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#include "DQMOffline/L1Trigger/interface/L1TStage2CaloLayer2Offline.h"
#include "DQMOffline/L1Trigger/interface/L1TFillWithinLimits.h"
#include "DQMOffline/L1Trigger/interface/L1TCommon.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/Framework/interface/MakerMacros.h"
// Geometry
#include "DataFormats/Math/interface/deltaR.h"
#include "DataFormats/Math/interface/deltaPhi.h"
#include "DataFormats/Math/interface/LorentzVector.h"
#include "TLorentzVector.h"
const std::map<std::string, unsigned int> L1TStage2CaloLayer2Offline::PlotConfigNames = {
{"nVertex", PlotConfig::nVertex}, {"ETvsET", PlotConfig::ETvsET}, {"PHIvsPHI", PlotConfig::PHIvsPHI}};
//
// -------------------------------------- Constructor --------------------------------------------
//
L1TStage2CaloLayer2Offline::L1TStage2CaloLayer2Offline(const edm::ParameterSet& ps)
: thePFJetCollection_(consumes<reco::PFJetCollection>(ps.getParameter<edm::InputTag>("pfJetCollection"))),
thecaloMETCollection_(consumes<reco::CaloMETCollection>(ps.getParameter<edm::InputTag>("caloMETCollection"))),
thecaloETMHFCollection_(consumes<reco::CaloMETCollection>(ps.getParameter<edm::InputTag>("caloETMHFCollection"))),
thePFMETNoMuCollection_(consumes<reco::PFMETCollection>(ps.getParameter<edm::InputTag>("pfMETNoMuCollection"))),
thePVCollection_(consumes<reco::VertexCollection>(ps.getParameter<edm::InputTag>("PVCollection"))),
theBSCollection_(consumes<reco::BeamSpot>(ps.getParameter<edm::InputTag>("beamSpotCollection"))),
triggerInputTag_(consumes<trigger::TriggerEvent>(ps.getParameter<edm::InputTag>("triggerInputTag"))),
triggerResultsInputTag_(consumes<edm::TriggerResults>(ps.getParameter<edm::InputTag>("triggerResults"))),
triggerProcess_(ps.getParameter<std::string>("triggerProcess")),
triggerNames_(ps.getParameter<std::vector<std::string>>("triggerNames")),
histFolderEtSum_(ps.getParameter<std::string>("histFolderEtSum")),
histFolderJet_(ps.getParameter<std::string>("histFolderJet")),
efficiencyFolderEtSum_(histFolderEtSum_ + "/efficiency_raw"),
efficiencyFolderJet_(histFolderJet_ + "/efficiency_raw"),
stage2CaloLayer2JetToken_(
consumes<l1t::JetBxCollection>(ps.getParameter<edm::InputTag>("stage2CaloLayer2JetSource"))),
stage2CaloLayer2EtSumToken_(
consumes<l1t::EtSumBxCollection>(ps.getParameter<edm::InputTag>("stage2CaloLayer2EtSumSource"))),
jetEfficiencyThresholds_(ps.getParameter<std::vector<double>>("jetEfficiencyThresholds")),
metEfficiencyThresholds_(ps.getParameter<std::vector<double>>("metEfficiencyThresholds")),
mhtEfficiencyThresholds_(ps.getParameter<std::vector<double>>("mhtEfficiencyThresholds")),
ettEfficiencyThresholds_(ps.getParameter<std::vector<double>>("ettEfficiencyThresholds")),
httEfficiencyThresholds_(ps.getParameter<std::vector<double>>("httEfficiencyThresholds")),
jetEfficiencyBins_(ps.getParameter<std::vector<double>>("jetEfficiencyBins")),
metEfficiencyBins_(ps.getParameter<std::vector<double>>("metEfficiencyBins")),
mhtEfficiencyBins_(ps.getParameter<std::vector<double>>("mhtEfficiencyBins")),
ettEfficiencyBins_(ps.getParameter<std::vector<double>>("ettEfficiencyBins")),
httEfficiencyBins_(ps.getParameter<std::vector<double>>("httEfficiencyBins")),
recoHTTMaxEta_(ps.getParameter<double>("recoHTTMaxEta")),
recoMHTMaxEta_(ps.getParameter<double>("recoMHTMaxEta")),
hltConfig_(),
triggerIndices_(),
triggerResults_(),
triggerEvent_(),
histDefinitions_(dqmoffline::l1t::readHistDefinitions(ps.getParameterSet("histDefinitions"), PlotConfigNames)),
h_nVertex_(),
h_controlPlots_(),
h_L1METvsCaloMET_(),
h_L1ETMHFvsCaloETMHF_(),
h_L1METvsPFMetNoMu_(),
h_L1MHTvsRecoMHT_(),
h_L1METTvsCaloETT_(),
h_L1HTTvsRecoHTT_(),
h_L1METPhivsCaloMETPhi_(),
h_L1ETMHFPhivsCaloETMHFPhi_(),
h_L1METPhivsPFMetNoMuPhi_(),
h_L1MHTPhivsRecoMHTPhi_(),
h_resolutionMET_(),
h_resolutionETMHF_(),
h_resolutionPFMetNoMu_(),
h_resolutionMHT_(),
h_resolutionETT_(),
h_resolutionHTT_(),
h_resolutionMETPhi_(),
h_resolutionETMHFPhi_(),
h_resolutionPFMetNoMuPhi_(),
h_resolutionMHTPhi_(),
h_efficiencyMET_pass_(),
h_efficiencyETMHF_pass_(),
h_efficiencyPFMetNoMu_pass_(),
h_efficiencyMHT_pass_(),
h_efficiencyETT_pass_(),
h_efficiencyHTT_pass_(),
h_efficiencyMET_total_(),
h_efficiencyETMHF_total_(),
h_efficiencyPFMetNoMu_total_(),
h_efficiencyMHT_total_(),
h_efficiencyETT_total_(),
h_efficiencyHTT_total_(),
h_L1JetETvsPFJetET_HB_(),
h_L1JetETvsPFJetET_HE_(),
h_L1JetETvsPFJetET_HF_(),
h_L1JetETvsPFJetET_HB_HE_(),
h_L1JetPhivsPFJetPhi_HB_(),
h_L1JetPhivsPFJetPhi_HE_(),
h_L1JetPhivsPFJetPhi_HF_(),
