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ntupler_data_clean_v2.C
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ntupler_data_clean_v2.C
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#include <iostream>
#include <vector>
#include <algorithm>
#include "TCanvas.h"
#include "TError.h"
#include "TPad.h"
#include "TString.h"
#include "TRandom1.h"
#include "TLorentzVector.h"
#include "TH1F.h"
#include "TF1.h"
#include "TFile.h"
#include "TTree.h"
#include "TH1D.h"
#include "TProfile.h"
#include "TProfile2D.h"
#include "TH2D.h"
#include "TCanvas.h"
#include "TLegend.h"
#include "TLatex.h"
#include "TString.h"
#include "TCut.h"
#include "TNtuple.h"
#include "TLine.h"
#include "TComplex.h"
#include "ntupler/trackTree.C"
Float_t getFlippedPhi(Float_t inPhi)
{
Float_t outPhi;
if(TMath::Abs(inPhi) > TMath::Pi()){
// std::cout << "getFlippedPhi: inPhi is outside accepted range, return -10" << std::endl;
return -10;
}
else if(inPhi > 0)
outPhi = inPhi - TMath::Pi();
else
outPhi = inPhi + TMath::Pi();
return outPhi;
}
Bool_t sameSign(Float_t num1, Float_t num2){
if((num1 > 0 && num2 > 0) || (num1 < 0 && num2 < 0)) return true;
return false;
}
Float_t getAvePhi(Float_t inLeadPhi, Float_t inSubLeadPhi)
{
Float_t flipPhi = getFlippedPhi(inSubLeadPhi);
Float_t avePhi;
if(sameSign(inLeadPhi, flipPhi) || (TMath::Abs(inLeadPhi) < TMath::Pi()/2 && TMath::Abs(flipPhi) < TMath::Pi()/2))
avePhi = (flipPhi + inLeadPhi)/2;
else if(TMath::Abs(inLeadPhi) > TMath::Pi()/2 && TMath::Abs(flipPhi) > TMath::Pi()/2){
avePhi = (flipPhi + inLeadPhi)/2;
if(avePhi > 0)
avePhi = TMath::Pi() - avePhi;
else
avePhi = -TMath::Pi() - avePhi;
}
else{
avePhi = 0.;
}
return avePhi;
}
void ntupler_data_clean_v2(double ptmin_trk=0.5,double ptmax_trk=300){
TH1D::SetDefaultSumw2();
TString algo="akVs3Calo";
bool doSaveTrackInfo=false;
// TString directory="root://eoscms//eos/cms/store/group/phys_heavyions/dgulhan/HIData/";
// TString infname="HIRun2011-14Mar2014-v2-6lumi-jet80-forest-v4-small";
// TString directory="root://eoscms//eos/cms/store/group/phys_heavyions/dgulhan/HIData/";
// TString infname="hiForest_Jet80or95_GR_R_53_LV6_25Mar2014_0200CET_Track8_Jet26_full";
TString directory="root://eoscms//eos/cms/store/group/phys_heavyions/dgulhan/HIData/";
TString infname="HIRun2011-14Mar2014-v2-6lumi-jet80-forest-v4ANDv9-merged";
// TString infname="HIRun2011-14Mar2014-v2-6lumi-jet80-forest-v4-small";
// TString directory="root://eoscms//eos/cms/store/group/phys_heavyions/dgulhan/HIData/";
// TString infname="hiForest_Jet80or95_GR_R_53_LV6_03Mar2014_1600CET_CMSSW_5_3_16_merged";
trackTree * ftrk = new trackTree(Form("%s/%s.root",directory.Data(),infname.Data()));
HiTree * fhi = new HiTree(Form("%s/%s.root",directory.Data(),infname.Data()));
