// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void WritePoleFigure::setupFilterParameters()
{
  FilterParameterVector parameters;

  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Image Format");
    parameter->setPropertyName("ImageFormat");

    QVector<QString> choices;
    choices.push_back("tif");
    choices.push_back("bmp");
    choices.push_back("png");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  parameters.push_back(IntFilterParameter::New("Lambert Image Size (Pixels)", "LambertSize", getLambertSize(), FilterParameter::Parameter));
  parameters.push_back(IntFilterParameter::New("Number of Colors", "NumColors", getNumColors(), FilterParameter::Parameter));
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Image Layout");
    parameter->setPropertyName("ImageLayout");

    QVector<QString> choices;
    choices.push_back("Horizontal");
    choices.push_back("Vertical");
    choices.push_back("Square");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  parameters.push_back(StringFilterParameter::New("Image Prefix", "ImagePrefix", getImagePrefix(), FilterParameter::Parameter));
  parameters.push_back(OutputPathFilterParameter::New("Output Path", "OutputPath", getOutputPath(), FilterParameter::Parameter));
  parameters.push_back(IntFilterParameter::New("Image Size (Square Pixels)", "ImageSize", getImageSize(), FilterParameter::Parameter));
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(SIMPL::TypeNames::Float, 3, SIMPL::AttributeMatrixType::Cell, SIMPL::GeometryType::ImageGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Euler Angles", "CellEulerAnglesArrayPath", getCellEulerAnglesArrayPath(), FilterParameter::RequiredArray, req));
  }
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(SIMPL::TypeNames::Int32, 1, SIMPL::AttributeMatrixType::Cell, SIMPL::GeometryType::ImageGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Phases", "CellPhasesArrayPath", getCellPhasesArrayPath(), FilterParameter::RequiredArray, req));
  }
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(SIMPL::TypeNames::Bool, 1, SIMPL::AttributeMatrixType::Cell, SIMPL::GeometryType::ImageGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Mask", "GoodVoxelsArrayPath", getGoodVoxelsArrayPath(), FilterParameter::RequiredArray, req));
  }
  parameters.push_back(SeparatorFilterParameter::New("Cell Ensemble Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(SIMPL::TypeNames::UInt32, 1, SIMPL::AttributeMatrixType::CellEnsemble, SIMPL::GeometryType::ImageGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Crystal Structures", "CrystalStructuresArrayPath", getCrystalStructuresArrayPath(), FilterParameter::RequiredArray, req));
  }
  setFilterParameters(parameters);
}
Exemple #2
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FindFaceAverage::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> parameters;
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Face Array Name");
    option->setPropertyName("SelectedFaceArrayName");
    option->setWidgetType(FilterParameter::SurfaceMeshFaceArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    parameters.push_back(option);
  }
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Average Type");
    parameter->setPropertyName("AverageMethod");
    parameter->setWidgetType(FilterParameter::ChoiceWidget);
    parameter->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("Number Average");
    choices.push_back("Area Weighted Average");
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FitFeatureData::setupFilterParameters()
{
  FilterParameterVector parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Distribution Type");
    parameter->setPropertyName("DistributionType");

