/**
 * Get the viewable peaks. Essentially copied from the slice viewer.
 * @returns A vector indicating which of the peaks are viewable.
 */
std::vector<bool> ConcretePeaksPresenterVsi::getViewablePeaks() const {
  // Need to apply a transform.
  // Don't bother to find peaks in the region if there are no peaks to find.
  Mantid::API::ITableWorkspace_sptr outTable;

  if (this->m_peaksWorkspace->getNumberPeaks() >= 1) {
    double effectiveRadius = 1e-2;
    std::string viewable = m_viewableRegion->toExtentsAsString();
    Mantid::API::IPeaksWorkspace_sptr peaksWS = m_peaksWorkspace;

    Mantid::API::IAlgorithm_sptr alg =
        Mantid::API::AlgorithmManager::Instance().create("PeaksInRegion");
    alg->setChild(true);
    alg->setRethrows(true);
    alg->initialize();
    alg->setProperty("InputWorkspace", peaksWS);
    alg->setProperty("OutputWorkspace", peaksWS->name() + "_peaks_in_region");
    alg->setProperty("Extents", viewable);
    alg->setProperty("CheckPeakExtents", true);
    alg->setProperty("PeakRadius", effectiveRadius);
    alg->setPropertyValue("CoordinateFrame", m_frame);
    alg->execute();
    outTable = alg->getProperty("OutputWorkspace");
    std::vector<bool> viewablePeaks(outTable->rowCount());
    for (size_t i = 0; i < outTable->rowCount(); ++i) {
      viewablePeaks[i] = outTable->cell<Mantid::API::Boolean>(i, 1);
    }
    m_viewablePeaks = viewablePeaks;
  } else {
    // No peaks will be viewable
    m_viewablePeaks = std::vector<bool>();
  }

  return m_viewablePeaks;
}
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bool ConcretePeaksPresenter::deletePeaksIn(PeakBoundingBox box) {

  Left left(box.left());
  Right right(box.right());
  Bottom bottom(box.bottom());
  Top top(box.top());
  SlicePoint slicePoint(box.slicePoint());
  if (slicePoint() < 0) { // indicates that it should not be used.
    slicePoint = SlicePoint(m_slicePoint.slicePoint());
  }

  PeakBoundingBox accurateBox(
      left, right, top, bottom,
      slicePoint /*Use the current slice position, previously unknown.*/);

  // Tranform box from plot coordinates into orderd HKL, Qx,Qy,Qz etc, then find
  // the visible peaks.
  std::vector<size_t> deletionIndexList = findVisiblePeakIndexes(accurateBox);

  // If we have things to remove, do that in one-step.
  if (!deletionIndexList.empty()) {

    Mantid::API::IPeaksWorkspace_sptr peaksWS =
        boost::const_pointer_cast<Mantid::API::IPeaksWorkspace>(
            this->m_peaksWS);
    // Sort the Peaks in-place.
    Mantid::API::IAlgorithm_sptr alg =
        AlgorithmManager::Instance().create("DeleteTableRows");
    alg->setChild(true);
    alg->setRethrows(true);
    alg->initialize();
    alg->setProperty("TableWorkspace", peaksWS);
    alg->setProperty("Rows", deletionIndexList);
    alg->execute();

    // Reproduce the views. Proxy representations recreated for all peaks.
    this->produceViews();

    // Refind visible peaks and Set the proxy representations to be visible or
    // not.
    doFindPeaksInRegion();

    // Upstream controls need to be regenerated.
    this->informOwnerUpdate();
  }
  return !deletionIndexList.empty();
}
/**
 * Sorts the peak workspace by a specified column name in ascending or
 * descending order.
 * @param byColumnName The column by which the workspace is to be sorted.
 * @param ascending If the workspace is to be sorted in a ascending or
 * descending manner.
 */
void ConcretePeaksPresenterVsi::sortPeaksWorkspace(
    const std::string &byColumnName, const bool ascending) {
  Mantid::API::IPeaksWorkspace_sptr peaksWS =
      boost::const_pointer_cast<Mantid::API::IPeaksWorkspace>(
          this->m_peaksWorkspace);

  // Sort the Peaks in-place.
  Mantid::API::IAlgorithm_sptr alg =
      Mantid::API::AlgorithmManager::Instance().create("SortPeaksWorkspace");
  alg->setChild(true);
  alg->setRethrows(true);
  alg->initialize();
  alg->setProperty("InputWorkspace", peaksWS);
  alg->setPropertyValue("OutputWorkspace", "SortedPeaksWorkspace");
  alg->setProperty("OutputWorkspace", peaksWS);
  alg->setProperty("SortAscending", ascending);
  alg->setPropertyValue("ColumnNameToSortBy", byColumnName);
  alg->execute();
}
Esempio n. 4
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std::vector<size_t>
ConcretePeaksPresenter::findVisiblePeakIndexes(const PeakBoundingBox &box) {
  std::vector<size_t> indexes;
  // Don't bother to find peaks in the region if there are no peaks to find.
  if (this->m_peaksWS->getNumberPeaks() >= 1) {

    double radius =
        m_viewPeaks
            ->getRadius(); // Effective radius of each peak representation.

