Exemplo n.º 1
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void CopyAttributeArray::dataCheck()
{
  setErrorCondition(0);

  if(m_NewArrayName.isEmpty() == true)
  {
    setErrorCondition(-11009);
    QString ss = QObject::tr("The new Attribute Array name must be set");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  QString daName = getSelectedArrayPath().getDataArrayName();

  IDataArray::Pointer dataArray = getDataContainerArray()->getPrereqIDataArrayFromPath<IDataArray, AbstractFilter>(this, getSelectedArrayPath());
  if(getErrorCondition() < 0) { return; }

  DataArrayPath path(getSelectedArrayPath().getDataContainerName(), getSelectedArrayPath().getAttributeMatrixName(), "");
  AttributeMatrix::Pointer attrMat = getDataContainerArray()->getAttributeMatrix(path);

  IDataArray::Pointer pNew = dataArray->deepCopy();
  pNew->setName(m_NewArrayName); // Set the name of the array
  int32_t err = attrMat->addAttributeArray(m_NewArrayName, pNew);

  if (0 != err)
  {
    setErrorCondition(err);
    QString ss = QObject::tr("Attempt to copy Attribute Array '%1' to '%2' failed").arg(daName).arg(m_NewArrayName);
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
  }
}
Exemplo n.º 2
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void MoveData::dataCheck()
{
  setErrorCondition(0);
  DataArrayPath amSrcPath = getAttributeMatrixSource();
  DataArrayPath amDestPath = getAttributeMatrixDestination();
  DataArrayPath daSrcPath = getDataArraySource();

  if (getWhatToMove() == k_MoveAttributeMatrix)
  {
    DataContainer::Pointer amDestDataContainer = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getDataContainerDestination());
    DataContainer::Pointer amSrcDataContainer = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, amSrcPath.getDataContainerName());
    AttributeMatrix::Pointer amSrcAttributeMatrix = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, amSrcPath, -301);

    if(getErrorCondition() < 0) { return; }

    if (amSrcDataContainer->getName() == amDestDataContainer->getName())
    {
      QString ss = QObject::tr("The source and destination Data Container are the same.  Is this what you meant to do?");
      notifyWarningMessage(getHumanLabel(), ss, getErrorCondition());
      return;
    }

    amDestDataContainer->addAttributeMatrix(amSrcAttributeMatrix->getName(), amSrcAttributeMatrix);
    amSrcDataContainer->removeAttributeMatrix(amSrcAttributeMatrix->getName());
  }
  else if (getWhatToMove() == k_MoveDataArray )
  {
    AttributeMatrix::Pointer daSrcAttributeMatrix = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, daSrcPath, -301);
    AttributeMatrix::Pointer daDestAttributeMatrix = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, amDestPath, -301);
    IDataArray::Pointer daSrcDataArray = getDataContainerArray()->getPrereqIDataArrayFromPath<IDataArray, AbstractFilter>(this, daSrcPath);

    if(getErrorCondition() < 0) { return; }

    if (daDestAttributeMatrix->getNumTuples() != daSrcDataArray->getNumberOfTuples())
    {
      setErrorCondition(-11019);
      QString ss = QObject::tr("The number of tuples of source Attribute Array (%1) and destination Attribute Matrix (%2) do not match").arg(daSrcDataArray->getNumberOfTuples()).arg(daDestAttributeMatrix->getNumTuples());
      notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
      return;
    }
    else if (amSrcPath == amDestPath)
    {
      QString ss = QObject::tr("The source and destination Attribute Matrix are the same.  Is this what you meant to do?");
      notifyWarningMessage(getHumanLabel(), ss, getErrorCondition());
      return;
    }

    daDestAttributeMatrix->addAttributeArray(daSrcPath.getDataArrayName(), daSrcDataArray);
    daSrcAttributeMatrix->removeAttributeArray(daSrcPath.getDataArrayName());
  }
  else
  {
    setErrorCondition(-11020);
    QString ss = QObject::tr("Neither an Attribute Matrix nor an Attribute Array was selected to be moved");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }
}
Exemplo n.º 3
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
AttributeMatrix::Pointer AttributeMatrix::deepCopy()
{
    AttributeMatrix::Pointer newAttrMat = AttributeMatrix::New(getTupleDimensions(), getName(), getType());

    for(QMap<QString, IDataArray::Pointer>::iterator iter = m_AttributeArrays.begin(); iter != m_AttributeArrays.end(); ++iter)
    {
        IDataArray::Pointer d = iter.value();
        IDataArray::Pointer new_d = d->deepCopy();
        if (new_d.get() == NULL)
        {
            return AttributeMatrix::NullPointer();
        }
        newAttrMat->addAttributeArray(new_d->getName(), new_d);
    }

    return newAttrMat;
}
int32_t readDataChunk(AttributeMatrix::Pointer attrMat, std::istream& in, bool inPreflight, bool binary,
                      const QString& scalarName, int32_t scalarNumComp)
{
  size_t numTuples = attrMat->getNumTuples();

