#include <EwkMuLumiMonitorDQM.h>
DQM offline for EWK MuLumiMonitor: intended for luminosity purposes using Z/W
Definition at line 28 of file EwkMuLumiMonitorDQM.h.
EwkMuLumiMonitorDQM::EwkMuLumiMonitorDQM | ( | const edm::ParameterSet & | cfg | ) |
Definition at line 39 of file EwkMuLumiMonitorDQM.cc.
References init_histograms(), isValidHltConfig_, cppFunctionSkipper::operator, DQMStore::setCurrentFolder(), and theDbe.
: // Input collections trigTag_(cfg.getUntrackedParameter<edm::InputTag> ("TrigTag", edm::InputTag("TriggerResults::HLT"))), trigEv_(cfg.getUntrackedParameter<edm::InputTag> ("triggerEvent")), muonTag_(cfg.getUntrackedParameter<edm::InputTag>("muons")), trackTag_(cfg.getUntrackedParameter<edm::InputTag>("tracks")), caloTowerTag_(cfg.getUntrackedParameter<edm::InputTag>("calotower")), metTag_(cfg.getUntrackedParameter<edm::InputTag> ("metTag")), metIncludesMuons_(cfg.getUntrackedParameter<bool> ("METIncludesMuons")), // Main cuts // massMin_(cfg.getUntrackedParameter<double>("MtMin", 20.)), // massMax_(cfg.getUntrackedParameter<double>("MtMax", 2000.)) // hltPath_(cfg.getUntrackedParameter<std::string> ("hltPath")) , // L3FilterName_(cfg.getUntrackedParameter<std::string> ("L3FilterName")), ptMuCut_(cfg.getUntrackedParameter<double>("ptMuCut")), etaMuCut_(cfg.getUntrackedParameter<double>("etaMuCut")), isRelativeIso_(cfg.getUntrackedParameter<bool>("IsRelativeIso")), isCombinedIso_(cfg.getUntrackedParameter<bool>("IsCombinedIso")), isoCut03_(cfg.getUntrackedParameter<double>("IsoCut03")), // deltaRTrk_(cfg.getUntrackedParameter<double>("deltaRTrk")), ptThreshold_(cfg.getUntrackedParameter<double>("ptThreshold")), //deltaRVetoTrk_(cfg.getUntrackedParameter<double>("deltaRVetoTrk")), maxDPtRel_(cfg.getUntrackedParameter<double>("maxDPtRel")), maxDeltaR_(cfg.getUntrackedParameter<double>("maxDeltaR")), mtMin_(cfg.getUntrackedParameter<double>("mtMin")), mtMax_(cfg.getUntrackedParameter<double>("mtMax")), acopCut_(cfg.getUntrackedParameter<double>("acopCut")), dxyCut_(cfg.getUntrackedParameter<double>("DxyCut")) { // just to initialize isValidHltConfig_ = false; // dqm service & histograms theDbe = Service<DQMStore>().operator->(); theDbe->setCurrentFolder("Physics/EwkMuLumiMonitorDQM"); init_histograms(); }
void EwkMuLumiMonitorDQM::analyze | ( | const edm::Event & | ev, |
const edm::EventSetup & | |||
) | [virtual] |
number of prescale sets available
Implements edm::EDAnalyzer.
Definition at line 221 of file EwkMuLumiMonitorDQM.cc.
References acopCut_, caloTowerTag_, reco::LeafCandidate::charge(), reco::TrackBase::charge(), reco::TrackBase::dxy(), dxyCut_, eta(), reco::LeafCandidate::eta(), reco::TrackBase::eta(), etaMuCut_, f, MonitorElement::Fill(), edm::Event::getByLabel(), highMass1HLT_, highMass2HLT_, highMassGlbSta_, highMassGlbTrk_, highMassIsBothGlbTrkThanW_, highMassNotIso_, hltConfigProvider_, i, reco::Muon::innerTrack(), reco::Muon::isGlobalMuon(), IsMuMatchedToHLTMu(), isoCut03_, reco::Muon::isStandAloneMuon(), isW_, isZGlbSta_, isZGlbTrk_, isZGolden1HLT_, isZGolden2HLT_, isZGoldenNoIso_, j, gen::k, LogTrace, M_PI, scaleCards::mass, mass1HLT_, mass2HLT_, massGlbSta_, massGlbTrk_, massIsBothGlbTrkThanW_, massNotIso_, maxDeltaR_, maxDPtRel_, CaloMET_cfi::met, metIncludesMuons_, metTag_, HLTConfigProvider::moduleLabels(), mtMax_, RPCpg::mu, muIso(), patZpeak::muons, muonTag_, n, n1hlt, n2hlt, nall, mergeVDriftHistosByStation::name, nEvWithHighPtMu, nGlbSta, nGlbTrk, nhlt, niso, nNotIso, nsel, nTMass, nW, dbtoconf::out, reco::TrackBase::p(), AlCaHLTBitMon_ParallelJobs::p, reco::LeafCandidate::p4(), reco::LeafCandidate::phi(), HLTConfigProvider::prescaleSize(), HLTConfigProvider::prescaleValue(), reco::TrackBase::pt(), reco::LeafCandidate::pt(), ptMuCut_, reco::LeafCandidate::px(), reco::TrackBase::px(), reco::LeafCandidate::py(), reco::TrackBase::py(), reco::TrackBase::pz(), alignCSCRings::s, findQualityFiles::size, mathSSE::sqrt(), tkIso(), TMass_, testEve_cfg::tracks, trackTag_, trigEv_, HLTConfigProvider::triggerIndex(), HLTConfigProvider::triggerNames(), patRefSel_triggerSelection_cff::triggerResults, trigTag_, funct::true, and v.