    Mantid::API::IPeaksWorkspace_sptr peaksWS =
        boost::const_pointer_cast<Mantid::API::IPeaksWorkspace>(
            this->m_peaksWS);

    PeakBoundingBox transformedViewableRegion = box.makeSliceBox(radius);

    transformedViewableRegion.transformBox(m_transform);

    Mantid::API::IAlgorithm_sptr alg =
        AlgorithmManager::Instance().create("PeaksInRegion");
    alg->setChild(true);
    alg->setRethrows(true);
    alg->initialize();
    alg->setProperty("InputWorkspace", peaksWS);
    alg->setProperty("OutputWorkspace", peaksWS->name() + "_peaks_in_region");
    alg->setProperty("Extents", transformedViewableRegion.toExtents());
    alg->setProperty("CheckPeakExtents", false); // consider all peaks as points
    alg->setProperty("PeakRadius", radius);
    alg->setPropertyValue("CoordinateFrame", m_transform->getFriendlyName());
    alg->execute();
    ITableWorkspace_sptr outTable = alg->getProperty("OutputWorkspace");

    for (size_t i = 0; i < outTable->rowCount(); ++i) {
      const bool insideRegion = outTable->cell<Boolean>(i, 1);
      if (insideRegion) {
        indexes.push_back(i);
      }
    }
  }
  return indexes;
}
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bool ConcretePeaksPresenter::addPeakAt(double plotCoordsPointX,
                                       double plotCoordsPointY) {
  V3D plotCoordsPoint(plotCoordsPointX, plotCoordsPointY,
                      m_slicePoint.slicePoint());
  V3D hkl = m_transform->transformBack(plotCoordsPoint);

  Mantid::API::IPeaksWorkspace_sptr peaksWS =
      boost::const_pointer_cast<Mantid::API::IPeaksWorkspace>(this->m_peaksWS);

  Mantid::API::IAlgorithm_sptr alg =
      AlgorithmManager::Instance().create("AddPeakHKL");
  alg->setChild(true);
  alg->setRethrows(true);
  alg->initialize();
  alg->setProperty("Workspace", peaksWS);
  alg->setProperty("HKL", std::vector<double>(hkl));

  // Execute the algorithm
  try {
    alg->execute();
  } catch (...) {
    g_log.warning("ConcretePeaksPresenter: Could not add the peak. Make sure "
                  "that it is added within a valid workspace region");
  }

  // Reproduce the views. Proxy representations recreated for all peaks.
  this->produceViews();

  // Refind visible peaks and Set the proxy representations to be visible or
  // not.
  doFindPeaksInRegion();

  // Upstream controls need to be regenerated.
  this->informOwnerUpdate();

  return alg->isExecuted();
}
Esempio n. 6
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void ConcretePeaksPresenter::sortPeaksWorkspace(const std::string &byColumnName,
                                                const bool ascending) {
  Mantid::API::IPeaksWorkspace_sptr peaksWS =
      boost::const_pointer_cast<Mantid::API::IPeaksWorkspace>(this->m_peaksWS);

  // Sort the Peaks in-place.
  Mantid::API::IAlgorithm_sptr alg =
      AlgorithmManager::Instance().create("SortPeaksWorkspace");
  alg->setChild(true);
  alg->setRethrows(true);
  alg->initialize();
  alg->setProperty("InputWorkspace", peaksWS);
  alg->setPropertyValue("OutputWorkspace", "SortedPeaksWorkspace");
  alg->setProperty("OutputWorkspace", peaksWS);
  alg->setProperty("SortAscending", ascending);
  alg->setPropertyValue("ColumnNameToSortBy", byColumnName);
  alg->execute();

  // Reproduce the views.
  this->produceViews();

  // Give the new views the current slice point.
  m_viewPeaks->setSlicePoint(this->m_slicePoint.slicePoint(), m_viewablePeaks);
}
Esempio n. 7
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/**
 * Groups the workspace according to grouping provided.
 *
 * @param ws :: Workspace to group
 * @param  g :: The grouping information
 * @return Sptr to created grouped workspace
 */
MatrixWorkspace_sptr groupWorkspace(MatrixWorkspace_const_sptr ws, const Grouping& g)
{
  // As I couldn't specify multiple groups for GroupDetectors, I am going down quite a complicated
  // route - for every group distinct grouped workspace is created using GroupDetectors. These
  // workspaces are then merged into the output workspace.

  // Create output workspace
  MatrixWorkspace_sptr outWs =
    WorkspaceFactory::Instance().create(ws, g.groups.size(), ws->readX(0).size(), ws->blocksize());

  for(size_t gi = 0; gi < g.groups.size(); gi++)
  {
    Mantid::API::IAlgorithm_sptr alg = AlgorithmManager::Instance().create("GroupDetectors");
    alg->setChild(true); // So Output workspace is not added to the ADS
    alg->initialize();
    alg->setProperty("InputWorkspace", boost::const_pointer_cast<MatrixWorkspace>(ws));
    alg->setPropertyValue("SpectraList", g.groups[gi]);
    alg->setPropertyValue("OutputWorkspace", "grouped"); // Is not actually used, just to make validators happy
    alg->execute();

    MatrixWorkspace_sptr grouped = alg->getProperty("OutputWorkspace");

    // Copy the spectrum
    *(outWs->getSpectrum(gi)) = *(grouped->getSpectrum(0));

    // Update spectrum number
    outWs->getSpectrum(gi)->setSpectrumNo(static_cast<specid_t>(gi));

    // Copy to the output workspace
    outWs->dataY(gi) = grouped->readY(0);
    outWs->dataX(gi) = grouped->readX(0);
    outWs->dataE(gi) = grouped->readE(0);
  }

  return outWs;
}