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WFormat.h
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#ifndef WFormat_H
#define WFormat_H
#include <TObject.h>
#include <TLorentzVector.h>
#include <TMath.h>
#include <TString.h>
#include <TStyle.h>
#include <TH1D.h>
#include <TH2D.h>
#include <TLegend.h>
#include <TCanvas.h>
#include <TSystem.h>
#include <vector>
#include <stdio.h>
#include <stdlib.h>
#include <iostream>
#include <string>
using namespace std;
class recoObj {
public:
recoObj(){}
recoObj( string fsuffix, double iniV ){}
virtual ~recoObj(){}
virtual void Fillh( double weight, double scale = 1. ) = 0;
virtual void getErr( double nPass, double nFail, double scale = 1. ) = 0 ;
virtual void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ) = 0 ;
virtual void getlep( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ) = 0 ;
virtual void getFloats( double fArr[] ) = 0;
virtual void getIntegrals( int iArr[] ) = 0;
virtual void scale( double scale ) = 0;
//virtual vector<TH2D*> Output2D() = 0;
};
class hadWBoson : public recoObj {
double hadM2 ;
double hadM3 ;
double lepM3 ;
double lepM2_eta;
double hadM2_eta;
double lepM2_Y;
double hadM2_Y;
double lepM2_Mt ;
double lepM3_eta;
double hadM3_eta;
double lepM3_Y;
double hadM3_Y;
double lepM3_Pt;
double hadM3_Pt;
double MET ;
TLorentzVector allJP4;
public:
hadWBoson(){
hM2M3 = new TH2D("hM2M3", " M3(X) vs M2(Y) ", 20, 50, 350, 16, 0, 240);
//hM2M3 = new TH2D("hM2M3", " M3(X) vs M2(Y) ", 25, 100, 600, 20, 0, 400);
hM2M3BG = new TH2D("hM2M3BG"," LepM3(X) vs HadM2(Y) ", 18, 0, 360, 15, 0, 300);
hM3M3 = new TH2D("hM3M3", " M3 had(X) vs M3 lep(Y) ", 20, 50, 350, 20, 50, 350);
//hM3M3 = new TH2D("hM3M3", " M3 had(X) vs M3 lep(Y) ", 25, 100, 600, 25, 100, 600);
hEtaM2 = new TH2D("hEtaM2", " Eta of M2 had(X) vs lep(Y) ", 25, -5, 5, 25, -5, 5);
hEtaM3 = new TH2D("hEtaM3", " Eta of M3 had(X) vs lep(Y) ", 25, -5, 5, 25, -5, 5);
hYM2 = new TH2D("hYM2", " Rapidity of M2 had(X) vs lep(Y) ", 25, -5, 5, 25, -5, 5);
hYM3 = new TH2D("hYM3", " Rapidity of M3 had(X) vs lep(Y) ", 25, -5, 5, 25, -5, 5);
hM2MET = new TH2D("hM2MET", " M2 had(X) vs MET(Y) ", 15, 10, 310, 12, 0, 240);
hM3Pt = new TH2D("hM3Pt", " Pt of hadT(X) vs Pt of lepT(Y) ", 20, 0, 200, 20, 0, 200);
hMETM2t = new TH2D("hMETM2t", " MET(X) vs lep Mt(Y) ", 24, 0, 240, 15, 0, 150);
}
virtual ~hadWBoson(){
delete hM2M3 ;
delete hM2M3BG ;
delete hM3M3 ;
delete hEtaM2 ;
delete hEtaM3 ;
delete hYM2 ;
delete hYM3 ;
delete hM2MET ;
delete hM3Pt ;
delete hMETM2t ;
}
void Fillh( double weight, double scale = 1. ) {
hM2M3->Fill( hadM3, hadM2, weight*scale );
hM2M3BG->Fill( lepM3, hadM2, weight*scale );
if (hadM2 > 70 && hadM2 < 90 ) hM3M3->Fill( hadM3, lepM3, weight*scale );
hEtaM2->Fill( hadM2_eta, lepM2_eta, weight*scale );
hEtaM3->Fill( hadM3_eta, lepM3_eta, weight*scale );
hYM2->Fill( hadM2_Y, lepM2_Y, weight*scale );
hYM3->Fill( hadM3_Y, lepM3_Y, weight*scale );
hM2MET->Fill( hadM2, MET, weight*scale );
hM3Pt->Fill( hadM3_Pt, lepM3_Pt , weight*scale );
hMETM2t->Fill( MET, lepM2_Mt , weight*scale );
}
void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ){