  QVector<size_t> tDims = attrMat->getTupleDimensions();
  QVector<size_t> cDims(1, scalarNumComp);

  typename DataArray<T>::Pointer data = DataArray<T>::CreateArray(tDims, cDims, scalarName, !inPreflight);
  data->initializeWithZeros();
  attrMat->addAttributeArray(data->getName(), data);
  if (inPreflight == true)
  {
    return skipVolume<T>(in, binary, numTuples * scalarNumComp);
  }
  else
  {
    if (binary)
    {
      int32_t err = vtkReadBinaryData<T>(in, data->getPointer(0), numTuples, scalarNumComp);
      if( err < 0 )
      {
        std::cout << "Error Reading Binary Data '" << scalarName.toStdString() << "' " << attrMat->getName().toStdString()
                  << " numTuples = " << numTuples << std::endl;
        return err;
      }
      if(BIGENDIAN == 0) {data->byteSwapElements(); }
    }
    else
    {
      T value = static_cast<T>(0.0);
      size_t totalSize = numTuples * scalarNumComp;
      for (size_t i = 0; i < totalSize; ++i)
      {
        in >> value;
        data->setValue(i, value);
      }
    }
  }
  return 0;
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void NearestPointFuseRegularGrids::dataCheck()
{
  setErrorCondition(0);

  getDataContainerArray()->getPrereqGeometryFromDataContainer<ImageGeom, AbstractFilter>(this, getReferenceCellAttributeMatrixPath().getDataContainerName());
  getDataContainerArray()->getPrereqGeometryFromDataContainer<ImageGeom, AbstractFilter>(this, getSamplingCellAttributeMatrixPath().getDataContainerName());

  AttributeMatrix::Pointer refAttrMat = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, getReferenceCellAttributeMatrixPath(), -301);
  AttributeMatrix::Pointer sampleAttrMat = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, getSamplingCellAttributeMatrixPath(), -301);
  if(getErrorCondition() < 0) { return; }

  // Create arrays on the reference grid to hold data present on the sampling grid
  QList<QString> voxelArrayNames = sampleAttrMat->getAttributeArrayNames();
  for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
  {
    IDataArray::Pointer p = sampleAttrMat->getAttributeArray(*iter);
    // Make a copy of the 'p' array that has the same name. When placed into
    // the data container this will over write the current array with
    // the same name. At least in theory
    IDataArray::Pointer data = p->createNewArray(refAttrMat->getNumTuples(), p->getComponentDimensions(), p->getName());
    refAttrMat->addAttributeArray(p->getName(), data);
  }
}
Exemplo n.º 6
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void GrayToRGB::execute()
{
    QString ss;
    dataCheck();
    if(getErrorCondition() < 0)
    {
        setErrorCondition(-10000);
        ss = QObject::tr("DataCheck did not pass during execute");
        notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
        return;
    }

    //get volume container
    DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getRedArrayPath().getDataContainerName());
    QString attrMatName = getRedArrayPath().getAttributeMatrixName();

    //get input and output data
    IDataArray::Pointer redData = m_RedPtr.lock();
    IDataArray::Pointer greenData = m_GreenPtr.lock();
    IDataArray::Pointer blueData = m_BluePtr.lock();
    IDataArray::Pointer outputData = m_NewCellArrayPtr.lock();

    //execute type dependant portion using a Private Implementation that takes care of figuring out if
    // we can work on the correct type and actually handling the algorithm execution. We pass in "this" so
    // that the private implementation can get access to the current object to pass up status notifications,
    // progress or handle "cancel" if needed.
    if(GrayToRGBPrivate<int8_t>()(redData))
    {
        GrayToRGBPrivate<int8_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<uint8_t>()(redData) )
    {
        GrayToRGBPrivate<uint8_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<int16_t>()(redData) )
    {
        GrayToRGBPrivate<int16_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<uint16_t>()(redData) )
    {
        GrayToRGBPrivate<uint16_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<int32_t>()(redData) )
    {
        GrayToRGBPrivate<int32_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<uint32_t>()(redData) )
    {
        GrayToRGBPrivate<uint32_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<int64_t>()(redData) )
    {
        GrayToRGBPrivate<int64_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<uint64_t>()(redData) )
    {
        GrayToRGBPrivate<uint64_t>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<float>()(redData) )
    {
        GrayToRGBPrivate<float>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else if(GrayToRGBPrivate<double>()(redData) )
    {
        GrayToRGBPrivate<double>::Execute(this, redData, greenData, blueData, outputData, m, attrMatName);
    }
    else
    {
        setErrorCondition(-10001);
        ss = QObject::tr("A Supported DataArray type was not used for an input array.");
        notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
        return;
    }

    //array name changing/cleanup
    AttributeMatrix::Pointer attrMat = m->getAttributeMatrix(m_RedArrayPath.getAttributeMatrixName());
    attrMat->addAttributeArray(getNewCellArrayName(), outputData);


    /* Let the GUI know we are done with this filter */
    notifyStatusMessage(getHumanLabel(), "Complete");
}
Exemplo n.º 7
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ChangeResolution::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer m;
  if(m_SaveAsNewDataContainer == false)
  {
    m = getDataContainerArray()->getDataContainer(getCellAttributeMatrixPath().getDataContainerName());
  }
  else
  {
    m = getDataContainerArray()->getDataContainer(getNewDataContainerName());
  }

  if(m->getGeometryAs<ImageGeom>()->getXRes() == m_Resolution.x
      && m->getGeometryAs<ImageGeom>()->getYRes() == m_Resolution.y
      && m->getGeometryAs<ImageGeom>()->getZRes() == m_Resolution.z)
  {
    return;
  }

