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SkimTree_Event_Jpsi_Peri.C
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#include <ctime>
#include <TLorentzVector.h>
#include "commonUtility.h"
#include "HiEvtPlaneList.h"
#include "cutsAndBin.h"
#include "tnp_weight_lowptPbPb.h"
static const long MAXTREESIZE = 1000000000000;
double getAccWeight(TH1D* h = 0, double pt = 0);
double getEffWeight(TH1D* h = 0, double pt = 0);
void SkimTree_Event_Jpsi_Peri(int nevt=-1, bool isMC = false, int kTrigSel = kTrigJpsi, int hiHFBinEdge = 0, int PDtype = 2)
{
using namespace std;
using namespace hi;
// Example of using event plane namespace
cout << " Index of "<< EPNames[HFm2] << " = " << HFm2 << endl;
cout << " Index of "<< EPNames[HFp2] << " = " << HFp2 << endl;
cout << " Index of "<< EPNames[trackmid2] << " = " << trackmid2 << endl;
//TString fname1 = "/eos/cms/store/group/phys_heavyions/dileptons/Data2018/PbPb502TeV/TTrees/PromptAOD/DoubleMuonPD/MinBias/HIMinimumBias_Run2018_Upsilon_PromptReco_v1.root";
TString fnameData1 = "/eos/cms/store/group/phys_heavyions/dileptons/Data2018/PbPb502TeV/TTrees/PromptAOD/DoubleMuonPD/PromptAOD_v1_Oniatree_addvn_part*.root";
TString fnameData2 = "/eos/cms/store/group/phys_heavyions/dileptons/Data2018/PbPb502TeV/TTrees/PromptAOD/DoubleMuonPD/PromptAOD_v2_Oniatree_addvn_part*.root";
TString fnameDataReReco = "/eos/cms/store/group/phys_heavyions/dileptons/Data2018/PbPb502TeV/TTrees/ReReco/AOD/DoubleMuon/ReReco_Oniatree_addvn_part*.root";
TString fnameDataReRecoPeri = "/work2/Oniatree/ReReco/DoubleMuonPeri/ReReco_Oniatree_addvn_part*.root";
TString fnameMC = "/eos/cms/store/group/phys_heavyions/dileptons/MC2018/PbPb502TeV/TTrees/Upsi1S_TuneCP5_HydjetDrumMB_officialPythia8MC*_v20190801.root";
TString fPD;
if(PDtype==1) fPD = "DB";
else if(PDtype==2) fPD = "DBPeri";
TChain *mytree = new TChain("myTree");
if(!isMC){
if(PDtype==1) mytree->Add(fnameDataReReco.Data());
else if(PDtype==2) mytree->Add(fnameDataReRecoPeri.Data());
}
else if(isMC){
mytree->Add(fnameMC.Data());
}
const int maxBranchSize = 1000;
UInt_t runNb;
UInt_t eventNb, LS;
float zVtx;
Int_t Centrality;
ULong64_t HLTriggers;
Float_t SumET_HF;
Int_t Reco_QQ_size;
Int_t Reco_mu_size;
TClonesArray *Reco_QQ_4mom;
TClonesArray *Reco_mu_4mom;
ULong64_t Reco_QQ_trig[maxBranchSize]; //[Reco_QQ_size]
ULong64_t Reco_mu_trig[maxBranchSize]; //[Reco_QQ_size]
Float_t Reco_QQ_VtxProb[maxBranchSize]; //[Reco_QQ_size]
TBranch *b_runNb; //!
TBranch *b_eventNb; //!
TBranch *b_LS;
TBranch *b_zVtx; //!
TBranch *b_Centrality; //!
TBranch *b_HLTriggers; //!
TBranch *b_SumET_HF; //!
TBranch *b_Reco_QQ_size; //!
TBranch *b_Reco_mu_size; //!
TBranch *b_Reco_QQ_4mom; //!
TBranch *b_Reco_mu_4mom; //!
TBranch *b_Reco_QQ_trig; //!
TBranch *b_Reco_mu_trig; //!
TBranch *b_Reco_QQ_VtxProb; //!