skimTree * fskim = new skimTree(Form("%s/%s.root",directory.Data(),infname.Data()));
t * fjet = new t(Form("%s/%s.root",directory.Data(),infname.Data()),algo.Data());
hi * fgen = new hi(Form("%s/%s.root",directory.Data(),infname.Data()));
pfTree * fpf = new pfTree(Form("%s/%s.root",directory.Data(),infname.Data()));
// hi * fgen = new hi(Form("%s/%s.root",directory.Data(),infname.Data()));
//getting unfolding profile
TFile * f_unfold=new TFile("binbybin_pt.root");
TH1D *hweight = (TH1D*)f_unfold->Get("hweight");
TH1D *h_res = (TH1D*)f_unfold->Get("h_res");
TF1 * fgaus=new TF1("fgaus","gaus(0)",-20,20);
fgaus->SetParameters(1,0,1);
//pt bins for track efficiency correction
int npt=29;
double ptmin[]={0.5,0.5,0.5,0.5,0.5,0.55,0.55,0.55,0.55,0.55,0.65,0.65,0.65,0.65,0.65,0.8,0.8,0.8,0.8,0.8, 1, 1, 1, 1, 1, 3, 3, 3, 8};
double ptmax[]={ 0.55,0.55,0.55,0.55,0.55,0.65,0.65,0.65,0.65,0.65,0.8,0.8,0.8,0.8,0.8, 1, 1, 1, 1, 1, 3, 3, 3, 3, 3, 8, 8, 8,300};
int cent_min[]={ 0, 20, 40, 60,100,0, 20, 40, 60,100,0, 20, 40, 60,100,0, 20, 40, 60,100, 0,20,40, 60,100, 0,20, 40, 0};
int cent_max[]={ 20, 40, 60,100,200,20, 40, 60,100,200,20, 40, 60,100,200,20, 40, 60,100,200,20,40,60,100,200,20,40,200,200};
double frac[]={0,0.01,0.02,0.03,0.04,0.05,0.075,0.1,0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.9,0.925,0.95,0.96,0.97,0.98,0.99,1.01};
// double dR_upperbound[]={0,0.01,0.02,0.03,0.04,0.05,0.075,0.1,0.125,0.15,0.175,0.2,0.225,0.25,0.275,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.9,1,1.1,1.25,1.5,2,2.5,3,5};
double dR_upperbound[]={0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2,2.1,2.2,2.3,2.4,2.5,3,3.5,4,4.4};
TFile *f_eff[npt];
TProfile *p_eff_cent[npt];
TProfile2D *p_eff_accept[npt];
TProfile *p_eff_pt[npt];
TProfile *p_eff_rmin[npt];
for(int ipt=0; ipt<npt;ipt++){
f_eff[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/JetTrack/TrackCorrectionTables/akVs3Calo_fineptbin/eff/eff_pt%d_%d_cent%d_%d.root",(int)(ptmin[ipt]*100),(int)(ptmax[ipt]*100),(int)(0.5*cent_min[ipt]),(int)(0.5*cent_max[ipt])));
// f_eff[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/trackCorrection/akVs3Calo_04302014/eff_pt%d_%d_cent%d_%d.root",(int)(ptmin[ipt]*100),(int)(ptmax[ipt]*100),(int)(0.5*cent_min[ipt]),(int)(0.5*cent_max[ipt])));
// if(ipt<npt-1)f_eff[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/trackCorrection/akVs3Calo/eff/eff_pt%d_%d_cent%d_%d_step_cent4accept4pt4rmin3.root",(int)ptmin[ipt],(int)ptmax[ipt],(int)(0.5*cent_min[ipt]),(int)(0.5*cent_max[ipt])));
// else f_eff[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/trackCorrection/akVs3Calo/eff/eff_pt%d_%d_cent%d_%d_step_cent3accept3pt3rmin3.root",(int)ptmin[ipt],(int)ptmax[ipt],(int)(0.5*cent_min[ipt]),(int)(0.5*cent_max[ipt])));
