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/data/refman/pasoursint/CMSSW_5_3_4/src/SUSYBSMAnalysis/HSCP/src/HSCParticleProducer.cc

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00001 // -*- C++ -*-
00002 //
00003 // Package:    HSCParticleProducer
00004 // Class:      HSCParticleProducer
00005 // 
00013 //
00014 // Original Author:  Rizzi Andrea
00015 // Reworked and Ported to CMSSW_3_0_0 by Christophe Delaere
00016 //         Created:  Wed Oct 10 12:01:28 CEST 2007
00017 // $Id: HSCParticleProducer.cc,v 1.19 2011/04/20 09:17:15 querten Exp $
00018 //
00019 //
00020 
00021 // user include files
00022 #include "SUSYBSMAnalysis/HSCP/interface/HSCParticleProducer.h"
00023 
00024 using namespace susybsm;
00025 using namespace reco;
00026 
00027 HSCParticleProducer::HSCParticleProducer(const edm::ParameterSet& iConfig) {
00028   using namespace edm;
00029   using namespace std;
00030 
00031   // the Act as Event filter
00032    Filter_        = iConfig.getParameter<bool>          ("filter");
00033 
00034   // the input collections
00035   m_trackTag      = iConfig.getParameter<edm::InputTag>("tracks");
00036   m_muonsTag      = iConfig.getParameter<edm::InputTag>("muons");
00037   m_trackIsoTag   = iConfig.getParameter<edm::InputTag>("tracksIsolation");
00038 
00039   useBetaFromTk   = iConfig.getParameter<bool>    ("useBetaFromTk"  );
00040   useBetaFromMuon = iConfig.getParameter<bool>    ("useBetaFromMuon");
00041   useBetaFromRpc  = iConfig.getParameter<bool>    ("useBetaFromRpc" );
00042   useBetaFromEcal = iConfig.getParameter<bool>    ("useBetaFromEcal");
00043 
00044   // the parameters
00045   minTkP          = iConfig.getParameter<double>  ("minTkP");       // 30
00046   maxTkChi2       = iConfig.getParameter<double>  ("maxTkChi2");    // 5
00047   minTkHits       = iConfig.getParameter<uint32_t>("minTkHits");    // 9
00048   minMuP          = iConfig.getParameter<double>  ("minMuP");       // 30
00049   minDR           = iConfig.getParameter<double>  ("minDR");        // 0.1
00050   maxInvPtDiff    = iConfig.getParameter<double>  ("maxInvPtDiff"); // 0.005
00051 
00052   if(useBetaFromTk  )beta_calculator_TK   = new BetaCalculatorTK  (iConfig);
00053   if(useBetaFromMuon)beta_calculator_MUON = new BetaCalculatorMUON(iConfig);
00054   if(useBetaFromRpc )beta_calculator_RPC  = new BetaCalculatorRPC (iConfig);
00055   if(useBetaFromEcal)beta_calculator_ECAL = new BetaCalculatorECAL(iConfig);
00056 
00057   // Load all the selections
00058   std::vector<edm::ParameterSet> SelectionParameters = iConfig.getParameter<std::vector<edm::ParameterSet> >("SelectionParameters");
00059   for(unsigned int i=0;i<SelectionParameters.size();i++){
00060      Selectors.push_back(new CandidateSelector(SelectionParameters[i]) );
00061   }
00062 
00063   // what I produce
00064   produces<susybsm::HSCParticleCollection >();
00065   if(useBetaFromEcal)produces<susybsm::HSCPCaloInfoCollection >();
00066 
00067 }
00068 
00069 HSCParticleProducer::~HSCParticleProducer() {
00070    // do anything here that needs to be done at desctruction time
00071    // (e.g. close files, deallocate resources etc.)
