Ejemplo n.º 1
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
int64_t EBSDSegmentFeatures::getSeed(int32_t gnum)
{
  setErrorCondition(0);

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

  size_t totalPoints = m_FeatureIdsPtr.lock()->getNumberOfTuples();
  int64_t seed = -1;
  Generator& numberGenerator = *m_NumberGenerator;
  while (seed == -1 && m_TotalRandomNumbersGenerated < totalPoints)
  {
    // Get the next voxel index in the precomputed list of voxel seeds
    int64_t randpoint = numberGenerator();
    m_TotalRandomNumbersGenerated++; // Increment this counter
    if (m_FeatureIds[randpoint] == 0) // If the GrainId of the voxel is ZERO then we can use this as a seed point
    {
      if ((m_UseGoodVoxels == false || m_GoodVoxels[randpoint] == true) && m_CellPhases[randpoint] > 0)
      {
        seed = randpoint;
      }
    }
  }
  if (seed >= 0)
  {
    m_FeatureIds[seed] = gnum;
    QVector<size_t> tDims(1, gnum + 1);
    m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->resizeAttributeArrays(tDims);
    updateFeatureInstancePointers();
  }
  return seed;
}
Ejemplo n.º 2
0
/**
 *
 * @param FileName
 * @param data
 * @param nx X Dimension
 * @param ny Y Dimension
 * @param nz Z Dimension
 */
int  ReadPHFile(QString FileName, QVector<int>& data, int& nx, int& ny, int& nz)
{
  DataContainerArray::Pointer dca = DataContainerArray::New();
  DataContainer::Pointer m = DataContainer::New(); /* FIXME: What Geometry do we need? */
  dca->pushBack(m);

  FilterManager::Pointer fm = FilterManager::Instance();
  AbstractFilter::Pointer reader = fm->getFactoryForFilter("PhReader")->create();
  reader->setDataContainerArray(dca);
  bool propWasSet = reader->setProperty("InputFile", FileName);
  if(propWasSet == false)
  {

  }
  reader->execute();
  if (reader->getErrorCondition() < 0)
  {
    qDebug() << "Error Reading the Ph File '" << FileName << "' Error Code:" << reader->getErrorCondition();
    return -1;
  }

  Int32ArrayType* featureIds = Int32ArrayType::SafePointerDownCast(m->getAttributeMatrix(DREAM3D::Defaults::CellAttributeMatrixName)->getAttributeArray(DREAM3D::CellData::FeatureIds).get());
  size_t count = featureIds->getNumberOfTuples();

  data.resize(count);
  for(size_t i = 0; i < count; ++i)
  {
    data[i] = featureIds->getValue(i);
  }


  return 0;
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void AvizoUniformCoordinateWriter::dataCheck()
{
    setErrorCondition(0);

    DataContainer::Pointer dc = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getFeatureIdsArrayPath().getDataContainerName(), false);
    if (getErrorCondition() < 0 || NULL == dc.get()) {
        return;
    }

    ImageGeom::Pointer image = dc->getPrereqGeometry<ImageGeom, AbstractFilter>(this);
    if (getErrorCondition() < 0 || NULL == image.get()) {
        return;
    }

    if(m_OutputFile.isEmpty() == true)
    {
        QString ss = QObject::tr("The output file must be set before executing this filter.");
        setErrorCondition(-1);
        notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    }
    if(m_WriteFeatureIds == true)
    {
        QVector<size_t> dims(1, 1);
        m_FeatureIdsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter>(this, getFeatureIdsArrayPath(), dims); /* 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 */
        }
    }
}
Ejemplo n.º 4
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ReadStlFile::dataCheck()
{
  setErrorCondition(0);

  DataArrayPath tempPath;

  if (m_StlFilePath.isEmpty() == true)
  {
    setErrorCondition(-1003);
    notifyErrorMessage(getHumanLabel(), "The input file must be set", -1003);
  }

  // Create a SufaceMesh Data Container with Faces, Vertices, Feature Labels and optionally Phase labels
  DataContainer::Pointer sm = getDataContainerArray()->createNonPrereqDataContainer<AbstractFilter>(this, getSurfaceMeshDataContainerName());
  if(getErrorCondition() < 0) { return; }

  SharedVertexList::Pointer sharedVertList = TriangleGeom::CreateSharedVertexList(0);
  TriangleGeom::Pointer triangleGeom = TriangleGeom::CreateGeometry(0, sharedVertList, DREAM3D::Geometry::TriangleGeometry);

  sm->setGeometry(triangleGeom);

  QVector<size_t> tDims(1, 0);
  sm->createNonPrereqAttributeMatrix<AbstractFilter>(this, getFaceAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::Face);

  QVector<size_t> cDims(1, 3);
  tempPath.update(getSurfaceMeshDataContainerName(), getFaceAttributeMatrixName(), getFaceNormalsArrayName() );
  m_FaceNormalsPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<double>, AbstractFilter, double>(this, tempPath, 0, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_FaceNormalsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_FaceNormals = m_FaceNormalsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
}
Ejemplo n.º 5
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
IntVec3_t CropImageGeometry::getCurrentVolumeDataContainerDimensions()
{
  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getCellAttributeMatrixPath().getDataContainerName());

  IntVec3_t data;
  if (NULL != m.get() )
  {
    ImageGeom::Pointer image = m->getGeometryAs<ImageGeom>();
    if (image.get() != NULL)
    {
      data.x = image->getXPoints();
      data.y = image->getYPoints();
      data.z = image->getZPoints();
    }
    else
    {
      data.x = 0;
      data.y = 0;
      data.z = 0;
    }
  }
  else
  {
    data.x = 0;
    data.y = 0;
    data.z = 0;
  }
  return data;
}
Ejemplo n.º 6
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ConvertData::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

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

  IDataArray::Pointer iArray = m->getAttributeMatrix(m_SelectedCellArrayPath.getAttributeMatrixName())->getAttributeArray(m_SelectedCellArrayPath.getDataArrayName());
  bool completed = false;

