Пример #1
0
/*
Extract the geometry and function information

This implementation is an override of the base-class method, which deals with
the more common event based route. However the SQW files will provide complete
dimensions with ranges already set. Less work needs to be done here than for
event workspaces where the extents of each dimension need to be individually
extracted.

@param eventWs : event workspace to get the information from.
*/
void SQWLoadingPresenter::extractMetadata(
    const Mantid::API::IMDEventWorkspace &eventWs) {
  using namespace Mantid::Geometry;
  MDGeometryBuilderXML<NoDimensionPolicy> refresh;
  this->xmlBuilder = refresh; // Reassign.
  std::vector<IMDDimension_sptr> dimensions;
  size_t nDimensions = eventWs.getNumDims();
  for (size_t d = 0; d < nDimensions; d++) {
    IMDDimension_const_sptr inDim = eventWs.getDimension(d);
    axisLabels.push_back(makeAxisTitle(*inDim));
    // Copy the dimension, but set the ID and name to be the same. This is an
    // assumption in bintohistoworkspace.
    dimensions.push_back(boost::make_shared<MDHistoDimension>(
        inDim->getName(), inDim->getName(), inDim->getMDFrame(),
        inDim->getMinimum(), inDim->getMaximum(), size_t{10}));
  }

  // Configuring the geometry xml builder allows the object panel associated
  // with this reader to later
  // determine how to display all geometry related properties.
  if (nDimensions > 0) {
    this->xmlBuilder.addXDimension(dimensions[0]);
  }
  if (nDimensions > 1) {
    this->xmlBuilder.addYDimension(dimensions[1]);
  }
  if (nDimensions > 2) {
    this->xmlBuilder.addZDimension(dimensions[2]);
  }
  if (nDimensions > 3) {
    this->tDimension = dimensions[3];
    this->xmlBuilder.addTDimension(this->tDimension);
  }
  this->m_isSetup = true;
}
Пример #2
0
/*
Extract the geometry and function information
@param eventWs : event workspace to get the information from.
*/
void MDEWLoadingPresenter::extractMetadata(
    const Mantid::API::IMDEventWorkspace &eventWs) {
  using namespace Mantid::Geometry;
  MDGeometryBuilderXML<NoDimensionPolicy> refresh;
  xmlBuilder = refresh; // Reassign.
  std::vector<MDDimensionExtents<coord_t>> ext = eventWs.getMinimumExtents(5);
  std::vector<IMDDimension_sptr> dimensions;
  size_t nDimensions = eventWs.getNumDims();
  for (size_t d = 0; d < nDimensions; d++) {
    IMDDimension_const_sptr inDim = eventWs.getDimension(d);
    coord_t min = ext[d].getMin();
    coord_t max = ext[d].getMax();
    if (min > max) {
      min = 0.0;
      max = 1.0;
    }
    // std::cout << "dim " << d << min << " to " <<  max << '\n';
    axisLabels.push_back(makeAxisTitle(*inDim));
    dimensions.push_back(boost::make_shared<MDHistoDimension>(
        inDim->getName(), inDim->getName(), inDim->getMDFrame(), min, max,
        inDim->getNBins()));
  }

  // Configuring the geometry xml builder allows the object panel associated
  // with this reader to later
  // determine how to display all geometry related properties.
  if (nDimensions > 0) {
    xmlBuilder.addXDimension(dimensions[0]);
  }
  if (nDimensions > 1) {
    xmlBuilder.addYDimension(dimensions[1]);
  }
  if (nDimensions > 2) {
    xmlBuilder.addZDimension(dimensions[2]);
  }
  if (nDimensions > 3) {
    tDimension = dimensions[3];
    xmlBuilder.addTDimension(tDimension);
  }
  m_isSetup = true;
}