#include <HLTTauDQMPathPlotter.h>

Inheritance diagram for HLTTauDQMPathPlotter:

Public Types
typedef std::tuple < std::string, size_t >	FilterIndex

Public Member Functions
void	analyze (const edm::TriggerResults &triggerResults, const trigger::TriggerEvent &triggerEvent, const HLTTauDQMOfflineObjects &refCollection)

void	bookHistograms (DQMStore::IBooker &iBooker)

const HLTTauDQMPath *	getPathObject () const

	HLTTauDQMPathPlotter (const std::string &pathName, const HLTConfigProvider &HLTCP, bool doRefAnalysis, const std::string &dqmBaseFolder, const std::string &hltProcess, int ptbins, int etabins, int phibins, double ptmax, double highptmax, double l1MatchDr, double hltMatchDr)

	~HLTTauDQMPathPlotter ()

Private Attributes
const bool	doRefAnalysis_

const int	etabins_

MonitorElement *	hAcceptedEvents_

const double	highptmax_

MonitorElement *	hL2TrigElectronEtaEffDenom_

MonitorElement *	hL2TrigElectronEtaEffNum_

MonitorElement *	hL2TrigElectronEtEffDenom_

MonitorElement *	hL2TrigElectronEtEffNum_

MonitorElement *	hL2TrigElectronPhiEffDenom_

MonitorElement *	hL2TrigElectronPhiEffNum_

MonitorElement *	hL2TrigMETEtEffDenom_

MonitorElement *	hL2TrigMETEtEffNum_

MonitorElement *	hL2TrigMuonEtaEffDenom_

MonitorElement *	hL2TrigMuonEtaEffNum_

MonitorElement *	hL2TrigMuonEtEffDenom_

MonitorElement *	hL2TrigMuonEtEffNum_

MonitorElement *	hL2TrigMuonPhiEffDenom_

MonitorElement *	hL2TrigMuonPhiEffNum_

MonitorElement *	hL2TrigTauEtaEffDenom_

MonitorElement *	hL2TrigTauEtaEffNum_

MonitorElement *	hL2TrigTauEtEffDenom_

MonitorElement *	hL2TrigTauEtEffNum_

MonitorElement *	hL2TrigTauHighEtEffDenom_

MonitorElement *	hL2TrigTauHighEtEffNum_

MonitorElement *	hL2TrigTauPhiEffDenom_

MonitorElement *	hL2TrigTauPhiEffNum_

MonitorElement *	hL3TrigElectronEtaEffDenom_

MonitorElement *	hL3TrigElectronEtaEffNum_

MonitorElement *	hL3TrigElectronEtEffDenom_

MonitorElement *	hL3TrigElectronEtEffNum_

MonitorElement *	hL3TrigElectronPhiEffDenom_

MonitorElement *	hL3TrigElectronPhiEffNum_

MonitorElement *	hL3TrigMuonEtaEffDenom_

MonitorElement *	hL3TrigMuonEtaEffNum_

MonitorElement *	hL3TrigMuonEtEffDenom_

MonitorElement *	hL3TrigMuonEtEffNum_

MonitorElement *	hL3TrigMuonPhiEffDenom_

MonitorElement *	hL3TrigMuonPhiEffNum_

MonitorElement *	hL3TrigTauEtaEffDenom_

MonitorElement *	hL3TrigTauEtaEffNum_

MonitorElement *	hL3TrigTauEtEffDenom_

MonitorElement *	hL3TrigTauEtEffNum_

MonitorElement *	hL3TrigTauHighEtEffDenom_

MonitorElement *	hL3TrigTauHighEtEffNum_

MonitorElement *	hL3TrigTauPhiEffDenom_

MonitorElement *	hL3TrigTauPhiEffNum_

const double	hltMatchDr_

HLTTauDQMPath	hltPath_

MonitorElement *	hMass_

MonitorElement *	hTrigElectronEt_

MonitorElement *	hTrigElectronEta_

MonitorElement *	hTrigElectronPhi_

MonitorElement *	hTrigMETEt_

MonitorElement *	hTrigMETPhi_

MonitorElement *	hTrigMuonEt_

MonitorElement *	hTrigMuonEta_

MonitorElement *	hTrigMuonPhi_

MonitorElement *	hTrigTauEt_

MonitorElement *	hTrigTauEta_

MonitorElement *	hTrigTauPhi_

const double	l1MatchDr_

const int	phibins_

const int	ptbins_

const double	ptmax_

Private Attributes inherited from HLTTauDQMPlotter
bool	configValid_

std::string	dqmFolder_

std::string	dqmFullFolder_

Additional Inherited Members
Private Member Functions inherited from HLTTauDQMPlotter
	HLTTauDQMPlotter (const edm::ParameterSet &pset, const std::string &dqmBaseFolder)