{ nall++; bool hlt_sel = false; double iso1=-1; double iso2=-1; bool isMu1Iso = false; bool isMu2Iso = false; bool singleTrigFlag1 = false; bool singleTrigFlag2 = false; isZGolden1HLT_=false; isZGolden2HLT_=false; isZGoldenNoIso_=false; isZGlbSta_=false; isZGlbTrk_=false; isW_=false; // Trigger bool trigger_fired = false; Handle<TriggerResults> triggerResults; if (!ev.getByLabel(trigTag_, triggerResults)) { //LogWarning("") << ">>> TRIGGER collection does not exist !!!"; return; } ev.getByLabel(trigTag_, triggerResults); /* const edm::TriggerNames & trigNames = ev.triggerNames(*triggerResults); for (size_t i=0; i<triggerResults->size(); i++) { std::string trigName = trigNames.triggerName(i); //std::cout << " trigName == " << trigName << std::endl; if ( trigName == hltPath_ && triggerResults->accept(i)) { trigger_fired = true; hlt_sel=true; nhlt++; } } */ // see the trigger single muon which are present string lowestMuonUnprescaledTrig = ""; bool lowestMuonUnprescaledTrigFound = false; const std::vector<std::string>& triggerNames = hltConfigProvider_.triggerNames(); for (size_t ts = 0; ts< triggerNames.size() ; ts++){ string trig = triggerNames[ts]; size_t f = trig.find("HLT_Mu"); if ( (f != std::string::npos) ) { // std::cout << "single muon trigger present: " << trig << std::endl; // See if the trigger is prescaled; bool prescaled = false; const unsigned int prescaleSize = hltConfigProvider_.prescaleSize() ; for (unsigned int ps= 0; ps< prescaleSize; ps++){ const unsigned int prescaleValue = hltConfigProvider_.prescaleValue(ps, trig) ; if (prescaleValue != 1) prescaled =true; // std::cout<< " prescaleValue[" << ps << "] =" << prescaleValue <<std::endl; } if (!prescaled){ //looking now for the lowest hlt path not prescaled, with name of the form HLT_MuX or HLTMuX_vY for (unsigned int n=9; n<100 ; n++ ){ string lowestTrig= "HLT_Mu"; string lowestTrigv0 = "copy"; std::stringstream out; out << n; std::string s = out.str(); lowestTrig.append(s); lowestTrigv0 = lowestTrig; for (unsigned int v = 1; v<10 ; v++ ){ lowestTrig.append("_v"); std::stringstream oout; oout << v; std::string ss = oout.str(); lowestTrig.append(ss); if (trig==lowestTrig) lowestMuonUnprescaledTrig = trig ; if (trig==lowestTrig) lowestMuonUnprescaledTrigFound = true ; if (trig==lowestTrig) break ; } if (lowestMuonUnprescaledTrigFound) break; lowestTrig = lowestTrigv0; if (trig==lowestTrig) lowestMuonUnprescaledTrig = trig ; // if (trig==lowestTrig) {std::cout << " before break, lowestTrig lowest single muon trigger present unprescaled: " << lowestTrig << std::endl; } if (trig==lowestTrig) lowestMuonUnprescaledTrigFound = true ; if (trig==lowestTrig) break ; } if (lowestMuonUnprescaledTrigFound) break; } } } // std::cout << "after break, lowest single muon trigger present unprescaled: " << lowestMuonUnprescaledTrig << std::endl; unsigned int triggerIndex; // index of trigger path // See if event passed trigger paths std::string hltPath_ = lowestMuonUnprescaledTrig; triggerIndex = hltConfigProvider_.triggerIndex(hltPath_); if (triggerIndex < triggerResults->size()) trigger_fired = triggerResults->accept(triggerIndex); std::string L3FilterName_=""; if (trigger_fired){ const std::vector<std::string>& moduleLabs = hltConfigProvider_.moduleLabels(hltPath_); /*for (size_t k =0; k < moduleLabs.size()-1 ; k++){ std::cout << "moduleLabs[" << k << "] == " << moduleLabs[k] << std::endl; } */ // the l3 filter name is just the last module.... size_t moduleLabsSizeMinus2 = moduleLabs.size() - 2 ; // std::cout<<"moduleLabs[" << moduleLabsSizeMinus2 << "]== "<< moduleLabs[moduleLabsSizeMinus2] << std::endl; L3FilterName_ = moduleLabs[moduleLabsSizeMinus2]; } edm::Handle< trigger::TriggerEvent > handleTriggerEvent; LogTrace("") << ">>> Trigger