  CHECK_AND_CONVERT(UInt8ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(Int8ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(UInt16ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(Int16ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(UInt32ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(Int32ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(UInt64ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(Int64ArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(FloatArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(DoubleArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)
  CHECK_AND_CONVERT(BoolArrayType, m, m_ScalarType, iArray, m_SelectedCellArrayPath.getAttributeMatrixName(), m_OutputArrayName)

  /* Let the GUI know we are done with this filter */
  notifyStatusMessage(getHumanLabel(), "Complete");
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
int64_t EBSDSegmentFeatures::getSeed(int32_t gnum, int64_t nextSeed)
{
  setErrorCondition(0);
  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getDataContainerName());

  size_t totalPoints = m_FeatureIdsPtr.lock()->getNumberOfTuples();
  int64_t seed = -1;
  // start with the next voxel after the last seed
  size_t randpoint = static_cast<size_t>(nextSeed);
  while (seed == -1 && randpoint < totalPoints)
  {
    if (m_FeatureIds[randpoint] == 0) // If the GrainId of the voxel is ZERO then we can use this as a seed point
    {
      if ((m_UseGoodVoxels == false || m_GoodVoxels[randpoint] == true) && m_CellPhases[randpoint] > 0)
      {
        seed = randpoint;
      }
      else { randpoint += 1; }
    }
    else { randpoint += 1; }
  }
  if (seed >= 0)
  {
    m_FeatureIds[seed] = gnum;
    QVector<size_t> tDims(1, gnum + 1);
    m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->resizeAttributeArrays(tDims);
    updateFeatureInstancePointers();
  }
  return seed;
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void RegularGridSampleSurfaceMesh::dataCheck()
{
  setErrorCondition(0);
  DataArrayPath tempPath;

  DataContainer::Pointer m = getDataContainerArray()->createNonPrereqDataContainer<AbstractFilter>(this, getDataContainerName());
  if (getErrorCondition() < 0) { return; }

  ImageGeom::Pointer image = ImageGeom::CreateGeometry(DREAM3D::Geometry::ImageGeometry);
  m->setGeometry(image);

  // Set the Dimensions, Resolution and Origin of the output data container
  m->getGeometryAs<ImageGeom>()->setDimensions(m_XPoints, m_YPoints, m_ZPoints);
  m->getGeometryAs<ImageGeom>()->setResolution(m_Resolution.x, m_Resolution.y, m_Resolution.z);
  m->getGeometryAs<ImageGeom>()->setOrigin(m_Origin.x, m_Origin.y, m_Origin.z);

  QVector<size_t> tDims(3, 0);
  tDims[0] = m_XPoints;
  tDims[1] = m_YPoints;
  tDims[2] = m_ZPoints;
  AttributeMatrix::Pointer cellAttrMat = m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getCellAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::Cell);
  if (getErrorCondition() < 0 || NULL == cellAttrMat.get()) { return; }

  QVector<size_t> cDims(1, 1);
  tempPath.update(getDataContainerName(), getCellAttributeMatrixName(), getFeatureIdsArrayName() );
  m_FeatureIdsPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter, int32_t>(this, tempPath, 0, 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 */
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void RenameAttributeMatrix::dataCheck()
{
  setErrorCondition(0);

  if (m_NewAttributeMatrix.isEmpty() == true)
  {
    setErrorCondition(-11004);
    QString ss = QObject::tr("The new Attribute Matrix name must be set");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
    return;
  }

  QString amName = getSelectedAttributeMatrixPath().getAttributeMatrixName();

  DataContainer::Pointer dc = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getSelectedAttributeMatrixPath().getDataContainerName());
  getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, getSelectedAttributeMatrixPath(), -301);

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

  bool check = dc->renameAttributeMatrix(amName, getNewAttributeMatrix() );
  if (check == false)
  {
    setErrorCondition(-11006);
    QString ss = QObject::tr("Attempt to rename Attribute Matrix '%1' to '%2' failed").arg(amName).arg(getNewAttributeMatrix());
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
  }
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void LinkFeatureMapToElementArray::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getSelectedCellArrayPath().getDataContainerName());
  size_t totalPoints = m_SelectedCellDataPtr.lock()->getNumberOfTuples();

  int32_t maxIndex = 0;
  std::vector<bool> active;
  for (size_t i = 0; i < totalPoints; i++)
  {
    int32_t index = m_SelectedCellData[i];
    if ((index + 1) > maxIndex)
    {
      active.resize(index + 1);
      active[index] = true;
      maxIndex = index + 1;
    }
  }

  QVector<size_t> tDims(1, maxIndex);
  m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->resizeAttributeArrays(tDims);
  updateFeatureInstancePointers();

  for (int32_t i = 0; i < maxIndex; i++)
  {
    m_Active[i] = active[i];
  }

  notifyStatusMessage(getHumanLabel(), "Complete");
}
Ejemplo n.º 11
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void MergeTwins::dataCheck()
{
  setErrorCondition(0);
  DataArrayPath tempPath;

  GroupFeatures::dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer m = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, m_FeatureIdsArrayPath.getDataContainerName(), false);
  if(getErrorCondition() < 0 || NULL == m.get()) { return; }

  QVector<size_t> tDims(1, 0);
  m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getNewCellFeatureAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::CellFeature);

  QVector<size_t> cDims(1, 1);

  QVector<DataArrayPath> dataArrayPaths;