	HLTTauDQMPlotter (const std::string &dqmFolder, const std::string &dqmBaseFolder)

bool	isValid () const

	~HLTTauDQMPlotter ()

std::pair< bool, LV >	match (const LV &, const LVColl &, double)

const std::string &	triggerTag () const

Detailed Description

Definition at line 21 of file HLTTauDQMPathPlotter.h.

Member Typedef Documentation

typedef std::tuple<std::string, size_t> HLTTauDQMPathPlotter::FilterIndex

Definition at line 38 of file HLTTauDQMPathPlotter.h.

Constructor & Destructor Documentation

HLTTauDQMPathPlotter::HLTTauDQMPathPlotter	(	const std::string &	pathName,
		const HLTConfigProvider &	HLTCP,
		bool	doRefAnalysis,
		const std::string &	dqmBaseFolder,
		const std::string &	hltProcess,
		int	ptbins,
		int	etabins,
		int	phibins,
		double	ptmax,
		double	highptmax,
		double	l1MatchDr,
		double	hltMatchDr
	)

Definition at line 15 of file HLTTauDQMPathPlotter.cc.

References HLTTauDQMPlotter::configValid_, hltPath_, and HLTTauDQMPath::isValid().

                                                                                :
   HLTTauDQMPlotter(stripVersion(pathName), dqmBaseFolder),
   ptbins_(ptbins),
   etabins_(etabins),
   phibins_(phibins),
   ptmax_(ptmax),
   highptmax_(highptmax),
   l1MatchDr_(l1MatchDr),
   hltMatchDr_(hltMatchDr),
   doRefAnalysis_(doRefAnalysis),
   hltPath_(pathName, hltProcess, doRefAnalysis_, HLTCP)
 {
   configValid_ = configValid_ && hltPath_.isValid();
 }

HLTTauDQMPathPlotter::~HLTTauDQMPathPlotter ( )

Definition at line 165 of file HLTTauDQMPathPlotter.cc.

165 {}

Member Function Documentation

void HLTTauDQMPathPlotter::analyze	(	const edm::TriggerResults &	triggerResults,
		const trigger::TriggerEvent &	triggerEvent,
		const HLTTauDQMOfflineObjects &	refCollection
	)

Definition at line 167 of file HLTTauDQMPathPlotter.cc.

                                                                                                                                                                  {
 
   std::vector<HLTTauDQMPath::Object> triggerObjs;
   std::vector<HLTTauDQMPath::Object> matchedTriggerObjs;
   HLTTauDQMOfflineObjects matchedOfflineObjs;
 
   // Events per filter
   const int lastPassedFilter = hltPath_.lastPassedFilter(triggerResults);
   int lastMatchedFilter = -1;
   int lastMatchedMETFilter = -1;
   int lastMatchedElectronFilter = -1;
   int lastMatchedMuonFilter = -1;
   int lastMatchedTauFilter = -1;
   int firstMatchedMETFilter = -1;
 
   if(doRefAnalysis_) {
     double matchDr = hltPath_.isFirstFilterL1Seed() ? l1MatchDr_ : hltMatchDr_;
     for(int i=0; i<=lastPassedFilter; ++i) {
       triggerObjs.clear();
       matchedTriggerObjs.clear();
       matchedOfflineObjs.clear();
       hltPath_.getFilterObjects(triggerEvent, i, triggerObjs);
       //std::cout << "Filter name " << hltPath_.getFilterName(i) << " nobjs " << triggerObjs.size() << " " << "ref size " << refCollection.taus.size() << std::endl;
       bool matched = hltPath_.offlineMatching(i, triggerObjs, refCollection, matchDr, matchedTriggerObjs, matchedOfflineObjs);
       //std::cout << "  offline matching: " << matched << " " << matchedTriggerObjs.size() << std::endl;
       matchDr = hltMatchDr_;
       if(!matched)
         break;
 
