bool MuonSortCondition(const TCMuon& m1, const TCMuon& m2) {return (m1.Pt() > m2.Pt());}
Bool_t zgamma::Process(Long64_t entry)
{
GetEntry(entry);
CountEvents(0, "Ntuple events",fcuts);
FillHistoCounts(0, 1);
if (nEvents[0] % (int)5e4 == 0) cout<<nEvents[4]<<" events passed of "<<nEvents[0]<<" checked!"<<endl;
if (nEvents[0] == 1) weighter->SetDataBit(isRealData);
//if (nEvents[0]>20) Abort("enough is enosugh!");
//////////////////
//Trigger status//
//////////////////
Bool_t triggerPass = 1;
Bool_t isFound = 0;
Int_t prescale = 99;
Float_t eventWeight = 1.0;
for (UInt_t i =0; i<ntrig; i++)
{
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if(triggerPass) nEventsTrig[0][i]++;
}
eventWeight = weighter->PUWeight(nPUVerticesTrue);
//cout<<" weight="<<eventWeight<<endl;
ObjID->SetEventInfo(isRealData, runNumber, eventNumber, rhoFactor);
float phoMvaScore;
//cout<<eventNumber<<" ev rho = "<<rhoFactor<<endl;
hists->fill1DHist(nPUVerticesTrue, "nPUVerticesTrue",";nPUVerticesTrue", 100, 0,100, 1,"GEN");
hists->fill1DHist(nPUVertices, "nPUVertices",";nPUVertices", 100, 0,100, 1,"GEN");
nVtx = primaryVtx->GetSize();
HM->Reset(rhoFactor, nVtx);
// --- Primary vertex ---//
if (nVtx<1) return kTRUE;
TCPrimaryVtx *mainPrimaryVertex = 0; mainPrimaryVertex = (TCPrimaryVtx*)(primaryVtx->At(0));
TVector3* pvPosition; pvPosition = mainPrimaryVertex;
HM->SetVtx(*mainPrimaryVertex);
// ----------------------//
// Gen level particles --//
//-----------------------//
vector<TCPhysObject> gen_mu, gen_el;
TCPhysObject gen_gamma, gen_l1, gen_l2, gen_lPt1, gen_lPt2;
TCPhysObject gen_higgs, gen_gamma_st1;
//ZGAnlgles:
double gen_co1,gen_co2,gen_phi,gen_co3;
Float_t genMll = 0;
Float_t gendR = 0;
Float_t genMllg = 0;
if(!isRealData && makeGen){
//Int_t ZID = 3000001; //made-up particle that decays to l+l-
Int_t A = 25;
if (sample=="DY")
A=23;
Int_t fsr_mu_count = 0, fsr_el_count=0;
Int_t ph=0, h=0;
for (int i = 0; i < genParticles->GetSize(); ++i) {
TCGenParticle* thisParticle = (TCGenParticle*) genParticles->At(i);
if (thisParticle->GetPDGId()==23)
hists->fill1DHist(thisParticle->M(), "gen_Z_mass",";m_{Z}^{gen} (GeV)", 200, 0,200, 1,"GEN");
//Higgs himself:
if (thisParticle->GetPDGId()==25 && (thisParticle->GetStatus()==3 || thisParticle->GetStatus()==22)){
hists->fill1DHist(thisParticle->M(), "gen_H_mass",";m_{H}^{gen} (GeV)", 100, 100,200, 1,"GEN");
//ObjID->DiscoverGeneology(thisParticle);
gen_higgs = *thisParticle;
//h++;
}
//GEN MUONS
if (abs(thisParticle->GetPDGId()) == 13 && thisParticle->GetStatus()==1) {
if (ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()==A)
{
hists->fill1DHist(thisParticle->M(), "gen_mu_mass",";gen mu mass", 200, -1,1, 1,"GEN");
gen_mu.push_back(*thisParticle);
//ObjID->DiscoverGeneology(thisParticle);
}
//this is for the Madgraph case, where there are events with no Higgs in LHE file
//(while there are always should be):
else if (h==0 && thisParticle->Mother() //good boys should have a mother
&& ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId() == thisParticle->GetPDGId())
{
//cout<<" --- this one --->>>"<<endl;
//ObjID->DiscoverGeneology(thisParticle);
//cout<<" <<--- this one"<<endl;
hists->fill1DHist(thisParticle->M(), "gen_mu_mass",";gen mu mass", 200, -1,1, 1,"GEN");
gen_mu.push_back(*thisParticle);
}
}
//GEN ELECTRONS
if (abs(thisParticle->GetPDGId()) == 11 && thisParticle->GetStatus()==1) {
if (ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()==A)
gen_el.push_back(*thisParticle);
else if (h==0 && thisParticle->Mother()
&& ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId() == thisParticle->GetPDGId())
gen_el.push_back(*thisParticle);
}
//if (thisParticle->GetPDGId()==22 && thisParticle->Pt()>2)
// ObjID->DiscoverGeneology(thisParticle);
//PHOTON from the Higgs
if (thisParticle->GetPDGId()==22 && (thisParticle->GetStatus()==1 || thisParticle->GetStatus()==23)
&& thisParticle->Mother() && abs(thisParticle->Mother()->GetPDGId())!=11 && abs(thisParticle->Mother()->GetPDGId())!=13
&& abs(thisParticle->Mother()->GetPDGId())!=15)
{
//cout<<" DBG gen particles. Ancestorr = "<<ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()<<endl;
if (ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()==A || thisParticle->Mother()->GetPDGId()==A){
gen_gamma = *thisParticle;
ph++;
}
else if (h==0 && ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId() == thisParticle->GetPDGId()) {
gen_gamma = *thisParticle;
ph++;
}
}
else if (sample=="DY" &&
thisParticle->GetPDGId()==22 && thisParticle->GetStatus()==1 && ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()==23)