Bool_t Reco_mu_highPurity[maxBranchSize]; //[Reco_QQ_size]
TBranch *b_Reco_mu_highPurity; //!
mytree->SetBranchAddress("Reco_mu_highPurity", Reco_mu_highPurity, &b_Reco_mu_highPurity);
Reco_QQ_4mom = 0;
Reco_mu_4mom = 0;
mytree->SetBranchAddress("runNb", &runNb, &b_runNb);
mytree->SetBranchAddress("LS", &LS, &b_LS);
mytree->SetBranchAddress("eventNb", &eventNb, &b_eventNb);
mytree->SetBranchAddress("zVtx", &zVtx, &b_zVtx);
mytree->SetBranchAddress("Centrality", &Centrality, &b_Centrality);
mytree->SetBranchAddress("HLTriggers", &HLTriggers, &b_HLTriggers);
mytree->SetBranchAddress("SumET_HF", &SumET_HF, &b_SumET_HF);
mytree->SetBranchAddress("Reco_QQ_size", &Reco_QQ_size, &b_Reco_QQ_size);
mytree->SetBranchAddress("Reco_mu_size", &Reco_mu_size, &b_Reco_mu_size);
mytree->SetBranchAddress("Reco_QQ_4mom", &Reco_QQ_4mom, &b_Reco_QQ_4mom);
mytree->SetBranchAddress("Reco_mu_4mom", &Reco_mu_4mom, &b_Reco_mu_4mom);
mytree->SetBranchAddress("Reco_QQ_trig", Reco_QQ_trig, &b_Reco_QQ_trig);
mytree->SetBranchAddress("Reco_mu_trig", Reco_mu_trig, &b_Reco_mu_trig);
mytree->SetBranchAddress("Reco_QQ_VtxProb", Reco_QQ_VtxProb, &b_Reco_QQ_VtxProb);
// muon id
Int_t Reco_QQ_mupl_idx[maxBranchSize];
Int_t Reco_QQ_mumi_idx[maxBranchSize];
TBranch *b_Reco_QQ_mupl_idx;
TBranch *b_Reco_QQ_mumi_idx;
mytree->SetBranchAddress("Reco_QQ_mupl_idx",Reco_QQ_mupl_idx,&b_Reco_QQ_mupl_idx);
mytree->SetBranchAddress("Reco_QQ_mumi_idx",Reco_QQ_mumi_idx,&b_Reco_QQ_mumi_idx);
Int_t Reco_mu_nTrkHits[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_nTrkHits; //!
mytree->SetBranchAddress("Reco_mu_nTrkHits", Reco_mu_nTrkHits, &b_Reco_mu_nTrkHits);
Float_t Reco_mu_normChi2_global[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_normChi2_global; //!
mytree->SetBranchAddress("Reco_mu_normChi2_global", Reco_mu_normChi2_global, &b_Reco_mu_normChi2_global);
Int_t Reco_mu_nMuValHits[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_nMuValHits; //!
mytree->SetBranchAddress("Reco_mu_nMuValHits", Reco_mu_nMuValHits, &b_Reco_mu_nMuValHits);
Int_t Reco_mu_StationsMatched[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_StationsMatched; //!
mytree->SetBranchAddress("Reco_mu_StationsMatched", Reco_mu_StationsMatched, &b_Reco_mu_StationsMatched);
Float_t Reco_mu_dxy[maxBranchSize]; //[Reco_mu_size]
Float_t Reco_mu_dxyErr[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_dxy; //!
TBranch *b_Reco_mu_dxyErr; //!
mytree->SetBranchAddress("Reco_mu_dxy", Reco_mu_dxy, &b_Reco_mu_dxy);
mytree->SetBranchAddress("Reco_mu_dxyErr", Reco_mu_dxyErr, &b_Reco_mu_dxyErr);
Float_t Reco_mu_dz[maxBranchSize]; //[Reco_mu_size]
Float_t Reco_mu_dzErr[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_dz; //!
