Пример #1
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
int EstablishShapeTypes::getPhaseCount()
{
  DataContainerArray::Pointer dca = getDataContainerArray();

  AttributeMatrix::Pointer inputAttrMat = dca->getAttributeMatrix(getInputPhaseTypesArrayPath());

  if (NULL == inputAttrMat.get() ) { return 0; }

  if (__SHOW_DEBUG_MSG__)
  {
    qDebug() << "  data->getNumberOfTuples(): " << inputAttrMat->getTupleDimensions();
    qDebug() << "Name" << inputAttrMat->getName();
  }

  if (inputAttrMat->getType() < DREAM3D::AttributeMatrixType::VertexEnsemble
      || inputAttrMat->getType() > DREAM3D::AttributeMatrixType::CellEnsemble )
  {
    return 0;
  }

  QVector<size_t> tupleDims = inputAttrMat->getTupleDimensions();
  size_t phaseCount = 1;
  for (int32_t i = 0; i < tupleDims.size(); i++)
  {
    phaseCount = phaseCount * tupleDims[i];
  }
  return phaseCount;
}
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;
}
Пример #3
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void MultiEmmpmFilter::dataCheck()
{
  setErrorCondition(0);

  if (DataArrayPath::ValidateVector(getInputDataArrayVector()) == false)
  {
    setErrorCondition(-62000);
    QString ss = QObject::tr("All Attribute Arrays must belong to the same Data Container and Attribute Matrix");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
  }

  QVector<size_t> cDims(1, 1); // We need a single component, gray scale image

#if 0
  m_InputImagePtr = getDataContainerArray()->getPrereqArrayFromPath<DataArray<uint8_t>, AbstractFilter>(this, getInputDataArrayPath(), cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if (NULL != m_InputImagePtr.lock().get()) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  {
    m_InputImage = m_InputImagePtr.lock()->getPointer(0);
  } /* Now assign the raw pointer to data from the DataArray<T> object */
  if (getErrorCondition() < 0) { return; }

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

  m_OutputImagePtr = getDataContainerArray()->createNonPrereqArrayFromPath<DataArray<uint8_t>, AbstractFilter, uint8_t>(this, getOutputDataArrayPath(), 0, cDims); /* Assigns the shared_ptr<> to an instance variable that is a weak_ptr<> */
  if (NULL != m_OutputImagePtr.lock().get()) /* Validate the Weak Pointer wraps a non-NULL pointer to a DataArray<T> object */
  {
    m_OutputImage = m_OutputImagePtr.lock()->getPointer(0);
  } /* Now assign the raw pointer to data from the DataArray<T> object */

#endif

  if (getOutputArrayPrefix().isEmpty())
  {
    setErrorCondition(-62002);
    QString message = QObject::tr("Using a prefix (even a single alphanumeric value) is required so that the output Xdmf files can be written correctly");
    notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
  }

  if (getInputDataArrayVector().isEmpty())
  {
    setErrorCondition(-62003);
    QString message = QObject::tr("At least one Attribute Array must be selected");
    notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
    return;
  }

  DataArrayPath inputAMPath = DataArrayPath::GetAttributeMatrixPath(getInputDataArrayVector());

  AttributeMatrix::Pointer inAM = getDataContainerArray()->getPrereqAttributeMatrixFromPath<AbstractFilter>(this, inputAMPath, -301);
  if(getErrorCondition() < 0 || NULL == inAM.get()) { return; }

  // Now create our output attributeMatrix which will contain all of our segmented images
  QVector<size_t> tDims = inAM->getTupleDimensions();
  AttributeMatrix::Pointer outAM = getDataContainerArray()->getDataContainer(inputAMPath.getDataContainerName())->createNonPrereqAttributeMatrix<AbstractFilter>(this, getOutputAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::Cell);
  if(getErrorCondition() < 0 || NULL == outAM.get()) { return; }

  // Get the list of checked array names from the input data arrays list
  QList<QString> arrayNames = DataArrayPath::GetDataArrayNames(getInputDataArrayVector());

  for (int32_t i = 0; i < arrayNames.size(); i++ )
  {
    QString daName = arrayNames.at(i);
    QString newName = getOutputArrayPrefix() + arrayNames.at(i);
    inputAMPath.setDataArrayName(daName);

    getDataContainerArray()->getPrereqArrayFromPath<DataArray<uint8_t>, AbstractFilter>(this, inputAMPath, cDims);
    if (getErrorCondition() < 0) { return; }

    outAM->createAndAddAttributeArray<UInt8ArrayType, AbstractFilter, uint8_t>(this, newName, 0, cDims);
  }

