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source: svn/trunk/interface/SmearUtil.h@ 314

Last change on this file since 314 was 307, checked in by severine ovyn, 16 years ago

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[2]1#ifndef _SMEARUTIL_H_
2#define _SMEARUTIL_H_
3
[260]4/***********************************************************************
5** **
6** /----------------------------------------------\ **
7** | Delphes, a framework for the fast simulation | **
8** | of a generic collider experiment | **
9** \----------------------------------------------/ **
10** **
11** **
12** This package uses: **
13** ------------------ **
14** FastJet algorithm: Phys. Lett. B641 (2006) [hep-ph/0512210] **
15** Hector: JINST 2:P09005 (2007) [physics.acc-ph:0707.1198v2] **
16** FROG: [hep-ex/0901.2718v1] **
17** **
18** ------------------------------------------------------------------ **
19** **
20** Main authors: **
21** ------------- **
22** **
23** Severine Ovyn Xavier Rouby **
24** severine.ovyn@uclouvain.be xavier.rouby@cern **
25** **
26** Center for Particle Physics and Phenomenology (CP3) **
27** Universite catholique de Louvain (UCL) **
28** Louvain-la-Neuve, Belgium **
29** **
30** Copyright (C) 2008-2009, **
31** All rights reserved. **
32** **
33***********************************************************************/
[2]34
35/// \file SmearUtil.h
36/// \brief RESOLution class, and some generic definitions
37
38
39#include <vector>
40#include "TLorentzVector.h"
41
[264]42#include "D_Constants.h"
43#include "CaloUtil.h"
[223]44#include "BlockClasses.h"
45#include "TSimpleArray.h"
46#include "PhysicsTower.hh"
[2]47
48using namespace std;
49
[264]50class D_Particle {
[73]51
52 public:
[264]53 D_Particle(const TLorentzVector & p, const int pid, const float etacalo, const float phicalo) :
54 _fourmomentum(p), _pid(pid), _etaCalo(etacalo), _phiCalo(phicalo) {}
55 //D_Particle(const float e, const float eta, const float phi, const float pt, const int pid) :
56 // _pid(pid), _etaCalo(UNDEFINED), _phiCalo(UNDEFINED) { TLorentzVector p; p.SetPtEtaPhiE(pt,eta,phi,e); _fourmomentum = p; }
57 D_Particle(const float px, const float py, const float pz, const float e, const int pid) :
58 _fourmomentum(px,py,pz,e), _pid(pid), _etaCalo(UNDEFINED), _phiCalo(UNDEFINED) {}
[73]59
[264]60 const float E() const {return _fourmomentum.E();} // particle energy [GeV]
61 const float Px() const {return _fourmomentum.Px();} // horizontal coordinate of momentum [GeV]
62 const float Py() const {return _fourmomentum.Py();} // vertical coordinate of momentum [GeV]
63 const float Pz() const {return _fourmomentum.Pz();} // longitudinal coordinate of momentum [GeV]
64 const float Pt() const {return _fourmomentum.Pt();} // transverse momentum [GeV]
65 const float EtaCalo() const {return _etaCalo;} // pseudorapidity
66 const float Eta() const {return _fourmomentum.Eta();} // pseudorapidity
67 const float PhiCalo() const {return _phiCalo;} // azimuthal angle
68 const float Phi() const {return _fourmomentum.Phi();} // azimuthal angle
69 const int PID() const {return _pid;} // particle energy in [GeV]
70 const TLorentzVector& getFourMomentum() const {return _fourmomentum;}
[73]71
72 private:
[264]73 TLorentzVector _fourmomentum;
[223]74 int _pid;
[264]75 float _etaCalo, _phiCalo;
[73]76};