TLorentzVector vM2 = v0 + v1 ;
TLorentzVector vM3 = v0 + v1 + v2;
//double dphi = v0.DeltaPhi( v1 ) ;
//double Mt2 = 2.*v0.Pt()*v1.Pt()*( 1. - cos(dphi) );
hadM2 = vM2.M() ;
hadM3 = vM3.M() ;
hadM2_eta = vM2.Eta() ;
hadM3_eta = vM3.Eta() ;
hadM2_Y = vM2.Rapidity() ;
hadM3_Y = vM3.Rapidity() ;
hadM3_Pt = vM3.Pt() ;
//cout<<" hadM3: "<< hadM3 <<" hadM2: "<< hadM2 ;
}
void getlep( TLorentzVector v3, TLorentzVector v4, TLorentzVector v5 ){
TLorentzVector vM2 = v4 + v5 ;
TLorentzVector vM3 = v3 + v4 + v5;
double dphi = v4.DeltaPhi( v5 ) ;
double Mt2 = 2.*v4.Pt()*v5.Pt()*( 1. - cos(dphi) );
lepM2_Mt = sqrt( Mt2 ) ;
lepM3 = vM3.M() ;
lepM2_Y = vM2.Rapidity() ;
lepM3_Y = vM3.Rapidity() ;
lepM2_eta = vM2.Eta() ;
lepM3_eta = vM3.Eta() ;
MET = v5.Pt() ;
lepM3_Pt = vM3.Pt() ;
//cout<<" lepM3: "<< lepM3 <<" Neutrino Pz: "<< v5.Pz() <<endl;
}
void getFloats( double fArr[] ) { }
void getIntegrals( int iArr[] ) { }
void getErr( double np, double nf, double scale ) { }
void scale( double scale ) {
hM2M3->Scale( scale );
hM2M3BG->Scale( scale );
hM3M3->Scale( scale );
hEtaM2->Scale( scale );
hEtaM3->Scale( scale );
hYM2->Scale( scale );
hYM3->Scale( scale );
hM2MET->Scale( scale );
hM3Pt->Scale( scale );
hMETM2t->Scale( scale );
}
vector<TH2D*> Output2D(){
h2Dlist.clear() ;
h2Dlist.push_back(hM2M3);
h2Dlist.push_back(hM3M3);
h2Dlist.push_back(hEtaM2);
h2Dlist.push_back(hEtaM3);
h2Dlist.push_back(hYM2);
h2Dlist.push_back(hYM3);
h2Dlist.push_back(hM2MET);
h2Dlist.push_back(hM3Pt);
h2Dlist.push_back(hMETM2t);
h2Dlist.push_back(hM2M3BG);
return h2Dlist ;
}
void Fill2DVec( vector<TH2D*>& hList ){
hList.push_back(hM2M3);
hList.push_back(hM3M3);
hList.push_back(hEtaM2);
hList.push_back(hEtaM3);
hList.push_back(hYM2);
hList.push_back(hYM3);
hList.push_back(hM2MET);
hList.push_back(hM3Pt);
hList.push_back(hMETM2t);
hList.push_back(hM2M3BG);
}
TH2D* hM2M3 ;
TH2D* hM3M3 ;
TH2D* hEtaM2 ;
TH2D* hEtaM3 ;
TH2D* hYM2 ;
TH2D* hYM3 ;
TH2D* hM2MET ;
TH2D* hM3Pt ;
TH2D* hMETM2t ;
TH2D* hM2M3BG ;
vector<TH2D*> h2Dlist ;
//ClassDef(hadWBoson, 1);
};
class hTopo : public recoObj {
double met ;
double Mt ;
double hadM2 ;
double hadM3 ;
double lepM3 ;
public:
hTopo( string fsfx = "" ){
TString sfx = fsfx ;
hMT = new TH1D("hMT"+sfx, " Mt ", 15, 0, 150);
M2had = new TH1D("M2had"+sfx, " hadronic M2 ", 16, 0, 240);
M3had = new TH1D("M3had"+sfx, " hadronic M3 ", 20, 50, 350);
M3lep = new TH1D("M3lep"+sfx, " leptonic M3 ", 20, 50, 350);
hMT_1 = new TH1D("hMT_1"+sfx, " Mt ", 15, 0, 150);
M2had_1 = new TH1D("M2had_1"+sfx, " hadronic M2 ", 12, 0, 240);
M3had_1 = new TH1D("M3had_1"+sfx, " hadronic M3 ", 15, 50, 350);
M3lep_1 = new TH1D("M3lep_1"+sfx, " leptonic M3 ", 15, 50, 350);
hMT_2 = new TH1D("hMT_2"+sfx, " Mt ", 15, 0, 150);
M2had_2 = new TH1D("M2had_2"+sfx, " hadronic M2 ", 12, 0, 240);
M3had_2 = new TH1D("M3had_2"+sfx, " hadronic M3 ", 15, 50, 350);
M3lep_2 = new TH1D("M3lep_2"+sfx, " leptonic M3 ", 15, 50, 350);
hMT_3 = new TH1D("hMT_3"+sfx, " Mt ", 15, 0, 150);
M2had_3 = new TH1D("M2had_3"+sfx, " hadronic M2 ", 12, 0, 240);
M3had_3 = new TH1D("M3had_3"+sfx, " hadronic M3 ", 15, 50, 350);