gen_gamma = *thisParticle;
// **** Find FSR PHOTONS *** //
if (thisParticle->GetPDGId()==22 //&& thisParticle->GetStatus()==1
&& thisParticle->Mother()
//&& ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()==A
&& selection=="mugamma" && abs(thisParticle->Mother()->GetPDGId())==13
)
{
hists->fill1DHist(thisParticle->Pt(), "gen_fsr_pho_pt",";gen fsr photon pt", 200, 0,30, 1,"GEN");
// if (ObjID->GetPrimaryAncestor(thisParticle)->GetPDGId()!=A)
//if (thisParticle->Pt() > 30)
//ObjID->DiscoverGeneology(thisParticle);
Float_t preFSR_pt = thisParticle->Mother()->Pt();
for (int j = 0; j < genParticles->GetSize(); ++j) {
TCGenParticle* fsr = (TCGenParticle*) genParticles->At(j);
if(fsr->GetPDGId() == thisParticle->Mother()->GetPDGId()
&& fsr->Mother() == thisParticle->Mother()){
//cout<<" 0--- this one --->>>"<<endl;
//ObjID->DiscoverGeneology(fsr);
//cout<<" <<---0 this one"<<endl;
hists->fill1DHist((preFSR_pt - fsr->Pt())/preFSR_pt, "gen_fsr_mu_dPt",";gen mu (Pt_preFSR - Pt_afterFSR)/pt", 200, -0.4,1, 1,"GEN");
if(thisParticle->Pt() > 1)
hists->fill1DHist((preFSR_pt - fsr->Pt())/preFSR_pt, "gen_fsr_mu_dPt_photonPt1",";gen mu (Pt_preFSR - Pt_afterFSR)/pt", 200, -0.4,1, 1,"GEN");
fsr_mu_count++;
}
}
}//end of fsr photons loop
}// end of genparticles loop
if (ph!=1 && (sample=="dalitz" || sample =="HZG"))
Abort(Form("ev #%i NONONO There has to be exactly one photon from the Higgs! \n \t\t but there is %i",
(int)eventNumber, (int)ph));
//if (h!=1 && sample=="dalitz")
//return kTRUE;
//Abort(Form(" NONONO There has to be exactly one Higgs! \n \t\t but there is %i", h));
sort(gen_el.begin(), gen_el.end(), P4SortCondition);
sort(gen_mu.begin(), gen_mu.end(), P4SortCondition);
hists->fill1DHist(fsr_mu_count, "gen_mu_fsrcount",";gen mu FSR", 4, 0,4, 1,"GEN");
hists->fill1DHist(fsr_el_count, "gen_el_fsrcount",";gen el FSR", 4, 0,4, 1,"GEN");
if(selection=="mugamma"){
if (gen_mu.size()!=2) return kTRUE;
//Abort(Form("ev #%i NONONO There has to be exactly 2 muons from the Higgs! \n \t\t but there are %i", eventNumber, (int)gen_mu.size()));
gen_lPt1 = gen_mu[0];
gen_lPt2 = gen_mu[1];
// If there are more muons - it's confusing, so let's just ignore them for now.
// (they may come from ZH -> ZZgamma process)
if (gen_mu[0].Charge()==1 && gen_mu[1].Charge()==-1){
gen_l1 = gen_mu[0];
gen_l2 = gen_mu[1];
}
else if (gen_mu[0].Charge()==-1 && gen_mu[1].Charge()==1){
gen_l1 = gen_mu[1];
gen_l2 = gen_mu[0];
}
else
Abort("They are the same charge!");
//cout<<"\t\t event = "<<eventNumber<<" "<<endl;
//cout<<" charge = "<<gen_l1.Charge()<<" pt = "<<gen_l1.Pt()<<" eta="<<gen_l1.Eta()<<" phi="<<gen_l1.Phi()<<endl;
//cout<<" charge = "<<gen_l2.Charge()<<" pt = "<<gen_l2.Pt()<<" eta="<<gen_l2.Eta()<<" phi="<<gen_l2.Phi()<<endl;
}
if (gen_el.size()!=2 && gen_mu.size()!=2)
Abort(Form(" - - WARNING - -\n ev #%i What's up with that?\n There should be exact two leptons from Higgs. Insteat there %i",
(int)eventNumber, (int)(gen_el.size() + gen_mu.size())));
if (gen_gamma.E()==0 && sample=="dalitz")// return kTRUE;
Abort(Form("%i: No gen gamma in an event? that sounds bad",(int)eventNumber));//return kTRUE;
if (sample=="dalitz" || sample=="HZG"){
ang->GetAngles(gen_l1, gen_l2, gen_gamma, gen_co1,gen_co2,gen_phi,gen_co3);
//cout<<eventNumber<<" gen Angles: c1= "<<co1<<" c2="<<co2<<" gen_phi="<<gen_phi<<" coTh="<<co3<<endl;
hists->fill1DHist(gen_co1, "gen_co1",";gen cos_lp", 100,-1,1, 1,"GEN");
hists->fill1DHist(gen_co2, "gen_co2",";gen cos_lm", 100,-1,1, 1,"GEN");
hists->fill1DHist(gen_co3, "gen_co3",";gen cosTheta",100,-1,1, 1,"GEN");
hists->fill1DHist(gen_phi, "gen_phi",";gen phi lp", 100, -TMath::Pi(), TMath::Pi(), 1,"GEN");
}
gendR = gen_l1.DeltaR(gen_l2);
genMll = (gen_l1+gen_l2).M();
genMllg = (gen_l1+gen_l2+gen_gamma).M();
hists->fill1DHist(genMll,"gen_Mll_init", ";m_{#mu#mu}",50,0, 20, 1,"GEN");
hists->fill1DHist(genMll,"gen_Mll_init_b40", ";m_{#mu#mu}", 40,0, 20, 1,"GEN");
hists->fill1DHist(genMll,"gen_Mll_low", ";m_{#mu#mu}",100,0, 1, 1,"GEN");
hists->fill1DHist(genMll,"gen_Mll_50", ";m_{#mu#mu}",100,0, 50, 1,"GEN");
hists->fill1DHist(genMll,"gen_Mll_full", ";m_{#mu#mu}",200,0,130, 1,"GEN");
hists->fill1DHist(genMll,"gen_Mll_inter",";m_{#mu#mu}",100,20,80, 1,"GEN");
hists->fill1DHist(genMll,"gen_Mll_0",";gen_Mll",100,0,mllMax, 1,"eff");
hists->fill1DHist(gendR, "gen_dR_0", ";gen_dR", 50,0,0.3,1,"eff");
hists->fillProfile(gendR, genMll, "gen_Mll_vs_dR", ";dR(l1,l2);M(l1,l2)", 100, 0, 0.5, 0, 20, 1,"eff");
//Acceptance study (do not erase!)