       hAcceptedEvents_->Fill(i+0.5);
       lastMatchedFilter = i;
       if(hltPath_.getFilterName(i).find("hltMET") < hltPath_.getFilterName(i).length())      lastMatchedMETFilter = i;
       if(hltPath_.getFilterType(i) == "HLTMuonL3PreFilter" || hltPath_.getFilterType(i) == "HLTMuonIsoFilter") lastMatchedMuonFilter = i;
       if(hltPath_.getFilterName(i).find("hltEle") < hltPath_.getFilterName(i).length()) lastMatchedElectronFilter = i;
       if(hltPath_.getFilterName(i).find("hltPFTau") < hltPath_.getFilterName(i).length() || 
          hltPath_.getFilterName(i).find("hltDoublePFTau") < hltPath_.getFilterName(i).length())    lastMatchedTauFilter = i;
       if(firstMatchedMETFilter < 0 && hltPath_.getFilterName(i).find("hltMET") < hltPath_.getFilterName(i).length()) firstMatchedMETFilter = i;
     }
   }
   else {
     for(int i=0; i<=lastPassedFilter; ++i) {
       hAcceptedEvents_->Fill(i+0.5);
     }
   }
 
   // Efficiency plots
   if(doRefAnalysis_ && lastMatchedFilter >= 0) {
     // L2 taus
     if(hltPath_.hasL2Taus()) {
       // Denominators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastFilterBeforeL2TauIndex()) {
         for(const LV& tau: refCollection.taus) {
           hL2TrigTauEtEffDenom_->Fill(tau.pt());
           hL2TrigTauHighEtEffDenom_->Fill(tau.pt());
           hL2TrigTauEtaEffDenom_->Fill(tau.eta());
           hL2TrigTauPhiEffDenom_->Fill(tau.phi());
         }
       }
 
       // Numerators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastL2TauFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear();
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL2TauFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL2TauFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
         if(matched) {
           for(const LV& tau: matchedOfflineObjs.taus) {
             hL2TrigTauEtEffNum_->Fill(tau.pt());
             hL2TrigTauHighEtEffNum_->Fill(tau.pt());
             hL2TrigTauEtaEffNum_->Fill(tau.eta());
             hL2TrigTauPhiEffNum_->Fill(tau.phi());
           }
         }
       }
     }
 
     // L3 taus
     if(hltPath_.hasL3Taus()) {
       // Denominators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastFilterBeforeL3TauIndex()) {
         for(const LV& tau: refCollection.taus) {
           hL3TrigTauEtEffDenom_->Fill(tau.pt());
           hL3TrigTauHighEtEffDenom_->Fill(tau.pt());
           hL3TrigTauEtaEffDenom_->Fill(tau.eta());
           hL3TrigTauPhiEffDenom_->Fill(tau.phi());
         }
       }
 
       // Numerators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastL3TauFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear();
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL3TauFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL3TauFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
         if(matched) {
           for(const LV& tau: matchedOfflineObjs.taus) {
             hL3TrigTauEtEffNum_->Fill(tau.pt());
             hL3TrigTauHighEtEffNum_->Fill(tau.pt());
             hL3TrigTauEtaEffNum_->Fill(tau.eta());
             hL3TrigTauPhiEffNum_->Fill(tau.phi());
           }
         }
       }
     }
 
     // L2 Electrons
     if(hltPath_.hasL2Electrons()) {
       // Denominators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastFilterBeforeL2ElectronIndex()) {
         for(const LV& electron: refCollection.electrons) {
           hL2TrigElectronEtEffDenom_->Fill(electron.pt());
           hL2TrigElectronEtaEffDenom_->Fill(electron.eta());
           hL2TrigElectronPhiEffDenom_->Fill(electron.phi());
         }
       }                                                                                                                                                                                                                                  
 
       // Numerators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastL2ElectronFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear();
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL2ElectronFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL2ElectronFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
         if(matched) {
           for(const LV& electron: matchedOfflineObjs.electrons) {
             hL2TrigElectronEtEffNum_->Fill(electron.pt());
             hL2TrigElectronEtaEffNum_->Fill(electron.eta());
             hL2TrigElectronPhiEffNum_->Fill(electron.phi());
           }
         }
       }
     }
 
     // L3 electron
     if(hltPath_.hasL3Electrons()) {
       // Denominators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastFilterBeforeL3ElectronIndex()) {
         for(const LV& electron: refCollection.electrons) {
           hL3TrigElectronEtEffDenom_->Fill(electron.pt());
           hL3TrigElectronEtaEffDenom_->Fill(electron.eta());  
           hL3TrigElectronPhiEffDenom_->Fill(electron.phi());
         }
       }  
        