  // The EM/MPM Library has a hard coded MAX Classes of 16
  if (getNumClasses() > 15)
  {
    setErrorCondition(-62000);
    QString ss = QObject::tr("The maximum number of classes is 15");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
  }
  // It does not make any sense if we want anything less than 2 classes
  if (getNumClasses() < 2)
  {
    setErrorCondition(-62001);
    QString ss = QObject::tr("The minimum number of classes is 2");
    notifyErrorMessage(getHumanLabel(), ss, getErrorCondition());
  }
}
Пример #4
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ReadImage::dataCheck()
{
  setErrorCondition(0);

  //check file name exists
  if(getInputFileName().isEmpty())
  {
    setErrorCondition(-1);
    notifyErrorMessage(getHumanLabel(), "The input file name must be set before executing this filter.", getErrorCondition());
    return;
  }

  //read image metadata
  itk::ImageIOBase::Pointer imageIO = itk::ImageIOFactory::CreateImageIO(getInputFileName().toLocal8Bit().constData(), itk::ImageIOFactory::ReadMode);
  if(NULL == imageIO)
  {
    setErrorCondition(-2);
    QString message = QObject::tr("Unable to read image '%1'").arg(getInputFileName());
    notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
    return;
  }
  imageIO->SetFileName(getInputFileName().toLocal8Bit().data());
  imageIO->ReadImageInformation();

  //get size of image
  const size_t numDimensions = imageIO->GetNumberOfDimensions();
  int xdim = imageIO->GetDimensions(0);
  int ydim = imageIO->GetDimensions(1);
  int zdim = 1;
  if(3 != numDimensions)
  {
    if(2 == numDimensions)
    {
      //allow 2 dimensional images (as 3d image with size 1 in the z direction)
    }
    else
    {
      QString message = QObject::tr("3 dimensional image required (slected image dimensions: %1)").arg(numDimensions);
      setErrorCondition(-3);
      notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
      return;
    }
  }
  else
  {
    zdim = imageIO->GetDimensions(2);
  }

  //determine if container/attribute matrix already exist. if so check size compatibility
  DataArrayPath createdPath;
  DataContainer::Pointer m;
  AttributeMatrix::Pointer cellAttrMat;
  createdPath.update(getDataContainerName(), getCellAttributeMatrixName(), getImageDataArrayName() );

  m = getDataContainerArray()->getDataContainer(getDataContainerName());
  bool createAttributeMatrix = false;

  if(NULL == m.get()) //datacontainer doesn't exist->create
  {
    m = getDataContainerArray()->createNonPrereqDataContainer<AbstractFilter>(this, getDataContainerName());
    ImageGeom::Pointer image = ImageGeom::CreateGeometry(DREAM3D::Geometry::ImageGeometry);
    m->setGeometry(image);
    m->getGeometryAs<ImageGeom>()->setDimensions(xdim, ydim, zdim);
    double zRes = 1;
    double zOrigin = 0;
    if(3 == numDimensions)
    {
      zRes = imageIO->GetSpacing(2);
      zOrigin = imageIO->GetOrigin(2);
    }
    m->getGeometryAs<ImageGeom>()->setResolution(imageIO->GetSpacing(0), imageIO->GetSpacing(0), zRes);
    m->getGeometryAs<ImageGeom>()->setOrigin(imageIO->GetOrigin(0), imageIO->GetOrigin(1), zOrigin);
    createAttributeMatrix = true;
    if(getErrorCondition() < 0) { return; }
  }
  else   //datacontainer exists, check if attribute matrix exists
  {
    bool dcExists = m->doesAttributeMatrixExist(getCellAttributeMatrixName());
    ImageGeom::Pointer image = m->getPrereqGeometry<ImageGeom, AbstractFilter>(this);
    if(getErrorCondition() < 0) { return; }

    size_t iDims[3] = { 0, 0, 0 };
    float iRes[3] = { 0.0f, 0.0f, 0.0f };
    float iOrigin[4] = { 0.0f, 0.0f, 0.0f };
    image->getDimensions(iDims);
    image->getResolution(iRes);
    image->getOrigin(iOrigin);

    if(dcExists &&  NULL != image.get())//attribute matrix exists, check compatibility
    {
      //get matrix
      cellAttrMat = m->getPrereqAttributeMatrix<AbstractFilter>(this, getCellAttributeMatrixName(), false);
      if(getErrorCondition() < 0) { return; }