bit: " << trigger_fired << " (" << hltPath_ << ")"; if ( ! ev.getByLabel( trigEv_, handleTriggerEvent )) { //LogWarning( "errorTriggerEventValid" ) << "trigger::TriggerEvent product with InputTag " << trigEv_.encode() << " not in event"; return; } ev.getByLabel( trigEv_, handleTriggerEvent ); const trigger::TriggerObjectCollection & toc(handleTriggerEvent->getObjects()); size_t nMuHLT =0; std::vector<reco::Particle> HLTMuMatched; for ( size_t ia = 0; ia < handleTriggerEvent->sizeFilters(); ++ ia) { std::string fullname = handleTriggerEvent->filterTag(ia).encode(); //std::cout<< "fullname::== " << fullname<< std::endl; std::string name; size_t p = fullname.find_first_of(':'); if ( p != std::string::npos) { name = fullname.substr(0, p); } else { name = fullname; } if ( &toc !=0 ) { const trigger::Keys & k = handleTriggerEvent->filterKeys(ia); for (trigger::Keys::const_iterator ki = k.begin(); ki !=k.end(); ++ki ) { // looking at all the single muon l3 trigger present, for example hltSingleMu15L3Filtered15..... if (name == L3FilterName_ ) { // trigger_fired = true; hlt_sel=true; nhlt++; HLTMuMatched.push_back(toc[*ki].particle()); nMuHLT++; } } } } // Beam spot Handle<reco::BeamSpot> beamSpotHandle; if (!ev.getByLabel(InputTag("offlineBeamSpot"), beamSpotHandle)) { //LogWarning("") << ">>> No beam spot found !!!"; return; } // looping on muon.... Handle<View<Muon> > muons; if (!ev.getByLabel(muonTag_, muons)) { //LogError("") << ">>> muon collection does not exist !!!"; return; } ev.getByLabel(muonTag_, muons); //saving only muons with pt> ptMuCut and eta<etaMuCut, and dxy<dxyCut std::vector<reco::Muon> highPtGlbMuons; std::vector<reco::Muon> highPtStaMuons; for (size_t i=0; i<muons->size(); i++ ){ const reco::Muon & mu = muons->at(i); double pt = mu.pt(); double eta = mu.eta(); if (pt> ptMuCut_ && fabs(eta)< etaMuCut_ ) { if (mu.isGlobalMuon()) { //check the dxy.... double dxy = mu.innerTrack()->dxy(beamSpotHandle->position()); if (fabs(dxy)>dxyCut_) continue; highPtGlbMuons.push_back(mu); } if (mu.isGlobalMuon()) continue; // if is not, look if it is a standalone.... if(mu.isStandAloneMuon()) highPtStaMuons.push_back(mu); nEvWithHighPtMu++; } } size_t nHighPtGlbMu = highPtGlbMuons.size(); size_t nHighPtStaMu = highPtStaMuons.size(); if ( hlt_sel && (nHighPtGlbMu> 0) ) { // loop on high pt muons if there's at least two with opposite charge build a Z, more then one z candidate is foreseen......... // stop the loop after 10 cicles.... (nHighPtGlbMu> 10)? nHighPtGlbMu=10 : 1; // Z selection if (nHighPtGlbMu>1 ){ for(unsigned int i =0 ; i < nHighPtGlbMu ; i++) { reco::Muon muon1 = highPtGlbMuons[i]; math::XYZTLorentzVector mu1(muon1.p4()); //double pt1= muon1.pt(); for (unsigned int j =i+1; j <nHighPtGlbMu ; ++j ){ reco::Muon muon2 = highPtGlbMuons[j]; math::XYZTLorentzVector mu2(muon2.p4()); //double pt2= muon2.pt(); if (muon1.charge() == muon2.charge()) continue; math::XYZTLorentzVector pair = mu1 + mu2; double mass = pair.M(); // checking isolation and hlt maching iso1 = muIso ( muon1 ); iso2 = muIso ( muon2 ); isMu1Iso = (iso1 < isoCut03_); isMu2Iso = (iso2 < isoCut03_); singleTrigFlag1 = IsMuMatchedToHLTMu ( muon1, HLTMuMatched ,maxDeltaR_, maxDPtRel_ ); singleTrigFlag2 = IsMuMatchedToHLTMu ( muon2, HLTMuMatched ,maxDeltaR_, maxDPtRel_ ); if (singleTrigFlag1 && singleTrigFlag2) isZGolden2HLT_ = true; if ( (singleTrigFlag1 && !singleTrigFlag2) || (!singleTrigFlag1 && singleTrigFlag2) ) isZGolden1HLT_ = true; // Z Golden passing all criteria, with 2 or 1 muon matched to an HLT muon. Using the two cathegories as a control sample for the HLT matching efficiency if (isZGolden2HLT_ || isZGolden1HLT_){ // a Z golden has been found, let's remove the two muons