  AttributeMatrix::Pointer cellAttrMat = m->getAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName());

  size_t dims[3] = { 0, 0, 0 };
  m->getGeometryAs<ImageGeom>()->getDimensions(dims);

  float sizex = (dims[0]) * m->getGeometryAs<ImageGeom>()->getXRes();
  float sizey = (dims[1]) * m->getGeometryAs<ImageGeom>()->getYRes();
  float sizez = (dims[2]) * m->getGeometryAs<ImageGeom>()->getZRes();
  size_t m_XP = size_t(sizex / m_Resolution.x);
  size_t m_YP = size_t(sizey / m_Resolution.y);
  size_t m_ZP = size_t(sizez / m_Resolution.z);
  if (m_XP == 0) { m_XP = 1; }
  if (m_YP == 0) { m_YP = 1; }
  if (m_ZP == 0) { m_ZP = 1; }
  size_t totalPoints = m_XP * m_YP * m_ZP;

  float x = 0.0f, y = 0.0f, z = 0.0f;
  size_t col = 0, row = 0, plane = 0;
  size_t index;
  size_t index_old;
  std::vector<size_t> newindicies(totalPoints);

  for (size_t i = 0; i < m_ZP; i++)
  {
    QString ss = QObject::tr("Changing Resolution - %1 Percent Complete").arg(((float)i / m->getGeometryAs<ImageGeom>()->getZPoints()) * 100);
    notifyStatusMessage(getMessagePrefix(), getHumanLabel(), ss);
    for (size_t j = 0; j < m_YP; j++)
    {
      for (size_t k = 0; k < m_XP; k++)
      {
        x = (k * m_Resolution.x);
        y = (j * m_Resolution.y);
        z = (i * m_Resolution.z);
        col = size_t(x / m->getGeometryAs<ImageGeom>()->getXRes());
        row = size_t(y / m->getGeometryAs<ImageGeom>()->getYRes());
        plane = size_t(z / m->getGeometryAs<ImageGeom>()->getZRes());
        index_old = (plane * m->getGeometryAs<ImageGeom>()->getXPoints() * m->getGeometryAs<ImageGeom>()->getYPoints()) + (row * m->getGeometryAs<ImageGeom>()->getXPoints()) + col;
        index = (i * m_XP * m_YP) + (j * m_XP) + k;
        newindicies[index] = index_old;
      }
    }
  }

  QVector<size_t> tDims(3, 0);
  tDims[0] = m_XP;
  tDims[1] = m_YP;
  tDims[2] = m_ZP;
  AttributeMatrix::Pointer newCellAttrMat = AttributeMatrix::New(tDims, cellAttrMat->getName(), cellAttrMat->getType());

  QList<QString> voxelArrayNames = cellAttrMat->getAttributeArrayNames();
  for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
  {
    IDataArray::Pointer p = cellAttrMat->getAttributeArray(*iter);
    // Make a copy of the 'p' array that has the same name. When placed into
    // the data container this will over write the current array with
    // the same name. At least in theory.
    IDataArray::Pointer data = p->createNewArray(p->getNumberOfTuples(), p->getComponentDimensions(), p->getName());
    data->resize(totalPoints);
    void* source = NULL;
    void* destination = NULL;
    size_t newIndicies_I = 0;
    int nComp = data->getNumberOfComponents();
    for (size_t i = 0; i < static_cast<size_t>(totalPoints); i++)
    {
      newIndicies_I = newindicies[i];
      source = p->getVoidPointer((nComp * newIndicies_I));
      destination = data->getVoidPointer((data->getNumberOfComponents() * i));
      ::memcpy(destination, source, p->getTypeSize() * data->getNumberOfComponents());
    }
    cellAttrMat->removeAttributeArray(*iter);
    newCellAttrMat->addAttributeArray(*iter, data);
  }
  m->getGeometryAs<ImageGeom>()->setResolution(m_Resolution.x, m_Resolution.y, m_Resolution.z);
  m->getGeometryAs<ImageGeom>()->setDimensions(m_XP, m_YP, m_ZP);
  m->removeAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName());
  m->addAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName(), newCellAttrMat);

  // Feature Ids MUST already be renumbered.
  if (m_RenumberFeatures == true)
  {
    totalPoints = m->getGeometryAs<ImageGeom>()->getNumberOfElements();
    AttributeMatrix::Pointer cellFeatureAttrMat = m->getAttributeMatrix(getCellFeatureAttributeMatrixPath().getAttributeMatrixName());
    size_t totalFeatures = cellFeatureAttrMat->getNumTuples();
    QVector<bool> activeObjects(totalFeatures, false);
    if (0 == totalFeatures)
    {
      notifyErrorMessage(getHumanLabel(), "The number of Features is 0 and should be greater than 0", -600);
      return;
    }

    updateCellInstancePointers();

    // Find the unique set of feature ids
    for (size_t i = 0; i < totalPoints; ++i)
    {
      activeObjects[m_FeatureIds[i]] = true;
    }
    cellFeatureAttrMat->removeInactiveObjects(activeObjects, m_FeatureIdsPtr.lock());
  }

  notifyStatusMessage(getHumanLabel(), "Complete");
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void WarpRegularGrid::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer m;
  if (m_SaveAsNewDataContainer == false) { m = getDataContainerArray()->getDataContainer(getCellAttributeMatrixPath().getDataContainerName()); }
  else { m = getDataContainerArray()->getDataContainer(getNewDataContainerName()); }