       // Numerators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastL3ElectronFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear();
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL3ElectronFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL3ElectronFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
         if(matched) {
           for(const LV& electron: matchedOfflineObjs.electrons) {
             hL3TrigElectronEtEffNum_->Fill(electron.pt());
             hL3TrigElectronEtaEffNum_->Fill(electron.eta());  
             hL3TrigElectronPhiEffNum_->Fill(electron.phi());
           }
         }  
       }  
     }
 
     // L2 Muons
     if(hltPath_.hasL2Muons()) {
       // Denominators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastFilterBeforeL2MuonIndex()) {
         for(const LV& muon: refCollection.muons) {                                             
           hL2TrigMuonEtEffDenom_->Fill(muon.pt());                                             
           hL2TrigMuonEtaEffDenom_->Fill(muon.eta());
           hL2TrigMuonPhiEffDenom_->Fill(muon.phi());
         }                                             
       }
 
       // Numerators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastL2MuonFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear();
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL2MuonFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL2MuonFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
         if(matched) {
           for(const LV& muon: matchedOfflineObjs.muons) {
             hL2TrigMuonEtEffNum_->Fill(muon.pt());
             hL2TrigMuonEtaEffNum_->Fill(muon.eta());
             hL2TrigMuonPhiEffNum_->Fill(muon.phi());
           }
         }
       }
     }
  
     // L3 muon
     if(hltPath_.hasL3Muons()) {   
       // Denominators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastFilterBeforeL3MuonIndex()) {   
         for(const LV& muon: refCollection.muons) {
           hL3TrigMuonEtEffDenom_->Fill(muon.pt());   
           hL3TrigMuonEtaEffDenom_->Fill(muon.eta());
           hL3TrigMuonPhiEffDenom_->Fill(muon.phi());
         }
       }  
           
       // Numerators
       if(static_cast<size_t>(lastMatchedFilter) >= hltPath_.getLastL3MuonFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear();
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL3MuonFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL3MuonFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
         if(matched) {
           for(const LV& muon: matchedOfflineObjs.muons) {
             hL3TrigMuonEtEffNum_->Fill(muon.pt());
             hL3TrigMuonEtaEffNum_->Fill(muon.eta());
             hL3TrigMuonPhiEffNum_->Fill(muon.phi());   
           }
         }  
       }    
     }
 
     // L2 CaloMET
     if(hltPath_.hasL2CaloMET()) {
       // Denominators
       if(static_cast<size_t>(firstMatchedMETFilter) >= hltPath_.getFirstFilterBeforeL2CaloMETIndex()) {
         hL2TrigMETEtEffDenom_->Fill(refCollection.met[0].pt());
       }
 
       // Numerators
       if(static_cast<size_t>(lastMatchedMETFilter) >= hltPath_.getLastL2CaloMETFilterIndex()) {
         triggerObjs.clear();
         matchedTriggerObjs.clear(); 
         matchedOfflineObjs.clear();
         hltPath_.getFilterObjects(triggerEvent, hltPath_.getLastL2CaloMETFilterIndex(), triggerObjs);
         bool matched = hltPath_.offlineMatching(hltPath_.getLastL2CaloMETFilterIndex(), triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
     if(matched) {
           hL2TrigMETEtEffNum_->Fill(matchedOfflineObjs.met[0].pt());
         }
       }
     }
   }
 
   if(hltPath_.fired(triggerResults)) {
     triggerObjs.clear();
     matchedTriggerObjs.clear();
     matchedOfflineObjs.clear();
 
     if(lastMatchedMETFilter >= 0) hltPath_.getFilterObjects(triggerEvent, lastMatchedMETFilter, triggerObjs);
     if(lastMatchedMuonFilter >= 0) hltPath_.getFilterObjects(triggerEvent, lastMatchedMuonFilter, triggerObjs);
     if(lastMatchedElectronFilter >= 0) hltPath_.getFilterObjects(triggerEvent, lastMatchedElectronFilter, triggerObjs);
 
     if(lastMatchedTauFilter >= 0) hltPath_.getFilterObjects(triggerEvent, lastMatchedTauFilter, triggerObjs);    
 