from the list, dome for avoiding resolution effect enter muons in the standalone and tracker collections......... highPtGlbMuons.erase(highPtGlbMuons.begin() + i ); highPtGlbMuons.erase(highPtGlbMuons.begin() + j ); // and updating the number of high pt muons.... nHighPtGlbMu = highPtGlbMuons.size(); if ( isMu1Iso && isMu2Iso ){ niso++; if (isZGolden2HLT_) { n2hlt++; mass2HLT_->Fill(mass); highMass2HLT_->Fill(mass); /* if (pt1 > pt2) { highest_mupt2HLT_ -> Fill (pt1); lowest_mupt2HLT_ -> Fill (pt2); } else { highest_mupt2HLT_ -> Fill (pt2); lowest_mupt2HLT_ -> Fill (pt1); } */ } if (isZGolden1HLT_) { n1hlt++; mass1HLT_->Fill(mass); highMass1HLT_->Fill(mass); /* if (pt1 >pt2) { highest_mupt1HLT_ -> Fill (pt1); lowest_mupt1HLT_ -> Fill (pt2); } else { highest_mupt1HLT_ -> Fill (pt2); lowest_mupt1HLT_ -> Fill (pt1); } */ } } else { // ZGlbGlb when at least one of the two muon is not isolated and at least one HLT matched, used as control sample for the isolation efficiency // filling events with one muon not isolated and both hlt mathced if (((isMu1Iso && !isMu2Iso) || (!isMu1Iso && isMu2Iso )) && (isZGolden2HLT_ && isZGolden1HLT_) ) { isZGoldenNoIso_=true; nNotIso++; massNotIso_->Fill(mass); highMassNotIso_->Fill(mass); } /* if (pt1 > pt2) { highest_muptNotIso_ -> Fill (pt1); lowest_muptNotIso_ -> Fill (pt2); } else { highest_muptNotIso_ -> Fill (pt2); lowest_muptNotIso_ -> Fill (pt1); } */ } } } } } // W->MuNu selection (if at least one muon has been selected) // looking for a W if a Z is not found.... let's think if we prefer to exclude zMuMuNotIso or zMuSta.... if ( !(isZGolden2HLT_ || isZGolden1HLT_ )){ Handle<View<MET> > metCollection; if (!ev.getByLabel(metTag_, metCollection)) { //LogError("") << ">>> MET collection does not exist !!!"; return; } const MET& met = metCollection->at(0); nW=0; for(unsigned int i =0 ; i < nHighPtGlbMu ; i++) { reco::Muon muon1 = highPtGlbMuons[i]; /* quality cut not implemented Quality Cuts double dxy = gm->dxy(beamSpotHandle->position()); Cut in 0.2 double trackerHits = gm->hitPattern().numberOfValidTrackerHits(); Cut in 11 bool quality = fabs(dxy)<dxyCut_ && muon::isGoodMuon(mu,muon::GlobalMuonPromptTight) && trackerHits>=trackerHitsCut_ && mu.isTrackerMuon() ; if (!quality) continue; */ // isolation cut and hlt maching iso1 = muIso ( muon1 ); isMu1Iso = (iso1 < isoCut03_); if (!isMu1Iso) continue; // checking if muon is matched to any HLT muon.... singleTrigFlag1 = IsMuMatchedToHLTMu ( muon1, HLTMuMatched ,maxDeltaR_, maxDPtRel_ ); if (!singleTrigFlag1) continue; //std::cout << " is GlobMu macthecd to HLT: " << singleTrigFlag1 << std::endl; // MT cuts double met_px = met.px(); double met_py = met.py(); if (!metIncludesMuons_) { for(unsigned int i =0 ; i < nHighPtGlbMu ; i++) { reco::Muon muon1 = highPtGlbMuons[i]; met_px -= muon1.px(); met_py -= muon1.py(); } } double met_et = met.pt() ; //sqrt(met_px*met_px+met_py*met_py); LogTrace("") << ">>> MET, MET_px, MET_py: " << met_et << ", " << met_px << ", " << met_py << " [GeV]"; double w_et = met_et+ muon1.pt(); double w_px = met_px+ muon1.px(); double w_py = met_py+muon1.py(); double massT = w_et*w_et - w_px*w_px - w_py*w_py; massT = (massT>0) ? sqrt(massT) : 0; // Acoplanarity cuts Geom::Phi<double> deltaphi(muon1.phi()-atan2(met_py,met_px)); double acop = M_PI - fabs(deltaphi.value()); //std::cout << " is acp of W candidate less then cut: " << (acop< acopCut_) << std::endl; if (acop > acopCut_) continue ; // Cut in 2.0 TMass_->Fill(massT); if (massT<mtMin_ || massT>mtMax_) continue; // Cut in (50,200) GeV // we give the number of W only in the tMass selected but we have a look at mass tails to check the QCD background isW_=true; nW++; nTMass++; } } // if a zGlobal is not selected, look at the dimuonGlobalOneStandAlone and dimuonGlobalOneTrack...., used as a control sample for the tracking efficiency and muon system efficiency if ( !