  AttributeMatrix::Pointer cellAttrMat = m->getAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName());
  AttributeMatrix::Pointer newCellAttrMat = cellAttrMat->deepCopy();

  size_t dims[3] = { 0, 0, 0 };
  m->getGeometryAs<ImageGeom>()->getDimensions(dims);
  float res[3] = { 0.0f, 0.0f, 0.0f };
  m->getGeometryAs<ImageGeom>()->getResolution(res);
  size_t totalPoints = m->getGeometryAs<ImageGeom>()->getNumberOfElements();

  float x = 0.0f, y = 0.0f, z = 0.0f;
  float newX = 0.0f, newY = 0.0f;
  int col = 0.0f, row = 0.0f, plane = 0.0f;
  size_t index;
  size_t index_old;
  std::vector<size_t> newindicies(totalPoints);
  std::vector<bool> goodPoint(totalPoints, true);

  for (size_t i = 0; i < dims[2]; i++)
  {
    QString ss = QObject::tr("Warping Data - %1 Percent Complete").arg(((float)i / dims[2]) * 100);
    notifyStatusMessage(getMessagePrefix(), getHumanLabel(), ss);
    for (size_t j = 0; j < dims[1]; j++)
    {
      for (size_t k = 0; k < dims[0]; k++)
      {
        x = static_cast<float>((k * res[0]));
        y = static_cast<float>((j * res[1]));
        z = static_cast<float>((i * res[2]));
        index = (i * dims[0] * dims[1]) + (j * dims[0]) + k;

        determine_warped_coordinates(x, y, newX, newY);
        col = newX / res[0];
        row = newY / res[1];
        plane = i;

        index_old = (plane * dims[0] * dims[1]) + (row * dims[0]) + col;
        newindicies[index] = index_old;
        if (col > 0 && col < dims[0] && row > 0 && row < dims[1]) { goodPoint[index] = true; }
        else { goodPoint[index] = false; }
      }
    }
  }

  QList<QString> voxelArrayNames = cellAttrMat->getAttributeArrayNames();
  for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
  {
    IDataArray::Pointer p = cellAttrMat->getAttributeArray(*iter);
    // Make a copy of the 'p' array that has the same name. When placed into
    // the data container this will over write the current array with
    // the same name. At least in theory
    IDataArray::Pointer data = p->createNewArray(p->getNumberOfTuples(), p->getComponentDimensions(), p->getName());
    data->resize(totalPoints);
    void* source = NULL;
    void* destination = NULL;
    size_t newIndicies_I = 0;
    int nComp = data->getNumberOfComponents();
    for (size_t i = 0; i < static_cast<size_t>(totalPoints); i++)
    {
      newIndicies_I = newindicies[i];

      if(goodPoint[i] == true)
      {
        source = p->getVoidPointer((nComp * newIndicies_I));
        destination = data->getVoidPointer((data->getNumberOfComponents() * i));
        ::memcpy(destination, source, p->getTypeSize() * data->getNumberOfComponents());
      }
      else
      {
        int var = 0;
        data->initializeTuple(i, &var);
      }
    }
    cellAttrMat->removeAttributeArray(*iter);
    newCellAttrMat->addAttributeArray(*iter, data);
  }
  m->removeAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName());
  m->addAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName(), newCellAttrMat);

  notifyStatusMessage(getHumanLabel(), "Complete");
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void CopyFeatureArrayToElementArray::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  // Validate that the selected InArray has tuples equal to the largest
  // Feature Id; the filter would not crash otherwise, but the user should
  // be notified of unanticipated behavior ; this cannot be done in the dataCheck since
  // we don't have acces to the data yet
  int32_t numFeatures = static_cast<int32_t>(m_InArrayPtr.lock()->getNumberOfTuples());
  bool mismatchedFeatures = false;
  int32_t largestFeature = 0;
  size_t totalPoints = m_FeatureIdsPtr.lock()->getNumberOfTuples();
  for (size_t i = 0; i < totalPoints; i ++)
  {
    if (m_FeatureIds[i] > largestFeature)
    {
      largestFeature = m_FeatureIds[i];
      if (largestFeature >= numFeatures)
      {
        mismatchedFeatures = true;
        break;
      }
    }
  }

  if (mismatchedFeatures == true)
  {
    QString ss = QObject::tr("The number of Features in the InArray array (%1) is larger than the largest Feature Id in the FeatureIds array").arg(numFeatures);
    setErrorCondition(-5555);
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  if (largestFeature != (numFeatures - 1))
  {
    QString ss = QObject::tr("The number of Features in the InArray array (%1) does not match the largest Feature Id in the FeatureIds array").arg(numFeatures);
    setErrorCondition(-5555);
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  IDataArray::Pointer p = IDataArray::NullPointer();