TBranch *b_Reco_mu_dzErr; //!
mytree->SetBranchAddress("Reco_mu_dz", Reco_mu_dz, &b_Reco_mu_dz);
mytree->SetBranchAddress("Reco_mu_dzErr", Reco_mu_dzErr, &b_Reco_mu_dzErr);
Int_t Reco_mu_nTrkWMea[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_nTrkWMea; //!
mytree->SetBranchAddress("Reco_mu_nTrkWMea", Reco_mu_nTrkWMea, &b_Reco_mu_nTrkWMea);
Bool_t Reco_mu_TMOneStaTight[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_TMOneStaTight; //!
mytree->SetBranchAddress("Reco_mu_TMOneStaTight", Reco_mu_TMOneStaTight, &b_Reco_mu_TMOneStaTight);
Int_t Reco_mu_nPixWMea[maxBranchSize]; //[Reco_mu_size]
TBranch *b_Reco_mu_nPixWMea; //!
mytree->SetBranchAddress("Reco_mu_nPixWMea", Reco_mu_nPixWMea, &b_Reco_mu_nPixWMea);
Int_t Reco_QQ_sign[maxBranchSize]; //[Reco_QQ_size]
TBranch *b_Reco_QQ_sign; //!
mytree->SetBranchAddress("Reco_QQ_sign", Reco_QQ_sign, &b_Reco_QQ_sign);
Float_t rpAng[29]; //[nEP]
TBranch *b_rpAng; //!
// mytree->SetBranchAddress("rpAng", rpAng, &b_rpAng);
Int_t Reco_mu_nPixValHits[maxBranchSize]; //[Reco_QQ_size]
TBranch *b_Reco_mu_nPixValHits; //!
mytree->SetBranchAddress("Reco_mu_nPixValHits", Reco_mu_nPixValHits, &b_Reco_mu_nPixValHits);
Float_t Reco_mu_ptErr_global[maxBranchSize]; //[Reco_QQ_size]
TBranch *b_Reco_mu_ptErr_global; //!
mytree->SetBranchAddress("Reco_mu_ptErr_global", Reco_mu_ptErr_global, &b_Reco_mu_ptErr_global);
Int_t Reco_mu_SelectionType[maxBranchSize];
TBranch *b_Reco_mu_SelectionType;
mytree->SetBranchAddress("Reco_mu_SelectionType", Reco_mu_SelectionType, &b_Reco_mu_SelectionType);
Float_t Reco_QQ_ctau3D[maxBranchSize];
Float_t Reco_QQ_ctauErr3D[maxBranchSize];
TBranch *b_Reco_QQ_ctau3D;
TBranch *b_Reco_QQ_ctauErr3D;
mytree->SetBranchAddress("Reco_QQ_ctau3D", Reco_QQ_ctau3D, &b_Reco_QQ_ctau3D);
mytree->SetBranchAddress("Reco_QQ_ctauErr3D", Reco_QQ_ctauErr3D, &b_Reco_QQ_ctauErr3D);
Int_t Reco_mu_whichGen[maxBranchSize];
TBranch *b_Reco_mu_whichGen;
Float_t Gen_weight;
TBranch *b_Gen_weight;
if(isMC){
mytree->SetBranchAddress("Reco_mu_whichGen",Reco_mu_whichGen, &b_Reco_mu_whichGen);
mytree->SetBranchAddress("Gen_weight",&Gen_weight, &b_Gen_weight);
}
TChain *eptree = new TChain("tree");
if(!isMC){
eptree->Add(fnameDataReRecoPeri.Data());
}
else if(isMC){
eptree->Add(fnameMC.Data());
}
const int nEP = 29; // number of event planes in the tree
double qx[nEP];
double qy[nEP];
TBranch *b_qx;
TBranch *b_qy;
eptree->SetBranchAddress("qx",qx, &b_qx);
eptree->SetBranchAddress("qy",qy, &b_qy);
int trigIndx=0;
if(kTrigSel == kTrigJpsi) trigIndx=0;
else if(kTrigSel == kTrigUps) trigIndx=1;
else if(kTrigSel == kTrigL1DBOS40100) trigIndx=2;
