コード例 #1
0
AbstractMicrostructurePresetFactory::Pointer RegisterPresetFactory(QComboBox* microstructurePresetCombo)
{
  AbstractMicrostructurePresetFactory::Pointer presetFactory = T::New();
  MicrostructurePresetManager::registerFactory(presetFactory);
  QString displayString = (presetFactory->displayName());
  microstructurePresetCombo->addItem(displayString);
  return presetFactory;
}
コード例 #2
0
// -----------------------------------------------------------------------------
//  Static Method
// -----------------------------------------------------------------------------
void MicrostructurePresetManager::registerFactory(AbstractMicrostructurePresetFactory::Pointer importer)
{
  if (NULL != importer.get() )
  {
    // Instantiate the Instance Manager for import delegates
    MicrostructurePresetManager::Pointer idManager = MicrostructurePresetManager::instance();
    idManager->addFactory( importer );
  }
}
コード例 #3
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void PrecipitatePhaseWidget::setupGui()
{
  distributionTypeCombo->addItem(SIMPL::StringConstants::BetaDistribution.toLatin1().data());
  distributionTypeCombo->addItem(SIMPL::StringConstants::LogNormalDistribution.toLatin1().data());
  distributionTypeCombo->addItem(SIMPL::StringConstants::PowerLawDistribution.toLatin1().data());
  distributionTypeCombo->setCurrentIndex(SIMPL::DistributionType::LogNormal);
  // Turn off all the plot widgets
  setTabsPlotTabsEnabled(false);

  microstructurePresetCombo->blockSignals(true);
  // Register all of our Microstructure Preset Factories
  AbstractMicrostructurePresetFactory::Pointer presetFactory = AbstractMicrostructurePresetFactory::NullPointer();

  //Register the Equiaxed Preset
  presetFactory = RegisterPresetFactory<PrecipitateEquiaxedPresetFactory>(microstructurePresetCombo);
  QString presetName = (presetFactory->displayName());
  MicrostructurePresetManager::Pointer manager = MicrostructurePresetManager::instance();
  m_MicroPreset = manager->createNewPreset(presetName);

  // Register the Rolled Preset
  presetFactory = RegisterPresetFactory<PrecipitateRolledPresetFactory>(microstructurePresetCombo);

  // Select the first Preset in the list
  microstructurePresetCombo->setCurrentIndex(0);
  microstructurePresetCombo->blockSignals(false);


  float mu = 1.0f;
  float sigma = 0.1f;
  float minCutOff = 5.0f;
  float maxCutOff = 5.0f;
  float binStepSize = 0.5f;

  StatsGenPlotWidget* w = m_Omega3Plot;
  w->setPlotTitle(QString("Size Vs. Omega 3"));
  w->setXAxisName(QString("Omega 3"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(SIMPL::DistributionType::Beta);
  w->setStatisticsType(SIMPL::StatisticsType::Feature_SizeVOmega3);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_Omega3Plot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));
  connect(m_Omega3Plot, SIGNAL(userEditedData()),
          this, SIGNAL(phaseParametersChanged()));

  w = m_BOverAPlot;
  w->setPlotTitle(QString("B/A Shape Distribution"));
  w->setXAxisName(QString("B/A"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(SIMPL::DistributionType::Beta);
  w->setStatisticsType(SIMPL::StatisticsType::Feature_SizeVBoverA);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_BOverAPlot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));
  connect(m_BOverAPlot, SIGNAL(userEditedData()),
          this, SIGNAL(phaseParametersChanged()));

  w = m_COverAPlot;
  w->setPlotTitle(QString("C/A Shape Distribution"));
  w->setXAxisName(QString("C/A"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(SIMPL::DistributionType::Beta);
  w->setStatisticsType(SIMPL::StatisticsType::Feature_SizeVCoverA);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_COverAPlot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));
  connect(m_COverAPlot, SIGNAL(userEditedData()),
          this, SIGNAL(phaseParametersChanged()));

  m_SizeDistributionPlot->setCanvasBackground(QColor(Qt::white));
  m_SizeDistributionPlot->setTitle("Size Distribution");

  m_grid = new QwtPlotGrid;
  m_grid->enableXMin(true);
  m_grid->enableYMin(true);
#if (QWT_VERSION > 0x060000)
  m_grid->setMajorPen(QPen(Qt::gray, 0, Qt::SolidLine));
  m_grid->setMinorPen(QPen(Qt::lightGray, 0, Qt::DotLine));
#else
  m_grid->setMajPen(QPen(Qt::gray, 0, Qt::SolidLine));
  m_grid->setMinPen(QPen(Qt::lightGray, 0, Qt::DotLine));
#endif
  m_grid->attach(m_SizeDistributionPlot);