  if (TemplateHelpers::CanDynamicCast<Int8ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<int8_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<UInt8ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<uint8_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<Int16ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<int16_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<UInt16ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<uint16_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<Int32ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<int32_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<UInt32ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<uint32_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<Int64ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<int64_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<UInt64ArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<uint64_t>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<FloatArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<float>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<DoubleArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<double>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else if (TemplateHelpers::CanDynamicCast<BoolArrayType>()(m_InArrayPtr.lock()))
  {
    p = copyData<bool>(m_InArrayPtr.lock(), totalPoints, m_FeatureIds);
  }
  else
  {
    QString ss = QObject::tr("The selected array was of unsupported type. The path is %1").arg(m_SelectedFeatureArrayPath.serialize());
    setErrorCondition(-14000);
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
  }

  if (p.get() != NULL)
  {
    p->setName(getCreatedArrayName());
    AttributeMatrix::Pointer am = getDataContainerArray()->getAttributeMatrix(getFeatureIdsArrayPath());
    am->addAttributeArray(p->getName(), p);
  }

  notifyStatusMessage(getHumanLabel(), "Complete");
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void NearestPointFuseRegularGrids::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer refDC = getDataContainerArray()->getDataContainer(m_ReferenceCellAttributeMatrixPath.getDataContainerName());
  DataContainer::Pointer sampleDC = getDataContainerArray()->getDataContainer(m_SamplingCellAttributeMatrixPath.getDataContainerName());

  AttributeMatrix::Pointer refAttrMat = refDC->getAttributeMatrix(m_ReferenceCellAttributeMatrixPath.getAttributeMatrixName());
  AttributeMatrix::Pointer sampleAttrMat = sampleDC->getAttributeMatrix(m_SamplingCellAttributeMatrixPath.getAttributeMatrixName());

  // Get dimensions and resolutions of two grids
  size_t _refDims[3] = { 0, 0, 0 };
  size_t _sampleDims[3] = { 0, 0, 0 };
  float refRes[3] = { 0.0f, 0.0f, 0.0f };
  float sampleRes[3] = { 0.0f, 0.0f, 0.0f };
  float refOrigin[3] = { 0.0f, 0.0f, 0.0f };
  float sampleOrigin[3] = { 0.0f, 0.0f, 0.0f };
  refDC->getGeometryAs<ImageGeom>()->getDimensions(_refDims);
  sampleDC->getGeometryAs<ImageGeom>()->getDimensions(_sampleDims);
  refDC->getGeometryAs<ImageGeom>()->getResolution(refRes);
  sampleDC->getGeometryAs<ImageGeom>()->getResolution(sampleRes);
  refDC->getGeometryAs<ImageGeom>()->getOrigin(refOrigin);
  sampleDC->getGeometryAs<ImageGeom>()->getOrigin(sampleOrigin);

  // Further down we divide by sampleRes, so here check to make sure that no components of the resolution are 0
  // This would be incredible unusual behavior if it were to occur, hence why we don't spend the time
  // doing the validation up in the dataCheck
  bool zeroRes = false;
  for (size_t i = 0; i < 3; i++)
  {
    if (sampleRes[i] == 0.0f)
    {
      zeroRes = true;
      break;
    }
  }

  if (zeroRes == true)
  {
    QString ss = QObject::tr("A component of the resolution for the Image Geometry associated with DataContainer '%1' is 0. This would result in a division by 0 operation").arg(m_SamplingCellAttributeMatrixPath.getDataContainerName());
    setErrorCondition(-5555);
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  int64_t refDims[3] = { 0, 0, 0 };
  int64_t sampleDims[3] = { 0, 0, 0 };
  for (size_t i = 0; i < 3; i++)
  {
    refDims[i] = static_cast<int64_t>(_refDims[i]);
    sampleDims[i] = static_cast<int64_t>(_sampleDims[i]);
  }

  int64_t numRefTuples = refDims[0] * refDims[1] * refDims[2];

  float x = 0.0f, y = 0.0f, z = 0.0f;
  int64_t col = 0, row = 0, plane = 0;
  int64_t refIndex = 0;
  int64_t sampleIndex = 0;
  int64_t planeComp = 0, rowComp = 0;

  // Create arrays on the reference grid to hold data present on the sampling grid
  QList<QString> voxelArrayNames = sampleAttrMat->getAttributeArrayNames();
  for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
  {
    IDataArray::Pointer p = sampleAttrMat->getAttributeArray(*iter);
    // Make a copy of the 'p' array that has the same name. When placed into
    // the data container this will over write the current array with
    // the same name. At least in theory
    IDataArray::Pointer data = p->createNewArray(numRefTuples, p->getComponentDimensions(), p->getName());
    refAttrMat->addAttributeArray(p->getName(), data);
  }

