HbbAnalyzer/plugins/HbbAnalyzerNew.cc

    // -*- C++ -*-
    //
    // Package:    HbbAnalyzerNew
    // Class:      HbbAnalyzerNew
    // 
/**\class HbbAnalyzerNew HbbAnalyzerNew.cc Analysis/HbbAnalyzer/src/HbbAnalyzerNew.cc
 
 Description: <one line class summary>
 
 Implementation:
 <Notes on implementation>
 */
    //
    // Original Author:  David Lopes Pegna,Address unknown,NONE,
    //         Created:  Thu Mar  5 13:51:28 EST 2009
    // $Id: HbbAnalyzerNew.cc,v 1.77.2.1 2012/11/16 21:20:42 ntran Exp $
    //
    //


    //uncomment to save also jet collections 1 and 4
    //#define ENABLE_SIMPLEJETS1
    //#define ENABLE_SIMPLEJETS4

#include "CondFormats/JetMETObjects/interface/JetCorrectorParameters.h"
#include "CondFormats/JetMETObjects/interface/JetCorrectionUncertainty.h"
#include "JetMETCorrections/Objects/interface/JetCorrector.h"
#include "JetMETCorrections/Objects/interface/JetCorrectionsRecord.h" 
#include "DataFormats/TrackReco/interface/TrackFwd.h"

#include "VHbbAnalysis/HbbAnalyzer/interface/HbbAnalyzerNew.h"
#include "SimDataFormats/PileupSummaryInfo/interface/PileupSummaryInfo.h"

#include "SimDataFormats/GeneratorProducts/interface/GenEventInfoProduct.h"
#include "DataFormats/Math/interface/deltaR.h"
#include "DataFormats/Math/interface/LorentzVector.h"
#include "DataFormats/Math/interface/Vector3D.h"
#include "Math/GenVector/PxPyPzM4D.h"

#include "RecoEcal/EgammaCoreTools/interface/EcalClusterLazyTools.h"
#include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
#include "TrackingTools/Records/interface/TransientTrackRecord.h"
#include "TrackingTools/IPTools/interface/IPTools.h"

#include "CMGTools/External/interface/PileupJetIdentifier.h"
#include "CMGTools/External/interface/PileupJetIdAlgo.h"
    //#include "CMGTools/External/interface/PileupJetIdProducer.h"

#include <cmath>


#define GENPTOLOR(a) TLorentzVector((a).px(), (a).py(), (a).pz(), (a).energy())
#define GENPTOLORP(a) TLorentzVector((a)->px(), (a)->py(), (a)->pz(), (a)->energy())


struct CompareJetPtMuons {
    bool operator()( const VHbbEvent::MuonInfo& j1, const  VHbbEvent::MuonInfo& j2 ) const {
        return j1.p4.Pt() > j2.p4.Pt();
    }
};
struct CompareJetPtElectrons {
    bool operator()( const VHbbEvent::ElectronInfo& j1, const  VHbbEvent::ElectronInfo& j2 ) const {
        return j1.p4.Pt() > j2.p4.Pt();
    }
};
struct CompareJetPtTaus {
    bool operator()( const VHbbEvent::TauInfo& j1, const  VHbbEvent::TauInfo& j2 ) const {
        return j1.p4.Pt() > j2.p4.Pt();
    }
};


HbbAnalyzerNew::HbbAnalyzerNew(const edm::ParameterSet& iConfig):
eleLabel_(iConfig.getParameter<edm::InputTag>("electronTag")),
muoLabel_(iConfig.getParameter<edm::InputTag>("muonTag")),
lep_ptCutForBjets_(iConfig.getParameter<double>("lep_ptCutForBjets")),
elenoCutsLabel_(iConfig.getParameter<edm::InputTag>("electronNoCutsTag")),
muonoCutsLabel_(iConfig.getParameter<edm::InputTag>("muonNoCutsTag")),
jetLabel_(iConfig.getParameter<edm::InputTag>("jetTag")),
subjetLabel_(iConfig.getParameter<edm::InputTag>("subjetTag")),
filterjetLabel_(iConfig.getParameter<edm::InputTag>("filterjetTag")),
simplejet1Label_(iConfig.getParameter<edm::InputTag>("simplejet1Tag")),
simplejet2Label_(iConfig.getParameter<edm::InputTag>("simplejet2Tag")),
simplejet3Label_(iConfig.getParameter<edm::InputTag>("simplejet3Tag")),
simplejet4Label_(iConfig.getParameter<edm::InputTag>("simplejet4Tag")),
tauLabel_(iConfig.getParameter<edm::InputTag>("tauTag")),
metLabel_(iConfig.getParameter<edm::InputTag>("metTag")),
phoLabel_(iConfig.getParameter<edm::InputTag>("photonTag")),
hltResults_(iConfig.getParameter<edm::InputTag>("hltResultsTag")),
runOnMC_(iConfig.getParameter<bool>("runOnMC")), verbose_(iConfig.getUntrackedParameter<bool>("verbose")) {
    
        //
        // put the setwhatproduced etc etc
    
    produces<VHbbEvent>();
    produces<VHbbEventAuxInfo>();
    
    
}


HbbAnalyzerNew::~HbbAnalyzerNew(){
    
        // do anything here that needs to be done at desctruction time
        // (e.g. close files, deallocate resources etc.)
    
}


    //
    // member functions
    //

    // ------------ method called to for each event  ------------
void
HbbAnalyzerNew::produce(edm::Event& iEvent, const edm::EventSetup& iSetup){
    using namespace edm;
    using namespace reco;
    
    
        // JEC Uncertainty
    
        //  JetCorrectionUncertainty *jecUnc=0;
    edm::ESHandle<JetCorrectorParametersCollection> JetCorParColl;
    iSetup.get<JetCorrectionsRecord>().get("AK5PFchs",JetCorParColl); 
    JetCorrectionUncertainty *jecUnc=0;
        //  if (!runOnMC_){
    JetCorrectorParameters const & JetCorPar = (*JetCorParColl)["Uncertainty"];
    jecUnc = new JetCorrectionUncertainty(JetCorPar);
        //  }
    
    std::auto_ptr<VHbbEvent> hbbInfo( new VHbbEvent() );  
    std::auto_ptr<VHbbEventAuxInfo> auxInfo( new VHbbEventAuxInfo() );
    
    
    if (runOnMC_){
        Handle<GenEventInfoProduct> evt_info;
        iEvent.getByType(evt_info);
        auxInfo->weightMCProd = evt_info->weight(); 
    }
    else
        { auxInfo->weightMCProd =1.;}
        //
        // ??
    
        // trigger
    
        // trigger
    edm::Handle<edm::TriggerResults>  hltresults;
        //iEvent.getByLabel("TriggerResults", hltresults);
    
        //edm::InputTag tag("TriggerResults::HLT");
        //  edm::InputTag tag("TriggerResults::HLT0");
    iEvent.getByLabel(hltResults_, hltresults);
    
    const edm::TriggerNames & triggerNames_ = iEvent.triggerNames(*hltresults);
    
    int ntrigs = hltresults->size();
    if (ntrigs==0){std::cerr << "%HLTInfo -- No trigger name given in TriggerResults of the input " << std::endl;}
    
    BeamSpot vertexBeamSpot;
    edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
    iEvent.getByLabel("offlineBeamSpot",recoBeamSpotHandle);
    vertexBeamSpot = *recoBeamSpotHandle;
    /*
     double BSx=vertexBeamSpot.x0();
     double BSy=vertexBeamSpot.y0();
     double BSz=vertexBeamSpot.z0();
     */
    
    double MinVtxProb=-999.;
    int VtxIn=-99;
    
    Handle<reco::VertexCollection> recVtxs;
    iEvent.getByLabel("offlinePrimaryVertices", recVtxs);
    
    auxInfo->pvInfo.nVertices = recVtxs->size();
    
    for(size_t i = 0; i < recVtxs->size(); ++ i) {
        const Vertex &vtx = (*recVtxs)[i];
        double RecVtxProb=TMath::Prob(vtx.chi2(),vtx.ndof());
        if(RecVtxProb>MinVtxProb){
            VtxIn=i;
            MinVtxProb=RecVtxProb;      
        }
    }
    
    const Vertex &RecVtx = (*recVtxs)[VtxIn];
    const Vertex &RecVtxFirst = (*recVtxs)[0];
    const Vertex &vertex = RecVtxFirst; //used in ele id 2012
    
    auxInfo->pvInfo.firstPVInPT2 = TVector3(RecVtxFirst.x(), RecVtxFirst.y(), RecVtxFirst.z());
    auxInfo->pvInfo.firstPVInProb = TVector3(RecVtx.x(), RecVtx.y(), RecVtx.z());
    
    (auxInfo->pvInfo).efirstPVInPT2 = (RecVtxFirst.error());
    (auxInfo->pvInfo).efirstPVInProb = RecVtx.error();
    
    edm::Handle<double> rhoHandle;
    iEvent.getByLabel(edm::InputTag("kt6PFJets", "rho"),rhoHandle);   
    auxInfo->puInfo.rho = *rhoHandle;
    
    edm::Handle<double> rho25Handle;
    iEvent.getByLabel(edm::InputTag("kt6PFJets25", "rho"),rho25Handle);   
    auxInfo->puInfo.rho25 = *rho25Handle;
    edm::Handle<double> rho25HandleIso;
    iEvent.getByLabel(edm::InputTag("kt6PFJetsForIsolation", "rho"),rho25HandleIso);   
    auxInfo->puInfo.rho25Iso = *rho25HandleIso;
    
    edm::Handle<double> rhoNeutralHandle;
    iEvent.getByLabel(edm::InputTag("kt6PFJetsCentralNeutral", "rho"),rhoNeutralHandle);   
    auxInfo->puInfo.rhoNeutral = *rhoNeutralHandle;
    
    
    edm::Handle<std::vector< PileupSummaryInfo> > puHandle;
    
    if (runOnMC_){
        iEvent.getByType(puHandle);
        if (puHandle.isValid()){
            
            std::vector< PileupSummaryInfo> pu = (*puHandle); 
            for (std::vector<PileupSummaryInfo>::const_iterator it= pu.begin(); it!=pu.end(); ++it){
                int bx = (*it).getBunchCrossing();
                if(bx == 0) { auxInfo->puInfo.truePU = (*it).getTrueNumInteractions();}
                unsigned int num = (*it).getPU_NumInteractions();
                    //  std::cout <<" PU PUSHING "<<bx<<" " <<num<<std::endl;
                auxInfo->puInfo.pus[bx]  =num;
            }
        }
    }
    
        //// real start
    
    
    Handle<GenParticleCollection> genParticles;
    
    bool printJet=0;
    
    
    if(runOnMC_){
        
        iEvent.getByLabel("genParticles", genParticles);
        
        for(size_t i = 0; i < genParticles->size(); ++ i) {
            
            const GenParticle & p = (*genParticles)[i];
            int id = p.pdgId();
            int st = p.status();  
            
            if(id==25){
                
                VHbbEventAuxInfo::ParticleMCInfo htemp;
                htemp.status=st;
                htemp.charge=p.charge();
                if(p.mother(0)!=0) htemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) htemp.gmomid=p.mother(0)->mother(0)->pdgId(); 
                htemp.p4 = GENPTOLOR(p);
                
                int ndau = p.numberOfDaughters();
                for(int j = 0; j < ndau; ++ j) {
                    const Candidate * Hdau = p.daughter( j );
                    htemp.dauid.push_back(Hdau->pdgId());
                    htemp.dauFourMomentum.push_back(GENPTOLORP(Hdau));
                }
                (auxInfo->mcH).push_back(htemp);
            }
            
            
            if(abs(id)==24){
                
                VHbbEventAuxInfo::ParticleMCInfo wtemp;
                wtemp.status=st;
                wtemp.charge=p.charge();
                if(p.mother(0)!=0) wtemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) wtemp.gmomid=p.mother(0)->mother(0)->pdgId();
                wtemp.p4=GENPTOLOR(p);
                
                int ndau = p.numberOfDaughters();
                for(int j = 0; j < ndau; ++ j) {
                    const Candidate * Wdau = p.daughter( j );
                    wtemp.dauid.push_back(Wdau->pdgId());
                    wtemp.dauFourMomentum.push_back(GENPTOLORP(Wdau));
                }
                auxInfo->mcW.push_back(wtemp);
            }
            
            if(abs(id)==15) {
                VHbbEventAuxInfo::ParticleMCInfo tautemp;
                tautemp.status=st;
                tautemp.charge=p.charge();
                if(p.mother(0)!=0) tautemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) tautemp.gmomid=p.mother(0)->mother(0)->pdgId();
                tautemp.p4=GENPTOLOR(p);
                
                int ndau = p.numberOfDaughters();
                for(int j = 0; j < ndau; ++ j) {
                    const Candidate * Taudau = p.daughter( j );
                    tautemp.dauid.push_back(Taudau->pdgId());
                    tautemp.dauFourMomentum.push_back(GENPTOLORP(Taudau));
                }
                auxInfo->mcTau.push_back(tautemp);
            }
            
            if(abs(id)==23){
                
                
                VHbbEventAuxInfo::ParticleMCInfo ztemp;
                ztemp.status=st;
                ztemp.charge=p.charge();
                if(p.mother(0)!=0) ztemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) ztemp.gmomid=p.mother(0)->mother(0)->pdgId();
                ztemp.p4=GENPTOLOR(p);
                
                int ndau = p.numberOfDaughters();
                for(int j = 0; j < ndau; ++ j) {
                    const Candidate * Zdau = p.daughter( j );
                    ztemp.dauid.push_back(Zdau->pdgId());
                    ztemp.dauFourMomentum.push_back(GENPTOLORP(Zdau));
                }
                auxInfo->mcZ.push_back(ztemp);
            }
                //
                // binfo
                //
            