h_L1JetPhivsPFJetPhi_HB_HE_(),
h_L1JetEtavsPFJetEta_(),
h_resolutionJetET_HB_(),
h_resolutionJetET_HE_(),
h_resolutionJetET_HF_(),
h_resolutionJetET_HB_HE_(),
h_resolutionJetPhi_HB_(),
h_resolutionJetPhi_HE_(),
h_resolutionJetPhi_HF_(),
h_resolutionJetPhi_HB_HE_(),
h_resolutionJetEta_(),
h_efficiencyJetEt_HB_pass_(),
h_efficiencyJetEt_HE_pass_(),
h_efficiencyJetEt_HF_pass_(),
h_efficiencyJetEt_HB_HE_pass_(),
h_efficiencyJetEt_HB_total_(),
h_efficiencyJetEt_HE_total_(),
h_efficiencyJetEt_HF_total_(),
h_efficiencyJetEt_HB_HE_total_() {
edm::LogInfo("L1TStage2CaloLayer2Offline") << "Constructor "
<< "L1TStage2CaloLayer2Offline::L1TStage2CaloLayer2Offline " << std::endl;
}
//
// -- Destructor
//
L1TStage2CaloLayer2Offline::~L1TStage2CaloLayer2Offline() {
edm::LogInfo("L1TStage2CaloLayer2Offline")
<< "Destructor L1TStage2CaloLayer2Offline::~L1TStage2CaloLayer2Offline " << std::endl;
}
//
// -------------------------------------- beginRun --------------------------------------------
//
void L1TStage2CaloLayer2Offline::dqmBeginRun(edm::Run const& iRun, edm::EventSetup const& iSetup) {
edm::LogInfo("L1TStage2CaloLayer2Offline") << "L1TStage2CaloLayer2Offline::beginRun" << std::endl;
bool changed(true);
if (!hltConfig_.init(iRun, iSetup, triggerProcess_, changed)) {
edm::LogError("L1TStage2CaloLayer2Offline")
<< " HLT config extraction failure with process name " << triggerProcess_ << std::endl;
triggerNames_.clear();
} else {
triggerIndices_ = dqmoffline::l1t::getTriggerIndices(triggerNames_, hltConfig_.triggerNames());
}
}
//
// -------------------------------------- bookHistos --------------------------------------------
//
void L1TStage2CaloLayer2Offline::bookHistograms(DQMStore::IBooker& ibooker_, edm::Run const&, edm::EventSetup const&) {
edm::LogInfo("L1TStage2CaloLayer2Offline") << "L1TStage2CaloLayer2Offline::bookHistograms" << std::endl;
//book at beginRun
bookHistos(ibooker_);
}
//
// -------------------------------------- Analyze --------------------------------------------
//
void L1TStage2CaloLayer2Offline::analyze(edm::Event const& e, edm::EventSetup const& eSetup) {
edm::LogInfo("L1TStage2CaloLayer2Offline") << "L1TStage2CaloLayer2Offline::analyze" << std::endl;
edm::Handle<edm::TriggerResults> triggerResultHandle;
e.getByToken(triggerResultsInputTag_, triggerResultHandle);
if (!triggerResultHandle.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid edm::TriggerResults handle" << std::endl;
return;
}
triggerResults_ = *triggerResultHandle;
edm::Handle<trigger::TriggerEvent> triggerEventHandle;
e.getByToken(triggerInputTag_, triggerEventHandle);
if (!triggerEventHandle.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid trigger::TriggerEvent handle" << std::endl;
return;
}
triggerEvent_ = *triggerEventHandle;
edm::Handle<reco::VertexCollection> vertexHandle;
e.getByToken(thePVCollection_, vertexHandle);
if (!vertexHandle.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: vertex " << std::endl;
return;
}
unsigned int nVertex = vertexHandle->size();
dqmoffline::l1t::fillWithinLimits(h_nVertex_, nVertex);
// L1T
if (!dqmoffline::l1t::passesAnyTriggerFromList(triggerIndices_, triggerResults_)) {
return;
}
fillEnergySums(e, nVertex);
fillJets(e, nVertex);
}
void L1TStage2CaloLayer2Offline::fillEnergySums(edm::Event const& e, const unsigned int nVertex) {
edm::Handle<l1t::EtSumBxCollection> l1EtSums;
e.getByToken(stage2CaloLayer2EtSumToken_, l1EtSums);
edm::Handle<reco::PFJetCollection> pfJets;
e.getByToken(thePFJetCollection_, pfJets);
edm::Handle<reco::CaloMETCollection> caloMETs;
e.getByToken(thecaloMETCollection_, caloMETs);
edm::Handle<reco::CaloMETCollection> caloETMHFs;
e.getByToken(thecaloETMHFCollection_, caloETMHFs);
edm::Handle<reco::PFMETCollection> pfMETNoMus;
e.getByToken(thePFMETNoMuCollection_, pfMETNoMus);
if (!pfJets.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: PF jets " << std::endl;
return;
}
if (!caloMETs.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: Offline E_{T}^{miss} " << std::endl;
return;
}
if (!caloETMHFs.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: Offline E_{T}^{miss} (HF) " << std::endl;
return;
}
if (!pfMETNoMus.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: Offline PF E_{T}^{miss} No Mu" << std::endl;
return;
}
if (!l1EtSums.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: L1 ET sums " << std::endl;
return;
}
int bunchCrossing = 0;
double l1MET(0);
double l1METPhi(0);
double l1ETMHF(0);
double l1ETMHFPhi(0);
double l1MHT(0);
double l1MHTPhi(0);
double l1ETT(0);
double l1HTT(0);
