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#include <RecoJets/JetPlusTracks/src/JetPlusTrackProducer.cc>
Public Member Functions | |
| virtual void | beginJob () |
| virtual void | endJob () |
| JetPlusTrackProducer (const edm::ParameterSet &) | |
| virtual void | produce (edm::Event &, const edm::EventSetup &) |
| ~JetPlusTrackProducer () | |
Private Attributes | |
| std::string | alias |
| JetPlusTrackCorrector * | mJPTalgo |
| ZSPJPTJetCorrector * | mZSPalgo |
| edm::InputTag | src |
| edm::InputTag | srcPVs_ |
| bool | useZSP |
| bool | vectorial_ |
Description: [one line class summary]
Implementation: [Notes on implementation]
Definition at line 39 of file JetPlusTrackProducer.h.
| JetPlusTrackProducer::JetPlusTrackProducer | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 63 of file JetPlusTrackProducer.cc.
References edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), and align_tpl::src.
{
//register your products
src = iConfig.getParameter<edm::InputTag>("src");
alias = iConfig.getUntrackedParameter<string>("alias");
srcPVs_ = iConfig.getParameter<edm::InputTag>("srcPVs");
vectorial_ = iConfig.getParameter<bool>("VectorialCorrection");
useZSP = iConfig.getParameter<bool>("UseZSP");
mJPTalgo = new JetPlusTrackCorrector(iConfig);
if(useZSP) mZSPalgo = new ZSPJPTJetCorrector(iConfig);
produces<reco::JPTJetCollection>().setBranchAlias(alias);
}
| JetPlusTrackProducer::~JetPlusTrackProducer | ( | ) |
Definition at line 79 of file JetPlusTrackProducer.cc.
{
// do anything here that needs to be done at desctruction time
// (e.g. close files, deallocate resources etc.)
}
| void JetPlusTrackProducer::beginJob | ( | void | ) | [virtual] |
| void JetPlusTrackProducer::endJob | ( | void | ) | [virtual] |
| void JetPlusTrackProducer::produce | ( | edm::Event & | iEvent, |
| const edm::EventSetup & | iSetup | ||
| ) | [virtual] |
Implements edm::EDProducer.
Definition at line 94 of file JetPlusTrackProducer.cc.
References edm::RefVector< C, T, F >::begin(), SiPixelRawToDigiRegional_cfi::deltaPhi, deltaR(), reco::JPTJet::Specific::elecsInVertexInCalo, reco::JPTJet::Specific::elecsInVertexOutCalo, reco::JPTJet::Specific::elecsOutVertexInCalo, edm::RefVector< C, T, F >::end(), reco::LeafCandidate::energy(), reco::JPTJet::Specific::Eta2momtr, edm::Event::getByLabel(), reco::Jet::getJetConstituents(), i, jpt::MatchedTracks::inVertexInCalo_, jpt::MatchedTracks::inVertexOutOfCalo_, edm::HandleBase::isValid(), reco::JPTJet::Specific::mChargedHadronEnergy, reco::JPTJet::Specific::mResponseOfChargedWithEff, reco::JPTJet::Specific::mResponseOfChargedWithoutEff, reco::JPTJet::Specific::mSumEnergyOfChargedWithEff, reco::JPTJet::Specific::mSumEnergyOfChargedWithoutEff, reco::JPTJet::Specific::mSumPtOfChargedWithEff, reco::JPTJet::Specific::mSumPtOfChargedWithoutEff, patZpeak::muons, reco::JPTJet::Specific::muonsInVertexInCalo, reco::JPTJet::Specific::muonsInVertexOutCalo, reco::JPTJet::Specific::muonsOutVertexInCalo, reco::JPTJet::Specific::mZSPCor, convertSQLiteXML::ok, jpt::MatchedTracks::outOfVertexInCalo_, p4, reco::JPTJet::Specific::Phi2momtr, reco::JPTJet::Specific::pionsInVertexInCalo, reco::JPTJet::Specific::pionsInVertexOutCalo, reco::JPTJet::Specific::pionsOutVertexInCalo, reco::JPTJet::Specific::Pout, edm::Event::put(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), reco::LeafCandidate::pz(), reco::JPTJet::Specific::R2momtr, reco::Jet::scaleEnergy(), timingPdfMaker::specific, mathSSE::sqrt(), align_tpl::src, reco::JPTJet::Specific::theCaloJetRef, and reco::JPTJet::Specific::Zch.
