C++ (Cpp) NXInt::dim2示例

示例#1

文件： LoadILLReflectometry.cpp 项目： Mantid-Test-Account/mantid

/**
 * Load Data details (number of tubes, channels, etc)
 * @param entry First entry of nexus file
 */
void LoadILLReflectometry::loadDataDetails(NeXus::NXEntry &entry) {
  // read in the data
  NXData dataGroup = entry.openNXData("data");
  NXInt data = dataGroup.openIntData();

  m_numberOfTubes = static_cast<size_t>(data.dim0());
  m_numberOfPixelsPerTube = static_cast<size_t>(data.dim1());
  m_numberOfChannels = static_cast<size_t>(data.dim2());
}

示例#2

文件： LoadILLSANS.cpp 项目： liyulun/mantid

size_t
LoadILLSANS::loadDataIntoWorkspaceFromMonitors(NeXus::NXEntry &firstEntry,
                                               size_t firstIndex) {

  // let's find the monitors
  // For D33 should be monitor1 and monitor2
  for (std::vector<NXClassInfo>::const_iterator it =
           firstEntry.groups().begin();
       it != firstEntry.groups().end(); ++it) {
    if (it->nxclass == "NXmonitor") {
      NXData dataGroup = firstEntry.openNXData(it->nxname);
      NXInt data = dataGroup.openIntData();
      data.load();
      g_log.debug() << "Monitor: " << it->nxname << " dims = " << data.dim0()
                    << "x" << data.dim1() << "x" << data.dim2() << '\n';

      const size_t vectorSize = data.dim2() + 1;
      std::vector<double> positionsBinning;
      positionsBinning.reserve(vectorSize);

      for (size_t i = 0; i < vectorSize; i++)
        positionsBinning.push_back(static_cast<double>(i));

      // Assign X
      m_localWorkspace->dataX(firstIndex)
          .assign(positionsBinning.begin(), positionsBinning.end());
      // Assign Y
      m_localWorkspace->dataY(firstIndex).assign(data(), data() + data.dim2());
      // Assign Error
      MantidVec &E = m_localWorkspace->dataE(firstIndex);
      std::transform(data(), data() + data.dim2(), E.begin(),
                     LoadHelper::calculateStandardError);

      // Add average monitor counts to a property:
      double averageMonitorCounts =
          std::accumulate(data(), data() + data.dim2(), 0) /
          static_cast<double>(data.dim2());
      // make sure the monitor has values!
      if (averageMonitorCounts > 0) {
        API::Run &runDetails = m_localWorkspace->mutableRun();
        runDetails.addProperty("monitor", averageMonitorCounts, true);
      }

      firstIndex++;
    }
  }
  return firstIndex;
}

示例#3

文件： LoadILLSANS.cpp 项目： liyulun/mantid

void LoadILLSANS::initWorkSpace(NeXus::NXEntry &firstEntry,
                                const std::string &instrumentPath) {

  g_log.debug("Fetching data...");

  NXData dataGroup1 = firstEntry.openNXData("data1");
  NXInt dataRear = dataGroup1.openIntData();
  dataRear.load();
  NXData dataGroup2 = firstEntry.openNXData("data2");
  NXInt dataRight = dataGroup2.openIntData();
  dataRight.load();
  NXData dataGroup3 = firstEntry.openNXData("data3");
  NXInt dataLeft = dataGroup3.openIntData();
  dataLeft.load();
  NXData dataGroup4 = firstEntry.openNXData("data4");
  NXInt dataDown = dataGroup4.openIntData();
  dataDown.load();
  NXData dataGroup5 = firstEntry.openNXData("data5");
  NXInt dataUp = dataGroup5.openIntData();
  dataUp.load();
  g_log.debug("Checking channel numbers...");

  // check number of channels
  if (dataRear.dim2() != dataRight.dim2() &&
      dataRight.dim2() != dataLeft.dim2() &&
      dataLeft.dim2() != dataDown.dim2() && dataDown.dim2() != dataUp.dim2()) {
    throw std::runtime_error(
        "The time bins have not the same dimension for all the 5 detectors!");
  }
  int numberOfHistograms =
      dataRear.dim0() * dataRear.dim1() + dataRight.dim0() * dataRight.dim1() +
      dataLeft.dim0() * dataLeft.dim1() + dataDown.dim0() * dataDown.dim1() +
      dataUp.dim0() * dataUp.dim1();

  g_log.debug("Creating empty workspace...");
  // TODO : Must put this 2 somewhere else: number of monitors!
  createEmptyWorkspace(numberOfHistograms + 2, dataRear.dim2());

  loadMetaData(firstEntry, instrumentPath);

  std::vector<double> binningRear, binningRight, binningLeft, binningDown,
      binningUp;

  if (firstEntry.getFloat("mode") == 0.0) { // Not TOF
    g_log.debug("Getting default wavelength bins...");
    binningRear = m_defaultBinning;
    binningRight = m_defaultBinning;
    binningLeft = m_defaultBinning;
    binningDown = m_defaultBinning;
    binningUp = m_defaultBinning;

  } else {
    g_log.debug("Getting wavelength bins from the nexus file...");
    std::string binPathPrefix(instrumentPath + "/tof/tof_wavelength_detector");

    binningRear =
        m_loader.getTimeBinningFromNexusPath(firstEntry, binPathPrefix + "1");
    binningRight =
        m_loader.getTimeBinningFromNexusPath(firstEntry, binPathPrefix + "2");
    binningLeft =
        m_loader.getTimeBinningFromNexusPath(firstEntry, binPathPrefix + "3");
    binningDown =
        m_loader.getTimeBinningFromNexusPath(firstEntry, binPathPrefix + "4");
    binningUp =
        m_loader.getTimeBinningFromNexusPath(firstEntry, binPathPrefix + "5");
  }
  g_log.debug("Loading the data into the workspace...");
  size_t nextIndex = loadDataIntoWorkspaceFromMonitors(firstEntry, 0);
  nextIndex = loadDataIntoWorkspaceFromHorizontalTubes(dataRear, binningRear,
                                                       nextIndex);
  nextIndex = loadDataIntoWorkspaceFromVerticalTubes(dataRight, binningRight,
                                                     nextIndex);
  nextIndex =
      loadDataIntoWorkspaceFromVerticalTubes(dataLeft, binningLeft, nextIndex);
  nextIndex = loadDataIntoWorkspaceFromHorizontalTubes(dataDown, binningDown,
                                                       nextIndex);
  nextIndex =
      loadDataIntoWorkspaceFromHorizontalTubes(dataUp, binningUp, nextIndex);
}