if (sample =="dalitz" && gen_gamma.Pt()>cut_gammapt && fabs(gen_gamma.Eta())<2.5){
hists->fill1DHist(genMll, "gen_Mll_acc_gamma",";gen_Mll",100,0,mllMax, 1,"eff");
hists->fill1DHist(gendR, "gen_dR_acc_gamma", ";gen_dR", 50,0,0.3,1,"eff");
if(sample=="dalitz" &&
gen_lPt1.Pt()>cut_l1pt && fabs(gen_lPt1.Eta())<2.4 &&
gen_lPt2.Pt()>cut_l2pt_low && fabs(gen_lPt2.Eta())<2.4
){
hists->fill1DHist(genMll, "gen_Mll_acc_lept", ";gen_Mll",100,0,mllMax, 1,"eff");
hists->fill1DHist(gendR, "gen_dR_acc_lept", ";gen_dR", 50,0,0.3,1,"eff");
}
else if (accCut)
return kTRUE;
}
else if (accCut)
return kTRUE;
if (sample == "dalitz" || sample=="HZG"){
hists->fill1DHist(gen_l1.DeltaR(gen_gamma),"gen_l1gamma_deltaR",";#Delta R(#mu_{1}, #gamma)",100,0,5, 1,"GEN");
hists->fill1DHist(gen_l2.DeltaR(gen_gamma),"gen_l2gamma_deltaR",";#Delta R(#mu_{2}, #gamma)",100,0,5, 1,"GEN");
hists->fill1DHist(gen_higgs.Pt(), "gen_higgs_pt", ";p_{T}^{H} (GeV)", 100, 0,150, 1, "GEN");
hists->fill1DHist(gen_higgs.M(), "gen_higgs_mass",";m_{H} (GeV)", 100, 100,180, 1, "GEN");
hists->fill1DHist(gen_gamma.Pt(), "gen_gamma_pt", ";p_{T}^{#gamma}", 50, 0,150, 1, "GEN");
hists->fill1DHist(gen_gamma.Eta(), "gen_gamma_eta", ";#eta^{#gamma}", 50, -3,3, 1, "GEN");
//hists->fill1DHist(gen_gamma_st1.Pt(), "gen_gamma_st1_pt","Pt of gamma", 50, 0,150, 1, "");
//hists->fill1DHist(gen_gamma_st1.Eta(),"gen_gamma_st1_eta","Eta of gamma", 50, -3,3, 1, "");
}
FillHistoCounts(1, eventWeight);
CountEvents(1,"Pass Gen acceptance",fcuts);
//if (genMll<2.9 || genMll>3.3)
//return kTRUE;
}
FillHistoCounts(2, eventWeight);
CountEvents(2, "Acceptance, and JPsi selection", fcuts);
//CountEvents(2, "Acceptance", fcuts);
vector<TCElectron> electrons0, electrons;
vector<TCMuon> muons0, muons;
vector<TCPhoton> photons0, photonsTight, photonsHZG, photonsMVA, fake_photons;
vector<TCJet> jets;
TCPhysObject l1,l2, lPt1, lPt2;
TCPhoton gamma0, gamma;
TCJet jet1, jet2;
//------------------------//
//--- PHOTON SELECTION ---//
//-----------------------//
for (Int_t i = 0; i < recoPhotons->GetSize(); ++i) {
//cout<<"new photon!!!!!!!"<<endl;
TCPhoton* thisPhoton = (TCPhoton*) recoPhotons->At(i);
//cout<<"in photon loop event = "<<eventNumber
// <<"\n pt="<<thisPhoton->Pt()<<" eta="<<thisPhoton->Eta()<<" phi="<<thisPhoton->Phi()<<" px="<<thisPhoton->Px()<<endl;
//if (isRealData || !makeGen || (makeGen &&gen_lPt1.DeltaR(*thisPhoton) < 0.1 && thisPhoton->Pt()>20))
//fake_photons.push_back(*thisPhoton);
if (!(fabs(thisPhoton->SCEta()) < 2.5)) continue;
if(thisPhoton->Pt() > 15){
//if (isRealData || !makeGen || (sample=="dalitz" && makeGen && gen_gamma.DeltaR(*thisPhoton) < 0.1) )
photons0.push_back(*thisPhoton);
if(ObjID->PassPhotonIdAndIso(*thisPhoton, "CutBased-MediumWP", phoMvaScore)
//&& (isRealData || !makeGen || (sample=="dalitz" && makeGen && gen_gamma.DeltaR(*thisPhoton) < 0.2) )
)
{
Double_t scale = 1;
Double_t corrPhoEnSC = correctedPhotonEnergy(thisPhoton->SCEnergy(), thisPhoton->SCEta(), thisPhoton->R9(), runNumber,
0, "Moriond2014", !isRealData, myRandom);
Double_t corrPhoEnReco = correctedPhotonEnergy(thisPhoton->E(), thisPhoton->SCEta(), thisPhoton->R9(), runNumber,
0, "Moriond2014", !isRealData, myRandom);
HM->MakePhotonEnergyCorrPlots(*thisPhoton, corrPhoEnReco, corrPhoEnSC);
Double_t corrReg = correctedPhotonEnergy(thisPhoton->EnergyRegression(), thisPhoton->SCEta(), thisPhoton->R9(), runNumber,
1, "Moriond2013", !isRealData, myRandom);
//Double_t Reg2 = thisPhoton->EnergyRegression()-thisPhoton->EnergyRegressionErr();
//Double_t Reg2 = myRandom->Gaus(thisPhoton->EnergyRegression(),thisPhoton->EnergyRegressionErr());
//Double_t corrReg2 = correctedPhotonEnergy(Reg2, thisPhoton->SCEta(), thisPhoton->R9(), runNumber,
// 1, "Moriond2013", !isRealData, myRandom);
//cout<<runNumber<<" uncor en="<< thisPhoton->E()<<" reg en = "<<thisPhoton->EnergyRegression()
// <<" regerr ="<<thisPhoton->EnergyRegressionErr()<<" gaus(Reg,err)="<<Reg2<<endl;