00072 }
00073 
00074 //
00075 // member functions
00076 //
00077 
00078 // ------------ method called to produce the data  ------------
00079 bool
00080 HSCParticleProducer::filter(edm::Event& iEvent, const edm::EventSetup& iSetup) {
00081 
00082   using namespace edm;
00083   using namespace reco;
00084   using namespace std;
00085   using namespace susybsm;
00086 
00087   // information from the muons
00088   edm::Handle<reco::MuonCollection> muonCollectionHandle;
00089   iEvent.getByLabel(m_muonsTag,muonCollectionHandle);
00090 
00091   // information from the tracks
00092   edm::Handle<reco::TrackCollection> trackCollectionHandle;
00093   iEvent.getByLabel(m_trackTag,trackCollectionHandle);
00094 
00095   // information from the tracks iso
00096   edm::Handle<reco::TrackCollection> trackIsoCollectionHandle;
00097   iEvent.getByLabel(m_trackIsoTag,trackIsoCollectionHandle);
00098 
00099 
00100   // creates the output collection
00101   susybsm::HSCParticleCollection* hscp = new susybsm::HSCParticleCollection; 
00102   std::auto_ptr<susybsm::HSCParticleCollection> result(hscp);
00103 
00104   susybsm::HSCPCaloInfoCollection* caloInfoColl = new susybsm::HSCPCaloInfoCollection;
00105   std::auto_ptr<susybsm::HSCPCaloInfoCollection> caloInfoCollaptr(caloInfoColl);
00106 
00107 
00108   // Fill the output collection with HSCP Candidate (the candiate only contains ref to muon AND/OR track object)
00109   *hscp = getHSCPSeedCollection(trackCollectionHandle, muonCollectionHandle);
00110 
00111   // find the track ref for isolation purposed (main track is supposed to be the Iso track after refitting)
00112   for(susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin(); hscpcandidate != hscp->end(); ++hscpcandidate) {
00113       // Matching is needed because input track collection and muon inner track may lightly differs due to track refit
00114       reco::TrackRef track  = hscpcandidate->trackRef();
00115       if(track.isNull())continue;
00116       float dRMin=1000; int found = -1;
00117       for(unsigned int t=0; t<trackIsoCollectionHandle->size();t++) {
00118          reco::TrackRef Isotrack  = reco::TrackRef( trackIsoCollectionHandle, t );
00119          if( fabs( (1.0/track->pt())-(1.0/Isotrack->pt())) > maxInvPtDiff) continue;
00120          float dR = deltaR(track->momentum(), Isotrack->momentum());
00121          if(dR <= minDR && dR < dRMin){ dRMin=dR; found = t;}
00122       }
00123       if(found>=0)hscpcandidate->setTrackIso(reco::TrackRef( trackIsoCollectionHandle, found ));  
00124   }
00125 
00126   // compute the TRACKER contribution
00127   if(useBetaFromTk){
00128   for(susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin(); hscpcandidate != hscp->end(); ++hscpcandidate) {
00129     beta_calculator_TK->addInfoToCandidate(*hscpcandidate,  iEvent,iSetup);
00130   }}
00131 
00132   // compute the MUON contribution
00133   if(useBetaFromMuon){
00134   for(susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin(); hscpcandidate != hscp->end(); ++hscpcandidate) {
00135     beta_calculator_MUON->addInfoToCandidate(*hscpcandidate,  iEvent,iSetup);
00136   }}
00137 
00138   // compute the RPC contribution
00139   if(useBetaFromRpc){
00140   for(susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin(); hscpcandidate != hscp->end(); ++hscpcandidate) {
00141       beta_calculator_RPC->addInfoToCandidate(*hscpcandidate, iEvent, iSetup);
00142   }}
00143 
00144   // compute the ECAL contribution
00145 //  auto_ptr<ValueMap<HSCPCaloInfo> > CaloInfoMap(new ValueMap<HSCPCaloInfo> );
00146 //  ValueMap<HSCPCaloInfo>::Filler    filler(*CaloInfoMap);
00147 //  std::vector<HSCPCaloInfo> CaloInfoColl(hscp->size());
00148    if(useBetaFromEcal){
00149   int Index=0;
00150   caloInfoColl->resize(hscp->size());
00151   for(susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin(); hscpcandidate != hscp->end(); ++hscpcandidate, Index++) {
00152      beta_calculator_ECAL->addInfoToCandidate(*hscpcandidate,trackCollectionHandle,iEvent,iSetup, (*caloInfoColl)[Index]);
00153   }}
00154 
00155   // cleanup the collection based on the input selection
00156   for(int i=0;i<(int)hscp->size();i++) {
00157      susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin() + i;
00158      bool decision = false;
00159      for(unsigned int s=0;s<Selectors.size();s++){decision |= Selectors[s]->isSelected(*hscpcandidate);}
00160      if(!decision){
00161         hscp->erase(hscpcandidate);
00162         if(useBetaFromEcal)caloInfoColl->erase(caloInfoColl->begin() + i);
00163         i--;
00164      }
00165   }
00166   bool filterResult = !Filter_ || (Filter_ && hscp->size()>=1);
00167 
00168 
00169 
00170 
00171   // output result
00172   if(useBetaFromEcal){
00173     edm::OrphanHandle<susybsm::HSCPCaloInfoCollection> caloInfoHandle= iEvent.put(caloInfoCollaptr);
00174     // adding the reftoCaloInfoObject to the HSCP Object
00175     for(int i=0;i<(int)hscp->size();i++) {
00176        susybsm::HSCParticleCollection::iterator hscpcandidate = hscp->begin() + i;