  // Cell Data
  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 */

  tempPath.update(m_FeatureIdsArrayPath.getDataContainerName(), m_FeatureIdsArrayPath.getAttributeMatrixName(), getCellParentIdsArrayName() );
  m_CellParentIdsPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter, int32_t>(this, tempPath, -1, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_CellParentIdsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_CellParentIds = m_CellParentIdsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  // Feature Data
  m_FeaturePhasesPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter>(this, getFeaturePhasesArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_FeaturePhasesPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_FeaturePhases = m_FeaturePhasesPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
  if(getErrorCondition() >= 0) { dataArrayPaths.push_back(getFeaturePhasesArrayPath()); }

  tempPath.update(m_FeaturePhasesArrayPath.getDataContainerName(), m_FeaturePhasesArrayPath.getAttributeMatrixName(), getFeatureParentIdsArrayName() );
  m_FeatureParentIdsPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter, int32_t>(this, tempPath, -1, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_FeatureParentIdsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_FeatureParentIds = m_FeatureParentIdsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  cDims[0] = 4;
  m_AvgQuatsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<float>, AbstractFilter>(this, getAvgQuatsArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_AvgQuatsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_AvgQuats = m_AvgQuatsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
  if(getErrorCondition() >= 0) { dataArrayPaths.push_back(getAvgQuatsArrayPath()); }

  // New Feature Data
  cDims[0] = 1;
  tempPath.update(m_FeatureIdsArrayPath.getDataContainerName(), getNewCellFeatureAttributeMatrixName(), getActiveArrayName() );
  m_ActivePtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<bool>, AbstractFilter, bool>(this, tempPath, true, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_ActivePtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_Active = m_ActivePtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  // Ensemble Data
  m_CrystalStructuresPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<unsigned int>, AbstractFilter>(this, getCrystalStructuresArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_CrystalStructuresPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_CrystalStructures = m_CrystalStructuresPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  getDataContainerArray()->validateNumberOfTuples<AbstractFilter>(this, dataArrayPaths);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
QVector<DataArrayPath> DataContainerBundle::findCommonDataArrayPaths(bool filterMetaData)
{
  QVector<DataArrayPath> commonPaths;
  if(m_DataContainers.count() == 0)
  {
    return commonPaths;
  }

  // Get the first DataContainer
  DataContainer::Pointer dc0 = m_DataContainers[0];
  if(NULL == dc0.get())
  {
    return commonPaths;
  }
  QVector<DataArrayPath> dc0Paths = dc0->getAllDataArrayPaths();

  if(m_DataContainers.count() == 1)
  {
    return commonPaths;
  }

  int count = m_DataContainers.count();
  // We already have the first DataContainer, so start at the 2nd
  for (int dcIdx = 1; dcIdx < count; ++dcIdx)
  {
    DataContainer::Pointer dcX = m_DataContainers[dcIdx];
    QVector<DataArrayPath> paths = dcX->getAllDataArrayPaths();

    int numPaths = dc0Paths.count();
    // Loop over the paths from the first data container from back to front,
    // removing the path if it does not exist.
    for(int i = numPaths - 1; i >= 0; i--)
    {
      DataArrayPath dc0Path = dc0Paths[i];
      bool match = false;
      foreach(DataArrayPath path, paths)
      {
        //qDebug() << "Comparing " << dc0Path.serialize() << " TO " << path.serialize();
        if(path.hasSameAttributeMatrix(dc0Path) &&  path.hasSameDataArray(dc0Path) )
        {
          match = true;
        }
        if(filterMetaData == true && (path.getAttributeMatrixName() == DREAM3D::StringConstants::MetaData) )
        {
          match = false;
        }
      }

      if(!match)
      {
        dc0Paths.remove(i);
      }
    }
  }

  commonPaths = dc0Paths;
  return commonPaths;
}
Ejemplo n.º 13
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void EBSDSegmentFeatures::dataCheck()
{
  setErrorCondition(0);
  DataArrayPath tempPath;

  SegmentFeatures::dataCheck();
  if(getErrorCondition() < 0) { return; }

  // Set the DataContainerName for the Parent Class (SegmentFeatures) to Use
  setDataContainerName(m_QuatsArrayPath.getDataContainerName());

  DataContainer::Pointer m = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getDataContainerName(), false);
  if(getErrorCondition() < 0 || NULL == m.get()) { return; }

  QVector<size_t> tDims(1, 0);
  m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getCellFeatureAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::CellFeature);

  QVector<DataArrayPath> dataArrayPaths;

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

  m_CellPhasesPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter>(this, getCellPhasesArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_CellPhasesPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_CellPhases = m_CellPhasesPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
  if(getErrorCondition() >= 0) { dataArrayPaths.push_back(getCellPhasesArrayPath()); }

  tempPath.update(getDataContainerName(), m_QuatsArrayPath.getAttributeMatrixName(), getFeatureIdsArrayName() );
  m_FeatureIdsPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter, int32_t>(this,  tempPath, 0, 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 */

  tempPath.update(getDataContainerName(), getCellFeatureAttributeMatrixName(), getActiveArrayName() );
  m_ActivePtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<bool>, AbstractFilter, bool>(this,  tempPath, true, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_ActivePtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_Active = m_ActivePtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  m_CrystalStructuresPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<uint32_t>, AbstractFilter>(this,  getCrystalStructuresArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_CrystalStructuresPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_CrystalStructures = m_CrystalStructuresPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  cDims[0] = 4;
  m_QuatsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<float>, AbstractFilter>(this, getQuatsArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_QuatsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_Quats = m_QuatsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
  if(getErrorCondition() >= 0) { dataArrayPaths.push_back(getQuatsArrayPath()); }

  getDataContainerArray()->validateNumberOfTuples<AbstractFilter>(this, dataArrayPaths);
}
Ejemplo n.º 14
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ChangeResolution::preflight()
{
  setInPreflight(true);
  emit preflightAboutToExecute();
  emit updateFilterParameters(this);
  dataCheck();

  if (getErrorCondition() < 0)
  {
    emit preflightExecuted();
    setInPreflight(false);
    return;
  }

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

  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; }

  m->getGeometryAs<ImageGeom>()->setDimensions(m_XP, m_YP, m_ZP);
  m->getGeometryAs<ImageGeom>()->setResolution(m_Resolution.x, m_Resolution.y, m_Resolution.z);

