Пример #1
0
/** loadData
*  Load the counts data from an NXInt into a workspace
*/
void LoadMuonNexus2::loadData(const Mantid::NeXus::NXInt &counts,
                              const std::vector<double> &timeBins, int wsIndex,
                              int period, int spec,
                              API::MatrixWorkspace_sptr localWorkspace) {
  MantidVec &X = localWorkspace->dataX(wsIndex);
  MantidVec &Y = localWorkspace->dataY(wsIndex);
  MantidVec &E = localWorkspace->dataE(wsIndex);
  X.assign(timeBins.begin(), timeBins.end());

  int nBins = 0;
  int *data = nullptr;

  if (counts.rank() == 3) {
    nBins = counts.dim2();
    data = &counts(period, spec, 0);
  } else if (counts.rank() == 2) {
    nBins = counts.dim1();
    data = &counts(spec, 0);
  } else {
    throw std::runtime_error("Data have unsupported dimansionality");
  }
  assert(nBins + 1 == static_cast<int>(timeBins.size()));

  Y.assign(data, data + nBins);
  typedef double (*uf)(double);
  uf dblSqrt = std::sqrt;
  std::transform(Y.begin(), Y.end(), E.begin(), dblSqrt);
}
Пример #2
0
/** loadData
*  Load the counts data from an NXInt into a workspace
*/
Histogram LoadMuonNexus2::loadData(const BinEdges &edges,
                                   const Mantid::NeXus::NXInt &counts,
                                   int period, int spec) {
  int nBins = 0;
  int *data = nullptr;

  if (counts.rank() == 3) {
    nBins = counts.dim2();
    data = &counts(period, spec, 0);
  } else if (counts.rank() == 2) {
    nBins = counts.dim1();
    data = &counts(spec, 0);
  } else {
    throw std::runtime_error("Data have unsupported dimensionality");
  }

  return Histogram(edges, Counts(data, data + nBins));
}
Пример #3
0
/**
 * Loads the mapping between index -> set of detector IDs
 *
 * If "detector_index", "detector_count" and "detector_list" are all present,
 * use these to get the mapping, otherwise spectrum number = detector ID
 * (one-to-one)
 *
 * The spectrum spectrum_index[i] maps to detector_count[i] detectors, whose
 * detector IDs are in detector_list starting at the index detector_index[i]
 *
 * @returns :: map of index -> detector IDs
 * @throws std::runtime_error if fails to read data from file
 */
std::map<int, std::set<int>>
LoadMuonNexus2::loadDetectorMapping(const Mantid::NeXus::NXInt &spectrumIndex) {
  std::map<int, std::set<int>> mapping;
  const int nSpectra = spectrumIndex.dim0();

  // Find and open the data group
  NXRoot root(getPropertyValue("Filename"));
  NXEntry entry = root.openEntry(m_entry_name);
  const std::string detectorName = [&entry]() {
    // Only the first NXdata found
    for (auto &group : entry.groups()) {
      std::string className = group.nxclass;
      if (className == "NXdata") {
        return group.nxname;
      }
    }
    throw std::runtime_error("No NXdata found in file");
  }();
  NXData dataGroup = entry.openNXData(detectorName);

  // Usually for muon data, detector id = spectrum number
  // If not, the optional groups "detector_index", "detector_list" and
  // "detector_count" will be present to map one to the other
  const bool hasDetectorMapping = dataGroup.containsDataSet("detector_index") &&
                                  dataGroup.containsDataSet("detector_list") &&
                                  dataGroup.containsDataSet("detector_count");
  if (hasDetectorMapping) {
    // Read detector IDs
    try {
      const auto detIndex = dataGroup.openNXInt("detector_index");
      const auto detCount = dataGroup.openNXInt("detector_count");
      const auto detList = dataGroup.openNXInt("detector_list");
      const int nSpectra = detIndex.dim0();
      for (int i = 0; i < nSpectra; ++i) {
        const int start = detIndex[i];
        const int nDetectors = detCount[i];
        std::set<int> detIDs;
        for (int jDet = 0; jDet < nDetectors; ++jDet) {
          detIDs.insert(detList[start + jDet]);
        }
        mapping[i] = detIDs;
      }
    } catch (const ::NeXus::Exception &err) {
      // Throw a more user-friendly message
      std::ostringstream message;
      message << "Failed to read detector mapping: " << err.what();
      throw std::runtime_error(message.str());
    }
  } else {
    for (int i = 0; i < nSpectra; ++i) {
      mapping[i] = std::set<int>{spectrumIndex[i]};
    }
  }

  return mapping;
}