    QVector<QString> choices;
    choices.push_back("Beta");
    choices.push_back("Log-Normal");
    choices.push_back("Power Law");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  QStringList linkedProps("BiasedFeaturesArrayPath");
  parameters.push_back(LinkedBooleanFilterParameter::New("Remove Biased Features", "RemoveBiasedFeatures", getRemoveBiasedFeatures(), linkedProps, FilterParameter::Parameter));
  parameters.push_back(SeparatorFilterParameter::New("Feature Data", FilterParameter::RequiredArray));
  parameters.push_back(DataArraySelectionFilterParameter::New("Feature Array to Fit", "SelectedFeatureArrayPath", getSelectedFeatureArrayPath(), FilterParameter::RequiredArray));
  parameters.push_back(DataArraySelectionFilterParameter::New("Phases", "FeaturePhasesArrayPath", getFeaturePhasesArrayPath(), FilterParameter::RequiredArray));
  parameters.push_back(DataArraySelectionFilterParameter::New("Biased Features", "BiasedFeaturesArrayPath", getBiasedFeaturesArrayPath(), FilterParameter::RequiredArray));
  parameters.push_back(SeparatorFilterParameter::New("Ensemble Data", FilterParameter::CreatedArray));
  parameters.push_back(DataArrayCreationFilterParameter::New("Fit Parameters", "NewEnsembleArrayArray", getNewEnsembleArrayArray(), FilterParameter::CreatedArray));
  setFilterParameters(parameters);
}
Exemple #4
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void OpenCloseBadData::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> parameters;
  {
    ChoiceFilterParameter::Pointer option = ChoiceFilterParameter::New();
    option->setHumanLabel("Direction of Operation");
    option->setPropertyName("Direction");
    option->setWidgetType(FilterParameter::ChoiceWidget);
    option->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("Dilate");
    choices.push_back("Erode");
    option->setChoices(choices);
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Number of Iterations");
    option->setPropertyName("NumIterations");
    option->setWidgetType(FilterParameter::IntWidget);
    option->setValueType("int");
    parameters.push_back(option);
  }
  setFilterParameters(parameters);
}
Exemple #5
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FlattenImage::setupFilterParameters()
{
  FilterParameterVector parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Flattening Method");
    parameter->setPropertyName("FlattenMethod");

    QVector<QString> choices;
    choices.push_back("Average");
    choices.push_back("Luminosity");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(DREAM3D::TypeNames::UInt8, DREAM3D::Defaults::AnyComponentSize, DREAM3D::AttributeMatrixType::Cell, DREAM3D::GeometryType::ImageGeometry);
    QVector< QVector<size_t> > cDims;
    cDims.push_back(QVector<size_t>(1, 3));
    cDims.push_back(QVector<size_t>(1, 4));
    req.componentDimensions = cDims;
    parameters.push_back(DataArraySelectionFilterParameter::New("Image Data", "ImageDataArrayPath", getImageDataArrayPath(), FilterParameter::RequiredArray, req));
  }
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::CreatedArray));
  parameters.push_back(StringFilterParameter::New("Flat Image Data", "FlatImageDataArrayName", getFlatImageDataArrayName(), FilterParameter::CreatedArray));
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void MultiThresholdCells::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Output Array Name");
    parameter->setPropertyName("OutputArrayName");
    parameter->setWidgetType(FilterParameter::ChoiceWidget);
    parameter->setValueType("string");
    parameter->setEditable(true);
    std::vector<std::string> choices;
    choices.push_back(DREAM3D::CellData::GoodVoxels);
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }

  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Select Arrays to Threshold");
    parameter->setPropertyName("ComparisonInputs");
    parameter->setWidgetType(FilterParameter::CellArrayComparisonSelectionWidget);
    parameter->setValueType("std::vector<ComparisonInput_t>");
    parameters.push_back(parameter);
  }

  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ImageMath::setupFilterParameters()
{
  FilterParameterVector parameters;
  parameters.push_back(FilterParameter::New("Array to Operate On", "SelectedCellArrayPath", FilterParameterWidgetType::DataArraySelectionWidget, getSelectedCellArrayPath(), false, ""));
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Operator");
    parameter->setPropertyName("Operator");
    parameter->setWidgetType(FilterParameterWidgetType::ChoiceWidget);
    QVector<QString> choices;
    choices.push_back("Add");
    choices.push_back("Subtract");
    choices.push_back("Multiply");
    choices.push_back("Divide");
    choices.push_back("Min");
    choices.push_back("Max");
    choices.push_back("Gamma");
    choices.push_back("Log");
    choices.push_back("Exp");
    choices.push_back("Square");
    choices.push_back("Square Root");
    choices.push_back("Invert");
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }
  parameters.push_back(FilterParameter::New("Value", "Value", FilterParameterWidgetType::DoubleWidget, getValue(), false, ""));
  QStringList linkedProps;
  linkedProps << "NewCellArrayName";
  parameters.push_back(LinkedBooleanFilterParameter::New("Save As New Array", "SaveAsNewArray", getSaveAsNewArray(), linkedProps, false));
  parameters.push_back(FilterParameter::New("Created Array Name", "NewCellArrayName", FilterParameterWidgetType::StringWidget, getNewCellArrayName(), false, ""));
  setFilterParameters(parameters);
}
Exemple #8
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void InsertAtoms::setupFilterParameters()
{
  FilterParameterVector parameters;
  parameters.push_back(FloatVec3FilterParameter::New("Lattice Constants (Angstroms)", "LatticeConstants", getLatticeConstants(), FilterParameter::Parameter));
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Crystal Basis");
    parameter->setPropertyName("Basis");