for (auto etSum = l1EtSums->begin(bunchCrossing); etSum != l1EtSums->end(bunchCrossing); ++etSum) {
double et = etSum->et();
double phi = etSum->phi();
switch (etSum->getType()) {
case l1t::EtSum::EtSumType::kMissingEt:
l1MET = et;
l1METPhi = phi;
break;
case l1t::EtSum::EtSumType::kMissingEtHF:
l1ETMHF = et;
l1ETMHFPhi = phi;
break;
case l1t::EtSum::EtSumType::kTotalEt:
l1ETT = et;
break;
case l1t::EtSum::EtSumType::kMissingHt:
l1MHT = et;
l1MHTPhi = phi;
break;
case l1t::EtSum::EtSumType::kTotalHt:
l1HTT = et;
default:
break;
}
}
double recoMET(caloMETs->front().et());
double recoMETPhi(caloMETs->front().phi());
double recoETMHF(caloETMHFs->front().et());
double recoETMHFPhi(caloETMHFs->front().phi());
double recoPFMetNoMu(pfMETNoMus->front().et());
double recoPFMetNoMuPhi(pfMETNoMus->front().phi());
double recoMHT(0);
double recoMHTPhi(0);
double recoETT(caloMETs->front().sumEt());
double recoHTT(0);
TVector2 mht(0., 0.);
for (auto jet = pfJets->begin(); jet != pfJets->end(); ++jet) {
double et = jet->et();
if (et < 30) {
continue;
}
TVector2 jetVec(et * cos(jet->phi()), et * sin(jet->phi()));
if (std::abs(jet->eta()) < recoHTTMaxEta_) {
recoHTT += et;
}
if (std::abs(jet->eta()) < recoMHTMaxEta_) {
mht -= jetVec;
}
}
recoMHT = mht.Mod();
// phi in cms is defined between -pi and pi
recoMHTPhi = TVector2::Phi_mpi_pi(mht.Phi());
// if no reco value, relative resolution does not make sense -> sort to overflow
double outOfBounds = 9999;
double resolutionMET = recoMET > 0 ? (l1MET - recoMET) / recoMET : outOfBounds;
double resolutionMETPhi = reco::deltaPhi(l1METPhi, recoMETPhi);
double resolutionETMHF = recoETMHF > 0 ? (l1ETMHF - recoETMHF) / recoETMHF : outOfBounds;
double resolutionETMHFPhi = reco::deltaPhi(l1ETMHFPhi, recoETMHFPhi);
double resolutionPFMetNoMu = recoETMHF > 0 ? (l1MET - recoPFMetNoMu) / recoPFMetNoMu : outOfBounds;
double resolutionPFMetNoMuPhi = reco::deltaPhi(l1METPhi, recoPFMetNoMuPhi);
double resolutionMHT = recoMHT > 0 ? (l1MHT - recoMHT) / recoMHT : outOfBounds;
double resolutionMHTPhi = reco::deltaPhi(l1MHTPhi, recoMHTPhi);
double resolutionETT = recoETT > 0 ? (l1ETT - recoETT) / recoETT : outOfBounds;
double resolutionHTT = recoHTT > 0 ? (l1HTT - recoHTT) / recoHTT : outOfBounds;
using namespace dqmoffline::l1t;
// control plots
fillWithinLimits(h_controlPlots_[ControlPlots::L1MET], l1MET);
fillWithinLimits(h_controlPlots_[ControlPlots::L1ETMHF], l1ETMHF);
fillWithinLimits(h_controlPlots_[ControlPlots::L1MHT], l1MHT);
fillWithinLimits(h_controlPlots_[ControlPlots::L1ETT], l1ETT);
fillWithinLimits(h_controlPlots_[ControlPlots::L1HTT], l1HTT);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflineMET], recoMET);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflineETMHF], recoETMHF);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflinePFMetNoMu], recoPFMetNoMu);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflineMHT], recoMHT);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflineETT], recoETT);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflineHTT], recoHTT);
fill2DWithinLimits(h_L1METvsCaloMET_, recoMET, l1MET);
fill2DWithinLimits(h_L1ETMHFvsCaloETMHF_, recoETMHF, l1ETMHF);
fill2DWithinLimits(h_L1METvsPFMetNoMu_, recoPFMetNoMu, l1MET);
fill2DWithinLimits(h_L1MHTvsRecoMHT_, recoMHT, l1MHT);
fill2DWithinLimits(h_L1METTvsCaloETT_, recoETT, l1ETT);
fill2DWithinLimits(h_L1HTTvsRecoHTT_, recoHTT, l1HTT);
fill2DWithinLimits(h_L1METPhivsCaloMETPhi_, recoMETPhi, l1METPhi);
fill2DWithinLimits(h_L1ETMHFPhivsCaloETMHFPhi_, recoETMHFPhi, l1ETMHFPhi);
fill2DWithinLimits(h_L1METPhivsPFMetNoMuPhi_, recoPFMetNoMuPhi, l1METPhi);
fill2DWithinLimits(h_L1MHTPhivsRecoMHTPhi_, recoMHTPhi, l1MHTPhi);
fillWithinLimits(h_resolutionMET_, resolutionMET);
fillWithinLimits(h_resolutionETMHF_, resolutionETMHF);
fillWithinLimits(h_resolutionPFMetNoMu_, resolutionPFMetNoMu);
fillWithinLimits(h_resolutionMHT_, resolutionMHT);
fillWithinLimits(h_resolutionETT_, resolutionETT);
if (resolutionMHT < outOfBounds) {
fillWithinLimits(h_resolutionMHT_, resolutionMHT);
}
if (resolutionHTT < outOfBounds) {
fillWithinLimits(h_resolutionHTT_, resolutionHTT);
}
fillWithinLimits(h_resolutionMETPhi_, resolutionMETPhi);
fillWithinLimits(h_resolutionETMHFPhi_, resolutionETMHFPhi);
fillWithinLimits(h_resolutionPFMetNoMuPhi_, resolutionPFMetNoMuPhi);
fillWithinLimits(h_resolutionMHTPhi_, resolutionMHTPhi);
// efficiencies
for (auto threshold : metEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyMET_total_[threshold], recoMET);
fillWithinLimits(h_efficiencyETMHF_total_[threshold], recoETMHF);
