release-09-00-00/doxygen/AxialTrackMerger_8cc_source.html

/**************************************************************************

 * basf2 (Belle II Analysis Software Framework)                           *

 * Author: The Belle II Collaboration                                     *

 *                                                                        *

 * See git log for contributors and copyright holders.                    *

 * This file is licensed under LGPL-3.0, see LICENSE.md.                  *

 **************************************************************************/

#include <tracking/trackFindingCDC/findlets/minimal/AxialTrackMerger.h>


#include <tracking/trackFindingCDC/processing/AxialTrackUtil.h>


#include <tracking/trackFindingCDC/fitting/CDCKarimakiFitter.h>


#include <tracking/trackFindingCDC/eventdata/tracks/CDCTrack.h>

#include <tracking/trackFindingCDC/eventdata/hits/CDCWireHit.h>

#include <tracking/trackFindingCDC/eventdata/trajectories/CDCTrajectory2D.h>


#include <tracking/trackFindingCDC/numerics/WeightComperator.h>


#include <tracking/trackFindingCDC/utilities/StringManipulation.h>


#include <framework/core/ModuleParamList.templateDetails.h>


using namespace Belle2;

using namespace TrackFindingCDC;


std::string AxialTrackMerger::getDescription()

{

  return "Merges axial tracks found in the legendre search";

}


void AxialTrackMerger::exposeParameters(ModuleParamList* moduleParamList, const std::string& prefix)

{

  moduleParamList->addParameter(prefixed(prefix, "minFitProb"),

                                m_param_minFitProb,

                                "Minimal fit probability of the common fit "

                                "of two tracks to be eligible for merging",

                                m_param_minFitProb);

}


void AxialTrackMerger::apply(std::vector<CDCTrack>& axialTracks,

                             const std::vector<const CDCWireHit*>& allAxialWireHits)

{

  // Check quality of the track basing on holes on the trajectory;

  // if holes exist then track is splitted

  for (CDCTrack& track : axialTracks) {

    if (track.size() < 5) continue;

    AxialTrackUtil::removeHitsAfterSuperLayerBreak(track);

    AxialTrackUtil::normalizeTrack(track);

  }


  // Update tracks before storing to DataStore

  for (CDCTrack& track : axialTracks) {

    AxialTrackUtil::normalizeTrack(track);

  }


  // Remove bad tracks

  AxialTrackUtil::deleteShortTracks(axialTracks);

  AxialTrackUtil::deleteTracksWithLowFitProbability(axialTracks);


  // Perform tracks merging

  this->doTracksMerging(axialTracks, allAxialWireHits);


  // Remove the consumed, now empty tracks.

  AxialTrackUtil::deleteShortTracks(axialTracks, 0);

}


void AxialTrackMerger::doTracksMerging(std::vector<CDCTrack>& axialTracks,

                                       const std::vector<const CDCWireHit*>& allAxialWireHits)

{

  // Search for best matches - cannot use range for here :(.

  for (auto itTrack = axialTracks.begin(); itTrack !=  axialTracks.end(); ++itTrack) {

    CDCTrack& track = *itTrack;

    auto followingTracks = asRange(std::next(itTrack), axialTracks.end());


    WithWeight<MayBePtr<CDCTrack> > bestTrack = calculateBestTrackToMerge(track, followingTracks);

    double fitProb = bestTrack.getWeight();


    if (bestTrack != nullptr and fitProb > m_param_minFitProb) {

      mergeTracks(track, *bestTrack, allAxialWireHits);

    }

  }


  AxialTrackUtil::deleteShortTracks(axialTracks);

}


template <class ACDCTracks>

WithWeight<MayBePtr<CDCTrack> > AxialTrackMerger::calculateBestTrackToMerge(CDCTrack& track, ACDCTracks& tracks)

{

  std::vector<WithWeight<CDCTrack*>> weightedTracks;

  for (CDCTrack& track2 : tracks) {

    if (&track == &track2) continue;

    if (track2.size() < 3) continue;


    double fitProb = doTracksFitTogether(track, track2);

    if (std::isnan(fitProb)) continue;


    weightedTracks.emplace_back(&track2, fitProb);

  }


  auto bestMatch = std::max_element(weightedTracks.begin(), weightedTracks.end(), LessWeight());

  if (bestMatch == weightedTracks.end()) return {nullptr, 0};

  else return *bestMatch;

}


double AxialTrackMerger::doTracksFitTogether(CDCTrack& track1, CDCTrack& track2)

{

  // First check whether most of the hits from the tracks lie in the backward direction