    QVector<QString> choices;
    choices.push_back("Simple Cubic");
    choices.push_back("Body Centered Cubic");
    choices.push_back("Face Centered Cubic");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  parameters.push_back(SeparatorFilterParameter::New("Face Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(DREAM3D::TypeNames::Int32, 2, DREAM3D::AttributeMatrixType::Face, DREAM3D::GeometryType::TriangleGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Face Labels", "SurfaceMeshFaceLabelsArrayPath", getSurfaceMeshFaceLabelsArrayPath(), FilterParameter::RequiredArray, req));
  }
  parameters.push_back(SeparatorFilterParameter::New("Cell Feature Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(DREAM3D::TypeNames::Float, 4, DREAM3D::AttributeMatrixType::CellFeature, DREAM3D::GeometryType::ImageGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Average Quaternions", "AvgQuatsArrayPath", getAvgQuatsArrayPath(), FilterParameter::RequiredArray, req));
  }
  parameters.push_back(StringFilterParameter::New("Data Container", "VertexDataContainerName", getVertexDataContainerName(), FilterParameter::CreatedArray));
  parameters.push_back(SeparatorFilterParameter::New("Vertex Data", FilterParameter::CreatedArray));
  parameters.push_back(StringFilterParameter::New("Vertex Attribute Matrix", "VertexAttributeMatrixName", getVertexAttributeMatrixName(), FilterParameter::CreatedArray));
  parameters.push_back(StringFilterParameter::New("Atom Feature Labels", "AtomFeatureLabelsArrayName", getAtomFeatureLabelsArrayName(), FilterParameter::CreatedArray));
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ErodeDilateBadData::setupFilterParameters()
{
  FilterParameterVector parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Operation");
    parameter->setPropertyName("Direction");

    QVector<QString> choices;
    choices.push_back("Dilate");
    choices.push_back("Erode");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  parameters.push_back(IntFilterParameter::New("Number of Iterations", "NumIterations", getNumIterations(), FilterParameter::Parameter));
  parameters.push_back(BooleanFilterParameter::New("X Direction", "XDirOn", getXDirOn(), FilterParameter::Parameter));
  parameters.push_back(BooleanFilterParameter::New("Y Direction", "YDirOn", getYDirOn(), FilterParameter::Parameter));
  parameters.push_back(BooleanFilterParameter::New("Z Direction", "ZDirOn", getZDirOn(), FilterParameter::Parameter));
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateRequirement(DREAM3D::TypeNames::Int32, 1, DREAM3D::AttributeMatrixType::Cell, DREAM3D::GeometryType::ImageGeometry);
    parameters.push_back(DataArraySelectionFilterParameter::New("Feature Ids", "FeatureIdsArrayPath", getFeatureIdsArrayPath(), FilterParameter::RequiredArray, req));
  }
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ConvertData::setupFilterParameters()
{
  FilterParameterVector parameters;

  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Scalar Type");
    parameter->setPropertyName("ScalarType");

    QVector<QString> choices;
    choices.push_back("signed   int 8  bit");
    choices.push_back("unsigned int 8  bit");
    choices.push_back("signed   int 16 bit");
    choices.push_back("unsigned int 16 bit");
    choices.push_back("signed   int 32 bit");
    choices.push_back("unsigned int 32 bit");
    choices.push_back("signed   int 64 bit");
    choices.push_back("unsigned int 64 bit");
    choices.push_back("       Float 32 bit");
    choices.push_back("      Double 64 bit");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }

  parameters.push_back(DataArraySelectionFilterParameter::New("Attribute Array to Convert", "SelectedCellArrayPath", getSelectedCellArrayPath(), FilterParameter::RequiredArray));

  parameters.push_back(StringFilterParameter::New("Converted Attribute Array", "OutputArrayName", getOutputArrayName(), FilterParameter::CreatedArray));