(isZGolden2HLT_ || isZGolden1HLT_ || isZGoldenNoIso_ )){ for(unsigned int i =0 ; i < nHighPtGlbMu ; ++i) { reco::Muon glbMuon = highPtGlbMuons[i]; math::XYZTLorentzVector mu1(glbMuon.p4()); //double pt1= glbMuon.pt(); // checking that the global muon is hlt matched otherwise skip the event singleTrigFlag1 = IsMuMatchedToHLTMu ( glbMuon, HLTMuMatched ,maxDeltaR_, maxDPtRel_ ); if (!singleTrigFlag1) continue; // checking that the global muon is isolated matched otherwise skip the event iso1 = muIso ( glbMuon ); isMu1Iso = (iso1 < isoCut03_); if (!isMu1Iso) continue; // look at the standalone muon .... // stop the loop after 10 cicles.... (nHighPtStaMu> 10)? nHighPtStaMu=10 : 1; for (unsigned int j =0; j <nHighPtStaMu ; ++j ){ reco::Muon staMuon = highPtStaMuons[j]; math::XYZTLorentzVector mu2(staMuon.p4()); //double pt2= staMuon.pt(); if (glbMuon.charge() == staMuon.charge()) continue; math::XYZTLorentzVector pair = mu1 + mu2; double mass = pair.M(); iso2 = muIso ( staMuon); isMu2Iso = (iso2 < isoCut03_); LogTrace("") << "\t... isolation value" << iso1 <<", isolated? " << isMu1Iso ; LogTrace("") << "\t... isolation value" << iso2 <<", isolated? " << isMu2Iso ; // requiring theat the global mu is mathed to the HLT and both are isolated if (isMu2Iso ) { isZGlbSta_=true; nGlbSta++; massGlbSta_->Fill(mass); highMassGlbSta_->Fill(mass); /* if (pt1 > pt2) { highest_muptGlbSta_ -> Fill (pt1); lowest_muptGlbSta_ -> Fill (pt2); } else { highest_muptGlbSta_ -> Fill (pt2); lowest_muptGlbSta_ -> Fill (pt1); } */ } } // look at the tracks.... Handle< TrackCollection > tracks; if (!ev.getByLabel(trackTag_, tracks)) { //LogError("") << ">>> track collection does not exist !!!"; return; } ev.getByLabel(trackTag_, tracks); Handle< CaloTowerCollection > calotower; if (!ev.getByLabel(caloTowerTag_, calotower)) { //LogError("") << ">>> calotower collection does not exist !!!"; return; } ev.getByLabel(caloTowerTag_, calotower); // avoid to loop on more than 5000 trks size_t nTrk = tracks->size(); (nTrk> 5000)? nTrk=5000 : 1; for (unsigned int j=0; j<nTrk; j++ ){ const reco::Track & tk = tracks->at(j); if (glbMuon.charge() == tk.charge()) continue; double pt2 = tk.pt(); double eta = tk.eta(); double dxy = tk.dxy(beamSpotHandle->position()); if (pt2< ptMuCut_ || fabs(eta) > etaMuCut_ || fabs(dxy)>dxyCut_) continue; //assuming that the track is a mu.... math::XYZTLorentzVector mu2(tk.px(),tk.py(), tk.pz(), sqrt( (tk.p() * tk.p()) + ( 0.10566 * 0.10566))) ; math::XYZTLorentzVector pair = mu1 + mu2; double mass = pair.M(); // now requiring that the tracks is isolated....... iso2 = tkIso( tk, tracks, calotower); isMu2Iso = (iso2 < isoCut03_); // std::cout << "found a track with rel/comb iso: " << iso2 << std::endl; if (isMu2Iso) { isZGlbTrk_=true; nGlbTrk++; massGlbTrk_->Fill(mass); highMassGlbTrk_->Fill(mass); if (!isW_) continue; massIsBothGlbTrkThanW_->Fill(mass); highMassIsBothGlbTrkThanW_->Fill(mass); /* if (pt1 > pt2) { highest_muptGlbTrk_ -> Fill (pt1); lowest_muptGlbTrk_ -> Fill (pt2); } else { highest_muptGlbTrk_ -> Fill (pt2); lowest_muptGlbTrk_ -> Fill (pt1); } */ } } } } } if ( (hlt_sel || isZGolden2HLT_ || isZGolden1HLT_ || isZGoldenNoIso_ || isZGlbSta_ || isZGlbTrk_ || isW_) ) { nsel++; LogTrace("") << ">>>> Event ACCEPTED"; } else { LogTrace("") << ">>>> Event REJECTED"; } return; }
void EwkMuLumiMonitorDQM::beginJob | ( | void | ) | [virtual] |
void EwkMuLumiMonitorDQM::beginRun | ( | const edm::Run & | r, |
const edm::EventSetup & | iSetup | ||
) | [virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 79 of file EwkMuLumiMonitorDQM.cc.