     if(doRefAnalysis_) {
       bool matched = hltPath_.offlineMatching(lastPassedFilter, triggerObjs, refCollection, hltMatchDr_, matchedTriggerObjs, matchedOfflineObjs);
       if(matched) {
         // Di-object invariant mass
         if(hMass_) {
           const int ntaus = hltPath_.getFilterNTaus(lastPassedFilter);
           if(ntaus == 2 && hltPath_.getFilterNElectrons(lastMatchedElectronFilter) == 0 && hltPath_.getFilterNMuons(lastMatchedMuonFilter) == 0) {
             // Di-tau (matchedOfflineObjs are already sorted)
             hMass_->Fill( (matchedOfflineObjs.taus[0]+matchedOfflineObjs.taus[1]).M() );
           }
           // Electron+tau
           else if(ntaus == 1 && hltPath_.getFilterNElectrons(lastPassedFilter) == 1) {
             hMass_->Fill( (matchedOfflineObjs.taus[0]+matchedOfflineObjs.electrons[0]).M() );
           }
           // Muon+tau
           else if(ntaus == 1 && hltPath_.getFilterNMuons(lastPassedFilter) == 1) {
             hMass_->Fill( (matchedOfflineObjs.taus[0]+matchedOfflineObjs.muons[0]).M() );
           }
       // Tau+MET
           if(hltPath_.getFilterNTaus(lastPassedFilter) == 1 && hltPath_.getFilterMET(lastMatchedMETFilter) == 1) {
         double taupt  = matchedOfflineObjs.taus[0].Pt();
         double tauphi = matchedOfflineObjs.taus[0].Phi();
         double met    = matchedOfflineObjs.met[0].Pt();
             double metphi = matchedOfflineObjs.met[0].Phi();
         double mT = sqrt( 2 * taupt * met * (1-cos(tauphi-metphi)) );
 
             hMass_->Fill( mT );
           }
         }
       }
     }
 
     // Triggered object kinematics
     for(const HLTTauDQMPath::Object& obj: triggerObjs) {
       if(obj.id == trigger::TriggerTau){
     hTrigTauEt_->Fill(obj.object.pt());
     hTrigTauEta_->Fill(obj.object.eta());
     hTrigTauPhi_->Fill(obj.object.phi());
       }
       if(obj.id == trigger::TriggerElectron || obj.id == trigger::TriggerPhoton){
         hTrigElectronEt_->Fill(obj.object.pt());
         hTrigElectronEta_->Fill(obj.object.eta());
         hTrigElectronPhi_->Fill(obj.object.phi());
       }
       if(obj.id == trigger::TriggerMuon){   
         hTrigMuonEt_->Fill(obj.object.pt());   
         hTrigMuonEta_->Fill(obj.object.eta());
         hTrigMuonPhi_->Fill(obj.object.phi());
       }
       if(obj.id == trigger::TriggerMET){
         hTrigMETEt_->Fill(obj.object.pt());
         hTrigMETPhi_->Fill(obj.object.phi());
       }
     }
   }
 }

void HLTTauDQMPathPlotter::bookHistograms ( DQMStore::IBooker & iBooker )

Definition at line 35 of file HLTTauDQMPathPlotter.cc.

                                                                   {
   if(!isValid())
     return;
 
   // Book histograms
   iBooker.setCurrentFolder(triggerTag());
 
   hAcceptedEvents_ = iBooker.book1D("EventsPerFilter", "Accepted Events per filter;;entries", hltPath_.filtersSize(), 0, hltPath_.filtersSize());
   for(size_t i=0; i<hltPath_.filtersSize(); ++i) {
     hAcceptedEvents_->setBinLabel(i+1, hltPath_.getFilterName(i));
   }
 
