/** Do the initial copy of the data from the input to the output workspace for
 * histogram workspaces.
 *  Takes out the bin width if necessary.
 *  @param inputWS  The input workspace
 *  @param outputWS The output workspace
 */
void ConvertUnitsUsingDetectorTable::fillOutputHist(
    const API::MatrixWorkspace_const_sptr inputWS,
    const API::MatrixWorkspace_sptr outputWS) {
  const int size = static_cast<int>(inputWS->blocksize());

  // Loop over the histograms (detector spectra)
  Progress prog(this, 0.0, 0.2, m_numberOfSpectra);
  int64_t numberOfSpectra_i =
      static_cast<int64_t>(m_numberOfSpectra); // cast to make openmp happy
  PARALLEL_FOR2(inputWS, outputWS)
  for (int64_t i = 0; i < numberOfSpectra_i; ++i) {
    PARALLEL_START_INTERUPT_REGION
    // Take the bin width dependency out of the Y & E data
    if (m_distribution) {
      for (int j = 0; j < size; ++j) {
        const double width =
            std::abs(inputWS->dataX(i)[j + 1] - inputWS->dataX(i)[j]);
        outputWS->dataY(i)[j] = inputWS->dataY(i)[j] * width;
        outputWS->dataE(i)[j] = inputWS->dataE(i)[j] * width;
      }
    } else {
      // Just copy over
      outputWS->dataY(i) = inputWS->readY(i);
      outputWS->dataE(i) = inputWS->readE(i);
    }
    // Copy over the X data
    outputWS->setX(i, inputWS->refX(i));

    prog.report("Convert to " + m_outputUnit->unitID());
    PARALLEL_END_INTERUPT_REGION
  }
  PARALLEL_CHECK_INTERUPT_REGION
}
Esempio n. 2
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/** Execute the algorithm.
 */
void DampSq::exec()
{
    // TODO Auto-generated execute stub

    // 1. Generate new workspace
    API::MatrixWorkspace_const_sptr isqspace = getProperty("InputWorkspace");
    API::MatrixWorkspace_sptr osqspace = WorkspaceFactory::Instance().create(isqspace, 1, isqspace->size(), isqspace->size());

    int mode = getProperty("Mode");
    double qmax = getProperty("QMax");

    if (mode < 1 || mode > 4) {
        g_log.error("Damp mode can only be 1, 2, 3, or 4");
        return;
    }

    // 2. Get access to all
    const MantidVec& iQVec = isqspace->dataX(0);
    const MantidVec& iSVec = isqspace->dataY(0);
    const MantidVec& iEVec = isqspace->dataE(0);

    MantidVec& oQVec = osqspace->dataX(0);
    MantidVec& oSVec = osqspace->dataY(0);
    MantidVec& oEVec = osqspace->dataE(0);

    // 3. Calculation
    double dqmax = qmax - iQVec[0];

    double damp;
    for (unsigned int i = 0; i < iQVec.size(); i ++) {
        // a) calculate damp coefficient
        switch (mode) {
        case 1:
            damp = dampcoeff1(iQVec[i], qmax, dqmax);
            break;
        case 2:
            damp = dampcoeff2(iQVec[i], qmax, dqmax);;
            break;
        case 3:
            damp = dampcoeff3(iQVec[i], qmax, dqmax);;
            break;
        case 4:
            damp = dampcoeff4(iQVec[i], qmax, dqmax);;
            break;
        default:
            damp = 0;
            break;
        }
        // b) calculate new S(q)
        oQVec[i] = iQVec[i];
        oSVec[i] = 1 + damp*(iSVec[i]-1);
        oEVec[i] = damp*iEVec[i];
    }  // i

    // 4. Over
    setProperty("OutputWorkspace", osqspace);

    return;
}
Esempio n. 3
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/** Initialization method:
@param bkgWS    -- shared pointer to the workspace which contains background
@param sourceWS -- shared pointer to the workspace to remove background from
@param emode    -- energy conversion mode used during internal units conversion
(0 -- elastic, 1-direct, 2 indirect, as defined in Units conversion
@param pLog     -- pointer to the logger class which would report errors
@param nThreads -- number of threads to be used for background removal
@param inPlace  -- if the background removal occurs from the existing workspace
or target workspace has to be cloned.
*/
void BackgroundHelper::initialize(const API::MatrixWorkspace_const_sptr &bkgWS,
                                  const API::MatrixWorkspace_sptr &sourceWS,
                                  int emode, Kernel::Logger *pLog, int nThreads,
                                  bool inPlace) {
  m_bgWs = bkgWS;
  m_wkWS = sourceWS;
  m_Emode = emode;
  m_pgLog = pLog;
  m_inPlace = inPlace;

  std::string bgUnits = bkgWS->getAxis(0)->unit()->unitID();
  if (bgUnits != "TOF")
    throw std::invalid_argument(" Background Workspace: " + bkgWS->getName() +
                                " should be in the units of TOF");

  if (!(bkgWS->getNumberHistograms() == 1 ||
        sourceWS->getNumberHistograms() == bkgWS->getNumberHistograms()))
    throw std::invalid_argument(" Background Workspace: " + bkgWS->getName() +
                                " should have the same number of spectra as "
                                "source workspace or be a single histogram "
                                "workspace");

  auto WSUnit = sourceWS->getAxis(0)->unit();
  if (!WSUnit)
    throw std::invalid_argument(" Source Workspace: " + sourceWS->getName() +
                                " should have units");

  Geometry::IComponent_const_sptr source =
      sourceWS->getInstrument()->getSource();
  m_Sample = sourceWS->getInstrument()->getSample();
  if ((!source) || (!m_Sample))
    throw std::invalid_argument(
        "Instrument on Source workspace:" + sourceWS->getName() +
        "is not sufficiently defined: failed to get source and/or sample");
  m_L1 = source->getDistance(*m_Sample);

  // just in case.
  this->deleteUnitsConverters();
  // allocate the array of units converters to avoid units reallocation within a
  // loop
  m_WSUnit.assign(nThreads, NULL);
  for (int i = 0; i < nThreads; i++) {
    m_WSUnit[i] = WSUnit->clone();
  }

  m_singleValueBackground = false;
  if (bkgWS->getNumberHistograms() == 0)
    m_singleValueBackground = true;
  const MantidVec &dataX = bkgWS->dataX(0);
  const MantidVec &dataY = bkgWS->dataY(0);
  // const MantidVec& dataE = bkgWS->dataE(0);
  m_NBg = dataY[0];
  m_dtBg = dataX[1] - dataX[0];
  // m_ErrSq  = dataE[0]*dataE[0]; // needs further clarification

  m_Efix = this->getEi(sourceWS);
}