fillWithinLimits(h_efficiencyPFMetNoMu_total_[threshold], recoPFMetNoMu);
if (l1MET > threshold) {
fillWithinLimits(h_efficiencyMET_pass_[threshold], recoMET);
fillWithinLimits(h_efficiencyETMHF_pass_[threshold], recoETMHF);
fillWithinLimits(h_efficiencyPFMetNoMu_pass_[threshold], recoPFMetNoMu);
}
}
for (auto threshold : mhtEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyMHT_total_[threshold], recoMHT);
if (l1MHT > threshold)
fillWithinLimits(h_efficiencyMHT_pass_[threshold], recoMHT);
}
for (auto threshold : ettEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyETT_total_[threshold], recoETT);
if (l1ETT > threshold)
fillWithinLimits(h_efficiencyETT_pass_[threshold], recoETT);
}
for (auto threshold : httEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyHTT_total_[threshold], recoHTT);
if (l1HTT > threshold)
fillWithinLimits(h_efficiencyHTT_pass_[threshold], recoHTT);
}
}
void L1TStage2CaloLayer2Offline::fillJets(edm::Event const& e, const unsigned int nVertex) {
edm::Handle<l1t::JetBxCollection> l1Jets;
e.getByToken(stage2CaloLayer2JetToken_, l1Jets);
edm::Handle<reco::PFJetCollection> pfJets;
e.getByToken(thePFJetCollection_, pfJets);
if (!pfJets.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: PF jets " << std::endl;
return;
}
if (!l1Jets.isValid()) {
edm::LogWarning("L1TStage2CaloLayer2Offline") << "invalid collection: L1 jets " << std::endl;
return;
}
if (pfJets->empty()) {
LogDebug("L1TStage2CaloLayer2Offline") << "no PF jets found" << std::endl;
return;
}
auto leadingRecoJet = pfJets->front();
// find corresponding L1 jet
double minDeltaR = 0.3;
l1t::Jet closestL1Jet;
bool foundMatch = false;
// for (int bunchCrossing = l1Jets->getFirstBX(); bunchCrossing <= l1Jets->getLastBX(); ++bunchCrossing) {
int bunchCrossing = 0;
for (auto jet = l1Jets->begin(bunchCrossing); jet != l1Jets->end(bunchCrossing); ++jet) {
double currentDeltaR = deltaR(jet->eta(), jet->phi(), leadingRecoJet.eta(), leadingRecoJet.phi());
if (currentDeltaR >= minDeltaR) {
continue;
} else {
minDeltaR = currentDeltaR;
closestL1Jet = *jet;
foundMatch = true;
}
}
// }
if (!foundMatch) {
LogDebug("L1TStage2CaloLayer2Offline") << "Could not find a matching L1 Jet " << std::endl;
}
if (!doesNotOverlapWithHLTObjects(closestL1Jet)) {
return;
}
double recoEt = leadingRecoJet.et();
double recoEta = leadingRecoJet.eta();
double recoPhi = leadingRecoJet.phi();
double outOfBounds = 9999;
double l1Et = foundMatch ? closestL1Jet.et() : 0;
double l1Eta = foundMatch ? closestL1Jet.eta() : outOfBounds;
double l1Phi = foundMatch ? closestL1Jet.phi() : outOfBounds;
double resolutionEt = recoEt > 0 ? (l1Et - recoEt) / recoEt : outOfBounds;
double resolutionEta = l1Eta - recoEta;
double resolutionPhi = l1Phi < outOfBounds ? reco::deltaPhi(l1Phi, recoPhi) : outOfBounds;
using namespace dqmoffline::l1t;
// fill efficiencies regardless of matched jet found
fillJetEfficiencies(recoEt, l1Et, recoEta);
// control plots
fillWithinLimits(h_controlPlots_[ControlPlots::L1JetET], l1Et);
fillWithinLimits(h_controlPlots_[ControlPlots::OfflineJetET], recoEt);
// don't fill anything else if no matched L1 jet is found
if (!foundMatch) {
return;
}
// eta
fill2DWithinLimits(h_L1JetEtavsPFJetEta_, recoEta, l1Eta);
fillWithinLimits(h_resolutionJetEta_, resolutionEta);
if (std::abs(recoEta) <= 1.479) { // barrel
// et
fill2DWithinLimits(h_L1JetETvsPFJetET_HB_, recoEt, l1Et);
fill2DWithinLimits(h_L1JetETvsPFJetET_HB_HE_, recoEt, l1Et);
//resolution
fillWithinLimits(h_resolutionJetET_HB_, resolutionEt);
fillWithinLimits(h_resolutionJetET_HB_HE_, resolutionEt);
// phi
fill2DWithinLimits(h_L1JetPhivsPFJetPhi_HB_, recoPhi, l1Phi);
fill2DWithinLimits(h_L1JetPhivsPFJetPhi_HB_HE_, recoPhi, l1Phi);
// resolution
fillWithinLimits(h_resolutionJetPhi_HB_, resolutionPhi);
fillWithinLimits(h_resolutionJetPhi_HB_HE_, resolutionPhi);
} else if (std::abs(recoEta) <= 3.0) { // end-cap
// et
fill2DWithinLimits(h_L1JetETvsPFJetET_HE_, recoEt, l1Et);
fill2DWithinLimits(h_L1JetETvsPFJetET_HB_HE_, recoEt, l1Et);
//resolution
fillWithinLimits(h_resolutionJetET_HE_, resolutionEt);
fillWithinLimits(h_resolutionJetET_HB_HE_, resolutionEt);
// phi
fill2DWithinLimits(h_L1JetPhivsPFJetPhi_HE_, recoPhi, l1Phi);
fill2DWithinLimits(h_L1JetPhivsPFJetPhi_HB_HE_, recoPhi, l1Phi);
// resolution
fillWithinLimits(h_resolutionJetPhi_HE_, resolutionPhi);
fillWithinLimits(h_resolutionJetPhi_HB_HE_, resolutionPhi);
} else { // forward jets
// et
fill2DWithinLimits(h_L1JetETvsPFJetET_HF_, recoEt, l1Et);
// resolution
fillWithinLimits(h_resolutionJetET_HF_, resolutionEt);
