mitk::SurfaceInterpolationController::ContourPositionInformation CreateContourPositionInformation(mitk::Surface::Pointer contour)
{
  mitk::SurfaceInterpolationController::ContourPositionInformation contourInfo;
  contourInfo.contour = contour;
  double n[3];
  double p[3];
  contour->GetVtkPolyData()->GetPoints()->GetPoint(0, p);
  vtkPolygon::ComputeNormal(contour->GetVtkPolyData()->GetPoints(), n);
  contourInfo.contourNormal = n;
  contourInfo.contourPoint = p;
  return contourInfo;
}
コード例 #2
0
ファイル: mitkSurfaceModifier.cpp プロジェクト: zomboir/MITK
mitk::Surface::Pointer mitk::SurfaceModifier::DeepCopy(mitk::Surface::Pointer originalSurface)
  {
  mitk::Surface::Pointer clonedSurface = mitk::Surface::New();
  vtkSmartPointer<vtkPolyData> clonedPolyData = vtkPolyData::New();
  clonedPolyData->DeepCopy(originalSurface->GetVtkPolyData());
  clonedSurface->SetVtkPolyData(clonedPolyData);
  return clonedSurface;
  }
void mitk::SurfaceInterpolationController::AddNewContour (mitk::Surface::Pointer newContour)
{
  if( newContour->GetVtkPolyData()->GetNumberOfPoints() > 0)
  {
    ContourPositionInformation contourInfo = CreateContourPositionInformation(newContour);
    this->AddToInterpolationPipeline(contourInfo);

    this->Modified();
  }
}
コード例 #4
0
bool CompareSurfacePointPositions(mitk::Surface::Pointer s1, mitk::Surface::Pointer s2)
{
  vtkPoints* p1 = s1->GetVtkPolyData()->GetPoints();
  vtkPoints* p2 = s2->GetVtkPolyData()->GetPoints();

  if(p1->GetNumberOfPoints() != p2->GetNumberOfPoints())
    return false;

  for(int i = 0; i < p1->GetNumberOfPoints(); ++i)
  {
    if(p1->GetPoint(i)[0] != p2->GetPoint(i)[0] ||
      p1->GetPoint(i)[1] != p2->GetPoint(i)[1] ||
      p1->GetPoint(i)[2] != p2->GetPoint(i)[2] )
    {
      return true;
    }
  }
  return false;
}
コード例 #5
0
ファイル: mitkSurfaceModifier.cpp プロジェクト: zomboir/MITK
bool mitk::SurfaceModifier::AddOutlierToSurface(mitk::Surface::Pointer surface, double varianceX, double varianceY, double varianceZ, double outlierChance)
  {
  vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
  points->ShallowCopy(surface->GetVtkPolyData()->GetPoints());
  for(unsigned int i = 0; i < points->GetNumberOfPoints(); i++)
    {
    double p[3];
    points->GetPoint(i, p);
    mitk::Point3D point;
    point[0] = p[0];
    point[1] = p[1];
    point[2] = p[2];
    if((outlierChance-vtkMath::Random(0,1))>0) point = PerturbePoint(point,varianceX,varianceY,varianceZ);
    p[0] = point[0];
    p[1] = point[1];
    p[2] = point[2];
    points->SetPoint(i, p);
    }
  surface->GetVtkPolyData()->SetPoints(points);
  return true;
  }
コード例 #6
0
ファイル: mitkSurfaceModifier.cpp プロジェクト: zomboir/MITK
bool mitk::SurfaceModifier::PerturbeSurface(mitk::Surface::Pointer surface, double varianceX, double varianceY, double varianceZ, double maxNoiseVectorLenght)
  {
  vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
  points->ShallowCopy(surface->GetVtkPolyData()->GetPoints());
  for(unsigned int i = 0; i < points->GetNumberOfPoints(); i++)
    {
    double p[3];
    points->GetPoint(i, p);
    mitk::Point3D point;
    point[0] = p[0];
    point[1] = p[1];
    point[2] = p[2];
    point = PerturbePoint(point,varianceX,varianceY,varianceZ,maxNoiseVectorLenght);
    p[0] = point[0];
    p[1] = point[1];
    p[2] = point[2];
    points->SetPoint(i, p);
    }
  surface->GetVtkPolyData()->SetPoints(points);

  return true;
  }
コード例 #7
0
ファイル: mitkSurfaceModifier.cpp プロジェクト: zomboir/MITK
bool mitk::SurfaceModifier::TransformSurface(mitk::Surface::Pointer surface, itk::Matrix<double,3,3> TransformationR, itk::Vector<double,3> TransformationT)
  {
  //apply transformation
  vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
  points->ShallowCopy(surface->GetVtkPolyData()->GetPoints());

