Exemplo n.º 1
0
void LoadSINQFocus::loadRunDetails(NXEntry & entry) {

	API::Run & runDetails = m_localWorkspace->mutableRun();

//	int runNum = entry.getInt("run_number");
//	std::string run_num = boost::lexical_cast<std::string>(runNum);
//	runDetails.addProperty("run_number", run_num);

	std::string start_time = entry.getString("start_time");
	//start_time = getDateTimeInIsoFormat(start_time);
	runDetails.addProperty("run_start", start_time);

	std::string end_time = entry.getString("end_time");
	//end_time = getDateTimeInIsoFormat(end_time);
	runDetails.addProperty("run_end", end_time);

	double wavelength = entry.getFloat(m_instrumentPath + "/monochromator/lambda");
	runDetails.addProperty<double>("wavelength", wavelength);

	double energy = entry.getFloat(m_instrumentPath + "/monochromator/energy");
	runDetails.addProperty<double>("Ei", energy, true); //overwrite

	std::string title = entry.getString("title");
	runDetails.addProperty("title", title);
	m_localWorkspace->setTitle(title);

}
Exemplo n.º 2
0
/**  Load logs from Nexus file. Logs are expected to be in
*   /run/sample group of the file.
*   @param ws :: The workspace to load the logs to.
*   @param entry :: The Nexus entry
*   @param period :: The period of this workspace
*/
void LoadMuonNexus2::loadLogs(API::MatrixWorkspace_sptr ws, NXEntry &entry,
                              int period) {
  // Avoid compiler warning
  (void)period;

  std::string start_time = entry.getString("start_time");

  std::string sampleName = entry.getString("sample/name");
  NXMainClass runlogs = entry.openNXClass<NXMainClass>("sample");
  ws->mutableSample().setName(sampleName);

  for (std::vector<NXClassInfo>::const_iterator it = runlogs.groups().begin();
       it != runlogs.groups().end(); ++it) {
    NXLog nxLog = runlogs.openNXLog(it->nxname);
    Kernel::Property *logv = nxLog.createTimeSeries(start_time);
    if (!logv)
      continue;
    ws->mutableRun().addLogData(logv);
  }

  ws->setTitle(entry.getString("title"));

  if (entry.containsDataSet("notes")) {
    ws->setComment(entry.getString("notes"));
  }

  std::string run_num = std::to_string(entry.getInt("run_number"));
  // The sample is left to delete the property
  ws->mutableRun().addLogData(
      new PropertyWithValue<std::string>("run_number", run_num));

  ws->populateInstrumentParameters();
}
Exemplo n.º 3
0
void LoadLLB::loadRunDetails(NXEntry &entry) {

  API::Run &runDetails = m_localWorkspace->mutableRun();

  //	int runNum = entry.getInt("run_number");
  //	std::string run_num = boost::lexical_cast<std::string>(runNum);
  //	runDetails.addProperty("run_number", run_num);

  std::string start_time = entry.getString("start_time");
  // start_time = getDateTimeInIsoFormat(start_time);
  runDetails.addProperty("run_start", start_time);

  std::string end_time = entry.getString("end_time");
  // end_time = getDateTimeInIsoFormat(end_time);
  runDetails.addProperty("run_end", end_time);

  double wavelength = entry.getFloat("nxbeam/incident_wavelength");
  runDetails.addProperty<double>("wavelength", wavelength);

  double energy = m_loader.calculateEnergy(wavelength);
  runDetails.addProperty<double>("Ei", energy, true); // overwrite

  std::string title = entry.getString("title");
  runDetails.addProperty("title", title);
  m_localWorkspace->setTitle(title);
}
Exemplo n.º 4
0
/**  Log the run details from the file
* @param localWorkspace :: The workspace details to use
*/
void LoadMuonNexus2::loadRunDetails(
    DataObjects::Workspace2D_sptr localWorkspace) {
  API::Run &runDetails = localWorkspace->mutableRun();

  runDetails.addProperty("run_title", localWorkspace->getTitle(), true);

  int numSpectra = static_cast<int>(localWorkspace->getNumberHistograms());
  runDetails.addProperty("nspectra", numSpectra);

  m_filename = getPropertyValue("Filename");
  NXRoot root(m_filename);
  NXEntry entry = root.openEntry(m_entry_name);

  std::string start_time = entry.getString("start_time");
  runDetails.addProperty("run_start", start_time);

  std::string stop_time = entry.getString("end_time");
  runDetails.addProperty("run_end", stop_time);

  if (entry.containsGroup("run")) {
    NXClass runRun = entry.openNXGroup("run");

    if (runRun.containsDataSet("good_total_frames")) {
      int dum = runRun.getInt("good_total_frames");
      runDetails.addProperty("goodfrm", dum);
    }

    if (runRun.containsDataSet("number_periods")) {
      int dum = runRun.getInt("number_periods");
      runDetails.addProperty("nperiods", dum);
    }
  }