else if(kTrigSel == kTrigL1DB50100) trigIndx=3;
double tnp_weight = 1;
double tnp_trig_weight_mupl = -1;
double tnp_trig_weight_mumi = -1;
int kL2filter = 16;
int kL3filter = 17;
int count =0;
int counttnp =0;
TString fCentSelHF = "HFNom";
if(hiHFBinEdge==1) fCentSelHF = "HFUp";
else if(hiHFBinEdge==-1) fCentSelHF = "HFDown";
TFile* newfile;
newfile = new TFile(Form("OniaFlowSkim_%sTrig_%sPD_isMC%d_%s_201126.root",fTrigName[trigIndx].Data(),fPD.Data(),isMC,fCentSelHF.Data()),"recreate");
const static int nMaxDimu = 1000;
int evt;
int runN;
int lumi;
int cBin;
int nDimu;
float vz;
float mass[nMaxDimu];
float pt[nMaxDimu];
float y[nMaxDimu];
float phi[nMaxDimu];
float eta[nMaxDimu];
float eta1[nMaxDimu];
float eta2[nMaxDimu];
float phi1[nMaxDimu];
float phi2[nMaxDimu];
float pt1[nMaxDimu];
float pt2[nMaxDimu];
float weight0[nMaxDimu];
float weight1[nMaxDimu];
float qxa[nMaxDimu];
float qya[nMaxDimu];
float qxb[nMaxDimu];
float qyb[nMaxDimu];
float qxc[nMaxDimu];
float qyc[nMaxDimu];
float qxdimu[nMaxDimu];
float qydimu[nMaxDimu];
float qxmupl[nMaxDimu];
float qxmumi[nMaxDimu];
float qymupl[nMaxDimu];
float qymumi[nMaxDimu];
int recoQQsign[nMaxDimu];
float ctau3D[nMaxDimu];
float ctau3DErr[nMaxDimu];
float ctau3DRes[nMaxDimu];
double TnPweight[nMaxDimu] = {1.};
double weight = 1;
TTree* mmevttree = new TTree("mmepevt","dimuonAndEventPlanes in event based");
mmevttree->SetMaxTreeSize(MAXTREESIZE);
mmevttree->Branch("event",&evt,"event/I");
mmevttree->Branch("runN",&runN,"runN/I");
mmevttree->Branch("lumi",&lumi,"lumi/I");
mmevttree->Branch("cBin",&cBin,"cBin/I");
mmevttree->Branch("vz",&vz,"vz/F");
mmevttree->Branch("nDimu",&nDimu,"nDimu/I");
mmevttree->Branch("mass",mass,"mass[nDimu]/F");
mmevttree->Branch("y",y,"y[nDimu]/F");
mmevttree->Branch("pt",pt,"pt[nDimu]/F");
mmevttree->Branch("pt1",pt1,"pt1[nDimu]/F");
mmevttree->Branch("pt2",pt2,"pt2[nDimu]/F");
mmevttree->Branch("eta",eta,"eta[nDimu]/F");
mmevttree->Branch("eta1",eta1,"eta1[nDimu]/F");
mmevttree->Branch("eta2",eta2,"eta2[nDimu]/F");
mmevttree->Branch("qxa",qxa,"qxa[nDimu]/F");
mmevttree->Branch("qxb",qxb,"qxb[nDimu]/F");
mmevttree->Branch("qxc",qxc,"qxc[nDimu]/F");
mmevttree->Branch("qya",qya,"qya[nDimu]/F");
mmevttree->Branch("qyb",qyb,"qyb[nDimu]/F");
mmevttree->Branch("qyc",qyc,"qyc[nDimu]/F");
mmevttree->Branch("qxdimu",qxdimu,"qxdimu[nDimu]/F");
mmevttree->Branch("qydimu",qydimu,"qydimu[nDimu]/F");
mmevttree->Branch("qxmupl",qxmupl,"qxmupl[nDimu]/F");
mmevttree->Branch("qxmumi",qxmumi,"qxmumi[nDimu]/F");
mmevttree->Branch("qymupl",qymupl,"qymupl[nDimu]/F");