  // even if though track is not curling -> tracks should not be merged

  const CDCTrajectory3D& trajectory3D1 = track1.getStartTrajectory3D();

  const CDCTrajectory3D& trajectory3D2 = track2.getStartTrajectory3D();


  const Vector2D& phi0Vec1 = trajectory3D1.getFlightDirection3DAtSupport().xy();

  const Vector2D& phi0Vec2 = trajectory3D2.getFlightDirection3DAtSupport().xy();


  int fbVote12 = 0;

  int fbVote21 = 0;


  for (const CDCRecoHit3D& recoHit3D : track1) {

    EForwardBackward fbInfo = phi0Vec2.isForwardOrBackwardOf(recoHit3D.getRecoPos2D());

    if (not isValid(fbInfo)) continue;

    fbVote12 += fbInfo;

  }


  for (const CDCRecoHit3D& recoHit3D : track2) {

    EForwardBackward fbInfo = phi0Vec1.isForwardOrBackwardOf(recoHit3D.getRecoPos2D());

    if (not isValid(fbInfo)) continue;

    fbVote21 += fbInfo;

  }


  if (not trajectory3D1.isCurler() and fbVote12 < 0) return NAN;

  if (not trajectory3D2.isCurler() and fbVote21 < 0) return NAN;


  // Build common hit list by copying the wire hits into one large list

  // We use the wire hits here as we do not want them to bring

  // their "old" reconstructed position when fitting.

  std::vector<const CDCWireHit*> combinedWireHits;

  combinedWireHits.reserve(track1.size() + track2.size());

  for (const CDCRecoHit3D& hit : track1) {

    combinedWireHits.push_back(&(hit.getWireHit()));

  }

  for (const CDCRecoHit3D& hit : track2) {

    combinedWireHits.push_back(&(hit.getWireHit()));

  }


  // Sorting is done via pointer addresses (!!).

  // This is not very stable and also not very meaningful (in terms of ordering in the track),

  // but it does the job for unique.

  // (the ordering is still outwards though since the wire hits are ordered like that in continuous memory)

  std::sort(combinedWireHits.begin(), combinedWireHits.end());

  erase_unique(combinedWireHits);


  // Calculate track parameters

  CDCTrajectory2D commonTrajectory2D;

  const CDCKarimakiFitter& fitter = CDCKarimakiFitter::getNoDriftVarianceFitter();


  // Approach the best fit

  commonTrajectory2D = fitter.fit(combinedWireHits);

  removeStrangeHits(5, combinedWireHits, commonTrajectory2D);

  commonTrajectory2D = fitter.fit(combinedWireHits);

  removeStrangeHits(3, combinedWireHits, commonTrajectory2D);

  commonTrajectory2D = fitter.fit(combinedWireHits);

  removeStrangeHits(1, combinedWireHits, commonTrajectory2D);

  commonTrajectory2D = fitter.fit(combinedWireHits);

  removeStrangeHits(1, combinedWireHits, commonTrajectory2D);

  commonTrajectory2D = fitter.fit(combinedWireHits);


  // Dismiss this possibility if the hit list size after all the removing of hits is even smaller

  // than the two lists before or if the list is too small

  if (combinedWireHits.size() <= std::max(track1.size(), track2.size())

      or combinedWireHits.size() < 15) {

    return NAN;

  }


  return commonTrajectory2D.getPValue();

}


void AxialTrackMerger::removeStrangeHits(double factor,

                                         std::vector<const CDCWireHit*>& wireHits,

                                         CDCTrajectory2D& trajectory2D)

{

  auto farFromTrajectory = [&trajectory2D, &factor](const CDCWireHit * wireHit) {

    Vector2D pos2D = wireHit->getRefPos2D();

    double driftLength = wireHit->getRefDriftLength();

    double dist = std::fabs(trajectory2D.getDist2D(pos2D)) - driftLength;

    return std::fabs(dist) > driftLength * factor;

  };

  erase_remove_if(wireHits, farFromTrajectory);

}


void AxialTrackMerger::mergeTracks(CDCTrack& track1,

                                   CDCTrack& track2,

                                   const std::vector<const CDCWireHit*>& allAxialWireHits)

{

  if (&track1 == &track2) return;


  CDCTrajectory2D trajectory2D = track1.getStartTrajectory3D().getTrajectory2D();

  for (const CDCRecoHit3D& orgRecoHit3D : track2) {

    CDCRecoHit3D recoHit3D = CDCRecoHit3D::reconstruct(orgRecoHit3D.getRLWireHit(), trajectory2D);

    track1.push_back(std::move(recoHit3D));

  }

  track2.clear();


  AxialTrackUtil::normalizeTrack(track1);


  track2 = CDCTrack(AxialTrackUtil::splitBack2BackTrack(track1));