   // Efficiency helpers
   if(doRefAnalysis_) {
     iBooker.setCurrentFolder(triggerTag()+"/helpers");
     if(hltPath_.hasL2Taus()) {
       hL2TrigTauEtEffNum_    = iBooker.book1D("L2TrigTauEtEffNum",    "L2 #tau p_{T} efficiency;Ref #tau p_{T};entries", ptbins_, 0, ptmax_);
       hL2TrigTauEtEffDenom_  = iBooker.book1D("L2TrigTauEtEffDenom",  "L2 #tau p_{T} denominator;Ref #tau p_{T};Efficiency", ptbins_, 0, ptmax_);
       hL2TrigTauEtaEffNum_   = iBooker.book1D("L2TrigTauEtaEffNum",   "L2 #tau #eta efficiency;Ref #tau #eta;entries", etabins_, -2.5, 2.5);
       hL2TrigTauEtaEffDenom_ = iBooker.book1D("L2TrigTauEtaEffDenom", "L2 #tau #eta denominator;Ref #tau #eta;Efficiency", etabins_, -2.5, 2.5);
       hL2TrigTauPhiEffNum_   = iBooker.book1D("L2TrigTauPhiEffNum",   "L2 #tau #phi efficiency;Ref #tau #phi;entries", phibins_, -3.2, 3.2);
       hL2TrigTauPhiEffDenom_ = iBooker.book1D("L2TrigTauPhiEffDenom", "L2 #tau #phi denominator;Ref #tau #phi;Efficiency", phibins_, -3.2, 3.2);
       hL2TrigTauHighEtEffNum_   = iBooker.book1D("L2TrigTauHighEtEffNum",    "L2 #tau p_{T} efficiency (high p_{T});Ref #tau p_{T};entries", ptbins_, 0, highptmax_);
       hL2TrigTauHighEtEffDenom_ = iBooker.book1D("L2TrigTauHighEtEffDenom",  "L2 #tau p_{T} denominator (high p_{T});Ref #tau p_{T};Efficiency", ptbins_, 0, highptmax_);
     }
 
     if(hltPath_.hasL3Taus()) {
       hL3TrigTauEtEffNum_    = iBooker.book1D("L3TrigTauEtEffNum",    "L3 #tau p_{T} efficiency;Ref #tau p_{T};entries", ptbins_, 0, ptmax_);
       hL3TrigTauEtEffDenom_  = iBooker.book1D("L3TrigTauEtEffDenom",  "L3 #tau p_{T} denominator;Ref #tau p_{T};Efficiency", ptbins_, 0, ptmax_);
       hL3TrigTauEtaEffNum_   = iBooker.book1D("L3TrigTauEtaEffNum",   "L3 #tau #eta efficiency;Ref #tau #eta;entries", etabins_, -2.5, 2.5);
       hL3TrigTauEtaEffDenom_ = iBooker.book1D("L3TrigTauEtaEffDenom", "L3 #tau #eta denominator;Ref #tau #eta;Efficiency", etabins_, -2.5, 2.5);
       hL3TrigTauPhiEffNum_   = iBooker.book1D("L3TrigTauPhiEffNum",   "L3 #tau #phi efficiency;Ref #tau #phi;entries", phibins_, -3.2, 3.2);
       hL3TrigTauPhiEffDenom_ = iBooker.book1D("L3TrigTauPhiEffDenom", "L3 #tau #phi denominator;Ref #tau #phi;Efficiency", phibins_, -3.2, 3.2);
       hL3TrigTauHighEtEffNum_    = iBooker.book1D("L3TrigTauHighEtEffNum",    "L3 #tau p_{T} efficiency (high p_{T});Ref #tau p_{T};entries", ptbins_, 0, highptmax_);
       hL3TrigTauHighEtEffDenom_  = iBooker.book1D("L3TrigTauHighEtEffDenom",  "L3 #tau p_{T} denominator (high p_{T});Ref #tau p_{T};Efficiency", ptbins_, 0, highptmax_);
     }
 
     if(hltPath_.hasL2Electrons()) {
       hL2TrigElectronEtEffNum_    = iBooker.book1D("L2TrigElectronEtEffNum",    "L2 electron p_{T} efficiency;Ref electron p_{T};entries", ptbins_, 0, ptmax_);
       hL2TrigElectronEtEffDenom_  = iBooker.book1D("L2TrigElectronEtEffDenom",  "L2 electron p_{T} denominator;Ref electron p_{T};Efficiency", ptbins_, 0, ptmax_);
       hL2TrigElectronEtaEffNum_   = iBooker.book1D("L2TrigElectronEtaEffNum",   "L2 electron #eta efficiency;Ref electron #eta;entries", etabins_, -2.5, 2.5);
       hL2TrigElectronEtaEffDenom_ = iBooker.book1D("L2TrigElectronEtaEffDenom", "L2 electron #eta denominator;Ref electron #eta;Efficiency", etabins_, -2.5, 2.5);
       hL2TrigElectronPhiEffNum_   = iBooker.book1D("L2TrigElectronPhiEffNum",   "L2 electron #phi efficiency;Ref electron #phi;entries", phibins_, -3.2, 3.2);
       hL2TrigElectronPhiEffDenom_ = iBooker.book1D("L2TrigElectronPhiEffDenom", "L2 electron #phi denominator;Ref electron #phi;Efficiency", phibins_, -3.2, 3.2);
     }
   