p_eff_cent[ipt]=(TProfile*)f_eff[ipt]->Get("p_eff_cent");
p_eff_pt[ipt]=(TProfile*)f_eff[ipt]->Get("p_eff_pt");
p_eff_accept[ipt]=(TProfile2D*)f_eff[ipt]->Get("p_eff_acceptance");
p_eff_rmin[ipt]=(TProfile*)f_eff[ipt]->Get("p_eff_rmin");
}
TFile *f_fake[npt];
TProfile *p_fake_cent[npt];
TProfile2D *p_fake_accept[npt];
TProfile *p_fake_pt[npt];
TProfile *p_fake_rmin[npt];
for(int ipt=0; ipt<npt;ipt++){
// f_fake[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/trackFake/final_hists_akVs3Calo_20140312/fake_pt%d_%d_cent%d_%d_step_cent5accept5pt5rmin4_akVs3Calo_dogenjet0.root",(int)ptmin[ipt],(int)ptmax[ipt],(int)(cent_min[ipt]),(int)(cent_max[ipt]),algo.Data()));
// else if(ipt<npt-1) f_fake[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/trackFake/final_hists_akVs3Calo_20140312/fake_pt%d_%d_cent%d_%d_step_cent4accept4pt4rmin3_akVs3Calo_dogenjet0.root",(int)ptmin[ipt],(int)ptmax[ipt],(int)(cent_min[ipt]),(int)(cent_max[ipt]),algo.Data()));
f_fake[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/JetTrack/TrackCorrectionTables/akVs3Calo_fineptbin/fake/fake_pt%d_%d_cent%d_%d.root",(int)(ptmin[ipt]*100),(int)(ptmax[ipt]*100),(int)(0.5*cent_min[ipt]),(int)(0.5*cent_max[ipt]),algo.Data()));
// f_fake[ipt]= new TFile(Form("/afs/cern.ch/user/d/dgulhan/workDir/trackCorrection/akVs3Calo_04302014/fake_pt%d_%d_cent%d_%d.root",(int)(ptmin[ipt]*100),(int)(ptmax[ipt]*100),(int)(0.5*cent_min[ipt]),(int)(0.5*cent_max[ipt]),algo.Data()));
p_fake_cent[ipt]=(TProfile*)f_fake[ipt]->Get("p_fake_cent");
p_fake_pt[ipt]=(TProfile*)f_fake[ipt]->Get("p_fake_pt");
p_fake_accept[ipt]=(TProfile2D*)f_fake[ipt]->Get("p_fake_acceptance");
p_fake_rmin[ipt]=(TProfile*)f_fake[ipt]->Get("p_fake_rmin");
}
//output file and tree
TFile *outf= new TFile(Form("ntuples_PbPb_20140506_1p15M_corrvm1/full_ntuple_%s_pt%d_%d_%s_v2.root",infname.Data(),(int)ptmin_trk,(int)ptmax_trk,algo.Data()),"recreate");
std::string trackVars="trackselect:eff:fake:trkfake:trkstatus:weight_unfold:pt:eta:phi:rmin:cent:pt1:eta1:phi1:pt2:eta2:phi2:pt3:eta3:phi3:dphi:ptratio:jetspz:jetspt:jetseta:jetsrap:jetspz_12:jetspt_12:jetsrap_12:alpha:alpha_ave:mpt_track:vz";
TNtuple *nt_track = new TNtuple("nt_track","",trackVars.data());
std:string jetVars="cent:pt1:eta1:phi1:pt2:eta2:phi2:pt3:eta3:phi3:dphi:ptratio:jetspz:jetspt:jetseta:jetsrap:jetsphi:jetspz_12:jetspt_12:jetseta_12:jetsrap_12:jetsphi_12:trkrap:mpt_tracks:mpt_tracks_ls:mpt_tracks_uncorr:mpt_tracks_ave:mpt_tracks_uncorr_ave:hfp:hfm:Npassingtrk:vz:hiEvtPlane:phiave:v2:psi2:n_lead:n_sublead:njet";
TNtuple *nt_jet = new TNtuple("nt_jet","",jetVars.data());
std::string mptVars="alpha_0:alpha_1:alpha_2:alpha_3:alpha_4:alpha_5:alpha_6:alpha_7:alpha_8:alpha_9:alpha_10:alpha_11:alpha_12:alpha_13:alpha_14:alpha_15";