  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ImageCalculator::setupFilterParameters()
{
  FilterParameterVector parameters;
  parameters.push_back(FilterParameter::New("First Array to Process", "SelectedCellArrayPath1", FilterParameterWidgetType::DataArraySelectionWidget, getSelectedCellArrayPath1(), false, ""));
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Operator");
    parameter->setPropertyName("Operator");
    parameter->setWidgetType(FilterParameterWidgetType::ChoiceWidget);
    QVector<QString> choices;
    choices.push_back("Add");
    choices.push_back("Subtract");
    choices.push_back("Multiply");
    choices.push_back("Divide");
    choices.push_back("AND");
    choices.push_back("OR");
    choices.push_back("XOR");
    choices.push_back("Min");
    choices.push_back("Max");
    choices.push_back("Mean");
    choices.push_back("Difference");
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }
  parameters.push_back(FilterParameter::New("Second Array to Process", "SelectedCellArrayPath2", FilterParameterWidgetType::DataArraySelectionWidget, getSelectedCellArrayPath2(), false, ""));
  parameters.push_back(FilterParameter::New("Created Array Name", "NewCellArrayName", FilterParameterWidgetType::StringWidget, getNewCellArrayName(), false, ""));
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void WriteImages::setupFilterParameters()
{
  FilterParameterVector parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Image Format");
    parameter->setPropertyName("ImageFormat");

    QVector<QString> choices;
    choices.push_back("tif");
    choices.push_back("bmp");
    choices.push_back("png");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Plane");
    parameter->setPropertyName("Plane");

    QVector<QString> choices;
    choices.push_back("XY");
    choices.push_back("XZ");
    choices.push_back("YZ");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  {
    QStringList linkedProps;
    linkedProps << "ImagePrefix";
    parameters.push_back(LinkedBooleanFilterParameter::New("File Prefix", "FilePrefix", getFilePrefix(), linkedProps, FilterParameter::Parameter));
  }
  parameters.push_back(OutputPathFilterParameter::New("Output Directory Path", "OutputPath", getOutputPath(), FilterParameter::Parameter));
  parameters.push_back(StringFilterParameter::New("Image File Prefix", "ImagePrefix", getImagePrefix(), FilterParameter::Parameter));
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::RequiredArray));
  parameters.push_back(DataArraySelectionFilterParameter::New("Color Data", "ColorsArrayPath", getColorsArrayPath(), FilterParameter::RequiredArray));
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ConvertOrientations::setupFilterParameters()
{
  FilterParameterVector parameters;

  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Input Orientation Type");
    parameter->setPropertyName("InputType");

    QVector<QString> inputChoices = OrientationConverter<float>::GetOrientationTypeStrings();
    parameter->setChoices(inputChoices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }

  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Output Orientation Type");
    parameter->setPropertyName("OutputType");

    QVector<QString> inputChoices = OrientationConverter<float>::GetOrientationTypeStrings();
    parameter->setChoices(inputChoices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }

  {
    DataArraySelectionFilterParameter::RequirementType req;
    req.daTypes = QVector<QString>(2, DREAM3D::TypeNames::Double);
    req.daTypes[1] = DREAM3D::TypeNames::Float;
    parameters.push_back(DataArraySelectionFilterParameter::New("Input Orientations", "InputOrientationArrayPath", getInputOrientationArrayPath(), FilterParameter::RequiredArray, req, 0));
  }

  parameters.push_back(StringFilterParameter::New("Output Orientations", "OutputOrientationArrayName", getOutputOrientationArrayName(), FilterParameter::CreatedArray, 0));

  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ConvertData::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> parameters;
  /* Place all your option initialization code here */

