// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void ExecutePipeline(const QString& pipelineFile)
{
  int err = EXIT_SUCCESS;

  // Sanity Check the filepath to make sure it exists, Report an error and bail if it does not
  QFileInfo fi(pipelineFile);
  std::cout << "<--------------Test Pipeline File: " << fi.absoluteFilePath().toStdString() << " --------------------------->" << std::endl;
  if(fi.exists() == false)
  {
    std::cout << "The input file '" << pipelineFile.toStdString() << "' does not exist" << std::endl;
    err = EXIT_FAILURE;
  }
  DREAM3D_REQUIRE_EQUAL(err, EXIT_SUCCESS)

  QString ext = fi.completeSuffix();

  // Use the static method to read the Pipeline file and return a Filter Pipeline
  FilterPipeline::Pointer pipeline;
  if (ext == "ini" || ext == "txt")
  {
    pipeline = QFilterParametersReader::ReadPipelineFromFile(pipelineFile, QSettings::IniFormat);
  }
  else if (ext == "dream3d")
  {
    pipeline = H5FilterParametersReader::ReadPipelineFromFile(pipelineFile);
  }
  else if (ext == "json")
  {
    pipeline = JsonFilterParametersReader::ReadPipelineFromFile(pipelineFile);
  }

  if (NULL == pipeline.get())
  {
    std::cout << "An error occurred trying to read the pipeline file. Exiting now." << std::endl;
    err = EXIT_FAILURE;
  }
  DREAM3D_REQUIRE_EQUAL(err, EXIT_SUCCESS)


  Observer obs; // Create an Observer to report errors/progress from the executing pipeline
  pipeline->addMessageReceiver(&obs);
  // Preflight the pipeline
  err = pipeline->preflightPipeline();
  if (err < 0)
  {
    std::cout << "Errors preflighting the pipeline. Exiting Now." << std::endl;
  }
  DREAM3D_REQUIRE_EQUAL(err, EXIT_SUCCESS)

  // Now actually execute the pipeline
  pipeline->execute();
  err = pipeline->getErrorCondition();
  if (err < 0)
  {
    std::cout << "Error Condition of Pipeline: " << err << std::endl;
    err = EXIT_FAILURE;
  }
  DREAM3D_REQUIRE_EQUAL(err, EXIT_SUCCESS)

}
Esempio n. 2
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void TestSyntheticBuilder()
{

  MXADir::mkdir(m_OutputDirectory, true);

  Observer* observer = new Observer;


  int err = 0;

  // Create our Pipeline object
  FilterPipeline::Pointer pipeline = FilterPipeline::New();
  VoxelDataContainer::Pointer m = VoxelDataContainer::New();
  pipeline->setVoxelDataContainer(m);

    ShapeTypeArrayType::Pointer m_ShapeTypes = ShapeTypeArrayType::CreateArray(4, DREAM3D::EnsembleData::ShapeTypes);
    m_ShapeTypes->SetValue(0, DREAM3D::ShapeType::UnknownShapeType);
    m_ShapeTypes->SetValue(1, DREAM3D::ShapeType::EllipsoidShape);
    m_ShapeTypes->SetValue(2, DREAM3D::ShapeType::EllipsoidShape);
    m_ShapeTypes->SetValue(3, DREAM3D::ShapeType::EllipsoidShape);

    InitializeSyntheticVolume::Pointer init_volume = InitializeSyntheticVolume::New();
    init_volume->setShapeTypes(m_ShapeTypes);
    init_volume->setInputFile(getH5StatsFile());
    init_volume->setXVoxels(m_XPoints);
    init_volume->setYVoxels(m_YPoints);
    init_volume->setZVoxels(m_ZPoints);
    init_volume->setXRes(m_XResolution);
    init_volume->setYRes(m_YResolution);
    init_volume->setZRes(m_ZResolution);
	pipeline->pushBack(init_volume);