  bool outside  = false;
  for (int64_t i = 0; i < refDims[2]; i++)
  {
    planeComp = i * refDims[0] * refDims[1];
    for (int64_t j = 0; j < refDims[1]; j++)
    {
      rowComp = j * refDims[0];
      for (int64_t k = 0; k < refDims[0]; k++)
      {
        outside = false;
        x = (k * refRes[0] + refOrigin[0]);
        y = (j * refRes[1] + refOrigin[1]);
        z = (i * refRes[2] + refOrigin[2]);
        if ((x - sampleOrigin[0]) < 0) { outside = true; }
        else { col = int64_t((x - sampleOrigin[0]) / sampleRes[0]); }
        if ((y - sampleOrigin[1]) < 0) { outside = true; }
        else { row = int64_t((y - sampleOrigin[1]) / sampleRes[1]); }
        if ((z - sampleOrigin[2]) < 0) { outside = true; }
        else { plane = int64_t((z - sampleOrigin[2]) / sampleRes[2]); }
        if (col > sampleDims[0] ||  row > sampleDims[1] ||  plane > sampleDims[2]) { outside = true; }
        if (outside == false)
        {
          sampleIndex = (plane * sampleDims[0] * sampleDims[1]) + (row * sampleDims[0]) + col;
          refIndex = planeComp + rowComp + k;
          for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
          {
            IDataArray::Pointer p = sampleAttrMat->getAttributeArray(*iter);
            // Make a copy of the 'p' array that has the same name. When placed into
            // the data container this will over write the current array with
            // the same name. At least in theory
            IDataArray::Pointer data = refAttrMat->getAttributeArray(*iter);
            void* source = NULL;
            void* destination = NULL;
            int nComp = data->getNumberOfComponents();

            source = p->getVoidPointer((nComp * sampleIndex));
            destination = data->getVoidPointer((nComp * refIndex));
            ::memcpy(destination, source, p->getTypeSize() * nComp);
          }
        }
      }
    }
  }

  notifyStatusMessage(getHumanLabel(), "Complete");
}
Exemplo n.º 11
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void CropImageGeometry::dataCheck()
{
  if(getErrorCondition() < 0) { return; }
  setErrorCondition(0);

  // Validate the incoming DataContainer, Geometry, and AttributeMatrix ; bail if any do not exist since we plan on using them later on in the dataCheck
  // Error messages are handled by the getPrereq functions
  DataContainer::Pointer srcCellDataContainer = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getCellAttributeMatrixPath().getDataContainerName());
  ImageGeom::Pointer image = getDataContainerArray()->getPrereqGeometryFromDataContainer<ImageGeom, AbstractFilter>(this, getCellAttributeMatrixPath().getDataContainerName());
  AttributeMatrix::Pointer srcCellAttrMat = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, getCellAttributeMatrixPath(), -301);
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer destCellDataContainer = srcCellDataContainer;
  AttributeMatrix::Pointer destCellAttrMat;

  if (m_SaveAsNewDataContainer == true)
  {
    float ox = 0.0f, oy = 0.0f, oz = 0.0f, rx = 0.0f, ry = 0.0f, rz = 0.0f;
    size_t dx = 0, dy = 0, dz = 0;
    image->getOrigin(ox, oy, oz);
    image->getResolution(rx, ry, rz);
    image->getDimensions(dx, dy, dz);

    destCellDataContainer = getDataContainerArray()->createNonPrereqDataContainer<AbstractFilter>(this, getNewDataContainerName());
    if(NULL == destCellDataContainer.get() || getErrorCondition() < 0)
    {
      return;
    }
    IGeometry::Pointer imageCopy = image->deepCopy();
    destCellDataContainer->setGeometry(imageCopy);

    destCellAttrMat = srcCellAttrMat->deepCopy();
    destCellDataContainer->addAttributeMatrix(destCellAttrMat->getName(), destCellAttrMat);
  }
  else
  {
    destCellAttrMat = srcCellAttrMat;
  }

  if(NULL == destCellDataContainer.get() || NULL == destCellAttrMat.get() || getErrorCondition() < 0)
  {
    return;
  }

  if (getXMax() < getXMin())
  {
    QString ss = QObject::tr("X Max (%1) less than X Min (%2)").arg(getXMax()).arg(getXMin());
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }
  if (getYMax() < getYMin())
  {
    QString ss = QObject::tr("Y Max (%1) less than Y Min (%2)").arg(getYMax()).arg(getYMin());
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }
  if (getZMax() < getZMin())
  {
    QString ss = QObject::tr("Z Max (%1) less than Z Min (%2)").arg(getZMax()).arg(getZMin());
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }
  if (getXMin() < 0)
  {
    QString ss = QObject::tr("X Min (%1) less than 0").arg(getXMin());
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }
  if (getYMin() < 0)
  {
    QString ss = QObject::tr("Y Min (%1) less than 0").arg(getYMin());
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }
  if (getZMin() < 0)
  {
    QString ss = QObject::tr("Z Min (%1) less than 0").arg(getZMin());
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }

  if (getXMax() > (static_cast<int64_t>(destCellDataContainer->getGeometryAs<ImageGeom>()->getXPoints()) - 1))
  {
    QString ss = QObject::tr("The X Max (%1) is greater than the Image Geometry X extent (%2)").arg(getXMax()).arg(static_cast<int64_t>(destCellDataContainer->getGeometryAs<ImageGeom>()->getXPoints()) - 1);
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }

  if (getYMax() > (static_cast<int64_t>(destCellDataContainer->getGeometryAs<ImageGeom>()->getYPoints()) - 1))
  {
    QString ss = QObject::tr("The Y Max (%1) is greater than the Image Geometry Y extent (%2)").arg(getYMax()).arg(static_cast<int64_t>(destCellDataContainer->getGeometryAs<ImageGeom>()->getYPoints()) - 1);
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }

  if (getZMax() > (static_cast<int64_t>(destCellDataContainer->getGeometryAs<ImageGeom>()->getZPoints()) - 1))
  {
    QString ss = QObject::tr("The Z Max (%1) is greater than the Image Geometry Z extent (%2)").arg(getZMax()).arg(static_cast<int64_t>(destCellDataContainer->getGeometryAs<ImageGeom>()->getZPoints()) - 1);
    notifyErrorMessage(getHumanLabel(), ss, -5550);
    setErrorCondition(-5550);
  }