  for(unsigned int i = 0; i < points->GetNumberOfPoints(); i++)
    {
    double p[3];
    points->GetPoint(i, p);
    mitk::Point3D point;
    point[0] = p[0];
    point[1] = p[1];
    point[2] = p[2];
    point = TransformPoint(point,TransformationR,TransformationT);
    p[0] = point[0];
    p[1] = point[1];
    p[2] = point[2];
    points->SetPoint(i, p);
    }
  surface->GetVtkPolyData()->SetPoints(points);

  return true;
  }
void mitk::SurfaceInterpolationController::ReinitializeInterpolation(mitk::Surface::Pointer contours)
{
  // 1. detect coplanar contours
  // 2. merge coplanar contours into a single surface
  // 4. add contour to pipeline

  // Split the surface into separate polygons
  vtkSmartPointer<vtkCellArray> existingPolys;
  vtkSmartPointer<vtkPoints> existingPoints;
  existingPolys = contours->GetVtkPolyData()->GetPolys();
  existingPoints = contours->GetVtkPolyData()->GetPoints();
  existingPolys->InitTraversal();

  vtkSmartPointer<vtkIdList> ids = vtkSmartPointer<vtkIdList>::New();

  typedef std::pair<mitk::Vector3D, mitk::Point3D> PointNormalPair;
  std::vector<ContourPositionInformation> list;
  std::vector<vtkSmartPointer<vtkPoints> > pointsList;
  int count (0);
  for( existingPolys->InitTraversal(); existingPolys->GetNextCell(ids);)
  {
    // Get the points
    vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
    existingPoints->GetPoints(ids, points);
    ++count;
    pointsList.push_back(points);


    PointNormalPair p_n;
    double n[3];
    vtkPolygon::ComputeNormal(points, n);
    p_n.first = n;
    double p[3];

    existingPoints->GetPoint(ids->GetId(0), p);
    p_n.second = p;

    ContourPositionInformation p_info;
    p_info.contourNormal = n;
    p_info.contourPoint = p;
    list.push_back(p_info);
    continue;
  }

  // Detect and sort coplanar polygons
  auto outer = list.begin();
  std::vector< std::vector< vtkSmartPointer<vtkPoints> > > relatedPoints;
  while (outer != list.end())
  {
    auto inner = outer;
    ++inner;
    std::vector< vtkSmartPointer<vtkPoints> > rel;
    auto pointsIter = pointsList.begin();
    rel.push_back((*pointsIter));
    pointsIter = pointsList.erase(pointsIter);

    while (inner != list.end())
    {
      if(ContoursCoplanar((*outer),(*inner)))
      {
        inner = list.erase(inner);
        rel.push_back((*pointsIter));
        pointsIter = pointsList.erase(pointsIter);
      }
      else
      {
        ++inner;
        ++pointsIter;
      }
    }
    relatedPoints.push_back(rel);
    ++outer;
  }

  // Build the separate surfaces again
  std::vector<mitk::Surface::Pointer> finalSurfaces;
  for (unsigned int i = 0; i < relatedPoints.size(); ++i)
  {
    vtkSmartPointer<vtkPolyData> contourSurface = vtkSmartPointer<vtkPolyData>::New();
    vtkSmartPointer<vtkPoints> points = vtkSmartPointer<vtkPoints>::New();
    vtkSmartPointer<vtkCellArray> polygons = vtkSmartPointer<vtkCellArray>::New();
    unsigned int pointId (0);
    for (unsigned int j = 0; j < relatedPoints.at(i).size(); ++j)
    {
      unsigned int numPoints = relatedPoints.at(i).at(j)->GetNumberOfPoints();
      vtkSmartPointer<vtkPolygon> polygon = vtkSmartPointer<vtkPolygon>::New();
      polygon->GetPointIds()->SetNumberOfIds(numPoints);
      polygon->GetPoints()->SetNumberOfPoints(numPoints);
      vtkSmartPointer<vtkPoints> currentPoints = relatedPoints.at(i).at(j);
      for (unsigned k = 0; k < numPoints; ++k)
      {
        points->InsertPoint(pointId, currentPoints->GetPoint(k));
        polygon->GetPointIds()->SetId(k, pointId);
        ++pointId;
      }
      polygons->InsertNextCell(polygon);
    }
    contourSurface->SetPoints(points);
    contourSurface->SetPolys(polygons);
    contourSurface->BuildLinks();
    mitk::Surface::Pointer surface = mitk::Surface::New();
    surface->SetVtkPolyData(contourSurface);
    finalSurfaces.push_back(surface);
  }