mmevttree->Branch("qymumi",qymumi,"qymumi[nDimu]/F");
mmevttree->Branch("recoQQsign",recoQQsign,"recoQQsign[nDimu]/I");
mmevttree->Branch("ctau3D",ctau3D,"ctau3D[nDimu]/F");
mmevttree->Branch("ctau3DErr",ctau3DErr,"ctau3DErr[nDimu]/F");
mmevttree->Branch("ctau3DRes",ctau3DRes,"ctau3DRes[nDimu]/F");
mmevttree->Branch("weight",&weight,"weight/D");
mmevttree->Branch("TnPweight",TnPweight,"TnPweight[nDimu]/D");
////////////////////////////////////////////////////////////////////////
////////////////// TLorentzVector dummies
////////////////////////////////////////////////////////////////////////
TLorentzVector* JP_Reco = new TLorentzVector;
TLorentzVector* mupl_Reco = new TLorentzVector;
TLorentzVector* mumi_Reco = new TLorentzVector;
// event loop start
if(nevt == -1) nevt = mytree->GetEntries();
cout << "Total events = " << nevt << ", : " << eptree->GetEntries() << endl;
for(int iev=0; iev<nevt ; ++iev)
{
if(iev%100000==0) cout << ">>>>> EVENT " << iev << " / " << mytree->GetEntries() << " ("<<(int)(100.*iev/mytree->GetEntries()) << "%)" << endl;
mytree->GetEntry(iev);
eptree->GetEntry(iev);
nDimu = 0;
if(!( (HLTriggers&((ULong64_t)pow(2, kTrigSel))) == ((ULong64_t)pow(2, kTrigSel)) ) ) continue;
for (Int_t irqq=0; irqq<Reco_QQ_size; ++irqq)
{
runN = runNb;
evt = eventNb;
lumi = LS;
cBin = -999;
if(hiHFBinEdge ==0) cBin = getHiBinFromhiHF(SumET_HF);
else if(hiHFBinEdge == 1) cBin = getHiBinFromhiHF_Up(SumET_HF);
else if(hiHFBinEdge == -1) cBin = getHiBinFromhiHF_Down(SumET_HF);
if(cBin==-999){ cout << "ERROR!!! No HF Centrality Matching!!" << endl; return;}
vz = zVtx;
JP_Reco = (TLorentzVector*) Reco_QQ_4mom->At(irqq);
mupl_Reco = (TLorentzVector*) Reco_mu_4mom->At(Reco_QQ_mupl_idx[irqq]);
mumi_Reco = (TLorentzVector*) Reco_mu_4mom->At(Reco_QQ_mumi_idx[irqq]);
weight = 1.;
if(isMC) weight = findNcoll(Centrality) * Gen_weight;
if(!( (Reco_QQ_trig[irqq]&((ULong64_t)pow(2, kTrigSel))) == ((ULong64_t)pow(2, kTrigSel)) ) ) continue;
if(isMC){
if(Reco_mu_whichGen[Reco_QQ_mupl_idx[irqq]] == -1) continue;
if(Reco_mu_whichGen[Reco_QQ_mumi_idx[irqq]] == -1) continue;
}
bool passMuonTypePl = true;
passMuonTypePl = passMuonTypePl && (Reco_mu_SelectionType[Reco_QQ_mupl_idx[irqq]]&((int)pow(2,1)));
passMuonTypePl = passMuonTypePl && (Reco_mu_SelectionType[Reco_QQ_mupl_idx[irqq]]&((int)pow(2,3)));
bool passMuonTypeMi = true;
passMuonTypeMi = passMuonTypeMi && (Reco_mu_SelectionType[Reco_QQ_mumi_idx[irqq]]&((int)pow(2,1)));
passMuonTypeMi = passMuonTypeMi && (Reco_mu_SelectionType[Reco_QQ_mumi_idx[irqq]]&((int)pow(2,3)));