77
[2]78class RESOLution
79{
80 public:
81 /// Constructor
82 RESOLution();
[223]83 RESOLution(const RESOLution & DET);
84 RESOLution& operator=(const RESOLution& DET);
85 ~RESOLution() { delete [] TOWER_eta_edges; delete [] TOWER_dphi;};
86
[2]87 // Detector coverage
[94]88 float CEN_max_tracker; // tracker pseudorapidity coverage
89 float CEN_max_calo_cen; // central calorimeter pseudorapidity coverage
90 float CEN_max_calo_fwd; // forward calorimeter pseudorapidity coverage
91 float CEN_max_mu; // muon chambers pseudorapidity coverage
[2]92
[94]93 float VFD_min_calo_vfd; // very forward calorimeter pseudorapidity coverage
94 float VFD_max_calo_vfd; // very forward calorimeter pseudorapidity coverage
95 float VFD_min_zdc; // coverage for Zero Degree Calorimeter, for photons and neutrons
96 float VFD_s_zdc; // distance of the Zero Degree Calorimeter, from the Interaction poin, in [m]
[2]97
[264]98 float RP_220_s; // distance of the RP to the IP, in meters
99 float RP_220_x; // distance of the RP to the beam, in meters
100 float RP_420_s; // distance of the RP to the IP, in meters
101 float RP_420_x; // distance of the RP to the beam, in meters
[252]102 string RP_beam1Card; //
103 string RP_beam2Card; //
[257]104 string RP_IP_name; //
[252]105 float RP_offsetEl_s;
106 float RP_offsetEl_x;
[254]107 float RP_cross_x;
108 float RP_cross_y;
109 float RP_cross_ang;
[62]110
[94]111
[2]112 //energy resolution for electron/photon
113 // \sigma/E = C + N/E + S/\sqrt{E}
114 float ELG_Scen; // S term for central ECAL
115 float ELG_Ncen; // N term for central ECAL
116 float ELG_Ccen; // C term for central ECAL
117 float ELG_Sfwd; // S term for forward ECAL
118 float ELG_Cfwd; // C term for forward ECAL
119 float ELG_Nfwd; // N term for central ECAL
120
121 //energy resolution for hadrons in ecal/hcal/hf
122 // \sigma/E = C + N/E + S/\sqrt{E}
123 float HAD_Shcal; // S term for central HCAL // hadronic calorimeter
124 float HAD_Nhcal; // N term for central HCAL
125 float HAD_Chcal; // C term for central HCAL
126 float HAD_Shf; // S term for central HF // forward calorimeter
127 float HAD_Nhf; // N term for central HF
128 float HAD_Chf; // C term for central HF
129
130 // muon smearing
131 float MU_SmearPt;
132
[94]133 //Magnetic Field information
134 int TRACK_radius; //radius of the BField coverage
135 int TRACK_length; //length of the BField coverage
136 float TRACK_bfield_x;
137 float TRACK_bfield_y;
138 float TRACK_bfield_z;
139 float TRACK_ptmin; // minimal pt needed to reach the calorimeter, in GeV
140 int TRACK_eff; // in percent, should be an integer
[2]141
[72]142
[94]143 //Define Calorimetric towers
144 unsigned int TOWER_number;
145 float * TOWER_eta_edges;
146 float * TOWER_dphi;
[43]147
[94]148 //thresholds for reconstructed objetcs
149 float PTCUT_elec;
150 float PTCUT_muon;
151 float PTCUT_jet;
152 float PTCUT_gamma;
153 float PTCUT_taujet;
[305]154
155 float ISOL_PT; //minimal pt of tracks for isolation criteria
156 float ISOL_Cone; //Cone for isolation criteria
[94]157
[43]158 //General jet variable
[94]159 double JET_coneradius;
160 int JET_jetalgo;
161 double JET_seed;
162 double JET_overlap;
163
[2]164 // MidPoint algorithm definition
[94]165 double JET_M_coneareafraction;
166 int JET_M_maxpairsize;
167 int JET_M_maxiterations;
[2]168 // Define Cone algorithm.