  QVector<size_t> tDims(3, 0);
  tDims[0] = m_XP;
  tDims[1] = m_YP;
  tDims[2] = m_ZP;
  m->getAttributeMatrix(getCellAttributeMatrixPath().getAttributeMatrixName())->setTupleDimensions(tDims);

  if (m_RenumberFeatures == true)
  {
    AttributeMatrix::Pointer cellFeatureAttrMat = m->getAttributeMatrix(getCellFeatureAttributeMatrixPath().getAttributeMatrixName());
    QVector<bool> activeObjects(cellFeatureAttrMat->getNumTuples(), true);
    cellFeatureAttrMat->removeInactiveObjects(activeObjects, m_FeatureIdsPtr.lock());
  }
  emit preflightExecuted();
  setInPreflight(false);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void CombineAttributeMatrices::execute()
{
  setErrorCondition(0);
  dataCheck();
  if (getErrorCondition() < 0) { return; }

  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getFirstAttributeMatrixPath().getDataContainerName());
  AttributeMatrix::Pointer firstAttrMat = m->getAttributeMatrix(getFirstAttributeMatrixPath().getAttributeMatrixName());
  AttributeMatrix::Pointer secondAttrMat = m->getAttributeMatrix(getSecondAttributeMatrixPath().getAttributeMatrixName());
  AttributeMatrix::Pointer combinedAttrMat = m->getAttributeMatrix(getCombinedAttributeMatrixName());
  size_t firstAttrMatNumTuples = firstAttrMat->getNumTuples();

  size_t totalTuples1 = m_SecondIndexPtr.lock()->getNumberOfTuples();
  size_t totalTuples2 = m_SecondIndexPtr.lock()->getNumberOfTuples();
  for (size_t i = 0; i < totalTuples1; i++)
  {
    if (m_FirstIndex > 0) { m_NewIndex[i] = m_FirstIndex[i]; }
  }
  for (size_t i = 0; i < totalTuples2; i++)
  {
    //subtract 1 from the index plus numTuples because the second index should be shifted to account for the zeroth tuple (all AMs above element start at tuple 1)
    if (m_SecondIndex[i] > 0 && m_NewIndex[i] == 0) m_NewIndex[i] = m_SecondIndex[i] + firstAttrMatNumTuples - 1;
    else if (m_SecondIndex[i] > 0 && m_NewIndex[i] != 0)
    {
      QString ss = QObject::tr("When copying the indices, the indices of the two attribute matrices overlapped.  The index of the first attribute matrix was kept.");
      notifyWarningMessage(getHumanLabel(), ss, -111);
    }
  }

  QList<QString> arrayNames = firstAttrMat->getAttributeArrayNames();
  size_t location = 0;
  for (QList<QString>::iterator iter = arrayNames.begin(); iter != arrayNames.end(); ++iter)
  {
    IDataArray::Pointer fromDataArray = firstAttrMat->getAttributeArray(*iter);
    IDataArray::Pointer toDataArray = combinedAttrMat->getAttributeArray(*iter);
    EXECUTE_FUNCTION_TEMPLATE(this, copyData, fromDataArray, fromDataArray, toDataArray, location);
  }

  arrayNames.clear();
  arrayNames = secondAttrMat->getAttributeArrayNames();
  location = firstAttrMatNumTuples;
  for (QList<QString>::iterator iter = arrayNames.begin(); iter != arrayNames.end(); ++iter)
  {
    IDataArray::Pointer fromDataArray = secondAttrMat->getAttributeArray(*iter);
    IDataArray::Pointer toDataArray = combinedAttrMat->getAttributeArray(*iter);
    EXECUTE_FUNCTION_TEMPLATE(this, copyData, fromDataArray, fromDataArray, toDataArray, location);
  }

  notifyStatusMessage(getHumanLabel(), "Complete");
}
Ejemplo n.º 16
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void SineParamsSegmentFeatures::execute()
{
  setErrorCondition(0);

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

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

  QVector<size_t> tDims(1, 1);
  m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->resizeAttributeArrays(tDims);

  // This runs a subfilter
  int64_t totalPoints = m_FeatureIdsPtr.lock()->getNumberOfTuples();

  // Tell the user we are starting the filter
  notifyStatusMessage(getMessagePrefix(), getHumanLabel(), "Starting");

  //Convert user defined tolerance to radians.
  //angleTolerance = m_AngleTolerance * SIMPLib::Constants::k_Pi / 180.0f;
  for(int64_t i = 0; i < totalPoints; i++)
  {
    m_FeatureIds[i] = 0;
  }

  // Generate the random voxel indices that will be used for the seed points to start a new grain growth/agglomeration
  const size_t rangeMin = 0;
  const size_t rangeMax = totalPoints - 1;
  initializeVoxelSeedGenerator(rangeMin, rangeMax);

  SegmentFeatures::execute();

  size_t totalFeatures = m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->getNumTuples();
  if (totalFeatures < 2)
  {
    setErrorCondition(-87000);
    notifyErrorMessage(getHumanLabel(), "The number of Features was 0 or 1 which means no features were detected. Is a threshold value set to high?", getErrorCondition());
    return;
  }

  // By default we randomize grains
  if (true == m_RandomizeFeatureIds)
  {
    randomizeFeatureIds(totalPoints, totalFeatures);
  }

  // If there is an error set this to something negative and also set a message
  notifyStatusMessage(getHumanLabel(), "Completed");
}
Ejemplo n.º 17
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void MakeDataContainer::dataCheck()
{
  DataArrayPath tempPath;
  setErrorCondition(0);
  DataContainer::Pointer m = getDataContainerArray()->createNonPrereqDataContainer<AbstractFilter>(this, getDataContainerName());
  if (getErrorCondition() < 0)
  {
    return;
  }
  QVector<size_t> tDims(3, 64);
  AttributeMatrix::Pointer cellAttrMat = m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getCellAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::Cell);
  if (getErrorCondition() < 0)
  {
    return;
  }
  //  tDims.resize(1);
  //  tDims[0] = 0;
  //  AttributeMatrix::Pointer cellEnsembleAttrMat = m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getCellEnsembleAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::CellEnsemble);
  //  if(getErrorCondition() < 0)
  //  {
  //    return;
  //  }