M3lep_3 = new TH1D("M3lep_3"+sfx, " leptonic M3 ", 15, 50, 350);
hMT_4 = new TH1D("hMT_4"+sfx, " Mt ", 15, 0, 150);
M2had_4 = new TH1D("M2had_4"+sfx, " hadronic M2 ", 12, 0, 240);
M3had_4 = new TH1D("M3had_4"+sfx, " hadronic M3 ", 15, 50, 350);
M3lep_4 = new TH1D("M3lep_4"+sfx, " leptonic M3 ", 15, 50, 350);
}
virtual ~hTopo(){
delete hMT ;
delete M2had ;
delete M3had ;
delete M3lep ;
delete hMT_1 ;
delete M2had_1 ;
delete M3had_1 ;
delete M3lep_1 ;
delete hMT_2 ;
delete M2had_2 ;
delete M3had_2 ;
delete M3lep_2 ;
delete hMT_3 ;
delete M2had_3 ;
delete M3had_3 ;
delete M3lep_3 ;
delete hMT_4 ;
delete M2had_4 ;
delete M3had_4 ;
delete M3lep_4 ;
}
void Fillh( double weight, double scale = 1. ) {
M2had->Fill( hadM2, weight*scale );
M3had->Fill( hadM3, weight*scale );
M3lep->Fill( lepM3, weight*scale );
hMT->Fill( Mt, weight*scale );
if ( hadM2 < 60 ) hMT_1->Fill( Mt, weight*scale );
if ( hadM2 >= 60 && hadM2 <= 100 ) hMT_2->Fill( Mt, weight*scale );
if ( hadM2 > 100 ) hMT_3->Fill( Mt, weight*scale );
if ( met > 20 ) hMT_4->Fill( Mt, weight*scale );
if ( hadM3 < 140 ) M2had_1->Fill( hadM2, weight*scale );
if ( hadM3 >= 140 && hadM3 <= 170 ) M2had_2->Fill( hadM2, weight*scale );
if ( hadM3 > 170 ) M2had_3->Fill( hadM2, weight*scale );
if ( met > 20 ) M2had_4->Fill( hadM2, weight*scale );
if ( hadM2 < 60 ) M3had_1->Fill( hadM3, weight*scale );
if ( hadM2 >= 60 && hadM2 <= 100 ) M3had_2->Fill( hadM3, weight*scale );
if ( hadM2 > 100 ) M3had_3->Fill( hadM3, weight*scale );
if ( met > 20 ) M3had_4->Fill( hadM3, weight*scale );
if ( hadM3 < 140 && hadM2 >= 65 && hadM2 <= 95 ) M3lep_1->Fill( lepM3, weight*scale );
if ( hadM3 >= 140 && hadM3 <= 170 && hadM2 >= 65 && hadM2 <= 95 ) M3lep_2->Fill( lepM3, weight*scale );
if ( hadM3 > 170 && hadM2 >= 65 && hadM2 <= 95 ) M3lep_3->Fill( lepM3, weight*scale );
if ( met > 20 && hadM2 >= 65 && hadM2 <= 95 ) M3lep_4->Fill( lepM3, weight*scale );
}
void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ){
TLorentzVector vM2 = v0 + v1 ;
TLorentzVector vM3 = v0 + v1 + v2;
hadM2 = ( vM2.M() < 240 ) ? vM2.M() : 239. ;
hadM3 = ( vM3.M() < 350 ) ? vM3.M() : 349. ;
}
void getlep( TLorentzVector v3, TLorentzVector v4, TLorentzVector v5 ){
TLorentzVector vM2 = v4 + v5 ;
TLorentzVector vM3 = v3 + v4 + v5;
met = v5.Pt() ;
double dphi = v4.DeltaPhi( v5 ) ;
double Mt2 = 2.*v4.Pt()*v5.Pt()*( 1. - cos(dphi) );
Mt = ( sqrt( Mt2 ) < 150 ) ? sqrt( Mt2 ) : 149. ;
lepM3 = ( vM3.M() < 350 ) ? vM3.M() : 349. ;
}
void getFloats( double fArr[] ) { }
void getIntegrals( int iArr[] ) { }
void getErr( double np, double nf, double scale ) { }
void scale( double scale ) {
hMT->Scale( scale );
M2had->Scale( scale );
M3had->Scale( scale );
M3lep->Scale( scale );
hMT_1->Scale( scale );
M2had_1->Scale( scale );
M3had_1->Scale( scale );
M3lep_1->Scale( scale );
hMT_2->Scale( scale );
M2had_2->Scale( scale );
M3had_2->Scale( scale );
M3lep_2->Scale( scale );
hMT_3->Scale( scale );
M2had_3->Scale( scale );
M3had_3->Scale( scale );
M3lep_3->Scale( scale );
hMT_4->Scale( scale );
M2had_4->Scale( scale );
M3had_4->Scale( scale );
M3lep_4->Scale( scale );
}
void Fill1DVec( vector<TH1D*>& hList ){