{
using namespace edm;
// std::cout<<" RecoJets::JetPlusTrackProducer::produce "<<std::endl;
// get stuff from Event
edm::Handle <edm::View <reco::CaloJet> > jets_h;
iEvent.getByLabel (src, jets_h);
// std::auto_ptr<reco::CaloJetCollection> pOut(new reco::CaloJetCollection());
std::auto_ptr<reco::JPTJetCollection> pOut(new reco::JPTJetCollection());
for (unsigned i = 0; i < jets_h->size(); ++i) {
const reco::CaloJet* oldjet = &(*(jets_h->refAt(i)));
reco::CaloJet corrected = *oldjet;
// ZSP corrections
double factorZSP = 1.;
if(useZSP) factorZSP = mZSPalgo->correction(corrected, iEvent, iSetup);
corrected.scaleEnergy (factorZSP);
// JPT corrections
double scaleJPT = 1.;
math::XYZTLorentzVector p4;
jpt::MatchedTracks pions;
jpt::MatchedTracks muons;
jpt::MatchedTracks elecs;
bool ok=false;
if ( !vectorial_ ) {
scaleJPT = mJPTalgo->correction ( corrected, *oldjet, iEvent, iSetup, pions, muons, elecs,ok );
p4 = math::XYZTLorentzVector( corrected.px()*scaleJPT,
corrected.py()*scaleJPT,
corrected.pz()*scaleJPT,
corrected.energy()*scaleJPT );
} else {
scaleJPT = mJPTalgo->correction( corrected, *oldjet, iEvent, iSetup, p4, pions, muons, elecs,ok );
}
reco::JPTJet::Specific specific;
if(ok) {
specific.pionsInVertexInCalo = pions.inVertexInCalo_;
specific.pionsInVertexOutCalo = pions.inVertexOutOfCalo_;
specific.pionsOutVertexInCalo = pions.outOfVertexInCalo_;
specific.muonsInVertexInCalo = muons.inVertexInCalo_;
specific.muonsInVertexOutCalo = muons.inVertexOutOfCalo_;
specific.muonsOutVertexInCalo = muons.outOfVertexInCalo_;
specific.elecsInVertexInCalo = elecs.inVertexInCalo_;
specific.elecsInVertexOutCalo = elecs.inVertexOutOfCalo_;
specific.elecsOutVertexInCalo = elecs.outOfVertexInCalo_;
}
// Fill JPT Specific
edm::RefToBase<reco::Jet> myjet = (edm::RefToBase<reco::Jet>)jets_h->refAt(i);
specific.theCaloJetRef = myjet;
specific.mZSPCor = factorZSP;
specific.mResponseOfChargedWithEff = (float)mJPTalgo->getResponseOfChargedWithEff();
specific.mResponseOfChargedWithoutEff = (float)mJPTalgo->getResponseOfChargedWithoutEff();
specific.mSumPtOfChargedWithEff = (float)mJPTalgo->getSumPtWithEff();
specific.mSumPtOfChargedWithoutEff = (float)mJPTalgo->getSumPtWithoutEff();
specific.mSumEnergyOfChargedWithEff = (float)mJPTalgo->getSumEnergyWithEff();
specific.mSumEnergyOfChargedWithoutEff = (float)mJPTalgo->getSumEnergyWithoutEff();
specific.mChargedHadronEnergy = (float)mJPTalgo->getSumEnergyWithoutEff();
// Fill Charged Jet shape parameters
double deR2Tr = 0.;
double deEta2Tr = 0.;
double dePhi2Tr = 0.;
double Zch = 0.;
double Pout2 = 0.;
double Pout = 0.;
double denominator_tracks = 0.;
int ntracks = 0;
for( reco::TrackRefVector::const_iterator it = pions.inVertexInCalo_.begin(); it != pions.inVertexInCalo_.end(); it++) {
double deR = deltaR((*it)->eta(), (*it)->phi(), p4.eta(), p4.phi());
double deEta = (*it)->eta() - p4.eta();
double dePhi = deltaPhi((*it)->phi(), p4.phi());
if((**it).ptError()/(**it).pt() < 0.1) {
deR2Tr = deR2Tr + deR*deR*(*it)->pt();
deEta2Tr = deEta2Tr + deEta*deEta*(*it)->pt();
dePhi2Tr = dePhi2Tr + dePhi*dePhi*(*it)->pt();
denominator_tracks = denominator_tracks + (*it)->pt();
Zch = Zch + (*it)->pt();
Pout2 = Pout2 + (**it).p()*(**it).p() - (Zch*p4.P())*(Zch*p4.P());
ntracks++;
}
}
for( reco::TrackRefVector::const_iterator it = muons.inVertexInCalo_.begin(); it != muons.inVertexInCalo_.end(); it++) {
