コード例 #1
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void PrimaryEquiaxedPreset::initializeNeighborTableModel(StatsGenPlotWidget* plot, QVector<float> binNumbers)
{
  // Make sure the distribution is set correctly
  plot->setDistributionType(DREAM3D::DistributionType::LogNormal, false);
  // This line basically makes sure we have the distribution type we are looking for
  SGLogNormalTableModel* model = qobject_cast<SGLogNormalTableModel*> (plot->tableModel());
  if (NULL == model)
  {
    return;
  }

  qint32 count = binNumbers.count();

  // Remove all the current rows in the table model
  model->removeRows(0, model->rowCount());

  float mu, sigma;
  SIMPL_RANDOMNG_NEW()

  QVector<float> mus;
  QVector<float> sigmas;
  QVector<QString> colors;
  QStringList colorNames = QColor::colorNames();
  qint32 colorOffset = 21;
  int middlebin = count / 2;
  for (qint32 i = 0; i < count; ++i)
  {
    mu = log(14.0 + (2.0 * float(i - middlebin)));
    sigma = 0.3 + (float(middlebin - i) / float(middlebin * 10));
    mus.push_back(mu);
    sigmas.push_back(sigma);
    colors.push_back(colorNames[colorOffset++]);
    if (colorOffset == colorNames.size())
    {
      colorOffset = 21;
    }
  }

  QVector<QVector<float> > data;
  data.push_back(mus);
  data.push_back(sigmas);
  model->setTableData(binNumbers, data, colors);

}
コード例 #2
0
// -----------------------------------------------------------------------------
//
// -----------------------------------------------------------------------------
void PrimaryRolledPreset::initializeNeighborTableModel(StatsGenPlotWidget* plot, QVector<float> binNumbers)
{
  // Make sure the distribution is set correctly
  plot->setDistributionType(SIMPL::DistributionType::LogNormal, false);
  // This line basically makes sure we have the distribution type we are looking for
  SGLogNormalTableModel* model = qobject_cast<SGLogNormalTableModel*> (plot->tableModel());
  if (NULL == model)
  {
    return;
  }

  qint32 count = binNumbers.count();

  // Remove all the current rows in the table model
  model->removeRows(0, model->rowCount());

  float mu, sigma;
  SIMPL_RANDOMNG_NEW()

  QVector<float> mus;
  QVector<float> sigmas;
  QVector<QColor> colors = GenerateColors(count, 160, 255);

  int middlebin = count / 2;
  for (qint32 i = 0; i < count; ++i)
  {
    mu = log(8.0 + (1.0 * float(i - middlebin)));
    sigma = 0.3 + (float(middlebin - i) / float(middlebin * 10));
    mus.push_back(mu);
    sigmas.push_back(sigma);
  }

  QVector<QVector<float> > data;
  data.push_back(mus);
  data.push_back(sigmas);
  model->setTableData(binNumbers, data, colors);

}