hList.push_back(hMT);
hList.push_back(M2had);
hList.push_back(M3had);
hList.push_back(M3lep);
hList.push_back(hMT_1);
hList.push_back(M2had_1);
hList.push_back(M3had_1);
hList.push_back(M3lep_1);
hList.push_back(hMT_2);
hList.push_back(M2had_2);
hList.push_back(M3had_2);
hList.push_back(M3lep_2);
hList.push_back(hMT_3);
hList.push_back(M2had_3);
hList.push_back(M3had_3);
hList.push_back(M3lep_3);
hList.push_back(hMT_4);
hList.push_back(M2had_4);
hList.push_back(M3had_4);
hList.push_back(M3lep_4);
}
TH1D* hMT ;
TH1D* M2had ;
TH1D* M3had ;
TH1D* M3lep ;
TH1D* hMT_1 ;
TH1D* M2had_1 ;
TH1D* M3had_1 ;
TH1D* M3lep_1 ;
TH1D* hMT_2 ;
TH1D* M2had_2 ;
TH1D* M3had_2 ;
TH1D* M3lep_2 ;
TH1D* hMT_3 ;
TH1D* M2had_3 ;
TH1D* M3had_3 ;
TH1D* M3lep_3 ;
TH1D* hMT_4 ;
TH1D* M2had_4 ;
TH1D* M3had_4 ;
TH1D* M3lep_4 ;
//ClassDef(hTopo, 1);
};
class ACounter : public recoObj {
public:
ACounter( double muCut = 20 ){
hadM2M3 = 0 ;
shadM2M3 = 0 ;
w2np = 0 ;
w2nf = 0 ;
wnp = 0 ;
wnf = 0 ;
wn = 0 ;
outV.clear();
}
virtual ~ACounter(){
}
void Fillh( double weight, double scale = 1. ) {
hadM2M3 = hadM2M3 + (weight*scale) ;
shadM2M3 = shadM2M3 + (weight*scale*scale) ;
}
void getErr( double np, double nf, double scale = 1. ) {
wn = wn + scale*( np + nf ) ;
wnp = wnp + scale*np ;
wnf = wnf + scale*nf ;
w2np = w2np + scale*scale*np ;
w2nf = w2nf + scale*scale*nf ;
}
void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ){ }
void getlep( TLorentzVector v3, TLorentzVector v4, TLorentzVector v5 ){ }
void getFloats( double fArr[] ) { }
void getIntegrals( int iArr[] ) { }
void scale( double scale ) {
hadM2M3 = hadM2M3 * scale ;
}
void Reset(){
hadM2M3 = 0 ;
shadM2M3 = 0 ;
w2np = 0 ;
w2nf = 0 ;
wnp = 0 ;
wnf = 0 ;
wn = 0 ;
outV.clear();
}
vector<double> Output(){
outV.clear();
outV.push_back( hadM2M3 );
outV.push_back( shadM2M3 );
outV.push_back( wnp );
outV.push_back( w2np );
outV.push_back( wnf );
outV.push_back( w2nf );
outV.push_back( wn );
return outV ;
}
double hadM2M3 ;
double shadM2M3 ;
double w2np ;
double w2nf ;
double wnp ;
double wnf ;
double wn ;
vector<double> outV ;
//ClassDef(ACounter, 1);
};
class lepWBoson : public recoObj {
double hadM2 ;
double hadM3 ;
double lepM3 ;
double lepM2t;
double lepM3_phi;
double hadM3_phi;
public:
lepWBoson(){
hM2M3 = new TH2D("hM2M3", " M3 had(X) vs M2 had(Y) ", 15, 50, 350, 15, 10, 310);
hM2M3L = new TH2D("hM2M3L", " M3 lep(X) vs M2 had(Y) ", 15, 50, 350, 15, 10, 310);
hM2tM3 = new TH2D("hM2tM3", " M3(X) vs M2t(Y) ", 15, 50, 350, 20, 0, 100);
hM3M3 = new TH2D("hM3M3", " M3 had(X) vs M3 lep(Y) ", 15,50,350, 15, 50, 350);
hPhiM3 = new TH2D("hPhiM3", " Phi of M3 had(X) vs lep(Y) ", 32, -3.2, 3.2, 32, -3.2, 3.2);
}
virtual ~lepWBoson(){
delete hM2M3 ;
delete hM2M3L ;
delete hM2tM3 ;
delete hM3M3 ;
delete hPhiM3 ;
}
void Fillh( double weight, double scale = 1. ) {
hM2M3->Fill( hadM3, hadM2, weight*scale );
hM2M3L->Fill( lepM3, hadM2, weight*scale );
hM2tM3->Fill( lepM3, lepM2t, weight*scale );
hM3M3->Fill( hadM3, lepM3, weight*scale );
hPhiM3->Fill( hadM3_phi, lepM3_phi, weight*scale );
}
void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ){
TLorentzVector vM2 = v0 + v1 ;
