Public Member Functions | |
ResolutionCreator (const edm::ParameterSet &) | |
~ResolutionCreator () | |
Private Member Functions | |
virtual void | analyze (const edm::Event &, const edm::EventSetup &) |
virtual void | beginJob () |
virtual void | endJob () |
Private Attributes | |
std::vector< double > | etabinVals_ |
int | etanrbins |
TF1 * | fResEtaBin [10][20] |
TF1 * | fResPtEtaBin [10][20][20] |
TH1F * | hResEtaBin [10][20] |
TH1F * | hResPtEtaBin [10][20][20] |
std::string | labelName_ |
int | matchingAlgo_ |
double | maxDist_ |
double | minDR_ |
int | nrFilled |
std::string | objectType_ |
std::vector< double > | pTbinVals_ |
int | ptnrbins |
TTree * | tResVar |
bool | useDeltaR_ |
bool | useMaxDist_ |
Definition at line 38 of file ResolutionCreator.cc.
ResolutionCreator::ResolutionCreator | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 71 of file ResolutionCreator.cc.
References etabinVals_, edm::ParameterSet::getParameter(), labelName_, minDR_, nrFilled, objectType_, and pTbinVals_.
{ // input parameters objectType_ = iConfig.getParameter< std::string > ("object"); labelName_ = iConfig.getParameter< std::string > ("label"); if(objectType_ != "met"){ etabinVals_ = iConfig.getParameter< std::vector<double> > ("etabinValues"); } pTbinVals_ = iConfig.getParameter< std::vector<double> > ("pTbinValues"); minDR_ = iConfig.getParameter< double > ("minMatchingDR"); nrFilled = 0; }
ResolutionCreator::~ResolutionCreator | ( | ) |
Definition at line 87 of file ResolutionCreator.cc.
{ }
void ResolutionCreator::analyze | ( | const edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [private, virtual] |
Implements edm::EDAnalyzer.
Definition at line 98 of file ResolutionCreator.cc.
References abs, b, bgen, alignCSCRings::e, HI_PhotonSkim_cff::electrons, reco::LeafCandidate::energy(), etabinVals_, etanrbins, HcalObjRepresent::Fill(), TtGenEvtProducer_cfi::genEvt, edm::Event::getByLabel(), hResPtEtaBin, j, fwrapper::jets, labelName_, m, minDR_, reco::CompositeRefCandidateT< D >::mother(), patZpeak::muons, nrFilled, reco::CompositeRefCandidateT< D >::numberOfMothers(), objectType_, AlCaHLTBitMon_ParallelJobs::p, reco::LeafCandidate::p4(), reco::LeafCandidate::pdgId(), hitfit::phidiff(), pTbinVals_, reco::LeafCandidate::status(), and metsig::tau.
{ // Get the gen and cal object fourvector std::vector<reco::Particle *> p4gen, p4rec; edm::Handle<TtGenEvent> genEvt; iEvent.getByLabel ("genEvt",genEvt); if(genEvt->particles().size()<10) return; if(objectType_ == "electron"){ edm::Handle<std::vector<pat::Electron> > electrons; //to calculate the ResolutionCreator for the electrons, i used the TopElectron instead of the AOD information iEvent.getByLabel(labelName_,electrons); for(size_t e=0; e<electrons->size(); e++) { for(size_t p=0; p<genEvt->particles().size(); p++){ if( (std::abs(genEvt->particles()[p].pdgId()) == 