//cout<<" corrReg = "<<corrReg<<" corrReg2 = "<<corrReg2<<endl;
//scale = corrPhoEnReco/thisPhoton->E(); //Yes - use this one for mumugamma
//scale = corrPhoEnSC/thisPhoton->E();
//scale = corrReg2/thisPhoton->E();
scale = corrReg/thisPhoton->E();
thisPhoton->SetXYZM(scale*thisPhoton->Px(), scale*thisPhoton->Py(),scale*thisPhoton->Pz(),0);
//cout<<runNumber<<" uncor en="<< thisPhoton->E()<<" cor en = "<<corrPhoEn<<endl;
//thisPhoton->SetPtEtaPhiM(corrPhoEnSC/cosh(SCEta()));
thisPhoton->SetIdMap("mvaScore", phoMvaScore);
photonsHZG.push_back(*thisPhoton);
}
if(ObjID->PassPhotonIdAndIso(*thisPhoton, "CutBased-TightWP", phoMvaScore)){
thisPhoton->SetIdMap("mvaScore", phoMvaScore);
photonsTight.push_back(*thisPhoton);
}
if(ObjID->PassPhotonIdAndIso(*thisPhoton, "MVA", phoMvaScore)){
thisPhoton->SetIdMap("mvaScore", phoMvaScore);
photonsMVA.push_back(*thisPhoton);
}
}
}
sort(photons0.begin(), photons0.end(), P4SortCondition);
sort(photonsTight.begin(), photonsTight.end(), P4SortCondition);
sort(photonsHZG.begin(), photonsHZG.end(), P4SortCondition);
sort(photonsMVA.begin(), photonsMVA.end(), P4SortCondition);
//sort(fake_photons.begin(), fake_photons.end(), P4SortCondition);
//if (fake_photons.size()>1)
// Abort("Nah, this is too much.");
//if (photonsTight.size()<1) return kTRUE;
//gamma = photonsTight[0];
if (photonsHZG.size()<1) return kTRUE;
gamma = photonsHZG[0];
//if (photonsMVA.size()<1) return kTRUE;
//gamma = photonsMVA[0];
if (!isRealData)
eventWeight *= weighter->PhotonSF(gamma);
//if (photons0.size()<1) return kTRUE;
//gamma0 = photons0[0];
//if (gamma0.Pt() < cut_gammapt) return kTRUE;
//------------------------//
//--- ELECTRON SELECTION ---//
//-----------------------//
for (Int_t i = 0; i < recoElectrons->GetSize(); ++i) {
TCElectron* thisElec = (TCElectron*) recoElectrons->At(i);
if (!(fabs(thisElec->Eta()) < 2.5)) continue;
if (thisElec->Pt() > 10.0){
if(isRealData || !makeGen || ( selection=="elgamma" && makeGen && (gen_l1.DeltaR(*thisElec) < 0.1 || gen_l2.DeltaR(*thisElec)<0.1) && thisElec->Pt()>10))
{
if (thisElec->MvaID() > -0.50 && thisElec->Pt()>20)
electrons.push_back(*thisElec);
}
if (
//PassElectronIdAndIsoMVA(thisElec)
ObjID->PassElectronIdAndIso(*thisElec, pvPosition, "Loose")
)
electrons0.push_back(*thisElec);
}
}
sort(electrons0.begin(), electrons0.end(), P4SortCondition);
sort(electrons.begin(), electrons.end(), P4SortCondition);
if (doZee){
//----------------------//
//------ Z->ee STUDY ---//
//----------------------//
if (electrons.size()<2 || photons0.size()<2) return kTRUE;
//cout<<"doing zee. Enough photons and electrons!"<<endl;
if (checkTrigger){
triggerSelector->SelectTrigger(myTrigger, triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if (!triggerPass) return kTRUE;
}
//cout<<"passed the trigger"<<endl;
Int_t match1 = -1, match2 = -1;
for (UInt_t p=0; p<photons0.size(); p++)
{
if (photons0[p].Pt() < 40 || fabs(photons0[p].SCEta())>1.4442) continue;
for (UInt_t e=0; e<electrons.size(); e++)
{
if (photons0[p].DeltaR(electrons[e]) < 0.2)
{
//cout<<"matched! photon "<<p<<" to electron "<<e<<endl;
if (match1==-1) match1=p;
else {match2=p; break;}
}
}
}
if (match1!=-1 && match2!=-1)
HM->MakeZeePlots(photons0[match1], photons0[match2]);
return kTRUE;
}
//------------------------//
//--- MUON SELECTION ---//
//-----------------------//
for (Int_t i = 0; i < recoMuons->GetSize(); ++ i) {
TCMuon* thisMuon = (TCMuon*) recoMuons->At(i);
//cout<<"event = "<<eventNumber
// <<"\n pt="<<thisMuon->Pt()<<" eta="<<thisMuon->Eta()<<" phi="<<thisMuon->Phi()<<" px="<<thisMuon->Px()<<endl;
if (!(fabs(thisMuon->Eta()) < 2.4)) continue;
if(thisMuon->Pt() > 4)
for(Int_t ev=0; ev<evSize;ev++){
if (eventNumber==hisEVTS[ev]){cout<<" mu>4 cut ---> "<<eventNumber<<" <--- Found an event after cut "<<endl;
ObjID->MuonDump(*thisMuon, pvPosition);
break;}}
if(thisMuon->Pt() > 4 && ObjID->PassMuonId(*thisMuon, pvPosition, "Soft") ) {
if (doRochCorr){
Float_t qter = 1;
if (isRealData){