  QVector<size_t> tDims(3, 0);
  if (getXMax() - getXMin() < 0) { setXMax(getXMin() + 1); }
  if (getYMax() - getYMin() < 0) { setYMax(getYMin() + 1); }
  if (getZMax() - getZMin() < 0) { setZMax(getZMin() + 1); }
  tDims[0] = (getXMax() - getXMin()) + 1;
  tDims[1] = (getYMax() - getYMin()) + 1;
  tDims[2] = (getZMax() - getZMin()) + 1;

  destCellDataContainer->getGeometryAs<ImageGeom>()->setDimensions(tDims[0], tDims[1], tDims[2]);

  // If any of the sanity checks fail above then we should NOT attempt to go any further.
  if (getErrorCondition() < 0) { return; }

  size_t totalPoints = 1;
  for(int i = 0; i < 3; i++) {
    if(tDims[i] != 0) { totalPoints *= tDims[i]; }
  }
  AttributeMatrix::Pointer newCellAttrMat = AttributeMatrix::New(tDims, destCellAttrMat->getName(), destCellAttrMat->getType());

  QList<QString> voxelArrayNames = destCellAttrMat->getAttributeArrayNames();
  for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
  {
    IDataArray::Pointer p = destCellAttrMat->getAttributeArray(*iter);
    //
    IDataArray::Pointer data = p->createNewArray(totalPoints, p->getComponentDimensions(), p->getName(), false);

    destCellAttrMat->removeAttributeArray(*iter);
    newCellAttrMat->addAttributeArray(*iter, data);
  }
  destCellDataContainer->removeAttributeMatrix(destCellAttrMat->getName());
  destCellDataContainer->addAttributeMatrix(newCellAttrMat->getName(), newCellAttrMat);


  if(m_RenumberFeatures == true)
  {
    QVector<size_t> cDims(1, 1);
    m_FeatureIdsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter>(this, getFeatureIdsArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
    if( NULL != m_FeatureIdsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
    {
      m_FeatureIds = m_FeatureIdsPtr.lock()->getPointer(0);
    } /* Now assign the raw pointer to data from the DataArray<T> object */

    AttributeMatrix::Pointer cellFeatureAttrMat = srcCellDataContainer->getAttributeMatrix(getCellFeatureAttributeMatrixPath().getAttributeMatrixName());
    if(NULL == cellFeatureAttrMat.get()) { return; }
    QVector<bool> activeObjects(cellFeatureAttrMat->getNumTuples(), true);
    cellFeatureAttrMat->removeInactiveObjects(activeObjects, m_FeatureIdsPtr.lock());
  }
}
Exemplo n.º 12
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ConvertData::dataCheck()
{
  setErrorCondition(0);

  DataContainer::Pointer m = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getSelectedCellArrayPath().getDataContainerName(), false);

  QString ss;
  if (m_OutputArrayName.isEmpty() == true)
  {
    ss = QObject::tr("The output array name must be set");
    setErrorCondition(-398);
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  if (getInPreflight())
  {
    AttributeMatrix::Pointer cellAttrMat = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, m_SelectedCellArrayPath, -301);
    if(getErrorCondition() < 0) { return; }

    IDataArray::Pointer p = getDataContainerArray()->getPrereqIDataArrayFromPath<IDataArray, AbstractFilter>(this, getSelectedCellArrayPath());
    if(getErrorCondition() < 0) { return; }

    QVector<size_t> dims = p->getComponentDimensions();
    size_t voxels = cellAttrMat->getNumTuples();
    if (m_ScalarType == Detail::Int8)
    {
      p = Int8ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::UInt8)
    {
      p = UInt8ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::Int16)
    {
      p = Int16ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::UInt16)
    {
      p = UInt16ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::Int32)
    {
      p = Int32ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::UInt32)
    {
      p = UInt32ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::Int64)
    {
      p = Int64ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::UInt64)
    {
      p = UInt64ArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::Float)
    {
      p = FloatArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    else if (m_ScalarType == Detail::Double)
    {
      p = DoubleArrayType::CreateArray(voxels, dims, m_OutputArrayName);
    }
    cellAttrMat->addAttributeArray(p->getName(), p);
  }
}
Exemplo n.º 13
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ReadImage::execute()
{
  QString ss;
  dataCheck();
  if(getErrorCondition() < 0)
  {
    setErrorCondition(-10000);
    ss = QObject::tr("DataCheck did not pass during execute");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  //get volume container
  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getDataContainerName());

  //get input and output data
  IDataArray::Pointer imageData = m_ImageDataPtr.lock();
  //std::string fileNameString = getInputFileName().toLocal8Bit().constData();
  //const char* fileNameCStr = fileNameString.c_str();