    PackPrimaryPhases::Pointer pack_grains = PackPrimaryPhases::New();
    pack_grains->setPeriodicBoundaries(m_PeriodicBoundary);
    pack_grains->setNeighborhoodErrorWeight(m_NeighborhoodErrorWeight);
#if PACK_GRAINS_ERROR_TXT_OUT
    MAKE_OUTPUT_FILE_PATH( errorFile, DREAM3D::SyntheticBuilder::ErrorFile)
    pack_grains->setErrorOutputFile(errorFile);
#endif
#if PACK_GRAINS_VTK_FILE_OUT
    MAKE_OUTPUT_FILE_PATH( vtkFile, DREAM3D::SyntheticBuilder::VtkFile)
    pack_grains->setVtkOutputFile(vtkFile);
#endif
    pipeline->pushBack(pack_grains);

    AdjustVolume::Pointer adjust_grains = AdjustVolume::New();
    pipeline->pushBack(adjust_grains);

    InsertPrecipitatePhases::Pointer place_precipitates = InsertPrecipitatePhases::New();
    place_precipitates->setPeriodicBoundaries(m_PeriodicBoundary);
    pipeline->pushBack(place_precipitates);

  MatchCrystallography::Pointer match_crystallography = MatchCrystallography::New();
//  pipeline->pushBack(match_crystallography);

  FieldDataCSVWriter::Pointer write_fielddata = FieldDataCSVWriter::New();
  write_fielddata->setFieldDataFile(UnitTest::SyntheticBuilderTest::CsvFile);
  pipeline->pushBack(write_fielddata);

  DataContainerWriter::Pointer writer = DataContainerWriter::New();
  writer->setOutputFile(UnitTest::SyntheticBuilderTest::OutputFile);
  pipeline->pushBack(writer);

  bool m_WriteVtkFile(true);
  bool m_WriteBinaryVTKFiles(true);
  bool m_WritePhaseId(true);
  bool m_WriteIPFColor(false);

  if(m_WriteVtkFile)
  {
    VtkRectilinearGridWriter::Pointer vtkWriter = VtkRectilinearGridWriter::New();
    vtkWriter->setOutputFile(UnitTest::SyntheticBuilderTest::VtkOutputFile);
    vtkWriter->setWriteGrainIds(true);
    vtkWriter->setWritePhaseIds(m_WritePhaseId);
   // vtkWriter->setWriteGoodVoxels(m_WriteGoodVoxels);
    vtkWriter->setWriteIPFColors(m_WriteIPFColor);
    vtkWriter->setWriteBinaryFile(m_WriteBinaryVTKFiles);
    pipeline->pushBack(vtkWriter);
  }

  std::cout << "********* RUNNING PIPELINE **********************" << std::endl;

  m = VoxelDataContainer::New();

  pipeline->setVoxelDataContainer(m);
  pipeline->run();
  err = pipeline->getErrorCondition();
  DREAM3D_REQUIRE_EQUAL(err, 0);

  DREAM3D_REQUIRE_EQUAL(false, pipeline->empty());

  pipeline->clear();
  DREAM3D_REQUIRE_EQUAL(0, pipeline->size());
  DREAM3D_REQUIRE_EQUAL(true, pipeline->empty());

  delete observer;
}
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void FilterParametersRWTest()
{
  // Create our Pipeline object
  FilterPipeline::Pointer pipeline = FilterPipeline::New();


  GenericFilter::Pointer filt = GenericFilter::New();

  // Set something for each and every property so you have something to compare against.
  // You may want to make some constants for these values
  filt->setStlFilePrefix(StlFilePrefixTestValue);
  filt->setMaxIterations(MaxIterationsTestValue);
  filt->setMisorientationTolerance(MisorientationToleranceTestValue);
  filt->setInputFile(InputFileTestValue);
  filt->setInputPath(InputPathTestValue);
  filt->setOutputFile(OutputFileTestValue);
  filt->setOutputPath(OutputPathTestValue);
  filt->setWriteAlignmentShifts(WriteAlignmentShiftsTestValue);
  filt->setConversionType(ConversionTypeTestValue);
  filt->setSelectedCellArrayName(SelectedCellArrayNameTestValue);
  filt->setSelectedFieldArrayName(SelectedFieldArrayNameTestValue);
  filt->setSelectedEnsembleArrayName(SelectedEnsembleArrayNameTestValue);
  filt->setSurfaceMeshPointArrayName(SurfaceMeshPointArrayNameTestValue);
  filt->setSurfaceMeshFaceArrayName(SurfaceMeshFaceArrayNameTestValue);
  filt->setSurfaceMeshEdgeArrayName(SurfaceMeshEdgeArrayNameTestValue);
  filt->setSolidMeshPointArrayName(SolidMeshPointArrayNameTestValue);
  filt->setSolidMeshFaceArrayName(SolidMeshFaceArrayNameTestValue);
  filt->setSolidMeshEdgeArrayName(SolidMeshEdgeArrayNameTestValue);

