コード例 #1
0
ファイル: MaskPeaksWorkspace.cpp プロジェクト: mducle/mantid
int MaskPeaksWorkspace::findPixelID(std::string bankName, int col, int row) {
  Geometry::Instrument_const_sptr Iptr = m_inputW->getInstrument();
  boost::shared_ptr<const IComponent> parent =
      Iptr->getComponentByName(bankName);
  if (parent->type().compare("RectangularDetector") == 0) {
    boost::shared_ptr<const RectangularDetector> RDet =
        boost::dynamic_pointer_cast<const RectangularDetector>(parent);

    boost::shared_ptr<Detector> pixel = RDet->getAtXY(col, row);
    return pixel->getID();
  } else {
    std::string bankName0 = bankName;
    // Only works for WISH
    bankName0.erase(0, 4);
    std::ostringstream pixelString;
    pixelString << Iptr->getName() << "/" << bankName0 << "/" << bankName
                << "/tube" << std::setw(3) << std::setfill('0') << col
                << "/pixel" << std::setw(4) << std::setfill('0') << row;
    boost::shared_ptr<const Geometry::IComponent> component =
        Iptr->getComponentByName(pixelString.str());
    boost::shared_ptr<const Detector> pixel =
        boost::dynamic_pointer_cast<const Detector>(component);
    return pixel->getID();
  }
}
コード例 #2
0
Peak PeakHKLErrors::createNewPeak(const Geometry::IPeak &peak_old,
                                  Geometry::Instrument_sptr instrNew, double T0,
                                  double L0) {
  Geometry::Instrument_const_sptr inst = peak_old.getInstrument();
  if (inst->getComponentID() != instrNew->getComponentID()) {
    g_log.error("All peaks must have the same instrument");
    throw std::invalid_argument("All peaks must have the same instrument");
  }

  double T = peak_old.getTOF() + T0;

  int ID = peak_old.getDetectorID();

  Kernel::V3D hkl = peak_old.getHKL();
  // peak_old.setDetectorID(ID); //set det positions
  Peak peak(instrNew, ID, peak_old.getWavelength(), hkl,
            peak_old.getGoniometerMatrix());

  Wavelength wl;

  wl.initialize(L0, peak.getL2(), peak.getScattering(), 0,
                peak_old.getInitialEnergy(), 0.0);

  peak.setWavelength(wl.singleFromTOF(T));
  peak.setIntensity(peak_old.getIntensity());
  peak.setSigmaIntensity(peak_old.getSigmaIntensity());
  peak.setRunNumber(peak_old.getRunNumber());
  peak.setBinCount(peak_old.getBinCount());

  //!!!peak.setDetectorID(ID);
  return peak;
}
コード例 #3
0
/**
 * Apply any instrument adjustments from the file
 * @param filename :: The file to take the positions
 */
void CreateSimulationWorkspace::adjustInstrument(const std::string &filename) {
  // If requested update the instrument to positions in the raw file
  const Geometry::ParameterMap &pmap = m_outputWS->instrumentParameters();
  Geometry::Instrument_const_sptr instrument = m_outputWS->getInstrument();
  boost::shared_ptr<Geometry::Parameter> updateDets =
      pmap.get(instrument->getComponentID(), "det-pos-source");
  if (!updateDets)
    return; // No tag, use IDF

  std::string value = updateDets->value<std::string>();
  if (value.substr(0, 8) == "datafile") {
    IAlgorithm_sptr updateInst =
        createChildAlgorithm("UpdateInstrumentFromFile", 0.75, 1.0);
    updateInst->setProperty<MatrixWorkspace_sptr>("Workspace", m_outputWS);
    updateInst->setPropertyValue("Filename", filename);
    if (value == "datafile-ignore-phi") {
      updateInst->setProperty("IgnorePhi", true);
      g_log.information("Detector positions in IDF updated with positions in "
                        "the data file except for the phi values");
    } else {
      g_log.information(
          "Detector positions in IDF updated with positions in the data file");
    }
    // We want this to throw if it fails to warn the user that the information
    // is not correct.
    updateInst->execute();
  }
}
コード例 #4
0
ファイル: LoadILLSANS.cpp プロジェクト: liyulun/mantid
/**
 * Get position in space of a componentName
 */
V3D LoadILLSANS::getComponentPosition(const std::string &componentName) {
  Geometry::Instrument_const_sptr instrument =
      m_localWorkspace->getInstrument();
  Geometry::IComponent_const_sptr component =
      instrument->getComponentByName(componentName);
  return component->getPos();
}
コード例 #5
0
ファイル: LoadILLIndirect.cpp プロジェクト: dezed/mantid
void LoadILLIndirect::moveComponent(const std::string &componentName,
                                    double twoTheta, double offSet) {

  try {

    Geometry::Instrument_const_sptr instrument =
        m_localWorkspace->getInstrument();
    Geometry::IComponent_const_sptr component =
        instrument->getComponentByName(componentName);

    double r, theta, phi, newTheta, newR;
    V3D oldPos = component->getPos();
    oldPos.getSpherical(r, theta, phi);

    newTheta = twoTheta;
    newR = offSet;

    V3D newPos;
    newPos.spherical(newR, newTheta, phi);

    // g_log.debug() << tube->getName() << " : t = " << theta << " ==> t = " <<
    // newTheta << "\n";
    Geometry::ParameterMap &pmap = m_localWorkspace->instrumentParameters();
    Geometry::ComponentHelper::moveComponent(
        *component, pmap, newPos, Geometry::ComponentHelper::Absolute);