      //check dimension compatibility
      QVector<size_t> tDims = cellAttrMat->getTupleDimensions();
      if(tDims[0] != xdim || iDims[0] != xdim)
      {
        QString message = QObject::tr("The x size of '%1' (%2) does not match the x size of '%3' (%4)").arg(getInputFileName()).arg(xdim).arg(getDataContainerName() + "/" + getCellAttributeMatrixName()).arg(tDims[0]);
        setErrorCondition(-4);
        notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
        return;
      }
      if(tDims[1] != ydim || iDims[1] != ydim)
      {
        QString message = QObject::tr("The y size of '%1' (%2) does not match the x size of '%3' (%4)").arg(getInputFileName()).arg(ydim).arg(getDataContainerName() + "/" + getCellAttributeMatrixName()).arg(tDims[1]);
        setErrorCondition(-5);
        notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
        return;
      }
      if(3 == numDimensions)
      {
        if(tDims[2] != zdim || iDims[2] != zdim)
        {
          QString message = QObject::tr("The z size of '%1' (%2) does not match the x size of '%3' (%4)").arg(getInputFileName()).arg(zdim).arg(getDataContainerName() + "/" + getCellAttributeMatrixName()).arg(tDims[2]);
          setErrorCondition(-6);
          notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
          return;
        }
      }
      else
      {
        if(tDims[2] != 1 || iDims[2] != 1)
        {
          QString message = QObject::tr("The z size of '%1' (%2) does not match the x size of '%3' (1)").arg(getInputFileName()).arg(zdim).arg(getDataContainerName() + "/" + getCellAttributeMatrixName());
          setErrorCondition(-7);
          notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
          return;
        }
      }
    }
    else //attribute matrix doesn't exist, create
    {
      createAttributeMatrix = true;
    }
  }

  //image/attribute matrix dimensions
  QVector<size_t> tDims(3, 0);
  tDims[0] = xdim;
  tDims[1] = ydim;
  tDims[2] = zdim;

  //create attribute matrix if needed
  if(createAttributeMatrix)
  {
    //create attribute matrix
    cellAttrMat = m->createNonPrereqAttributeMatrix<AbstractFilter>(this, getCellAttributeMatrixName(), tDims, DREAM3D::AttributeMatrixType::Cell);
    if(getErrorCondition() < 0) { return; }
  }

  //check pixel type (scalar, vector, etc) for support
  QVector<size_t> componentDims(1, 0);
  itk::ImageIOBase::IOPixelType pixelType = imageIO->GetPixelType();

  switch(pixelType)
  {

    case itk::ImageIOBase::SCALAR:
      componentDims[0] = 1;
      break;
    case itk::ImageIOBase::RGB:
      componentDims[0] = 3;
      break;
    case itk::ImageIOBase::RGBA:
      componentDims[0] = 4;
      break;
    default:
      setErrorCondition(-80001);
      notifyErrorMessage(getHumanLabel(), "The Pixel Type of the image is not supported with DREAM3D.", getErrorCondition());
  }

  // Check to make sure everything is OK with reading the image
  if(getErrorCondition() < 0)
  {
    std::string pixelTypeName = itk::ImageIOBase::GetPixelTypeAsString(pixelType);
    QString message = QObject::tr("The pixel type of '%1' (%2) is unsupported").arg(getInputFileName()).arg(QString::fromStdString(pixelTypeName));
    notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
    return;
  }

  //Now get how the actual image data is stored.
  IDataArray::Pointer data;
  itk::ImageIOBase::IOComponentType componentType = imageIO->GetComponentType();
  if(itk::ImageIOBase::CHAR == componentType)
  {
    data = Int8ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::UCHAR == componentType)
  {
    data = UInt8ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::SHORT == componentType)
  {
    data = Int16ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::USHORT == componentType)
  {
    data = UInt16ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::INT == componentType)
  {
    data = Int32ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::UINT == componentType)
  {
    data = UInt32ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::LONG == componentType)
  {
    data = Int64ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::ULONG == componentType)
  {
    data = UInt64ArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::FLOAT == componentType)
  {
    data = FloatArrayType::CreateArray(0, "Temp", false);
  }
  else if(itk::ImageIOBase::DOUBLE == componentType)
  {
    data = DoubleArrayType::CreateArray(0, "Temp", false);
  }
  else
  {
    std::string componentTypeName = itk::ImageIOBase::GetComponentTypeAsString(componentType);
    QString message = QObject::tr("The component type type of '%1' (%2) is unsupported").arg(getInputFileName()).arg(QString::fromStdString(componentTypeName));
    setErrorCondition(-9);
    notifyErrorMessage(getHumanLabel(), message, getErrorCondition());
    return;
  }

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

  m_ImageDataPtr = TemplateHelpers::CreateNonPrereqArrayFromArrayType()(this, createdPath, componentDims, data);
  if( NULL != m_ImageDataPtr.lock().get() )
  {
    m_ImageData = m_ImageDataPtr.lock()->getVoidPointer(0);
  }
}