  AxialTrackUtil::normalizeTrack(track1);


  for (CDCRecoHit3D& recoHit3D : track2) {

    recoHit3D.setRecoPos3D({recoHit3D.getRefPos2D(), 0});

    recoHit3D.setRLInfo(ERightLeft::c_Unknown);

  }


  AxialTrackUtil::normalizeTrack(track2);

  bool success = AxialTrackUtil::postprocessTrack(track2, allAxialWireHits);

  if (not success) {

    for (const CDCRecoHit3D& recoHit3D : track2) {

      recoHit3D.getWireHit()->setTakenFlag(false);

    }

    track2.clear();

  }

}

Belle2::ModuleParamList
The Module parameter list class.
Definition: ModuleParamList.h:44

Belle2::TrackFindingCDC::AxialTrackMerger::calculateBestTrackToMerge
static WithWeight< MayBePtr< CDCTrack > > calculateBestTrackToMerge(CDCTrack &track, ACDCTracks &tracks)
Searches for the best candidate to merge this track to.
Definition: AxialTrackMerger.cc:89

Belle2::TrackFindingCDC::AxialTrackMerger::apply
void apply(std::vector< CDCTrack > &axialTracks, const std::vector< const CDCWireHit * > &axialWireHits) final
Merge tracks together. Allows for axial hits to be added as it may see fit.
Definition: AxialTrackMerger.cc:41

Belle2::TrackFindingCDC::AxialTrackMerger::removeStrangeHits
static void removeStrangeHits(double factor, std::vector< const CDCWireHit * > &wireHits, CDCTrajectory2D &trajectory)
Remove all hits that are further than factor * driftlength away from the trajectory.
Definition: AxialTrackMerger.cc:179

Belle2::TrackFindingCDC::AxialTrackMerger::mergeTracks
static void mergeTracks(CDCTrack &track1, CDCTrack &track2, const std::vector< const CDCWireHit * > &allAxialWireHits)
Function to merge two track candidates.
Definition: AxialTrackMerger.cc:192

Belle2::TrackFindingCDC::AxialTrackMerger::getDescription
std::string getDescription() final
Short description of the findlet.
Definition: AxialTrackMerger.cc:27

Belle2::TrackFindingCDC::AxialTrackMerger::doTracksFitTogether
static double doTracksFitTogether(CDCTrack &track1, CDCTrack &track2)
Fits the hit content of both tracks in a common fit repeated with an annealing schedule removing far ...
Definition: AxialTrackMerger.cc:107

Belle2::TrackFindingCDC::AxialTrackMerger::exposeParameters
void exposeParameters(ModuleParamList *moduleParamList, const std::string &prefix) final
Expose the parameters to a module.
Definition: AxialTrackMerger.cc:32

Belle2::TrackFindingCDC::AxialTrackMerger::doTracksMerging
void doTracksMerging(std::vector< CDCTrack > &axialTracks, const std::vector< const CDCWireHit * > &allAxialWireHits)
The track finding often finds two curling tracks, originating from the same particle.
Definition: AxialTrackMerger.cc:68

Belle2::TrackFindingCDC::AxialTrackMerger::m_param_minFitProb
double m_param_minFitProb
Parameter : Minimal fit probability of the common fit of two tracks to be eligible for merging.
Definition: AxialTrackMerger.h:95

Belle2::TrackFindingCDC::CDCKarimakiFitter
Class implementing the fitter using Karimakis method.
Definition: CDCKarimakiFitter.h:23

Belle2::TrackFindingCDC::CDCKarimakiFitter::getNoDriftVarianceFitter
static const CDCKarimakiFitter & getNoDriftVarianceFitter()
Static getter for a general fitter that does not use the drift length variances.
Definition: CDCKarimakiFitter.cc:33

Belle2::TrackFindingCDC::CDCRecoHit3D
Class representing a three dimensional reconstructed hit.
Definition: CDCRecoHit3D.h:52

Belle2::TrackFindingCDC::CDCRecoHit3D::reconstruct
static CDCRecoHit3D reconstruct(const CDCRecoHit2D &recoHit2D, const CDCTrajectory2D &trajectory2D)
Reconstructs the three dimensional hit from the two dimensional and the two dimensional trajectory.
Definition: CDCRecoHit3D.cc:56

Belle2::TrackFindingCDC::CDCTrack
Class representing a sequence of three dimensional reconstructed hits.
Definition: CDCTrack.h:41

Belle2::TrackFindingCDC::CDCTrajectory2D
Particle trajectory as it is seen in xy projection represented as a circle.
Definition: CDCTrajectory2D.h:36