  } catch (Mantid::Kernel::Exception::NotFoundError &) {
    throw std::runtime_error("Error when trying to move the " + componentName +
                             " : NotFoundError");
  } catch (std::runtime_error &) {
    throw std::runtime_error("Error when trying to move the " + componentName +
                             " : runtime_error");
  }
}
コード例 #6
0
ファイル: LoadMask.cpp プロジェクト: DanNixon/mantid
/** Convert bank to detectors
* This routine has never been used. Dead code.
* @param   singlebanks -- vector of string containing bank names
* @param  detectors   -- vector of detector-id-s belonging to these banks
 */
void LoadMask::bankToDetectors(const std::vector<std::string> &singlebanks,
                               std::vector<detid_t> &detectors) {
  std::stringstream infoss;
  infoss << "Bank IDs to be converted to detectors: \n";
  for (auto &singlebank : singlebanks) {
    infoss << "Bank: " << singlebank << '\n';
  }
  g_log.debug(infoss.str());

  Geometry::Instrument_const_sptr minstrument = m_maskWS->getInstrument();

  for (auto &singlebank : singlebanks) {
    std::vector<Geometry::IDetector_const_sptr> idetectors;

    minstrument->getDetectorsInBank(idetectors, singlebank);
    g_log.debug() << "Bank: " << singlebank << " has " << idetectors.size()
                  << " detectors\n";

    // a) get information
    size_t numdets = idetectors.size();
    detid_t detid_first = idetectors.front()->getID();
    detid_t detid_last = idetectors.back()->getID();

    // b) set detectors

    for (const auto &det : idetectors) {
      detid_t detid = det->getID();
      detectors.push_back(detid);
    }
    g_log.debug() << "Number of Detectors in Bank  " << singlebank
                  << "  is: " << numdets << "\nRange From: " << detid_first
                  << " To: " << detid_last << '\n';

  } // ENDFOR
}
コード例 #7
0
bool CentroidPeaks::edgePixel(std::string bankName, int col, int row,
                              int Edge) {
    if (bankName.compare("None") == 0)
        return false;
    Geometry::Instrument_const_sptr Iptr = inWS->getInstrument();
    boost::shared_ptr<const IComponent> parent =
        Iptr->getComponentByName(bankName);
    if (parent->type().compare("RectangularDetector") == 0) {
        boost::shared_ptr<const RectangularDetector> RDet =
            boost::dynamic_pointer_cast<const RectangularDetector>(parent);

        return col < Edge || col >= (RDet->xpixels() - Edge) || row < Edge ||
               row >= (RDet->ypixels() - Edge);
    } else {
        std::vector<Geometry::IComponent_const_sptr> children;
        boost::shared_ptr<const Geometry::ICompAssembly> asmb =
            boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(parent);
        asmb->getChildren(children, false);
        boost::shared_ptr<const Geometry::ICompAssembly> asmb2 =
            boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(children[0]);
        std::vector<Geometry::IComponent_const_sptr> grandchildren;
        asmb2->getChildren(grandchildren, false);
        int NROWS = static_cast<int>(grandchildren.size());
        int NCOLS = static_cast<int>(children.size());
        // Wish pixels and tubes start at 1 not 0
        return col - 1 < Edge || col - 1 >= (NCOLS - Edge) || row - 1 < Edge ||
               row - 1 >= (NROWS - Edge);
    }
    return false;
}
コード例 #8
0
ファイル: LoadHelper.cpp プロジェクト: BigShows/mantid
 double LoadHelper::getL1(const API::MatrixWorkspace_sptr& workspace)
 {
   Geometry::Instrument_const_sptr instrument = workspace->getInstrument();
   Geometry::IComponent_const_sptr sample = instrument->getSample();
   double l1 = instrument->getSource()->getDistance(*sample);
   return l1;
 }
コード例 #9
0
ファイル: RemoveBins.cpp プロジェクト: trnielsen/mantid
/** Retrieves the detector postion for a given spectrum
 *  @param index ::    The workspace index of the spectrum
 *  @param l1 ::       Returns the source-sample distance
 *  @param l2 ::       Returns the sample-detector distance
 *  @param twoTheta :: Returns the detector's scattering angle
 */
void RemoveBins::calculateDetectorPosition(const int& index, double& l1, double& l2, double& twoTheta)
{
  // Get a pointer to the instrument contained in the workspace
  Geometry::Instrument_const_sptr instrument = m_inputWorkspace->getInstrument();
  // Get the distance between the source and the sample (assume in metres)
  Geometry::IObjComponent_const_sptr sample = instrument->getSample();
  // Check for valid instrument
  if (sample == NULL)
  {
    throw Exception::InstrumentDefinitionError("Instrument not sufficiently defined: failed to get sample");
  }

  l1 = instrument->getSource()->getDistance(*sample);
  Geometry::IDetector_const_sptr det = m_inputWorkspace->getDetector(index);
  // Get the sample-detector distance for this detector (in metres)
  if ( ! det->isMonitor() )
  {
    l2 = det->getDistance(*sample);
    // The scattering angle for this detector (in radians).
    twoTheta = m_inputWorkspace->detectorTwoTheta(det);
  }
  else  // If this is a monitor then make l1+l2 = source-detector distance and twoTheta=0
  {
    l2 = det->getDistance(*(instrument->getSource()));
    l2 = l2 - l1;
    twoTheta = 0.0;
  }
  g_log.debug() << "Detector for index " << index << " has L1+L2=" << l1+l2 << " & 2theta= " << twoTheta << std::endl;
  return;
}
コード例 #10
0
    /** This function will check how to group spectra when calculating median
     *
     *
     */
    std::vector<std::vector<size_t> > DetectorDiagnostic::makeMap(API::MatrixWorkspace_sptr countsWS)
    {
      std::multimap<Mantid::Geometry::ComponentID,size_t> mymap;

      Geometry::Instrument_const_sptr instrument = countsWS->getInstrument();
      if (m_parents==0)
      {
        return makeInstrumentMap(countsWS);
      }
      if (!instrument)
      {
        g_log.warning("Workspace has no instrument. LevelsUP is ignored");
        return makeInstrumentMap(countsWS);
      }