11) && (ROOT::Math::VectorUtil::DeltaR(genEvt->particles()[p].p4(), (*electrons)[e].p4()) < minDR_) ) { //p4gen.push_back(new reco::Particle(genEvt->particles()[p])); //p4rec.push_back(new reco::Particle((pat::Electron)((*electrons)[e]))); } } } } else if(objectType_ == "muon"){ edm::Handle<std::vector<pat::Muon> > muons; iEvent.getByLabel(labelName_,muons); for(size_t m=0; m<muons->size(); m++) { for(size_t p=0; p<genEvt->particles().size(); p++){ if( (std::abs(genEvt->particles()[p].pdgId()) == 13) && (ROOT::Math::VectorUtil::DeltaR(genEvt->particles()[p].p4(), (*muons)[m].p4()) < minDR_) ) { //p4gen.push_back(new reco::Particle(genEvt->particles()[p])); //p4rec.push_back(new reco::Particle((pat::Muon)((*muons)[m]))); } } } } else if(objectType_ == "lJets" ){ edm::Handle<std::vector<pat::Jet> > jets; iEvent.getByLabel(labelName_,jets); if(jets->size()>=4) { for(unsigned int j = 0; j<4; j++){ for(size_t p=0; p<genEvt->particles().size(); p++){ if( (std::abs(genEvt->particles()[p].pdgId()) < 5) && (ROOT::Math::VectorUtil::DeltaR(genEvt->particles()[p].p4(), (*jets)[j].p4())< minDR_) ){ //p4gen.push_back(new reco::Particle(genEvt->particles()[p])); //p4rec.push_back(new reco::Particle((pat::Jet)(*jets)[j])); } } } } } else if(objectType_ == "bJets" ){ edm::Handle<std::vector<pat::Jet> > jets; iEvent.getByLabel(labelName_,jets); if(jets->size()>=4) { for(unsigned int j = 0; j<4; j++){ for(size_t p=0; p<genEvt->particles().size(); p++){ if( (std::abs(genEvt->particles()[p].pdgId()) == 5) && (ROOT::Math::VectorUtil::DeltaR(genEvt->particles()[p].p4(), (*jets)[j].p4())< minDR_) ) { //p4gen.push_back(new reco::Particle(genEvt->particles()[p])); //p4rec.push_back(new reco::Particle((pat::Jet)(*jets)[j])); } } } } } else if(objectType_ == "met"){ edm::Handle<std::vector<pat::MET> > mets; iEvent.getByLabel(labelName_,mets); if(mets->size()>=1) { if( genEvt->isSemiLeptonic() && genEvt->singleNeutrino() != 0 && ROOT::Math::VectorUtil::DeltaR(genEvt->singleNeutrino()->p4(), (*mets)[0].p4()) < minDR_) { //p4gen.push_back(new reco::Particle(0,genEvt->singleNeutrino()->p4(),math::XYZPoint())); //p4rec.push_back(new reco::Particle((pat::MET)((*mets)[0]))); } } } else if(objectType_ == "tau"){ edm::Handle<std::vector<pat::Tau> > taus; iEvent.getByLabel(labelName_,taus); for(std::vector<pat::Tau>::const_iterator tau = taus->begin(); tau != taus->end(); ++tau) { // find the tau (if any) that matches a MC tau from W reco::GenParticle genLepton = *(tau->genLepton()); if( std::abs(genLepton.pdgId())==15 && genLepton.status()==2 && genLepton.numberOfMothers()>0 && std::abs(genLepton.mother(0)->pdgId())==15 && genLepton.mother(0)->numberOfMothers()>0 && std::abs(genLepton.mother(0)->mother(0)->pdgId())==24 && ROOT::Math::VectorUtil::DeltaR(genLepton.p4(), tau->p4()) < minDR_ ) { } //p4gen.push_back(new