TLorentzVector vM3 = v0 + v1 + v2;
hadM2 = vM2.M() ;
hadM3 = vM3.M() ;
hadM3_phi = vM3.Phi() ;
}
// v3 : bjet v4 : muon v5 : neutrino
void getlep( TLorentzVector v3, TLorentzVector v4, TLorentzVector v5 ){
TLorentzVector vM2 = v4 + v5 ;
TLorentzVector vM3 = v3 + v4 + v5;
//double Mt2 = (v4.Et()+v5.Et())*(v4.Et()+v5.Et()) - ( vM2.Pt()*vM2.Pt() );
double dphi = v4.DeltaPhi( v5 ) ;
double Mt2 = 2.*v4.Pt()*v5.Pt()*( 1. - cos(dphi) );
lepM2t = sqrt( Mt2 ) ;
lepM3 = vM3.M() ;
lepM3_phi = vM3.Phi() ;
}
void getFloats( double fArr[] ) { }
void getIntegrals( int iArr[] ) { }
void getErr( double np, double nf, double scale ) { }
void scale( double scale ) {
hM2M3->Scale( scale );
hM2M3L->Scale( scale );
hM2tM3->Scale( scale );
hM3M3->Scale( scale );
hPhiM3->Scale( scale );
}
void Fill2DVec( vector<TH2D*>& hList ){
hList.push_back(hM2M3L);
hList.push_back(hM2tM3);
hList.push_back(hM3M3);
hList.push_back(hPhiM3);
hList.push_back(hM2M3);
}
TH2D* hM2M3L ;
TH2D* hM2tM3 ;
TH2D* hM3M3 ;
TH2D* hPhiM3 ;
TH2D* hM2M3 ;
vector<TH2D*> h2Dlist ;
//ClassDef(lepWBoson, 1);
};
class hObjs : public recoObj {
double pt0 ;
double pt1 ;
double pt2 ;
double pt3 ;
double pt4 ;
double pt5 ;
double j0_eta ;
double j1_eta ;
double mu_eta ;
double mu_iso ;
double mu_nhits ;
double mu_d0 ;
double mu_x2 ;
double dRmj ;
double relPt ;
double Htlep ;
double Ht ;
double lepW_pt ;
double lepW_mt ;
double lepW_mt1 ;
double lepW_mt2 ;
double lepW_mt3 ;
double lepW_mt4 ;
double NlepW_all ;
double NlepW ;
double WPtCut ;
double dPhi_MuMet ;
int njets ;
public:
hObjs( string fsfx = "", int bs = 2. ){
TString sfx = fsfx ;
J0Pt = new TH1D("J0Pt"+sfx, " J0 Pt ", 15*bs, 0, 150);
J1Pt = new TH1D("J1Pt"+sfx, " J1 Pt ", 15*bs, 0, 150);
J2Pt = new TH1D("J2Pt"+sfx, " J2 Pt ", 15*bs, 0, 150);
J3Pt = new TH1D("J3Pt"+sfx, " J3 Pt ", 15*bs, 0, 150);
J0Eta = new TH1D("J0Eta"+sfx, " Jet 0 Eta ", 25, -2.6, 2.6 );
J1Eta = new TH1D("J1Eta"+sfx, " Jet 1 Eta ", 25, -2.6, 2.6 );
muPt = new TH1D("muPt"+sfx, " muon Pt ", 15*bs, 0, 150);
metH = new TH1D("metH"+sfx, " MET ", 15*bs, 0, 150);
muEta = new TH1D("muEta"+sfx, " muon Eta ", 25, -2.6, 2.6 );
lepWPt = new TH1D("lepWPt"+sfx, " Pt(Mu,MET)", 10*bs, 0, 200);
lepWMt = new TH1D("lepWMt"+sfx, " Mt(Mu,MET) ", 15*bs, 0, 150);
lepWMt1 = new TH1D("lepWMt1"+sfx, " Mt(Mu,MET)", 15*bs, 0, 150);
lepWMt2 = new TH1D("lepWMt2"+sfx, " Mt(Mu,MET)", 15*bs, 0, 150);
lepWMt3 = new TH1D("lepWMt3"+sfx, " Mt(Mu,MET)", 15*bs, 0, 150);
lepWMt4 = new TH1D("lepWMt4"+sfx, " Mt(Mu,MET)", 15, 0, 150);
hNJ = new TH1D("hNJ"+sfx, " n jets", 7, -0.5, 6.5) ;
//hNJ = new TH1D("hNJ"+sfx, " n jets", 6, -0.5, 5.5) ;
hMuIso = new TH1D("hMuIso"+sfx, " muon RelIso ", 10*bs, 0, 0.15) ;
hMuNHits = new TH1D("hMuNHits"+sfx," muon N Hits ", 20*bs, 0, 40 ) ;
hMuD0 = new TH1D("hMuD0"+sfx, " muon d0(Bsp)", 20*bs, -0.02, 0.02 ) ;
hMuX2 = new TH1D("hMuX2"+sfx, " muon X2 " , 110, 0, 11 ) ;
hdRmj = new TH1D("hdRmj"+sfx, " dR( mu, jet) " , 63, 0, 6.3 ) ;
hRelPt = new TH1D("hRelPt"+sfx, " RelPt( mu, jet)" , 25*bs, 0, 100 ) ;
hHtlep = new TH1D("hHtlep"+sfx, " Ht_lep" , 20*bs, 0, 600 ) ;
hHt = new TH1D("hHt"+sfx, " Ht_tot" , 20*bs, 0, 600 ) ;
