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root/cvsroot/UserCode/VHbb/interface/VHbbNameSpace.h
Revision: 1.5
Committed: Thu Jan 17 16:32:37 2013 UTC (12 years, 3 months ago) by nmohr
Content type: text/plain
Branch: MAIN
CVS Tags: workingVersionAfterHCP
Changes since 1.4: +81 -4 lines
Log Message: 
Add helpers

File Contents

# Content
1 #include "TLorentzVector.h"
2 #include "TVector3.h"
3 #include "TMath.h"
4
5 namespace VHbb {
6
7 double deltaPhi(double phi1,double phi2)
8 {
9 double result = phi1 - phi2;
10 while (result > TMath::Pi()) result -= 2*TMath::Pi();
11 while (result <= -TMath::Pi()) result += 2*TMath::Pi();
12 return result;
13 }
14
15 inline double deltaR(double eta1,double phi1,double eta2,double phi2)
16 {
17 double deta = eta1 - eta2;
18 double dphi = deltaPhi(phi1, phi2);
19 return TMath::Sqrt(deta*deta + dphi*dphi);
20 }
21
22
23 double Hmass( double V_eta,double V_phi,double V_pt,
24 double hJet1_eta,double hJet1_phi,double hJet1_pt,
25 double hJet2_eta,double hJet2_phi,double hJet2_pt ){
26
27 TVector3 V(1,1,1);
28 V.SetPtEtaPhi(V_pt,V_eta,V_phi);
29
30 TVector3 H1(1,1,1);
31 H1.SetPtEtaPhi(hJet1_pt,hJet1_eta,hJet1_phi);
32 H1.SetMag(1/sin(H1.Theta()));
33
34 TVector3 H2(1,1,1);
35 H2.SetPtEtaPhi(hJet2_pt,hJet2_eta,hJet2_phi);
36 H2.SetMag(1/sin(H2.Theta()));
37
38 TVector3 n1(H1);
39 TVector3 n2(H2);
40
41 double det= n1.Px() * n2.Py() - n2.Px() * n1.Py();
42
43 H1.SetMag( ( - n2.Py() * V.Px() + n2.Px() * V.Py() ) / (sin(n1.Theta()) *det ) );
44 H2.SetMag( ( + n1.Py() * V.Px() - n1.Px() * V.Py() ) / (sin(n2.Theta()) *det ) );
45
46 double mass=TMath::Sqrt( TMath::Power( (H1.Mag()+H2.Mag()),2 ) - TMath::Power(( ( H1+H2 ).Mag()),2) );
47
48 return mass;
49
50 }
51
52 double Hmass_comb(double hJet1_eta,double hJet1_phi,double hJet1_pt, double hJet1_mass,
53 double hJet2_eta,double hJet2_phi,double hJet2_pt, double hJet2_mass){
54
55 TLorentzVector H1, H2;
56 H1.SetPtEtaPhiM(hJet1_pt,hJet1_eta,hJet1_phi, hJet1_mass);;
57 H2.SetPtEtaPhiM(hJet2_pt,hJet2_eta,hJet2_phi, hJet2_mass);
58
59 return (H1 + H2).M();
60
61 }
62
63 double Hmass_3j(double h_eta,double h_phi,double h_pt, double h_mass,
64 double aJet_eta,double aJet_phi,double aJet_pt, double aJet_mass){
65
66 TLorentzVector H, H3;
67 H.SetPtEtaPhiM( h_pt,h_eta,h_phi, h_mass);;
68 H3.SetPtEtaPhiM(aJet_pt,aJet_eta,aJet_phi, aJet_mass);
69
70 return (H + H3).M();
71
72
73 }
74
75 double ANGLELZ(double pt, double eta, double phi, double mass, double pt2, double eta2, double phi2, double mass2){
76 TLorentzVector m1, m2, msum;
77 m1.SetPtEtaPhiM(pt, eta, phi, mass);
78 m2.SetPtEtaPhiM(pt2, eta2, phi2, mass2);
79 msum = m1 + m2;
80
81 TVector3 bZ = msum.BoostVector();
82
83 m1.Boost(-bZ);
84 m2.Boost(-bZ);
85
86 TVector3 b1;
87
88
89 if((int) (pt) % 2 == 0)
90 b1 = m1.BoostVector();
91 else
92 b1 = m2.BoostVector();
93
