUp[3] = {up[0],up[1],up[2]}; cam->SetPosition(camPos); cam->SetViewUp(camUp); cam->SetParallelProjection(1); m_RenderWindow->GetRenderer()->GetVtkRenderer()->SetActiveCamera(cam); }