  /* To Display a Combobox with a list of current Voxel Cell Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Voxel Cell Array Name");
    option->setPropertyName("SelectedCellArrayName");
    option->setWidgetType(FilterParameter::VoxelCellArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    parameters.push_back(option);
  }
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Scalar Type");
    parameter->setPropertyName("ScalarType");
    parameter->setWidgetType(FilterParameter::ChoiceWidget);
    parameter->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("signed   int 8  bit");
    choices.push_back("unsigned int 8  bit");
    choices.push_back("signed   int 16 bit");
    choices.push_back("unsigned int 16 bit");
    choices.push_back("signed   int 32 bit");
    choices.push_back("unsigned int 32 bit");
    choices.push_back("signed   int 64 bit");
    choices.push_back("unsigned int 64 bit");
    choices.push_back("       Float 32 bit");
    choices.push_back("      Double 64 bit");
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Output Array Name");
    option->setPropertyName("OutputArrayName");
    option->setWidgetType(FilterParameter::StringWidget);
    option->setValueType("string");
    parameters.push_back(option);
  }
  setFilterParameters(parameters);
}
Exemple #15
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FlattenImage::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> parameters;
  {
    ChoiceFilterParameter::Pointer option = ChoiceFilterParameter::New();
    option->setHumanLabel("Flattening Method");
    option->setPropertyName("FlattenMethod");
    option->setWidgetType(FilterParameter::ChoiceWidget);
    option->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("Lightness");
    choices.push_back("Average");
    choices.push_back("Luminosity");
    option->setChoices(choices);
    parameters.push_back(option);
  }
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
ChoiceFilterParameter::Pointer ChoiceFilterParameter::New(const QString& humanLabel, const QString& propertyName, const int& defaultValue,
                                                          QVector<QString> choices,
                                                          bool editable,
                                                          Category category, int groupIndex)

{
  ChoiceFilterParameter::Pointer ptr = ChoiceFilterParameter::New();
  ptr->setHumanLabel(humanLabel);
  ptr->setPropertyName(propertyName);
  ptr->setDefaultValue(defaultValue);
  ptr->setCategory(category);
  ptr->setChoices(choices);
  ptr->setEditable(editable);
  ptr->setGroupIndex(groupIndex);


  return ptr;
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FlattenImage::setupFilterParameters()
{
  FilterParameterVector parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Flattening Method");
    parameter->setPropertyName("FlattenMethod");

    QVector<QString> choices;
    choices.push_back("Average");
    choices.push_back("Luminosity");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::RequiredArray));
  parameters.push_back(DataArraySelectionFilterParameter::New("Image Data", "ImageDataArrayPath", getImageDataArrayPath(), FilterParameter::RequiredArray));
  parameters.push_back(SeparatorFilterParameter::New("Cell Data", FilterParameter::CreatedArray));
  parameters.push_back(StringFilterParameter::New("Flat Image Data", "FlatImageDataArrayName", getFlatImageDataArrayName(), FilterParameter::CreatedArray));
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ChangeAngleRepresentation::setupFilterParameters()
{
  FilterParameterVector parameters;

  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Conversion Type");
    parameter->setPropertyName("ConversionType");

    QVector<QString> choices;
    choices.push_back("Degrees to Radians");
    choices.push_back("Radians to Degrees");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }

  parameters.push_back(DataArraySelectionFilterParameter::New("Angles", "CellEulerAnglesArrayPath", getCellEulerAnglesArrayPath(), FilterParameter::RequiredArray));

  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FitFeatureData::setupFilterParameters()
{
  FilterParameterVector parameters;
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Distribution Type");
    parameter->setPropertyName("DistributionType");

    QVector<QString> choices;
    choices.push_back("Beta");
    choices.push_back("Log-Normal");
    choices.push_back("Power Law");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  QStringList linkedProps("BiasedFeaturesArrayPath");
  parameters.push_back(LinkedBooleanFilterParameter::New("Remove Biased Features", "RemoveBiasedFeatures", getRemoveBiasedFeatures(), linkedProps, FilterParameter::Parameter));
  parameters.push_back(SeparatorFilterParameter::New("Feature Data", FilterParameter::RequiredArray));
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateCategoryRequirement(SIMPL::Defaults::AnyPrimitive, 1, SIMPL::AttributeMatrixObjectType::Feature);
    parameters.push_back(DataArraySelectionFilterParameter::New("Feature Array to Fit", "SelectedFeatureArrayPath", getSelectedFeatureArrayPath(), FilterParameter::RequiredArray, req));
  }
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateCategoryRequirement(SIMPL::TypeNames::Int32, 1, SIMPL::AttributeMatrixObjectType::Feature);
    parameters.push_back(DataArraySelectionFilterParameter::New("Phases", "FeaturePhasesArrayPath", getFeaturePhasesArrayPath(), FilterParameter::RequiredArray, req));
  }
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateCategoryRequirement(SIMPL::TypeNames::Bool, 1, SIMPL::AttributeMatrixObjectType::Feature);
    parameters.push_back(DataArraySelectionFilterParameter::New("Biased Features", "BiasedFeaturesArrayPath", getBiasedFeaturesArrayPath(), FilterParameter::RequiredArray, req));
  }
  parameters.push_back(SeparatorFilterParameter::New("Ensemble Data", FilterParameter::CreatedArray));
  {
    DataArrayCreationFilterParameter::RequirementType req = DataArrayCreationFilterParameter::CreateRequirement(SIMPL::AttributeMatrixObjectType::Ensemble);
    parameters.push_back(DataArrayCreationFilterParameter::New("Fit Parameters", "NewEnsembleArrayArray", getNewEnsembleArrayArray(), FilterParameter::CreatedArray, req));
  }
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ChangeAngleRepresentation::setupFilterParameters()
{
  FilterParameterVector parameters;