      //check if not grouped. If grouped, it will throw
      if ( countsWS->hasGroupedDetectors() )
      {
        throw std::runtime_error("Median detector test: not able to create detector to spectra map. Try with LevelUp=0.");
      }

      for(size_t i=0;i < countsWS->getNumberHistograms();i++)
      {
        detid_t d=(*((countsWS->getSpectrum(i))->getDetectorIDs().begin()));
        std::vector<boost::shared_ptr<const Mantid::Geometry::IComponent> > anc=instrument->getDetector(d)->getAncestors();
        //std::vector<boost::shared_ptr<const IComponent> > anc=(*(countsWS->getSpectrum(i)->getDetectorIDs().begin()))->getAncestors();
        if (anc.size()<static_cast<size_t>(m_parents))
        {
          g_log.warning("Too many levels up. Will ignore LevelsUp");
          m_parents=0;
          return makeInstrumentMap(countsWS);
        }
        mymap.insert(std::pair<Mantid::Geometry::ComponentID,size_t>(anc[m_parents-1]->getComponentID(),i));
      }

      std::vector<std::vector<size_t> > speclist;
      std::vector<size_t>  speclistsingle;

      std::multimap<Mantid::Geometry::ComponentID,size_t>::iterator m_it, s_it;

      for (m_it = mymap.begin();  m_it != mymap.end();  m_it = s_it)
      {
        Mantid::Geometry::ComponentID theKey = (*m_it).first;

        std::pair<std::multimap<Mantid::Geometry::ComponentID,size_t>::iterator,std::multimap<Mantid::Geometry::ComponentID,size_t>::iterator> keyRange = mymap.equal_range(theKey);

        // Iterate over all map elements with key == theKey
        speclistsingle.clear();
        for (s_it = keyRange.first;  s_it != keyRange.second;  ++s_it)
        {
          speclistsingle.push_back( (*s_it).second );
        }
        speclist.push_back(speclistsingle);
      }

      return speclist;
    }
コード例 #11
0
ファイル: NormaliseToMonitor.cpp プロジェクト: mcvine/mantid
// read the monitors list from the workspace and try to do it once for any
// particular ws;
bool MonIDPropChanger::monitorIdReader(
    API::MatrixWorkspace_const_sptr inputWS) const {
  // no workspace
  if (!inputWS)
    return false;

  // no instrument
  Geometry::Instrument_const_sptr pInstr = inputWS->getInstrument();
  if (!pInstr)
    return false;

  std::vector<detid_t> mon = pInstr->getMonitors();
  if (mon.empty()) {
    if (iExistingAllowedValues.empty()) {
      return false;
    } else {
      iExistingAllowedValues.clear();
      return true;
    }
  }
  // are these monitors really there?
  // got the index of correspondent spectra.
  std::vector<size_t> indexList = inputWS->getIndicesFromDetectorIDs(mon);
  if (indexList.empty()) {
    if (iExistingAllowedValues.empty()) {
      return false;
    } else {
      iExistingAllowedValues.clear();
      return true;
    }
  }
  // index list can be less or equal to the mon list size (some monitors do not
  // have spectra)
  size_t mon_count =
      (mon.size() < indexList.size()) ? mon.size() : indexList.size();
  std::vector<int> allowed_values(mon_count);
  for (size_t i = 0; i < mon_count; i++) {
    allowed_values[i] = mon[i];
  }

  // are known values the same as the values we have just identified?
  if (iExistingAllowedValues.size() != mon_count) {
    iExistingAllowedValues.clear();
    iExistingAllowedValues.assign(allowed_values.begin(), allowed_values.end());
    return true;
  }
  // the monitor list has the same size as before. Is it equivalent to the
  // existing one?
  bool values_redefined = false;
  for (size_t i = 0; i < mon_count; i++) {
    if (iExistingAllowedValues[i] != allowed_values[i]) {
      values_redefined = true;
      iExistingAllowedValues[i] = allowed_values[i];
    }
  }
  return values_redefined;
}
コード例 #12
0
ファイル: LoadHelper.cpp プロジェクト: BigShows/mantid
 double LoadHelper::getL2(const API::MatrixWorkspace_sptr& workspace, int detId)
 {
   // Get a pointer to the instrument contained in the workspace
   Geometry::Instrument_const_sptr instrument = workspace->getInstrument();
   // Get the distance between the source and the sample (assume in metres)
   Geometry::IComponent_const_sptr sample = instrument->getSample();
   // Get the sample-detector distance for this detector (in metres)
   double l2 = workspace->getDetector(detId)->getPos().distance(sample->getPos());
   return l2;
 }
コード例 #13
0
ファイル: NormaliseToMonitor.cpp プロジェクト: mganeva/mantid
// read the monitors list from the workspace and try to do it once for any
// particular ws;
bool MonIDPropChanger::monitorIdReader(
    MatrixWorkspace_const_sptr inputWS) const {
  // no workspace
  if (!inputWS)
    return false;

  // no instrument
  Geometry::Instrument_const_sptr pInstr = inputWS->getInstrument();
  if (!pInstr)
    return false;

  // are these monitors really there?
  std::vector<detid_t> monitorIDList = pInstr->getMonitors();
  {
    const auto &specInfo = inputWS->spectrumInfo();
    std::set<detid_t> idsInWorkspace;
    size_t i = 0;
    // Loop over spectra, but finish early if we find everything
    while (i < specInfo.size() &&
           idsInWorkspace.size() < monitorIDList.size()) {
      if (specInfo.isMonitor(i))
        idsInWorkspace.insert(specInfo.detector(i).getID());
      ++i;
    }
    monitorIDList =
        std::vector<detid_t>(idsInWorkspace.begin(), idsInWorkspace.end());
  }

  if (monitorIDList.empty()) {
    if (iExistingAllowedValues.empty()) {
      return false;
    } else {
      iExistingAllowedValues.clear();
      return true;
    }
  }