TNtuple *nt_mpt_tracks=new TNtuple("nt_mpt_tracks","",mptVars.data());
TNtuple *nt_mpt_tracks_uncorr=new TNtuple("nt_mpt_tracks_uncorr","",mptVars.data());
TNtuple *nt_mpt_tracks_ave=new TNtuple("nt_mpt_tracks","",mptVars.data());
TNtuple *nt_mpt_tracks_uncorr_ave=new TNtuple("nt_mpt_tracks_uncorr","",mptVars.data());
std::string mptVars_dR="dR_0:dR_1:dR_2:dR_3:dR_4:dR_5:dR_6:dR_7:dR_8:dR_9:dR_10:dR_11:dR_12:dR_13:dR_14:dR_15:dR_16:dR_17:dR_18:dR_19:dR_20:dR_21:dR_22:dR_23:dR_24:dR_25:dR_26:dR_27:dR_28";
TNtuple *nt_mpt_tracks_dR=new TNtuple("nt_mpt_tracks_dR","",mptVars_dR.data());
TNtuple *nt_mpt_tracks_uncorr_dR=new TNtuple("nt_mpt_tracks_uncorr_dR","",mptVars_dR.data());
TNtuple *nt_mpt_tracks_dR_ave=new TNtuple("nt_mpt_tracks_dR_ave","",mptVars_dR.data());
TNtuple *nt_mpt_tracks_uncorr_dR_ave=new TNtuple("nt_mpt_tracks_uncorr_dR_ave","",mptVars_dR.data());
std::string mptVars_dphi="dphi_0:dphi_1:dphi_2:dphi_3:dphi_4:dphi_5:dphi_6:dphi_7:dphi_8:dphi_9:dphi_10:dphi_11:dphi_12:dphi_13:dphi_14:dphi_15";
TNtuple *nt_mpt_tracks_dphi=new TNtuple("nt_mpt_tracks_dphi","",mptVars_dphi.data());
TNtuple *nt_mpt_tracks_uncorr_dphi=new TNtuple("nt_mpt_tracks_uncorr_dphi","",mptVars_dphi.data());
TNtuple *nt_mpt_tracks_dphi_ave=new TNtuple("nt_mpt_tracks_dphi_ave","",mptVars_dphi.data());
TNtuple *nt_mpt_tracks_uncorr_dphi_ave=new TNtuple("nt_mpt_tracks_uncorr_dphi_ave","",mptVars_dphi.data());
std::string mptVars_deta="deta_0:deta_1:deta_2:deta_3:deta_4:deta_5:deta_6:deta_7:deta_8:deta_9:deta_10:deta_11:deta_12:deta_13:deta_14:deta_15:deta_16:deta_17:deta_18:deta_19:deta_20:deta_21:deta_22:deta_23:deta_24:deta_25:deta_26:deta_27:deta_28";
TNtuple *nt_mpt_tracks_deta=new TNtuple("nt_mpt_tracks_deta","",mptVars_deta.data());
TNtuple *nt_mpt_tracks_uncorr_deta=new TNtuple("nt_mpt_tracks_uncorr_deta","",mptVars_deta.data());
TNtuple *nt_mpt_tracks_deta_ave=new TNtuple("nt_mpt_tracks_deta_ave","",mptVars_deta.data());
TNtuple *nt_mpt_tracks_uncorr_deta_ave=new TNtuple("nt_mpt_tracks_uncorr_deta_ave","",mptVars_deta.data());
cout<<"2"<<endl;
//loop over events
int nentries = ftrk->GetEntriesFast();
for(int jentry=0;jentry<nentries;jentry++){
// for(int jentry=0;jentry<100000;jentry++){
// for(int jentry=0;jentry<1;jentry++){
if((jentry%1000)==0) std::cout<<jentry<<"/"<<nentries<<std::endl;
fskim->GetEntry(jentry);
ftrk->GetEntry(jentry);
fhi->GetEntry(jentry);
fjet->GetEntry(jentry);
fpf->GetEntry(jentry);
// cout<<"pcoll "<<fskim->pcollisionEventSelection<<endl;
// cout<<"noisefilter "<<fskim->pHBHENoiseFilter<<endl;
if(!(fskim->pcollisionEventSelection && fskim->pHBHENoiseFilter)) continue;
// cout<<"passed selection"<<endl;
