#include <METManager.h>
Public Member Functions | |
void | addGenBenchmark (std::string GenBenchmarkName) |
setup a genericBenchmark | |
void | coutTailEvents (const int entry, const double DeltaMETcut, const double DeltaPhicut, const double MET1cut) const |
cout events in tail of Delta(MET1,MET2) | |
void | FillHisto (std::string) |
reco::MET | getMET1 () |
reco::MET | getMET2 () |
METManager (std::string outmetfilename) | |
void | propagateJECtoMET1 (const std::vector< reco::CaloJet > caloJets, const std::vector< reco::CaloJet > corr_caloJets) |
propagate the Jet Energy Corrections to the MET | |
void | propagateJECtoMET2 (const std::vector< reco::CaloJet > caloJets, const std::vector< reco::CaloJet > corr_caloJets) |
void | SetIgnoreParticlesIDs (const std::vector< unsigned int > *) |
void | setMET1 (const reco::PFCandidateCollection &) |
set METX with the pfMet recomputed from the pfCandidates_ with recomputePFMET(...) | |
void | setMET1 (const reco::GenParticleCollection *) |
set METX with the GenMet computed from the GenParticleCollection with computeGenMET(...) | |
void | setMET1 (const reco::MET *) |
void | setMET2 (const reco::MET *) |
void | setMET2 (const reco::GenParticleCollection *) |
void | setMET2 (const reco::PFCandidateCollection &) |
void | SetSpecificIdCut (const std::vector< unsigned int > *, const std::vector< double > *) |
void | write () |
Write the output root file of the genericBenchmark. | |
Private Member Functions | |
reco::MET | computeGenMET (const reco::GenParticleCollection *) const |
private functions | |
reco::MET | propagateJEC (const reco::MET &, const std::vector< reco::CaloJet > caloJets, const std::vector< reco::CaloJet > corr_caloJets) const |
reco::MET | recomputePFMET (const reco::PFCandidateCollection &) const |
Private Attributes | |
std::map< std::string, GenericBenchmark > | GenBenchmarkMap_ |
map of GenericBenchmarks, the key is his name | |
reco::MET | MET1_ |
data members | |
reco::MET | MET2_ |
TFile * | outfile_ |
std::string | outmetfilename_ |
std::vector< double > | trueMetSpecificEtaCut_ |
std::vector< unsigned int > | trueMetSpecificIdCut_ |
std::vector< unsigned int > | vIgnoreParticlesIDs_ |
Definition at line 15 of file METManager.h.
METManager::METManager | ( | std::string | outmetfilename | ) |
Definition at line 12 of file METManager.cc.
References gather_cfg::cout, outfile_, and outmetfilename_.
{ outmetfilename_=Filename; std::cout << "Info: DQM is not yet used in METManager."<<std::endl; std::cout << "pfMET validation histograms will be saved to '" << outmetfilename_ << "'" << std::endl; outfile_ = new TFile(outmetfilename_.c_str(), "RECREATE"); //void setup(DQMStore *, bool PlotAgainstReco, minDeltaEt, // float maxDeltaEt, float minDeltaPhi, float maxDeltaPhi); //GenBenchmark_.setup(NULL, true, -200., 200., -3.2, 3.2); }
void METManager::addGenBenchmark | ( | std::string | GenBenchmarkName | ) |
setup a genericBenchmark
Definition at line 145 of file METManager.cc.
References GenBenchmarkMap_, NULL, outfile_, outmetfilename_, getHLTPrescaleColumns::path, GenericBenchmark::setfile(), and GenericBenchmark::setup().