References hltConfigProvider_, HLTConfigProvider::init(), isValidHltConfig_, n1hlt, n2hlt, nall, nEvWithHighPtMu, nGlbSta, nGlbTrk, nhlt, nInKinRange, niso, nNotIso, nsel, nTMass, nW, edm::InputTag::process(), and trigTag_.
{ nall = 0; nEvWithHighPtMu=0; nInKinRange= 0; nsel = 0; niso = 0; nhlt =0; n1hlt =0; n2hlt =0; nNotIso =0; nGlbSta =0; nGlbTrk =0; nTMass =0; nW=0; // passed as parameter to HLTConfigProvider::init(), not yet used bool isConfigChanged = false; // isValidHltConfig_ used to short-circuit analyze() in case of problems isValidHltConfig_ = hltConfigProvider_.init( r, iSetup, trigTag_.process(), isConfigChanged ); //std::cout << "hlt config trigger is valid??" << isValidHltConfig_ << std::endl; }
void EwkMuLumiMonitorDQM::endJob | ( | void | ) | [virtual] |
void EwkMuLumiMonitorDQM::endRun | ( | const edm::Run & | r, |
const edm::EventSetup & | |||
) | [virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 206 of file EwkMuLumiMonitorDQM.cc.
References n1hlt, n2hlt, nall, nGlbSta, nhlt, nNotIso, nsel, and nTMass.
{ LogVerbatim("") << "\n>>>>>> Z/W SELECTION SUMMARY BEGIN >>>>>>>>>>>>>>>"; LogVerbatim("") << "Total numer of events analyzed: " << nall << " [events]"; LogVerbatim("") << "Total numer of events selected: " << nsel << " [events]"; LogVerbatim("") << "Passing HLT criteria: " << nhlt << " [events] " ; LogVerbatim("") << "Passing 2 HLT match criteria: " << n2hlt << " [events] " ; LogVerbatim("") << "Passing 1 HLT match criteria: " << n1hlt << " [events] " ; LogVerbatim("") << "Passing Not Iso criteria: " << nNotIso << " [events] " ; LogVerbatim("") << "Passing GlbSta criteria: " << nGlbSta << " [events] " ; LogVerbatim("") << "Passing W criteria: " << nTMass << " [events] " ; LogVerbatim("") << ">>>>>> Z/W SELECTION SUMMARY END >>>>>>>>>>>>>>>\n"; }
void EwkMuLumiMonitorDQM::init_histograms | ( | ) |
Definition at line 108 of file EwkMuLumiMonitorDQM.cc.
References DQMStore::book1D(), highMass1HLT_, highMass2HLT_, highMassGlbSta_, highMassGlbTrk_, highMassIsBothGlbTrkThanW_, highMassNotIso_, mass1HLT_, mass2HLT_, massGlbSta_, massGlbTrk_, massIsBothGlbTrkThanW_, massNotIso_, theDbe, and TMass_.
Referenced by EwkMuLumiMonitorDQM().
{ mass2HLT_ = theDbe->book1D("Z_2HLT_MASS","Z mass [GeV/c^{2}]",200,0.,200.); mass1HLT_ = theDbe->book1D("Z_1HLT_MASS","Z mass [GeV/c^{2}]",200,0.,200.); massNotIso_ = theDbe->book1D("Z_NOTISO_MASS","Z mass [GeV/c^{2}]",200,0.,200.); massGlbSta_ = theDbe->book1D("Z_GLBSTA_MASS","Z mass [GeV/c^{2}]",200,0.,200.); massGlbTrk_ = theDbe->book1D("Z_GLBTRK_MASS","Z mass [GeV/c^{2}]",200,0.,200.); massIsBothGlbTrkThanW_ = theDbe->book1D("Z_ISBOTHGLBTRKTHANW_MASS","Z mass [GeV/c^{2}]",200,0.,200.); highMass2HLT_ = theDbe->book1D("Z_2HLT_HIGHMASS","Z high mass [GeV/c^{2}]",2000,0.,2000.); highMass1HLT_ = theDbe->book1D("Z_1HLT_HIGHMASS","Z high mass [GeV/c^{2}]",2000,0.,2000.); highMassNotIso_ = theDbe->book1D("Z_NOTISO_HIGHMASS","Z high mass [GeV/c^{2}]",2000,0.,2000.); highMassGlbSta_ = theDbe->book1D("Z_GLBSTA_HIGHMASS","Z high mass [GeV/c^{2}]",2000,0.,2000.); highMassGlbTrk_ = theDbe->book1D("Z_GLBTRK_HIGHMASS","Z high mass [GeV/c^{2}]",2000,0.,2000.); highMassIsBothGlbTrkThanW_ = theDbe->book1D("Z_ISBOTHGLBTRKTHANW_HIGHMASS","Z high mass [GeV/c^{2}]",2000,0.,2000.); /* highest_mupt2HLT_ = theDbe->book1D("HIGHEST_MU_PT_2HLT","Highest muon p_{t}[GeV/c]",200,0.,200.); highest_mupt1HLT_ = theDbe->book1D("HIGHEST_MU_PT_1HLT","Highest muon p_{t}[GeV/c]",200,0.,200.); highest_muptNotIso_ = theDbe->book1D("HIGHEST_MU_PT_NOTISO","Highest muon