hMETMt = new TH2D("hMETMt"+sfx, " MET(X) vs lep Mt(Y) ", 15*bs, 0, 150, 15*bs, 0, 150);
hWPtMt = new TH2D("hWPtMt"+sfx, " Pt of W(X) vs lep Mt(Y) ", 10*bs, 0, 200, 15*bs, 0, 150);
hWPtdPhi = new TH2D("hWPtdPhi"+sfx, " Pt of W(X) vs dPhi(mu, MET)", 10*bs, 0, 200, 16*bs, 0, 3.2);
hMtdPhi = new TH2D("hMtdPhi"+sfx, " Mt vs dPhi(mu, MET) ", 15*bs, 0, 150, 16*bs, 0, 3.2);
hMuMET = new TH2D("hMuMET"+sfx, " Mu(X) vs MET(Y) ", 15*bs, 0, 120, 15*bs, 0, 120);
NlepW = 0 ;
NlepW_all = 0 ;
WPtCut = 20 ;
}
virtual ~hObjs(){
delete J0Pt ;
delete J1Pt ;
delete J2Pt ;
delete J3Pt ;
delete J0Eta ;
delete J1Eta ;
delete muPt ;
delete metH ;
delete muEta ;
delete lepWPt ;
delete lepWMt ;
delete lepWMt1 ;
delete lepWMt2 ;
delete lepWMt3 ;
delete lepWMt4 ;
delete hNJ ;
delete hMuIso ;
delete hMuNHits ;
delete hMuD0 ;
delete hMuX2 ;
delete hdRmj ;
delete hRelPt ;
delete hHtlep;
delete hHt;
delete hMETMt ;
delete hWPtMt ;
delete hWPtdPhi ;
delete hMtdPhi ;
delete hMuMET ;
}
void Fillh( double weight = 1., double scale = 1. ) {
J0Pt->Fill( pt0, weight*scale );
J1Pt->Fill( pt1, weight*scale );
J2Pt->Fill( pt2, weight*scale );
J3Pt->Fill( pt3, weight*scale );
J0Eta->Fill( j0_eta, weight*scale );
J1Eta->Fill( j1_eta, weight*scale );
muPt->Fill( pt4, weight*scale );
metH->Fill( pt5, weight*scale );
muEta->Fill( mu_eta, weight*scale );
hNJ->Fill( njets, weight*scale );
hMuIso->Fill( mu_iso, weight*scale );
hMuNHits->Fill( mu_nhits, weight*scale );
hMuD0->Fill( mu_d0, weight*scale );
hMuX2->Fill( mu_x2, weight*scale );
hdRmj->Fill( dRmj, weight*scale );
hRelPt->Fill( relPt, weight*scale );
lepWPt->Fill( lepW_pt, weight*scale );
lepWMt->Fill( lepW_mt, weight*scale );
hHtlep->Fill( Htlep, weight*scale );
hHt->Fill( Ht, weight*scale );
hMETMt->Fill( pt5, lepW_mt, weight*scale );
hWPtMt->Fill( lepW_pt, lepW_mt, weight*scale );
hWPtdPhi->Fill( lepW_pt, dPhi_MuMet, weight*scale );
hMtdPhi->Fill( lepW_mt, dPhi_MuMet, weight*scale );
hMuMET->Fill( pt4, pt5, weight*scale );
//if (lepW_pt < WPtCut ) lepWMt1->Fill( lepW_mt, weight*scale );
//if (lepW_pt < 2*WPtCut && lepW_pt >= WPtCut ) lepWMt2->Fill( lepW_mt, weight*scale );
//if (lepW_pt < 3*WPtCut && lepW_pt >= 2*WPtCut ) lepWMt3->Fill( lepW_mt, weight*scale );
//if ( lepW_pt >= 3*WPtCut ) lepWMt4->Fill( lepW_mt, weight*scale );
if ( njets == 1 ) lepWMt1->Fill( lepW_mt, weight*scale );
if ( njets == 2 ) lepWMt2->Fill( lepW_mt, weight*scale );
if ( njets == 3 ) lepWMt3->Fill( lepW_mt, weight*scale );
if ( njets >= 4 ) lepWMt4->Fill( lepW_mt, weight*scale );
if (lepW_pt < 3*WPtCut && lepW_mt >= 40 ) NlepW = NlepW + (weight*scale) ;
if (lepW_pt < 3*WPtCut ) NlepW_all = NlepW_all + (weight*scale) ;
}
void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ){
pt0 = v0.Pt() ;
pt1 = ( v1.Pt() != 0 ) ? v1.Pt() : -1 ;
pt2 = ( v2.Pt() != 0 ) ? v2.Pt() : -1 ;
j0_eta = ( v0.Pt() != 0 ) ? v0.Eta() : 3. ;
j1_eta = ( v1.Pt() != 0 ) ? v1.Eta() : 3. ;
}
void getlep( TLorentzVector v3, TLorentzVector v4, TLorentzVector v5 ){
TLorentzVector vM2 = v4 + v5 ;
//double Mt2 = (v4.Et()+v5.Et())*(v4.Et()+v5.Et()) - ( vM2.Pt()*vM2.Pt() );
double dphi = v4.DeltaPhi( v5 ) ;