  // are known values the same as the values we have just identified?
  if (iExistingAllowedValues.size() != monitorIDList.size()) {
    iExistingAllowedValues.clear();
    iExistingAllowedValues.assign(monitorIDList.begin(), monitorIDList.end());
    return true;
  }
  // the monitor list has the same size as before. Is it equivalent to the
  // existing one?
  bool values_redefined = false;
  for (size_t i = 0; i < monitorIDList.size(); i++) {
    if (iExistingAllowedValues[i] != monitorIDList[i]) {
      values_redefined = true;
      iExistingAllowedValues[i] = monitorIDList[i];
    }
  }
  return values_redefined;
}
コード例 #14
0
ファイル: FakeMDEventData.cpp プロジェクト: mkoennecke/mantid
/**
 * 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.");
  }
}
コード例 #15
0
ファイル: LoadHelper.cpp プロジェクト: BigShows/mantid
 V3D LoadHelper::getComponentPosition(API::MatrixWorkspace_sptr ws, const std::string &componentName)
 {
   try
   {
     Geometry::Instrument_const_sptr instrument = ws->getInstrument();
     Geometry::IComponent_const_sptr component = instrument->getComponentByName(componentName);
     V3D pos = component->getPos();
     return pos;
   } catch (Mantid::Kernel::Exception::NotFoundError&)
   {
     throw std::runtime_error("Error when trying to move the " + componentName + " : NotFoundError");
   }
 }
コード例 #16
0
ファイル: LoadMask.cpp プロジェクト: DanNixon/mantid
/** Extract a component's detectors and return it within detectors array
 *  It is a generalized version of bankToDetectors()
 *
 * @param componentnames -- vector of component names to process
 * @param detectors      -- vector of detector ids, which belongs to components
 *provided as input.
 */
void LoadMask::componentToDetectors(
    const std::vector<std::string> &componentnames,
    std::vector<detid_t> &detectors) {
  Geometry::Instrument_const_sptr minstrument = m_maskWS->getInstrument();

  for (auto &componentname : componentnames) {
    g_log.debug() << "Component name = " << componentname << '\n';

    // a) get component
    Geometry::IComponent_const_sptr component =
        minstrument->getComponentByName(componentname);
    if (component)
      g_log.debug() << "Component ID = " << component->getComponentID() << '\n';
    else {
      // A non-exiting component.  Ignore
      g_log.warning() << "Component " << componentname << " does not exist!\n";
      continue;
    }

    // b) component -> component assembly --> children (more than detectors)
    boost::shared_ptr<const Geometry::ICompAssembly> asmb =
        boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(component);
    std::vector<Geometry::IComponent_const_sptr> children;
    asmb->getChildren(children, true);

    g_log.debug() << "Number of Children = " << children.size() << '\n';

    size_t numdets(0);
    detid_t id_min(std::numeric_limits<Mantid::detid_t>::max());
    detid_t id_max(0);

    for (const auto &child : children) {
      // c) convert component to detector
      Geometry::IDetector_const_sptr det =
          boost::dynamic_pointer_cast<const Geometry::IDetector>(child);

      if (det) {
        detid_t detid = det->getID();
        detectors.push_back(detid);
        numdets++;
        if (detid < id_min)
          id_min = detid;
        if (detid > id_max)
          id_max = detid;
      }
    }

    g_log.debug() << "Number of Detectors in Children = " << numdets
                  << "  Range = " << id_min << ", " << id_max << '\n';
  } // for component
}
コード例 #17
0
    /**
     * Mask the outlier values to get a better median value.
     * @param medianvec The median value calculated from the current counts.
     * @param countsWS The counts workspace. Any outliers will be masked here.
     * @param indexmap Index map.
     * @returns The number failed.
     */
    int MedianDetectorTest::maskOutliers(const std::vector<double> medianvec, API::MatrixWorkspace_sptr countsWS,std::vector<std::vector<size_t> > indexmap)
    {

      // Fractions of the median
      const double out_lo = getProperty("LowOutlier");
      const double out_hi = getProperty("HighOutlier");

      int numFailed(0);

      bool checkForMask = false;
      Geometry::Instrument_const_sptr instrument = countsWS->getInstrument();
      if (instrument != NULL)
      {
        checkForMask = ((instrument->getSource() != NULL) && (instrument->getSample() != NULL));
      }

      for (size_t i=0; i<indexmap.size();  ++i)
      {
        std::vector<size_t> hists=indexmap.at(i);
        double median=medianvec.at(i);

        PARALLEL_FOR1(countsWS)
        for(int j = 0; j < static_cast<int>(hists.size()); ++j)
        {
          const double value = countsWS->readY(hists.at(j))[0];
          if ((value == 0.) && checkForMask)
          {
            const std::set<detid_t>& detids = countsWS->getSpectrum(hists.at(j))->getDetectorIDs();
            if (instrument->isDetectorMasked(detids))
            {
              numFailed -= 1; // it was already masked
            }
          }
          if( (value < out_lo*median) && (value > 0.0) )
          {
            countsWS->maskWorkspaceIndex(hists.at(j));
            PARALLEL_ATOMIC
            ++numFailed;
          }
          else if( value > out_hi*median )
          {
            countsWS->maskWorkspaceIndex(hists.at(j));
            PARALLEL_ATOMIC
            ++numFailed;
          }
        }
        PARALLEL_CHECK_INTERUPT_REGION
      }

      return numFailed;
    }
コード例 #18
0
ファイル: PeakHKLErrors.cpp プロジェクト: BigShows/mantid
    /**
     * Creates a new parameterized instrument for which the parameter values can be changed
     *
     * @param Peaks - a PeaksWorkspace used to get the original instrument.  The instrument from the 0th peak is
     *                the one that is used.
     *
     * NOTE: All the peaks in the PeaksWorkspace must use the same instrument.
     */
    boost::shared_ptr<Geometry::Instrument> PeakHKLErrors::getNewInstrument( PeaksWorkspace_sptr Peaks )const
    {
      Geometry::Instrument_const_sptr instSave = Peaks->getPeak( 0 ).getInstrument();
           boost::shared_ptr<Geometry::ParameterMap> pmap( new Geometry::ParameterMap() );
           boost::shared_ptr<const Geometry::ParameterMap> pmapSv = instSave->getParameterMap();

