void DiffusionMultiShellQballReconstructionImageFilter<T,TG,TO,L,NODF>
::SetGradientImage(const GradientDirectionContainerType *gradientDirection
                   , const GradientImagesType *gradientImage
                   , float bvalue)
{
    m_BValue = bvalue;
    m_NumberOfBaselineImages = 0;

    this->m_GradientDirectionContainer = GradientDirectionContainerType::New();
    for(GradientDirectionContainerType::ConstIterator it = gradientDirection->Begin();
            it != gradientDirection->End(); it++)
    {
        this->m_GradientDirectionContainer->push_back(it.Value());
    }


    if(m_BValueMap.size() == 0) {
        itkWarningMacro(<< "DiffusionMultiShellQballReconstructionImageFilter.cpp : no GradientIndexMapAvalible");

        GradientDirectionContainerType::ConstIterator gdcit;
        for( gdcit = m_GradientDirectionContainer->Begin(); gdcit != m_GradientDirectionContainer->End(); ++gdcit)
        {
            double bValueKey = int(((m_BValue * gdcit.Value().two_norm() * gdcit.Value().two_norm())+7.5)/10)*10;
            m_BValueMap[bValueKey].push_back(gdcit.Index());
        }

    }
コード例 #2
0
void RadialMultishellToSingleshellImageFilter<TInputScalarType, TOutputScalarType>
::BeforeThreadedGenerateData()
{
  // test whether BvalueMap contains all necessary information
  if(m_BValueMap.size() == 0)
  {
    itkWarningMacro(<< "No BValueMap given: create one using GradientDirectionContainer");

    GradientDirectionContainerType::ConstIterator gdcit;
    for( gdcit = m_OriginalGradientDirections->Begin(); gdcit != m_OriginalGradientDirections->End(); ++gdcit)
    {
      double bValueKey = int(((m_OriginalBValue * gdcit.Value().two_norm() * gdcit.Value().two_norm())+7.5)/10)*10;
      m_BValueMap[bValueKey].push_back(gdcit.Index());
    }
  }