            
            if(id==5){
                
                VHbbEventAuxInfo::ParticleMCInfo btemp;
                btemp.status=st;
                btemp.charge=p.charge();
                if(p.mother(0)!=0) btemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) btemp.gmomid=p.mother(0)->mother(0)->pdgId(); 
                
                btemp.p4=GENPTOLOR(p);
                
                int nHDaubdau = p.numberOfDaughters();
                for(int j = 0; j < nHDaubdau; ++ j) {
                    const Candidate * Bdau = p.daughter( j );
                    btemp.dauid.push_back(Bdau->pdgId());
                }
                auxInfo->mcB.push_back(btemp);
            }
            
            if(id==-5){
                
                VHbbEventAuxInfo::ParticleMCInfo bbtemp;
                
                bbtemp.status=st;
                bbtemp.charge=p.charge();
                if(p.mother(0)!=0) bbtemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) bbtemp.gmomid=p.mother(0)->mother(0)->pdgId(); 
                
                bbtemp.p4=GENPTOLOR(p);
                
                int nHDaubdau = p.numberOfDaughters();
                for(int j = 0; j < nHDaubdau; ++ j) {
                    const Candidate * Bdau = p.daughter( j );
                    bbtemp.dauid.push_back(Bdau->pdgId());
                }
                
                
                auxInfo->mcBbar.push_back(bbtemp);
            }
            
            if(abs(id)==4){
                VHbbEventAuxInfo::ParticleMCInfo ctemp;
                ctemp.status=st;
                ctemp.charge=p.charge();
                if(p.mother(0)!=0) ctemp.momid=p.mother(0)->pdgId();
                if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) ctemp.gmomid=p.mother(0)->mother(0)->pdgId();
                
                ctemp.p4=GENPTOLOR(p);
                
                int nHDaubdau = p.numberOfDaughters();
                for(int j = 0; j < nHDaubdau; ++ j) {
                    const Candidate * Bdau = p.daughter( j );
                    ctemp.dauid.push_back(Bdau->pdgId());
                }
                
                auxInfo->mcC.push_back(ctemp);  
                
            }
            
        }
        
    }   // isMC
    
        /////// end generator block    
    
        /// photon used in isolation
    edm::Handle<edm::View<reco::PFCandidate> > photonIsoH;
    iEvent.getByLabel("pfAllPhotons",photonIsoH);
    edm::View<reco::PFCandidate> photonsForIso = *photonIsoH;
    
    edm::Handle<edm::View<pat::Muon> > muonHandle;
    iEvent.getByLabel(muoLabel_,muonHandle);
    edm::View<pat::Muon> muons = *muonHandle;
    
        // hard jet   
    edm::Handle<edm::View<pat::Jet> > jetHandle;
    iEvent.getByLabel(jetLabel_,jetHandle);
    edm::View<pat::Jet> jets = *jetHandle;
    
        // sub jet   
    edm::Handle<edm::View<pat::Jet> > subjetHandle;
    iEvent.getByLabel(subjetLabel_,subjetHandle);
    edm::View<pat::Jet> subjets = *subjetHandle;
    
        // filter jet   
    edm::Handle<edm::View<pat::Jet> > filterjetHandle;
    iEvent.getByLabel(filterjetLabel_,filterjetHandle);
    edm::View<pat::Jet> filterjets = *filterjetHandle;
    
        // standard jets
    
    
    edm::Handle<edm::View<pat::Jet> > simplejet2Handle;
    iEvent.getByLabel(simplejet2Label_,simplejet2Handle);
    edm::View<pat::Jet> simplejets2 = *simplejet2Handle;
    
    edm::Handle<edm::View<pat::Jet> > simplejet3Handle;
    iEvent.getByLabel(simplejet3Label_,simplejet3Handle);
    edm::View<pat::Jet> simplejets3 = *simplejet3Handle;
    
    
    edm::Handle<edm::View<pat::Electron> > electronHandle;
    iEvent.getByLabel(eleLabel_,electronHandle);
    edm::View<pat::Electron> electrons = *electronHandle;
    
    
        //   edm::Handle<edm::View<pat::Photon> > phoHandle;
        //   iEvent.getByLabel(phoLabel_,phoHandle);
        //   edm::View<pat::Photon> photons = *phoHandle;
    
    edm::Handle<edm::View<pat::Tau> > tauHandle;
    iEvent.getByLabel(tauLabel_,tauHandle);
    edm::View<pat::Tau> taus = *tauHandle;
    
        //Get the computer for the CSV
    ESHandle<JetTagComputer> handle;
    iSetup.get<JetTagComputerRecord>().get("combinedSecondaryVertex", handle);
    computer = dynamic_cast<const GenericMVAJetTagComputer*>(handle.product());
    
        //BTAGGING SCALE FACTOR FROM DATABASE
        //Combined Secondary Vertex Loose
    edm::ESHandle<BtagPerformance> bTagSF_CSVL_;
    iSetup.get<BTagPerformanceRecord>().get("BTAGCSVL",bTagSF_CSVL_);
        //Combined Secondary Vertex Medium
    edm::ESHandle<BtagPerformance> bTagSF_CSVM_;
    iSetup.get<BTagPerformanceRecord>().get("BTAGCSVM",bTagSF_CSVM_);
        //Combined Secondary Vertex Tight
    edm::ESHandle<BtagPerformance> bTagSF_CSVT_;
    iSetup.get<BTagPerformanceRecord>().get("BTAGCSVT",bTagSF_CSVT_);
    
    edm::ESHandle<BtagPerformance> mistagSF_CSVL_;
    iSetup.get<BTagPerformanceRecord>().get("MISTAGCSVL",mistagSF_CSVL_);
        //Combined Secondary Vertex Medium
    edm::ESHandle<BtagPerformance> mistagSF_CSVM_;
    iSetup.get<BTagPerformanceRecord>().get("MISTAGCSVM",mistagSF_CSVM_);
        //Combined Secondary Vertex Tight
    edm::ESHandle<BtagPerformance> mistagSF_CSVT_;
    iSetup.get<BTagPerformanceRecord>().get("MISTAGCSVT",mistagSF_CSVT_);
    
    BTagSFContainer btagSFs;
    btagSFs.BTAGSF_CSVL = (bTagSF_CSVL_.product());
    btagSFs.BTAGSF_CSVM = (bTagSF_CSVM_.product());
    btagSFs.BTAGSF_CSVT = (bTagSF_CSVT_.product());
    btagSFs.MISTAGSF_CSVL = (mistagSF_CSVL_.product());
    btagSFs.MISTAGSF_CSVM = (mistagSF_CSVM_.product());
    btagSFs.MISTAGSF_CSVT = (mistagSF_CSVT_.product());
    
#ifdef ENABLE_SIMPLEJETS1
    edm::Handle<edm::View<pat::Jet> > simplejet1Handle;
    iEvent.getByLabel(simplejet1Label_,simplejet1Handle);
    edm::View<pat::Jet> simplejets1 = *simplejet1Handle;
    for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets1.begin(); jet_iter!=simplejets1.end(); ++jet_iter){
            //     if(jet_iter->pt()>50)
            //       njetscounter++;
        VHbbEvent::SimpleJet sj;
            //    std::cout <<" sj1"<<std::endl;
        fillSimpleJet(sj,jet_iter);
            //    if(!runOnMC_) 
        
        setJecUnc(sj,jecUnc);
        
        Particle::LorentzVector p4Jet = jet_iter->p4();
        
        if(runOnMC_){
            
            fillScaleFactors(sj, btagSFs);
            
                //PAT genJet matching
                //genJet
            const reco::GenJet *gJ = jet_iter->genJet();
                //physical parton for mother info ONLY
            if( (jet_iter->genParton()) ){
                sj.bestMCid = jet_iter->genParton()->pdgId();
                if( (jet_iter->genParton()->mother()) )
                    sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
            }
            TLorentzVector gJp4;
            if(gJ){
                gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
                sj.bestMCp4 = gJp4;
                if(verbose_){
                    std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
                    std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
                    std::clog << "genJet matched deltaR = " <<gJp4.DeltaR(sj.p4) << std::endl;
                    std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
                }
            }
            
        } //isMC
        hbbInfo->simpleJets.push_back(sj);
        
    }
#endif //ENABLE_SIMPLEJETS1
    
    for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets3.begin(); jet_iter!=simplejets3.end(); ++jet_iter){
            //     if(jet_iter->pt()>50)
            //       njetscounter++;
        VHbbEvent::SimpleJet sj;
            //    std::cout <<" sj3"<<std::endl;
        fillSimpleJet(sj,jet_iter);
            //    if(!runOnMC_)  
        setJecUnc(sj,jecUnc);
        
        Particle::LorentzVector p4Jet = jet_iter->p4();
        
        if(runOnMC_){
            
            fillScaleFactors(sj, btagSFs);
            
                //PAT genJet matching
                //genJet
            const reco::GenJet *gJ = jet_iter->genJet();
                //physical parton for mother info ONLY
            if( (jet_iter->genParton()) ){
                sj.bestMCid = jet_iter->genParton()->pdgId();
                if( (jet_iter->genParton()->mother()) )
                    sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
            }
            TLorentzVector gJp4;
            if(gJ){
                gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
                sj.bestMCp4 = gJp4;
                if(verbose_){
                    std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
                    std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
                    std::clog << "genJet matched deltaR = " <<gJp4.DeltaR(sj.p4) << std::endl;
                    std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
                }
            }
            
        } //isMC
          // 
        
        
        hbbInfo->simpleJets3.push_back(sj);
        
    }
    
#ifdef ENABLE_SIMPLEJETS4
    edm::Handle<edm::View<pat::Jet> > simplejet4Handle;
    iEvent.getByLabel(simplejet4Label_,simplejet4Handle);
    edm::View<pat::Jet> simplejets4 = *simplejet4Handle;
    for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets4.begin(); jet_iter!=simplejets4.end(); ++jet_iter){
            //     if(jet_iter->pt()>50)
            //       njetscounter++;
        
        VHbbEvent::SimpleJet sj;
            //    std::cout <<" sj4"<<std::endl;
        fillSimpleJet(sj,jet_iter);
            //    if(!runOnMC_)  
        setJecUnc(sj,jecUnc);
        
        
        Particle::LorentzVector p4Jet = jet_iter->p4();
        
        if(runOnMC_){
            
            fillScaleFactors(sj, btagSFs);
            
                //PAT genJet matching
                //genJet
            const reco::GenJet *gJ = jet_iter->genJet();
                //physical parton for mother info ONLY
            if( (jet_iter->genParton()) ){
                sj.bestMCid = jet_iter->genParton()->pdgId();
                if( (jet_iter->genParton()->mother()) )
                    sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
            }
            TLorentzVector gJp4;
            if(gJ){
                gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
                sj.bestMCp4 = gJp4;
                if(verbose_){
                    std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
                    std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
                    std::clog << "genJet matched deltaR = " <<gJp4.DeltaR(sj.p4) << std::endl;
                    std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
                }
            }
            
        } //isMC
        hbbInfo->simpleJets4.push_back(sj);
        
    }
#endif //ENABLE SIMPLEJETS4
    
    
    for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets2.begin(); jet_iter!=simplejets2.end(); ++jet_iter){
        
        
        VHbbEvent::SimpleJet sj;
            //    std::cout <<" sj2"<<std::endl;
        fillSimpleJet(sj,jet_iter);  
        
            ///###########          PU JET ID #################
            // add puId...
        edm::Handle<edm::ValueMap<float> > puJetIdMVA;
        iEvent.getByLabel("puJetMva","fullDiscriminant", puJetIdMVA);
        
        edm::Handle<edm::ValueMap<int> > puJetIdFlag;
        iEvent.getByLabel("puJetMva", "fullId", puJetIdFlag);
        
            //    cout  << " pt " << jet_iter->pt() << " eta " << jet_iter->eta() << std::endl;
        unsigned int idx = jet_iter - simplejets2.begin();
        
        
        sj.puJetIdMva   = (*puJetIdMVA)[simplejets2.refAt(idx)];
        int    idflag = (*puJetIdFlag)[simplejets2.refAt(idx)];
        
        
            //     cout << " PU JetID MVA " << mva; 
        if( PileupJetIdentifier::passJetId( idflag, PileupJetIdentifier::kLoose )) {
                //cout << " pass loose wp";
            sj.puJetIdL =1;
        }
        if( PileupJetIdentifier::passJetId( idflag, PileupJetIdentifier::kMedium )) {
                //    cout << " pass medium wp";
            sj.puJetIdM =1;
        }
        if( PileupJetIdentifier::passJetId( idflag, PileupJetIdentifier::kTight )) {
                //    cout << " pass tight wp";
            sj.puJetIdT =1;
        }
            //    cout << endl;
            //  #############  END OF PU JET ID ######################
        
        
            //  if(!runOnMC_)  
        setJecUnc(sj,jecUnc);
        /*    sj.flavour = jet_iter->partonFlavour();
         
         
         sj.tche=jet_iter->bDiscriminator("trackCountingHighEffBJetTags");
         sj.tchp=jet_iter->bDiscriminator("trackCountingHighPurBJetTags");
         sj.jp=jet_iter->bDiscriminator("jetProbabilityBJetTags");
         sj.jpb=jet_iter->bDiscriminator("jetBProbabilityBJetTags");
         sj.ssvhe=jet_iter->bDiscriminator("simpleSecondaryVertexHighEffBJetTags");
         sj.csv=jet_iter->bDiscriminator("combinedSecondaryVertexBJetTags");
         sj.csvmva=jet_iter->bDiscriminator("combinedSecondaryVertexMVABJetTags");
         sj.charge=jet_iter->jetCharge();
         sj.ntracks=jet_iter->associatedTracks().size();
         sj.p4=GENPTOLORP(jet_iter);
         sj.chargedTracksFourMomentum=(getChargedTracksMomentum(&*(jet_iter)));
         sj.SF_CSVL=1;
         sj.SF_CSVM=1;
         sj.SF_CSVT=1;
         sj.SF_CSVLerr=0;
         sj.SF_CSVMerr=0;
         sj.SF_CSVTerr=0;
         
         
         //
         // addtaginfo for csv
         //
         
         if (jet_iter->hasTagInfo("SimpleSecondaryVertex")) {
         
         const reco::SecondaryVertexTagInfo * tf = jet_iter->tagInfoSecondaryVertex();
         sj.vtxMass = tf->secondaryVertex(0).p4().mass();
         sj.vtxNTracks = tf->secondaryVertex(0).nTracks();
         Measurement1D m = tf->flightDistance(0);
         sj.vtx3dL = m.value();
         sj.vtx3deL = m.error();
         }
         