{ GenericBenchmark GenBenchmark; std::string path = outmetfilename_+":/PFTask"; if (GenBenchmarkMap_.size()==0) { //gDirectory->pwd(); outfile_->mkdir("PFTask"); //std::cout << "FL : path.c_str() = " << path.c_str() << std::endl; //outfile_->pwd(); //outfile_->cd(path.c_str()); gDirectory->cd(path.c_str()); //gDirectory->pwd(); //outfile_->pwd(); gDirectory->mkdir("Benchmarks"); //outfile_->mkdir("Benchmarks"); //outfile_->pwd(); } path = outmetfilename_+":/PFTask/Benchmarks"; gDirectory->cd(path.c_str()); gDirectory->mkdir(GenBenchmarkName.c_str()); path = outmetfilename_+":/PFTask/Benchmarks/"+GenBenchmarkName; //std::cout << "FL : path.c_str() = " << path.c_str() << std::endl; gDirectory->cd(path.c_str()); //gDirectory->pwd(); //const std::string path = outmetfilename_+":/PFTask/Benchmarks/"+GenBenchmarkName; //+ "/"; //std::cout << "path.c_str() = " << path.c_str() << std::endl; //void setup(DQMStore *, bool PlotAgainstReco, minDeltaEt, // float maxDeltaEt, float minDeltaPhi, float maxDeltaPhi); GenBenchmark.setfile(outfile_); GenBenchmark.setup(NULL, true, -200., 200., -3.2, 3.2, true); GenBenchmarkMap_[GenBenchmarkName]=GenBenchmark; //GenBenchmarkV_.push_back(GenBenchmark); }
reco::MET METManager::computeGenMET | ( | const reco::GenParticleCollection * | genParticleList | ) | const [private] |
private functions
Definition at line 98 of file METManager.cc.
References abs, funct::cos(), gather_cfg::cout, eta(), i, p4, benchmark_cfg::pdgId, phi, funct::sin(), mathSSE::sqrt(), trueMetSpecificEtaCut_, trueMetSpecificIdCut_, and vIgnoreParticlesIDs_.
Referenced by setMET1(), and setMET2().
{ double trueMEY = 0.0; double trueMEX = 0.0;; double true_met = 0.0;; double true_set = 0.0;; //std::cout << "(*genParticleList).size() = " << (*genParticleList).size() << std::endl; for( unsigned i = 0; i < (*genParticleList).size(); i++ ) { //std::cout << "(*genParticleList)[i].eta() = " << (*genParticleList)[i].eta() << std::endl; if( (*genParticleList)[i].status() == 1 && fabs((*genParticleList)[i].eta()) < 5.0 ) { bool ignoreThisPart=false; if (vIgnoreParticlesIDs_.size()==0) std::cout << "Warning : METManager: vIgnoreParticlesIDs_.size()==0" << std::endl; for (unsigned int idc=0;idc<vIgnoreParticlesIDs_.size();++idc) { if(std::abs((*genParticleList)[i].pdgId()) == (int)vIgnoreParticlesIDs_[idc]) ignoreThisPart=true; } for (unsigned int specificIdc=0;specificIdc<trueMetSpecificIdCut_.size();++specificIdc) { if (std::abs((*genParticleList)[i].pdgId())== (int)trueMetSpecificIdCut_[specificIdc] && fabs((*genParticleList)[i].eta()) > trueMetSpecificEtaCut_[specificIdc]) ignoreThisPart=true; } if (!ignoreThisPart) { //trueMEX -= (*genParticleList)[i].px(); //trueMEY -= (*genParticleList)[i].py(); trueMEX -= (*genParticleList)[i].et()*cos((*genParticleList)[i].phi()); trueMEY -= (*genParticleList)[i].et()*sin((*genParticleList)[i].phi()); true_set += (*genParticleList)[i].pt(); } } } true_met = sqrt( trueMEX*trueMEX + trueMEY*trueMEY ); //const double true_phi = atan2(trueMEY,trueMEX); //std::cout << "true_met = " << true_met << std::endl; //std::cout << "true_phi = " << true_phi << std::endl; math::XYZTLorentzVector p4(trueMEX, trueMEY, 0., true_met); math::XYZPoint vtx(0.,0.,0.); return reco::MET(true_set,p4,vtx); }
void METManager::coutTailEvents | ( | const int | entry, |
const double | DeltaMETcut, | ||
const double | DeltaPhicut, | ||
const double | MET1cut | ||
) | const |
cout events in tail of Delta(MET1,MET2)
Definition at line 240 of file METManager.cc.
References gather_cfg::cout, SiPixelRawToDigiRegional_cfi::deltaPhi, MET1_, MET2_, reco::LeafCandidate::phi(), and reco::LeafCandidate::pt().