00177        hscpcandidate->setCaloInfo(HSCPCaloInfoRef(caloInfoHandle,i));
00178     }
00179   }
00180 
00181 
00182   // output result
00183   
00184 
00185   edm::OrphanHandle<susybsm::HSCParticleCollection> putHandle = iEvent.put(result); 
00186 //  if(useBetaFromEcal){
00187 //      edm::RefProd<susybsm::HSCParticleCollection> hscpCollectionHandle = iEvent.getRefBeforePut<susybsm::HSCParticleCollection>();
00188 //    filler.insert(putHandle, CaloInfoColl.begin(), CaloInfoColl.end());
00189 //    filler.fill();
00190 //    iEvent.put(CaloInfoMap);
00191 //  }
00192 
00193   return filterResult;
00194 }
00195 
00196 // ------------ method called once each job just before starting event loop  ------------
00197 void 
00198 HSCParticleProducer::beginJob() {
00199 }
00200 
00201 // ------------ method called once each job just after ending the event loop  ------------
00202 void 
00203 HSCParticleProducer::endJob() {
00204 }
00205 
00206 std::vector<HSCParticle> HSCParticleProducer::getHSCPSeedCollection(edm::Handle<reco::TrackCollection>& trackCollectionHandle,  edm::Handle<reco::MuonCollection>& muonCollectionHandle)
00207 {
00208    std::vector<HSCParticle> HSCPCollection;
00209 
00210    // Store a local vector of track ref (that can be modified if matching)
00211    std::vector<reco::TrackRef> tracks;
00212    for(unsigned int i=0; i<trackCollectionHandle->size(); i++){
00213       TrackRef track = reco::TrackRef( trackCollectionHandle, i );
00214       if(track->p()<minTkP || (track->chi2()/track->ndof())>maxTkChi2 || track->found()<minTkHits)continue;
00215       tracks.push_back( track );
00216    }
00217 
00218    // Loop on muons with inner track ref and create Muon HSCP Candidate
00219    for(unsigned int m=0; m<muonCollectionHandle->size(); m++){
00220       reco::MuonRef muon  = reco::MuonRef( muonCollectionHandle, m );
00221       if(muon->p()<minMuP )continue;
00222       TrackRef innertrack = muon->innerTrack();
00223       if(innertrack.isNull())continue;
00224 
00225       // Check if the inner track match any track in order to create a Muon+Track HSCP Candidate
00226       // Matching is needed because input track collection and muon inner track may lightly differs due to track refit
00227       float dRMin=1000; int found = -1;
00228       for(unsigned int t=0; t<tracks.size();t++) {
00229          reco::TrackRef track  = tracks[t];
00230          if( fabs( (1.0/innertrack->pt())-(1.0/track->pt())) > maxInvPtDiff) continue;
00231          float dR = deltaR(innertrack->momentum(), track->momentum());
00232          if(dR <= minDR && dR < dRMin){ dRMin=dR; found = t;}           
00233       }
00234 
00235       HSCParticle candidate;
00236       candidate.setMuon(muon);
00237       if(found>=0){
00238 //        printf("MUON with Inner Track Matching --> DR = %6.2f (%6.2f %+6.2f %+6.2f):(%6.2f %+6.2f %+6.2f) vs (%6.2f %+6.2f %+6.2f)\n",dRMin,muon->pt(), muon->eta(), muon->phi(), innertrack->pt(), innertrack->eta(), innertrack->phi(), tracks[found]->pt(), tracks[found]->eta(), tracks[found]->phi() );
00239         candidate.setTrack(tracks[found]);
00240         tracks.erase(tracks.begin()+found);
00241       }
00242       HSCPCollection.push_back(candidate);
00243    }
00244 
00245    // Loop on muons without inner tracks and create Muon HSCP Candidate
00246    for(unsigned int m=0; m<muonCollectionHandle->size(); m++){
00247       reco::MuonRef muon  = reco::MuonRef( muonCollectionHandle, m );
00248       if(muon->p()<minMuP)continue;
00249       TrackRef innertrack = muon->innerTrack();
00250       if(innertrack.isNonnull())continue;
00251 
00252       // Check if the muon match any track in order to create a Muon+Track HSCP Candidate
00253       float dRMin=1000; int found = -1;
00254       for(unsigned int t=0; t<tracks.size();t++) {
00255          reco::TrackRef track  = tracks[t];
00256          if( fabs( (1.0/muon->pt())-(1.0/track->pt())) > maxInvPtDiff) continue;
00257          float dR = deltaR(muon->momentum(), track->momentum());
00258          if(dR <= minDR && dR < dRMin){ dRMin=dR; found = t;}
00259       }
00260 
00261       HSCParticle candidate;
00262       candidate.setMuon(muon);
00263       if(found>=0){
00264 //        printf("MUON without Inner Track Matching --> DR = %6.2f (%6.2f %+6.2f %+6.2f) vs (%6.2f %+6.2f %+6.2f)\n",dRMin,muon->pt(), muon->eta(), muon->phi(), tracks[found]->pt(), tracks[found]->eta(), tracks[found]->phi() );
00265         candidate.setTrack(tracks[found]);
00266         tracks.erase(tracks.begin()+found);
00267       }
00268       HSCPCollection.push_back(candidate);
00269    }
00270 
00271    // Loop on tracks not matching muon and create Track HSCP Candidate
00272    for(unsigned int i=0; i<tracks.size(); i++){
00273       HSCParticle candidate;
00274       candidate.setTrack(tracks[i]);
00275       HSCPCollection.push_back(candidate);
00276    }
00277 
00278    return HSCPCollection;
00279 }
00280 
00281 //define this as a plug-in
00282 DEFINE_FWK_MODULE(HSCParticleProducer);
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