  { // Duration taken to be stop_time minus stat_time
    auto start = createFromSanitizedISO8601(start_time);
    auto end = createFromSanitizedISO8601(stop_time);
    double duration_in_secs = DateAndTime::secondsFromDuration(end - start);
    runDetails.addProperty("dur_secs", duration_in_secs);
  }
}
Exemplo n.º 5
0
    /**
    * Load a given period into the workspace
    * @param period :: The period number to load (starting from 1) 
    * @param entry :: The opened root entry node for accessing the monitor and data nodes
    * @param local_workspace :: The workspace to place the data in
    */
    void LoadISISNexus2::loadPeriodData(int64_t period, NXEntry & entry, DataObjects::Workspace2D_sptr local_workspace)
    {
      int64_t hist_index = 0;
      int64_t period_index(period - 1);
      int64_t first_monitor_spectrum = 0;

      if( !m_monitors.empty() )
      {
        first_monitor_spectrum = m_monitors.begin()->first;
        hist_index = first_monitor_spectrum - 1;
        for(std::map<int64_t,std::string>::const_iterator it = m_monitors.begin();
          it != m_monitors.end(); ++it)
        {
          NXData monitor = entry.openNXData(it->second);
          NXInt mondata = monitor.openIntData();
          m_progress->report("Loading monitor");
          mondata.load(1,static_cast<int>(period-1)); // TODO this is just wrong
          MantidVec& Y = local_workspace->dataY(hist_index);
          Y.assign(mondata(),mondata() + m_numberOfChannels);
          MantidVec& E = local_workspace->dataE(hist_index);
          std::transform(Y.begin(), Y.end(), E.begin(), dblSqrt);
          local_workspace->getAxis(1)->spectraNo(hist_index) = static_cast<specid_t>(it->first);

          NXFloat timeBins = monitor.openNXFloat("time_of_flight");
          timeBins.load();
          local_workspace->dataX(hist_index).assign(timeBins(),timeBins() + timeBins.dim0());
          hist_index++;
        }

        if (first_monitor_spectrum > 1)
        {
          hist_index = 0;
        }
      }
      
      if( m_have_detector )
      {
        NXData nxdata = entry.openNXData("detector_1");
        NXDataSetTyped<int> data = nxdata.openIntData();
        data.open();
        //Start with thelist members that are lower than the required spectrum
        const int * const spec_begin = m_spec.get();
        std::vector<int64_t>::iterator min_end = m_spec_list.end();
        if( !m_spec_list.empty() )
        {
          // If we have a list, by now it is ordered so first pull in the range below the starting block range
          // Note the reverse iteration as we want the last one
          if( m_range_supplied )
          {
            min_end = std::find_if(m_spec_list.begin(), m_spec_list.end(), std::bind2nd(std::greater<int>(), m_spec_min));
          }

          for( std::vector<int64_t>::iterator itr = m_spec_list.begin(); itr < min_end; ++itr )
          {
            // Load each
            int64_t spectra_no = (*itr);
            // For this to work correctly, we assume that the spectrum list increases monotonically
            int64_t filestart = std::lower_bound(spec_begin,m_spec_end,spectra_no) - spec_begin;
            m_progress->report("Loading data");
            loadBlock(data, static_cast<int64_t>(1), period_index, filestart, hist_index, spectra_no, local_workspace);
          }
        }    

        if( m_range_supplied )
        {
          // When reading in blocks we need to be careful that the range is exactly divisible by the blocksize
          // and if not have an extra read of the left overs
          const int64_t blocksize = 8;
          const int64_t rangesize = (m_spec_max - m_spec_min + 1) - m_monitors.size();
          const int64_t fullblocks = rangesize / blocksize;
          int64_t read_stop = 0;
          int64_t spectra_no = m_spec_min;
          if (first_monitor_spectrum == 1)
          {// this if crudely checks whether the monitors are at the begining or end of the spectra
            spectra_no += static_cast<int>(m_monitors.size());
          }
          // For this to work correctly, we assume that the spectrum list increases monotonically
          int64_t filestart = std::lower_bound(spec_begin,m_spec_end,spectra_no) - spec_begin;
          if( fullblocks > 0 )
          {
            read_stop = (fullblocks * blocksize);// + m_monitors.size(); //RNT: I think monitors are excluded from the data
            //for( ; hist_index < read_stop; )
            for(int64_t i = 0; i < fullblocks; ++i)
            {
              loadBlock(data, blocksize, period_index, filestart, hist_index, spectra_no, local_workspace);
              filestart += blocksize;
            }
          }
          int64_t finalblock = rangesize - (fullblocks * blocksize);
          if( finalblock > 0 )
          {
            loadBlock(data, finalblock, period_index, filestart, hist_index, spectra_no,  local_workspace);
          }
        }