{ const double deltaMET=MET2_.pt()-MET1_.pt(); const double deltaPhi=PFBenchmarkAlgo::deltaPhi(&MET1_,&MET2_); //std::cout << "Delta Phi = " << deltaPhi << std::endl; //std::cout << "fabs(Delta Phi) = " << fabs(deltaPhi) << std::endl; if (MET1_.pt()>MET1cut && (fabs(deltaMET)>DeltaMETcut || fabs(deltaPhi)>DeltaPhicut)) { std::cout << " =====================PFMETBenchmark =================" << std::endl; std::cout << "process entry "<< entry << std::endl; std::cout << "Delta MET = " << deltaMET << std::endl; std::cout << "MET1 = " << MET1_.pt() << std::endl; std::cout << "MET2 = " << MET2_.pt() << std::endl; std::cout << "Delta Phi = " << deltaPhi << std::endl; std::cout << "Phi1 = " << MET1_.phi() << std::endl; std::cout << "Phi2 = " << MET2_.phi() << std::endl; } }
void METManager::FillHisto | ( | std::string | Name | ) |
Fill the genericBenchmark histograms string = name of the folder in the root file (=name of the GenBenchmark)
Definition at line 23 of file METManager.cc.
References gather_cfg::cout, GenBenchmarkMap_, i, MET1_, MET2_, outfile_, and outmetfilename_.
{ //std::cout << "Name = " << Name << std::endl; const std::string fullname=outmetfilename_+":/PFTask/Benchmarks/"+Name; std::map<std::string, GenericBenchmark>::const_iterator i = GenBenchmarkMap_.find( Name ); if ( i == GenBenchmarkMap_.end() ) { std::cout << "Error in METManager::FillHisto(string): " << Name << " is not in GenBenchmarkMap_" << std::endl; } else { GenBenchmarkMap_[Name].setfile(outfile_); std::vector<reco::MET> vmet1; std::vector<reco::MET> vmet2; vmet1.push_back(MET1_); vmet2.push_back(MET2_); GenBenchmarkMap_[Name].fill(&vmet2,&vmet1,true,false,false,-1.,-1.,-1.,999.); //std::cout << "MET1_.met = " << MET1_.pt() << std::endl; //std::cout << "MET1_.phi = " << MET1_.phi() << std::endl; //std::cout << "MET1_.sumEt = " << MET1_.sumEt() << std::endl; } return; }
reco::MET METManager::getMET1 | ( | ) | [inline] |
reco::MET METManager::getMET2 | ( | ) | [inline] |
reco::MET METManager::propagateJEC | ( | const reco::MET & | MET, |
const std::vector< reco::CaloJet > | caloJets, | ||
const std::vector< reco::CaloJet > | corr_caloJets | ||
) | const [private] |
Definition at line 274 of file METManager.cc.
References gather_cfg::cout, p4, reco::LeafCandidate::px(), reco::LeafCandidate::py(), mathSSE::sqrt(), and reco::MET::sumEt().
Referenced by propagateJECtoMET1(), and propagateJECtoMET2().
{ //std::cout << "FL : MET = " << MET.pt() << std::endl; double caloJetCorPX = 0.0; double caloJetCorPY = 0.0; double caloJetCorSET = 0.0; if (caloJets.size()>0 && corr_caloJets.size()==0) std::cout << "No corrected calo jets found !" << std::endl; //std::cout << "caloJets.size() = " << caloJets.size() << std::endl; //std::cout << "corr_caloJets.size() = " << corr_caloJets.size() << std::endl; for(unsigned int caloJetc=0;caloJetc<caloJets.size();++caloJetc) { //std::cout << "caloJets[" << caloJetc << "].pt() = " << caloJets[caloJetc].pt() << std::endl; //std::cout << "caloJets[" << caloJetc << "].phi() = " << caloJets[caloJetc].phi() << std::endl; //std::cout << "caloJets[" << caloJetc << "].eta() = " << caloJets[caloJetc].eta() << std::endl; //} for(unsigned int corr_caloJetc=0;corr_caloJetc<corr_caloJets.size();++corr_caloJetc) { //std::cout << "corr_caloJets[" << corr_caloJetc << "].pt() = " << corr_caloJets[corr_caloJetc].pt() << std::endl; //std::cout << "corr_caloJets[" << corr_caloJetc << "].phi() = " << corr_caloJets[corr_caloJetc].phi() << std::endl; //std::cout << "corr_caloJets[" << corr_caloJetc << "].eta() = " << corr_caloJets[corr_caloJetc].eta() << std::endl; //} Float_t DeltaPhi = corr_caloJets[corr_caloJetc].phi() - caloJets[caloJetc].phi(); Float_t DeltaEta = corr_caloJets[corr_caloJetc].eta() - caloJets[caloJetc].eta(); Float_t DeltaR2 = DeltaPhi*DeltaPhi + DeltaEta*DeltaEta; if( DeltaR2 < 0.0001 && caloJets[caloJetc].pt() > 20.0 ) { caloJetCorPX += (corr_caloJets[corr_caloJetc].px() - caloJets[caloJetc].px()); caloJetCorPY += (corr_caloJets[corr_caloJetc].py() - caloJets[caloJetc].py()); caloJetCorSET += (corr_caloJets[corr_caloJetc].pt() - caloJets[caloJetc].pt()); } } } const double corr_calomet=sqrt((MET.px()-caloJetCorPX)*(MET.px()-caloJetCorPX)+(MET.py()-caloJetCorPY)*(MET.py()-caloJetCorPY)); const double corr_set=MET.sumEt()+caloJetCorSET; //calo_phi = atan2((cm.py()-caloJetCorPY),(cm.px()-caloJetCorPX)); math::XYZTLorentzVector p4(MET.px()-caloJetCorPX, MET.py()-caloJetCorPY, 0., corr_calomet); math::XYZPoint vtx(0.,0.,0.); //std::cout << "FL : corrMET = " << corr_calomet << std::endl; return reco::MET(corr_set,p4,vtx); }
void METManager::propagateJECtoMET1 | ( | const std::vector< reco::CaloJet > | caloJets, |
const std::vector< reco::CaloJet > | corr_caloJets | ||
) |
propagate the Jet Energy Corrections to the MET
Definition at line 262 of file METManager.cc.