         
         //
         // add tVector
         //
         sj.tVector = getTvect(&(*jet_iter));
         */
        Particle::LorentzVector p4Jet = jet_iter->p4();
        
        if(runOnMC_){
            
                //BTV scale factors
            fillScaleFactors(sj, btagSFs);
            
                //PAT genJet matching
                //genJet
            const reco::GenJet *gJ = jet_iter->genJet();
                //physical parton for mother info ONLY
            if( (jet_iter->genParton()) ){
                sj.bestMCid = jet_iter->genParton()->pdgId();
                if( (jet_iter->genParton()->mother()) )
                    sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
            }
            TLorentzVector gJp4;
            if(gJ){
                gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
                sj.bestMCp4 = gJp4;
                if(verbose_){
                    std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
                    std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
                    std::clog << "genJet matched deltaR = " << gJp4.DeltaR(sj.p4) << std::endl;
                    std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
                }
            }
            
                // add flag if a mc lepton is find inside a cone around the jets... 
            iEvent.getByLabel("genParticles", genParticles);
            
            for(size_t i = 0; i < genParticles->size(); ++ i) {
                
                const GenParticle & p = (*genParticles)[i];
                int id = 0; 
                p.pt()> lep_ptCutForBjets_ ? id= p.pdgId(): 0;
                
                    //      std::cout<< "found a muon with pt " << mu->pt()   << std::endl;
                if   ((abs(id)==13 || abs(id)==11) && deltaR(p.eta(), p.phi(), sj.p4.Eta(), sj.p4.Phi() ) <0.5)  sj.isSemiLeptMCtruth=1;
            }
            
        }  //isMC
        
            // add flag if a reco lepton is find inside a cone around the jets... 
        edm::Handle<edm::View<reco::Candidate> > muonNoCutsHandle;
        iEvent.getByLabel(muonoCutsLabel_,muonNoCutsHandle);
        edm::View<reco::Candidate> muonsNoCuts = *muonNoCutsHandle; 
        
        
        for(edm::View<reco::Candidate>::const_iterator mu = muonsNoCuts.begin(); mu!=muonsNoCuts.end() && sj.isSemiLept!=1; ++mu){
                //      std::cout<< "found a muon with pt " << mu->pt()   << std::endl;
            const pat::Muon& m = static_cast <const pat::Muon&> (*mu); 
            float Smpt = m.pt(); 
            float Smeta = m.eta();
            float Smphi = m.phi();
            
            float SmJdR = deltaR(Smeta, Smphi, sj.p4.Eta(), sj.p4.Phi());
            
            if   ( Smpt> lep_ptCutForBjets_ && SmJdR <0.5)  {
                sj.isSemiLept=1;
                    //isSemiLept(-99), isSemiLeptMCtruth(-99), SoftLeptPt(-99), SoftLeptdR(-99), SoftLeptptRel(-99), SoftLeptpdgId(-99), SoftLeptIdlooseMu(-99), SoftLeptId95(-99), SoftLeptRelCombIso(-99),  
                sj.SoftLeptpdgId =13;
                sj.SoftLeptdR= SmJdR;
                sj.SoftLeptPt=Smpt;
                TVector3 mvec ( m.p4().Vect().X(), m.p4().Vect().Y(), m.p4().Vect().Z()  ); 
                sj.SoftLeptptRel=  sj.p4.Perp(  mvec );
                sj.SoftLeptRelCombIso = (m.trackIso() + m.ecalIso() + m.hcalIso() ) / Smpt ;
                sj.SoftLeptIdlooseMu=m.muonID("TMLastStationLoose");
            }
        }
        
        
        edm::Handle<edm::View<reco::Candidate> > eleNoCutsHandle;
        iEvent.getByLabel(elenoCutsLabel_,eleNoCutsHandle);
        edm::View<reco::Candidate> elesNoCuts = *eleNoCutsHandle; 
        
        
        for(edm::View<reco::Candidate>::const_iterator ele = elesNoCuts.begin(); ele!=elesNoCuts.end() && sj.isSemiLept!=1; ++ele){
            
            const pat::Electron& e = static_cast <const pat::Electron&> (*ele); 
            float Smpt = e.pt(); 
            float Smeta = e.eta();
            float Smphi = e.phi();
            
            float SmJdR = deltaR(Smeta, Smphi, sj.p4.Eta(), sj.p4.Phi());
            if   ( Smpt> lep_ptCutForBjets_ && SmJdR <0.5)  {
                sj.isSemiLept=1;
                sj.SoftLeptpdgId =11;
                sj.SoftLeptdR= SmJdR;
                sj.SoftLeptPt=Smpt;
                TVector3 mvec ( e.p4().Vect().X(), e.p4().Vect().Y(), e.p4().Vect().Z()  ); 
                sj.SoftLeptptRel=  sj.p4.Perp(  mvec );
                sj.SoftLeptRelCombIso = (e.trackIso() + e.ecalIso() + e.hcalIso() ) / Smpt ;
                    //   sj.SoftLeptId95=e.electronID("eidVBTFCom95");
                    //std::cout << "before ele id " << std::endl;      
                    // std::cout << " e.e.sigmaIetaIeta " << e.sigmaIetaIeta() <<  std::endl;
                    //std::cout << " e.isEB() " << e.isEB() << std::endl;
                if (  
                    ( fabs(Smeta)<2.5 && !( abs(Smeta)>1.4442 && abs(Smeta)<1.566))  && 
                    
                    (( abs(Smeta)>1.566  && (e.sigmaIetaIeta()<0.01) && ( e.deltaPhiSuperClusterTrackAtVtx()<0.8  && e.deltaPhiSuperClusterTrackAtVtx()>-0.8) && ( e.deltaEtaSuperClusterTrackAtVtx()<0.007 && e.deltaEtaSuperClusterTrackAtVtx()>-0.007 )  )
                     || ( abs(Smeta)<1.4442  && (e.sigmaIetaIeta()<0.03) && ( e.deltaPhiSuperClusterTrackAtVtx()<0.7 && e.deltaPhiSuperClusterTrackAtVtx()>-0.7 ) && ( e.deltaEtaSuperClusterTrackAtVtx()<0.01 && e.deltaEtaSuperClusterTrackAtVtx()>-0.01 ) ))
                    )
                    sj.SoftLeptId95=1;
            }
        }
        
        
        hbbInfo->simpleJets2.push_back(sj);
        
    }
    
    
    /*   const GenJet* jet1Mc = bjet1.genJet();
     const GenJet* jet2Mc = bjet2.genJet();
     if(jet1Mc!=0){
     MCbJet1MomId=jet1Mc->mother()->pdgId();
     MCbJet1GMomId=jet1Mc->mother()->mother()->pdgId();
     }
     
     if(jet2Mc!=0){
     MCbJet2MomId=jet2Mc->mother()->pdgId();
     MCbJet2GMomId=jet2Mc->mother()->mother()->pdgId();
     }
     */
    
        //////////////////////////////////////////////////////////////
        //////////////////////////////////////////////////////////////
        ////// Nhan's Jets  
    
        // C A 1 2   R A W   J E T 
    edm::Handle<edm::View<pat::Jet> > ca12jetHandle;
    iEvent.getByLabel("selectedPatJetsCA12PF",ca12jetHandle);
    edm::View<pat::Jet> ca12jets = *ca12jetHandle;
    edm::Handle<edm::View<pat::Jet> > camdft12jetHandle;
    iEvent.getByLabel("selectedPatJetsCA12MassDropFilteredPF",camdft12jetHandle);
    edm::View<pat::Jet> camdft12jets = *camdft12jetHandle;

    edm::Handle<edm::View<pat::Jet> > camdft12subjetHandle;
    iEvent.getByLabel("selectedPatJetsCA12MassDropFilteredSubjetsPF",camdft12subjetHandle);
    edm::View<pat::Jet> camdft12subjets = *camdft12subjetHandle;
    edm::Handle<edm::View<pat::Jet> > caft12subjetHandle;
    iEvent.getByLabel("selectedPatJetsCA12FilteredSubjetsPF",caft12subjetHandle);
    edm::View<pat::Jet> caft12subjets = *caft12subjetHandle;
    edm::Handle<edm::View<pat::Jet> > capr12subjetHandle;
    iEvent.getByLabel("selectedPatJetsCA12PrunedSubjetsPF",capr12subjetHandle);
    edm::View<pat::Jet> capr12subjets = *capr12subjetHandle;

    int ctr = 0;
        // C A 1 2   R A W   J E T S
//    std::cout << "Fill CA12 Raw jet!" << std::endl;
    for(edm::View<pat::Jet>::const_iterator jet_iter = ca12jets.begin(); jet_iter!=ca12jets.end(); ++jet_iter){
            //        std::cout << "jet # " << ctr << std::endl;
            //        std::cout << "size: " << jet_iter->getPFConstituents().size() << std::endl;
        
        std::vector<reco::PFCandidatePtr> constituents = jet_iter->getPFConstituents();        
        VHbbEvent::RawJet rj;
        rj.p4 = GENPTOLORP(jet_iter);
        rj.Nconstituents = jet_iter->getPFConstituents().size();
        
        for (unsigned int iJC = 0; iJC<constituents.size(); ++iJC ){
            
            rj.constituents_px.push_back( jet_iter->getPFConstituents().at(iJC)->px() );
            rj.constituents_py.push_back( jet_iter->getPFConstituents().at(iJC)->py() );
            rj.constituents_pz.push_back( jet_iter->getPFConstituents().at(iJC)->pz() );
            rj.constituents_e.push_back( jet_iter->getPFConstituents().at(iJC)->energy() );
            rj.constituents_pdgId.push_back( jet_iter->getPFConstituents().at(iJC)->pdgId() );
        }
        
        hbbInfo->CA12wConstits.push_back( rj );
        ctr++;
        
    }
        // C A 1 2   M A S S D R O P / F I L T E R E D   J E T S
//    std::cout << "Fill CA12 MDFT jet!" << std::endl;    
    
    for(edm::View<pat::Jet>::const_iterator jet_iter = camdft12jets.begin(); jet_iter!=camdft12jets.end(); ++jet_iter){
        
        if(printJet) {std::cout << "Jet Pt: " << jet_iter->pt() << " E,M: " << jet_iter->p4().E() << " " << jet_iter->p4().M() << "\n";} 
        
        reco::Jet::Constituents constituents = jet_iter->getJetConstituents();
//        std::cout << "NsubJets: " << constituents.size() << "\n";
        
            //    if(printJet) {std::cout << "NsubJets: " << constituents.size() << "\n";} 
        VHbbEvent::HardJet hj;
        hj.constituents=constituents.size();
        hj.p4 =GENPTOLORP(jet_iter);
        
        for (unsigned int iJC(0); iJC<constituents.size(); ++iJC ){
            Jet::Constituent icandJet = constituents[iJC];
            
            if(printJet) {std::cout << "subJet Pt: " << icandJet->pt() << " subJet E,M,eta,phi: " <<  icandJet->p4().E() << "," 
                << icandJet->p4().M() << "," << icandJet->eta() << "," << icandJet->phi() << "\n"; } 
            
            
            hj.subFourMomentum.push_back(GENPTOLORP(icandJet));
            hj.etaSub.push_back(icandJet->eta());
            hj.phiSub.push_back(icandJet->phi());
            
                //        std::cout << "subjet constituents: " << icandJet->getJetConstituents.size() << std::endl;  
            
        }
        hbbInfo->CAmdft12.push_back(hj);
    }
    
        // C A 1 2   M A S S D R O P / F I L T E R E D   S U B J E T S
//    std::cout << "Fill CA12 MDFT subjet!" << std::endl;    
    for(edm::View<pat::Jet>::const_iterator subjet_iter = camdft12subjets.begin(); subjet_iter!=camdft12subjets.end(); ++subjet_iter){
        VHbbEvent::SimpleJet sj;
        fillSimpleJet(sj,subjet_iter);  
//        setJecUnc(sj,jecUnc);
        hbbInfo->CAmdft12_subjets.push_back(sj);
    }    
        // C A 1 2   F I L T E R E D   S U B J E T S
//    std::cout << "Fill CA12 FT subjet!" << std::endl;    
    for(edm::View<pat::Jet>::const_iterator subjet_iter = caft12subjets.begin(); subjet_iter!=caft12subjets.end(); ++subjet_iter){
        VHbbEvent::SimpleJet sj;
        fillSimpleJet(sj,subjet_iter);  
            //        setJecUnc(sj,jecUnc);
        hbbInfo->CAft12_subjets.push_back(sj);
    }    
        // C A 1 2   P R U N E D   S U B J E T S
//    std::cout << "Fill CA12 PR subjet!" << std::endl;    
    for(edm::View<pat::Jet>::const_iterator subjet_iter = capr12subjets.begin(); subjet_iter!=capr12subjets.end(); ++subjet_iter){
        VHbbEvent::SimpleJet sj;
        fillSimpleJet(sj,subjet_iter);  
            //        setJecUnc(sj,jecUnc);
        hbbInfo->CApr12_subjets.push_back(sj);
    }    
    

        // C A 1 2   R A W   J E T   G E N
        // fill the GEN jet information too!
    if(runOnMC_){
        
        
        edm::Handle<reco::GenJetCollection> genJets ;
        iEvent.getByLabel("ca12GenJetsNoNu",genJets);
        
        for (reco::GenJetCollection::const_iterator moIter = genJets->begin(); moIter != genJets->end(); ++moIter) {
                //            std::cout << "jet eta: " << moIter->eta() << std::endl;
            if (moIter->pt() > 80.){
                VHbbEvent::RawJet rgj;
                rgj.p4 = TLorentzVector( moIter->px(), moIter->py(), moIter->pz(), moIter->energy() );
                rgj.Nconstituents = moIter->getGenConstituents().size();
                
                for (unsigned int iJC = 0; iJC < moIter->getGenConstituents().size(); iJC++){
                    rgj.constituents_px.push_back( moIter->getGenConstituents().at(iJC)->px() );
                    rgj.constituents_py.push_back( moIter->getGenConstituents().at(iJC)->py() );
                    rgj.constituents_pz.push_back( moIter->getGenConstituents().at(iJC)->pz() );
                    rgj.constituents_e.push_back( moIter->getGenConstituents().at(iJC)->energy() );
                    rgj.constituents_pdgId.push_back( moIter->getGenConstituents().at(iJC)->pdgId() );
                }
                hbbInfo->CA12wConstitsGen.push_back( rgj );
            }
        }
            //        edm::Handle<edm::View<reco::GenJet> > ca12genjetHandle;
            //        iEvent.getByLabel("ca12GenJetsNoNu",ca12genjetHandle);
            //        edm::View<pat::Jet> ca12genjets = *ca12genjetHandle;
            //        ctr = 0;
            //        for(edm::View<reco::GenJet>::const_iterator jet_iter = ca12genjets.begin(); jet_iter!=ca12genjets.end(); ++jet_iter){
            //            std::cout << "jet # " << ctr << std::endl;
            //            std::coit << "jet pt = " << jet_iter->pt() << std::endl;
        