           if ( !instSave )
           {
             g_log.error( " Peaks workspace does not have an instrument" );
             throw std::invalid_argument( " Not all peaks have an instrument" );
           }
           boost::shared_ptr<Geometry::Instrument> instChange( new Geometry::Instrument() );

           if ( !instSave->isParametrized() )
           {

             boost::shared_ptr<Geometry::Instrument> instClone( instSave->clone() );
             boost::shared_ptr<Geometry::Instrument> Pinsta( new Geometry::Instrument( instSave, pmap ) );

             instChange = Pinsta;
           }
           else //catch(... )
           {
             boost::shared_ptr<Geometry::Instrument> P1( new Geometry::Instrument( instSave->baseInstrument(),
                 pmap ) );
             instChange = P1;

           }

           if ( !instChange )
           {
             g_log.error( "Cannot 'clone' instrument" );
             throw std::logic_error( "Cannot clone instrument" );

           }
           //------------------"clone" orig instruments pmap -------------------

           cLone(  pmap, instSave, pmapSv );
           IComponent_const_sptr sample = instChange->getSample();
           V3D sampPos = sample->getRelativePos();
           V3D sampOffsets( getParameter( "SampleXOffset" ), getParameter( "SampleYOffset" ), getParameter( "SampleZOffset" ) );

           pmap->addPositionCoordinate( sample.get(),  std::string("x"),  sampPos.X() + sampOffsets.X() );
           pmap->addPositionCoordinate( sample.get(), std::string("y"), sampPos.Y() + sampOffsets.Y() );
           pmap->addPositionCoordinate( sample.get(), std::string("z"), sampPos.Z() + sampOffsets.Z() );

           return instChange;

    }
コード例 #19
0
ファイル: MaskWorkspace.cpp プロジェクト: jkrueger1/mantid
    /** Check whether workspace has a non-trivial instrument
      * (1) There is an instrument associated with
      * (2) Number of detectors is larger than 0
      */
    bool MaskWorkspace::hasInstrument()
    {
      bool hasinst;
      Geometry::Instrument_const_sptr inst = this->getInstrument();
      if (inst)
      {
        if (inst->getNumberDetectors() > 0)
          hasinst = true;
        else
          hasinst = false;
      }
      else hasinst = false;

      return hasinst;
    }
コード例 #20
0
ファイル: LoadMask.cpp プロジェクト: mcvine/mantid
/** Convert bank to detectors
 */
void LoadMask::bankToDetectors(std::vector<std::string> singlebanks,
                               std::vector<int32_t> &detectors,
                               std::vector<int32_t> &detectorpairslow,
                               std::vector<int32_t> &detectorpairsup) {
  std::stringstream infoss;
  infoss << "Bank IDs to be converted to detectors: " << endl;
  for (auto &singlebank : singlebanks) {
    infoss << "Bank: " << singlebank << std::endl;
  }
  g_log.debug(infoss.str());

  Geometry::Instrument_const_sptr minstrument = m_maskWS->getInstrument();

  for (auto &singlebank : singlebanks) {
    std::vector<Geometry::IDetector_const_sptr> idetectors;

    minstrument->getDetectorsInBank(idetectors, singlebank);
    g_log.debug() << "Bank: " << singlebank << " has " << idetectors.size()
                  << " detectors" << std::endl;

    // a) get information
    size_t numdets = idetectors.size();
    detid_t detid_first = idetectors[0]->getID();
    detid_t detid_last = idetectors[idetectors.size() - 1]->getID();

    // b) set detectors
    if (detid_first + int32_t(numdets) == detid_last + 1 && false) {
      // TODO This save-time method is not used at this stage
      g_log.information() << "Using Range of Detectors" << std::endl;

      detectorpairslow.push_back(detid_first);
      detectorpairsup.push_back(detid_last);

    } else {
      g_log.debug() << "Apply 1 by 1  "
                    << "DetID: " << detid_first << ", " << detid_last
                    << std::endl;

      for (const auto &det : idetectors) {
        int32_t detid = det->getID();
        detectors.push_back(detid);
      }

    } // if-else
  }   // ENDFOR

  return;
}
コード例 #21
0
ファイル: UnwrapMonitor.cpp プロジェクト: mkoennecke/mantid
/** Gets the primary flightpath (L1)
 *  @return L1
 *  @throw Kernel::Exception::InstrumentDefinitionError if L1 is not available
 */
double UnwrapMonitor::getPrimaryFlightpath() const {
  // Get a pointer to the instrument contained in the input workspace
  Geometry::Instrument_const_sptr instrument = m_inputWS->getInstrument();
  // Get the distance between the source and the sample
  Geometry::IComponent_const_sptr sample = instrument->getSample();
  double L1;
  try {
    L1 = instrument->getSource()->getDistance(*sample);
    g_log.debug() << "Source-sample distance (in metres): " << L1 << std::endl;
  } catch (Exception::NotFoundError &) {
    g_log.error("Unable to calculate source-sample distance");
    throw Exception::InstrumentDefinitionError(
        "Unable to calculate source-sample distance", m_inputWS->getTitle());
  }
  return L1;
}
コード例 #22
0
ファイル: ApplyCalibration.cpp プロジェクト: trnielsen/mantid
    /**
    * Set the absolute detector position of a detector
    * @param instrument :: The instrument that contains the defined detector
    * @param detID :: Detector ID
    * @param pos :: new position of Dectector
    * @param sameParent :: true if detector has same parent as previous detector set here.
    */
    void ApplyCalibration::setDetectorPosition(const Geometry::Instrument_const_sptr & instrument, int detID, V3D pos, bool /*sameParent*/ )
    {
       Geometry::IDetector_const_sptr det = instrument->getDetector(detID);
       // Then find the corresponding relative position
       boost::shared_ptr<const Geometry::IComponent> parent = det->getParent();
       if (parent)
       {
         pos -= parent->getPos();
         Quat rot = parent->getRelativeRot();
         rot.inverse();
         rot.rotate(pos);
       }
       boost::shared_ptr<const Geometry::IComponent>grandparent = parent->getParent();
       if (grandparent)
       {
         Quat rot = grandparent->getRelativeRot();
         rot.inverse();
         rot.rotate(pos);
         boost::shared_ptr<const Geometry::IComponent>greatgrandparent = grandparent->getParent();
         if (greatgrandparent) {
           Quat rot2 = greatgrandparent->getRelativeRot();
            rot2.inverse();
            rot2.rotate(pos);
         }
       }