reco::Particle(genLepton)); //p4rec.push_back(new reco::Particle(*tau)); } } // Fill the object's value for(unsigned m=0; m<p4gen.size(); m++){ double Egen = p4gen[m]->energy(); double Thetagen = p4gen[m]->theta(); double Phigen = p4gen[m]->phi(); double Etgen = p4gen[m]->et(); double Etagen = p4gen[m]->eta(); double Ecal = p4rec[m]->energy(); double Thetacal = p4rec[m]->theta(); double Phical = p4rec[m]->phi(); double Etcal = p4rec[m]->et(); double Etacal = p4rec[m]->eta(); double phidiff = Phical- Phigen; if(phidiff>3.14159) phidiff = 2.*3.14159 - phidiff; if(phidiff<-3.14159) phidiff = -phidiff - 2.*3.14159; // find eta and et bin int etabin = 0; if(etanrbins > 1){ for(unsigned int b=0; b<etabinVals_.size()-1; b++) { if(fabs(Etacal) > etabinVals_[b]) etabin = b; } } int ptbin = 0; for(unsigned int b=0; b<pTbinVals_.size()-1; b++) { if(p4rec[m]->pt() > pTbinVals_[b]) ptbin = b; } // calculate the resolution on "a", "b", "c" & "d" according to the definition (CMS-NOTE-2006-023): // p = a*|p_meas|*u_1 + b*u_2 + c*u_3 // E(fit) = E_meas * d // // with u_1 = p/|p_meas| // u_3 = (u_z x u_1)/|u_z x u_1| // u_2 = (u_1 x u_3)/|u_1 x u_3| // // The initial parameters values are chosen like (a, b, c, d) = (1., 0., 0., 1.) // 1/ calculate the unitary vectors of the basis u_1, u_2, u_3 ROOT::Math::SVector<double,3> pcalvec(p4rec[m]->px(),p4rec[m]->py(),p4rec[m]->pz()); ROOT::Math::SVector<double,3> pgenvec(p4gen[m]->px(),p4gen[m]->py(),p4gen[m]->pz()); ROOT::Math::SVector<double,3> u_z(0,0,1); ROOT::Math::SVector<double,3> u_1 = ROOT::Math::Unit(pcalvec); ROOT::Math::SVector<double,3> u_3 = ROOT::Math::Cross(u_z,u_1)/ROOT::Math::Mag(ROOT::Math::Cross(u_z,u_1)); ROOT::Math::SVector<double,3> u_2 = ROOT::Math::Cross(u_1,u_3)/ROOT::Math::Mag(ROOT::Math::Cross(u_1,u_3)); double acal = 1.; double bcal = 0.; double ccal = 0.; double dcal = 1.; double agen = ROOT::Math::Dot(pgenvec,u_1)/ROOT::Math::Mag(pcalvec); double bgen = ROOT::Math::Dot(pgenvec,u_2); double cgen = ROOT::Math::Dot(pgenvec,u_3); double dgen = Egen/Ecal; //fill histograms ++nrFilled; hResPtEtaBin[0][etabin][ptbin] -> Fill(acal-agen); hResPtEtaBin[1][etabin][ptbin] -> Fill(bcal-bgen); hResPtEtaBin[2][etabin][ptbin] -> Fill(ccal-cgen); hResPtEtaBin[3][etabin][ptbin] -> Fill(dcal-dgen); hResPtEtaBin[4][etabin][ptbin] -> Fill(Thetacal-Thetagen); hResPtEtaBin[5][etabin][ptbin] -> Fill(phidiff); hResPtEtaBin[6][etabin][ptbin] -> Fill(Etcal-Etgen); hResPtEtaBin[7][etabin][ptbin] -> Fill(Etacal-Etagen); delete p4gen[m]; delete p4rec[m]; } }
void ResolutionCreator::beginJob | ( | void | ) | [private, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 264 of file ResolutionCreator.cc.
References b, edm::errors::Configuration, etabinVals_, etanrbins, Exception, fResEtaBin, fResPtEtaBin, hResEtaBin, hResPtEtaBin, objectType_, pTbinVals_, ptnrbins, and tResVar.