  QVector<size_t> dims(1, 1);
  m_FeatureIdsPtr = cellAttrMat->createNonPrereqArray<DataArray<int32_t>, AbstractFilter, int32_t>(this,  m_FeatureIdsArrayName, 0, dims); /* 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 */
  }

  //ImageGeom::Pointer image = ImageGeom::CreateGeometry("TestImageGeom");
  //image->setResolution(0.1f, 0.2f, 0.3f);
  //image->setOrigin(100.3f, 987.234f, 0.0f);
  //image->setDimensions(64, 64, 64);
  //m->setGeometry(image);

  VertexGeom::Pointer vertices = VertexGeom::CreateGeometry(100, "TestVertexGeom");
  SharedVertexList::Pointer test = vertices->getVertices();
  float* verts = test->getPointer(0);
  for (int64_t i = 0; i < vertices->getNumberOfVertices(); i++)
  {
    verts[3 * i] = float(0.1 + i);
    verts[3 * i + 1] = float(0.2 + i);
    verts[3 * i + 2] = float(0.3 + i);
  }
  m->setGeometry(vertices);

}
void writePointScalarData(DataContainer::Pointer dc, const QString& vertexAttributeMatrixName, const QString& dataName, const QString& dataType,
                          bool writeBinaryData, FILE* vtkFile, int nT)
{
  IDataArray::Pointer data = dc->getAttributeMatrix(vertexAttributeMatrixName)->getAttributeArray(dataName);
  QString ss;
  if (NULL != data.get())
  {
    T* m = reinterpret_cast<T*>(data->getVoidPointer(0));
    fprintf(vtkFile, "\n");
    fprintf(vtkFile, "SCALARS %s %s\n", dataName.toLatin1().data(), dataType.toLatin1().data());
    fprintf(vtkFile, "LOOKUP_TABLE default\n");
    for(int i = 0; i < nT; ++i)
    {
      T swapped = 0x00;
      if(writeBinaryData == true)
      {
        swapped = static_cast<T>(m[i]);
        SIMPLib::Endian::FromSystemToBig::convert(swapped);
        fwrite(&swapped, sizeof(T), 1, vtkFile);
      }
      else
      {

        ss = QString::number(m[i]) + " ";
        fprintf(vtkFile, "%s ", ss.toLatin1().data());
        //if (i%50 == 0)
        { fprintf(vtkFile, "\n"); }
      }

    }
  }
}
void writeCellScalarData(DataContainer::Pointer dc, const QString& faceAttributeMatrixName, const QString& dataName, const QString& dataType,
                         bool writeBinaryData, FILE* vtkFile, QMap<int32_t, int32_t>& featureIds, int32_t* m_SurfaceMeshFaceLabels)
{
  TriangleGeom::Pointer triangleGeom = dc->getGeometryAs<TriangleGeom>();

  int64_t numTriangles = triangleGeom->getNumberOfTris();
  IDataArray::Pointer data = dc->getAttributeMatrix(faceAttributeMatrixName)->getAttributeArray(dataName);

  QString ss;
  if (NULL != data.get())
  {
    int32_t totalCellsWritten = 0;

    T* m = reinterpret_cast<T*>(data->getVoidPointer(0));
    fprintf(vtkFile, "\n");
    fprintf(vtkFile, "SCALARS %s %s 1\n", dataName.toLatin1().data(), dataType.toLatin1().data());
    fprintf(vtkFile, "LOOKUP_TABLE default\n");
    // Loop over all the features
    for(QMap<int32_t, int32_t>::iterator featureIter = featureIds.begin(); featureIter != featureIds.end(); ++featureIter)
    {
      int32_t gid = featureIter.key(); // The current Feature Id
      size_t size = featureIter.value(); // The number of triangles for this feature id
      std::vector<T> buffer(size, 0);
      totalCellsWritten += size;
      size_t index = 0;

      for (int j = 0; j < numTriangles; j++)
      {
        if (m_SurfaceMeshFaceLabels[j * 2] != gid && m_SurfaceMeshFaceLabels[j * 2 + 1] != gid) { continue; }
        // Get the data
        T s0 = static_cast<T>(m[j]);
        if (m_SurfaceMeshFaceLabels[j * 2 + 1] == gid)
        { s0 = s0 * -1; }


        // Write the values to the buffer after an Endian swap.
        if(writeBinaryData == true)
        {
          SIMPLib::Endian::FromSystemToBig::convert(s0);
          buffer[index] = s0;
          ++index;
        }
        else
        {

          ss = QString::number(s0);
          fprintf(vtkFile, "%s\n", ss.toLatin1().data());
        }
      }

      // Write the Buffer
      if(writeBinaryData == true)
      {
        fwrite(&(buffer.front()), sizeof(T), size, vtkFile);
      }
    }
  }

}
Ejemplo n.º 20
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void VectorSegmentFeatures::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

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

  QVector<size_t> tDims(1, 1);
  m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->resizeAttributeArrays(tDims);
  updateFeatureInstancePointers();

  int64_t totalPoints = static_cast<int64_t>(m_FeatureIdsPtr.lock()->getNumberOfTuples());

  m_BeenPickedPtr = BoolArrayType::CreateArray(totalPoints, "BeenPicked INTERNAL ARRAY ONLY");
  m_BeenPickedPtr->initializeWithValue(0);
  m_BeenPicked = m_BeenPickedPtr->getPointer(0);

  // Convert user defined tolerance to radians.
  angleTolerance = m_AngleTolerance * SIMPLib::Constants::k_Pi / 180.0f;