     if(hltPath_.hasL3Electrons()) {
       hL3TrigElectronEtEffNum_    = iBooker.book1D("L3TrigElectronEtEffNum",    "L3 electron p_{T} efficiency;Ref electron p_{T};entries", ptbins_, 0, ptmax_);
       hL3TrigElectronEtEffDenom_  = iBooker.book1D("L3TrigElectronEtEffDenom",  "L3 electron p_{T} denominator;Ref electron p_{T};Efficiency", ptbins_, 0, ptmax_);
       hL3TrigElectronEtaEffNum_   = iBooker.book1D("L3TrigElectronEtaEffNum",   "L3 electron #eta efficiency;Ref electron #eta;entries", etabins_, -2.5, 2.5);
       hL3TrigElectronEtaEffDenom_ = iBooker.book1D("L3TrigElectronEtaEffDenom", "L3 electron #eta denominator;Ref electron #eta;Efficiency", etabins_, -2.5, 2.5);
       hL3TrigElectronPhiEffNum_   = iBooker.book1D("L3TrigElectronPhiEffNum",   "L3 electron #phi efficiency;Ref electron #phi;entries", phibins_, -3.2, 3.2);
       hL3TrigElectronPhiEffDenom_ = iBooker.book1D("L3TrigElectronPhiEffDenom", "L3 electron #phi denominator;Ref electron #phi;Efficiency", phibins_, -3.2, 3.2);
     }
 
     if(hltPath_.hasL2Muons()) {                                                                                                                                 
       hL2TrigMuonEtEffNum_    = iBooker.book1D("L2TrigMuonEtEffNum",    "L2 muon p_{T} efficiency;Ref muon p_{T};entries", ptbins_, 0, ptmax_);     
       hL2TrigMuonEtEffDenom_  = iBooker.book1D("L2TrigMuonEtEffDenom",  "L2 muon p_{T} denominator;Ref muon p_{T};Efficiency", ptbins_, 0, ptmax_); 
       hL2TrigMuonEtaEffNum_   = iBooker.book1D("L2TrigMuonEtaEffNum",   "L2 muon #eta efficiency;Ref muon #eta;entries", etabins_, -2.5, 2.5);
       hL2TrigMuonEtaEffDenom_ = iBooker.book1D("L2TrigMuonEtaEffDenom", "L2 muon #eta denominator;Ref muon #eta;Efficiency", etabins_, -2.5, 2.5);
       hL2TrigMuonPhiEffNum_   = iBooker.book1D("L2TrigMuonPhiEffNum",   "L2 muon #phi efficiency;Ref muon #phi;entries", phibins_, -3.2, 3.2);
       hL2TrigMuonPhiEffDenom_ = iBooker.book1D("L2TrigMuonPhiEffDenom", "L2 muon #phi denominator;Ref muon #phi;Efficiency", phibins_, -3.2, 3.2);
     }
                                                                                                                                                                     
     if(hltPath_.hasL3Muons()) {
       hL3TrigMuonEtEffNum_    = iBooker.book1D("L3TrigMuonEtEffNum",    "L3 muon p_{T} efficiency;Ref muon p_{T};entries", ptbins_, 0, ptmax_);     
       hL3TrigMuonEtEffDenom_  = iBooker.book1D("L3TrigMuonEtEffDenom",  "L3 muon p_{T} denominator;Ref muon p_{T};Efficiency", ptbins_, 0, ptmax_); 
       hL3TrigMuonEtaEffNum_   = iBooker.book1D("L3TrigMuonEtaEffNum",   "L3 muon #eta efficiency;Ref muon #eta;entries", etabins_, -2.5, 2.5);
       hL3TrigMuonEtaEffDenom_ = iBooker.book1D("L3TrigMuonEtaEffDenom", "L3 muon #eta denominator;Ref muon #eta;Efficiency", etabins_, -2.5, 2.5);
       hL3TrigMuonPhiEffNum_   = iBooker.book1D("L3TrigMuonPhiEffNum",   "L3 muon #phi efficiency;Ref muon #phi;entries", phibins_, -3.2, 3.2);
       hL3TrigMuonPhiEffDenom_ = iBooker.book1D("L3TrigMuonPhiEffDenom", "L3 muon #phi denominator;Ref muon #phi;Efficiency", phibins_, -3.2, 3.2);
     }
 