  ComparisonInput_t comparison1;
  comparison1.arrayName = Comparison1InputArrayNameTestValue;
  comparison1.compOperator = Comparison1CompOperatorTestValue;
  comparison1.compValue = Comparison1CompValueTestValue;

  ComparisonInput_t comparison2;
  comparison2.arrayName = Comparison2InputArrayNameTestValue;
  comparison2.compOperator = Comparison2CompOperatorTestValue;
  comparison2.compValue = Comparison2CompValueTestValue;

  std::vector<ComparisonInput_t> comparisonVector;
  comparisonVector.push_back(comparison1);
  comparisonVector.push_back(comparison2);
  filt->setCellComparisonInputs(comparisonVector);

  AxisAngleInput_t axisAngles1;
  axisAngles1.angle = AxisAngles1AngleTestValue;
  axisAngles1.h = AxisAngles1HTestValue;
  axisAngles1.k = AxisAngles1KTestValue;
  axisAngles1.l = AxisAngles1LTestValue;

  AxisAngleInput_t axisAngles2;
  axisAngles2.angle = AxisAngles2AngleTestValue;
  axisAngles2.h = AxisAngles2HTestValue;
  axisAngles2.k = AxisAngles2KTestValue;
  axisAngles2.l = AxisAngles2LTestValue;

  std::vector<AxisAngleInput_t> axisAngleInputsVector;
  axisAngleInputsVector.push_back(axisAngles1);
  axisAngleInputsVector.push_back(axisAngles2);
  filt->setAxisAngleRotations(axisAngleInputsVector);

  DataContainerWriter::Pointer writer = DataContainerWriter::New();
  writer->setOutputFile(UnitTest::FilterParametersRWTest::OutputFile);

  pipeline->pushBack(filt);
  pipeline->pushBack(writer);

  pipeline->execute();
  int err = pipeline->getErrorCondition();
  DREAM3D_REQUIRED(err, >= , 0)


  // We are done writing a file, now we need to read the file using raw HDF5 codes

  hid_t fid = H5Utilities::openFile(UnitTest::FilterParametersRWTest::OutputFile);
  DREAM3D_REQUIRED(fid, >, 0)

  H5FilterParametersReader::Pointer reader = H5FilterParametersReader::New();

  hid_t pipelineGroupId = H5Gopen(fid, DREAM3D::HDF5::PipelineGroupName.c_str(), H5P_DEFAULT);
  reader->setGroupId(pipelineGroupId);

  err = reader->openFilterGroup( filt.get(), 0); // Open the HDF5 Group for this filter
  DREAM3D_REQUIRED(err, >=, 0)

  // This next line should read all the filter parameters into the filter.
  filt->readFilterParameters( reader.get(), 0);