            //            std::cout << "size: " << jet_iter->getPFConstituents().size() << std::endl;
            //            
            //            std::vector<reco::PFCandidatePtr> constituents = jet_iter->getPFConstituents();        
            //            VHbbEvent::RawJet rj;
            //            rj.p4 = GENPTOLORP(jet_iter);
            //            rj.Nconstituents = jet_iter->getPFConstituents().size();
            //            
            //            for (unsigned int iJC = 0; iJC<constituents.size(); ++iJC ){
            //                
            //                rj.constituents_px.push_back( jet_iter->getPFConstituents().at(iJC)->px() );
            //                rj.constituents_py.push_back( jet_iter->getPFConstituents().at(iJC)->py() );
            //                rj.constituents_pz.push_back( jet_iter->getPFConstituents().at(iJC)->pz() );
            //                rj.constituents_e.push_back( jet_iter->getPFConstituents().at(iJC)->energy() );
            //                rj.constituents_pdgId.push_back( jet_iter->getPFConstituents().at(iJC)->pdgId() );
            //            }
            //            
            //            hbbInfo->rawJetsGen.push_back( rj );
        
            //            ctr++;
            //            
            //        }
        
    }
        //////////////////////////////////////////////////////////////
        //////////////////////////////////////////////////////////////
    
        /////// hard jet
    
    
    double matEta[1000*30],matPhi[1000*30];
    for(int i=0;i<1000;i++){for(int j=0;j<30;j++){matEta[i*j]=-99.;matPhi[i*j]=-99.;}}
    
    for(edm::View<pat::Jet>::const_iterator jet_iter = jets.begin(); jet_iter!=jets.end(); ++jet_iter){
        
        if(printJet) {std::cout << "Jet Pt: " << jet_iter->pt() << " E,M: " << jet_iter->p4().E() << " " << jet_iter->p4().M() << "\n";} 
        
        reco::Jet::Constituents constituents = jet_iter->getJetConstituents();
        std::cout << "NsubJets: " << constituents.size() << "\n";
            //    std::cout << "Nconstituents: " << jet_iter->getConstituents().size() << "\n";
        
            //    if(printJet) {std::cout << "NsubJets: " << constituents.size() << "\n";} 
        VHbbEvent::HardJet hj;
        hj.constituents=constituents.size();
        hj.p4 =GENPTOLORP(jet_iter);
        
        for (unsigned int iJC(0); iJC<constituents.size(); ++iJC ){
            Jet::Constituent icandJet = constituents[iJC];
            
            if(printJet) {std::cout << "subJet Pt: " << icandJet->pt() << " subJet E,M,eta,phi: " <<  icandJet->p4().E() << "," 
                << icandJet->p4().M() << "," << icandJet->eta() << "," << icandJet->phi() << "\n"; } 
            
            
            hj.subFourMomentum.push_back(GENPTOLORP(icandJet));
            hj.etaSub.push_back(icandJet->eta());
            hj.phiSub.push_back(icandJet->phi());
            
                //        std::cout << "subjet constituents: " << icandJet->getJetConstituents.size() << std::endl;  
            
        }
        hbbInfo->hardJets.push_back(hj);
    }
    
        //  HardJetSubEta2.SetMatrixArray(matEta);
        //  HardJetSubPhi2.SetMatrixArray(matPhi);
        //  TMatrixDRow a1(HardJetSubEta2,0);
        //  for(int i=0;i<30;i++){
        //   std::cout << "test: " << a1[i] << "\n";  
        //  }
    
        // pat subJets with Btag
    
    
    for(edm::View<pat::Jet>::const_iterator subjet_iter = subjets.begin(); subjet_iter!=subjets.end(); ++subjet_iter){
        
        if(printJet) {std::cout << "SubJetTagged Pt: " << subjet_iter->pt() << " E,M,eta,phi,Btag: " << subjet_iter->p4().E() 
            << "," << subjet_iter->p4().M() << "," << subjet_iter->eta() << "," << subjet_iter->phi()  
            << "," << subjet_iter->bDiscriminator("combinedSecondaryVertexBJetTags") << "\n";}
        
        VHbbEvent::SimpleJet sj;
            //    std::cout <<" sub jet "<<std::endl;
        fillSimpleJet(sj,subjet_iter);
            //  if(!runOnMC_)  
        setJecUnc(sj,jecUnc);
        /*    sj.flavour = subjet_iter->partonFlavour();
         sj.tVector = getTvect(&(*subjet_iter));
         sj.tche=subjet_iter->bDiscriminator("trackCountingHighEffBJetTags");
         sj.tchp=subjet_iter->bDiscriminator("trackCountingHighPurBJetTags");
         sj.jp=subjet_iter->bDiscriminator("jetProbabilityBJetTags");
         sj.jpb=subjet_iter->bDiscriminator("jetBProbabilityBJetTags");
         sj.ssvhe=subjet_iter->bDiscriminator("simpleSecondaryVertexHighEffBJetTags");
         sj.csv=subjet_iter->bDiscriminator("combinedSecondaryVertexBJetTags");
         sj.csvmva=subjet_iter->bDiscriminator("combinedSecondaryVertexMVABJetTags");
         sj.charge=subjet_iter->jetCharge();
         sj.ntracks=subjet_iter->associatedTracks().size();
         sj.p4=GENPTOLORP(subjet_iter);
         sj.p4=(getChargedTracksMomentum(&*(subjet_iter)));
         
         //
         // addtaginfo for csv
         //
         
         if (subjet_iter->hasTagInfo("SimpleSecondaryVertex")) {
         
         const reco::SecondaryVertexTagInfo * tf = subjet_iter->tagInfoSecondaryVertex();
         sj.vtxMass = tf->secondaryVertex(0).p4().mass();
         sj.vtxNTracks = tf->secondaryVertex(0).nTracks();
         Measurement1D m = tf->flightDistance(0);
         sj.vtx3dL = m.value();
         sj.vtx3deL = m.error();
         }
         */
        hbbInfo->subJets.push_back(sj);
        
    }
    
    for(edm::View<pat::Jet>::const_iterator filterjet_iter = filterjets.begin(); filterjet_iter!=filterjets.end(); ++filterjet_iter){
        
        if(printJet) {std::cout << "FilterjetTagged Pt: " << filterjet_iter->pt() << " E,M,eta,phi,Btag: " << filterjet_iter->p4().E()  << "," << filterjet_iter->p4().M() << "," << filterjet_iter->eta() << "," << filterjet_iter->phi()  << "," << filterjet_iter->bDiscriminator("combinedSecondaryVertexBJetTags") << "\n";}
        
        VHbbEvent::SimpleJet fj;
            //    std::cout <<" sub jet "<<std::endl;
        fillSimpleJet(fj,filterjet_iter);
            //  if(!runOnMC_)  
        setJecUnc(fj,jecUnc);
        
        if(runOnMC_){
            
                //BTV scale factors
                // fillScaleFactors(sj, btagSFs);
            
                //PAT genJet matching
                //genJet
            const reco::GenJet *gJ = filterjet_iter->genJet();
                //physical parton for mother info ONLY
            if( (filterjet_iter->genParton()) ){
                fj.bestMCid = filterjet_iter->genParton()->pdgId();
                if( (filterjet_iter->genParton()->mother()) )
                    fj.bestMCmomid=filterjet_iter->genParton()->mother()->pdgId();
            }
            TLorentzVector gJp4;
            if(gJ){
                gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
                fj.bestMCp4 = gJp4;
                if(verbose_){
                    std::clog << "filter genJet matched Pt = " << gJp4.Pt() << std::endl;
                    std::clog << "filter genJet matched eta = " << gJp4.Eta() << std::endl;
                    std::clog << "filter genJet matched deltaR = " << gJp4.DeltaR(fj.p4) << std::endl;
                    std::clog << "filter genJet matched mother id = " << fj.bestMCmomid << std::endl;
                }
            }
        }
        
        hbbInfo->filterJets.push_back(fj);
        
        
    }
    
        //
        // add charged met
        //
    
    edm::Handle<edm::View<reco::MET> > metChargedHandle;
    iEvent.getByLabel("pfMETNoPUCharge",metChargedHandle);
    edm::View<reco::MET> metsCh = *metChargedHandle;
    if(metsCh.size()){
        hbbInfo->metCh.sumEt=(metsCh[0]).sumEt();
        hbbInfo->metCh.metSig=metSignificance(& (metsCh[0]));
        hbbInfo->metCh.eLong=(metsCh[0]).e_longitudinal();
        hbbInfo->metCh.p4=GENPTOLOR((metsCh[0]));
        if (verbose_)     std::cout <<" METCharged "<<     hbbInfo->metCh.metSig <<" " <<     hbbInfo->metCh.sumEt<<std::endl;
    }
    
        // type 1 corr met
    edm::Handle<edm::View<reco::MET> > pfmetType1corrHandle;
    iEvent.getByLabel("patType1CorrectedPFMet",pfmetType1corrHandle);
    edm::View<reco::MET> pfmetsType1corr = *pfmetType1corrHandle;
    if(pfmetsType1corr.size()){
        hbbInfo->pfmetType1corr.sumEt=(pfmetsType1corr[0]).sumEt();
        hbbInfo->pfmetType1corr.metSig=metSignificance(& (pfmetsType1corr[0]));
        hbbInfo->pfmetType1corr.eLong=(pfmetsType1corr[0]).e_longitudinal();
        hbbInfo->pfmetType1corr.p4=GENPTOLOR((pfmetsType1corr[0]));
        if (verbose_)     std::cout <<" type 1 corrected pfMET "<<     hbbInfo->pfmetType1corr.metSig <<" " <<     hbbInfo->pfmetType1corr.sumEt<<std::endl;
    }
    
    
        // type 1 + 2 corr met
    edm::Handle<edm::View<reco::MET> > pfmetType1p2corrHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMet",pfmetType1p2corrHandle);
    edm::View<reco::MET> pfmetsType1p2corr = *pfmetType1p2corrHandle;
    if(pfmetsType1p2corr.size()){
        hbbInfo->pfmetType1p2corr.sumEt=(pfmetsType1p2corr[0]).sumEt();
        hbbInfo->pfmetType1p2corr.metSig=metSignificance(& (pfmetsType1p2corr[0]));
        hbbInfo->pfmetType1p2corr.eLong=(pfmetsType1p2corr[0]).e_longitudinal();
        hbbInfo->pfmetType1p2corr.p4=GENPTOLOR((pfmetsType1p2corr[0]));
        if (verbose_)     std::cout <<" type 1 +2 corrected pfMET "<<     hbbInfo->pfmetType1p2corr.metSig <<" " <<     hbbInfo->pfmetType1p2corr.sumEt<<std::endl;
    }
    
        // type 1 corr met NoPU
    /*  edm::Handle<edm::View<reco::MET> > pfmetNoPUType1corrHandle;
     iEvent.getByLabel("patType1CorrectedPFMetNoPU",pfmetNoPUType1corrHandle);
     edm::View<reco::MET> pfmetsNoPUType1corr = *pfmetNoPUType1corrHandle;
     if(pfmetsNoPUType1corr.size()){
     hbbInfo->pfmetNoPUType1corr.sumEt=(pfmetsNoPUType1corr[0]).sumEt();
     hbbInfo->pfmetNoPUType1corr.metSig=metSignificance(& (pfmetsNoPUType1corr[0]));
     hbbInfo->pfmetNoPUType1corr.eLong=(pfmetsNoPUType1corr[0]).e_longitudinal();
     hbbInfo->pfmetNoPUType1corr.p4=GENPTOLOR((pfmetsNoPUType1corr[0]));
     if (verbose_)     std::cout <<" type 1 corrected pfMET NoPU"<<     hbbInfo->pfmetNoPUType1corr.metSig <<" " <<     hbbInfo->pfmetNoPUType1corr.sumEt<<std::endl;
     }
     
     
     // type 1 + 2 corr met
     edm::Handle<edm::View<reco::MET> > pfmetNoPUType1p2corrHandle;
     iEvent.getByLabel("patType1p2CorrectedPFMetNoPU",pfmetNoPUType1p2corrHandle);
     edm::View<reco::MET> pfmetsNoPUType1p2corr = *pfmetNoPUType1p2corrHandle;
     if(pfmetsNoPUType1p2corr.size()){
     hbbInfo->pfmetNoPUType1p2corr.sumEt=(pfmetsNoPUType1p2corr[0]).sumEt();
     hbbInfo->pfmetNoPUType1p2corr.metSig=metSignificance(& (pfmetsNoPUType1p2corr[0]));
     hbbInfo->pfmetNoPUType1p2corr.eLong=(pfmetsNoPUType1p2corr[0]).e_longitudinal();
     hbbInfo->pfmetNoPUType1p2corr.p4=GENPTOLOR((pfmetsNoPUType1p2corr[0]));
     if (verbose_)     std::cout <<" type 1 +2 corrected pfMET "<<     hbbInfo->pfmetNoPUType1p2corr.metSig <<" " <<     hbbInfo->pfmetNoPUType1p2corr.sumEt<<std::endl;
     }
     
     */
    
    /*
     // MET uncertainty vector
     vector<pat::MET>                 "patType1CorrectedPFMet"    ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetElectronEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetElectronEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetJetEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetJetEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetJetResDown"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetJetResUp"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetMuonEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetMuonEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetNoPU"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetTauEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetTauEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetUnclusteredEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1CorrectedPFMetUnclusteredEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMet"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetElectronEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetElectronEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetJetEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetJetEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetJetResDown"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetJetResUp"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetMuonEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetMuonEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetNoPU"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetTauEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetTauEnUp"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetUnclusteredEnDown"   ""                "VH"      
     vector<pat::MET>                 "patType1p2CorrectedPFMetUnclusteredEnUp"   ""                "VH"      
     */
    