     if(hltPath_.hasL2CaloMET()) {
       hL2TrigMETEtEffNum_    = iBooker.book1D("L2TrigMETEtEffNum",    "L2 MET efficiency;Ref MET;entries", ptbins_, 0, ptmax_);
       hL2TrigMETEtEffDenom_  = iBooker.book1D("L2TrigMETEtEffDenom",  "L2 MET denominator;Ref MET;Efficiency", ptbins_, 0, ptmax_);
     }
 
     iBooker.setCurrentFolder(triggerTag());
   }
 
   // Book di-object invariant mass histogram only for mu+tau, ele+tau, and di-tau paths
   hMass_ = nullptr;
   if(doRefAnalysis_) {
     const int lastFilter = hltPath_.filtersSize()-1;
     const int ntaus = hltPath_.getFilterNTaus(lastFilter);
     const int neles = hltPath_.getFilterNElectrons(hltPath_.getLastL3ElectronFilterIndex());
     const int nmus = hltPath_.getFilterNMuons(hltPath_.getLastL3MuonFilterIndex());
 
     int nmet = 0;
     int lastMatchedMETFilter = -1;
     for(size_t i = 0; i < hltPath_.filtersSize(); ++i){
         if(hltPath_.getFilterName(i).find("hltMET") < hltPath_.getFilterName(i).length()) lastMatchedMETFilter = i;
     }
     if(lastMatchedMETFilter >= 0) nmet = hltPath_.getFilterMET(lastMatchedMETFilter);
     auto create = [&](const std::string& name) {
       if(name == "tau-met"){
     this->hMass_ = iBooker.book1D("ReferenceMass", "Transverse mass of reference "+name+";Reference transverse mass;entries", 100, 0, 500);
       }else{
     this->hMass_ = iBooker.book1D("ReferenceMass", "Invariant mass of reference "+name+";Reference invariant mass;entries", 100, 0, 500);
       }
     };
     LogDebug("HLTTauDQMOffline") << "Path " << hltPath_.getPathName() << " number of taus " << ntaus << " electrons " << neles << " muons " << nmus;
     if(ntaus > 0) {
       hTrigTauEt_ = iBooker.book1D("TrigTauEt",   "Triggered #tau p_{T};#tau p_{T};entries", ptbins_,     0, ptmax_);
       hTrigTauEta_ = iBooker.book1D("TrigTauEta", "Triggered #tau #eta;#tau #eta;entries",  etabins_, -2.5, 2.5);
       hTrigTauPhi_ = iBooker.book1D("TrigTauPhi", "Triggered #tau #phi;#tau #phi;entries",  phibins_, -3.2, 3.2);
     }
     if(neles > 0) {
       hTrigElectronEt_ = iBooker.book1D("TrigElectronEt",   "Triggered electron p_{T};electron p_{T};entries", ptbins_,     0, ptmax_);
       hTrigElectronEta_ = iBooker.book1D("TrigElectronEta", "Triggered electron #eta;electron #eta;entries",  etabins_, -2.5, 2.5);
       hTrigElectronPhi_ = iBooker.book1D("TrigElectronPhi", "Triggered electron #phi;electron #phi;entries",  phibins_, -3.2, 3.2);
     }
     if(nmus > 0) {   
       hTrigMuonEt_ = iBooker.book1D("TrigMuonEt",   "Triggered muon p_{T};muon p_{T};entries", ptbins_,     0, ptmax_);
       hTrigMuonEta_ = iBooker.book1D("TrigMuonEta", "Triggered muon #eta;muon #eta;entries",  etabins_, -2.5, 2.5);
       hTrigMuonPhi_ = iBooker.book1D("TrigMuonPhi", "Triggered muon #phi;muon #phi;entries",  phibins_, -3.2, 3.2);    
     }
     if(nmet > 0) {
       hTrigMETEt_ = iBooker.book1D("TrigMETEt",   "Triggered MET E_{T};MET E_{T};entries", ptbins_,     0, ptmax_);
       hTrigMETPhi_ = iBooker.book1D("TrigMETPhi", "Triggered MET #phi;MET #phi;entries",  phibins_, -3.2, 3.2);
     }
     if(ntaus == 2 && neles == 0 && nmus == 0 && nmet == 0) create("di-tau");
     if(ntaus == 1 && neles == 1 && nmus == 0 && nmet == 0) create("electron-tau");
     if(ntaus == 1 && neles == 0 && nmus == 1 && nmet == 0) create("muon-tau");
     if(ntaus == 1 && neles == 0 && nmus == 0 && nmet == 1) create("tau-met");      
   }
 }