Example #1
0
/**
 * Setup a detector cache for randomly picking IDs from the first
 * instrument in the ExperimentInfo list.
 * @param workspace The input workspace
 */
void FakeMD::setupDetectorCache(const API::IMDEventWorkspace &workspace) {
  try {
    auto inst = workspace.getExperimentInfo(0)->getInstrument();
    m_detIDs = inst->getDetectorIDs(true); // true=skip monitors
    size_t max = m_detIDs.size() - 1;
    m_uniformDist = boost::uniform_int<size_t>(0, max); // Includes max
  } catch (std::invalid_argument &) {
  }
}
Example #2
0
/**
 * Setup a detector cache for randomly picking IDs from the first
 * instrument in the ExperimentInfo list.
 * @param ws :: The input workspace
 */
void FakeMDEventData::setupDetectorCache(const API::IMDEventWorkspace &ws) {
  try {
    Geometry::Instrument_const_sptr inst =
        ws.getExperimentInfo(0)->getInstrument();
    m_detIDs = inst->getDetectorIDs(true); // true=skip monitors
    size_t max = m_detIDs.size() - 1;
    m_uniformDist = boost::uniform_int<size_t>(0, max); // Includes max
  } catch (std::invalid_argument &) {
    g_log.information("Cannot retrieve instrument from input workspace, "
                      "detector information will be garbage.");
  }
}
Example #3
0
/**
 * Create an output event workspace filled with data simulated with the fitting
 * function.
 * @param baseName :: The base name for the workspace
 * @param inputWorkspace :: The input workspace.
 * @param values :: The calculated values
 * @param outputWorkspacePropertyName :: The property name
 */
boost::shared_ptr<API::Workspace> FitMD::createEventOutputWorkspace(
    const std::string &baseName, const API::IMDEventWorkspace &inputWorkspace,
    const API::FunctionValues &values,
    const std::string &outputWorkspacePropertyName) {
  auto outputWS =
      MDEventFactory::CreateMDWorkspace(inputWorkspace.getNumDims(), "MDEvent");
  // Add events
  // TODO: Generalize to ND (the current framework is a bit limiting)
  auto mdWS = boost::dynamic_pointer_cast<
      DataObjects::MDEventWorkspace<DataObjects::MDEvent<4>, 4>>(outputWS);
  if (!mdWS) {
    return boost::shared_ptr<API::Workspace>();
  }

  // Bins extents and meta data
  for (size_t i = 0; i < 4; ++i) {
    boost::shared_ptr<const Geometry::IMDDimension> inputDim =
        inputWorkspace.getDimension(i);
    Geometry::MDHistoDimensionBuilder builder;
    builder.setName(inputDim->getName());
    builder.setId(inputDim->getDimensionId());
    builder.setUnits(inputDim->getUnits());
    builder.setNumBins(inputDim->getNBins());
    builder.setMin(inputDim->getMinimum());
    builder.setMax(inputDim->getMaximum());
    builder.setFrameName(inputDim->getMDFrame().name());

    outputWS->addDimension(builder.create());
  }

  // Run information
  outputWS->copyExperimentInfos(inputWorkspace);
  // Coordinates
  outputWS->setCoordinateSystem(inputWorkspace.getSpecialCoordinateSystem());
  // Set sensible defaults for splitting behaviour
  BoxController_sptr bc = outputWS->getBoxController();
  bc->setSplitInto(3);
  bc->setSplitThreshold(3000);
  outputWS->initialize();
  outputWS->splitBox();

  auto inputIter = inputWorkspace.createIterator();
  size_t resultValueIndex(0);
  const float errorSq = 0.0;
  do {
    const size_t numEvents = inputIter->getNumEvents();
    const float signal =
        static_cast<float>(values.getCalculated(resultValueIndex));
    for (size_t i = 0; i < numEvents; ++i) {
      coord_t centers[4] = {
          inputIter->getInnerPosition(i, 0), inputIter->getInnerPosition(i, 1),
          inputIter->getInnerPosition(i, 2), inputIter->getInnerPosition(i, 3)};
      mdWS->addEvent(MDEvent<4>(signal, errorSq, inputIter->getInnerRunIndex(i),
                                inputIter->getInnerDetectorID(i), centers));
    }
    ++resultValueIndex;
  } while (inputIter->next());
  delete inputIter;

  // This splits up all the boxes according to split thresholds and sizes.
  auto threadScheduler = new Kernel::ThreadSchedulerFIFO();
  Kernel::ThreadPool threadPool(threadScheduler);
  outputWS->splitAllIfNeeded(threadScheduler);
  threadPool.joinAll();
  outputWS->refreshCache();

  // Store it
  if (!outputWorkspacePropertyName.empty()) {
    declareProperty(
        new API::WorkspaceProperty<API::IMDEventWorkspace>(
            outputWorkspacePropertyName, "", Direction::Output),
        "Name of the output Workspace holding resulting simulated spectrum");
    m_manager->setPropertyValue(outputWorkspacePropertyName,
                                baseName + "Workspace");
    m_manager->setProperty(outputWorkspacePropertyName, outputWS);
  }

  return outputWS;
}