bool muplSoft = ( //(Reco_mu_TMOneStaTight[Reco_QQ_mupl_idx[irqq]]==true) &&
(Reco_mu_nTrkWMea[Reco_QQ_mupl_idx[irqq]] > 5) &&
(Reco_mu_nPixWMea[Reco_QQ_mupl_idx[irqq]] > 0) &&
(fabs(Reco_mu_dxy[Reco_QQ_mupl_idx[irqq]])<0.3) &&
(fabs(Reco_mu_dz[Reco_QQ_mupl_idx[irqq]])<20.) &&
passMuonTypePl // && (Reco_mu_highPurity[Reco_QQ_mupl_idx[irqq]]==true)
) ;
bool mumiSoft = ( //(Reco_mu_TMOneStaTight[Reco_QQ_mumi_idx[irqq]]==true) &&
(Reco_mu_nTrkWMea[Reco_QQ_mumi_idx[irqq]] > 5) &&
(Reco_mu_nPixWMea[Reco_QQ_mumi_idx[irqq]] > 0) &&
(fabs(Reco_mu_dxy[Reco_QQ_mumi_idx[irqq]])<0.3) &&
(fabs(Reco_mu_dz[Reco_QQ_mumi_idx[irqq]])<20.) &&
passMuonTypeMi // && (Reco_mu_highPurity[Reco_QQ_mupl_idx[irqq]]==true)
) ;
if ( !(muplSoft && mumiSoft) )
continue;
if ( Reco_QQ_VtxProb[irqq] < 0.01 )
continue;
recoQQsign[irqq] = Reco_QQ_sign[irqq];
count++;
if(isMC){
tnp_weight = 1;
tnp_trig_weight_mupl = -1;
tnp_trig_weight_mumi = -1;
tnp_weight = tnp_weight * tnp_weight_muid_pbpb(mupl_Reco->Pt(), mupl_Reco->Eta(), 0) * tnp_weight_muid_pbpb(mumi_Reco->Pt(), mumi_Reco->Eta(), 0); //mu id
tnp_weight = tnp_weight * tnp_weight_trk_pbpb(mupl_Reco->Eta(), 0) * tnp_weight_trk_pbpb(mumi_Reco->Eta(), 0); //inner tracker
//Trigger part
if(!((Reco_mu_trig[Reco_QQ_mupl_idx[irqq]]&((ULong64_t)pow(2, kL2filter))) == ((ULong64_t)pow(2, kL2filter)) && (Reco_mu_trig[Reco_QQ_mumi_idx[irqq]]&((ULong64_t)pow(2, kL2filter))) == ((ULong64_t)pow(2, kL2filter)) ) ){
// cout << "irqq : " << irqq << " - iev : " << iev << endl;
// cout << "TnP ERROR !!!! ::: No matched L2 filter1 " << endl;
continue;
}
bool mupl_L2Filter = ( (Reco_mu_trig[Reco_QQ_mupl_idx[irqq]]&((ULong64_t)pow(2, kL2filter))) == ((ULong64_t)pow(2, kL2filter)) ) ? true : false ;
bool mupl_L3Filter = ( (Reco_mu_trig[Reco_QQ_mupl_idx[irqq]]&((ULong64_t)pow(2, kL3filter))) == ((ULong64_t)pow(2, kL3filter)) ) ? true : false ;
bool mumi_L2Filter = ( (Reco_mu_trig[Reco_QQ_mumi_idx[irqq]]&((ULong64_t)pow(2, kL2filter))) == ((ULong64_t)pow(2, kL2filter)) ) ? true : false ;
bool mumi_L3Filter = ( (Reco_mu_trig[Reco_QQ_mumi_idx[irqq]]&((ULong64_t)pow(2, kL3filter))) == ((ULong64_t)pow(2, kL3filter)) ) ? true : false ;
if(mupl_L2Filter == false || mumi_L2Filter == false){ cout << "TnP ERROR !!!! ::: No matched L2 filter2 " << endl; cout << endl;}
bool mupl_isL2 = (mupl_L2Filter && !mupl_L3Filter) ? true : false;
bool mupl_isL3 = (mupl_L2Filter && mupl_L3Filter) ? true : false;
bool mumi_isL2 = (mumi_L2Filter && !mumi_L3Filter) ? true : false;
bool mumi_isL3 = (mumi_L2Filter && mumi_L3Filter) ? true : false;
bool SelDone = false;
if( mupl_isL2 && mumi_isL3){