roch->momcor_data(*thisMuon, thisMuon->Charge(), 0, qter);
if (period=="2012D")
roch->momcor_data(*thisMuon, thisMuon->Charge(), 1, qter);
}
else
roch->momcor_mc (*thisMuon, thisMuon->Charge(), 0, qter );
//cout<<"DBG rochcor. qterr = "<<qter<<endl;
}
muons.push_back(*thisMuon);
}
}
sort(muons.begin(), muons.end(), P4SortCondition);
if(!isRealData && makeGen){
hists->fill1DHist(genMll, "gen_Mll_reco_gamma", ";gen_Mll",100,0,mllMax, 1,"eff");
hists->fill1DHist(gendR, "gen_dR_reco_gamma", ";gen_dR", 50, 0,0.3, 1,"eff");
}
if (checkTrigger){
triggerSelector->SelectTrigger(myTrigger, triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if (!triggerPass) return kTRUE;
}
if (gamma.Pt() < cut_gammapt) return kTRUE;
//if (fabs(gamma.SCEta()) > 1.4442) return kTRUE;
if(!isRealData && makeGen){
hists->fill1DHist(genMll, "gen_Mll_reco_gamma_iso", ";gen_Mll",100,0,mllMax, 1,"eff");
hists->fill1DHist(gendR, "gen_dR_reco_gamma_iso", ";gen_dR", 50, 0,0.3, 1,"eff");
}
FillHistoCounts(3, eventWeight);
CountEvents(3,"Pass Trigger and Photon reco selection",fcuts);
HM->MakeNPlots(3,muons.size(), electrons.size(), electrons0.size(), photonsHZG.size(),
photonsTight.size(), photonsMVA.size(), jets.size(), eventWeight);
if (muons.size()<2) return kTRUE;
//------------------------//
//------ PICK THE Muons --//
//------------------------//
Float_t tmpMll = 99999;
if (muons.size()==2){
lPt1 = muons[0];
lPt2 = muons[1];
}
else
for (UInt_t m1=0; m1 < muons.size(); m1++){
for (UInt_t m2=m1; m2 < muons.size(); m2++){
if (muons[m1].Charge()*muons[m2].Charge()==1) continue; //same charge - don't care
if( (muons[m1]+muons[m2]).M() < tmpMll)
{
lPt1 = muons[m1];
lPt2 = muons[m2];
tmpMll = (muons[m1]+muons[m2]).M();
}
}
}
if (lPt1.Charge()==1 && lPt2.Charge()==-1){
l1 = lPt1;
l2 = lPt2;
}
else if (lPt1.Charge()==-1 && lPt2.Charge()==1){
l1 = lPt2;
l2 = lPt1;
}
else{
//cout<<"ch1 = "<<muons[0].Charge()<<" ch2 = "<<muons[1].Charge()<<endl;
return kTRUE;//Abort("reco * They are the same charge!");
}
//------------------------//
//------JET SELECTION ---//
//-----------------------//
for (Int_t i = 0; i < recoJets->GetSize(); ++i) {
TCJet* thisJ = (TCJet*) recoJets->At(i);
if (thisJ->Pt() < 30 || fabs(thisJ->Eta())>4.7) continue;
if (thisJ->DeltaR(gamma) < 0.4) continue;
if (thisJ->DeltaR(lPt1) < 0.3 || thisJ->DeltaR(lPt2) < 0.3) continue;
if (ObjID->PassJetID(*thisJ, nVtx))
jets.push_back(*thisJ);
}
sort(jets.begin(), jets.end(), P4SortCondition);
if (jets.size()>=1){
jet1 = jets[0];
HM->SetJet1(jet1);
}
Bool_t isVBF = 0;
if (jets.size()>=2){
jet2 = jets[1];
HM->SetJet2(jet2);
//--------------------------//
//----- VBF SELECTION ------//
//--------------------------//
if (fabs(jet1.Eta() - jet2.Eta()) > 3.
&& (jet1+jet2).M() > 450
&& fabs(HM->Zeppenfeld((lPt1+lPt2+gamma),jet1,jet2)) < 4
//&& (jet1+jet2).DeltaPhi(lPt1+lPt2+gamma)) > 0.1
)
isVBF = 1;
}
//-------------------------//
//------MISSING ENERGY ---//
//------------------------//
HM->SetMet(*recoMET);
//cout<<"MET: "<<recoMET->Mod()<<endl;
//---------------------------------//
//------ KINEMATIC SELECTION ------//
//---------------------------------//
Double_t Mll = (l1+l2).M();
Double_t Mllg = (l1+l2+gamma).M();
Double_t dR = l1.DeltaR(l2);
hists->fill1DHist(Mll, Form("diLep_mass_low_cut%i", 3),";M(ll)", 50, 0,20, 1, "");
hists->fill1DHist(Mll, Form("diLep_mass_high_cut%i", 3),";M(ll)", 50, 0,120, 1, "");
if (ObjID->CalculateMuonIso(muons[0]) > 0.4)
return kTRUE;
//if (lPt2.Pt() > 20 && ObjID->CalculateMuonIso(&muons[1]) > 0.4)
//return kTRUE;
HM->MakePhotonPlots(gamma);
if (lPt1.Pt() < cut_l1pt || lPt2.Pt() < cut_l2pt_low) return kTRUE;
//if (!isfinite(eventWeight))
//cout<<"nan/inf "<<eventWeight<<endl;
// if (fabs(eventWeight)>50 || fabs(eventWeight)<0.00001)
if (!isRealData){
eventWeight *= weighter->MuonSF(lPt1);
eventWeight *= weighter->MuonSF(lPt2);
}
if (!isfinite(eventWeight))
cout<<"nan after muon sf "<<eventWeight<<endl;
if(!isRealData && makeGen){