  // Add detected contours to interpolation pipeline
  this->AddNewContours(finalSurfaces);
}
コード例 #9
0
mitk::Surface::Pointer mitk::ACVD::Remesh(mitk::Surface::Pointer surface, int numVertices, double gradation, int subsampling, double edgeSplitting, int optimizationLevel, bool forceManifold, bool boundaryFixing)
{
  MITK_INFO << "Start remeshing...";

  vtkSmartPointer<vtkPolyData> surfacePolyData = vtkSmartPointer<vtkPolyData>::New();
  surfacePolyData->DeepCopy(surface->GetVtkPolyData());

  vtkSmartPointer<vtkSurface> mesh = vtkSmartPointer<vtkSurface>::New();

  mesh->CreateFromPolyData(surfacePolyData);
  mesh->GetCellData()->Initialize();
  mesh->GetPointData()->Initialize();

  mesh->DisplayMeshProperties();

  if (edgeSplitting != 0.0)
    mesh->SplitLongEdges(edgeSplitting);

  vtkSmartPointer<vtkIsotropicDiscreteRemeshing> remesher = vtkSmartPointer<vtkIsotropicDiscreteRemeshing>::New();

  remesher->GetMetric()->SetGradation(gradation);
  remesher->SetBoundaryFixing(boundaryFixing);
  remesher->SetConsoleOutput(1);
  remesher->SetForceManifold(forceManifold);
  remesher->SetInput(mesh);
  remesher->SetNumberOfClusters(numVertices);
  remesher->SetNumberOfThreads(vtkMultiThreader::GetGlobalDefaultNumberOfThreads());
  remesher->SetSubsamplingThreshold(subsampling);

  remesher->Remesh();

  if (optimizationLevel != 0)
  {
    ClustersQuadrics clustersQuadrics(numVertices);

    vtkSmartPointer<vtkIdList> faceList = vtkSmartPointer<vtkIdList>::New();
    vtkSmartPointer<vtkIntArray> clustering = remesher->GetClustering();
    vtkSmartPointer<vtkSurface> remesherInput = remesher->GetInput();
    int clusteringType = remesher->GetClusteringType();
    int numItems = remesher->GetNumberOfItems();
    int numMisclassifiedItems = 0;

    for (int i = 0; i < numItems; ++i)
    {
      int cluster = clustering->GetValue(i);

      if (cluster >= 0 && cluster < numVertices)
      {
        if (clusteringType != 0)
        {
          remesherInput->GetVertexNeighbourFaces(i, faceList);
          int numIds = static_cast<int>(faceList->GetNumberOfIds());

          for (int j = 0; j < numIds; ++j)
            vtkQuadricTools::AddTriangleQuadric(clustersQuadrics.Elements[cluster], remesherInput, faceList->GetId(j), false);
        }
        else
        {
          vtkQuadricTools::AddTriangleQuadric(clustersQuadrics.Elements[cluster], remesherInput, i, false);
        }
      }
      else
      {
        ++numMisclassifiedItems;
      }
    }

    if (numMisclassifiedItems != 0)
      std::cout << numMisclassifiedItems << " items with wrong cluster association" << std::endl;

    vtkSmartPointer<vtkSurface> remesherOutput = remesher->GetOutput();
    double point[3];

    for (int i = 0; i < numVertices; ++i)
    {
      remesherOutput->GetPoint(i, point);
      vtkQuadricTools::ComputeRepresentativePoint(clustersQuadrics.Elements[i], point, optimizationLevel);
      remesherOutput->SetPointCoordinates(i, point);
    }

    std::cout << "After quadrics post-processing:" << std::endl;
    remesherOutput->DisplayMeshProperties();
  }

  vtkSmartPointer<vtkPolyDataNormals> normals = vtkSmartPointer<vtkPolyDataNormals>::New();

  normals->SetInput(remesher->GetOutput());
  normals->AutoOrientNormalsOn();
  normals->ComputeCellNormalsOff();
  normals->ComputePointNormalsOn();
  normals->ConsistencyOff();
  normals->FlipNormalsOff();
  normals->NonManifoldTraversalOff();
  normals->SplittingOff();

  normals->Update();

  Surface::Pointer remeshedSurface = Surface::New();
  remeshedSurface->SetVtkPolyData(normals->GetOutput());

  MITK_INFO << "Finished remeshing";

  return remeshedSurface;
}