       // Add a parameter for the new position
       m_pmap->addV3D(det.get(), "pos", pos);
    }
コード例 #23
0
ファイル: IntegrateEllipsoids.cpp プロジェクト: mcvine/mantid
/*
 * Define edges for each instrument by masking. For CORELLI, tubes 1 and 16, and
 *pixels 0 and 255.
 * Get Q in the lab frame for every peak, call it C
 * For every point on the edge, the trajectory in reciprocal space is a straight
 *line, going through O=V3D(0,0,0).
 * Calculate a point at a fixed momentum, say k=1. Q in the lab frame
 *E=V3D(-k*sin(tt)*cos(ph),-k*sin(tt)*sin(ph),k-k*cos(ph)).
 * Normalize E to 1: E=E*(1./E.norm())
 *
 * @param inst: instrument
 */
void IntegrateEllipsoids::calculateE1(Geometry::Instrument_const_sptr inst) {
  std::vector<detid_t> detectorIDs = inst->getDetectorIDs();

  for (auto &detectorID : detectorIDs) {
    Mantid::Geometry::IDetector_const_sptr det = inst->getDetector(detectorID);
    if (det->isMonitor())
      continue; // skip monitor
    if (!det->isMasked())
      continue; // edge is masked so don't check if not masked
    double tt1 = det->getTwoTheta(V3D(0, 0, 0), V3D(0, 0, 1)); // two theta
    double ph1 = det->getPhi();                                // phi
    V3D E1 = V3D(-std::sin(tt1) * std::cos(ph1), -std::sin(tt1) * std::sin(ph1),
                 1. - std::cos(tt1)); // end of trajectory
    E1 = E1 * (1. / E1.norm());       // normalize
    E1Vec.push_back(E1);
  }
}
コード例 #24
0
ファイル: ApplyCalibration.cpp プロジェクト: BigShows/mantid
    /**
    * Set the absolute detector position of a detector
    * @param instrument :: The instrument that contains the defined detector
    * @param detID :: Detector ID
    * @param pos :: new position of Dectector
    * @param sameParent :: true if detector has same parent as previous detector set here.
    */
    void ApplyCalibration::setDetectorPosition(const Geometry::Instrument_const_sptr & instrument, int detID, V3D pos, bool /*sameParent*/ )
    {

       IComponent_const_sptr det =instrument->getDetector(detID); ;
       // Do the move
       using namespace Geometry::ComponentHelper;
       TransformType positionType = Absolute;
       // TransformType positionType = Relative;
       Geometry::ComponentHelper::moveComponent(*det, *m_pmap, pos, positionType);

    }
コード例 #25
0
    /**
     * Set the detector positions given the r,theta and phi.
     * @param detID :: A vector of detector IDs
     * @param l2 :: A vector of l2 distances
     * @param theta :: A vector of theta distances
     * @param phi :: A vector of phi values
     */
    void UpdateInstrumentFromFile::setDetectorPositions(const std::vector<int32_t> & detID, const std::vector<float> & l2,
                                                        const std::vector<float> & theta, const std::vector<float> & phi)
      {
        Geometry::Instrument_const_sptr inst = m_workspace->getInstrument();
        const int numDetector = static_cast<int>(detID.size());
        g_log.information() << "Setting new positions for " << numDetector << " detectors\n";

        for (int i = 0; i < numDetector; ++i)
        {
          try
          {
            Geometry::IDetector_const_sptr det = inst->getDetector(detID[i]);
            setDetectorPosition(det, l2[i], theta[i], phi[i]);
          }
          catch (Kernel::Exception::NotFoundError&)
          {
            continue;
          }
          progress(static_cast<double>(i)/numDetector,"Updating Detector Positions from File");
        }  
      }
コード例 #26
0
/**
  @param  ws           Name of workspace containing peaks
  @param  bankName     Name of bank containing peak
  @param  col          Column number containing peak
  @param  row          Row number containing peak
  @param  Edge         Number of edge points for each bank
  @return True if peak is on edge
*/
bool OptimizeLatticeForCellType::edgePixel(PeaksWorkspace_sptr ws,
                                           std::string bankName, int col,
                                           int row, int Edge) {
  if (bankName.compare("None") == 0)
    return false;
  Geometry::Instrument_const_sptr Iptr = ws->getInstrument();
  boost::shared_ptr<const IComponent> parent =
      Iptr->getComponentByName(bankName);
  if (parent->type().compare("RectangularDetector") == 0) {
    boost::shared_ptr<const RectangularDetector> RDet =
        boost::dynamic_pointer_cast<const RectangularDetector>(parent);