float cent=fhi->hiBin;
float vz = fhi->vz;
float hfp = fhi->hiHFplusEta4;
float hfm = fhi->hiHFminusEta4;
float pt1=-99;
float phi1=-99;
float eta1=-99;
float neutralMax1=-99;
float trackMax1=-99;
float trackN1=-99;
float pt2=-99;
float phi2=-99;
float eta2=-99;
float neutralMax2=-99;
float trackMax2=-99;
float trackN2=-99;
float pt3=-99;
float phi3=-99;
float eta3=-99;
float neutralMax3=-99;
float trackMax3=-99;
float trackN3=-99;
float dphi=-99;
float ptratio=-99;
std::vector<std::pair<double, std::pair<double,double> > >jets;
int njet=0;
TLorentzVector vjets;
for(int ijet=0;ijet<fjet->nref;ijet++){
if(fabs(fjet->jteta[ijet])>2 ||fjet->jtpt[ijet]<30) continue;
// if(fabs(fjet->jteta[ijet])>2) continue;
jets.push_back(std::make_pair(fjet->jtpt[ijet],std::make_pair(fjet->jteta[ijet],fjet->jtphi[ijet])));
TLorentzVector vjet;
vjet.SetPtEtaPhiM(fjet->jtpt[ijet],fjet->jteta[ijet],fjet->jtphi[ijet],0);
vjets+=vjet;
njet++;
}
double jetspx=-99;
double jetspy=-99;
double jetspz=-99;
double jetspt=-99;
double jetseta=-99;
double jetsrap=-99;
double jetsphi=-99;
TLorentzVector v1,v2,v3,vave;
TLorentzVector vls;
std::sort(jets.begin(),jets.end());
if(njet>0){
jetspx =vjets.Px();
jetspy=vjets.Py();
jetspz=vjets.Pz();
jetspt =vjets.Pt();
jetseta= vjets.Eta();
jetsrap =vjets.Rapidity();
jetsphi =vjets.Phi();
pt1= jets[njet-1].first;
eta1= jets[njet-1].second.first;
phi1= jets[njet-1].second.second;
v1.SetPtEtaPhiM(pt1,eta1,phi1,0);
vave=(v1-v2);
vls+=v1;
if(njet>1){
pt2=jets[njet-2].first;
eta2=jets[njet-2].second.first;
phi2=jets[njet-2].second.second;
v2.SetPtEtaPhiM(pt2,eta2,phi2,0);
dphi=acos(cos(phi1-phi2));
ptratio=pt2/pt1;
vls+=v2;
if(njet>2){
pt3=jets[njet-3].first;
eta3=jets[njet-3].second.first;
phi3=jets[njet-3].second.second;
v3.SetPtEtaPhiM(pt2,eta2,phi2,0);
}
}
}
double phiave =getAvePhi(phi1,phi2);
double jetspt_12=-99;
double jetspx_12=-99;
double jetspy_12=-99;
double jetspz_12=-99;
double jetseta_12=-99;
double jetsphi_12=-99;
double jetsrap_12=-99;
if(njet>1){
jetspt_12=vls.Pt();
jetspx_12=vls.Px();
jetspy_12=vls.Py();
jetspz_12=vls.Pz();
jetseta_12=vls.Eta();
jetsphi_12=vls.Phi();
jetsrap_12=vls.Rapidity();
}
float n_sublead=0;
float n_lead=0;
float mpt_tracks_ave=0;
float mpt_tracks_uncorr_ave=0;
float mpt_tracks=0;
float mpt_tracks_ls=0;
float mpt_tracks_uncorr=0;
float mpt_alpha_tracks[16];
float mpt_alpha_tracks_uncorr[16];
float mpt_alpha_tracks_ave[16];
float mpt_alpha_tracks_uncorr_ave[16];
float mpt_dR_tracks[29];
float mpt_dR_tracks_uncorr[29];
float mpt_dR_tracks_uncorr_ave[29];
float mpt_dR_tracks_ave[29];
float mpt_dphi_tracks[29];
float mpt_dphi_tracks_uncorr[29];
float mpt_dphi_tracks_uncorr_ave[29];
float mpt_dphi_tracks_ave[29];
float mpt_deta_tracks[29];