{ edm::Service<TFileService> fs; if (!fs) throw edm::Exception(edm::errors::Configuration, "TFileService missing from configuration!"); // input constants TString resObsName[8] = {"_ares","_bres","_cres","_dres","_thres","_phres","_etres","_etares"}; int resObsNrBins = 120; if( (objectType_ == "muon") || (objectType_ == "electron") ) resObsNrBins = 80; std::vector<double> resObsMin, resObsMax; if(objectType_ == "electron"){ resObsMin.push_back(-0.15); resObsMin.push_back(-0.2); resObsMin.push_back(-0.1); resObsMin.push_back(-0.15); resObsMin.push_back(-0.0012); resObsMin.push_back(-0.009); resObsMin.push_back(-16); resObsMin.push_back(-0.0012); resObsMax.push_back( 0.15); resObsMax.push_back( 0.2); resObsMax.push_back( 0.1); resObsMax.push_back( 0.15); resObsMax.push_back( 0.0012); resObsMax.push_back( 0.009); resObsMax.push_back( 16); resObsMax.push_back( 0.0012); } else if(objectType_ == "muon"){ resObsMin.push_back(-0.15); resObsMin.push_back(-0.1); resObsMin.push_back(-0.05); resObsMin.push_back(-0.15); resObsMin.push_back(-0.004); resObsMin.push_back(-0.003); resObsMin.push_back(-8); resObsMin.push_back(-0.004); resObsMax.push_back( 0.15); resObsMax.push_back( 0.1); resObsMax.push_back( 0.05); resObsMax.push_back( 0.15); resObsMax.push_back( 0.004); resObsMax.push_back( 0.003); resObsMax.push_back( 8); resObsMax.push_back( 0.004); } else if(objectType_ == "tau"){ resObsMin.push_back(-1.); resObsMin.push_back(-10.); resObsMin.push_back(-10); resObsMin.push_back(-1.); resObsMin.push_back(-0.1); resObsMin.push_back(-0.1); resObsMin.push_back(-80); resObsMin.push_back(-0.1); resObsMax.push_back( 1.); resObsMax.push_back( 10.); resObsMax.push_back( 10); resObsMax.push_back( 1.); resObsMax.push_back( 0.1); resObsMax.push_back( 0.1); resObsMax.push_back( 50); resObsMax.push_back( 0.1); } else if(objectType_ == "lJets" || objectType_ == "bJets"){ resObsMin.push_back(-1.); resObsMin.push_back(-10.); resObsMin.push_back(-10.); resObsMin.push_back(-1.); resObsMin.push_back(-0.4); resObsMin.push_back(-0.6); resObsMin.push_back( -80); resObsMin.push_back(-0.6); resObsMax.push_back( 1.); resObsMax.push_back( 10.); resObsMax.push_back( 10.); resObsMax.push_back( 1.); resObsMax.push_back( 0.4); resObsMax.push_back( 0.6); resObsMax.push_back( 80); resObsMax.push_back( 0.6); } else{ resObsMin.push_back(-2.); resObsMin.push_back(-150.); resObsMin.push_back(-150.); resObsMin.push_back(-2.); resObsMin.push_back(-6); resObsMin.push_back(-6); resObsMin.push_back( -180); resObsMin.push_back(-6); resObsMax.push_back( 3.); resObsMax.push_back( 150.); resObsMax.push_back( 150.); resObsMax.push_back( 3.); resObsMax.push_back( 6); resObsMax.push_back( 6); resObsMax.push_back( 180); resObsMax.push_back( 6); } const char* resObsVsPtFit[8] = { "[0]+[1]*exp(-[2]*x)", "[0]+[1]*exp(-[2]*x)", "[0]+[1]*exp(-[2]*x)", "[0]+[1]*exp(-[2]*x)", "[0]+[1]*exp(-[2]*x)", "[0]+[1]*exp(-[2]*x)", "pol1", "[0]+[1]*exp(-[2]*x)" }; ptnrbins = pTbinVals_.size()-1; double *ptbins = new double[pTbinVals_.size()]; for(unsigned int b=0; b<pTbinVals_.size(); b++) ptbins[b] = pTbinVals_[b]; double *etabins; if(objectType_ != "met"){ etanrbins = etabinVals_.size()-1; etabins = new double[etabinVals_.size()]; for(unsigned int b=0; b<etabinVals_.size(); b++) etabins[b] = etabinVals_[b]; }else{ etanrbins = 1; etabins = new double[2]; etabins[0] = 0; etabins[1] = 5.; } //define the histograms booked for(Int_t ro=0; ro<8; ro++) { for(Int_t etab=0; etab<etanrbins; etab++) { for(Int_t ptb=0; ptb<ptnrbins; ptb++) { TString obsName = objectType_; obsName += resObsName[ro]; obsName += "_etabin"; obsName += etab; obsName += "_ptbin"; obsName += ptb; hResPtEtaBin[ro][etab][ptb] = fs->make<TH1F>(obsName,obsName,resObsNrBins,resObsMin[ro],resObsMax[ro]); fResPtEtaBin[ro][etab][ptb] = fs->make<TF1>("F_"+obsName,"gaus"); } TString obsName2 = objectType_; obsName2 += resObsName[ro]; obsName2 += "_etabin"; obsName2 += etab; hResEtaBin[ro][etab] = fs->make<TH1F>(obsName2,obsName2,ptnrbins,ptbins); fResEtaBin[ro][etab] = fs->make<TF1>("F_"+obsName2,resObsVsPtFit[ro],pTbinVals_[0],pTbinVals_[pTbinVals_.size()-1]); } } tResVar = fs->make< TTree >("tResVar","Resolution tree"); delete [] etabins; delete [] ptbins; }
void ResolutionCreator::endJob | ( | void | ) | [private, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 339 of file ResolutionCreator.cc.
References error, eta(), etabinVals_, etanrbins, fResEtaBin, fResPtEtaBin, hResEtaBin, hResPtEtaBin, nrFilled, objectType_, pTbinVals_, ptnrbins, tResVar, and relativeConstraints::value.
{ TString resObsName2[8] = {"a","b","c","d","theta","phi","et","eta"}; Int_t ro=0; Double_t pt=0.; Double_t eta=0.; Double_t value,error; tResVar->Branch("Pt",&pt,"Pt/D"); tResVar->Branch("Eta",&eta,"Eta/D"); tResVar->Branch("ro",&ro,"ro/I"); tResVar->Branch("value",&value,"value/D"); tResVar->Branch("error",&error,"error/D"); for(ro=0; ro<8; ro++) { for(int etab=0; etab<etanrbins; etab++) { //CD set eta at the center of the bin eta = etanrbins > 1 ? (etabinVals_[etab]+etabinVals_[etab+1])/2. : 2.5 ; for(int ptb=0; ptb<ptnrbins; ptb++) { //CD set pt at the center of the bin pt = (pTbinVals_[ptb]+pTbinVals_[ptb+1])/2.; double maxcontent = 0.; int maxbin = 0; for(int nb=1; nb<hResPtEtaBin[ro][etab][ptb]->GetNbinsX(); nb ++){ if (hResPtEtaBin[ro][etab][ptb]->GetBinContent(nb)>maxcontent) { maxcontent = hResPtEtaBin[ro][etab][ptb]->GetBinContent(nb); maxbin = nb; } } int range = (int)(hResPtEtaBin[ro][etab][ptb]->GetNbinsX()/6); //in order that ~1/3 of X-axis range is fitted fResPtEtaBin[ro][etab][ptb] -> SetRange(hResPtEtaBin[ro][etab][ptb]->GetBinCenter(maxbin-range), hResPtEtaBin[ro][etab][ptb]->GetBinCenter(maxbin+range)); fResPtEtaBin[ro][etab][ptb] -> SetParameters(hResPtEtaBin[ro][etab][ptb] -> GetMaximum(), hResPtEtaBin[ro][etab][ptb] -> GetMean(), hResPtEtaBin[ro][etab][ptb] -> GetRMS()); hResPtEtaBin[ro][etab][ptb] -> Fit(fResPtEtaBin[ro][etab][ptb]->GetName(),"RQ"); hResEtaBin[ro][etab] -> SetBinContent(ptb+1,fResPtEtaBin[ro][etab][ptb]->GetParameter(2)); hResEtaBin[ro][etab] -> SetBinError(ptb+1,fResPtEtaBin[ro][etab][ptb]->GetParError(2)); //CD: Fill the tree value = fResPtEtaBin[ro][etab][ptb]->GetParameter(2); //parameter value error = fResPtEtaBin[ro][etab][ptb]->GetParError(2); //parameter error tResVar->Fill(); } //CD: add a fake entry in pt=0 for the NN training // for that, use a linear extrapolation. pt = 0.; value = ((pTbinVals_[0]+pTbinVals_[1])/2.)