    return col < Edge || col >= (RDet->xpixels() - Edge) || row < Edge ||
           row >= (RDet->ypixels() - Edge);
  } else {
    std::vector<Geometry::IComponent_const_sptr> children;
    boost::shared_ptr<const Geometry::ICompAssembly> asmb =
        boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(parent);
    asmb->getChildren(children, false);
    int startI = 1;
    if (children[0]->getName() == "sixteenpack") {
      startI = 0;
      parent = children[0];
      children.clear();
      boost::shared_ptr<const Geometry::ICompAssembly> asmb =
          boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(parent);
      asmb->getChildren(children, false);
    }
    boost::shared_ptr<const Geometry::ICompAssembly> asmb2 =
        boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(children[0]);
    std::vector<Geometry::IComponent_const_sptr> grandchildren;
    asmb2->getChildren(grandchildren, false);
    int NROWS = static_cast<int>(grandchildren.size());
    int NCOLS = static_cast<int>(children.size());
    // Wish pixels and tubes start at 1 not 0
    return col - startI < Edge || col - startI >= (NCOLS - Edge) ||
           row - startI < Edge || row - startI >= (NROWS - Edge);
  }
  return false;
}
コード例 #27
0
    /**
     * Init variables caches
     * @param :: Workspace pointer
     */
    void SofQW2::initCachedValues(API::MatrixWorkspace_const_sptr workspace)
    {
      m_progress->report("Initializing caches");

      // Retrieve the emode & efixed properties
      const std::string emode = getProperty("EMode");
      // Convert back to an integer representation
      m_emode = 0;
      if (emode == "Direct") m_emode=1;
      else if (emode == "Indirect") m_emode = 2;
      m_efixed = getProperty("EFixed");

      // Conversion constant for E->k. k(A^-1) = sqrt(energyToK*E(meV))
      m_EtoK = 8.0*M_PI*M_PI*PhysicalConstants::NeutronMass*PhysicalConstants::meV*1e-20 / 
        (PhysicalConstants::h*PhysicalConstants::h);

      // Get a pointer to the instrument contained in the workspace
      Geometry::Instrument_const_sptr instrument = workspace->getInstrument();
      // Get the distance between the source and the sample (assume in metres)
      Geometry::IObjComponent_const_sptr source = instrument->getSource();
      Geometry::IObjComponent_const_sptr sample = instrument->getSample();
      m_samplePos = sample->getPos();
      m_beamDir = m_samplePos - source->getPos();
      m_beamDir.normalize();
      // Is the instrument set up correctly
      double l1(0.0);
      try
      {
        l1 = source->getDistance(*sample);
        g_log.debug() << "Source-sample distance: " << l1 << std::endl;
      }
      catch (Exception::NotFoundError &)
      {
        throw Exception::InstrumentDefinitionError("Unable to calculate source-sample distance", 
                                                   workspace->getTitle());
      }
      // Index Q cache
      initQCache(workspace);
    }
コード例 #28
0
ファイル: LoadHelper.cpp プロジェクト: BigShows/mantid
    void LoadHelper::rotateComponent(API::MatrixWorkspace_sptr ws, const std::string &componentName,
        const Kernel::Quat & rot)
    {

      try
      {

        Geometry::Instrument_const_sptr instrument = ws->getInstrument();
        Geometry::IComponent_const_sptr component = instrument->getComponentByName(componentName);

        //g_log.debug() << tube->getName() << " : t = " << theta << " ==> t = " << newTheta << "\n";
        Geometry::ParameterMap& pmap = ws->instrumentParameters();
        Geometry::ComponentHelper::rotateComponent(*component, pmap, rot,
            Geometry::ComponentHelper::Absolute);

      } catch (Mantid::Kernel::Exception::NotFoundError&)
      {
        throw std::runtime_error("Error when trying to move the " + componentName + " : NotFoundError");
      } catch (std::runtime_error &)
      {
        throw std::runtime_error("Error when trying to move the " + componentName + " : runtime_error");
      }

    }
コード例 #29
0
ファイル: PoldiBasicChopper.cpp プロジェクト: nimgould/mantid
void PoldiBasicChopper::loadConfiguration(
    Geometry::Instrument_const_sptr poldiInstrument) {
  Geometry::ICompAssembly_const_sptr chopperGroup =
      boost::dynamic_pointer_cast<const Geometry::ICompAssembly>(
          poldiInstrument->getComponentByName(std::string("chopper")));

  size_t numberOfSlits = chopperGroup->nelements();

  std::vector<double> slitPositions(numberOfSlits);
  for (size_t i = 0; i < numberOfSlits; ++i) {
    slitPositions[i] =
        chopperGroup->getChild(static_cast<const int>(i))->getPos().X();
  }

  double distance = chopperGroup->getPos().norm() * 1000.0;
  double t0 = chopperGroup->getNumberParameter("t0").front();
  double t0const = chopperGroup->getNumberParameter("t0_const").front();

  initializeFixedParameters(slitPositions, distance, t0, t0const);
}
コード例 #30
0
/** Execute the algorithm.
 */
void EditInstrumentGeometry::exec() {
  // Lots of things have to do with the input workspace
  MatrixWorkspace_sptr workspace = getProperty("Workspace");
  Geometry::Instrument_const_sptr originstrument = workspace->getInstrument();

  // Get and check the primary flight path
  double l1 = this->getProperty("PrimaryFlightPath");
  if (isEmpty(l1)) {
    // Use the original L1
    if (!originstrument) {
      std::string errmsg(
          "It is not supported that L1 is not given, ",
          "while there is no instrument associated to input workspace.");
      g_log.error(errmsg);
      throw std::runtime_error(errmsg);
    }
    Geometry::IComponent_const_sptr source = originstrument->getSource();
    Geometry::IComponent_const_sptr sample = originstrument->getSample();
    l1 = source->getDistance(*sample);
    g_log.information() << "Retrieve L1 from input data workspace. \n";
  }
  g_log.information() << "Using L1 = " << l1 << "\n";