p_{t}[GeV/c]",200,0.,200.); highest_muptGlbSta_ = theDbe->book1D("HIGHEST_MU_PT_GLBSTA","Highest muon p_{t}[GeV/c]",200,0.,200.); highest_muptGlbTrk_ = theDbe->book1D("HIGHEST_MU_PT_GLBTRK","Highest muon p_{t}[GeV/c]",200,0.,200.); lowest_mupt2HLT_ = theDbe->book1D("LOWEST_MU_PT_2HLT","Lowest muon p_{t} [GeV/c]",200,0.,200.); lowest_mupt1HLT_ = theDbe->book1D("LOWEST_MU_PT_1HLT","Lowest muon p_{t} [GeV/c]",200,0.,200.); lowest_muptNotIso_ = theDbe->book1D("LOWEST_MU_PT_NOTISO","Lowest muon p_{t} [GeV/c]",200,0.,200.); lowest_muptGlbSta_ = theDbe->book1D("LOWEST_MU_PT_GLBSTA","Lowest muon p_{t} [GeV/c]",200,0.,200.); lowest_muptGlbTrk_ = theDbe->book1D("LOWEST_MU_PT_GLBTRK","Lowest muon p_{t} [GeV/c]",200,0.,200.); */ TMass_ = theDbe->book1D("TMASS","Transverse mass [GeV]",300,0.,300.); }
bool EwkMuLumiMonitorDQM::IsMuMatchedToHLTMu | ( | const reco::Muon & | , |
std::vector< reco::Particle > | , | ||
double | , | ||
double | |||
) |
Referenced by analyze().
double EwkMuLumiMonitorDQM::muIso | ( | const reco::Muon & | mu | ) |
Definition at line 144 of file EwkMuLumiMonitorDQM.cc.
References reco::MuonIsolation::emEt, reco::MuonIsolation::hadEt, isCombinedIso_, reco::Muon::isolationR03(), isRelativeIso_, reco::LeafCandidate::pt(), and reco::MuonIsolation::sumPt.
Referenced by analyze().
{ double isovar = mu.isolationR03().sumPt; if (isCombinedIso_) { isovar += mu.isolationR03().emEt; isovar += mu.isolationR03().hadEt; } if (isRelativeIso_) isovar /= mu.pt(); return isovar; }
double EwkMuLumiMonitorDQM::tkIso | ( | reco::Track | tk, |
edm::Handle< reco::TrackCollection > | tracks, | ||
edm::Handle< CaloTowerCollection > | calotower | ||
) |
Definition at line 154 of file EwkMuLumiMonitorDQM.cc.
References deltaR(), HTMLExport::elem(), reco::TrackBase::eta(), i, isCombinedIso_, isRelativeIso_, reco::Track::outerEta(), reco::Track::outerPhi(), reco::TrackBase::phi(), reco::TrackBase::pt(), ptThreshold_, mathSSE::sqrt(), reco::TrackBase::vx(), reco::TrackBase::vy(), and reco::TrackBase::vz().
Referenced by analyze().
{ double ptSum = 0; for (size_t i=0; i< tracks->size(); ++i){ const reco::Track & elem = tracks->at(i); double elemPt = elem.pt(); // same parameter used for muIsolation: dR [0.01, IsoCut03_], |dZ|<0.2, |d_r(xy)|<0.1 double elemVx = elem.vx(); double elemVy = elem.vy(); double elemD0 = sqrt( elemVx * elemVx + elemVy * elemVy ); if ( elemD0 > 0.2 ) continue; double dz = fabs( elem.vz() - tk.vz()); if ( dz > 0.1) continue; // evaluate only for tracks with pt>ptTreshold if ( elemPt < ptThreshold_ ) continue; double dR = deltaR( elem.eta(), elem.phi(), tk.eta(), tk.phi() ); // isolation in a cone with dR=0.3, and vetoing the track itself if ( (dR < 0.01) || (dR > 0.3) ) continue; ptSum += elemPt; } if (isCombinedIso_) { // loop on clusters.... for (CaloTowerCollection::const_iterator it=calotower->begin(); it!=calotower->end();++it ){ double dR = deltaR( it->eta(), it->phi(),tk.outerEta(), tk.outerPhi() ); // veto value is 0.1 for towers.... if ( (dR < 0.1) || (dR > 0.3) ) continue; ptSum += it->emEnergy(); ptSum += it->hadEnergy(); } } if (isRelativeIso_) ptSum /= tk.pt(); return ptSum; }
double EwkMuLumiMonitorDQM::acopCut_ [private] |
Definition at line 69 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
Definition at line 48 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
double EwkMuLumiMonitorDQM::deltaRTrk_ [private] |
Definition at line 62 of file EwkMuLumiMonitorDQM.h.
double EwkMuLumiMonitorDQM::deltaRVetoTrk_ [private] |
Definition at line 64 of file EwkMuLumiMonitorDQM.h.