        //Load in the last of the list indices
        for( std::vector<int64_t>::iterator itr = min_end; itr < m_spec_list.end(); ++itr )
        {
          // Load each
          int64_t spectra_no = (*itr);
          // For this to work correctly, we assume that the spectrum list increases monotonically
          int64_t filestart = std::lower_bound(spec_begin,m_spec_end,spectra_no) - spec_begin;
          loadBlock(data, 1, period_index, filestart, hist_index, spectra_no, local_workspace);
        }
      }

      try
      {
        const std::string title = entry.getString("title");
        local_workspace->setTitle(title);
        // write the title into the log file (run object)
        local_workspace->mutableRun().addProperty("run_title", title, true);
      }
      catch (std::runtime_error &)
      {
        g_log.debug() << "No title was found in the input file, " << getPropertyValue("Filename") << std::endl;
      }
    }
Exemplo n.º 6
0
/**
* Load a given period into the workspace
* @param period :: The period number to load (starting from 1)
* @param entry :: The opened root entry node for accessing the monitor and data
* nodes
* @param local_workspace :: The workspace to place the data in
* @param update_spectra2det_mapping :: reset spectra-detector map to the one
* calculated earlier. (Warning! -- this map has to be calculated correctly!)
*/
void
LoadISISNexus2::loadPeriodData(int64_t period, NXEntry &entry,
                               DataObjects::Workspace2D_sptr &local_workspace,
                               bool update_spectra2det_mapping) {
  int64_t hist_index = 0;
  int64_t period_index(period - 1);
  // int64_t first_monitor_spectrum = 0;

  for (auto block = m_spectraBlocks.begin(); block != m_spectraBlocks.end();
       ++block) {
    if (block->isMonitor) {
      NXData monitor = entry.openNXData(block->monName);
      NXInt mondata = monitor.openIntData();
      m_progress->report("Loading monitor");
      mondata.load(1, static_cast<int>(period - 1)); // TODO this is just wrong
      MantidVec &Y = local_workspace->dataY(hist_index);
      Y.assign(mondata(), mondata() + m_monBlockInfo.numberOfChannels);
      MantidVec &E = local_workspace->dataE(hist_index);
      std::transform(Y.begin(), Y.end(), E.begin(), dblSqrt);

      if (update_spectra2det_mapping) {
        // local_workspace->getAxis(1)->setValue(hist_index,
        // static_cast<specid_t>(it->first));
        auto spec = local_workspace->getSpectrum(hist_index);
        specid_t specID = m_specInd2specNum_map.at(hist_index);
        spec->setDetectorIDs(
            m_spec2det_map.getDetectorIDsForSpectrumNo(specID));
        spec->setSpectrumNo(specID);
      }

      NXFloat timeBins = monitor.openNXFloat("time_of_flight");
      timeBins.load();
      local_workspace->dataX(hist_index)
          .assign(timeBins(), timeBins() + timeBins.dim0());
      hist_index++;
    } else if (m_have_detector) {
      NXData nxdata = entry.openNXData("detector_1");
      NXDataSetTyped<int> data = nxdata.openIntData();
      data.open();
      // Start with the list members that are lower than the required spectrum
      const int *const spec_begin = m_spec.get();
      // When reading in blocks we need to be careful that the range is exactly
      // divisible by the block-size
      // and if not have an extra read of the left overs
      const int64_t blocksize = 8;
      const int64_t rangesize = block->last - block->first + 1;
      const int64_t fullblocks = rangesize / blocksize;
      int64_t spectra_no = block->first;

      // For this to work correctly, we assume that the spectrum list increases
      // monotonically
      int64_t filestart =
          std::lower_bound(spec_begin, m_spec_end, spectra_no) - spec_begin;
      if (fullblocks > 0) {
        for (int64_t i = 0; i < fullblocks; ++i) {
          loadBlock(data, blocksize, period_index, filestart, hist_index,
                    spectra_no, local_workspace);
          filestart += blocksize;
        }
      }
      int64_t finalblock = rangesize - (fullblocks * blocksize);
      if (finalblock > 0) {
        loadBlock(data, finalblock, period_index, filestart, hist_index,
                  spectra_no, local_workspace);
      }
    }
  }

  try {
    const std::string title = entry.getString("title");
    local_workspace->setTitle(title);
    // write the title into the log file (run object)
    local_workspace->mutableRun().addProperty("run_title", title, true);
  } catch (std::runtime_error &) {
    g_log.debug() << "No title was found in the input file, "
                  << getPropertyValue("Filename") << std::endl;
  }
}