  // Get spectra number in case they are in a funny order
  std::vector<int32_t> specids = this->getProperty("SpectrumIDs");
  if (specids.empty()) // they are using the order of the input workspace
  {
    size_t numHist = workspace->getNumberHistograms();
    for (size_t i = 0; i < numHist; ++i) {
      specids.push_back(workspace->getSpectrum(i).getSpectrumNo());
      g_log.information() << "Add spectrum "
                          << workspace->getSpectrum(i).getSpectrumNo() << ".\n";
    }
  }

  // Get the detector ids - empsy means ignore it
  const vector<int> vec_detids = getProperty("DetectorIDs");
  const bool renameDetID(!vec_detids.empty());

  // Get individual detector geometries ordered by input spectrum Numbers
  const std::vector<double> l2s = this->getProperty("L2");
  const std::vector<double> tths = this->getProperty("Polar");
  std::vector<double> phis = this->getProperty("Azimuthal");

  // empty list of L2 and 2-theta is not allowed
  if (l2s.empty()) {
    throw std::runtime_error("User must specify L2 for all spectra. ");
  }
  if (tths.empty()) {
    throw std::runtime_error("User must specify 2theta for all spectra.");
  }

  // empty list of phi means that they are all zero
  if (phis.empty()) {
    phis.assign(l2s.size(), 0.);
  }

  // Validate
  for (size_t ib = 0; ib < l2s.size(); ib++) {
    g_log.information() << "Detector " << specids[ib] << "  L2 = " << l2s[ib]
                        << "  2Theta = " << tths[ib] << '\n';
    if (specids[ib] < 0) {
      // Invalid spectrum Number : less than 0.
      stringstream errmsgss;
      errmsgss << "Detector ID = " << specids[ib] << " cannot be less than 0.";
      throw std::invalid_argument(errmsgss.str());
    }
    if (l2s[ib] <= 0.0) {
      throw std::invalid_argument("L2 cannot be less or equal to 0");
    }
  }

  // Keep original instrument and set the new instrument, if necessary
  const auto spec2indexmap = workspace->getSpectrumToWorkspaceIndexMap();

  // ??? Condition: spectrum has 1 and only 1 detector
  size_t nspec = workspace->getNumberHistograms();

  // Initialize another set of L2/2-theta/Phi/DetectorIDs vector ordered by
  // workspace index
  std::vector<double> storL2s(nspec, 0.);
  std::vector<double> stor2Thetas(nspec, 0.);
  std::vector<double> storPhis(nspec, 0.);
  vector<int> storDetIDs(nspec, 0);

  // Map the properties from spectrum Number to workspace index
  for (size_t i = 0; i < specids.size(); i++) {
    // Find spectrum's workspace index
    auto it = spec2indexmap.find(specids[i]);
    if (it == spec2indexmap.end()) {
      stringstream errss;
      errss << "Spectrum Number " << specids[i] << " is not found. "
            << "Instrument won't be edited for this spectrum. \n";
      g_log.error(errss.str());
      throw std::runtime_error(errss.str());
    }

    // Store and set value
    size_t workspaceindex = it->second;

    storL2s[workspaceindex] = l2s[i];
    stor2Thetas[workspaceindex] = tths[i];
    storPhis[workspaceindex] = phis[i];
    if (renameDetID)
      storDetIDs[workspaceindex] = vec_detids[i];

    g_log.debug() << "workspace index = " << workspaceindex
                  << " is for Spectrum " << specids[i] << '\n';
  }

  // Generate a new instrument
  // Name of the new instrument
  std::string name = std::string(getProperty("InstrumentName"));
  if (name.empty()) {
    // Use the original L1
    if (!originstrument) {
      std::string errmsg(
          "It is not supported that InstrumentName is not given, ",
          "while there is no instrument associated to input workspace.");
      g_log.error(errmsg);
      throw std::runtime_error(errmsg);
    }
    name = originstrument->getName();
  }

  // Create a new instrument from scratch any way.
  auto instrument = boost::make_shared<Geometry::Instrument>(name);
  if (!bool(instrument)) {
    stringstream errss;
    errss << "Trying to use a Parametrized Instrument as an Instrument.";
    g_log.error(errss.str());
    throw std::runtime_error(errss.str());
  }

  // Set up source and sample information
  Geometry::ObjComponent *samplepos =
      new Geometry::ObjComponent("Sample", instrument.get());
  instrument->add(samplepos);
  instrument->markAsSamplePos(samplepos);
  samplepos->setPos(0.0, 0.0, 0.0);

  Geometry::ObjComponent *source =
      new Geometry::ObjComponent("Source", instrument.get());
  instrument->add(source);
  instrument->markAsSource(source);
  source->setPos(0.0, 0.0, -1.0 * l1);

  // Add/copy detector information
  auto indexInfo = workspace->indexInfo();
  std::vector<detid_t> detIDs;
  for (size_t i = 0; i < workspace->getNumberHistograms(); i++) {
    // Create a new detector.
    //    (Instrument will take ownership of pointer so no need to delete.)
    detid_t newdetid;
    if (renameDetID)
      newdetid = storDetIDs[i];
    else
      newdetid = detid_t(i) + 100;
    Geometry::Detector *detector =
        new Geometry::Detector("det", newdetid, samplepos);

    // Set up new detector parameters related to new instrument
    double l2 = storL2s[i];
    double tth = stor2Thetas[i];
    double phi = storPhis[i];

    Kernel::V3D pos;
    pos.spherical(l2, tth, phi);
    detector->setPos(pos);

    // Add new detector to spectrum and instrument
    // Good and do some debug output
    g_log.debug() << "Orignal spectrum " << indexInfo.spectrumNumber(i)
                  << "has " << indexInfo.detectorIDs(i).size()
                  << " detectors. \n";

    detIDs.push_back(newdetid);
    instrument->add(detector);
    instrument->markAsDetector(detector);

  } // ENDFOR workspace index
  indexInfo.setDetectorIDs(std::move(detIDs));
  workspace->setIndexInfo(indexInfo);

  // Add the new instrument
  workspace->setInstrument(instrument);
}