double EwkMuLumiMonitorDQM::dxyCut_ [private] |
Definition at line 70 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
double EwkMuLumiMonitorDQM::etaMuCut_ [private] |
Definition at line 56 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
MonitorElement* EwkMuLumiMonitorDQM::highMass1HLT_ [private] |
Definition at line 84 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
MonitorElement* EwkMuLumiMonitorDQM::highMass2HLT_ [private] |
Definition at line 79 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
Definition at line 94 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
Definition at line 99 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
Definition at line 106 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
Definition at line 89 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
Definition at line 131 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and beginRun().
bool EwkMuLumiMonitorDQM::isCombinedIso_ [private] |
Definition at line 59 of file EwkMuLumiMonitorDQM.h.
double EwkMuLumiMonitorDQM::isoCut03_ [private] |
Definition at line 60 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::isRelativeIso_ [private] |
Definition at line 58 of file EwkMuLumiMonitorDQM.h.
bool EwkMuLumiMonitorDQM::isValidHltConfig_ [private] |
Definition at line 130 of file EwkMuLumiMonitorDQM.h.
Referenced by beginRun(), and EwkMuLumiMonitorDQM().
bool EwkMuLumiMonitorDQM::isW_ [private] |
Definition at line 128 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::isZGlbSta_ [private] |
Definition at line 126 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::isZGlbTrk_ [private] |
Definition at line 127 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::isZGolden1HLT_ [private] |
Definition at line 123 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::isZGolden2HLT_ [private] |
Definition at line 124 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::isZGoldenNoIso_ [private] |
Definition at line 125 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
MonitorElement* EwkMuLumiMonitorDQM::mass1HLT_ [private] |
Definition at line 83 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
MonitorElement* EwkMuLumiMonitorDQM::mass2HLT_ [private] |
Definition at line 78 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
MonitorElement* EwkMuLumiMonitorDQM::massGlbSta_ [private] |
Definition at line 93 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
MonitorElement* EwkMuLumiMonitorDQM::massGlbTrk_ [private] |
Definition at line 98 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
Definition at line 105 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
MonitorElement* EwkMuLumiMonitorDQM::massNotIso_ [private] |
Definition at line 88 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
double EwkMuLumiMonitorDQM::maxDeltaR_ [private] |
Definition at line 66 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
double EwkMuLumiMonitorDQM::maxDPtRel_ [private] |
Definition at line 65 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
bool EwkMuLumiMonitorDQM::metIncludesMuons_ [private] |
Definition at line 50 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
edm::InputTag EwkMuLumiMonitorDQM::metTag_ [private] |
Definition at line 49 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
double EwkMuLumiMonitorDQM::mtMax_ [private] |
Definition at line 68 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
double EwkMuLumiMonitorDQM::mtMin_ [private] |
Definition at line 67 of file EwkMuLumiMonitorDQM.h.
edm::InputTag EwkMuLumiMonitorDQM::muonTag_ [private] |
Definition at line 46 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
unsigned int EwkMuLumiMonitorDQM::n1hlt [private] |
Definition at line 115 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::n2hlt [private] |
Definition at line 116 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nall [private] |
Definition at line 109 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nEvWithHighPtMu [private] |
Definition at line 110 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and beginRun().
unsigned int EwkMuLumiMonitorDQM::nGlbSta [private] |
Definition at line 118 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nGlbTrk [private] |
Definition at line 119 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and beginRun().
unsigned int EwkMuLumiMonitorDQM::nhlt [private] |
Definition at line 114 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nInKinRange [private] |
Definition at line 111 of file EwkMuLumiMonitorDQM.h.
Referenced by beginRun().
unsigned int EwkMuLumiMonitorDQM::niso [private] |
Definition at line 113 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and beginRun().
unsigned int EwkMuLumiMonitorDQM::nNotIso [private] |
Definition at line 117 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nsel [private] |
Definition at line 112 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nTMass [private] |
Definition at line 120 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), beginRun(), and endRun().
unsigned int EwkMuLumiMonitorDQM::nW [private] |
Definition at line 121 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and beginRun().
double EwkMuLumiMonitorDQM::ptMuCut_ [private] |
Definition at line 55 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
double EwkMuLumiMonitorDQM::ptThreshold_ [private] |
Definition at line 63 of file EwkMuLumiMonitorDQM.h.
Referenced by tkIso().
DQMStore* EwkMuLumiMonitorDQM::theDbe [private] |
Definition at line 75 of file EwkMuLumiMonitorDQM.h.
Referenced by EwkMuLumiMonitorDQM(), and init_histograms().
MonitorElement* EwkMuLumiMonitorDQM::TMass_ [private] |
Definition at line 103 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and init_histograms().
edm::InputTag EwkMuLumiMonitorDQM::trackTag_ [private] |
Definition at line 47 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
edm::InputTag EwkMuLumiMonitorDQM::trigEv_ [private] |
Definition at line 45 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze().
edm::InputTag EwkMuLumiMonitorDQM::trigTag_ [private] |
Definition at line 44 of file EwkMuLumiMonitorDQM.h.
Referenced by analyze(), and beginRun().