// phi
fill2DWithinLimits(h_L1JetPhivsPFJetPhi_HF_, recoPhi, l1Phi);
// resolution
fillWithinLimits(h_resolutionJetPhi_HF_, resolutionPhi);
}
}
void L1TStage2CaloLayer2Offline::fillJetEfficiencies(const double& recoEt, const double& l1Et, const double& recoEta) {
using namespace dqmoffline::l1t;
if (std::abs(recoEta) <= 1.479) { // barrel
for (auto threshold : jetEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyJetEt_HB_total_[threshold], recoEt);
fillWithinLimits(h_efficiencyJetEt_HB_HE_total_[threshold], recoEt);
if (l1Et > threshold) {
fillWithinLimits(h_efficiencyJetEt_HB_pass_[threshold], recoEt);
fillWithinLimits(h_efficiencyJetEt_HB_HE_pass_[threshold], recoEt);
}
}
} else if (std::abs(recoEta) <= 3.0) { // end-cap
for (auto threshold : jetEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyJetEt_HE_total_[threshold], recoEt);
fillWithinLimits(h_efficiencyJetEt_HB_HE_total_[threshold], recoEt);
if (l1Et > threshold) {
fillWithinLimits(h_efficiencyJetEt_HE_pass_[threshold], recoEt);
fillWithinLimits(h_efficiencyJetEt_HB_HE_pass_[threshold], recoEt);
}
}
} else {
for (auto threshold : jetEfficiencyThresholds_) {
fillWithinLimits(h_efficiencyJetEt_HF_total_[threshold], recoEt);
if (l1Et > threshold) {
fillWithinLimits(h_efficiencyJetEt_HF_pass_[threshold], recoEt);
}
} // forward jets
}
}
//
// -------------------------------------- endRun --------------------------------------------
//
//
// -------------------------------------- book histograms --------------------------------------------
//
void L1TStage2CaloLayer2Offline::bookHistos(DQMStore::IBooker& ibooker) {
bookEnergySumHistos(ibooker);
bookJetHistos(ibooker);
}
void L1TStage2CaloLayer2Offline::bookEnergySumHistos(DQMStore::IBooker& ibooker) {
ibooker.cd();
ibooker.setCurrentFolder(histFolderEtSum_);
dqmoffline::l1t::HistDefinition nVertexDef = histDefinitions_[PlotConfig::nVertex];
h_nVertex_ = ibooker.book1D(nVertexDef.name, nVertexDef.title, nVertexDef.nbinsX, nVertexDef.xmin, nVertexDef.xmax);
// energy sums control plots (monitor beyond the limits of the 2D histograms)
h_controlPlots_[ControlPlots::L1MET] =
ibooker.book1D("L1MET", "L1 E_{T}^{miss}; L1 E_{T}^{miss} (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::L1ETMHF] =
ibooker.book1D("L1ETMHF", "L1 E_{T}^{miss} (HF); L1 E_{T}^{miss} (HF) (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::L1MHT] = ibooker.book1D("L1MHT", "L1 MHT; L1 MHT (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::L1ETT] = ibooker.book1D("L1ETT", "L1 ETT; L1 ETT (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::L1HTT] = ibooker.book1D("L1HTT", "L1 HTT; L1 HTT (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::OfflineMET] =
ibooker.book1D("OfflineMET", "Offline E_{T}^{miss}; Offline E_{T}^{miss} (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::OfflineETMHF] = ibooker.book1D(
"OfflineETMHF", "Offline E_{T}^{miss} (HF); Offline E_{T}^{miss} (HF) (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::OfflinePFMetNoMu] =
ibooker.book1D("OfflinePFMetNoMu",
"Offline E_{T}^{miss} (PFMetNoMu); Offline E_{T}^{miss} (PFMetNoMu) (GeV); events",
500,
-0.5,
4999.5);
h_controlPlots_[ControlPlots::OfflineMHT] =
ibooker.book1D("OfflineMHT", "Offline MHT; Offline MHT (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::OfflineETT] =
ibooker.book1D("OfflineETT", "Offline ETT; Offline ETT (GeV); events", 500, -0.5, 4999.5);
h_controlPlots_[ControlPlots::OfflineHTT] =
ibooker.book1D("OfflineHTT", "Offline HTT; Offline HTT (GeV); events", 500, -0.5, 4999.5);
// energy sums reco vs L1
dqmoffline::l1t::HistDefinition templateETvsET = histDefinitions_[PlotConfig::ETvsET];
h_L1METvsCaloMET_ =
ibooker.book2D("L1METvsCaloMET",
"L1 E_{T}^{miss} vs Offline E_{T}^{miss};Offline E_{T}^{miss} (GeV);L1 E_{T}^{miss} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1ETMHFvsCaloETMHF_ = ibooker.book2D(
"L1ETMHFvsCaloETMHF",
"L1 E_{T}^{miss} vs Offline E_{T}^{miss} (HF);Offline E_{T}^{miss} (HF) (GeV);L1 E_{T}^{miss} (HF) (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1METvsPFMetNoMu_ = ibooker.book2D("L1METvsPFMetNoMu",
"L1 E_{T}^{miss} vs Offline E_{T}^{miss} (PFMetNoMu);Offline E_{T}^{miss} "
"(PFMetNoMu) (GeV);L1 E_{T}^{miss} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1MHTvsRecoMHT_ = ibooker.book2D("L1MHTvsRecoMHT",
"L1 MHT vs reco MHT;reco MHT (GeV);L1 MHT (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1METTvsCaloETT_ = ibooker.book2D("L1ETTvsCaloETT",
"L1 ETT vs calo ETT;calo ETT (GeV);L1 ETT (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1HTTvsRecoHTT_ =