hists->fill1DHist(genMll, "gen_Mll_two_lep_reco", ";gen_Mll",100,0,mllMax, 1,"eff");
hists->fill1DHist(gendR, "gen_dR_two_lep_reco", ";gen_dR", 50, 0,0.3, 1,"eff");
double co1,co2,phi,co3;
if (sample=="dalitz" || sample=="HZG"){
ang->GetAngles(l1, l2, gamma, co1,co2,phi,co3);
//cout<<eventNumber<<" gen Angles: c1= "<<co1<<" c2="<<co2<<" phi="<<phi<<" coTh="<<co3<<endl;
hists->fill1DHist((gen_co1 - co1)/gen_co1, "res_co1",";Resolution on cos(#vec{l-},#vec{Z})", 100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((gen_co2 - co2)/gen_co2, "res_co2",";Resolution on cos(#vec{l+},#vec{Z})", 100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((gen_co3 - co3)/gen_co3, "res_co3",";Resolution on cos(#Theta)", 100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((gen_phi - phi)/gen_phi, "res_phi",";Resolution on #phi(l+)", 100, -0.2,0.2, 1,"GEN");
}
if (fabs(gamma.SCEta()) < 1.4442){
hists->fill1DHist((genMll - Mll)/genMll, "res_EB_Mll",
";(m_{#mu#mu}^{gen} - m_{#mu#mu}^{reco})/m_{#mu#mu}^{gen}", 100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((genMllg - Mllg)/genMllg, "res_EB_Mllg",
";(m_{#mu#mu#gamma}^{gen} - m_{#mu#mu#gamma}^{reco})/m_{#mu#mu#gamma}^{gen}",100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((gendR - dR)/gendR, "res_EB_dR",
";(dR_{#mu#mu}^{gen} - dR_{#mu#mu}^{reco})/dR_{#mu#mu}^{gen}", 100, -0.2,0.2, 1,"GEN");
float mllBins[9] = {0,0.2,0.5,1,2,4,9,20,50};
hists->fill2DHistUnevenBins(genMll,Mll , "res_2D_EB_Mll", ";m_{#mu#mu}^{gen};m_{#mu#mu}^{reco}", 8,mllBins, 8,mllBins, 1,"GEN");
for(int m=1; m<8; m++){
if (Mll > mllBins[m-1] && Mll < mllBins[m]){
hists->fill1DHist((genMll - Mll)/genMll, Form("res_EB_Mll_%.1fto%.1f",mllBins[m-1],mllBins[m]),
";(m_{#mu#mu}^{gen} - m_{#mu#mu}^{reco})/m_{#mu#mu}^{gen}", 100, -0.1,0.1, 1,"GEN");
hists->fill1DHist((genMllg - Mllg)/genMllg, Form("res_EB_Mllg_%.1fto%.1f",mllBins[m-1],mllBins[m]),
";(m_{#mu#mu#gamma}^{gen} - m_{#mu#mu#gamma}^{reco})/m_{#mu#mu#gamma}^{gen}",100, -0.1,0.1, 1,"GEN");
}
}
}
else if (fabs(gamma.SCEta()) > 1.566){
hists->fill1DHist((genMll - Mll)/genMll, "res_EE_Mll",
";(m_{#mu#mu}^{gen} - m_{#mu#mu}^{reco})/m_{#mu#mu}^{gen}", 100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((genMllg - Mllg)/genMllg, "res_EE_Mllg",
";(m_{#mu#mu#gamma}^{gen} - m_{#mu#mu#gamma}^{reco})/m_{#mu#mu#gamma}^{gen}",100, -0.2,0.2, 1,"GEN");
hists->fill1DHist((gendR - dR)/gendR, "res_EE_dR",
";(dR_{#mu#mu}^{gen} - dR_{#mu#mu}^{reco})/dR_{#mu#mu}^{gen}", 100, -0.2,0.2, 1,"GEN");
}
}
HM->SetLeptons(lPt1, lPt2);
HM->SetGamma(gamma);
HM->FillHistosFull(4, eventWeight);
FillHistoCounts(4, eventWeight);
CountEvents(4, "Two muons selected", fcuts);
HM->MakeNPlots(4,muons.size(), electrons.size(), electrons0.size(), photonsHZG.size(),
photonsTight.size(), photonsMVA.size(), jets.size(), eventWeight);
if (sample!="HZG" && Mll > 50)
return kTRUE;
if (makeApzTree){
apz_w = eventWeight;
*apz_lep1 = lPt1;
*apz_lep2 = lPt2;
*apz_gamma = gamma;
*apz_jet1 = jet1;
*apz_jet2 = jet2;
*apz_met = *recoMET;
apz_njets = jets.size();
//cout<<"\t orig = "<<lPt1.Phi()<<endl;
//cout<<"\t apz = "<<apz_lep1->Phi()<<endl;
//lPt1.SetPhi(0.001);
//cout<<"orig = "<<lPt1.Phi()<<endl;
//cout<<"apz = "<<apz_lep1->Phi()<<endl;
apz_pt1 = lPt1.Pt();
apz_pt2 = lPt2.Pt();
apz_pt3 = gamma.Pt();
apz_pt4 = -1;
apz_pt12 = (lPt1+lPt2).Pt();
apz_pt34 = gamma.Pt();
apz_dr1234 = (lPt1+lPt2).DeltaR(gamma);
apz_dr12 = lPt1.DeltaR(lPt2);
apz_dr13 = lPt1.DeltaR(gamma);
apz_dr23 = lPt2.DeltaR(gamma);
apz_dr34 = -1;
apz_eta1 = lPt1.Eta();
apz_eta2 = lPt2.Eta();
apz_eta3 = gamma.SCEta();
apz_eta4 = -999;
apz_eta12 = (lPt1+lPt2).Eta();
apz_eta34 = gamma.SCEta();
apz_eta1234 = (lPt1+lPt2+gamma).Eta();
apz_m12 = (lPt1+lPt2).M();
apz_m34 = gamma.M();
apz_m123 = (lPt1+lPt2+gamma).M();
apz_m4l = 0;
apz_vbf = isVBF;
triggerSelector->SelectTrigger("HLT_Mu22_Photon22_CaloIdL_v", triggerStatus, hltPrescale, isFound, triggerPass, prescale);
apz_trig1 = triggerPass;