float mpt_deta_tracks_uncorr[29];
float mpt_deta_tracks_uncorr_ave[29];
float mpt_deta_tracks_ave[29];
for(int i=0;i<16;i++){
mpt_alpha_tracks[i]=0;
mpt_alpha_tracks_uncorr[i]=0;
mpt_alpha_tracks_ave[i]=0;
mpt_alpha_tracks_uncorr_ave[i]=0;
}
for(int i=0;i<29;i++){
mpt_dR_tracks[i]=0;
mpt_dR_tracks_uncorr[i]=0;
mpt_dR_tracks_ave[i]=0;
mpt_dR_tracks_uncorr_ave[i]=0;
mpt_dphi_tracks[i]=0;
mpt_dphi_tracks_uncorr[i]=0;
mpt_dphi_tracks_ave[i]=0;
mpt_dphi_tracks_uncorr_ave[i]=0;
mpt_deta_tracks[i]=0;
mpt_deta_tracks_uncorr[i]=0;
mpt_deta_tracks_ave[i]=0;
mpt_deta_tracks_uncorr_ave[i]=0;
}
TLorentzVector vtracks;
int Npassingtrk=0;
for(int itrk=0;itrk<ftrk->nTrk;itrk++){
float eta=ftrk->trkEta[itrk];
float pt=ftrk->trkPt[itrk];
float phi=ftrk->trkPhi[itrk];
float trkfake=ftrk->trkFake[itrk];
float trkstatus=ftrk->trkStatus[itrk];
float eff_pt,eff_cent,eff_accept,eff_rmin;
eff_pt=eff_cent=eff_accept=eff_rmin=1;
float fake_pt,fake_cent,fake_accept,fake_rmin;
fake_pt=fake_cent=fake_accept=fake_rmin=0;
if(fabs(eta)>2.4) continue;
if(pt<ptmin_trk || pt>ptmax_trk) continue;
float trackselect=(ftrk->highPurity[itrk] && fabs(ftrk->trkDxy1[itrk]/ftrk->trkDxyError1[itrk])<3.0 && fabs(ftrk->trkDz1[itrk]/ftrk->trkDzError1[itrk])<3 && (ftrk->trkPtError[itrk]/ftrk->trkPt[itrk])<0.1);
float weight_unfold=hweight->GetBinContent(hweight->FindBin(pt));
float rmin=100;
//find rmin;
for(int ijet=0;ijet<fjet->nref;ijet++){
if(fabs(fjet->jteta[ijet])>2 || fjet->jtpt[ijet]<30) continue;
float r_reco=sqrt(pow(eta-fjet->jteta[ijet],2)+pow(acos(cos(phi-fjet->jtphi[ijet])),2));
if(r_reco<rmin)rmin=r_reco;
}
for(int ipt=0;ipt<npt;ipt++){
if(pt>=ptmin[ipt] && pt<ptmax[ipt] && cent>=cent_min[ipt] && cent<cent_max[ipt]){
eff_pt=p_eff_pt[ipt]->GetBinContent(p_eff_pt[ipt]->FindBin(pt));
eff_cent=p_eff_cent[ipt]->GetBinContent(p_eff_cent[ipt]->FindBin(cent));
eff_accept=p_eff_accept[ipt]->GetBinContent(p_eff_accept[ipt]->GetXaxis()->FindBin(phi),p_eff_accept[ipt]->GetYaxis()->FindBin(eta));
if(rmin<5)eff_rmin=p_eff_rmin[ipt]->GetBinContent(p_eff_rmin[ipt]->FindBin(rmin));
}
}
for(int ipt=0;ipt<npt;ipt++){
if(pt>=ptmin[ipt] && pt<ptmax[ipt] && cent>=cent_min[ipt] && cent<cent_max[ipt]){
fake_pt=p_fake_pt[ipt]->GetBinContent(p_fake_pt[ipt]->FindBin(pt));
fake_cent=p_fake_cent[ipt]->GetBinContent(p_fake_cent[ipt]->FindBin(cent));
fake_accept=p_fake_accept[ipt]->GetBinContent(p_fake_accept[ipt]->GetXaxis()->FindBin(phi),p_fake_accept[ipt]->GetYaxis()->FindBin(eta));
if(rmin<5) fake_rmin=p_fake_rmin[ipt]->GetBinContent(p_fake_rmin[ipt]->FindBin(rmin));
}
}
float eff=1;
eff=eff_accept*eff_cent*eff_pt*eff_rmin;
if(eff==0){
if(pt>100)eff=0.8;
else eff=1;
}
float fake=0;
if(pt<100)fake=fake_accept+fake_cent+fake_pt+fake_rmin;
TLorentzVector vp;
