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/data/refman/pasoursint/CMSSW_4_4_5_patch3/src/RecoTauTag/InvariantMass/src/InvariantMassAlgorithm.cc

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00001 #include "RecoTauTag/InvariantMass/interface/InvariantMassAlgorithm.h"
00002 #include <boost/regex.hpp>
00003 
00004 using namespace std; 
00005 using namespace edm;
00006 using namespace reco;
00007 
00008 //
00009 // -- Constructor
00010 //
00011 InvariantMassAlgorithm::InvariantMassAlgorithm()
00012 {
00013   matching_cone               = 0.1; // check with simone
00014   leading_trk_pt              = 1.0; // check with simone
00015   signal_cone                 = 0.07;// check with simone
00016   cluster_jet_matching_cone   = 0.4;
00017   cluster_track_matching_cone = 0.08;
00018   inv_mass_cut                = 2.5;
00019 }
00020 //
00021 // -- Constructor
00022 //
00023 InvariantMassAlgorithm::InvariantMassAlgorithm(const ParameterSet& parameters)
00024 {
00025   matching_cone               = parameters.getParameter<double>("MatchingCone");
00026   leading_trk_pt              = parameters.getParameter<double>("LeadingTrackPt");
00027   signal_cone                 = parameters.getParameter<double>("SignalCone");
00028   cluster_jet_matching_cone   = parameters.getParameter<double>("ClusterSelectionCone");
00029   cluster_track_matching_cone = parameters.getParameter<double>("ClusterTrackMatchingCone");
00030   inv_mass_cut                = parameters.getParameter<double>("InvariantMassCutoff");
00031 
00032 
00033 // TrackAssociator parameters
00034    edm::ParameterSet tk_ass_pset = parameters.getParameter<edm::ParameterSet>("TrackAssociatorParameters");
00035    trackAssociatorParameters_.loadParameters( tk_ass_pset );
00036 
00037    trackAssociator_ = new TrackDetectorAssociator();
00038    trackAssociator_->useDefaultPropagator();
00039 }
00040 //
00041 // -- Destructor
00042 //
00043 InvariantMassAlgorithm::~InvariantMassAlgorithm() {
00044   if(trackAssociator_) delete trackAssociator_;
00045 }
00046 //
00047 // -- Tag 
00048 //
00049 pair<double, reco::TauMassTagInfo> InvariantMassAlgorithm::tag(edm::Event& theEvent, 
00050                                                               const edm::EventSetup& theEventSetup, 
00051                                                               const reco::IsolatedTauTagInfoRef& tauRef, 
00052                                                               const Handle<BasicClusterCollection>& clus_handle) 
00053 {
00054 
00055   TauMassTagInfo resultExtended;
00056   resultExtended.setIsolatedTauTag(tauRef);
00057 
00058   double discriminator = tauRef->discriminator();
00059   if (discriminator > 0.0) {
00060 
00061     int nSel = 0;
00062     for (size_t ic = 0; ic < clus_handle->size(); ic++) {
00063       math::XYZVector cluster3Vec((*clus_handle)[ic].x(),(*clus_handle)[ic].y(),(*clus_handle)[ic].z());
00064       BasicClusterRef cluster(clus_handle, ic);
00065       float et = (*clus_handle)[ic].energy() * sin(cluster3Vec.theta());       
00066       if ( (et < 0.04) || (et > 300.0) ) continue;    
00067       float delR = getMinimumClusterDR(theEvent, theEventSetup, tauRef, cluster3Vec);
00068       if (delR != -1.0) {
00069         nSel++;
00070         resultExtended.storeClusterTrackCollection(cluster, delR);
00071       }
00072     }
00073     if (0) cout << " Total Number of Clusters " << clus_handle->size() << " " << nSel << endl;
00074     
00075     discriminator = resultExtended.discriminator(matching_cone,
00076                                                  leading_trk_pt,
00077                                                  signal_cone,
00078                                                  cluster_track_matching_cone,
00079                                                  inv_mass_cut); 
00080   }
00081   return make_pair(discriminator, resultExtended); 
00082 }
00083 //
00084 // get Cluster Map
00085 //
00086 float InvariantMassAlgorithm::getMinimumClusterDR(edm::Event& theEvent,  
00087                                          const edm::EventSetup& theEventSetup, 
00088                                          const reco::IsolatedTauTagInfoRef& tauRef,
00089                                          const math::XYZVector& cluster_3vec) 
00090 {
00091 
00092   trackAssociatorParameters_.useEcal = true;
00093   trackAssociatorParameters_.useHcal = false;
00094   trackAssociatorParameters_.useHO   = false;
00095   trackAssociatorParameters_.useMuon = false;
00096   trackAssociatorParameters_.dREcal  = 0.03;
00097 
00098   const TrackRefVector tracks = tauRef->allTracks();
00099   const Jet & jet = *(tauRef->jet()); 
00100   math::XYZVector jet3Vec(jet.px(),jet.py(),jet.pz());   
00101   float min_dR = 999.9; 
00102   float deltaR1 = ROOT::Math::VectorUtil::DeltaR(cluster_3vec, jet3Vec);
00103   if (deltaR1 > cluster_jet_matching_cone) return -1.0;
00104 
00105   for (edm::RefVector<reco::TrackCollection>::const_iterator it  = tracks.begin();
00106                                                              it != tracks.end(); it++) 
00107   {    
00108     TrackDetMatchInfo info;
00109     info = trackAssociator_->associate(theEvent, theEventSetup,
00110                                      trackAssociator_->getFreeTrajectoryState(theEventSetup, (*(*it))), 
00111                                      trackAssociatorParameters_);
00112     math::XYZVector track3Vec(info.trkGlobPosAtEcal.x(),
00113                               info.trkGlobPosAtEcal.y(),
00114                               info.trkGlobPosAtEcal.z());
00115 
00116     float deltaR2 = ROOT::Math::VectorUtil::DeltaR(cluster_3vec, track3Vec);
00117     if (deltaR2 < min_dR) min_dR = deltaR2;        
00118   }
00119   return min_dR;
00120 }