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Public Member Functions | Private Attributes

KDTreeLinkerTrackHcal Class Reference

#include <KDTreeLinkerTrackHcal.h>

Inheritance diagram for KDTreeLinkerTrackHcal:
KDTreeLinkerBase

List of all members.

Public Member Functions

void buildTree ()
void clear ()
void insertFieldClusterElt (reco::PFBlockElement *hcalCluster)
void insertTargetElt (reco::PFBlockElement *track)
 KDTreeLinkerTrackHcal ()
void searchLinks ()
void updatePFBlockEltWithLinks ()
 ~KDTreeLinkerTrackHcal ()

Private Attributes

BlockElt2BlockEltMap cluster2TargetLinks_
BlockEltSet fieldClusterSet_
RecHit2BlockEltMap rechit2ClusterLinks_
RecHitSet rechitsSet_
BlockEltSet targetSet_
KDTreeLinkerAlgo tree_

Detailed Description

Definition at line 12 of file KDTreeLinkerTrackHcal.h.


Constructor & Destructor Documentation

KDTreeLinkerTrackHcal::KDTreeLinkerTrackHcal ( )
KDTreeLinkerTrackHcal::~KDTreeLinkerTrackHcal ( )

Definition at line 13 of file KDTreeLinkerTrackHcal.cc.

References clear().

{
  clear();
}

Member Function Documentation

void KDTreeLinkerTrackHcal::buildTree ( ) [virtual]

Implements KDTreeLinkerBase.

Definition at line 57 of file KDTreeLinkerTrackHcal.cc.

References KDTreeLinkerAlgo< DATA >::build(), KDTreeLinkerBase::getPhiOffset(), M_PI, phi, phimax, phimin, rechitsSet_, and tree_.

{
  // List of pseudo-rechits that will be used to create the KDTree
  std::vector<KDTreeNodeInfo> eltList;

  // Filling of this list
  for(RecHitSet::const_iterator it = rechitsSet_.begin(); 
      it != rechitsSet_.end(); it++) {
    
    const reco::PFRecHit::REPPoint &posrep = (*it)->positionREP();
    
    KDTreeNodeInfo rh1 (*it, posrep.Eta(), posrep.Phi());
    eltList.push_back(rh1);
    
    // Here we solve the problem of phi circular set by duplicating some rechits
    // too close to -Pi (or to Pi) and adding (substracting) to them 2 * Pi.
    if (rh1.dim2 > (M_PI - getPhiOffset())) {
      double phi = rh1.dim2 - 2 * M_PI;
      KDTreeNodeInfo rh2(*it, posrep.Eta(), phi); 
      eltList.push_back(rh2);
    }

    if (rh1.dim2 < (M_PI * -1.0 + getPhiOffset())) {
      double phi = rh1.dim2 + 2 * M_PI;
      KDTreeNodeInfo rh3(*it, posrep.Eta(), phi); 
      eltList.push_back(rh3);
    }
  }

  // Here we define the upper/lower bounds of the 2D space (eta/phi).
  double phimin = -1.0 * M_PI - getPhiOffset();
  double phimax = M_PI + getPhiOffset();

  // etamin-etamax, phimin-phimax
  KDTreeBox region(-3.0, 3.0, phimin, phimax);

  // We may now build the KDTree
  tree_.build(eltList, region);
}
void KDTreeLinkerTrackHcal::clear ( void  ) [virtual]
void KDTreeLinkerTrackHcal::insertFieldClusterElt ( reco::PFBlockElement hcalCluster) [virtual]

Implements KDTreeLinkerBase.

Definition at line 26 of file KDTreeLinkerTrackHcal.cc.

References reco::PFBlockElement::clusterRef(), fieldClusterSet_, funct::fract(), edm::Ref< C, T, F >::isNull(), rechit2ClusterLinks_, and rechitsSet_.

Referenced by PFBlockAlgo::setInput().