    VHbbEvent::METInfo metunc;
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetElectronEnDownHandle;
    iEvent.getByLabel("patType1CorrectedPFMetElectronEnDown",patType1CorrectedPFMetElectronEnDownHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsElectronEnDown = *patType1CorrectedPFMetElectronEnDownHandle;
    if(patType1CorrectedPFMetsElectronEnDown.size()){
        metunc.sumEt =(patType1CorrectedPFMetsElectronEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsElectronEnDown[0]));
        metunc.eLong=(patType1CorrectedPFMetsElectronEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsElectronEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetElectronEnUpHandle;
    iEvent.getByLabel("patType1CorrectedPFMetElectronEnUp",patType1CorrectedPFMetElectronEnUpHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsElectronEnUp = *patType1CorrectedPFMetElectronEnUpHandle;
    if(patType1CorrectedPFMetsElectronEnUp.size()){
        metunc.sumEt =(patType1CorrectedPFMetsElectronEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsElectronEnUp[0]));
        metunc.eLong=(patType1CorrectedPFMetsElectronEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsElectronEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetMuonEnDownHandle;
    iEvent.getByLabel("patType1CorrectedPFMetMuonEnDown",patType1CorrectedPFMetMuonEnDownHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsMuonEnDown = *patType1CorrectedPFMetMuonEnDownHandle;
    if(patType1CorrectedPFMetsMuonEnDown.size()){
        metunc.sumEt =(patType1CorrectedPFMetsMuonEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsMuonEnDown[0]));
        metunc.eLong=(patType1CorrectedPFMetsMuonEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsMuonEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetMuonEnUpHandle;
    iEvent.getByLabel("patType1CorrectedPFMetMuonEnUp",patType1CorrectedPFMetMuonEnUpHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsMuonEnUp = *patType1CorrectedPFMetMuonEnUpHandle;
    if(patType1CorrectedPFMetsMuonEnUp.size()){
        metunc.sumEt =(patType1CorrectedPFMetsMuonEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsMuonEnUp[0]));
        metunc.eLong=(patType1CorrectedPFMetsMuonEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsMuonEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetTauEnDownHandle;
    iEvent.getByLabel("patType1CorrectedPFMetTauEnDown",patType1CorrectedPFMetTauEnDownHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsTauEnDown = *patType1CorrectedPFMetTauEnDownHandle;
    if(patType1CorrectedPFMetsTauEnDown.size()){
        metunc.sumEt =(patType1CorrectedPFMetsTauEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsTauEnDown[0]));
        metunc.eLong=(patType1CorrectedPFMetsTauEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsTauEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetTauEnUpHandle;
    iEvent.getByLabel("patType1CorrectedPFMetTauEnUp",patType1CorrectedPFMetTauEnUpHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsTauEnUp = *patType1CorrectedPFMetTauEnUpHandle;
    if(patType1CorrectedPFMetsTauEnUp.size()){
        metunc.sumEt =(patType1CorrectedPFMetsTauEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsTauEnUp[0]));
        metunc.eLong=(patType1CorrectedPFMetsTauEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsTauEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetJetEnDownHandle;
    iEvent.getByLabel("patType1CorrectedPFMetJetEnDown",patType1CorrectedPFMetJetEnDownHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsJetEnDown = *patType1CorrectedPFMetJetEnDownHandle;
    if(patType1CorrectedPFMetsJetEnDown.size()){
        metunc.sumEt =(patType1CorrectedPFMetsJetEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsJetEnDown[0]));
        metunc.eLong=(patType1CorrectedPFMetsJetEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsJetEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetJetEnUpHandle;
    iEvent.getByLabel("patType1CorrectedPFMetJetEnUp",patType1CorrectedPFMetJetEnUpHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsJetEnUp = *patType1CorrectedPFMetJetEnUpHandle;
    if(patType1CorrectedPFMetsJetEnUp.size()){
        metunc.sumEt =(patType1CorrectedPFMetsJetEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsJetEnUp[0]));
        metunc.eLong=(patType1CorrectedPFMetsJetEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsJetEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetJetResDownHandle;
    iEvent.getByLabel("patType1CorrectedPFMetJetResDown",patType1CorrectedPFMetJetResDownHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsJetResDown = *patType1CorrectedPFMetJetResDownHandle;
    if(patType1CorrectedPFMetsJetResDown.size()){
        metunc.sumEt =(patType1CorrectedPFMetsJetResDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsJetResDown[0]));
        metunc.eLong=(patType1CorrectedPFMetsJetResDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsJetResDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetJetResUpHandle;
    iEvent.getByLabel("patType1CorrectedPFMetJetResUp",patType1CorrectedPFMetJetResUpHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsJetResUp = *patType1CorrectedPFMetJetResUpHandle;
    if(patType1CorrectedPFMetsJetResUp.size()){
        metunc.sumEt =(patType1CorrectedPFMetsJetResUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsJetResUp[0]));
        metunc.eLong=(patType1CorrectedPFMetsJetResUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsJetResUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetUnclusteredEnDownHandle;
    iEvent.getByLabel("patType1CorrectedPFMetUnclusteredEnDown",patType1CorrectedPFMetUnclusteredEnDownHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsUnclusteredEnDown = *patType1CorrectedPFMetUnclusteredEnDownHandle;
    if(patType1CorrectedPFMetsUnclusteredEnDown.size()){
        metunc.sumEt =(patType1CorrectedPFMetsUnclusteredEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsUnclusteredEnDown[0]));
        metunc.eLong=(patType1CorrectedPFMetsUnclusteredEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsUnclusteredEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1CorrectedPFMetUnclusteredEnUpHandle;
    iEvent.getByLabel("patType1CorrectedPFMetUnclusteredEnUp",patType1CorrectedPFMetUnclusteredEnUpHandle);
    edm::View<reco::MET> patType1CorrectedPFMetsUnclusteredEnUp = *patType1CorrectedPFMetUnclusteredEnUpHandle;
    if(patType1CorrectedPFMetsUnclusteredEnUp.size()){
        metunc.sumEt =(patType1CorrectedPFMetsUnclusteredEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1CorrectedPFMetsUnclusteredEnUp[0]));
        metunc.eLong=(patType1CorrectedPFMetsUnclusteredEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1CorrectedPFMetsUnclusteredEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetElectronEnDownHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetElectronEnDown",patType1p2CorrectedPFMetElectronEnDownHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsElectronEnDown = *patType1p2CorrectedPFMetElectronEnDownHandle;
    if(patType1p2CorrectedPFMetsElectronEnDown.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsElectronEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsElectronEnDown[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsElectronEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsElectronEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetElectronEnUpHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetElectronEnUp",patType1p2CorrectedPFMetElectronEnUpHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsElectronEnUp = *patType1p2CorrectedPFMetElectronEnUpHandle;
    if(patType1p2CorrectedPFMetsElectronEnUp.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsElectronEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsElectronEnUp[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsElectronEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsElectronEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetMuonEnDownHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetMuonEnDown",patType1p2CorrectedPFMetMuonEnDownHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsMuonEnDown = *patType1p2CorrectedPFMetMuonEnDownHandle;
    if(patType1p2CorrectedPFMetsMuonEnDown.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsMuonEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsMuonEnDown[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsMuonEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsMuonEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetMuonEnUpHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetMuonEnUp",patType1p2CorrectedPFMetMuonEnUpHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsMuonEnUp = *patType1p2CorrectedPFMetMuonEnUpHandle;
    if(patType1p2CorrectedPFMetsMuonEnUp.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsMuonEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsMuonEnUp[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsMuonEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsMuonEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetTauEnDownHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetTauEnDown",patType1p2CorrectedPFMetTauEnDownHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsTauEnDown = *patType1p2CorrectedPFMetTauEnDownHandle;
    if(patType1p2CorrectedPFMetsTauEnDown.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsTauEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsTauEnDown[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsTauEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsTauEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetTauEnUpHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetTauEnUp",patType1p2CorrectedPFMetTauEnUpHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsTauEnUp = *patType1p2CorrectedPFMetTauEnUpHandle;
    if(patType1p2CorrectedPFMetsTauEnUp.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsTauEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsTauEnUp[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsTauEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsTauEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetJetEnDownHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetJetEnDown",patType1p2CorrectedPFMetJetEnDownHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsJetEnDown = *patType1p2CorrectedPFMetJetEnDownHandle;
    if(patType1p2CorrectedPFMetsJetEnDown.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsJetEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsJetEnDown[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsJetEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsJetEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetJetEnUpHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetJetEnUp",patType1p2CorrectedPFMetJetEnUpHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsJetEnUp = *patType1p2CorrectedPFMetJetEnUpHandle;
    if(patType1p2CorrectedPFMetsJetEnUp.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsJetEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsJetEnUp[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsJetEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsJetEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetJetResDownHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetJetResDown",patType1p2CorrectedPFMetJetResDownHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsJetResDown = *patType1p2CorrectedPFMetJetResDownHandle;
    if(patType1p2CorrectedPFMetsJetResDown.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsJetResDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsJetResDown[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsJetResDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsJetResDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetJetResUpHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetJetResUp",patType1p2CorrectedPFMetJetResUpHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsJetResUp = *patType1p2CorrectedPFMetJetResUpHandle;
    if(patType1p2CorrectedPFMetsJetResUp.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsJetResUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsJetResUp[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsJetResUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsJetResUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetUnclusteredEnDownHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetUnclusteredEnDown",patType1p2CorrectedPFMetUnclusteredEnDownHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsUnclusteredEnDown = *patType1p2CorrectedPFMetUnclusteredEnDownHandle;
    if(patType1p2CorrectedPFMetsUnclusteredEnDown.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsUnclusteredEnDown[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsUnclusteredEnDown[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsUnclusteredEnDown[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsUnclusteredEnDown[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    edm::Handle<edm::View<reco::MET> > patType1p2CorrectedPFMetUnclusteredEnUpHandle;
    iEvent.getByLabel("patType1p2CorrectedPFMetUnclusteredEnUp",patType1p2CorrectedPFMetUnclusteredEnUpHandle);
    edm::View<reco::MET> patType1p2CorrectedPFMetsUnclusteredEnUp = *patType1p2CorrectedPFMetUnclusteredEnUpHandle;
    if(patType1p2CorrectedPFMetsUnclusteredEnUp.size()){
        metunc.sumEt =(patType1p2CorrectedPFMetsUnclusteredEnUp[0]).sumEt();
        metunc.metSig=metSignificance(& (patType1p2CorrectedPFMetsUnclusteredEnUp[0]));
        metunc.eLong=(patType1p2CorrectedPFMetsUnclusteredEnUp[0]).e_longitudinal();
        metunc.p4=GENPTOLOR((patType1p2CorrectedPFMetsUnclusteredEnUp[0]));
        hbbInfo->metUncInfo.push_back(metunc); 
    }
    
    
        //
        // met is calomet
        //
    
    edm::Handle<edm::View<pat::MET> > metTCHandle;
    iEvent.getByLabel("patMETsTC",metTCHandle);
    edm::View<pat::MET> metsTC = *metTCHandle;
    if(metsTC.size()){
        hbbInfo->tcmet.sumEt=(metsTC[0]).sumEt();
        hbbInfo->tcmet.metSig=metSignificance(&(metsTC[0]));
        hbbInfo->tcmet.eLong=(metsTC[0]).e_longitudinal();
        hbbInfo->tcmet.p4=GENPTOLOR((metsTC[0]));
        if (verbose_)     std::cout <<" METTC "<<     hbbInfo->tcmet.metSig <<" " <<     hbbInfo->tcmet.sumEt<<std::endl;
    }
    
    edm::Handle<edm::View<reco::MET> > pfMETNoPUHandle;
    iEvent.getByLabel("pfMETNoPU",pfMETNoPUHandle);
    edm::View<reco::MET> metspfMETNoPU = *pfMETNoPUHandle;
    if(metspfMETNoPU.size()){
        hbbInfo->metNoPU.sumEt=(metspfMETNoPU[0]).sumEt();
        hbbInfo->metNoPU.metSig=metSignificance(&(metspfMETNoPU[0]));                
        hbbInfo->metNoPU.eLong=(metspfMETNoPU[0]).e_longitudinal();
        hbbInfo->metNoPU.p4=GENPTOLOR((metspfMETNoPU[0]));
        if (verbose_)     std::cout <<" pfMETNoPU "<<     hbbInfo->metNoPU.metSig <<" " <<     hbbInfo->metNoPU.sumEt<<std::endl;
    }
    
    edm::Handle<edm::View<reco::MET> > mHTHandle;
    iEvent.getByLabel("patMETsHT",mHTHandle);
    edm::View<reco::MET> metsHT = *mHTHandle;
    if(metsHT.size()){
        hbbInfo->mht.sumEt=(metsHT[0]).sumEt();
        hbbInfo->mht.metSig=metSignificance(&(metsHT[0]));
        hbbInfo->mht.eLong=(metsHT[0]).e_longitudinal();
        hbbInfo->mht.p4=GENPTOLOR((metsHT[0]));
        if (verbose_)     std::cout <<" METHT "<<     hbbInfo->mht.metSig <<" " <<     hbbInfo->mht.sumEt<<std::endl;
    }
    
    edm::Handle<edm::View<reco::MET> > metHandle;
    iEvent.getByLabel(metLabel_,metHandle);
    edm::View<reco::MET> mets = *metHandle;
    
    if(mets.size()){
        hbbInfo->calomet.sumEt=(mets[0]).sumEt();
        hbbInfo->calomet.metSig=metSignificance(&(mets[0]));
        hbbInfo->calomet.eLong=(mets[0]).e_longitudinal();
        hbbInfo->calomet.p4=GENPTOLOR((mets[0]));
        if (verbose_)     std::cout <<" METCALO "<<     hbbInfo->calomet.metSig <<" " <<     hbbInfo->calomet.sumEt<<std::endl;
    }
    
    edm::Handle<edm::View<pat::MET> > metPFHandle;
    iEvent.getByLabel("patMETsPFlow",metPFHandle);
    edm::View<pat::MET> metsPF = *metPFHandle;
    