  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Conversion Type");
    parameter->setPropertyName("ConversionType");

    QVector<QString> choices;
    choices.push_back("Degrees to Radians");
    choices.push_back("Radians to Degrees");
    parameter->setChoices(choices);
    parameter->setCategory(FilterParameter::Parameter);
    parameters.push_back(parameter);
  }
  {
    DataArraySelectionFilterParameter::RequirementType req = DataArraySelectionFilterParameter::CreateCategoryRequirement(DREAM3D::TypeNames::Float, DREAM3D::Defaults::AnyComponentSize, DREAM3D::AttributeMatrixObjectType::Element);
    parameters.push_back(DataArraySelectionFilterParameter::New("Angles", "CellEulerAnglesArrayPath", getCellEulerAnglesArrayPath(), FilterParameter::RequiredArray, req));
  }

  setFilterParameters(parameters);
}
Exemple #21
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void Threshold::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> options;
  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Array to Process");
    parameter->setPropertyName("SelectedCellArrayName");
    parameter->setWidgetType(FilterParameter::VoxelCellArrayNameSelectionWidget);
    parameter->setValueType("string");
    parameter->setUnits("");
    options.push_back(parameter);
  }
  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Overwrite Array");
    parameter->setPropertyName("OverwriteArray");
    parameter->setWidgetType(FilterParameter::BooleanWidget);
    parameter->setValueType("bool");
    options.push_back(parameter);
  }
  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Created Array Name");
    parameter->setPropertyName("NewCellArrayName");
    parameter->setWidgetType(FilterParameter::StringWidget);
    parameter->setValueType("string");
    options.push_back(parameter);
  }
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Threshold Method");
    parameter->setPropertyName("Method");
    parameter->setWidgetType(FilterParameter::ChoiceWidget);
    parameter->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("Huang");
    choices.push_back("Intermodes");
    choices.push_back("IsoData");
    choices.push_back("Kittler Illingworth");
    choices.push_back("Li");
    choices.push_back("Maximum Entropy");
    choices.push_back("Moments");
    choices.push_back("Otsu");
    choices.push_back("Renyi Entropy");
    choices.push_back("Shanbhag");
    choices.push_back("Triangle");
    choices.push_back("Yen");
    choices.push_back("Manual Selection");
    //choices.push_back("Robust Automatic");
    parameter->setChoices(choices);
    options.push_back(parameter);
  }
  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Manual Parameter");
    parameter->setPropertyName("ManualParameter");
    parameter->setWidgetType(FilterParameter::IntWidget);
    parameter->setValueType("int");
    options.push_back(parameter);
  }
  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Slice at a Time");
    parameter->setPropertyName("Slice");
    parameter->setWidgetType(FilterParameter::BooleanWidget);
    parameter->setValueType("bool");
    options.push_back(parameter);
  }
  setFilterParameters(options);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void RawBinaryReader::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> parameters;
  /* Place all your option initialization code here */