  //execute type dependant portion using a Private Implementation that takes care of figuring out if
  // we can work on the correct type and actually handling the algorithm execution. We pass in "this" so
  // that the private implementation can get access to the current object to pass up status notifications,
  // progress or handle "cancel" if needed.
  if(ReadImagePrivate<int8_t>()(imageData))
  {
    ReadImagePrivate<int8_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<uint8_t>()(imageData) )
  {
    ReadImagePrivate<uint8_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<int16_t>()(imageData) )
  {
    ReadImagePrivate<int16_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<uint16_t>()(imageData) )
  {
    ReadImagePrivate<uint16_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<int32_t>()(imageData) )
  {
    ReadImagePrivate<int32_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<uint32_t>()(imageData) )
  {
    ReadImagePrivate<uint32_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<int64_t>()(imageData) )
  {
    ReadImagePrivate<int64_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<uint64_t>()(imageData) )
  {
    ReadImagePrivate<uint64_t>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<float>()(imageData) )
  {
    ReadImagePrivate<float>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else if(ReadImagePrivate<double>()(imageData) )
  {
    ReadImagePrivate<double>::Execute(this, getInputFileName(), imageData, m, getCellAttributeMatrixName());
  }
  else
  {
    setErrorCondition(-10001);
    ss = QObject::tr("A Supported DataArray type was not used for an input array.");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  AttributeMatrix::Pointer attrMat = m->getAttributeMatrix(getCellAttributeMatrixName());
  attrMat->addAttributeArray(getImageDataArrayName(), imageData);

  /* Let the GUI know we are done with this filter */
  notifyStatusMessage(getHumanLabel(), "Complete");
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void RegularizeZSpacing::execute()
{
    setErrorCondition(0);
    dataCheck();
    if(getErrorCondition() < 0) {
        return;
    }

    DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getCellAttributeMatrixPath().getDataContainerName());

    size_t dims[3];
    m->getGeometryAs<ImageGeom>()->getDimensions(dims);

    std::ifstream inFile;
    inFile.open(m_InputFile.toLatin1().data());

    float zval = 0.0f;
    std::vector<float> zboundvalues(dims[2] + 1, 0.0);
    for (size_t iter = 0; iter < dims[2] + 1; iter++)
    {
        inFile >> zval;
        zboundvalues[iter] = zval;
    }
    inFile.close();

    float xRes = m->getGeometryAs<ImageGeom>()->getXRes();
    float yRes = m->getGeometryAs<ImageGeom>()->getYRes();

    float sizez = zboundvalues[dims[2]];
    size_t m_XP = dims[0];
    size_t m_YP = dims[1];
    size_t m_ZP = static_cast<size_t>(sizez / m_NewZRes);
    if (m_ZP == 0) {
        m_ZP = 1;
    }
    size_t totalPoints = m_XP * m_YP * m_ZP;

    size_t index = 0, oldindex = 0;
    size_t plane = 0;
    std::vector<size_t> newindicies(totalPoints, 0);
    for (size_t i = 0; i < m_ZP; i++)
    {
        plane = 0;
        for (size_t iter = 1; iter < dims[2]; iter++)
        {
            if ((i * m_NewZRes) > zboundvalues[iter]) {
                plane = iter;
            }
        }
        for (size_t j = 0; j < m_YP; j++)
        {
            for (size_t k = 0; k < m_XP; k++)
            {
                oldindex = (plane * dims[0] * dims[1]) + (j * dims[0]) + k;
                index = (i * dims[0] * dims[1]) + (j * dims[0]) + k;
                newindicies[index] = oldindex;
            }
        }
    }

    AttributeMatrix::Pointer cellAttrMat = m->getAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName());
    QVector<size_t> tDims(3, 0);
    tDims[0] = m_XP;
    tDims[1] = m_YP;
    tDims[2] = m_ZP;
    AttributeMatrix::Pointer newCellAttrMat = AttributeMatrix::New(tDims, cellAttrMat->getName(), cellAttrMat->getType());

    QList<QString> voxelArrayNames = cellAttrMat->getAttributeArrayNames();
    for (QList<QString>::iterator iter = voxelArrayNames.begin(); iter != voxelArrayNames.end(); ++iter)
    {
        IDataArray::Pointer p = cellAttrMat->getAttributeArray(*iter);
        // Make a copy of the 'p' array that has the same name. When placed into
        // the data container this will over write the current array with
        // the same name. At least in theory
        IDataArray::Pointer data = p->createNewArray(p->getNumberOfTuples(), p->getComponentDimensions(), p->getName());
        data->resize(totalPoints);
        void* source = NULL;
        void* destination = NULL;
        size_t newIndicies_I = 0;
        int nComp = data->getNumberOfComponents();
        for (size_t i = 0; i < static_cast<size_t>(totalPoints); i++)
        {
            newIndicies_I = newindicies[i];

            source = p->getVoidPointer((nComp * newIndicies_I));
            destination = data->getVoidPointer((data->getNumberOfComponents() * i));
            ::memcpy(destination, source, p->getTypeSize() * data->getNumberOfComponents());
        }
        cellAttrMat->removeAttributeArray(*iter);
        newCellAttrMat->addAttributeArray(*iter, data);
    }
    m->getGeometryAs<ImageGeom>()->setResolution(xRes, yRes, m_NewZRes);
    m->getGeometryAs<ImageGeom>()->setDimensions(m_XP, m_YP, m_ZP);
    m->removeAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName());
    m->addAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName(), newCellAttrMat);

    notifyStatusMessage(getHumanLabel(), "Complete");
}