double Mt2 = 2.*v4.Pt()*v5.Pt()*( 1. - cos(dphi) );
pt3 = v3.Pt() ;
pt4 = v4.Pt() ;
pt5 = v5.Pt() ;
mu_eta = v4.Eta() ;
lepW_mt = sqrt( Mt2 );
if ( lepW_mt > 150 ) lepW_mt = 149.9 ;
lepW_pt = vM2.Pt() ;
dPhi_MuMet = fabs( dphi );
}
void scale( double scale = 1. ) {
J0Pt->Scale( scale );
J1Pt->Scale( scale );
J2Pt->Scale( scale );
J3Pt->Scale( scale );
J0Eta->Scale( scale );
J1Eta->Scale( scale );
muPt->Scale( scale );
metH->Scale( scale );
muEta->Scale( scale );
lepWMt->Scale( scale );
lepWMt1->Scale( scale );
lepWMt2->Scale( scale );
lepWMt3->Scale( scale );
lepWMt4->Scale( scale );
lepWPt->Scale( scale );
hNJ->Scale(scale);
hMuIso->Scale(scale);
hMuNHits->Scale(scale);
hMuD0->Scale(scale);
hMuX2->Scale(scale);
hdRmj->Scale(scale);
hRelPt->Scale(scale);
hHt->Scale(scale);
hHtlep->Scale(scale);
}
void getFloats( double fArr[] ) {
mu_iso = fArr[0] ;
mu_d0 = fArr[1] ;
mu_x2 = fArr[2] ;
dRmj = ( fArr[3] < 6.3 ) ? fArr[3] : 6.29 ;
relPt = fArr[4] ;
Ht = fArr[5] ;
Htlep = fArr[6] ;
}
void getIntegrals( int iArr[] ) {
njets = iArr[0] ;
//if ( iArr[0] > 4 ) njets = 4 ;
if ( iArr[0] > 6 ) njets = 6 ;
mu_nhits = iArr[1] ;
}
void getErr( double np, double nf, double scale ) { }
void Fill1DVec( vector<TH1D*>& hList ){
hList.push_back(J0Pt);
hList.push_back(J1Pt);
hList.push_back(J2Pt);
hList.push_back(J3Pt);
hList.push_back(muPt);
hList.push_back(metH);
hList.push_back(muEta);
hList.push_back(hNJ);
hList.push_back(hMuIso);
hList.push_back(hMuNHits);
hList.push_back(hMuD0);
hList.push_back(hMuX2);
hList.push_back(lepWPt);
hList.push_back(lepWMt);
hList.push_back(lepWMt1);
hList.push_back(lepWMt2);
hList.push_back(lepWMt3);
hList.push_back(lepWMt4);
hList.push_back(hdRmj);
hList.push_back(hRelPt);
hList.push_back(hHtlep);
hList.push_back(hHt);
hList.push_back(J0Eta);
hList.push_back(J1Eta);
}
void Fill2DVec( vector<TH2D*>& hList ){
hList.push_back( hMETMt );
hList.push_back( hWPtMt );
hList.push_back( hWPtdPhi );
hList.push_back( hMuMET );
hList.push_back( hMtdPhi );
}
void CounterVec( vector<double>& cList ) {
cList.push_back( NlepW );
cList.push_back( NlepW_all );
}
TH1D* J0Pt ;
TH1D* J1Pt ;
TH1D* J2Pt ;
TH1D* J3Pt ;
TH1D* J0Eta ;
TH1D* J1Eta ;
TH1D* muPt ;
TH1D* metH ;
TH1D* muEta ;
TH1D* lepWMt ;
TH1D* lepWPt ;
TH1D* hNJ ;
TH1D* hMuIso ;
TH1D* hMuNHits ;
TH1D* hMuD0 ;
TH1D* hMuX2 ;
TH1D* hdRmj ;
TH1D* hRelPt ;
TH1D* lepWMt1 ;
TH1D* lepWMt2 ;
TH1D* lepWMt3 ;
TH1D* lepWMt4 ;
TH1D* hHtlep ;
TH1D* hHt ;
TH2D* hMETMt ;
TH2D* hWPtMt ;
TH2D* hWPtdPhi ;
TH2D* hMtdPhi ;
TH2D* hMuMET ;
//ClassDef(hObjs, 1);
};
/*
class hNorm : public recoObj {
double lepW_pt ;
double lepW_mt ;
double lepW_mt1 ;
double lepW_mt2 ;
double lepW_mt3 ;
double lepW_mt4 ;
double NlepW_all ;
double NlepW ;
double WPtCut ;
public:
hObjs( string fsfx = "", int nbin = 30 ){
TString sfx = fsfx ;
lepWMt = new TH1D("lepWMt"+sfx, " Mt(Mu,MET) ", nbin, 0, 150);
lepWMt1 = new TH1D("lepWMt1"+sfx, " Mt(Mu,MET)", nbin, 0, 150);
lepWMt2 = new TH1D("lepWMt2"+sfx, " Mt(Mu,MET)", nbin, 0, 150);
lepWMt3 = new TH1D("lepWMt3"+sfx, " Mt(Mu,MET)", nbin, 0, 150);
lepWMt4 = new TH1D("lepWMt4"+sfx, " Mt(Mu,MET)", 15, 0, 150);
NlepW = 0 ;