    if(metsPF.size()){
        hbbInfo->pfmet.sumEt=(metsPF[0]).sumEt();
        hbbInfo->pfmet.metSig=metSignificance(&(metsPF[0]));
        hbbInfo->pfmet.eLong=(metsPF[0]).e_longitudinal();
        hbbInfo->pfmet.p4=GENPTOLOR((metsPF[0]));
        if (verbose_)     std::cout <<" METPF "<<     hbbInfo->pfmet.metSig <<" " <<     hbbInfo->pfmet.sumEt<<std::endl;
    }
    
    
    if(verbose_){
        std::cout << "METs: calomet "<<mets.size()<<" tcmet"<<metsTC.size()<<" pfmet "<<metsPF.size()<<" MHT" <<metsHT.size()<<std::endl;  
    }
    
    if(verbose_)
        std::cout << " INPUT MUONS "<<muons.size()<<std::endl;
    
    for(edm::View<pat::Muon>::const_iterator mu = muons.begin(); mu!=muons.end(); ++mu){
        VHbbEvent::MuonInfo mf;
        mf.p4 =GENPTOLORP( mu);
        mf.charge=mu->charge();
        mf.tIso=mu->trackIso();
        mf.eIso=mu->ecalIso();
        mf.hIso=mu->hcalIso();
        mf.pfChaIso=mu->chargedHadronIso();
        mf.pfChaPUIso=mu->puChargedHadronIso(); //userIso(5);
        mf.pfPhoIso=mu->photonIso();
        mf.pfNeuIso=mu->neutralHadronIso(); 
        Geom::Phi<double> deltaphi(mu->phi()-atan2(mf.p4.Px(), mf.p4.Py()));
        double acop = deltaphi.value();
        mf.acop=acop;
        
        mf.emEnergy = mu->calEnergy().em;
        mf.hadEnergy = mu->calEnergy().had;
        
        mf.nMatches = mu->numberOfMatches();
        
        mf.ipDb=mu->dB();
        mf.ipErrDb=mu->edB();
        mf.cat=0;
        
        if(mu->isGlobalMuon()) mf.cat|=1;
        if(mu->isTrackerMuon()) mf.cat|=2;
        if(mu->isStandAloneMuon()) mf.cat|=4;
        TrackRef trkMu1Ref = mu->get<TrackRef>();
        if(trkMu1Ref.isNonnull()){
            const Track* MuTrk1 = mu->get<TrackRef>().get();
            mf.zPVPt=MuTrk1->dz(RecVtxFirst.position());
            mf.zPVProb=MuTrk1->dz(RecVtx.position());
            mf.nHits=MuTrk1->numberOfValidHits();
            mf.chi2=MuTrk1->normalizedChi2();
            TrackRef iTrack1 = mu->innerTrack();
            const reco::HitPattern& p1 = iTrack1->hitPattern();
            mf.nPixelHits=p1.pixelLayersWithMeasurement();
            
            mf.nValidTracker = p1.numberOfValidTrackerHits(); 
            mf.nValidPixel = p1.numberOfValidPixelHits(); 
            mf.nValidLayers = p1.trackerLayersWithMeasurement();
            mf.isPF = mu->isPFMuon();
            
            
        } 
        if(mu->isGlobalMuon()){
            TrackRef gTrack = mu->globalTrack();
            const reco::HitPattern& q = gTrack->hitPattern();
            mf.globChi2=gTrack.get()->normalizedChi2();
            mf.globNHits=q.numberOfValidMuonHits();
            mf.validMuStations = q.muonStationsWithValidHits();
        }else{
            mf.globChi2=-99;
            mf.globNHits=-99;
        }
        
            //Muon trigger matching
        for (int itrig = 0; itrig != ntrigs; ++itrig){
            std::string trigName=triggerNames_.triggerName(itrig);
            if( (mu->triggerObjectMatchesByPath(trigName,false,false).size() != 0) ){
                mf.hltMatchedBits.push_back(itrig);
                if(verbose_){
                    std::clog << "Trigger Matching box" << std::endl;
                    std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
                    std::clog << "Matching parameters are defined in the cfg" << std::endl;
                    std::clog << "Trigger bit = " << itrig << std::endl;
                    std::clog << "Trigger name = " << trigName << std::endl;
                    std::clog << "Trigger object matched collection size = " << mu->triggerObjectMatchesByPath(trigName,false,false).size() << std::endl;
                    std::clog << "Pat Muon pt = " << mf.p4.Pt() << " HLT object matched = " << mu->triggerObjectMatch(0)->p4().Pt() << std::endl;
                    std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
                }
            }
        }
            //
        
            // add stamuon 
        
            //    if (mu->isStandAloneMuon()) {
            //      reco::TrackRef sta = mu->standAloneMuon();
            //      
            //    }
        
        
            //     int muInfo[12];
            //     fillMuBlock(mu,  muInfo);
        if(runOnMC_){
            const GenParticle* muMc = mu->genLepton();
            if(muMc!=0){
                mf.mcId=muMc->pdgId();
                mf.mcFourMomentum=GENPTOLORP(muMc);
                if(muMc->mother()!=0) mf.mcMomId=muMc->mother()->pdgId();
                if(muMc->mother()!=0 && muMc->mother()->mother()!=0) mf.mcgMomId=muMc->mother()->mother()->pdgId();
            } }
        hbbInfo->muInfo.push_back(mf);
    }
    
    if(verbose_)
        std::cout << " INPUT electrons "<<electrons.size()<<std::endl;
    InputTag  reducedEBRecHitCollection(string("reducedEcalRecHitsEB"));
    InputTag  reducedEERecHitCollection(string("reducedEcalRecHitsEE"));
    EcalClusterLazyTools lazyTools(iEvent, iSetup, reducedEBRecHitCollection, reducedEERecHitCollection);
    edm::ESHandle<TransientTrackBuilder> builder;
    iSetup.get<TransientTrackRecord>().get("TransientTrackBuilder", builder);
    const TransientTrackBuilder & transientTrackBuilder= *(builder.product());
    
    for(edm::View<pat::Electron>::const_iterator elec = electrons.begin(); elec!=electrons.end(); ++elec){
        VHbbEvent::ElectronInfo ef;
        ef.p4=GENPTOLORP(elec);
        ef.scEta =elec->superCluster()->eta();
        ef.scPhi =elec->superCluster()->phi();
            //    if(ElecEta[eleccont]!=0) ElecEt[eleccont]=elec->superCluster()->energy()/cosh(elec->superCluster()->eta());
        ef.charge=elec->charge();
        ef.tIso=elec->trackIso();
        ef.eIso=elec->ecalIso();
        ef.hIso=elec->hcalIso();
        ef.pfChaIso=elec->chargedHadronIso();
        ef.pfChaPUIso=elec->puChargedHadronIso();//userIso(5);
        ef.pfPhoIso=elec->photonIso();
        ef.pfPhoIsoDoubleCounted=0;
        
        /* Check if there are photons sharing the super cluster*/
        for(size_t k=0;k<photonsForIso.size();k++) {
            if(deltaR(elec->eta(),elec->phi(),photonsForIso[k].eta(),photonsForIso[k].phi()) < 0.05 && abs(photonsForIso[k].pt()-elec->pt())/(photonsForIso[k].pt()+elec->pt()) < 0.05 ) {
                std::cout << "Double counting of supercluster!" << std::endl;
                ef.pfPhoIsoDoubleCounted+=photonsForIso[k].pt(); 
            }
        }
        ef.pfNeuIso=elec->neutralHadronIso();
        
            //
            // ip info
            //
        
        ef.ipDb=elec->dB();
        ef.ipErrDb=elec->edB();
        
        
        Geom::Phi<double> deltaphi(elec->superCluster()->phi()-atan2(hbbInfo->pfmet.p4.Py(),hbbInfo->pfmet.p4.Px()));
        ef.acop = deltaphi.value();
            //
        ef.sihih = elec->sigmaIetaIeta();
        ef.Dphi = elec->deltaPhiSuperClusterTrackAtVtx();
        ef.Deta = elec->deltaEtaSuperClusterTrackAtVtx();
        ef.HoE = elec->hadronicOverEm();
        ef.convDist = elec->convDist();
        ef.convDcot = elec->convDcot();
        if(elec->gsfTrack().isNonnull()) 
            {
            ef.innerHits = elec->gsfTrack()->trackerExpectedHitsInner().numberOfHits();   
            }
        ef.isEB = elec->isEB();
        ef.isEE = elec->isEE();
        /* 2012 ELEID*/
        
        const pat::Electron & ele = *elec;
        bool validKF= false; 
        reco::TrackRef myTrackRef = ele.closestCtfTrackRef();
        validKF = (myTrackRef.isAvailable());
        validKF = (myTrackRef.isNonnull());  
        
            // Pure tracking variables
        ef.fMVAVar_fbrem           =  ele.fbrem();
        ef.fMVAVar_kfchi2          =  (validKF) ? myTrackRef->normalizedChi2() : 0 ;
        ef.fMVAVar_kfhits          =  (validKF) ? myTrackRef->hitPattern().trackerLayersWithMeasurement() : -1. ; 
            //  fMVAVar_kfhitsall          =  (validKF) ? myTrackRef->numberOfValidHits() : -1. ;   //  save also this in your ntuple as possible alternative
        ef.fMVAVar_gsfchi2         =  ele.gsfTrack()->normalizedChi2();  
        
        
            // Geometrical matchings
        ef.fMVAVar_deta            =  ele.deltaEtaSuperClusterTrackAtVtx();
        ef.fMVAVar_dphi            =  ele.deltaPhiSuperClusterTrackAtVtx();
        ef.fMVAVar_detacalo        =  ele.deltaEtaSeedClusterTrackAtCalo();
            // fMVAVar_dphicalo        =  ele.deltaPhiSeedClusterTrackAtCalo();   //  save also this in your ntuple 
        
        
            // Pure ECAL -> shower shapes
        ef.fMVAVar_see             =  ele.sigmaIetaIeta();    //EleSigmaIEtaIEta
        std::vector<float> vCov = lazyTools.localCovariances(*(ele.superCluster()->seed())) ;
        if (!isnan(vCov[2])) ef.fMVAVar_spp = sqrt (vCov[2]);   //EleSigmaIPhiIPhi
        else ef.fMVAVar_spp = 0.;    
            // fMVAVar_sigmaIEtaIPhi = vCov[1];  //  save also this in your ntuple 
        
        ef.fMVAVar_etawidth        =  ele.superCluster()->etaWidth();
        ef.fMVAVar_phiwidth        =  ele.superCluster()->phiWidth();
        ef.fMVAVar_e1x5e5x5        =  (ele.e5x5()) !=0. ? 1.-(ele.e1x5()/ele.e5x5()) : -1. ;
        ef.fMVAVar_R9              =  lazyTools.e3x3(*(ele.superCluster()->seed())) / ele.superCluster()->rawEnergy();
            //fMVAVar_nbrems          =  fabs(ele.numberOfBrems());    //  save also this in your ntuple 
        
            // Energy matching
        ef.fMVAVar_HoE             =  ele.hadronicOverEm();
        ef.fMVAVar_EoP             =  ele.eSuperClusterOverP();
            // fMVAVar_IoEmIoP         =  (1.0/(ele.superCluster()->energy())) - (1.0 / ele.p());  // in the future to be changed with ele.gsfTrack()->p()
        ef.fMVAVar_IoEmIoP         =  (1.0/ele.ecalEnergy()) - (1.0 / ele.p());  // in the future to be changed with ele.gsfTrack()->p()   // 24/04/2012 changed to correctly access the   corrected supercluster energy from CMSSW_52X
        
        ef.fMVAVar_eleEoPout       =  ele.eEleClusterOverPout();
        ef.fMVAVar_PreShowerOverRaw=  ele.superCluster()->preshowerEnergy() / ele.superCluster()->rawEnergy();
            // fMVAVar_EoPout          =  ele.eSeedClusterOverPout();     //  save also this in your ntuple 
        
        
            // Spectators
        ef.fMVAVar_eta             =  ele.superCluster()->eta();         
        ef.fMVAVar_pt              =  ele.pt();                          
        
            //additional for cut based
        ef.dxy = elec->gsfTrack()->dxy(vertex.position());
        ef.dz  = elec->gsfTrack()->dz(vertex.position());
        
        
            //d0
        if (ele.gsfTrack().isNonnull()) {
            ef.fMVAVar_d0 = (-1.0)*ele.gsfTrack()->dxy(vertex.position()); 
        } else if (ele.closestCtfTrackRef().isNonnull()) {
            ef.fMVAVar_d0 = (-1.0)*ele.closestCtfTrackRef()->dxy(vertex.position()); 
        } else {
            ef.fMVAVar_d0 = -9999.0;
            
                //default values for IP3D
            ef.fMVAVar_ip3d = -999.0; 
                // fMVAVar_ip3dSig = 0.0;
            if (ele.gsfTrack().isNonnull()) {
                const double gsfsign   = ( (-ele.gsfTrack()->dxy(vertex.position()))   >=0 ) ? 1. : -1.;
                
                const reco::TransientTrack &tt = transientTrackBuilder.build(ele.gsfTrack()); 
                const std::pair<bool,Measurement1D> &ip3dpv =  IPTools::absoluteImpactParameter3D(tt,vertex);
                if (ip3dpv.first) {
                    double ip3d = gsfsign*ip3dpv.second.value();
                        //double ip3derr = ip3dpv.second.error();  
                    ef.fMVAVar_ip3d = ip3d; 
                        // fMVAVar_ip3dSig = ip3d/ip3derr;
                }
            }
        }
        
        
        /* end of 2012 ELEID*/
        
            //
            // fill eleids
            //    
        /*    ef.id95 = elec->electronID("simpleEleId95cIso");
         ef.id85 = elec->electronID("simpleEleId85cIso");
         ef.id70 = elec->electronID("simpleEleId70cIso");
         ef.id95r = elec->electronID("simpleEleId95relIso");
         ef.id70r = elec->electronID("simpleEleId70relIso");
         ef.id85r = elec->electronID("simpleEleId85relIso");
         */
        ef.id95 =elec->electronID("eidVBTFCom95");
        ef.id95r=elec->electronID("eidVBTFRel95");
        ef.id85 =elec->electronID("eidVBTFCom85");
        ef.id85r=elec->electronID("eidVBTFRel85");
        ef.id80 =elec->electronID("eidVBTFCom80");
        ef.id80r=elec->electronID("eidVBTFRel80");
        ef.id70 =elec->electronID("eidVBTFCom70");
        ef.id70r=elec->electronID("eidVBTFRel70");
        ef.mvaOut=elec->electronID("mvaNonTrigV0");
        ef.mvaOutTrig=elec->electronID("mvaTrigV0");
        