  {
    FilterParameter::Pointer parameter = FilterParameter::New();
    parameter->setHumanLabel("Input File");
    parameter->setPropertyName("InputFile");
    parameter->setWidgetType(FilterParameter::InputFileWidget);
    parameter->setValueType("string");
    parameter->setFileExtension("*.raw *.bin");
    parameters.push_back(parameter);
  }
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Scalar Type");
    parameter->setPropertyName("ScalarType");
    parameter->setWidgetType(FilterParameter::ChoiceWidget);
    parameter->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("signed   int 8  bit");
    choices.push_back("unsigned int 8  bit");
    choices.push_back("signed   int 16 bit");
    choices.push_back("unsigned int 16 bit");
    choices.push_back("signed   int 32 bit");
    choices.push_back("unsigned int 32 bit");
    choices.push_back("signed   int 64 bit");
    choices.push_back("unsigned int 64 bit");
    choices.push_back("       Float 32 bit");
    choices.push_back("      Double 64 bit");
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Dimensionality");
    option->setPropertyName("Dimensionality");
    option->setWidgetType(FilterParameter::IntWidget);
    option->setValueType("int");
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Number Of Components");
    option->setPropertyName("NumberOfComponents");
    option->setWidgetType(FilterParameter::IntWidget);
    option->setValueType("int");
    parameters.push_back(option);
  }
  {
    ChoiceFilterParameter::Pointer parameter = ChoiceFilterParameter::New();
    parameter->setHumanLabel("Endian");
    parameter->setPropertyName("Endian");
    parameter->setWidgetType(FilterParameter::ChoiceWidget);
    parameter->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("Little");
    choices.push_back("Big");
    parameter->setChoices(choices);
    parameters.push_back(parameter);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Dimensions");
    option->setPropertyName("Dimensions");
    option->setWidgetType(FilterParameter::IntVec3Widget);
    option->setValueType("IntVec3Widget_t");
    option->setUnits("XYZ");
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Origin");
    option->setPropertyName("Origin");
    option->setWidgetType(FilterParameter::FloatVec3Widget);
    option->setValueType("FloatVec3Widget_t");
    option->setUnits("XYZ");
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Resolution");
    option->setPropertyName("Resolution");
    option->setWidgetType(FilterParameter::FloatVec3Widget);
    option->setValueType("FloatVec3Widget_t");
    option->setUnits("XYZ");
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Over Ride Origin & Resolution");
    option->setPropertyName("OverRideOriginResolution");
    option->setWidgetType(FilterParameter::BooleanWidget);
    option->setValueType("bool");
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Skip Header Bytes");
    option->setPropertyName("SkipHeaderBytes");
    option->setWidgetType(FilterParameter::IntWidget);
    option->setValueType("int");
    parameters.push_back(option);
  }
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Output Array Name");
    option->setPropertyName("OutputArrayName");
    option->setWidgetType(FilterParameter::StringWidget);
    option->setValueType("string");
    parameters.push_back(option);
  }
  setFilterParameters(parameters);
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void TestFilter::setupFilterParameters()
{
  std::vector<FilterParameter::Pointer> options;
  /* Place all your option initialization code here */
  /* For String input use this code */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("STL Output Prefix");
    option->setPropertyName("StlFilePrefix");
    option->setWidgetType(FilterParameter::StringWidget);
    option->setValueType("string");
    options.push_back(option);
  }
  /*  For an Integer use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Max Iterations");
    option->setPropertyName("MaxIterations");
    option->setWidgetType(FilterParameter::IntWidget);
    option->setValueType("int");
    options.push_back(option);
  }
  /*  For a Floating point value use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Misorientation Tolerance");
    option->setPropertyName("MisorientationTolerance");
    option->setWidgetType(FilterParameter::DoubleWidget);
    option->setValueType("float");
    option->setCastableValueType("double");
    options.push_back(option);
  }
  /*   For an input file use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Input File");
    option->setPropertyName("InputFile");
    option->setWidgetType(FilterParameter::InputFileWidget);
    option->setValueType("string");
    options.push_back(option);
  }
  /*   For an input path use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Input Path");
    option->setPropertyName("InputPath");
    option->setWidgetType(FilterParameter::InputPathWidget);
    option->setValueType("string");
    options.push_back(option);
  }