tnp_trig_weight_mupl = tnp_weight_trg_pbpb(mupl_Reco->Pt(), mupl_Reco->Eta(), 2, 0);
tnp_trig_weight_mumi = tnp_weight_trg_pbpb(mumi_Reco->Pt(), mumi_Reco->Eta(), 3, 0);
SelDone = true;
}
else if( mupl_isL3 && mumi_isL2){
tnp_trig_weight_mupl = tnp_weight_trg_pbpb(mupl_Reco->Pt(), mupl_Reco->Eta(), 3, 0);
tnp_trig_weight_mumi = tnp_weight_trg_pbpb(mumi_Reco->Pt(), mumi_Reco->Eta(), 2, 0);
SelDone = true;
}
else if( mupl_isL3 && mumi_isL3){
int t[2] = {-1,1}; // mupl, mumi
int l = rand() % (2);
//pick up what will be L2
if(t[l]==-1){
tnp_trig_weight_mupl = tnp_weight_trg_pbpb(mupl_Reco->Pt(), mupl_Reco->Eta(), 2, 0);
tnp_trig_weight_mumi = tnp_weight_trg_pbpb(mumi_Reco->Pt(), mumi_Reco->Eta(), 3, 0);
}
else if(t[l]==1){
tnp_trig_weight_mupl = tnp_weight_trg_pbpb(mupl_Reco->Pt(), mupl_Reco->Eta(), 3, 0);
tnp_trig_weight_mumi = tnp_weight_trg_pbpb(mumi_Reco->Pt(), mumi_Reco->Eta(), 2, 0);
}
else {cout << "ERROR :: No random selection done !!!!" << endl; continue;}
SelDone = true;
}
if(SelDone == false || (tnp_trig_weight_mupl == -1 || tnp_trig_weight_mumi == -1)){cout << "ERROR :: No muon filter combination selected !!!!" << endl; continue;}
tnp_weight = tnp_weight * tnp_trig_weight_mupl * tnp_trig_weight_mumi;
counttnp++;
}
// Fill the output tree
if ( JP_Reco->Eta() < 0 ) {
qxa[nDimu] = qx[HFp2];
qya[nDimu] = qy[HFp2];
qxb[nDimu] = qx[HFm2];
qyb[nDimu] = qy[HFm2];
}
else {
qxa[nDimu] = qx[HFm2];
qya[nDimu] = qy[HFm2];
qxb[nDimu] = qx[HFp2];
qyb[nDimu] = qy[HFp2];
}
qxc[nDimu] = qx[trackmid2];
qyc[nDimu] = qy[trackmid2];
if(isMC) TnPweight[nDimu] = tnp_weight;
mass[nDimu] = JP_Reco->M();
phi[nDimu] = JP_Reco->Phi();
phi1[nDimu] = mupl_Reco->Phi();
phi2[nDimu] = mumi_Reco->Phi();
eta[nDimu] = JP_Reco->Eta();
y[nDimu] = JP_Reco->Rapidity();
pt[nDimu] = JP_Reco->Pt();
pt1[nDimu] = mupl_Reco->Pt();
pt2[nDimu] = mumi_Reco->Pt();
eta1[nDimu] = mupl_Reco->Eta();
eta2[nDimu] = mumi_Reco->Eta();
qxdimu[nDimu] = TMath::Cos(2*phi[nDimu]);
qydimu[nDimu] = TMath::Sin(2*phi[nDimu]);
qxmupl[nDimu] = TMath::Cos(2*phi1[nDimu]);
qxmumi[nDimu] = TMath::Cos(2*phi2[nDimu]);
qymupl[nDimu] = TMath::Sin(2*phi1[nDimu]);
qymumi[nDimu] = TMath::Sin(2*phi2[nDimu]);
ctau3D[nDimu] = Reco_QQ_ctau3D[irqq];
ctau3DErr[nDimu] = Reco_QQ_ctauErr3D[irqq];
ctau3DRes[nDimu] = (Reco_QQ_ctau3D[irqq])/(Reco_QQ_ctauErr3D[irqq]);
nDimu++;
} // end of dimuon loop
if(nDimu>0) mmevttree->Fill();
} //end of event loop
// mmtree->Write(); // Don't need to call Write() for trees
cout << "count " << count << endl;
cout << "counttnp " << counttnp << endl;
newfile->cd();
mmevttree->Write();
newfile->Close();
}