            //Electron trigger matching
        for (int itrig = 0; itrig != ntrigs; ++itrig){
            std::string trigName=triggerNames_.triggerName(itrig);
            if( (elec->triggerObjectMatchesByPath(trigName).size() != 0) ){
                ef.hltMatchedBits.push_back(itrig);
                if(verbose_){
                    std::clog << "Trigger Matching box" << std::endl;
                    std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
                    std::clog << "Matching parameters are defined in the cfg" << std::endl;
                    std::clog << "Trigger bit = " << itrig << std::endl;
                    std::clog << "Trigger name = " << trigName << std::endl;
                    std::clog << "Trigger object matched collection size = " << elec->triggerObjectMatchesByPath(trigName).size() << std::endl;
                    std::clog << "Pat Electron pt = " << ef.p4.Pt() << " HLT object matched = " << elec->triggerObjectMatch(0)->p4().Pt() << std::endl;
                    std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
                }
            }
        }
        
        if(runOnMC_){
            const GenParticle* elecMc = elec->genLepton();
            if(elecMc!=0){
                ef.mcId=elecMc->pdgId();
                ef.mcFourMomentum=GENPTOLORP(elecMc);
                if(elecMc->mother()!=0) ef.mcMomId=elecMc->mother()->pdgId();
                if(elecMc->mother()!=0 && elecMc->mother()->mother()!=0) ef.mcgMomId=elecMc->mother()->mother()->pdgId();
            }}
        hbbInfo->eleInfo.push_back(ef);
    }
    
    if(verbose_)
        std::cout << " INPUT taus "<<taus.size()<<std::endl;
    for(edm::View<pat::Tau>::const_iterator tau = taus.begin(); tau!=taus.end(); ++tau){
        VHbbEvent::TauInfo tf;
        tf.p4=GENPTOLORP(tau);
        tf.charge=tau->charge();
        tf.tIso=tau->trackIso();
        tf.eIso=tau->ecalIso();
        tf.hIso=tau->hcalIso();
        Geom::Phi<double> deltaphi(tau->phi()-atan2(hbbInfo->pfmet.p4.Py(),hbbInfo->pfmet.p4.Px()));
        double acop = deltaphi.value();
        tf.acop=acop;
        if (tau->isTauIDAvailable("againstElectronLoose")) tf.againstElectronLoose=tau->tauID("againstElectronLoose");
        if (tau->isTauIDAvailable("againstElectronMedium")) tf.againstElectronMedium=tau->tauID("againstElectronMedium");
        if (tau->isTauIDAvailable("againstElectronTight")) tf.againstElectronTight=tau->tauID("againstElectronTight");
        if (tau->isTauIDAvailable("againstMuonLoose")) tf.againstMuonLoose=tau->tauID("againstMuonLoose");
        if (tau->isTauIDAvailable("againstMuonTight")) tf.againstMuonTight=tau->tauID("againstMuonTight");
        if (tau->isTauIDAvailable("byLooseIsolation")) tf.byLooseIsolation=tau->tauID("byLooseIsolation");
        if (tau->isTauIDAvailable("byMediumIsolation")) tf.byMediumIsolation=tau->tauID("byMediumIsolation");
        if (tau->isTauIDAvailable("byTightIsolation")) tf.byTightIsolation=tau->tauID("byTightIsolation");
        if (tau->isTauIDAvailable("byVLooseIsolation")) tf.byVLooseIsolation=tau->tauID("byVLooseIsolation");
        if (tau->isTauIDAvailable("decayModeFinding")) tf.decayModeFinding=tau->tauID("decayModeFinding");
        if (tau->isTauIDAvailable("byIsolation")) tf.byIsolation=tau->tauID("byIsolation");
        if (tau->isTauIDAvailable("trackIsolation")) tf.trackIsolation=tau->tauID("trackIsolation");
        if (tau->isTauIDAvailable("byTaNCfrOnePercent")) tf.byTaNCfrOnePercent=tau->tauID("byTaNCfrOnePercent");
        if (tau->isTauIDAvailable("byTaNCfrHalfPercent")) tf.byTaNCfrHalfPercent=tau->tauID("byTaNCfrHalfPercent");
        if (tau->isTauIDAvailable("byTaNCfrQuarterPercent")) tf.byTaNCfrQuarterPercent=tau->tauID("byTaNCfrQuarterPercent");
        if (tau->isTauIDAvailable("byTaNCfrTenthPercent")) tf.byTaNCfrTenthPercent=tau->tauID("byTaNCfrTenthPercent");
        if (tau->isTauIDAvailable("byTaNC")) tf.byTaNC=tau->tauID("byTaNC");
        if (tau->isTauIDAvailable("byLooseCombinedIsolationDeltaBetaCorr")) tf.byLooseCombinedIsolationDeltaBetaCorr=tau->tauID("byLooseCombinedIsolationDeltaBetaCorr");
        if (tau->isTauIDAvailable("againstElectronMVA")) tf.againstElectronMVA=tau->tauID("againstElectronMVA");
        if (tau->isPFTau()) {
            tf.isolationPFChargedHadrCandsPtSum = tau->isolationPFChargedHadrCandsPtSum();
            tf.isolationPFGammaCandsEtSum = tau->isolationPFGammaCandsEtSum();
            if (tau->leadPFChargedHadrCand().isAvailable()) tf.leadPFChargedHadrCandPt = tau->leadPFChargedHadrCand()->pt();
            tf.NsignalPFChargedHadrCands = tau->signalPFChargedHadrCands().size();
            tf.NsignalPFGammaCands = tau->signalPFGammaCands().size();
        }
        hbbInfo->tauInfo.push_back(tf);
        if (verbose_) {
            std::cout << "SCZ DEBUG: againstElectronLoose is " << tf.againstElectronLoose << std::endl;
            std::cout << "SCZ DEBUG: againstElectronMedium is " << tf.againstElectronMedium << std::endl;
            std::cout << "SCZ DEBUG: againstElectronTight is " << tf.againstElectronTight << std::endl;
            std::cout << "SCZ DEBUG: againstMuonLoose is " << tf.againstMuonLoose << std::endl;
            std::cout << "SCZ DEBUG: againstMuonTight is " << tf.againstMuonTight << std::endl;
            std::cout << "SCZ DEBUG: byLooseIsolation is " << tf.byLooseIsolation << std::endl;
            std::cout << "SCZ DEBUG: byMediumIsolation is " << tf.byMediumIsolation << std::endl;
            std::cout << "SCZ DEBUG: byTightIsolation is " << tf.byTightIsolation << std::endl;
            std::cout << "SCZ DEBUG: byVLooseIsolation is " << tf.byVLooseIsolation << std::endl;
            std::cout << "SCZ DEBUG: decayModeFinding is " << tf.decayModeFinding << std::endl;
            std::cout << "SCZ DEBUG: byIsolation is " << tf.byIsolation<< std::endl;
            std::cout << "SCZ DEBUG: trackIsolation is " << tf.trackIsolation << std::endl;
            std::cout << "SCZ DEBUG: byTaNCfrOnePercent is " << tf.byTaNCfrOnePercent << std::endl;
            std::cout << "SCZ DEBUG: byTaNCfrHalfPercent is " << tf.byTaNCfrHalfPercent << std::endl;
            std::cout << "SCZ DEBUG: byTaNCfrQuarterPercent is " << tf.byTaNCfrQuarterPercent << std::endl;
            std::cout << "SCZ DEBUG: byTaNCfrTenthPercent is " << tf.byTaNCfrTenthPercent << std::endl;
            std::cout << "SCZ DEBUG: byTaNC is " << tf.byTaNC << std::endl;
            std::cout << "SCZ DEBUG: isolationPFChargedHadrCandsPtSum is " << tf.isolationPFChargedHadrCandsPtSum << std::endl;
            std::cout << "SCZ DEBUG: isolationPFGammaCandsEtSum is " << tf.isolationPFGammaCandsEtSum << std::endl;
            std::cout << "SCZ DEBUG: isolationPFGammaCandsEtSum is " << tf.leadPFChargedHadrCandPt << std::endl;
            std::cout << "SCZ DEBUG: NsignalPFChargedHadrCands is " << tf.NsignalPFChargedHadrCands << std::endl;
            std::cout << "SCZ DEBUG: NsignalPFGammaCands is " << tf.NsignalPFGammaCands << std::endl;
            std::cout << "SCZ DEBUG: byLooseCombinedIsolationDeltaBetaCorr is " << tf.byLooseCombinedIsolationDeltaBetaCorr << std::endl;
            std::cout << "SCZ DEBUG: againstElectronMVA is " << tf.againstElectronMVA << std::endl;
        }
    }
    
    CompareJetPtMuons ptComparatorMu;
    CompareJetPtElectrons ptComparatorE;
    CompareJetPtTaus ptComparatorTau;
    
    std::sort(hbbInfo->muInfo.begin(), hbbInfo->muInfo.end(), ptComparatorMu);
    std::sort(hbbInfo->eleInfo.begin(), hbbInfo->eleInfo.end(), ptComparatorE);
    std::sort(hbbInfo->tauInfo.begin(), hbbInfo->tauInfo.end(), ptComparatorTau);
    
    
    if (verbose_){
        std::cout <<" Pushing hbbInfo "<<std::endl;
        std::cout <<" SimpleJets1 = "<<hbbInfo->simpleJets.size()<<std::endl<<
        " SimpleJets2 = "<<hbbInfo->simpleJets2.size()<<std::endl<<
        " SubJets = "<<hbbInfo->subJets.size()<<std::endl<<
        " HardJets = "<<hbbInfo->hardJets.size()<<std::endl<<
        " FilterJets = "<<hbbInfo->filterJets.size()<<std::endl<<
        " Muons = "<<hbbInfo->muInfo.size()<<std::endl<<
        " Electrons = "<<hbbInfo->eleInfo.size()<<std::endl<<
        " Taus = "<<hbbInfo->tauInfo.size()<<std::endl<<
        " Electrons = "<<hbbInfo->eleInfo.size()<<std::endl<<
        "--------------------- "<<std::endl;
    }
    
    
    iEvent.put(hbbInfo);
    iEvent.put(auxInfo);
    
    
    delete jecUnc;
    
}

void
HbbAnalyzerNew::fillMuBlock(edm::View<pat::Muon>::const_iterator mu, int muInfo[15])
{
    if(muon::isGoodMuon(*mu,muon::TMLastStationLoose)) muInfo[0]=1;
    if(muon::isGoodMuon(*mu,muon::TMLastStationTight)) muInfo[1]=1;
    if(muon::isGoodMuon(*mu,muon::TM2DCompatibilityLoose)) muInfo[2]=1;
    if(muon::isGoodMuon(*mu,muon::TM2DCompatibilityTight)) muInfo[3]=1;
    if(muon::isGoodMuon(*mu,muon::TMOneStationLoose)) muInfo[4]=1;
    if(muon::isGoodMuon(*mu,muon::TMOneStationTight)) muInfo[5]=1;
    if(muon::isGoodMuon(*mu,muon::TMLastStationOptimizedLowPtLoose)) muInfo[6]=1;
    if(muon::isGoodMuon(*mu,muon::TMLastStationOptimizedLowPtTight))muInfo[7]=1;
    if(muon::isGoodMuon(*mu,muon::TMOneStationAngLoose)) muInfo[8]=1;
    if(muon::isGoodMuon(*mu,muon::TMOneStationAngTight)) muInfo[9]=1;
    if(muon::isGoodMuon(*mu,muon::TMLastStationAngLoose)) muInfo[10]=1;
    if(muon::isGoodMuon(*mu,muon::TMLastStationAngTight)) muInfo[11]=1;
    if(muon::isGoodMuon(*mu,muon::GMTkChiCompatibility)) muInfo[12]=1;
    if(muon::isGoodMuon(*mu,muon::GMStaChiCompatibility)) muInfo[13]=1;
    if(muon::isGoodMuon(*mu,muon::GMTkKinkTight)) muInfo[14]=1;
}

    // ------------ method called once each job just before starting event loop  ------------
void 
HbbAnalyzerNew::beginJob(){
}


    // ------------ method called once each job just after ending the event loop  ------------
void 
HbbAnalyzerNew::endJob() {
}

TVector2 HbbAnalyzerNew::getTvect( const pat::Jet* patJet ){
    
    TVector2 t_Vect(0,0);
    TVector2 null(0,0);
    TVector2 ci(0,0);
    TLorentzVector pi(0,0,0,0);
    TLorentzVector J(0,0,0,0);
    TVector2 r(0,0);
    double patJetpfcPt = 1e10;
    double r_mag = 1e10;
    unsigned int nOfconst = 0;
    
    
    if (patJet->isPFJet() == false) {
        return t_Vect;
    }
    
    
        //re-reconstruct the jet direction with the charged tracks
    std::vector<reco::PFCandidatePtr>
    patJetpfc = patJet->getPFConstituents();
    for(size_t idx = 0; idx < patJetpfc.size(); idx++){
        if( patJetpfc.at(idx)->charge() != 0 ){
            pi.SetPtEtaPhiE( patJetpfc.at(idx)->pt(), patJetpfc.at(idx)->eta(), patJetpfc.at(idx)->phi(), patJetpfc.at(idx)->energy() );
            J += pi;
            nOfconst++;
        }
    }
        // if there are less than two charged tracks do not calculate the pull (there is not enough info). It returns a null vector
    
    if( nOfconst < 2 )
        return null;
    
    
    TVector2 v_J( J.Rapidity(), J.Phi() );
        //calculate TVector using only charged tracks
    for(size_t idx = 0; idx < patJetpfc.size(); idx++){
        if( patJetpfc.at(idx)->charge() != 0  ){
            patJetpfcPt = patJetpfc.at(idx)->pt();
            pi.SetPtEtaPhiE( patJetpfc.at(idx)->pt(), patJetpfc.at(idx)->eta(), patJetpfc.at(idx)->phi(), patJetpfc.at(idx)->energy() );
            r.Set( pi.Rapidity() - J.Rapidity(), Geom::deltaPhi( patJetpfc.at(idx)->phi(), J.Phi() ) );
            r_mag = r.Mod();
            t_Vect += ( patJetpfcPt / J.Pt() ) * r_mag * r;
        }
    }
    
    
    return t_Vect;
    