  // Generate the random voxel indices that will be used for the seed points to start a new grain growth/agglomeration
  const int64_t rangeMin = 0;
  const int64_t rangeMax = totalPoints - 1;
  initializeVoxelSeedGenerator(rangeMin, rangeMax);

  SegmentFeatures::execute();

  int32_t totalFeatures = static_cast<int32_t>(m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->getNumTuples());
  if (totalFeatures < 2)
  {
    setErrorCondition(-87000);
    notifyErrorMessage(getHumanLabel(), "The number of Features was 0 or 1 which means no Features were detected. A threshold value may be set too high", getErrorCondition());
    return;
  }

  // By default we randomize grains
  if (true == m_RandomizeFeatureIds)
  {
    randomizeFeatureIds(totalPoints, totalFeatures);
  }

  // If there is an error set this to something negative and also set a message
  notifyStatusMessage(getHumanLabel(), "Completed");
}
Ejemplo n.º 21
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FindGBCD::dataCheckSurfaceMesh()
{
  setErrorCondition(0);
  initialize();

  DataArrayPath tempPath;

  getDataContainerArray()->getPrereqGeometryFromDataContainer<TriangleGeom, AbstractFilter>(this, getSurfaceMeshFaceLabelsArrayPath().getDataContainerName());

  DataContainer::Pointer sm = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, m_SurfaceMeshFaceLabelsArrayPath.getDataContainerName(), false);
  if(getErrorCondition() < 0 || NULL == sm.get()) { return; }

  QVector<size_t> tDims(1, m_CrystalStructuresPtr.lock()->getNumberOfTuples());
  sm->createNonPrereqAttributeMatrix<AbstractFilter>(this, getFaceEnsembleAttributeMatrixName(), tDims, SIMPL::AttributeMatrixType::FaceEnsemble);

  QVector<size_t> cDims(1, 2);
  m_SurfaceMeshFaceLabelsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter>(this, getSurfaceMeshFaceLabelsArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_SurfaceMeshFaceLabelsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_SurfaceMeshFaceLabels = m_SurfaceMeshFaceLabelsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  cDims[0] = 3;
  m_SurfaceMeshFaceNormalsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<double>, AbstractFilter>(this, getSurfaceMeshFaceNormalsArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_SurfaceMeshFaceNormalsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_SurfaceMeshFaceNormals = m_SurfaceMeshFaceNormalsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  cDims[0] = 1;
  m_SurfaceMeshFaceAreasPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<double>, AbstractFilter>(this, getSurfaceMeshFaceAreasArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_SurfaceMeshFaceAreasPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_SurfaceMeshFaceAreas = m_SurfaceMeshFaceAreasPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */

  // call the sizeGBCD function to get the GBCD ranges, dimensions, etc.  Note that the input parameters do not affect the size and can be dummy values here;
  sizeGBCD(0, 0);
  cDims.resize(6);
  cDims[0] = m_GbcdSizes[0];
  cDims[1] = m_GbcdSizes[1];
  cDims[2] = m_GbcdSizes[2];
  cDims[3] = m_GbcdSizes[3];
  cDims[4] = m_GbcdSizes[4];
  cDims[5] = 2;

  tempPath.update(m_SurfaceMeshFaceLabelsArrayPath.getDataContainerName(), getFaceEnsembleAttributeMatrixName(), getGBCDArrayName() );
  m_GBCDPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<double>, AbstractFilter, double>(this,  tempPath, 0, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_GBCDPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_GBCD = m_GBCDPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
}
Ejemplo n.º 22
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void InitializeSyntheticVolume::dataCheck()
{
  setErrorCondition(0);

  // Create the output Data Container
  DataContainer::Pointer m = getDataContainerArray()->createNonPrereqDataContainer<AbstractFilter>(this, getDataContainerName());
  if(getErrorCondition() < 0) { return; }

  ImageGeom::Pointer image = ImageGeom::CreateGeometry(DREAM3D::Geometry::ImageGeometry);
  m->setGeometry(image);

  // Sanity Check the Dimensions and Resolution
  INIT_SYNTH_VOLUME_CHECK(Dimensions.x, -5000);
  INIT_SYNTH_VOLUME_CHECK(Dimensions.y, -5001);
  INIT_SYNTH_VOLUME_CHECK(Dimensions.z, -5002);
  INIT_SYNTH_VOLUME_CHECK(Resolution.x, -5003);
  INIT_SYNTH_VOLUME_CHECK(Resolution.y, -5004);
  INIT_SYNTH_VOLUME_CHECK(Resolution.z, -5005);

  // Set the Dimensions, Resolution and Origin of the output data container
  m->getGeometryAs<ImageGeom>()->setDimensions(m_Dimensions.x, m_Dimensions.y, m_Dimensions.z);
  m->getGeometryAs<ImageGeom>()->setResolution(m_Resolution.x, m_Resolution.y, m_Resolution.z);
  m->getGeometryAs<ImageGeom>()->setOrigin(m_Origin.x, m_Origin.y, m_Origin.z);

  // Create our output Cell and Ensemble Attribute Matrix objects
  QVector<size_t> tDims(3, 0);
  tDims[0] = m_Dimensions.x;
  tDims[1] = m_Dimensions.y;
  tDims[2] = m_Dimensions.z;
  AttributeMatrix::Pointer cellAttrMat = m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getCellAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::Cell);
  if(getErrorCondition() < 0 && cellAttrMat.get() == NULL) { return; }

  QVector<size_t> cDims(1, 1); // This states that we are looking for an array with a single component
  UInt32ArrayType::Pointer phaseType = getDataContainerArray()->getPrereqArrayFromPath<UInt32ArrayType, AbstractFilter>(this, getInputPhaseTypesArrayPath(), cDims);
  if(getErrorCondition() < 0 && phaseType.get() == NULL) { return; }

