Ejemplo n.º 1
0
/**
* Load a slab of double data into a bare array.
* Checks that the size is correct.
* @param name
* @param data bare pointer to double array
* @param ws
* @param dataType
*/
void LoadMD::loadSlab(std::string name, void *data, MDHistoWorkspace_sptr ws,
                      NeXus::NXnumtype dataType) {
  m_file->openData(name);
  if (m_file->getInfo().type != dataType)
    throw std::runtime_error("Unexpected data type for '" + name +
                             "' data set.'");

  int nPoints = 1;
  size_t numDims = m_file->getInfo().dims.size();
  std::vector<int> size(numDims);
  for (size_t d = 0; d < numDims; d++) {
    nPoints *= static_cast<int>(m_file->getInfo().dims[d]);
    size[d] = static_cast<int>(m_file->getInfo().dims[d]);
  }
  if (nPoints != static_cast<int>(ws->getNPoints()))
    throw std::runtime_error(
        "Inconsistency between the number of points in '" + name +
        "' and the number of bins defined by the dimensions.");
  std::vector<int> start(numDims, 0);
  try {
    m_file->getSlab(data, start, size);
  } catch (...) {
    std::cout << " start: " << start[0] << " size: " << size[0] << '\n';
  }
  m_file->closeData();
}
Ejemplo n.º 2
0
/** Execute the algorithm.
 */
void TransformMD::exec() {
  Mantid::API::IMDWorkspace_sptr inWS;
  Mantid::API::IMDWorkspace_sptr outWS;

  inWS = getProperty("InputWorkspace");
  outWS = getProperty("OutputWorkspace");
  std::string outName = getPropertyValue("OutputWorkspace");

  if (boost::dynamic_pointer_cast<MatrixWorkspace>(inWS))
    throw std::runtime_error("TransformMD can only transform a "
                             "MDHistoWorkspace or a MDEventWorkspace.");

  if (outWS != inWS) {
    // NOT in-place. So first we clone inWS into outWS
    IAlgorithm_sptr clone =
        this->createChildAlgorithm("CloneMDWorkspace", 0.0, 0.5, true);
    clone->setProperty("InputWorkspace", inWS);
    clone->executeAsChildAlg();
    outWS = clone->getProperty("OutputWorkspace");
  }

  if (!outWS)
    throw std::runtime_error("Invalid output workspace.");

  size_t nd = outWS->getNumDims();
  m_scaling = getProperty("Scaling");
  m_offset = getProperty("Offset");

  // Replicate single values
  if (m_scaling.size() == 1)
    m_scaling = std::vector<double>(nd, m_scaling[0]);
  if (m_offset.size() == 1)
    m_offset = std::vector<double>(nd, m_offset[0]);

  // Check the size
  if (m_scaling.size() != nd)
    throw std::invalid_argument("Scaling argument must be either length 1 or "
                                "match the number of dimensions.");
  if (m_offset.size() != nd)
    throw std::invalid_argument("Offset argument must be either length 1 or "
                                "match the number of dimensions.");

  // Transform the dimensions
  outWS->transformDimensions(m_scaling, m_offset);

  MDHistoWorkspace_sptr histo =
      boost::dynamic_pointer_cast<MDHistoWorkspace>(outWS);
  IMDEventWorkspace_sptr event =
      boost::dynamic_pointer_cast<IMDEventWorkspace>(outWS);

  if (histo) {
    // Recalculate all the values since the dimensions changed.
    histo->cacheValues();
    if (m_scaling[0] < 0.0) {
      signal_t *signals = histo->getSignalArray();
      signal_t *errorsSq = histo->getErrorSquaredArray();

      this->reverse(signals, histo->getNPoints());
      this->reverse(errorsSq, histo->getNPoints());
    }

    this->setProperty("OutputWorkspace", histo);
  } else if (event) {
    // Call the method for this type of MDEventWorkspace.
    CALL_MDEVENT_FUNCTION(this->doTransform, outWS);
    Progress *prog2 = NULL;
    ThreadScheduler *ts = new ThreadSchedulerFIFO();
    ThreadPool tp(ts, 0, prog2);
    event->splitAllIfNeeded(ts);
    // prog2->resetNumSteps( ts->size(), 0.4, 0.6);
    tp.joinAll();
    event->refreshCache();
    // Set the special coordinate system.
    IMDEventWorkspace_sptr inEvent =
        boost::dynamic_pointer_cast<IMDEventWorkspace>(inWS);
    event->setCoordinateSystem(inEvent->getSpecialCoordinateSystem());

    if (m_scaling[0] < 0) {
      // Only need these 2 algorithms for transforming with negative number
      std::vector<double> extents;
      std::vector<std::string> names, units;
      for (size_t d = 0; d < nd; d++) {
        Geometry::IMDDimension_const_sptr dim = event->getDimension(d);
        // Find the extents
        extents.push_back(dim->getMinimum());
        extents.push_back(dim->getMaximum());
        names.push_back(std::string(dim->getName()));
        units.push_back(dim->getUnits());
      }
      Algorithm_sptr create_alg = createChildAlgorithm("CreateMDWorkspace");
      create_alg->setProperty("Dimensions", static_cast<int>(nd));
      create_alg->setProperty("EventType", event->getEventTypeName());
      create_alg->setProperty("Extents", extents);
      create_alg->setProperty("Names", names);
      create_alg->setProperty("Units", units);
      create_alg->setPropertyValue("OutputWorkspace", "__none");
      create_alg->executeAsChildAlg();
      Workspace_sptr none = create_alg->getProperty("OutputWorkspace");

      AnalysisDataService::Instance().addOrReplace(outName, event);
      AnalysisDataService::Instance().addOrReplace("__none", none);
      Mantid::API::BoxController_sptr boxController = event->getBoxController();
      std::vector<int> splits;
      for (size_t d = 0; d < nd; d++) {
        splits.push_back(static_cast<int>(boxController->getSplitInto(d)));
      }
      Algorithm_sptr merge_alg = createChildAlgorithm("MergeMD");
      merge_alg->setPropertyValue("InputWorkspaces", outName + ",__none");
      merge_alg->setProperty("SplitInto", splits);
      merge_alg->setProperty(
          "SplitThreshold",
          static_cast<int>(boxController->getSplitThreshold()));
      merge_alg->setProperty("MaxRecursionDepth", 13);
      merge_alg->executeAsChildAlg();
      event = merge_alg->getProperty("OutputWorkspace");
      AnalysisDataService::Instance().remove("__none");
    }
    this->setProperty("OutputWorkspace", event);
  }
}