vp.SetPtEtaPhiM(pt,eta,phi,0.13957018);
vtracks+=vp;
float alpha=-99;
float alpha_sub=-99;
float alpha_ave=-99;
alpha=vp.Angle(v1.Vect());
alpha_sub=vp.Angle(v2.Vect());
alpha_ave=vp.Angle(vave.Vect());
float mpt_track=pt*cos(phi-phi1);
if(trackselect){
mpt_tracks+=((1-fake)/eff)*pt*cos(phi-phi1);
mpt_tracks_ls+=((1-fake)/eff)*pt*(cos(phi-phi1)-cos(phi-phi2));
mpt_tracks_uncorr+=pt*cos(phi-phi1);
mpt_tracks_ave+=((1-fake)/eff)*pt*cos(phi-phiave);
mpt_tracks_uncorr_ave+=pt*cos(phi-phiave);
}
if(njet>1){
float entry[]={trackselect,eff,fake,trkfake,trkstatus,weight_unfold,pt,eta,phi,rmin,cent,pt1,eta1,phi1,pt2,eta2,phi2,pt3,eta3,phi3,dphi,ptratio,jetspz,jetspt,jetseta,jetsrap,jetspz_12,jetspt_12,jetsrap_12,alpha,alpha_ave,mpt_track,vz};
if(doSaveTrackInfo) nt_track->Fill(entry);
if(!trackselect) continue;
Npassingtrk++;
double dR1=sqrt(pow(acos(cos(phi1-phi)),2)+pow(eta1-eta,2));
double dR2=sqrt(pow(acos(cos(phi2-phi)),2)+pow(eta2-eta,2));
double deta1=fabs(eta1-eta);
double deta2=fabs(eta2-eta);
double dphi1=acos(cos(phi1-phi));
double dphi2=acos(cos(phi2-phi));
double dphiave=acos(cos(phi-phiave));
if(dphiave<TMath::Pi()/2)n_lead+=((1-fake)/eff);
if(dphiave>TMath::Pi()/2)n_sublead+=((1-fake)/eff);
double mpt_alpha_t[16];
double mpt_alpha_t_ave[16];
double mpt_dR_t[29];
double mpt_dR_t_ave[29];
double mpt_dphi_t[29];
double mpt_dphi_t_ave[29];
double mpt_deta_t[29];
double mpt_deta_t_ave[29];
for(int i=0;i<16;i++){
mpt_alpha_t[i]=0;
mpt_alpha_t_ave[i]=0;
if((alpha < dR_upperbound[i+1]) || (alpha > (TMath::Pi()-dR_upperbound[i+1]))) mpt_alpha_t[i] =pt*cos(phi -phi1);
if((alpha_ave < dR_upperbound[i+1]) || (alpha_ave > (TMath::Pi()-dR_upperbound[i+1]))) mpt_alpha_t_ave[i] =pt*cos(phi -phiave);
mpt_alpha_tracks[i]+=((1-fake)/eff)*mpt_alpha_t[i];
mpt_alpha_tracks_uncorr[i]+=mpt_alpha_t[i];
mpt_alpha_tracks_ave[i]+=((1-fake)/eff)*mpt_alpha_t_ave[i];
mpt_alpha_tracks_uncorr_ave[i]+=mpt_alpha_t_ave[i];
}
for(int i=0;i<29;i++){
mpt_dR_t[i]=0;
mpt_dR_t_ave[i]=0;
if((dR1 < dR_upperbound[i+1]) || (dR2 < dR_upperbound[i+1])){
mpt_dR_t[i] =pt*cos(phi -phi1);
mpt_dR_t_ave[i]=pt*cos(phi-phiave);
}
mpt_dR_tracks[i]+=((1-fake)/eff)*mpt_dR_t[i];
mpt_dR_tracks_ave[i]+=((1-fake)/eff)*mpt_dR_t_ave[i];
mpt_dR_tracks_uncorr[i]+=mpt_dR_t[i];
mpt_dR_tracks_uncorr_ave[i]+=mpt_dR_t_ave[i];
}
for(int i=0;i<16;i++){
mpt_dphi_t[i]=0;
mpt_dphi_t_ave[i]=0;
if((fabs(dphi1) < dR_upperbound[i+1] && deta1<0.2) || (fabs(dphi2) < dR_upperbound[i+1] && deta2<0.2)){
mpt_dphi_t[i] =pt*cos(phi -phi1);
mpt_dphi_t_ave[i]=pt*cos(phi-phiave);
}
mpt_dphi_tracks[i]+=((1-fake)/eff)*mpt_dphi_t[i];
mpt_dphi_tracks_ave[i]+=((1-fake)/eff)*mpt_dphi_t_ave[i];
mpt_dphi_tracks_uncorr[i]+=mpt_dphi_t[i];
mpt_dphi_tracks_uncorr_ave[i]+=mpt_dphi_t_ave[i];