[94]169 int JET_C_adjacencycut;
170 int JET_C_maxiterations;
171 int JET_C_iratch;
[44]172 //Define SISCone algorithm.
[94]173 int JET_S_npass;
174 double JET_S_protojet_ptmin;
175
176 //For Tau-jet definition
177 // R = sqrt (phi^2 + eta^2)
178 float TAU_energy_scone; // radius R of the cone for tau definition, based on energy threshold
179 float TAU_track_scone; // radius R of the cone for tau definition, based on track number
180 float TAU_track_pt; // minimal pt [GeV] for tracks to be considered in tau definition
181 float TAU_energy_frac; // fraction of energy required in the central part of the cone, for tau jets
182
183 //tagging definition
184 int BTAG_b;
185 int BTAG_mistag_c;
186 int BTAG_mistag_l;
187
[44]188
[94]189 //trigger flag
190 int FLAG_trigger; //flag for trigger
191 int FLAG_frog; //flag for frog display
192 int FLAG_bfield; //flag for bfield propagation
193 int FLAG_vfd; //flag for very forward detector
[306]194 int FLAG_RP; //flag for very forward detector
[307]195 int FLAG_lhco; //flag for very forward detector
[94]196
197 int NEvents_Frog;
198 float PT_QUARKS_MIN; // minimal pt needed for quarks to reach the tracker, in GeV
199
[74]200 // to sort a vector
[264]201 //void SortedVector(vector<ParticleUtil> &vect);
202 void SortedVector(vector<D_Particle> &vect);
[71]203
[2]204 /// Reads the data card for the initialisation of the parameters
205 void ReadDataCard(const string datacard);
[44]206
207 /// Create the output log file
[223]208 void Logfile(const string& LogName);
[2]209
210 /// Provides the smeared TLorentzVector for the electrons
211 void SmearElectron(TLorentzVector &electron);
212
213 /// Provides the smeared TLorentzVector for the muons
214 void SmearMu(TLorentzVector &muon);
215
216 /// Provides the smeared TLorentzVector for the hadrons
217 void SmearHadron(TLorentzVector &hadron, const float frac);
218
[223]219 /// For electromagnetic collimation in tau jets
[2]220 double EnergySmallCone(const vector<PhysicsTower> &towers, const float eta, const float phi);
221
[223]222 /// Number of tracks in tau jet algo
[287]223 //unsigned int NumTracks(float& charge, const vector<TLorentzVector> &tracks, const float pt_track, const float eta, const float phi);
224 unsigned int NumTracks(float& charge, const vector<TRootTracks> &tracks, const float pt_track, const float eta, const float phi);
[2]225
[223]226 /// b-jets
[2]227 int Bjets(const TSimpleArray<TRootGenParticle> &subarray, const float eta, const float phi);
228
[223]229 /// b-tag efficiency and misidentification
[2]230 bool Btaggedjet(const TLorentzVector &JET, const TSimpleArray<TRootGenParticle> &subarray);
231
[223]232 /// Lepton isolation
[287]233 //bool Isolation(const float phi, const float eta,const vector<TLorentzVector> &tracks,float PT_TRACK2);
[305]234 bool Isolation(const float phi, const float eta,const vector<TRootTracks> &tracks, const float PT_TRACK2, const float isolCone);
[31]235
[71]236 //********************* returns a segmented value for eta and phi, for calo towers *****
237 void BinEtaPhi(const float phi, const float eta, float& iPhi, float& iEta);
238
[2]239};
240
241// ** returns the sign (+1 or -1) or an integer
242int sign(const int myint);
243int sign(const float myfloat);
244
245// **************************** Return the Delta Phi****************************
246float DeltaPhi(const float phi1, const float phi2);
247
248// **************************** Returns the Delta R****************************
249float DeltaR(const float phi1, const float eta1, const float phi2, const float eta2);
250
251//************* Returns an array of the quarks sitting within the tracker acceptance ***************
[270]252int ChargeVal(const int pid);
[2]253
254#endif
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