  // For the ODF Tab we want the MDF functionality
  m_ODFWidget->enableMDFTab(true);

  // Remove any Axis Decorations. The plots are explicitly know to have a -1 to 1 axis min/max
  m_ODFWidget->setEnableAxisDecorations(false);

  // Remove any Axis Decorations. The plots are explicitly know to have a -1 to 1 axis min/max
  m_AxisODFWidget->setEnableAxisDecorations(false);

  connect(m_ODFWidget, SIGNAL(odfParametersChanged()),
          this, SIGNAL(phaseParametersChanged()));
  connect(m_ODFWidget, SIGNAL(bulkLoadEvent(bool)),
          this, SLOT(bulkLoadEvent(bool)));
  connect(m_AxisODFWidget, SIGNAL(axisODFParametersChanged()),
          this, SIGNAL(phaseParametersChanged()));
  connect(m_RdfPlot, SIGNAL(rdfParametersChanged()),
          this, SIGNAL(phaseParametersChanged()));

  updateSizeDistributionPlot();
  calculateNumberOfBins();
}
コード例 #4
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void TransformationPhaseWidget::setupGui()
{
  distributionTypeCombo->addItem(DREAM3D::HDF5::BetaDistribution.c_str());
  distributionTypeCombo->addItem(DREAM3D::HDF5::LogNormalDistribution.c_str());
  distributionTypeCombo->addItem(DREAM3D::HDF5::PowerLawDistribution.c_str());
  distributionTypeCombo->setCurrentIndex(DREAM3D::DistributionType::LogNormal);
  // Turn off all the plot widgets
  setTabsPlotTabsEnabled(false);

  microstructurePresetCombo->blockSignals(true);
  // Register all of our Microstructure Preset Factories
  AbstractMicrostructurePresetFactory::Pointer presetFactory = AbstractMicrostructurePresetFactory::NullPointer();

  //Register the Equiaxed Preset
  presetFactory = RegisterPresetFactory<EquiaxedPresetFactory>(microstructurePresetCombo);
  QString presetName = QString::fromStdString(presetFactory->displayName());
  MicrostructurePresetManager::Pointer manager = MicrostructurePresetManager::instance();
  m_MicroPreset = manager->createNewPreset(presetName.toStdString());

  // Register the Rolled Preset
  presetFactory = RegisterPresetFactory<RolledPresetFactory>(microstructurePresetCombo);

  // Select the first Preset in the list
  microstructurePresetCombo->setCurrentIndex(0);
  microstructurePresetCombo->blockSignals(false);


  float mu = 1.0f;
  float sigma = 0.1f;
  float minCutOff = 5.0f;
  float maxCutOff = 5.0f;
  float binStepSize = 0.5f;

  StatsGenPlotWidget* w = m_Omega3Plot;

   w->setPlotTitle(QString("Size Vs. Omega 3"));
   w->setXAxisName(QString("Omega 3"));
   w->setYAxisName(QString("Frequency"));
   w->setDistributionType(DREAM3D::DistributionType::Beta);
   w->setStatisticsType(DREAM3D::StatisticsType::Grain_SizeVOmega3);
   w->blockDistributionTypeChanges(true);
   w->setRowOperationEnabled(false);
   w->setMu(mu);
   w->setSigma(sigma);
   w->setMinCutOff(minCutOff);
   w->setMaxCutOff(maxCutOff);
   w->setBinStep(binStepSize);
   connect(m_Omega3Plot, SIGNAL(userEditedData()),
           this, SLOT(dataWasEdited()));


   w = m_BOverAPlot;
   w->setPlotTitle(QString("B/A Shape Distribution"));
   w->setXAxisName(QString("B/A"));
   w->setYAxisName(QString("Frequency"));
   w->setDistributionType(DREAM3D::DistributionType::Beta);
   w->setStatisticsType(DREAM3D::StatisticsType::Grain_SizeVBoverA);
   w->blockDistributionTypeChanges(true);
   w->setRowOperationEnabled(false);
   w->setMu(mu);
   w->setSigma(sigma);
   w->setMinCutOff(minCutOff);
   w->setMaxCutOff(maxCutOff);
   w->setBinStep(binStepSize);
   connect(m_BOverAPlot, SIGNAL(userEditedData()),
           this, SLOT(dataWasEdited()));