triggerSelector->SelectTrigger("HLT_IsoMu24_v", triggerStatus, hltPrescale, isFound, triggerPass, prescale);
apz_trig2 = triggerPass;
triggerSelector->SelectTrigger("HLT_IsoMu24_eta2p1_v", triggerStatus, hltPrescale, isFound, triggerPass, prescale);
apz_trig3 = triggerPass;
triggerSelector->SelectTrigger("HLT_Mu13_Mu8_v", triggerStatus, hltPrescale, isFound, triggerPass, prescale);
apz_trig4 = triggerPass;
triggerSelector->SelectTrigger("HLT_Mu17_Mu8_v", triggerStatus, hltPrescale, isFound, triggerPass, prescale);
apz_trig5 = triggerPass;
_apzTree->Fill();
apz_lep1->Clear();
apz_lep2->Clear();
apz_gamma->Clear();
apz_jet1->Clear();
apz_jet2->Clear();
apz_met->Clear();
}
//for(Int_t ev=0; ev<evSize;ev++){
//if (eventNumber==hisEVTS[ev]){cout<<eventNumber<<" Found an event after lept selection "<<endl;
// cout<<"Mll = "<<Mll<<endl;
// break;}
//}
//if (Mllg<60 || Mllg>120)
if (sample!="HZG" &&(Mllg<110 || Mllg>170))
return kTRUE;
HM->FillHistosFull(5, eventWeight);
FillHistoCounts(5, eventWeight);
//CountEvents(5, "76 < m(llg) < 106; m(ll) < 50", fcuts);
CountEvents(5, "110 < m(llg) < 170; m(ll) < 50", fcuts);
if (lPt1.DeltaR(gamma)<1.0 || lPt2.DeltaR(gamma)<1.0) return kTRUE;
if ( (Mll>2.9 && Mll<3.3) || (Mll>9.3 && Mll<9.7)) return kTRUE; //jpsi and upsilon removeal
//CountEvents(6, "dR(l,g) > 1", fcuts);
CountEvents(6, "dR(l,g) > 1; removed J/Psi, Ups", fcuts);
HM->FillHistosFull(6, eventWeight);
FillHistoCounts(6, eventWeight);
HM->MakeNPlots(6,muons.size(), electrons.size(), electrons0.size(), photonsHZG.size(),
photonsTight.size(), photonsMVA.size(), jets.size(), eventWeight);
if (Mll < 20) {
HM->FillHistosFull(7, eventWeight);
FillHistoCounts(7, eventWeight);
CountEvents(7, "m(ll) < 20 GeV", fcuts);
HM->MakeNPlots(7,muons.size(), electrons.size(), electrons0.size(), photonsHZG.size(),
photonsTight.size(), photonsMVA.size(), jets.size(), eventWeight);
HM->MakeMuonPlots(muons[0]);
HM->MakeMuonPlots(muons[1]);
if (fabs(gamma.SCEta()) < 1.4442){
HM->FillHistosFull(8, eventWeight);
FillHistoCounts(8, eventWeight);
CountEvents(8, "gamma eta < 1.4442", fcuts);
if ((l1+l2).Pt()/Mllg > 0.30 && gamma.Pt()/Mllg > 0.30) {
HM->FillHistosFull(9, eventWeight);
FillHistoCounts(9, eventWeight);
CountEvents(9, "pT/m(llg) > 0.3", fcuts);
HM->MakeNPlots(9,muons.size(), electrons.size(), electrons0.size(), photonsHZG.size(),
photonsTight.size(), photonsMVA.size(), jets.size(), eventWeight);
HM->MakePhotonPlots(gamma, "Pho-after");
HM->MakeMuonPlots(muons[0],"Mu-after");
HM->MakeMuonPlots(muons[1],"Mu-after");
if (Mllg>122 && Mllg<128){
HM->FillHistosFull(10, eventWeight);
FillHistoCounts(10, eventWeight);
CountEvents(10, "122 < m(llg) < 128 GeV", fcuts);
}
if (isVBF){
HM->FillHistosFull(11, eventWeight);
FillHistoCounts(11, eventWeight);
CountEvents(11, "VBF ID", fcuts);
if (Mllg>122 && Mllg<128){
HM->FillHistosFull(12, eventWeight);
FillHistoCounts(12, eventWeight);
CountEvents(12, "VBF in [122, 128]", fcuts);
}
}
}
}
else if (fabs(gamma.SCEta()) > 1.566) {
HM->FillHistosFull(15, eventWeight);
FillHistoCounts(15, eventWeight);
CountEvents(15, "gamma eta > 1.566", fcuts);
if ((l1+l2).Pt()/Mllg > 0.30 && gamma.Pt()/Mllg > 0.30) {
HM->FillHistosFull(16, eventWeight);
FillHistoCounts(16, eventWeight);
CountEvents(16, "pT/m(llg) > 0.3", fcuts);
if (Mllg>122 && Mllg<128){
HM->FillHistosFull(17, eventWeight);
FillHistoCounts(17, eventWeight);
CountEvents(17, "122 GeV < m(llg) < 128 GeV", fcuts);
}
}
}
}
else if (Mll < 50 && fabs(gamma.SCEta()) < 1.4442){
HM->FillHistosFull(18, eventWeight);
FillHistoCounts(18, eventWeight);
CountEvents(18, "20 GeV < m(ll) < 50 GeV; EB only", fcuts);
if ((l1+l2).Pt()/Mllg > 0.30 && gamma.Pt()/Mllg > 0.30) {
HM->FillHistosFull(19, eventWeight);
FillHistoCounts(19, eventWeight);
CountEvents(19, "pT/m(llg) > 0.3", fcuts);
if (Mllg>122 && Mllg<128){
HM->FillHistosFull(20, eventWeight);
FillHistoCounts(20, eventWeight);
CountEvents(20, "122 GeV < m(llg) < 128 GeV", fcuts);
}
}
}