References MET1_, and propagateJEC().
{ MET1_=propagateJEC(MET1_,caloJets,corr_caloJets); }
void METManager::propagateJECtoMET2 | ( | const std::vector< reco::CaloJet > | caloJets, |
const std::vector< reco::CaloJet > | corr_caloJets | ||
) |
Definition at line 268 of file METManager.cc.
References MET2_, and propagateJEC().
{ MET2_=propagateJEC(MET2_,caloJets,corr_caloJets); }
reco::MET METManager::recomputePFMET | ( | const reco::PFCandidateCollection & | pfCandidates | ) | const [private] |
Definition at line 181 of file METManager.cc.
References SpecificPFMETData::ChargedEMFraction, SpecificPFMETData::ChargedHadFraction, funct::cos(), alignCSCRings::e, CaloMET_cfi::met, SpecificPFMETData::MuonFraction, SpecificPFMETData::NeutralEMFraction, SpecificPFMETData::NeutralHadFraction, p4, phi, funct::sin(), timingPdfMaker::specific, mathSSE::sqrt(), theta(), SpecificPFMETData::Type6Fraction, and SpecificPFMETData::Type7Fraction.
Referenced by setMET1(), and setMET2().
{ typedef math::XYZTLorentzVector LorentzVector; typedef math::XYZPoint Point; double sum_et = 0.0; double sum_ex = 0.0; double sum_ey = 0.0; double sum_ez = 0.0; double NeutralEMEt = 0.0; double NeutralHadEt = 0.0; double ChargedEMEt = 0.0; double ChargedHadEt = 0.0; double MuonEt = 0.0; double type6Et = 0.0; double type7Et = 0.0; for (unsigned int pfc=0;pfc<pfCandidates.size();++pfc) { double phi = pfCandidates[pfc].phi(); double theta = pfCandidates[pfc].theta(); double e = pfCandidates[pfc].energy(); double et = e*sin(theta); sum_ez += e*cos(theta); sum_et += et; sum_ex += et*cos(phi); sum_ey += et*sin(phi); // compute met specific data: if (pfCandidates[pfc].particleId() == 1) ChargedHadEt += et; if (pfCandidates[pfc].particleId() == 2) ChargedEMEt += et; if (pfCandidates[pfc].particleId() == 3) MuonEt += et; if (pfCandidates[pfc].particleId() == 4) NeutralEMEt += et; if (pfCandidates[pfc].particleId() == 5) NeutralHadEt += et; if (pfCandidates[pfc].particleId() == 6) type6Et += et; if (pfCandidates[pfc].particleId() == 7) type7Et += et; } const double Et_total=NeutralEMEt+NeutralHadEt+ChargedEMEt+ChargedHadEt+MuonEt+type6Et+type7Et; double met = sqrt( sum_ex*sum_ex + sum_ey*sum_ey ); const LorentzVector p4( -sum_ex, -sum_ey, 0.0, met); const Point vtx(0.0,0.0,0.0); SpecificPFMETData specific; specific.NeutralEMFraction = NeutralEMEt/Et_total; specific.NeutralHadFraction = NeutralHadEt/Et_total; specific.ChargedEMFraction = ChargedEMEt/Et_total; specific.ChargedHadFraction = ChargedHadEt/Et_total; specific.MuonFraction = MuonEt/Et_total; specific.Type6Fraction = type6Et/Et_total; specific.Type7Fraction = type7Et/Et_total; reco::PFMET specificPFMET( specific, sum_et, p4, vtx ); return specificPFMET; }
void METManager::SetIgnoreParticlesIDs | ( | const std::vector< unsigned int > * | vIgnoreParticlesIDs | ) |
Definition at line 87 of file METManager.cc.