  // Now one by one, compare each of the filter parameters that you have stored in some constant somewhere to the values that are now in the filt variable.
  // Use DREAM3D_REQUIRED() to make sure each one is what you think it is.
  DREAM3D_REQUIRED(StlFilePrefixTestValue, ==, filt->getStlFilePrefix() )
  DREAM3D_REQUIRED(MaxIterationsTestValue, ==, filt->getMaxIterations() )
  DREAM3D_REQUIRED(MisorientationToleranceTestValue, ==, filt->getMisorientationTolerance() )
  DREAM3D_REQUIRED(InputFileTestValue, ==, filt->getInputFile() )
  DREAM3D_REQUIRED(InputPathTestValue, ==, filt->getInputPath() )
  DREAM3D_REQUIRED(OutputFileTestValue, ==, filt->getOutputFile() )
  DREAM3D_REQUIRED(OutputPathTestValue, ==, filt->getOutputPath() )
  DREAM3D_REQUIRED(WriteAlignmentShiftsTestValue, ==, filt->getWriteAlignmentShifts() )
  DREAM3D_REQUIRED(ConversionTypeTestValue, ==, filt->getConversionType() )
  DREAM3D_REQUIRED(SelectedCellArrayNameTestValue, ==, filt->getSelectedCellArrayName() )
  DREAM3D_REQUIRED(SelectedFieldArrayNameTestValue, ==, filt->getSelectedFieldArrayName() )
  DREAM3D_REQUIRED(SelectedEnsembleArrayNameTestValue, ==, filt->getSelectedEnsembleArrayName() )
  DREAM3D_REQUIRED(SurfaceMeshPointArrayNameTestValue, ==, filt->getSurfaceMeshPointArrayName() )
  DREAM3D_REQUIRED(SurfaceMeshFaceArrayNameTestValue, ==, filt->getSurfaceMeshFaceArrayName() )
  DREAM3D_REQUIRED(SurfaceMeshEdgeArrayNameTestValue, ==, filt->getSurfaceMeshEdgeArrayName() )
  DREAM3D_REQUIRED(SolidMeshPointArrayNameTestValue, ==, filt->getSolidMeshPointArrayName() )
  DREAM3D_REQUIRED(SolidMeshFaceArrayNameTestValue, ==, filt->getSolidMeshFaceArrayName() )
  DREAM3D_REQUIRED(SolidMeshEdgeArrayNameTestValue, ==, filt->getSolidMeshEdgeArrayName() )

  // Test the CellComparisonInputs widget
  std::vector<ComparisonInput_t> comparisonVectorRead = filt->getCellComparisonInputs();
  ComparisonInput_t comparison1Read = comparisonVectorRead[0];
  ComparisonInput_t comparison2Read = comparisonVectorRead[1];

  DREAM3D_REQUIRED(comparison1.arrayName, ==, comparison1Read.arrayName)
  DREAM3D_REQUIRED(comparison1.compOperator, ==, comparison1Read.compOperator)
  DREAM3D_REQUIRED(comparison1.compValue, ==, comparison1Read.compValue)
  DREAM3D_REQUIRED(comparison2.arrayName, ==, comparison2Read.arrayName)
  DREAM3D_REQUIRED(comparison2.compOperator, ==, comparison2Read.compOperator)
  DREAM3D_REQUIRED(comparison2.compValue, ==, comparison2Read.compValue)

  // Test the AxisAngleInput widget
  std::vector<AxisAngleInput_t> axisAngleVectorRead = filt->getAxisAngleRotations();
  AxisAngleInput_t axisAngles1Read = axisAngleVectorRead[0];
  AxisAngleInput_t axisAngles2Read = axisAngleVectorRead[1];

  DREAM3D_REQUIRED(axisAngles1.angle, ==, axisAngles1Read.angle)
  DREAM3D_REQUIRED(axisAngles1.h, ==, axisAngles1Read.h)
  DREAM3D_REQUIRED(axisAngles1.k, ==, axisAngles1Read.k)
  DREAM3D_REQUIRED(axisAngles1.l, ==, axisAngles1Read.l)
  DREAM3D_REQUIRED(axisAngles2.angle, ==, axisAngles2Read.angle)
  DREAM3D_REQUIRED(axisAngles2.h, ==, axisAngles2Read.h)
  DREAM3D_REQUIRED(axisAngles2.k, ==, axisAngles2Read.k)
  DREAM3D_REQUIRED(axisAngles2.l, ==, axisAngles2Read.l)

  err = reader->closeFilterGroup(); // Close the HDF5 group for this filter
  DREAM3D_REQUIRED(err, >=, 0)


  H5Gclose(pipelineGroupId); // Closes the "Pipeline" group
  H5Fclose(fid); // Closes the file
}