}

TLorentzVector HbbAnalyzerNew::getChargedTracksMomentum(const pat::Jet* patJet ){
        //  return TLorentzVector();
    TLorentzVector pi(0,0,0,0);
    TLorentzVector v_j1(0,0,0,0);
    
    
        //  std::cout <<"fff ECCCCCCOOOOO "<<patJet->isPFJet()<<std::endl;
    
    if (patJet->isPFJet() == false ){
        v_j1 = GENPTOLORP(patJet);
        return v_j1;
    }
    std::vector<reco::PFCandidatePtr>
    j1pfc = patJet->getPFConstituents();
    for(size_t idx = 0; idx < j1pfc.size(); idx++){
        if( j1pfc.at(idx)->charge() != 0 ){
            pi.SetPtEtaPhiE( j1pfc.at(idx)->pt(), j1pfc.at(idx)->eta(), j1pfc.at(idx)->phi(), j1pfc.at(idx)->energy() );
            v_j1 += pi;
        }
    }
    return v_j1;
        //re-
}


    //Btagging scale factors
void HbbAnalyzerNew::fillScaleFactors(VHbbEvent::SimpleJet& sj, BTagSFContainer iSF){
    
    
    BinningPointByMap measurePoint;
        //for a USDG
        //for CB jets
        //scale factor 1 for CB jets over 240GeV/c
    if( TMath::Abs(sj.flavour) == 4 or TMath::Abs(sj.flavour) == 5 ){
        measurePoint.insert( BinningVariables::JetEt, sj.p4.Et() );
        measurePoint.insert( BinningVariables::JetAbsEta, fabs(sj.p4.Eta()) );
        if( iSF.BTAGSF_CSVL->isResultOk(PerformanceResult::BTAGBEFFCORR , measurePoint) ){
            sj.SF_CSVL = iSF.BTAGSF_CSVL->getResult(PerformanceResult::BTAGBEFFCORR , measurePoint);
            sj.SF_CSVLerr = iSF.BTAGSF_CSVL->getResult(PerformanceResult::BTAGBERRCORR , measurePoint);   
            if(verbose_){
                std::clog << "C/B Jet flavour = " << sj.flavour << std::endl;
                std::clog << "C/B Jet Et = " << sj.p4.Et() << std::endl;
                std::clog << "C/B Jet eta = " << sj.p4.Eta() << std::endl;          
                std::clog << "C/B CSVL Scale Factor = " << sj.SF_CSVL << std::endl; 
                std::clog << "C/B CSVL Scale Factor error = " << sj.SF_CSVLerr << std::endl; 
            }
        }
        if( iSF.BTAGSF_CSVM->isResultOk(PerformanceResult::BTAGBEFFCORR , measurePoint) ){
            sj.SF_CSVM = iSF.BTAGSF_CSVM->getResult(PerformanceResult::BTAGBEFFCORR , measurePoint);
            sj.SF_CSVMerr = iSF.BTAGSF_CSVM->getResult(PerformanceResult::BTAGBERRCORR , measurePoint);   
        }
        if( iSF.BTAGSF_CSVT->isResultOk(PerformanceResult::BTAGBEFFCORR , measurePoint) ){
            sj.SF_CSVT = iSF.BTAGSF_CSVT->getResult(PerformanceResult::BTAGBEFFCORR , measurePoint);
            sj.SF_CSVTerr = iSF.BTAGSF_CSVT->getResult(PerformanceResult::BTAGBERRCORR , measurePoint);   
        }
        else{
            if(verbose_){
                std::cerr << "No SF found in the database for this jet" << std::endl;
                std::clog << "No SF found: Jet flavour = " << sj.flavour << std::endl;
                std::clog << "No SF found: Jet Et = " << sj.p4.Et() << std::endl;
                std::clog << "No SF found: Jet eta = " << sj.p4.Eta() << std::endl;
            }
        }
    }
    else {
        measurePoint.insert( BinningVariables::JetEt, sj.p4.Et() );
        measurePoint.insert( BinningVariables::JetAbsEta, fabs(sj.p4.Eta()) );
        if( iSF.MISTAGSF_CSVL->isResultOk(PerformanceResult::BTAGLEFFCORR , measurePoint) ){
            sj.SF_CSVL = iSF.MISTAGSF_CSVL->getResult(PerformanceResult::BTAGLEFFCORR , measurePoint);
            sj.SF_CSVLerr = iSF.MISTAGSF_CSVL->getResult(PerformanceResult::BTAGLERRCORR , measurePoint);
            if(verbose_){
                std::clog << "Light Jet flavour = " << sj.flavour << std::endl;
                std::clog << "Light Jet Et = " << sj.p4.Et() << std::endl;
                std::clog << "Light Jet eta = " << sj.p4.Eta() << std::endl;        
                std::clog << "Light CSVL Scale Factor = " << sj.SF_CSVL << std::endl; 
                std::clog << "Light CSVL Scale Factor error = " << sj.SF_CSVLerr << std::endl; 
            }
        }
        if( iSF.MISTAGSF_CSVM->isResultOk(PerformanceResult::BTAGLEFFCORR , measurePoint) ){
            sj.SF_CSVM = iSF.MISTAGSF_CSVM->getResult(PerformanceResult::BTAGLEFFCORR , measurePoint);
            sj.SF_CSVMerr = iSF.MISTAGSF_CSVM->getResult(PerformanceResult::BTAGLERRCORR , measurePoint);
        }
        if( iSF.MISTAGSF_CSVT->isResultOk(PerformanceResult::BTAGLEFFCORR , measurePoint) ){
            sj.SF_CSVT = iSF.MISTAGSF_CSVT->getResult(PerformanceResult::BTAGLEFFCORR , measurePoint);
            sj.SF_CSVTerr = iSF.MISTAGSF_CSVT->getResult(PerformanceResult::BTAGLERRCORR , measurePoint);
        }
        else{
            if(verbose_){
                std::cerr << "No SF found in the database for this jet" << std::endl;
                std::clog << "No SF found: Jet flavour = " << sj.flavour << std::endl;
                std::clog << "No SF found: Jet Et = " << sj.p4.Et() << std::endl;
                std::clog << "No SF found: Jet eta = " << sj.p4.Eta() << std::endl;
            }
        }
    }
    
}

void HbbAnalyzerNew::setJecUnc(VHbbEvent::SimpleJet& sj,JetCorrectionUncertainty* jecunc){
        //
        // test 
        //
    
        //  return;
    double eta = sj.p4.Eta();
    double pt = sj.p4.Pt();
    
    jecunc->setJetEta(eta);
    jecunc->setJetPt(pt); // here you must use the CORRECTED jet pt
    double unc = jecunc->getUncertainty(true);
    sj.jecunc= unc;
}


void HbbAnalyzerNew ::fillSimpleJet (VHbbEvent::SimpleJet& sj, edm::View<pat::Jet>::const_iterator jet_iter){
    sj.flavour = jet_iter->partonFlavour();
    
    sj.tche=jet_iter->bDiscriminator("trackCountingHighEffBJetTags");
    sj.tchp=jet_iter->bDiscriminator("trackCountingHighPurBJetTags");
    sj.jp=jet_iter->bDiscriminator("jetProbabilityBJetTags");
    sj.jpb=jet_iter->bDiscriminator("jetBProbabilityBJetTags");
    sj.ssvhe=jet_iter->bDiscriminator("simpleSecondaryVertexHighEffBJetTags");
    sj.csv=jet_iter->bDiscriminator("combinedSecondaryVertexBJetTags");
    sj.csvmva=jet_iter->bDiscriminator("combinedSecondaryVertexMVABJetTags");
    sj.csvivf=jet_iter->bDiscriminator("combinedInclusiveSecondaryVertexBJetTags");
    sj.cmva=jet_iter->bDiscriminator("combinedMVABJetTags");
    sj.charge=jet_iter->jetCharge();
    sj.ntracks=jet_iter->associatedTracks().size();
    sj.p4=GENPTOLORP(jet_iter);
        //    std::cout << " ECCO "<<sj.csv<< " "<< sj.p4.Pt()<<std::endl;
    sj.chargedTracksFourMomentum=(getChargedTracksMomentum(&*(jet_iter)));
    sj.SF_CSVL=1;
    sj.SF_CSVM=1;
    sj.SF_CSVT=1;
    sj.SF_CSVLerr=0;
    sj.SF_CSVMerr=0;
    sj.SF_CSVTerr=0;
    
    
    if (jet_iter->isPFJet() == true) {
        
        sj.chargedHadronEFraction = jet_iter-> chargedHadronEnergyFraction();
        sj.neutralHadronEFraction = jet_iter-> neutralHadronEnergyFraction ();
        sj.chargedEmEFraction = jet_iter-> chargedEmEnergyFraction ();
        sj.neutralEmEFraction = jet_iter-> neutralEmEnergyFraction ();
        sj.nConstituents = jet_iter->getPFConstituents().size();
        
    }
    sj.jetArea = jet_iter->jetArea();
        //
        // addtaginfo for csv
        //
    
        //    if (jet_iter->hasTagInfo("SimpleSecondaryVertex")) {
    
    const reco::SecondaryVertexTagInfo * tf = jet_iter->tagInfoSecondaryVertex();
    if (tf){
        math::XYZTLorentzVectorD vertexSum;
        for(size_t vi=0;vi< tf->nVertices();vi++)
            {
            vertexSum+=tf->secondaryVertex(vi).p4();
            }
        sj.vtxP4 = GENPTOLOR(vertexSum);
        
        if (tf->nVertices() >0){
            sj.vtxPosition = TVector3(tf->secondaryVertex(0).position().x(),tf->secondaryVertex(0).position().y(),tf->secondaryVertex(0).position().z());
            sj.vtxMass =  tf->secondaryVertex(0).p4().mass();
            sj.vtxNTracks = tf->secondaryVertex(0).nTracks();
            std::vector<reco::TrackBaseRef >::const_iterator tit =  tf->secondaryVertex(0).tracks_begin();
            for (; tit<  tf->secondaryVertex(0).tracks_end(); ++tit){
                sj.vtxTrackIds.push_back(tit->key());
            }
            Measurement1D m = tf->flightDistance(0);
            sj.vtx3dL = m.value();
            sj.vtx3deL = m.error();
        }
    }
    
        // CSV track info
    const reco::SecondaryVertexTagInfo * svTagInfos = jet_iter->tagInfoSecondaryVertex();
    const reco::TrackIPTagInfo * ipTagInfos = jet_iter->tagInfoTrackIP();
    for (edm::RefVector<reco::TrackCollection>::const_iterator t = ipTagInfos->selectedTracks().begin(); t != ipTagInfos->selectedTracks().end(); t++){
        sj.btagTrackIds.push_back(t->key());
    }// all btag IP selected tracks    
    std::vector<const reco::BaseTagInfo*> tagInfos;
    tagInfos.push_back(dynamic_cast<const reco::BaseTagInfo*>(ipTagInfos));
    tagInfos.push_back(dynamic_cast<const reco::BaseTagInfo*>(svTagInfos));
    JetTagComputer::TagInfoHelper helper(tagInfos);
    reco::TaggingVariableList varList = computer->taggingVariables(helper); // computer for getting CSV variables
    
    for(reco::TaggingVariableList::const_iterator iter = varList.begin(); iter != varList.end(); ++iter)
        {
            //std::cout << reco::TaggingVariableTokens[iter->first] << " = " << iter->second << std::endl;
        for (edm::RefVector<reco::TrackCollection>::const_iterator t = ipTagInfos->selectedTracks().begin(); t != ipTagInfos->selectedTracks().end(); t++){
            
            if (strcmp(reco::TaggingVariableTokens[iter->first], "trackMomentum") == 0 && (fabs((float)iter->second - (float)(*t)->p()) < 0.0001) ){
                sj.csvTrackIds.push_back(t->key());
            }// if tagged track
        }// loop on IPtracks        
        }// loop on CSV variables
    
    
    sj.btagNTracks= ipTagInfos->selectedTracks().size();
    sj.csvNTracks = sj.csvTrackIds.size();
    
        //
        // add tVector
        //
    sj.tVector = getTvect(&(*jet_iter));
    
    sj.ptRaw = jet_iter->correctedJet(0).pt();
    
    sj.ptLeadTrack =-9999.;
    if (jet_iter->isPFJet() == true) {
        std::vector <reco::PFCandidatePtr> constituents = jet_iter->getPFConstituents ();
        for (unsigned ic = 0; ic < constituents.size (); ++ic) {
            if ( constituents[ic]->particleId() > 3 ) continue;
            reco::TrackRef trackRef = constituents[ic]->trackRef();
            if ( trackRef.isNonnull() ) { if(trackRef->pt() > sj.ptLeadTrack) sj.ptLeadTrack=trackRef->pt(); }
        }
    }
    
    
}

float HbbAnalyzerNew::metSignificance(const reco::MET * met)
{
    double sigmaX2= met->getSignificanceMatrix()(0,0);
    double sigmaY2= met->getSignificanceMatrix()(1,1);
    double significance = 0;
    try {
        if(sigmaX2<1.e10 && sigmaY2<1.e10) significance = met->significance();
    }
    catch(...)
    {
    std::cout << "PROBLEM WITH MET SIGNIFICANCE sigma X2 and Y2 are: " << sigmaX2 << " " << sigmaY2 << std::endl;
    }
    return significance;
}


    //define this as a plug-in
DEFINE_FWK_MODULE(HbbAnalyzerNew);
Revision:	1.77.2.2
Committed:	Mon Nov 19 20:53:44 2012 UTC (12 years, 5 months ago) by ntran
Content type:	text/plain
Branch:	hbbsubstructDevPostHCP
CVS Tags:	hbbsubstructDev_6, hbbsubstructDev_5, hbbsubstructDev_4, hbbsubstructDev_3, hbbsubstructDev_2, hbbsubstructDev_1
Changes since 1.77.2.1:	+2071 -1996 lines
Log Message:	update with all the new jet collections