References vIgnoreParticlesIDs_.
{ vIgnoreParticlesIDs_=(*vIgnoreParticlesIDs); }
void METManager::setMET1 | ( | const reco::GenParticleCollection * | genParticleList | ) |
set METX with the GenMet computed from the GenParticleCollection with computeGenMET(...)
Definition at line 67 of file METManager.cc.
References computeGenMET(), and MET1_.
{ MET1_=computeGenMET(genParticleList); }
void METManager::setMET1 | ( | const reco::MET * | met | ) |
Definition at line 57 of file METManager.cc.
References CaloMET_cfi::met, and MET1_.
void METManager::setMET1 | ( | const reco::PFCandidateCollection & | pfCandidates | ) |
set METX with the pfMet recomputed from the pfCandidates_ with recomputePFMET(...)
Definition at line 77 of file METManager.cc.
References MET1_, and recomputePFMET().
{ MET1_=recomputePFMET(pfCandidates); }
void METManager::setMET2 | ( | const reco::GenParticleCollection * | genParticleList | ) |
Definition at line 72 of file METManager.cc.
References computeGenMET(), and MET2_.
{ MET2_=computeGenMET(genParticleList); }
void METManager::setMET2 | ( | const reco::MET * | met | ) |
Definition at line 62 of file METManager.cc.
References CaloMET_cfi::met, and MET2_.
void METManager::setMET2 | ( | const reco::PFCandidateCollection & | pfCandidates | ) |
Definition at line 82 of file METManager.cc.
References MET2_, and recomputePFMET().
{ MET2_=recomputePFMET(pfCandidates); }
void METManager::SetSpecificIdCut | ( | const std::vector< unsigned int > * | Id, |
const std::vector< double > * | Eta | ||
) |
Definition at line 92 of file METManager.cc.
References trueMetSpecificEtaCut_, and trueMetSpecificIdCut_.
{ trueMetSpecificIdCut_=(*Id); trueMetSpecificEtaCut_=(*Eta); }
void METManager::write | ( | void | ) |
Write the output root file of the genericBenchmark.
Definition at line 48 of file METManager.cc.
References GenBenchmarkMap_, i, and outmetfilename_.
{ if (GenBenchmarkMap_.size()>0) { std::map<std::string, GenericBenchmark>::iterator i = GenBenchmarkMap_.begin(); ((*i).second).write(outmetfilename_); } }
std::map<std::string,GenericBenchmark> METManager::GenBenchmarkMap_ [private] |
map of GenericBenchmarks, the key is his name
Definition at line 72 of file METManager.h.
Referenced by addGenBenchmark(), FillHisto(), and write().
reco::MET METManager::MET1_ [private] |
data members
Definition at line 69 of file METManager.h.
Referenced by coutTailEvents(), FillHisto(), getMET1(), propagateJECtoMET1(), and setMET1().
reco::MET METManager::MET2_ [private] |
Definition at line 70 of file METManager.h.
Referenced by coutTailEvents(), FillHisto(), getMET2(), propagateJECtoMET2(), and setMET2().
TFile* METManager::outfile_ [private] |
Definition at line 74 of file METManager.h.
Referenced by addGenBenchmark(), FillHisto(), and METManager().
std::string METManager::outmetfilename_ [private] |
Definition at line 73 of file METManager.h.
Referenced by addGenBenchmark(), FillHisto(), METManager(), and write().
std::vector<double> METManager::trueMetSpecificEtaCut_ [private] |
Definition at line 77 of file METManager.h.
Referenced by computeGenMET(), and SetSpecificIdCut().
std::vector<unsigned int> METManager::trueMetSpecificIdCut_ [private] |
Definition at line 76 of file METManager.h.
Referenced by computeGenMET(), and SetSpecificIdCut().
std::vector<unsigned int> METManager::vIgnoreParticlesIDs_ [private] |
Definition at line 75 of file METManager.h.
Referenced by computeGenMET(), and SetIgnoreParticlesIDs().