Exemplo n.º 1
0
void setXValuesOn1DWorkspaceWithPointData(
    Mantid::API::MatrixWorkspace_sptr workspace, double xmin, double xmax) {
  auto &xValues = workspace->dataX(0);
  auto size = xValues.size();
  double binWidth = (xmax - xmin) / static_cast<double>(size - 1);
  for (size_t index = 0; index < size; ++index) {
    xValues[index] = xmin;
    xmin += binWidth;
  }
}
Exemplo n.º 2
0
/**
 * Sum counts in detectors for purposes of rough plotting against the units on the x-axis.
 * Assumes that all spectra have different x vectors.
 *
 * @param dets :: A list of detector IDs to sum.
 * @param x :: (output) Time of flight values (or whatever values the x axis has) to plot against.
 * @param y :: (output) The sums of the counts for each bin.
 * @param size :: (input) Size of the output vectors.
 */
void InstrumentActor::sumDetectorsRagged(QList<int> &dets, std::vector<double> &x, std::vector<double> &y, size_t size) const
{
    if ( dets.isEmpty() || size == 0 )
    {
        x.clear();
        y.clear();
        return;
    }

    Mantid::API::MatrixWorkspace_const_sptr ws = getWorkspace();
    //  create a workspace to hold the data from the selected detectors
    Mantid::API::MatrixWorkspace_sptr dws = Mantid::API::WorkspaceFactory::Instance().create(ws,dets.size());

    // x-axis limits
    double xStart = maxBinValue();
    double xEnd = minBinValue();

    size_t nSpec = 0; // number of actual spectra to add
    // fill in the temp workspace with the data from the detectors
    foreach(int id, dets)
    {
        try {
            size_t index = getWorkspaceIndex( id );
            dws->dataX(nSpec) = ws->readX(index);
            dws->dataY(nSpec) = ws->readY(index);
            dws->dataE(nSpec) = ws->readE(index);
            double xmin = dws->readX(nSpec).front();
            double xmax = dws->readX(nSpec).back();
            if ( xmin < xStart )
            {
                xStart = xmin;
            }
            if ( xmax > xEnd )
            {
                xEnd = xmax;
            }
            ++nSpec;
        } catch (Mantid::Kernel::Exception::NotFoundError &) {
            continue; // Detector doesn't have a workspace index relating to it
        }
    }

    if ( nSpec == 0 )
    {
        x.clear();
        y.clear();
        return;
    }

    // limits should exceed the integration range
    if ( xStart < minBinValue() )
    {
        xStart = minBinValue();
    }

    if ( xEnd > maxBinValue() )
    {
        xEnd = maxBinValue();
    }

    double dx = (xEnd - xStart) / static_cast<double>(size - 1);
    std::string params = QString("%1,%2,%3").arg(xStart).arg(dx).arg(xEnd).toStdString();
    std::string outName = "_TMP_sumDetectorsRagged";

    try
    {
        // rebin all spectra to the same binning
        Mantid::API::IAlgorithm * alg = Mantid::API::FrameworkManager::Instance().createAlgorithm("Rebin",-1);
        alg->setProperty( "InputWorkspace", dws );
        alg->setPropertyValue( "OutputWorkspace", outName );
        alg->setPropertyValue( "Params", params );
        alg->execute();

        ws = boost::dynamic_pointer_cast<Mantid::API::MatrixWorkspace>(Mantid::API::AnalysisDataService::Instance().retrieve(outName));
        Mantid::API::AnalysisDataService::Instance().remove( outName );

        x = ws->readX(0);
        y = ws->readY(0);
        // add the spectra
        for(size_t i = 0; i < nSpec; ++i)
        {
            const Mantid::MantidVec& Y = ws->readY(i);
            std::transform( y.begin(), y.end(), Y.begin(), y.begin(), std::plus<double>() );
        }
    }
    catch(std::invalid_argument&)
    {
        // wrong Params for any reason
        x.resize(size,(xEnd + xStart)/2);
        y.resize(size,0.0);
    }

}