{
  reco::PFClusterRef clusterref = hcalCluster->clusterRef();

  // This test is more or less done in PFBlockAlgo.h. In others cases, it should be switch on.
  //   if (!((clusterref->layer() == PFLayer::HCAL_ENDCAP) ||
  //    (clusterref->layer() == PFLayer::HCAL_BARREL1)))
  //     return;

  const std::vector<reco::PFRecHitFraction> &fraction = clusterref->recHitFractions();

  // We create a list of hcalCluster
  fieldClusterSet_.insert(hcalCluster);
  for(size_t rhit = 0; rhit < fraction.size(); ++rhit) {
    const reco::PFRecHitRef& rh = fraction[rhit].recHitRef();
    double fract = fraction[rhit].fraction();

    if ((rh.isNull()) || (fract < 1E-4))
      continue;
      
    const reco::PFRecHit& rechit = *rh;
      
    // We save the links rechit to HcalClusters
    rechit2ClusterLinks_[&rechit].insert(hcalCluster);
    
    // We create a liste of rechits
    rechitsSet_.insert(&rechit);
  }
}
void KDTreeLinkerTrackHcal::insertTargetElt ( reco::PFBlockElement track) [virtual]

Implements KDTreeLinkerBase.

Definition at line 19 of file KDTreeLinkerTrackHcal.cc.

References targetSet_.

Referenced by PFBlockAlgo::setInput().

{
  targetSet_.insert(track);
}
void KDTreeLinkerTrackHcal::searchLinks ( ) [virtual]

Implements KDTreeLinkerBase.

Definition at line 98 of file KDTreeLinkerTrackHcal.cc.

References cluster2TargetLinks_, reco::tau::disc::Eta(), KDTreeLinkerBase::getCristalPhiEtaMaxSize(), reco::PFTrajectoryPoint::HCALEntrance, reco::PFTrajectoryPoint::HCALExit, reco::PFTrajectoryPoint::isValid(), M_PI, colinearityKinematic::Phi, reco::PFTrajectoryPoint::positionREP(), rechit2ClusterLinks_, run_regression::ret, KDTreeLinkerAlgo< DATA >::search(), targetSet_, and tree_.

{
  // Must of the code has been taken from LinkByRecHit.cc

  // We iterate over the tracks.
  for(BlockEltSet::iterator it = targetSet_.begin(); 
      it != targetSet_.end(); it++) {
        
    reco::PFRecTrackRef trackref = (*it)->trackRefPF();

    const reco::PFTrajectoryPoint& atHCAL = 
      trackref->extrapolatedPoint(reco::PFTrajectoryPoint::HCALEntrance);
    const reco::PFTrajectoryPoint& atHCALExit = 
      trackref->extrapolatedPoint(reco::PFTrajectoryPoint::HCALExit);
    
    // The track didn't reach hcal
    if( ! atHCAL.isValid()) continue;
    
    double dHEta = atHCALExit.positionREP().Eta() - atHCAL.positionREP().Eta();
    double dHPhi = atHCALExit.positionREP().Phi() - atHCAL.positionREP().Phi(); 
    if ( dHPhi > M_PI ) dHPhi = dHPhi - 2. * M_PI;
    else if ( dHPhi < -M_PI ) dHPhi = dHPhi + 2. * M_PI; 
    
    double tracketa = atHCAL.positionREP().Eta() + 0.1 * dHEta;
    double trackphi = atHCAL.positionREP().Phi() + 0.1 * dHPhi;
    
    if (trackphi > M_PI) trackphi -= 2 * M_PI;
    else if (trackphi < -M_PI) trackphi += 2 * M_PI;

    // Estimate the maximal envelope in phi/eta that will be used to find rechit candidates.
    // Same envelope for cap et barrel rechits.
    double inflation = 1.;
    double rangeEta = (getCristalPhiEtaMaxSize() * (1.5 + 0.5) + 0.2 * fabs(dHEta)) * inflation; 
    double rangePhi = (getCristalPhiEtaMaxSize() * (1.5 + 0.5) + 0.2 * fabs(dHPhi)) * inflation; 

    // We search for all candidate recHits, ie all recHits contained in the maximal size envelope.
    std::vector<KDTreeNodeInfo> recHits;
    KDTreeBox trackBox(tracketa - rangeEta, tracketa + rangeEta, 
                       trackphi - rangePhi, trackphi + rangePhi);
    tree_.search(trackBox, recHits);
    