double deR = deltaR((*it)->eta(), (*it)->phi(), p4.eta(), p4.phi());
double deEta = (*it)->eta() - p4.eta();
double dePhi = deltaPhi((*it)->phi(), p4.phi());
if((**it).ptError()/(**it).pt() < 0.1) {
deR2Tr = deR2Tr + deR*deR*(*it)->pt();
deEta2Tr = deEta2Tr + deEta*deEta*(*it)->pt();
dePhi2Tr = dePhi2Tr + dePhi*dePhi*(*it)->pt();
denominator_tracks = denominator_tracks + (*it)->pt();
Zch = Zch + (*it)->pt();
Pout2 = Pout2 + (**it).p()*(**it).p() - (Zch*p4.P())*(Zch*p4.P());
ntracks++;
}
}
for( reco::TrackRefVector::const_iterator it = elecs.inVertexInCalo_.begin(); it != elecs.inVertexInCalo_.end(); it++) {
double deR = deltaR((*it)->eta(), (*it)->phi(), p4.eta(), p4.phi());
double deEta = (*it)->eta() - p4.eta();
double dePhi = deltaPhi((*it)->phi(), p4.phi());
if((**it).ptError()/(**it).pt() < 0.1) {
deR2Tr = deR2Tr + deR*deR*(*it)->pt();
deEta2Tr = deEta2Tr + deEta*deEta*(*it)->pt();
dePhi2Tr = dePhi2Tr + dePhi*dePhi*(*it)->pt();
denominator_tracks = denominator_tracks + (*it)->pt();
Zch = Zch + (*it)->pt();
Pout2 = Pout2 + (**it).p()*(**it).p() - (Zch*p4.P())*(Zch*p4.P());
ntracks++;
}
}
for( reco::TrackRefVector::const_iterator it = pions.inVertexOutOfCalo_.begin(); it != pions.inVertexOutOfCalo_.end(); it++) {
Zch = Zch + (*it)->pt();
}
for( reco::TrackRefVector::const_iterator it = muons.inVertexOutOfCalo_.begin(); it != muons.inVertexOutOfCalo_.end(); it++) {
Zch = Zch + (*it)->pt();
}
for( reco::TrackRefVector::const_iterator it = elecs.inVertexOutOfCalo_.begin(); it != elecs.inVertexOutOfCalo_.end(); it++) {
Zch = Zch + (*it)->pt();
}
if(mJPTalgo->getSumPtForBeta()> 0.) Zch = Zch/mJPTalgo->getSumPtForBeta();
// std::cout<<" Zch "<< Zch<<" "<<mJPTalgo->getSumPtForBeta()<<std::endl;
if(ntracks > 0) {
Pout = sqrt(fabs(Pout2))/ntracks;
}
if (denominator_tracks!=0){
deR2Tr = deR2Tr/denominator_tracks;
deEta2Tr= deEta2Tr/denominator_tracks;
dePhi2Tr= dePhi2Tr/denominator_tracks;
}
specific.R2momtr = deR2Tr;
specific.Eta2momtr = deEta2Tr;
specific.Phi2momtr = dePhi2Tr;
specific.Pout = Pout;
specific.Zch = Zch;
// std::cout<<" Moments for charged component "<<deR2_Tr<<" "<<deEta2_Tr<<" "<<dePhi2_Tr<<std::endl;
// Create JPT jet
reco::Particle::Point vertex_=reco::Jet::Point(0,0,0);
// If we add primary vertex
edm::Handle<reco::VertexCollection> pvCollection;
iEvent.getByLabel(srcPVs_,pvCollection);
if ( pvCollection.isValid() && pvCollection->size()>0 ) vertex_=pvCollection->begin()->position();
reco::JPTJet fJet(p4, vertex_, specific, corrected.getJetConstituents());
// fJet.printJet();
// Output module
pOut->push_back(fJet);
}
iEvent.put(pOut);
}
std::string JetPlusTrackProducer::alias [private] |
Definition at line 54 of file JetPlusTrackProducer.h.
Definition at line 50 of file JetPlusTrackProducer.h.
ZSPJPTJetCorrector* JetPlusTrackProducer::mZSPalgo [private] |
Definition at line 51 of file JetPlusTrackProducer.h.
edm::InputTag JetPlusTrackProducer::src [private] |
Definition at line 52 of file JetPlusTrackProducer.h.
edm::InputTag JetPlusTrackProducer::srcPVs_ [private] |
Definition at line 53 of file JetPlusTrackProducer.h.
bool JetPlusTrackProducer::useZSP [private] |
Definition at line 56 of file JetPlusTrackProducer.h.
bool JetPlusTrackProducer::vectorial_ [private] |
Definition at line 55 of file JetPlusTrackProducer.h.
1.7.3