   w = m_COverAPlot;
   w->setPlotTitle(QString("C/A Shape Distribution"));
   w->setXAxisName(QString("C/A"));
   w->setYAxisName(QString("Frequency"));
   w->setDistributionType(DREAM3D::DistributionType::Beta);
   w->setStatisticsType(DREAM3D::StatisticsType::Grain_SizeVCoverA);
   w->blockDistributionTypeChanges(true);
   w->setRowOperationEnabled(false);
   w->setMu(mu);
   w->setSigma(sigma);
   w->setMinCutOff(minCutOff);
   w->setMaxCutOff(maxCutOff);
   w->setBinStep(binStepSize);
   connect(m_COverAPlot, SIGNAL(userEditedData()),
           this, SLOT(dataWasEdited()));

   w = m_NeighborPlot;
   w->setPlotTitle(QString("Neighbors Distributions"));
   w->setXAxisName(QString("Number of Grains (within 1 diameter)"));
   w->setYAxisName(QString("Frequency"));
   w->setDistributionType(DREAM3D::DistributionType::LogNormal);
   w->setStatisticsType(DREAM3D::StatisticsType::Grain_SizeVNeighbors);
   w->blockDistributionTypeChanges(true);
   w->setRowOperationEnabled(false);
   w->setMu(mu);
   w->setSigma(sigma);
   w->setMinCutOff(minCutOff);
   w->setMaxCutOff(maxCutOff);
   w->setBinStep(binStepSize);
   connect(m_NeighborPlot, SIGNAL(userEditedData()),
           this, SLOT(dataWasEdited()));


  m_SizeDistributionPlot->setCanvasBackground(QColor(Qt::white));
  m_SizeDistributionPlot->setTitle("Size Distribution");

  m_grid = new QwtPlotGrid;
  m_grid->enableXMin(true);
  m_grid->enableYMin(true);
  m_grid->setMajPen(QPen(Qt::gray, 0, Qt::SolidLine));
  m_grid->setMinPen(QPen(Qt::lightGray, 0, Qt::DotLine));
  m_grid->attach(m_SizeDistributionPlot);

  // For the ODF Tab we want the MDF functionality
  m_ODFWidget->enableMDFTab(true);
  // Remove any Axis Decorations. The plots are explicitly know to have a -1 to 1 axis min/max
  m_ODFWidget->setEnableAxisDecorations(false);

  // Remove any Axis Decorations. The plots are explicitly know to have a -1 to 1 axis min/max
  m_AxisODFWidget->setEnableAxisDecorations(false);

  updateSizeDistributionPlot();
  calculateNumberOfBins();
}
コード例 #5
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void PrimaryPhaseWidget::setupGui()
{
  distributionTypeCombo->addItem(DREAM3D::StringConstants::BetaDistribution.toLatin1().data());
  distributionTypeCombo->addItem(DREAM3D::StringConstants::LogNormalDistribution.toLatin1().data());
  distributionTypeCombo->addItem(DREAM3D::StringConstants::PowerLawDistribution.toLatin1().data());
  distributionTypeCombo->setCurrentIndex(DREAM3D::DistributionType::LogNormal);
  // Turn off all the plot widgets
  setTabsPlotTabsEnabled(false);

  QLocale loc = QLocale::system();

  microstructurePresetCombo->blockSignals(true);
  // Register all of our Microstructure Preset Factories
  AbstractMicrostructurePresetFactory::Pointer presetFactory = AbstractMicrostructurePresetFactory::NullPointer();

  //Register the Equiaxed Preset
  presetFactory = RegisterPresetFactory<PrimaryEquiaxedPresetFactory>(microstructurePresetCombo);
  QString presetName = (presetFactory->displayName());
  MicrostructurePresetManager::Pointer manager = MicrostructurePresetManager::instance();
  m_MicroPreset = manager->createNewPreset(presetName);