NlepW_all = 0 ;
WPtCut = 20 ;
}
virtual ~hObjs(){
delete lepWMt ;
delete lepWMt1 ;
delete lepWMt2 ;
delete lepWMt3 ;
delete lepWMt4 ;
}
void Fillh( double weight = 1., double scale = 1. ) {
lepWMt->Fill( lepW_mt, weight*scale );
if (lepW_pt < WPtCut ) lepWMt1->Fill( lepW_mt, weight*scale );
if (lepW_pt < 2*WPtCut && lepW_pt >= WPtCut ) lepWMt2->Fill( lepW_mt, weight*scale );
if (lepW_pt < 3*WPtCut && lepW_pt >= 2*WPtCut ) lepWMt3->Fill( lepW_mt, weight*scale );
if ( lepW_pt >= 3*WPtCut ) lepWMt4->Fill( lepW_mt, weight*scale );
if (lepW_pt < 3*WPtCut && lepW_mt >= 40 ) NlepW = NlepW + (weight*scale) ;
if (lepW_pt < 3*WPtCut ) NlepW_all = NlepW_all + (weight*scale) ;
}
void gethad( TLorentzVector v0, TLorentzVector v1, TLorentzVector v2 ){
pt0 = v0.Et() ;
pt1 = v1.Et() ;
pt2 = v2.Et() ;
}
void getlep( TLorentzVector v3, TLorentzVector v4, TLorentzVector v5 ){
TLorentzVector vM2 = v4 + v5 ;
//double Mt2 = (v4.Et()+v5.Et())*(v4.Et()+v5.Et()) - ( vM2.Pt()*vM2.Pt() );
double dphi = v4.DeltaPhi( v5 ) ;
double Mt2 = 2.*v4.Pt()*v5.Pt()*( 1. - cos(dphi) );
pt3 = v3.Et() ;
pt4 = v4.Pt() ;
pt5 = v5.Pt() ;
mu_eta = v4.Eta() ;
lepW_mt = sqrt( Mt2 );
lepW_pt = vM2.Pt() ;
dPhi_MuMet = fabs( dphi );
}
void scale( double scale = 1. ) {
lepWMt->Scale( scale );
lepWMt1->Scale( scale );
lepWMt2->Scale( scale );
lepWMt3->Scale( scale );
lepWMt4->Scale( scale );
}
void getFloats( double fArr[] ) {
}
void getIntegrals( int iArr[] ) {
njets = iArr[0] ;
if ( iArr[0] > 6 ) njets = 6 ;
mu_nhits = iArr[1] ;
}
void getErr( double np, double nf, double scale ) { }
void Fill1DVec( vector<TH1D*>& hList ){
hList.push_back(lepWMt);
hList.push_back(lepWMt1);
hList.push_back(lepWMt2);
hList.push_back(lepWMt3);
hList.push_back(lepWMt4);
}
void Fill2DVec( vector<TH2D*>& hList ){
}
TH1D* lepWMt ;
TH1D* lepWMt1 ;
TH1D* lepWMt2 ;
TH1D* lepWMt3 ;
TH1D* lepWMt4 ;
//ClassDef(hObjs, 1);
};
*/
class hLepM2 : public recoObj {
double sum_JPt ;
double lepW_pt ;
double lepW_mt ;
double WPtCut ;
double nW[5] ;
double sW[5] ;
TLorentzVector allJP4;
public:
hLepM2( string fsfx = "", int nbin = 30 ){
TString sfx = fsfx ;
WPtCut = 20. ;
hWPt0 = new TH1D("hWPt0"+sfx, " lep M2 pt 0 ", 40, 0, 200);
hWMt0 = new TH1D("hWMt0"+sfx, " lep M2t 0 ", nbin, 0, 150);
sumJetPt0 = new TH1D("sumJetPt0"+sfx, " vector sum of jets pt 0", 40, 0, 200);
hWMt1 = new TH1D("hWMt1"+sfx, " lep M2t 1 ", nbin, 0, 150);
sumJetPt1 = new TH1D("sumJetPt1"+sfx, " vector sum of jets pt 1", 40, 0, 200);
hWMt2 = new TH1D("hWMt2"+sfx, " lep M2t 2 ", nbin, 0, 150);
sumJetPt2 = new TH1D("sumJetPt2"+sfx, " vector sum of jets pt 2", 40, 0, 200);
hWMt3 = new TH1D("hWMt3"+sfx, " lep M2t 3 ", 15, 0, 150);
sumJetPt3 = new TH1D("sumJetPt3"+sfx, " vector sum of jets pt 3", 40, 0, 200);
hWMt4 = new TH1D("hWMt4"+sfx, " lep M2t 4 ", 15, 0, 150);
sumJetPt4 = new TH1D("sumJetPt4"+sfx, " vector sum of jets pt 4", 40, 0, 200);
for (int i=0; i<5; i++) {
nW[i] = 0 ;
sW[i] = 0 ;
}
}
virtual ~hLepM2(){
delete hWPt0 ;
delete hWMt0 ;
delete sumJetPt0 ;
delete hWMt1 ;
delete sumJetPt1 ;
delete hWMt2 ;
delete sumJetPt2 ;
delete hWMt3 ;
delete sumJetPt3 ;
delete hWMt4 ;
delete sumJetPt4 ;
}