}
for(int i=0;i<29;i++){
mpt_deta_t[i]=0;
mpt_deta_t_ave[i]=0;
// if(((deta1 < dR_upperbound[i+1]) && deta1 >=dR_upperbound[i]) || ((deta2 < dR_upperbound[i+1]) && deta2 >=dR_upperbound[i])){
if((deta1 < dR_upperbound[i+1] && fabs(dphi1)<0.2) || (deta2 < dR_upperbound[i+1] && fabs(dphi2)<0.2)){
mpt_deta_t[i] =pt*cos(phi -phi1);
mpt_deta_t_ave[i]=pt*cos(phi-phiave);
}
mpt_deta_tracks[i]+=((1-fake)/eff)*mpt_deta_t[i];
mpt_deta_tracks_ave[i]+=((1-fake)/eff)*mpt_deta_t_ave[i];
mpt_deta_tracks_uncorr[i]+=mpt_deta_t[i];
mpt_deta_tracks_uncorr_ave[i]+=mpt_deta_t_ave[i];
}
}
//fill in the output tree
}
double trkrap=vtracks.Rapidity();
nt_mpt_tracks->Fill(mpt_alpha_tracks);
nt_mpt_tracks_uncorr->Fill(mpt_alpha_tracks_uncorr);
nt_mpt_tracks_ave->Fill(mpt_alpha_tracks_ave);
nt_mpt_tracks_uncorr_ave->Fill(mpt_alpha_tracks_uncorr_ave);
nt_mpt_tracks_dR->Fill(mpt_dR_tracks);
nt_mpt_tracks_uncorr_dR->Fill(mpt_dR_tracks_uncorr);
nt_mpt_tracks_dR_ave->Fill(mpt_dR_tracks_ave);
nt_mpt_tracks_uncorr_dR_ave->Fill(mpt_dR_tracks_uncorr_ave);
nt_mpt_tracks_dphi->Fill(mpt_dphi_tracks);
nt_mpt_tracks_uncorr_dphi->Fill(mpt_dphi_tracks_uncorr);
nt_mpt_tracks_dphi_ave->Fill(mpt_dphi_tracks_ave);
nt_mpt_tracks_uncorr_dphi_ave->Fill(mpt_dphi_tracks_uncorr_ave);
nt_mpt_tracks_deta->Fill(mpt_deta_tracks);
nt_mpt_tracks_uncorr_deta->Fill(mpt_deta_tracks_uncorr);
nt_mpt_tracks_deta_ave->Fill(mpt_deta_tracks_ave);
nt_mpt_tracks_uncorr_deta_ave->Fill(mpt_deta_tracks_uncorr_ave);
TComplex cn1(fpf->sumpt[0] * fpf->vn[2][0], fpf->psin[2][0], kTRUE);
TComplex cn2(fpf->sumpt[14] * fpf->vn[2][14], fpf->psin[2][14], kTRUE);
TComplex cn = cn1+cn2;
double psi_combined = cn.Theta();
double v2_fourier = cn.Rho()/(fpf->sumpt[0]+fpf->sumpt[14]);
float jtentry[]={cent,pt1,eta1,phi1,pt2,eta2,phi2,pt3,eta3,phi3,dphi,ptratio,jetspz,jetspt,jetseta,jetsrap,jetsphi,jetspz_12,jetspt_12,jetseta_12,jetsrap_12,jetsphi_12,trkrap,mpt_tracks,mpt_tracks_ls,mpt_tracks_uncorr,mpt_tracks_ave,mpt_tracks_uncorr_ave,hfp,hfm,Npassingtrk,vz,fhi->hiEvtPlanes[21],phiave,v2_fourier,psi_combined,n_lead,n_sublead,fjet->nref};
nt_jet->Fill(jtentry);
}
outf->cd();
if(doSaveTrackInfo){
nt_track->Write();
}
nt_jet->Write();
nt_mpt_tracks->Write();
nt_mpt_tracks_uncorr->Write();
nt_mpt_tracks_ave->Write();
nt_mpt_tracks_uncorr_ave->Write();
nt_mpt_tracks_dR->Write();
nt_mpt_tracks_uncorr_dR->Write();
nt_mpt_tracks_dR_ave->Write();
nt_mpt_tracks_uncorr_dR_ave->Write();
nt_mpt_tracks_deta->Write();
nt_mpt_tracks_uncorr_deta->Write();
nt_mpt_tracks_deta_ave->Write();
nt_mpt_tracks_uncorr_deta_ave->Write();
nt_mpt_tracks_dphi->Write();
nt_mpt_tracks_uncorr_dphi->Write();
nt_mpt_tracks_dphi_ave->Write();
nt_mpt_tracks_uncorr_dphi_ave->Write();
outf->Close();
}