*(fResPtEtaBin[ro][etab][0]->GetParameter(2)-fResPtEtaBin[ro][etab][1]->GetParameter(2))/((pTbinVals_[2]-pTbinVals_[0])/2.)+fResPtEtaBin[ro][etab][0]->GetParameter(2); error = fResPtEtaBin[ro][etab][0]->GetParError(2)+fResPtEtaBin[ro][etab][1]->GetParError(2); tResVar->Fill(); // standard fit hResEtaBin[ro][etab] -> Fit(fResEtaBin[ro][etab]->GetName(),"RQ"); } } if(objectType_ == "lJets" && nrFilled == 0) edm::LogProblem ("SummaryError") << "No plots filled for light jets \n"; if(objectType_ == "bJets" && nrFilled == 0) edm::LogProblem ("SummaryError") << "No plots filled for bjets \n"; if(objectType_ == "muon" && nrFilled == 0) edm::LogProblem ("SummaryError") << "No plots filled for muons \n"; if(objectType_ == "electron" && nrFilled == 0) edm::LogProblem ("SummaryError") << "No plots filled for electrons \n"; if(objectType_ == "tau" && nrFilled == 0) edm::LogProblem ("SummaryError") << "No plots filled for taus \n"; if(objectType_ == "met" && nrFilled == 0) edm::LogProblem ("SummaryError") << "No plots filled for met \n"; edm::LogVerbatim ("MainResults") << " \n\n"; edm::LogVerbatim ("MainResults") << " ----------------------------------------------"; edm::LogVerbatim ("MainResults") << " ----------------------------------------------"; edm::LogVerbatim ("MainResults") << " Resolutions on "<< objectType_ << " with nrfilled: "<<nrFilled; edm::LogVerbatim ("MainResults") << " ----------------------------------------------"; edm::LogVerbatim ("MainResults") << " ----------------------------------------------"; if(nrFilled != 0 && objectType_ != "met") { for(ro=0; ro<8; ro++) { edm::LogVerbatim ("MainResults") << "-------------------- "; edm::LogVerbatim ("MainResults") << "\n Resolutions on " << resObsName2[ro] << "\n"; edm::LogVerbatim ("MainResults") << "-------------------- "; for(int etab=0; etab<etanrbins; etab++) { if(nrFilled != 0 && ro != 6) { if(etab == 0){ edm::LogVerbatim ("MainResults") << "if(fabs(eta)<"<<etabinVals_[etab+1] <<") res = " << fResEtaBin[ro][etab]->GetParameter(0) << "+" << fResEtaBin[ro][etab]->GetParameter(1) << "*exp(-(" <<fResEtaBin[ro][etab]->GetParameter(2) << "*pt));"; }else{ edm::LogVerbatim ("MainResults") << "else if(fabs(eta)<"<<etabinVals_[etab+1] <<") res = " << fResEtaBin[ro][etab]->GetParameter(0) << "+" << fResEtaBin[ro][etab]->GetParameter(1) << "*exp(-(" <<fResEtaBin[ro][etab]->GetParameter(2) << "*pt));"; } }else if(nrFilled != 0 && ro == 6){ if(etab == 0){ edm::LogVerbatim ("MainResults") << "if(fabs(eta)<"<<etabinVals_[etab+1] <<") res = " << fResEtaBin[ro][etab]->GetParameter(0) << "+" << fResEtaBin[ro][etab]->GetParameter(1) << "*pt;"; }else{ edm::LogVerbatim ("MainResults") << "else if(fabs(eta)<"<<etabinVals_[etab+1] <<") res = " << fResEtaBin[ro][etab]->GetParameter(0) << "+" << fResEtaBin[ro][etab]->GetParameter(1) << "*pt;"; } } } } }else if(nrFilled != 0 && objectType_ == "met"){ for(ro=0; ro<8; ro++) { edm::LogVerbatim ("MainResults") << "-------------------- "; edm::LogVerbatim ("MainResults") << "\n Resolutions on " << resObsName2[ro] << "\n"; edm::LogVerbatim ("MainResults") << "-------------------- "; if(nrFilled != 0 && ro != 6) { edm::LogVerbatim ("MainResults") << "res = " << fResEtaBin[ro][0]->GetParameter(0) << "+" << fResEtaBin[ro][0]->GetParameter(1) << "*exp(-(" <<fResEtaBin[ro][0]->GetParameter(2) << "*pt));"; }else if(nrFilled != 0 && ro == 6){ edm::LogVerbatim ("MainResults") << "res = " << fResEtaBin[ro][0]->GetParameter(0) << "+" << fResEtaBin[ro][0]->GetParameter(1) << "*pt;"; } } } }
std::vector<double> ResolutionCreator::etabinVals_ [private] |
Definition at line 50 of file ResolutionCreator.cc.
Referenced by analyze(), beginJob(), endJob(), and ResolutionCreator().
int ResolutionCreator::etanrbins [private] |
Definition at line 56 of file ResolutionCreator.cc.
Referenced by analyze(), beginJob(), and endJob().
TF1* ResolutionCreator::fResEtaBin[10][20] [private] |
Definition at line 61 of file ResolutionCreator.cc.
Referenced by beginJob(), and endJob().
TF1* ResolutionCreator::fResPtEtaBin[10][20][20] [private] |
Definition at line 60 of file ResolutionCreator.cc.
Referenced by beginJob(), and endJob().
TH1F* ResolutionCreator::hResEtaBin[10][20] [private] |
Definition at line 63 of file ResolutionCreator.cc.
Referenced by beginJob(), and endJob().
TH1F* ResolutionCreator::hResPtEtaBin[10][20][20] [private] |
Definition at line 62 of file ResolutionCreator.cc.
Referenced by analyze(), beginJob(), and endJob().
std::string ResolutionCreator::labelName_ [private] |
Definition at line 49 of file ResolutionCreator.cc.
Referenced by analyze(), and ResolutionCreator().
int ResolutionCreator::matchingAlgo_ [private] |
Definition at line 52 of file ResolutionCreator.cc.
double ResolutionCreator::maxDist_ [private] |
Definition at line 55 of file ResolutionCreator.cc.
double ResolutionCreator::minDR_ [private] |
Definition at line 51 of file ResolutionCreator.cc.
Referenced by analyze(), and ResolutionCreator().
int ResolutionCreator::nrFilled [private] |
Definition at line 57 of file ResolutionCreator.cc.
Referenced by analyze(), endJob(), and ResolutionCreator().
std::string ResolutionCreator::objectType_ [private] |
Definition at line 49 of file ResolutionCreator.cc.
Referenced by analyze(), beginJob(), endJob(), and ResolutionCreator().
std::vector<double> ResolutionCreator::pTbinVals_ [private] |
Definition at line 50 of file ResolutionCreator.cc.
Referenced by analyze(), beginJob(), endJob(), and ResolutionCreator().
int ResolutionCreator::ptnrbins [private] |
Definition at line 56 of file ResolutionCreator.cc.
Referenced by beginJob(), and endJob().
TTree* ResolutionCreator::tResVar [private] |
Definition at line 64 of file ResolutionCreator.cc.
Referenced by beginJob(), and endJob().
bool ResolutionCreator::useDeltaR_ [private] |
Definition at line 54 of file ResolutionCreator.cc.
bool ResolutionCreator::useMaxDist_ [private] |
Definition at line 53 of file ResolutionCreator.cc.