  // Register the Rolled Preset
  presetFactory = RegisterPresetFactory<PrimaryRolledPresetFactory>(microstructurePresetCombo);

  m_MuValidator = new QDoubleValidator(m_Mu_SizeDistribution);
  m_MuValidator->setLocale(loc);
  m_MuValidator->setRange(0.0001, 10.0, 4);

  m_Mu_SizeDistribution->setValidator(m_MuValidator);


  m_SigmaValidator = new QDoubleValidator(m_Sigma_SizeDistribution);
  m_SigmaValidator->setLocale(loc);
  m_SigmaValidator->setRange(0.0000, 1.0, 4);
  m_Sigma_SizeDistribution->setValidator(m_SigmaValidator);

  QDoubleValidator* minVal = new QDoubleValidator(0.000, std::numeric_limits<double>::infinity(), 4, m_MinSigmaCutOff);
  minVal->setLocale(loc);
  m_MinSigmaCutOff->setValidator(minVal);

  QDoubleValidator* maxVal = new QDoubleValidator(0.000, std::numeric_limits<double>::infinity(), 4, m_MinSigmaCutOff);
  maxVal->setLocale(loc);
  m_MaxSigmaCutOff->setValidator(maxVal);


  // Select the first Preset in the list
  microstructurePresetCombo->setCurrentIndex(0);
  microstructurePresetCombo->blockSignals(false);


  float mu = 1.0f;
  float sigma = 0.1f;
  float minCutOff = 5.0f;
  float maxCutOff = 5.0f;
  float binStepSize = 0.5f;

  StatsGenPlotWidget* w = m_Omega3Plot;

  w->setPlotTitle(QString("Size Vs. Omega 3"));
  w->setXAxisName(QString("Omega 3"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(DREAM3D::DistributionType::Beta);
  w->setStatisticsType(DREAM3D::StatisticsType::Feature_SizeVOmega3);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_Omega3Plot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));


  w = m_BOverAPlot;
  w->setPlotTitle(QString("B/A Shape Distribution"));
  w->setXAxisName(QString("B/A"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(DREAM3D::DistributionType::Beta);
  w->setStatisticsType(DREAM3D::StatisticsType::Feature_SizeVBoverA);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_BOverAPlot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));

  w = m_COverAPlot;
  w->setPlotTitle(QString("C/A Shape Distribution"));
  w->setXAxisName(QString("C/A"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(DREAM3D::DistributionType::Beta);
  w->setStatisticsType(DREAM3D::StatisticsType::Feature_SizeVCoverA);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_COverAPlot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));

  w = m_NeighborPlot;
  w->setPlotTitle(QString("Neighbors Distributions"));
  w->setXAxisName(QString("Number of Features (within 1 diameter)"));
  w->setYAxisName(QString("Frequency"));
  w->setDistributionType(DREAM3D::DistributionType::LogNormal);
  w->setStatisticsType(DREAM3D::StatisticsType::Feature_SizeVNeighbors);
  w->blockDistributionTypeChanges(true);
  w->setRowOperationEnabled(false);
  w->setMu(mu);
  w->setSigma(sigma);
  w->setMinCutOff(minCutOff);
  w->setMaxCutOff(maxCutOff);
  w->setBinStep(binStepSize);
  connect(m_NeighborPlot, SIGNAL(userEditedData()),
          this, SLOT(dataWasEdited()));


  m_SizeDistributionPlot->setCanvasBackground(QColor(Qt::white));
  m_SizeDistributionPlot->setTitle("Size Distribution");

  m_grid = new QwtPlotGrid;
  m_grid->enableXMin(true);
  m_grid->enableYMin(true);
#if (QWT_VERSION > 0x060000)
  m_grid->setMajorPen(QPen(Qt::gray, 0, Qt::SolidLine));
  m_grid->setMinorPen(QPen(Qt::lightGray, 0, Qt::DotLine));
#else
  m_grid->setMajPen(QPen(Qt::gray, 0, Qt::SolidLine));
  m_grid->setMinPen(QPen(Qt::lightGray, 0, Qt::DotLine));
#endif
  m_grid->attach(m_SizeDistributionPlot);

  // For the ODF Tab we want the MDF functionality
  m_ODFWidget->enableMDFTab(true);
  // Remove any Axis Decorations. The plots are explicitly know to have a -1 to 1 axis min/max
  m_ODFWidget->setEnableAxisDecorations(false);

  // Remove any Axis Decorations. The plots are explicitly know to have a -1 to 1 axis min/max
  m_AxisODFWidget->setEnableAxisDecorations(false);

  updateSizeDistributionPlot();
  calculateNumberOfBins();
}