    // Here we check all rechit candidates using the non-approximated method.
    for(std::vector<KDTreeNodeInfo>::const_iterator rhit = recHits.begin(); 
        rhit != recHits.end(); ++rhit) {

      const reco::PFRecHit::REPPoint &rhrep                = rhit->ptr->positionREP();
      const std::vector<reco::PFRecHit::REPPoint>& corners = rhit->ptr->getCornersREP();
      if(corners.size() != 4) continue;
      
      double rhsizeEta = fabs(corners[0].Eta() - corners[2].Eta());
      double rhsizePhi = fabs(corners[0].Phi() - corners[2].Phi());
      if ( rhsizePhi > M_PI ) rhsizePhi = 2.*M_PI - rhsizePhi;
      
      double deta = fabs(rhrep.Eta() - tracketa);
      double dphi = fabs(rhrep.Phi() - trackphi);
      if ( dphi > M_PI ) dphi = 2.*M_PI - dphi;
      
      // Find all clusters associated to given rechit
      RecHit2BlockEltMap::iterator ret = rechit2ClusterLinks_.find(rhit->ptr);
      
      for(BlockEltSet::iterator clusterIt = ret->second.begin(); 
          clusterIt != ret->second.end(); clusterIt++) {
        
        const reco::PFClusterRef clusterref = (*clusterIt)->clusterRef();
        int fracsNbr = clusterref->recHitFractions().size();
        
        double _rhsizeEta = rhsizeEta * (1.5 + 0.5 / fracsNbr) + 0.2 * fabs(dHEta);
        double _rhsizePhi = rhsizePhi * (1.5 + 0.5 / fracsNbr) + 0.2 * fabs(dHPhi);
        
        // Check if the track and the cluster are linked
        if(deta < (_rhsizeEta / 2.) && dphi < (_rhsizePhi / 2.))
          cluster2TargetLinks_[*clusterIt].insert(*it);
      }
    }
  }
}
void KDTreeLinkerTrackHcal::updatePFBlockEltWithLinks ( ) [virtual]

Implements KDTreeLinkerBase.

Definition at line 176 of file KDTreeLinkerTrackHcal.cc.

References cluster2TargetLinks_, fieldClusterSet_, reco::PFTrajectoryPoint::HCALEntrance, reco::PFMultiLinksTC::linkedClusters, and reco::PFTrajectoryPoint::positionREP().

{
  //TODO YG : Check if cluster positionREP() is valid ?

  // Here we save in each HCAL cluster the list of phi/eta values of linked clusters.
  for (BlockElt2BlockEltMap::iterator it = cluster2TargetLinks_.begin();
       it != cluster2TargetLinks_.end(); ++it) {
    reco::PFMultiLinksTC multitracks(true);

    for (BlockEltSet::iterator jt = it->second.begin();
         jt != it->second.end(); ++jt) {

      reco::PFRecTrackRef trackref = (*jt)->trackRefPF();
      const reco::PFTrajectoryPoint& atHCAL = 
        trackref->extrapolatedPoint(reco::PFTrajectoryPoint::HCALEntrance);
      double tracketa = atHCAL.positionREP().Eta();
      double trackphi = atHCAL.positionREP().Phi();
      
      multitracks.linkedClusters.push_back(std::make_pair(trackphi, tracketa));
    }

    it->first->setMultilinks(multitracks);
  }

  // We set the multilinks flag of the track to true. It will allow us to 
  // use in an optimized way our algo results in the recursive linking algo.
  for (BlockEltSet::iterator it = fieldClusterSet_.begin();
       it != fieldClusterSet_.end(); ++it)
    (*it)->setIsValidMultilinks(true);

}

Member Data Documentation

Definition at line 51 of file KDTreeLinkerTrackHcal.h.

Referenced by clear(), searchLinks(), and updatePFBlockEltWithLinks().

Definition at line 45 of file KDTreeLinkerTrackHcal.h.

Referenced by clear(), insertFieldClusterElt(), and updatePFBlockEltWithLinks().

Definition at line 54 of file KDTreeLinkerTrackHcal.h.

Referenced by clear(), insertFieldClusterElt(), and searchLinks().

Definition at line 48 of file KDTreeLinkerTrackHcal.h.

Referenced by buildTree(), clear(), and insertFieldClusterElt().

Definition at line 44 of file KDTreeLinkerTrackHcal.h.

Referenced by clear(), insertTargetElt(), and searchLinks().

Definition at line 57 of file KDTreeLinkerTrackHcal.h.

Referenced by buildTree(), clear(), and searchLinks().