  QVector<size_t> statsDims(1, 1);
  StatsDataArray::Pointer statsPtr = getDataContainerArray()->getPrereqArrayFromPath<StatsDataArray, AbstractFilter>(this, getInputStatsArrayPath(), statsDims);
  if(getErrorCondition() < 0 && statsPtr.get() == NULL) { return; }

  if(m_EstimateNumberOfFeatures)
  {
    m_EstimatedPrimaryFeatures = estimateNumFeatures(m_Dimensions, m_Resolution);
  }
}
Ejemplo n.º 23
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FindModulusMismatch::dataCheckSurfaceMesh()
{
  DataArrayPath tempPath;
  setErrorCondition(0);

  DataContainer::Pointer sm = getDataContainerArray()->getPrereqDataContainer<AbstractFilter>(this, getSurfaceMeshFaceLabelsArrayPath().getDataContainerName());
  if(getErrorCondition() < 0 || NULL == sm.get()) { return; }

  QVector<size_t> dims(1, 2);
  m_SurfaceMeshFaceLabelsPtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<int32_t>, AbstractFilter>(this, getSurfaceMeshFaceLabelsArrayPath(), dims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_SurfaceMeshFaceLabelsPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_SurfaceMeshFaceLabels = m_SurfaceMeshFaceLabelsPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
  dims[0] = 1;
  tempPath.update(m_SurfaceMeshFaceLabelsArrayPath.getDataContainerName(), m_SurfaceMeshFaceLabelsArrayPath.getAttributeMatrixName(), getSurfaceMeshDeltaModulusArrayName() );
  m_SurfaceMeshDeltaModulusPtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<float>, AbstractFilter, float>(this,  tempPath, 180.0, dims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if( NULL != m_SurfaceMeshDeltaModulusPtr.lock().get() ) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  { m_SurfaceMeshDeltaModulus = m_SurfaceMeshDeltaModulusPtr.lock()->getPointer(0); } /* Now assign the raw pointer to data from the DataArray<T> object */
}
Ejemplo n.º 24
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void MinNeighbors::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  // If running on a single phase, validate that the user has not entered a phase number
  // that is not in the system ; 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
  if (m_ApplyToSinglePhase == true)
  {
    AttributeMatrix::Pointer featAttrMat = getDataContainerArray()->getDataContainer(getFeaturePhasesArrayPath().getDataContainerName())->getAttributeMatrix(getFeaturePhasesArrayPath().getAttributeMatrixName());
    size_t numFeatures = featAttrMat->getNumTuples();
    bool unavailablePhase = true;
    for (size_t i = 0; i < numFeatures; i++)
    {
      if (m_FeaturePhases[i] == m_PhaseNumber)
      {
        unavailablePhase = false;
        break;
      }
    }

    if (unavailablePhase == true)
    {
      QString ss = QObject::tr("The phase number (%1) is not available in the supplied Feature phases array with path (%2)").arg(m_PhaseNumber).arg(m_FeaturePhasesArrayPath.serialize());
      setErrorCondition(-5555);
      notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
      return;
    }
  }

  QVector<bool> activeObjects = merge_containedfeatures();
  if(getErrorCondition() < 0) { return; }
  assign_badpoints();

  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(m_NumNeighborsArrayPath.getDataContainerName());
  AttributeMatrix::Pointer cellFeatureAttrMat = m->getAttributeMatrix(m_NumNeighborsArrayPath.getAttributeMatrixName());
  cellFeatureAttrMat->removeInactiveObjects(activeObjects, m_FeatureIdsPtr.lock());

  // If there is an error set this to something negative and also set a message
  notifyStatusMessage(getHumanLabel(), "Complete");
}
Ejemplo n.º 25
0
void writeCellNormalData(DataContainer::Pointer dc, const QString& faceAttributeMatrixName, const QString& dataName, const QString& dataType,
                         bool writeBinaryData, bool writeConformalMesh,
                         FILE* vtkFile, int nT)
{
  IDataArray::Pointer data = dc->getAttributeMatrix(faceAttributeMatrixName)->getAttributeArray(dataName);
  QString buf;
  QTextStream ss(&buf);
  if (NULL != data.get())
  {
    T* m = reinterpret_cast<T*>(data->getVoidPointer(0));
    fprintf(vtkFile, "\n");
    fprintf(vtkFile, "NORMALS %s %s\n", dataName.toLatin1().data(), dataType.toLatin1().data());
    for(int i = 0; i < nT; ++i)
    {
      T s0 = 0x00;
      T s1 = 0x00;
      T s2 = 0x00;
      if(writeBinaryData == true)
      {
        s0 = static_cast<T>(m[i * 3 + 0]);
        s1 = static_cast<T>(m[i * 3 + 1]);
        s2 = static_cast<T>(m[i * 3 + 2]);
        SIMPLib::Endian::FromSystemToBig::convert(s0);
        SIMPLib::Endian::FromSystemToBig::convert(s1);
        SIMPLib::Endian::FromSystemToBig::convert(s2);
        fwrite(&s0, sizeof(T), 1, vtkFile);
        fwrite(&s1, sizeof(T), 1, vtkFile);
        fwrite(&s2, sizeof(T), 1, vtkFile);
        if(false == writeConformalMesh)
        {
          s0 = static_cast<T>(m[i * 3 + 0]) * -1.0;
          s1 = static_cast<T>(m[i * 3 + 1]) * -1.0;
          s2 = static_cast<T>(m[i * 3 + 2]) * -1.0;
          SIMPLib::Endian::FromSystemToBig::convert(s0);
          SIMPLib::Endian::FromSystemToBig::convert(s1);
          SIMPLib::Endian::FromSystemToBig::convert(s2);
          fwrite(&s0, sizeof(T), 1, vtkFile);
          fwrite(&s1, sizeof(T), 1, vtkFile);
          fwrite(&s2, sizeof(T), 1, vtkFile);
        }
      }
      else
      {