ibooker.book2D("L1HTTvsRecoHTT",
"L1 Total H_{T} vs Offline Total H_{T};Offline Total H_{T} (GeV);L1 Total H_{T} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
dqmoffline::l1t::HistDefinition templatePHIvsPHI = histDefinitions_[PlotConfig::PHIvsPHI];
h_L1METPhivsCaloMETPhi_ =
ibooker.book2D("L1METPhivsCaloMETPhi",
"L1 E_{T}^{miss} #phi vs Offline E_{T}^{miss} #phi;Offline E_{T}^{miss} #phi;L1 E_{T}^{miss} #phi",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1ETMHFPhivsCaloETMHFPhi_ = ibooker.book2D(
"L1ETMHFPhivsCaloETMHFPhi",
"L1 E_{T}^{miss} #phi vs Offline E_{T}^{miss} (HF) #phi;Offline E_{T}^{miss} (HF) #phi;L1 E_{T}^{miss} #phi",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1METPhivsPFMetNoMuPhi_ = ibooker.book2D("L1METPhivsPFMetNoMuPhi",
"L1 E_{T}^{miss} #phi vs Offline E_{T}^{miss} (PFMetNoMu) #phi;Offline "
"E_{T}^{miss} (PFMetNoMu) #phi;L1 E_{T}^{miss} #phi",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1MHTPhivsRecoMHTPhi_ = ibooker.book2D("L1MHTPhivsRecoMHTPhi",
"L1 MHT #phi vs reco MHT #phi;reco MHT #phi;L1 MHT #phi",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
// energy sum resolutions
h_resolutionMET_ =
ibooker.book1D("resolutionMET",
"MET resolution; (L1 E_{T}^{miss} - Offline E_{T}^{miss})/Offline E_{T}^{miss}; events",
70,
-1.0,
2.5);
h_resolutionETMHF_ =
ibooker.book1D("resolutionETMHF",
"MET resolution (HF); (L1 E_{T}^{miss} - Offline E_{T}^{miss})/Offline E_{T}^{miss} (HF); events",
70,
-1.0,
2.5);
h_resolutionPFMetNoMu_ = ibooker.book1D(
"resolutionPFMetNoMu",
"PFMetNoMu resolution; (L1 E_{T}^{miss} - Offline E_{T}^{miss})/Offline E_{T}^{miss} (PFMetNoMu); events",
70,
-1.0,
2.5);
h_resolutionMHT_ =
ibooker.book1D("resolutionMHT", "MHT resolution; (L1 MHT - reco MHT)/reco MHT; events", 70, -1.0, 2.5);
h_resolutionETT_ =
ibooker.book1D("resolutionETT", "ETT resolution; (L1 ETT - calo ETT)/calo ETT; events", 70, -1.0, 2.5);
h_resolutionHTT_ =
ibooker.book1D("resolutionHTT",
"HTT resolution; (L1 Total H_{T} - Offline Total H_{T})/Offline Total H_{T}; events",
70,
-1.0,
2.5);
h_resolutionMETPhi_ = ibooker.book1D(
"resolutionMETPhi", "MET #phi resolution; (L1 E_{T}^{miss} #phi - reco MET #phi); events", 200, -1, 1);
h_resolutionETMHFPhi_ = ibooker.book1D(
"resolutionETMHFPhi", "MET #phi resolution (HF); (L1 E_{T}^{miss} #phi - reco MET #phi) (HF); events", 200, -1, 1);
h_resolutionPFMetNoMuPhi_ =
ibooker.book1D("resolutionPFMetNoMuPhi",
"MET #phi resolution (PFMetNoMu); (L1 E_{T}^{miss} #phi - reco MET #phi) (PFMetNoMu); events",
200,
-1,
1);
h_resolutionMHTPhi_ =
ibooker.book1D("resolutionMHTPhi", "MET #phi resolution; (L1 MHT #phi - reco MHT #phi); events", 200, -1, 1);
// energy sum turn ons
ibooker.setCurrentFolder(efficiencyFolderEtSum_);
std::vector<float> metBins(metEfficiencyBins_.begin(), metEfficiencyBins_.end());
std::vector<float> mhtBins(mhtEfficiencyBins_.begin(), mhtEfficiencyBins_.end());
std::vector<float> ettBins(ettEfficiencyBins_.begin(), ettEfficiencyBins_.end());
std::vector<float> httBins(httEfficiencyBins_.begin(), httEfficiencyBins_.end());
for (auto threshold : metEfficiencyThresholds_) {
std::string str_threshold = std::to_string(int(threshold));
h_efficiencyMET_pass_[threshold] = ibooker.book1D("efficiencyMET_threshold_" + str_threshold + "_Num",
"MET efficiency (numerator); Offline E_{T}^{miss} (GeV);",
metBins.size() - 1,
&(metBins[0]));
h_efficiencyMET_total_[threshold] = ibooker.book1D("efficiencyMET_threshold_" + str_threshold + "_Den",
"MET efficiency (denominator); Offline E_{T}^{miss} (GeV);",
metBins.size() - 1,
&(metBins[0]));
h_efficiencyETMHF_pass_[threshold] = ibooker.book1D("efficiencyETMHF_threshold_" + str_threshold + "_Num",
"MET efficiency (numerator); Offline E_{T}^{miss} (GeV) (HF);",
metBins.size() - 1,
&(metBins[0]));
h_efficiencyETMHF_total_[threshold] =
ibooker.book1D("efficiencyETMHF_threshold_" + str_threshold + "_Den",
"MET efficiency (denominator); Offline E_{T}^{miss} (GeV) (HF);",
metBins.size() - 1,
&(metBins[0]));
h_efficiencyPFMetNoMu_pass_[threshold] =
ibooker.book1D("efficiencyPFMetNoMu_threshold_" + str_threshold + "_Num",
"MET efficiency (numerator); Offline E_{T}^{miss} (GeV) (PFMetNoMu);",
metBins.size() - 1,
&(metBins[0]));
h_efficiencyPFMetNoMu_total_[threshold] =
ibooker.book1D("efficiencyPFMetNoMu_threshold_" + str_threshold + "_Den",
"MET efficiency (denominator); Offline E_{T}^{miss} (GeV) (PFMetNoMu);",
metBins.size() - 1,
&(metBins[0]));
}
for (auto threshold : mhtEfficiencyThresholds_) {
std::string str_threshold = std::to_string(int(threshold));