else if(Mll > 50){
HM->FillHistosFull(21, eventWeight);
FillHistoCounts(21, eventWeight);
CountEvents(21, "m(ll) > 50 GeV", fcuts);
}
for (UInt_t i=0; i<ntrig; i++){
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if(triggerPass) nEventsTrig[6][i]++;
if (!isFound)
cout<<"TRG **** Warning ***\n The trigger name "<<myTriggers[i]<<" is not in the list of trigger names"<<endl;
}
if(!isRealData && makeGen && sample=="dalitz"){
hists->fill1DHist(gen_l1.DeltaR(l1),"reco_gen_l1_deltaR","reco_gen_l1_deltaR",100,0,5, 1,"");
hists->fill1DHist(gen_l2.DeltaR(l2),"reco_gen_l2_deltaR","reco_gen_l2_deltaR",100,0,5, 1,"");
hists->fill2DHist(gen_l1.DeltaR(l1), gen_l2.DeltaR(l2), "reco_gen_2D_ll_deltaR", "reco_gen_2D_ll_deltaR", 100,0,5, 100,0,5, 1,"");
hists->fill2DHist(gen_l1.DeltaR(l1), gen_gamma.DeltaR(gamma),"reco_gen_2D_l1gamma_deltaR","reco_gen_2D_l1gamma_deltaR",100,0,5, 100,0,5, 1,"");
hists->fill1DHist(gen_gamma.DeltaR(gamma),"reco_gen_gamma_deltaR","reco_gen_gamma_deltaR",100,0,5, 1,"");
}
if(!isRealData && makeGen){
for (Int_t i = 1; i<=6; i++){
if ((l1+l2).Pt()>20+i*5)
hists->fill1DHist(genMll, Form("gen_Mll_%i",i),";gen_Mll", 100,0,mllMax, 1,"eff");
if (gamma.Pt()>20+i*5)
hists->fill1DHist(genMll, Form("gen_Mll_%i",6+i),";gen_Mll", 100,0,mllMax, 1,"eff");
if (gamma.Pt()/Mllg> 0.15+0.05*i)
hists->fill1DHist(genMll, Form("gen_Mll_%i",12+i),";gen_Mll", 100,0,mllMax, 1,"eff");
if ((l1+l2).Pt()/Mllg> 0.15+0.05*i)
hists->fill1DHist(genMll, Form("gen_Mll_%i",18+i),";gen_Mll", 100,0,mllMax, 1,"eff");
if ((l1+l2).Pt()/Mllg> 0.15+0.05*i && gamma.Pt()/Mllg> 0.15+0.05*i)
hists->fill1DHist(genMll, Form("gen_Mll_%i",24+i),";gen_Mll", 100,0,mllMax, 1,"eff");
}
}
//if (checkTrigger){
//triggerSelector->SelectTrigger(myTrigger, triggerStatus, hltPrescale, isFound, triggerPass, prescale);
//if (!triggerPass) return kTRUE;
//// else Abort("Event trigger should mu or el");
//}
if (NoiseFilters_isScraping ||
NoiseFilters_isNoiseHcalHBHE || NoiseFilters_isNoiseHcalLaser
)
return kTRUE;
if (NoiseFilters_isNoiseEcalTP || NoiseFilters_isNoiseEcalBE || NoiseFilters_isNoiseEEBadSc
)
return kTRUE;
if (NoiseFilters_isCSCTightHalo// || NoiseFilters_isCSCLooseHalo
)
return kTRUE;
if (NoiseFilters_isNoiseTracking ||
!NoiseFilters_isNoisetrkPOG1 || !NoiseFilters_isNoisetrkPOG2 || !NoiseFilters_isNoisetrkPOG3
)
return kTRUE;
FillHistoCounts(22, eventWeight);
CountEvents(22, "noise filters, after cuts #6",fcuts);
/*
if (lPt1.Phi() > -1.8 && lPt1.Phi() < -1.6){
HM->FillHistosFull(18, eventWeight);
fout<<" nEvt = "<<nEvents[0]<<" : Run/lumi/event = "<<runNumber<<"/"<<lumiSection<<"/"<<eventNumber<<endl;
fout<<"lPt1: "<<&lPt1<<endl;
fout<<"dilep phi = "<<(lPt1+lPt2).Phi()<<endl;
}
*/
/*
for (UInt_t i =0; i<ntrig; i++){
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if(triggerPass) nEventsTrig[3][i]++;
}
if (Mll < 20){
for (UInt_t i=0; i<ntrig; i++){
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if(triggerPass) nEventsTrig[4][i]++;
}
}
for (UInt_t i =0; i<ntrig; i++){
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if(triggerPass) nEventsTrig[5][i]++;
Bool_t pa = 1;
Bool_t fo = 0;
Int_t pr = 99;
triggerSelector->SelectTrigger("HLT_Mu22_Photon22_CaloIdL_v", triggerStatus, hltPrescale, fo, pa, pr);
if(triggerPass || pa) nEventsTrig[6][i]++;
}
*/
/* single ele trigger study
for (UInt_t i =0; i<ntrig; i++)
{
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
Bool_t pa = 1;
Bool_t fo = 0;
Int_t pr = 99;
triggerSelector->SelectTrigger("HLT_Ele27_WP80_v", triggerStatus, hltPrescale, fo, pa, pr);
//if(nEvents[0]==0)
//cout<<i<<" "<<myTriggers[i]<<" is Found = "<<isFound<<" ispassed = "<<triggerPass<<" prescale = "<<prescale<<endl;
if(triggerPass) nEventsTrig[2][i]++;
if(triggerPass || pa) nEventsTrig[5][i]++;
}
*/
/*
for (UInt_t i =0; i<ntrig; i++) {
triggerSelector->SelectTrigger(myTriggers[i], triggerStatus, hltPrescale, isFound, triggerPass, prescale);
if(triggerPass) nEventsTrig[3][i]++;
}
*/
return kTRUE;
}