        ss << m[i * 3 + 0] << " " << m[i * 3 + 1] << " " << m[i * 3 + 2] << " ";
        if(false == writeConformalMesh)
        {
          ss << -1.0 * m[i * 3 + 0] << " " << -1.0 * m[i * 3 + 1] << " " << -1.0 * m[i * 3 + 2] << " ";
        }
        fprintf(vtkFile, "%s ", buf.toLatin1().data());
        buf.clear();
        if (i % 50 == 0) { fprintf(vtkFile, "\n"); }
      }
    }
  }
}
Ejemplo n.º 26
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void InsertAtoms::assign_points(QVector<VertexGeom::Pointer> points, QVector<BoolArrayType::Pointer> inFeature)
{
  size_t count = 0;
  int32_t numFeatures = points.size();
  for (int32_t i = 0; i < numFeatures; i++)
  {
    int64_t numPoints = points[i]->getNumberOfVertices();
    bool* inside = inFeature[i]->getPointer(0);
    for (int64_t j = 0; j < numPoints; j++)
    {
      if (inside[j] == true) { count++; }
    }
  }

  DataContainer::Pointer v = getDataContainerArray()->getDataContainer(getVertexDataContainerName());
  VertexGeom::Pointer vertices = VertexGeom::CreateGeometry(count, DREAM3D::VertexData::SurfaceMeshNodes);

  AttributeMatrix::Pointer vertexAttrMat = v->getAttributeMatrix(getVertexAttributeMatrixName());
  QVector<size_t> tDims(1, count);
  vertexAttrMat->resizeAttributeArrays(tDims);
  updateVertexInstancePointers();

  count = 0;
  float coords[3] = { 0.0f, 0.0f, 0.0f };
  for (int32_t i = 0; i < numFeatures; i++)
  {
    int64_t numPoints = points[i]->getNumberOfVertices();
    bool* inside = inFeature[i]->getPointer(0);
    for (int64_t j = 0; j < numPoints; j++)
    {
      if (inside[j] == true)
      {
        coords[0] = points[i]->getVertexPointer(j)[0];
        coords[1] = points[i]->getVertexPointer(j)[1];
        coords[2] = points[i]->getVertexPointer(j)[2];
        vertices->setCoords(count, coords);
        m_AtomFeatureLabels[count] = i;
        count++;
      }
    }
  }
  v->setGeometry(vertices);
}
Ejemplo n.º 27
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void InitializeSyntheticVolume::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getDataContainerName());
  AttributeMatrix::Pointer cellAttrMat = m->getAttributeMatrix(getCellAttributeMatrixName());

  // Resize the Cell AttributeMatrix to have the correct Tuple Dimensions.
  QVector<size_t> tDims(3, 0);
  tDims[0] = m->getGeometryAs<ImageGeom>()->getXPoints();
  tDims[1] = m->getGeometryAs<ImageGeom>()->getYPoints();
  tDims[2] = m->getGeometryAs<ImageGeom>()->getZPoints();
  cellAttrMat->resizeAttributeArrays(tDims);

  // If there is an error set this to something negative and also set a message
  notifyStatusMessage(getHumanLabel(), "Complete");
}
Ejemplo n.º 28
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
DataContainer::Pointer DataContainer::deepCopy()
{
  DataContainer::Pointer dcCopy = DataContainer::New(getName());
  dcCopy->setName(getName());

  if (m_Geometry.get() != NULL)
  {
    IGeometry::Pointer geomCopy = m_Geometry->deepCopy();
    dcCopy->setGeometry(geomCopy);
  }

  for (AttributeMatrixMap_t::iterator iter = getAttributeMatrices().begin(); iter != getAttributeMatrices().end(); ++iter)
  {
    AttributeMatrix::Pointer attrMat = (*iter)->deepCopy();
    dcCopy->addAttributeMatrix(attrMat->getName(), attrMat);
  }

  return dcCopy;
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void DataContainerBundle::removeDataContainer(DataContainer::Pointer dc)
{
  for(qint32 i = 0; i < m_DataContainers.size(); i++)
  {
    if(m_DataContainers[i].get() == dc.get())
    {
      m_DataContainers.remove(i);
      return;
    }
  }
}
Ejemplo n.º 30
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void EBSDSegmentFeatures::execute()
{
  setErrorCondition(0);
  dataCheck();
  if(getErrorCondition() < 0) { return; }

  DataContainer::Pointer m = getDataContainerArray()->getDataContainer(getDataContainerName());
  int64_t totalPoints = static_cast<int64_t>(m_FeatureIdsPtr.lock()->getNumberOfTuples());

  QVector<size_t> tDims(1, 1);
  m->getAttributeMatrix(getCellFeatureAttributeMatrixName())->resizeAttributeArrays(tDims);
  updateFeatureInstancePointers();

  // Convert user defined tolerance to radians.
  misoTolerance = m_MisorientationTolerance * DREAM3D::Constants::k_Pi / 180.0f;

  // Generate the random voxel indices that will be used for the seed points to start a new grain growth/agglomeration
  const int64_t rangeMin = 0;
  const int64_t rangeMax = totalPoints - 1;
  initializeVoxelSeedGenerator(rangeMin, rangeMax);

  SegmentFeatures::execute();

  int64_t totalFeatures = static_cast<int64_t>(m_ActivePtr.lock()->getNumberOfTuples());
  if (totalFeatures < 2)
  {
    setErrorCondition(-87000);
    notifyErrorMessage(getHumanLabel(), "The number of Features was 0 or 1 which means no Features were detected. A threshold value may be set too high", getErrorCondition());
    return;
  }

  // By default we randomize grains
  if (true == getRandomizeFeatureIds())
  {
    totalPoints = static_cast<int64_t>(m->getGeometryAs<ImageGeom>()->getNumberOfElements());
    randomizeFeatureIds(totalPoints, totalFeatures);
  }

  // If there is an error set this to something negative and also set a message
  notifyStatusMessage(getHumanLabel(), "Complete");
}