h_efficiencyMHT_pass_[threshold] = ibooker.book1D("efficiencyMHT_threshold_" + str_threshold + "_Num",
"MHT efficiency (numerator); Offline MHT (GeV);",
mhtBins.size() - 1,
&(mhtBins[0]));
h_efficiencyMHT_total_[threshold] = ibooker.book1D("efficiencyMHT_threshold_" + str_threshold + "_Den",
"MHT efficiency (denominator); Offline MHT (GeV);",
mhtBins.size() - 1,
&(mhtBins[0]));
}
for (auto threshold : ettEfficiencyThresholds_) {
std::string str_threshold = std::to_string(int(threshold));
h_efficiencyETT_pass_[threshold] = ibooker.book1D("efficiencyETT_threshold_" + str_threshold + "_Num",
"ETT efficiency (numerator); Offline ETT (GeV);",
ettBins.size() - 1,
&(ettBins[0]));
h_efficiencyETT_total_[threshold] = ibooker.book1D("efficiencyETT_threshold_" + str_threshold + "_Den",
"ETT efficiency (denominator); Offline ETT (GeV);",
ettBins.size() - 1,
&(ettBins[0]));
}
for (auto threshold : httEfficiencyThresholds_) {
std::string str_threshold = std::to_string(int(threshold));
h_efficiencyHTT_pass_[threshold] = ibooker.book1D("efficiencyHTT_threshold_" + str_threshold + "_Num",
"HTT efficiency (numerator); Offline Total H_{T} (GeV);",
httBins.size() - 1,
&(httBins[0]));
h_efficiencyHTT_total_[threshold] = ibooker.book1D("efficiencyHTT_threshold_" + str_threshold + "_Den",
"HTT efficiency (denominator); Offline Total H_{T} (GeV);",
httBins.size() - 1,
&(httBins[0]));
}
ibooker.cd();
}
void L1TStage2CaloLayer2Offline::bookJetHistos(DQMStore::IBooker& ibooker) {
ibooker.cd();
ibooker.setCurrentFolder(histFolderJet_);
// jets control plots (monitor beyond the limits of the 2D histograms)
h_controlPlots_[ControlPlots::L1JetET] =
ibooker.book1D("L1JetET", "L1 Jet E_{T}; L1 Jet E_{T} (GeV); events", 500, 0, 5e3);
h_controlPlots_[ControlPlots::OfflineJetET] =
ibooker.book1D("OfflineJetET", "Offline Jet E_{T}; Offline Jet E_{T} (GeV); events", 500, 0, 5e3);
// jet reco vs L1
dqmoffline::l1t::HistDefinition templateETvsET = histDefinitions_[PlotConfig::ETvsET];
h_L1JetETvsPFJetET_HB_ =
ibooker.book2D("L1JetETvsPFJetET_HB",
"L1 Jet E_{T} vs Offline Jet E_{T} (HB); Offline Jet E_{T} (GeV); L1 Jet E_{T} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1JetETvsPFJetET_HE_ =
ibooker.book2D("L1JetETvsPFJetET_HE",
"L1 Jet E_{T} vs Offline Jet E_{T} (HE); Offline Jet E_{T} (GeV); L1 Jet E_{T} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1JetETvsPFJetET_HF_ =
ibooker.book2D("L1JetETvsPFJetET_HF",
"L1 Jet E_{T} vs Offline Jet E_{T} (HF); Offline Jet E_{T} (GeV); L1 Jet E_{T} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
h_L1JetETvsPFJetET_HB_HE_ =
ibooker.book2D("L1JetETvsPFJetET_HB_HE",
"L1 Jet E_{T} vs Offline Jet E_{T} (HB+HE); Offline Jet E_{T} (GeV); L1 Jet E_{T} (GeV)",
templateETvsET.nbinsX,
&templateETvsET.binsX[0],
templateETvsET.nbinsY,
&templateETvsET.binsY[0]);
dqmoffline::l1t::HistDefinition templatePHIvsPHI = histDefinitions_[PlotConfig::PHIvsPHI];
h_L1JetPhivsPFJetPhi_HB_ =
ibooker.book2D("L1JetPhivsPFJetPhi_HB",
"#phi_{jet}^{L1} vs #phi_{jet}^{offline} (HB); #phi_{jet}^{offline}; #phi_{jet}^{L1}",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1JetPhivsPFJetPhi_HE_ =
ibooker.book2D("L1JetPhivsPFJetPhi_HE",
"#phi_{jet}^{L1} vs #phi_{jet}^{offline} (HE); #phi_{jet}^{offline}; #phi_{jet}^{L1}",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1JetPhivsPFJetPhi_HF_ =
ibooker.book2D("L1JetPhivsPFJetPhi_HF",
"#phi_{jet}^{L1} vs #phi_{jet}^{offline} (HF); #phi_{jet}^{offline}; #phi_{jet}^{L1}",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1JetPhivsPFJetPhi_HB_HE_ =
ibooker.book2D("L1JetPhivsPFJetPhi_HB_HE",
"#phi_{jet}^{L1} vs #phi_{jet}^{offline} (HB+HE); #phi_{jet}^{offline}; #phi_{jet}^{L1}",
templatePHIvsPHI.nbinsX,
templatePHIvsPHI.xmin,
templatePHIvsPHI.xmax,
templatePHIvsPHI.nbinsY,
templatePHIvsPHI.ymin,
templatePHIvsPHI.ymax);
h_L1JetEtavsPFJetEta_ = ibooker.book2D("L1JetEtavsPFJetEta_HB",
"L1 Jet #eta vs Offline Jet #eta; Offline Jet #eta; L1 Jet #eta",
100,
-10,
10,
100,
-10,
10);
// jet resolutions
h_resolutionJetET_HB_ =
ibooker.book1D("resolutionJetET_HB",
"jet ET resolution (HB); (L1 Jet E_{T} - Offline Jet E_{T})/Offline Jet E_{T}; events",
50,
-1,
1.5);
h_resolutionJetET_HE_ =
ibooker.book1D("resolutionJetET_HE",
"jet ET resolution (HE); (L1 Jet E_{T} - Offline Jet E_{T})/Offline Jet E_{T}; events",
50,
-1,
1.5);
h_resolutionJetET_HF_ =
ibooker.book1D("resolutionJetET_HF",
"jet ET resolution (HF); (L1 Jet E_{T} - Offline Jet E_{T})/Offline Jet E_{T}; events",
50,
-1,
1.5);
h_resolutionJetET_HB_HE_ =
ibooker.book1D("resolutionJetET_HB_HE",