94 double cosTheta = b1.Dot(msum.BoostVector()) / (b1.Mag()*msum.BoostVector().Mag());
95 return(cosTheta);
96 }
97
98
99 double ANGLEHB(double pt, double eta, double phi, double e, double pt2, double eta2, double phi2, double e2){
100 TLorentzVector m1, m2, msum;
101 m1.SetPtEtaPhiE(pt, eta, phi, e);
102 m2.SetPtEtaPhiE(pt2, eta2, phi2, e2);
103 msum = m1 + m2;
104
105 TVector3 bZ = msum.BoostVector();
106
107 m1.Boost(-bZ);
108 m2.Boost(-bZ);
109
110 TVector3 b1;
111
112 if((int) (pt) % 2 == 0)
113 b1 = m1.BoostVector();
114 else
115 b1 = m2.BoostVector();
116
117 double cosTheta = b1.Dot(msum.BoostVector()) / (b1.Mag()*msum.BoostVector().Mag());
118 return(cosTheta);
119 }
120
121 double metCorSysShift(double met, double metphi, int Nvtx, int EVENT_run)
122 {
123 double metx = met * cos(metphi);
124 double mety = met * sin(metphi);
125 double px = 0.0, py = 0.0;
126 if (EVENT_run!=1) {
127 //pfMEtSysShiftCorrParameters_2012runAplusBvsNvtx_data
128 px = +1.68804e-01 + 3.37139e-01*Nvtx;
129 py = -1.72555e-01 - 1.79594e-01*Nvtx;
130 } else {
131 //pfMEtSysShiftCorrParameters_2012runAplusBvsNvtx_mc
132 px = +2.22335e-02 - 6.59183e-02*Nvtx;
133 py = +1.52720e-01 - 1.28052e-01*Nvtx;
134 }
135 metx -= px;
136 mety -= py;
137 return std::sqrt(metx*metx + mety*mety);
138 }
139
140 double metphiCorSysShift(double met, double metphi, int Nvtx, int EVENT_run)
141 {
142 double metx = met * cos(metphi);
143 double mety = met * sin(metphi);
144 double px = 0.0, py = 0.0;
145 if (EVENT_run!=1) {
146
147 //pfMEtSysShiftCorrParameters_2012runAplusBvsNvtx_data
148 px = +1.68804e-01 + 3.37139e-01*Nvtx;
149 py = -1.72555e-01 - 1.79594e-01*Nvtx;
150 } else {
151 //pfMEtSysShiftCorrParameters_2012runAplusBvsNvtx_mc
152 px = +2.22335e-02 - 6.59183e-02*Nvtx;
153 py = +1.52720e-01 - 1.28052e-01*Nvtx;
154 }
155 metx -= px;
156 mety -= py;
157 if (metx == 0.0 && mety == 0.0)
158 return 0.0;
159
160 double phi1 = std::atan2(mety,metx);
161 double phi2 = std::atan2(mety,metx)-2.0*M_PI;
162 if (std::abs(phi1-metphi) < std::abs(phi2-metphi)+0.5*M_PI)
163 return phi1;
164 else
165 return phi2;
166 }
167
168 double resolutionBias(double eta)
169 {
170 // return 0;//Nominal!
171 if(eta< 1.1) return 0.05;
172 if(eta< 2.5) return 0.10;
173 if(eta< 5) return 0.30;
174 return 0;
175 }
176
177 double evalJERBias( double ptreco, double ptgen, double eta1){
178 double eta = fabs(eta1);
179 double cor =1;
180 if ((fabs(ptreco - ptgen)/ ptreco)<0.5) { //Limit the effect to the core
181 cor = (ptreco +resolutionBias(eta) *(ptreco-ptgen))/ptreco;
182 }
183 return ptreco*cor;
184 }
185
186 double evalEt( double pt, double eta, double phi, double e){
187 TLorentzVector j;
188 j.SetPtEtaPhiE(pt,eta,phi, e );
189 return j.Et();
190
191 }
192
193 double evalMt( double pt, double eta, double phi, double e){
194 TLorentzVector j;
195 j.SetPtEtaPhiE(pt,eta,phi, e );
196 return j.Mt();
197
198 }
199
200 }
201