Belle2::TrackFindingCDC::CDCTrajectory2D::getPValue
double getPValue() const
Getter for p-value.
Definition: CDCTrajectory2D.h:462

Belle2::TrackFindingCDC::CDCTrajectory2D::getDist2D
double getDist2D(const Vector2D &point) const
Calculates the distance from the point to the trajectory as seen from the xy projection.
Definition: CDCTrajectory2D.h:409

Belle2::TrackFindingCDC::CDCTrajectory3D
Particle full three dimensional trajectory.
Definition: CDCTrajectory3D.h:45

Belle2::TrackFindingCDC::CDCTrajectory3D::isCurler
bool isCurler(double factor=1) const
Checks if the trajectory leaves the outer radius of the CDC times the given tolerance factor.
Definition: CDCTrajectory3D.cc:296

Belle2::TrackFindingCDC::CDCTrajectory3D::getFlightDirection3DAtSupport
Vector3D getFlightDirection3DAtSupport() const
Get the unit momentum at the start point of the trajectory.
Definition: CDCTrajectory3D.h:220

Belle2::TrackFindingCDC::CDCWireHit
Class representing a hit wire in the central drift chamber.
Definition: CDCWireHit.h:55

Belle2::TrackFindingCDC::Vector2D
A two dimensional vector which is equipped with functions for correct handeling  of orientation relat...
Definition: Vector2D.h:32

Belle2::TrackFindingCDC::Vector2D::isForwardOrBackwardOf
EForwardBackward isForwardOrBackwardOf(const Vector2D &rhs) const
Indicates if the given vector is more coaligned or reverse if you looked in the direction of this vec...
Definition: Vector2D.h:493

Belle2::TrackFindingCDC::Vector3D::xy
const Vector2D & xy() const
Getter for the xy projected vector ( reference ! )
Definition: Vector3D.h:508

Belle2::TrackFindingCDC::WithWeight
A mixin class to attach a weight to an object.
Definition: WithWeight.h:24

Belle2::TrackFindingCDC::WithWeight::getWeight
Weight getWeight() const
Getter for the weight.
Definition: WithWeight.h:58

Belle2::ModuleParamList::addParameter
void addParameter(const std::string &name, T &paramVariable, const std::string &description, const T &defaultValue)
Adds a new parameter to the module list.
Definition: ModuleParamList.templateDetails.h:28

Belle2::TrackFindingCDC::NForwardBackward::EForwardBackward
EForwardBackward
Enumeration to represent the distinct possibilities of the right left passage information.
Definition: EForwardBackward.h:25

Belle2
Abstract base class for different kinds of events.
Definition: MillepedeAlgorithm.h:17

Belle2::TrackFindingCDC::AxialTrackUtil::deleteShortTracks
static void deleteShortTracks(std::vector< CDCTrack > &axialTracks, double minimal_size=5)
Remove tracks that are shorter than the given number of hits.
Definition: AxialTrackUtil.cc:196

Belle2::TrackFindingCDC::AxialTrackUtil::normalizeTrack
static void normalizeTrack(CDCTrack &track)
Refit and resort the track. Unmask all hits.
Definition: AxialTrackUtil.cc:93

Belle2::TrackFindingCDC::AxialTrackUtil::removeHitsAfterSuperLayerBreak
static void removeHitsAfterSuperLayerBreak(CDCTrack &track)
Searches for a break in the super layer chain and remove all hits that come after that.
Definition: AxialTrackUtil.cc:286

Belle2::TrackFindingCDC::AxialTrackUtil::postprocessTrack
static bool postprocessTrack(CDCTrack &track, const std::vector< const CDCWireHit * > &allAxialWireHits)
Perform all track postprocessing - return whether the track is considered good after the postprocessi...
Definition: AxialTrackUtil.cc:67

Belle2::TrackFindingCDC::AxialTrackUtil::splitBack2BackTrack
static std::vector< CDCRecoHit3D > splitBack2BackTrack(CDCTrack &track)
Tries to split back-to-back tracks into two different tracks.
Definition: AxialTrackUtil.cc:209

Belle2::TrackFindingCDC::AxialTrackUtil::deleteTracksWithLowFitProbability
static void deleteTracksWithLowFitProbability(std::vector< CDCTrack > &axialTracks, double minimal_probability_for_good_fit=0.4)
Check an (improper) p-values of the tracks. If they are below the given value, delete the track from ...
Definition: AxialTrackUtil.cc:157

Belle2::TrackFindingCDC::BinaryJoin
Functor factory turning a binary functor and two functors into a new functor which executes the binar...
Definition: Functional.h:127