"jet ET resolution (HB+HE); (L1 Jet E_{T} - Offline Jet E_{T})/Offline Jet E_{T}; events",
50,
-1,
1.5);
h_resolutionJetPhi_HB_ =
ibooker.book1D("resolutionJetPhi_HB",
"#phi_{jet} resolution (HB); (#phi_{jet}^{L1} - #phi_{jet}^{offline}); events",
120,
-0.3,
0.3);
h_resolutionJetPhi_HE_ = ibooker.book1D("resolutionJetPhi_HE",
"jet #phi resolution (HE); (#phi_{jet}^{L1} - #phi_{jet}^{offline}); events",
120,
-0.3,
0.3);
h_resolutionJetPhi_HF_ = ibooker.book1D("resolutionJetPhi_HF",
"jet #phi resolution (HF); (#phi_{jet}^{L1} - #phi_{jet}^{offline}); events",
120,
-0.3,
0.3);
h_resolutionJetPhi_HB_HE_ =
ibooker.book1D("resolutionJetPhi_HB_HE",
"jet #phi resolution (HB+HE); (#phi_{jet}^{L1} - #phi_{jet}^{offline}); events",
120,
-0.3,
0.3);
h_resolutionJetEta_ = ibooker.book1D(
"resolutionJetEta", "jet #eta resolution (HB); (L1 Jet #eta - Offline Jet #eta); events", 120, -0.3, 0.3);
// jet turn-ons
ibooker.setCurrentFolder(efficiencyFolderJet_);
std::vector<float> jetBins(jetEfficiencyBins_.begin(), jetEfficiencyBins_.end());
int nBins = jetBins.size() - 1;
float* jetBinArray = &(jetBins[0]);
for (auto threshold : jetEfficiencyThresholds_) {
std::string str_threshold = std::to_string(int(threshold));
h_efficiencyJetEt_HB_pass_[threshold] =
ibooker.book1D("efficiencyJetEt_HB_threshold_" + str_threshold + "_Num",
"jet efficiency (HB) (numerator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HE_pass_[threshold] =
ibooker.book1D("efficiencyJetEt_HE_threshold_" + str_threshold + "_Num",
"jet efficiency (HE) (numerator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HF_pass_[threshold] =
ibooker.book1D("efficiencyJetEt_HF_threshold_" + str_threshold + "_Num",
"jet efficiency (HF) (numerator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HB_HE_pass_[threshold] =
ibooker.book1D("efficiencyJetEt_HB_HE_threshold_" + str_threshold + "_Num",
"jet efficiency (HB+HE) (numerator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HB_total_[threshold] =
ibooker.book1D("efficiencyJetEt_HB_threshold_" + str_threshold + "_Den",
"jet efficiency (HB) (denominator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HE_total_[threshold] =
ibooker.book1D("efficiencyJetEt_HE_threshold_" + str_threshold + "_Den",
"jet efficiency (HE) (denominator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HF_total_[threshold] =
ibooker.book1D("efficiencyJetEt_HF_threshold_" + str_threshold + "_Den",
"jet efficiency (HF) (denominator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
h_efficiencyJetEt_HB_HE_total_[threshold] =
ibooker.book1D("efficiencyJetEt_HB_HE_threshold_" + str_threshold + "_Den",
"jet efficiency (HB+HE) (denominator); Offline Jet E_{T} (GeV); events",
nBins,
jetBinArray);
}
ibooker.cd();
}
bool L1TStage2CaloLayer2Offline::doesNotOverlapWithHLTObjects(const l1t::Jet& jet) const {
// get HLT objects of fired triggers
using namespace dqmoffline::l1t;
std::vector<bool> results = getTriggerResults(triggerIndices_, triggerResults_);
std::vector<unsigned int> firedTriggers = getFiredTriggerIndices(triggerIndices_, results);
std::vector<edm::InputTag> hltFilters = getHLTFilters(firedTriggers, hltConfig_, triggerProcess_);
const trigger::TriggerObjectCollection hltObjects = getTriggerObjects(hltFilters, triggerEvent_);
// only take objects with et() > 27 GeV
trigger::TriggerObjectCollection filteredHltObjects;
std::copy_if(hltObjects.begin(), hltObjects.end(), std::back_inserter(filteredHltObjects), [](auto obj) {
return obj.et() > 27;
});
double l1Eta = jet.eta();
double l1Phi = jet.phi();
const trigger::TriggerObjectCollection matchedObjects = getMatchedTriggerObjects(l1Eta, l1Phi, 0.3, hltObjects);
return matchedObjects.empty();
}
void L1TStage2CaloLayer2Offline::normalise2DHistogramsToBinArea() {
std::vector<MonitorElement*> monElementstoNormalize = {
h_L1METvsCaloMET_, h_L1ETMHFvsCaloETMHF_, h_L1METvsPFMetNoMu_, h_L1MHTvsRecoMHT_,
h_L1METTvsCaloETT_, h_L1HTTvsRecoHTT_, h_L1METPhivsCaloMETPhi_, h_L1ETMHFPhivsCaloETMHFPhi_,
h_L1METPhivsPFMetNoMuPhi_, h_L1MHTPhivsRecoMHTPhi_, h_L1JetETvsPFJetET_HB_, h_L1JetETvsPFJetET_HE_,
h_L1JetETvsPFJetET_HF_, h_L1JetETvsPFJetET_HB_HE_, h_L1JetPhivsPFJetPhi_HB_, h_L1JetPhivsPFJetPhi_HE_,
h_L1JetPhivsPFJetPhi_HF_, h_L1JetPhivsPFJetPhi_HB_HE_, h_L1JetEtavsPFJetEta_,
};
for (auto mon : monElementstoNormalize) {
if (mon != nullptr) {
auto h = mon->getTH2F();
if (h != nullptr) {
h->Scale(1, "width");
}
}
}
}
//define this as a plug-in
DEFINE_FWK_MODULE(L1TStage2CaloLayer2Offline);
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