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/data/refman/pasoursint/CMSSW_5_2_7_hltpatch1/src/RecoParticleFlow/PFClusterTools/src/PFClusterWidthAlgo.cc

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00001 #include "RecoParticleFlow/PFClusterTools/interface/PFClusterWidthAlgo.h"
00002 #include "DataFormats/ParticleFlowReco/interface/PFRecHitFraction.h"
00003 #include "DataFormats/ParticleFlowReco/interface/PFRecHitFwd.h" 
00004 #include "DataFormats/ParticleFlowReco/interface/PFRecHit.h"
00005 #include "DataFormats/EcalDetId/interface/EcalSubdetector.h"
00006 #include "TMath.h"
00007 #include <algorithm>
00008 using namespace std;
00009 using namespace reco;
00010 
00011 
00012 
00013 PFClusterWidthAlgo::PFClusterWidthAlgo(const std::vector<const reco::PFCluster *>& pfclust,
00014                                        const EBRecHitCollection * ebRecHits,
00015                                        const EERecHitCollection * eeRecHits){
00016 
00017 
00018   double numeratorEtaWidth = 0.;
00019   double numeratorPhiWidth = 0.;
00020   double sclusterE = 0.;
00021   double posX = 0.;
00022   double posY = 0.;
00023   double posZ = 0.;
00024   sigmaEtaEta_ = 0.;
00025 
00026   unsigned int nclust= pfclust.size();
00027   if(nclust == 0 ) {
00028     etaWidth_ = 0.;
00029     phiWidth_ = 0.;
00030     sigmaEtaEta_ = 0.;
00031   }
00032   else {
00033 
00034     for(unsigned int icl=0;icl<nclust;++icl) {
00035       double e = pfclust[icl]->energy();
00036       sclusterE += e;
00037       posX += e * pfclust[icl]->position().X();
00038       posY += e * pfclust[icl]->position().Y();
00039       posZ += e * pfclust[icl]->position().Z();   
00040     }
00041     
00042     posX /=sclusterE;
00043     posY /=sclusterE;
00044     posZ /=sclusterE;
00045     
00046     double denominator = sclusterE;
00047     
00048     math::XYZPoint pflowSCPos(posX,posY,posZ);
00049     
00050     double scEta    = pflowSCPos.eta();
00051     double scPhi    = pflowSCPos.phi();
00052     
00053     double SeedClusEnergy = -1.;
00054     unsigned int SeedDetID = 0;
00055     double SeedEta = -1.;
00056 
00057     for(unsigned int icl=0; icl<nclust; ++icl) {
00058       const std::vector< reco::PFRecHitFraction >& PFRecHits =  pfclust[icl]->recHitFractions();
00059       
00060       
00061       for ( std::vector< reco::PFRecHitFraction >::const_iterator it = PFRecHits.begin(); 
00062             it != PFRecHits.end(); ++it) {
00063         const PFRecHitRef& RefPFRecHit = it->recHitRef(); 
00064         double energyHit=0;
00065         // if the PFRecHit is not available, try to get it from the collections
00066         //      if(!RefPFRecHit.isAvailable() && ebRecHits && eeRecHits )
00067         if(ebRecHits && eeRecHits )
00068           {
00069             //      std::cout << " Recomputing " << std::endl;
00070             unsigned index=it-PFRecHits.begin();
00071             DetId id=pfclust[icl]->hitsAndFractions()[index].first;
00072             // look for the hit; do not forget to multiply by the fraction
00073             if(id.det()==DetId::Ecal && id.subdetId()==EcalBarrel)
00074               {
00075                 EBRecHitCollection::const_iterator itcheck=ebRecHits->find(id);
00076                 if(itcheck!=ebRecHits->end())
00077                   energyHit= itcheck->energy();
00078                 // The cluster shapes do not take into account the RecHit fraction !            
00079                 // * pfclust[icl]->hitsAndFractions()[index].second;
00080               }
00081             if(id.det()==DetId::Ecal && id.subdetId()==EcalEndcap)
00082               {
00083                 EERecHitCollection::const_iterator itcheck=eeRecHits->find(id);
00084                 if(itcheck!=eeRecHits->end())
00085                   energyHit= itcheck->energy();
00086                 // The cluster shapes do not take into account the RecHit fraction !            
00087                 //               * pfclust[icl]->hitsAndFractions()[index].second;
00088               }
00089           }
00090         else
00091           energyHit = RefPFRecHit->energy();
00092 
00093         //only for the first cluster (from GSF) find the seed
00094         if(icl==0) {
00095           if (energyHit > SeedClusEnergy) {
00096             SeedClusEnergy = energyHit;
00097             SeedEta = RefPFRecHit->position().eta();
00098             SeedDetID = RefPFRecHit->detId();
00099           }
00100         }
00101 
00102 
00103         double dPhi = RefPFRecHit->position().phi() - scPhi;
00104         if (dPhi > + TMath::Pi()) { dPhi = TMath::TwoPi() - dPhi; }
00105         if (dPhi < - TMath::Pi()) { dPhi = TMath::TwoPi() + dPhi; }
00106         double dEta = RefPFRecHit->position().eta() - scEta;
00107         if ( energyHit > 0 ) {
00108           numeratorEtaWidth += energyHit * dEta * dEta;
00109           numeratorPhiWidth += energyHit * dPhi * dPhi;
00110         }
00111       }
00112     } // end for ncluster
00113 
00114     //for the first cluster (from GSF) computed sigmaEtaEta
00115     const std::vector< reco::PFRecHitFraction >& PFRecHits =  pfclust[0]->recHitFractions();
00116     for ( std::vector< reco::PFRecHitFraction >::const_iterator it = PFRecHits.begin(); 
00117           it != PFRecHits.end(); ++it) {
00118       const PFRecHitRef& RefPFRecHit = it->recHitRef(); 
00119       if(!RefPFRecHit.isAvailable()) 
00120         return;
00121       double energyHit = RefPFRecHit->energy();
00122       if (RefPFRecHit->detId() != SeedDetID) {
00123         float diffEta =  RefPFRecHit->position().eta() - SeedEta;
00124         sigmaEtaEta_ += (diffEta*diffEta) * (energyHit/SeedClusEnergy);
00125       }
00126     }
00127     if (sigmaEtaEta_ == 0.) sigmaEtaEta_ = 0.00000001;
00128 
00129     etaWidth_ = sqrt(numeratorEtaWidth / denominator);
00130     phiWidth_ = sqrt(numeratorPhiWidth / denominator);
00131     
00132 
00133   } // endif ncluster > 0
00134 }
00135 PFClusterWidthAlgo::~PFClusterWidthAlgo()
00136 {
00137 }