  /*   For an output file use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Output File");
    option->setPropertyName("OutputFile");
    option->setWidgetType(FilterParameter::OutputFileWidget);
    option->setValueType("string");
    options.push_back(option);
  }
  /*   For an output path use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Output Path");
    option->setPropertyName("OutputPath");
    option->setWidgetType(FilterParameter::OutputPathWidget);
    option->setValueType("string");
    options.push_back(option);
  }
  /*   For a simple true/false boolean use this code*/
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Write Alignment Shift File");
    option->setPropertyName("WriteAlignmentShifts");
    option->setWidgetType(FilterParameter::BooleanWidget);
    option->setValueType("bool");
    options.push_back(option);
  }
  /*   For presenting a set of choices to the user use this code*/
  {
    ChoiceFilterParameter::Pointer option = ChoiceFilterParameter::New();
    option->setHumanLabel("Conversion Type");
    option->setPropertyName("ConversionType");
    option->setWidgetType(FilterParameter::ChoiceWidget);
    option->setValueType("unsigned int");
    std::vector<std::string> choices;
    choices.push_back("Degrees To Radians");
    choices.push_back("Radians To Degrees");
    option->setChoices(choices);
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current Voxel Cell Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Voxel Cell Array Name");
    option->setPropertyName("SelectedCellArrayName");
    option->setWidgetType(FilterParameter::VoxelCellArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current Voxel Field Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Voxel Field Array Name");
    option->setPropertyName("SelectedFieldArrayName");
    option->setWidgetType(FilterParameter::VoxelFieldArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current Voxel Ensemble Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Voxel Ensemble Array Name");
    option->setPropertyName("SelectedEnsembleArrayName");
    option->setWidgetType(FilterParameter::VoxelEnsembleArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }

  /* To Display a Combobox with a list of current SurfaceMesh Point Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("SurfaceMesh Point Array Name");
    option->setPropertyName("SurfaceMeshPointArrayName");
    option->setWidgetType(FilterParameter::SurfaceMeshVertexArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current SurfaceMesh Face Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("SurfaceMesh Face Array Name");
    option->setPropertyName("SurfaceMeshFaceArrayName");
    option->setWidgetType(FilterParameter::SurfaceMeshFaceArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current SurfaceMesh Edge Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("SurfaceMesh Edge Array Name");
    option->setPropertyName("SurfaceMeshEdgeArrayName");
    option->setWidgetType(FilterParameter::SurfaceMeshEdgeArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }


  /* To Display a Combobox with a list of current SolidMesh Point Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("SolidMesh Point Array Name");
    option->setPropertyName("SolidMeshPointArrayName");
    option->setWidgetType(FilterParameter::SolidMeshVertexArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current SolidMesh Face Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("SolidMesh Face Array Name");
    option->setPropertyName("SolidMeshFaceArrayName");
    option->setWidgetType(FilterParameter::SolidMeshFaceArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }
  /* To Display a Combobox with a list of current SolidMesh Edge Arrays in it */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("SolidMesh Edge Array Name");
    option->setPropertyName("SolidMeshEdgeArrayName");
    option->setWidgetType(FilterParameter::SolidMeshEdgeArrayNameSelectionWidget);
    option->setValueType("string");
    option->setUnits("");
    options.push_back(option);
  }


  /* Display a group of 3 text boxes to collect 3 integer values */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Dimensions");
    option->setPropertyName("Dimensions");
    option->setWidgetType(FilterParameter::IntVec3Widget);
    option->setValueType("IntVec3Widget_t");
    option->setUnits("XYZ");
    options.push_back(option);
  }
  /* Display a group of 3 text boxes to collect 3 float values */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Origin");
    option->setPropertyName("Origin");
    option->setWidgetType(FilterParameter::FloatVec3Widget);
    option->setValueType("FloatVec3Widget_t");
    option->setUnits("XYZ");
    options.push_back(option);
  }
  /* To Compare Arrays like a threshold filter */
  {
    FilterParameter::Pointer option = FilterParameter::New();
    option->setHumanLabel("Voxel Cell Arrays to Threshold");
    option->setPropertyName("CellComparisonInputs");
    option->setWidgetType(FilterParameter::CellArrayComparisonSelectionWidget);
    option->setValueType("std::vector<ComparisonInput_t>");
    options.push_back(option);
  }

  /* Display the AxisAngleWidget to collect Axis-Angle pairs from the user */
  {
	  FilterParameter::Pointer option = FilterParameter::New();
	  option->setHumanLabel("Crystal Rotations");
	  option->setPropertyName("AxisAngleRotations");
	  option->setWidgetType(FilterParameter::AxisAngleWidget);
	  options.push_back(option);
  }

  setFilterParameters(options);
}