[260] | 1 | /***********************************************************************
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| 2 | ** **
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| 3 | ** /----------------------------------------------\ **
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| 4 | ** | Delphes, a framework for the fast simulation | **
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| 5 | ** | of a generic collider experiment | **
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| 6 | ** \----------------------------------------------/ **
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| 7 | ** **
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| 8 | ** **
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| 9 | ** This package uses: **
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| 10 | ** ------------------ **
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| 11 | ** FastJet algorithm: Phys. Lett. B641 (2006) [hep-ph/0512210] **
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| 12 | ** Hector: JINST 2:P09005 (2007) [physics.acc-ph:0707.1198v2] **
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| 13 | ** FROG: [hep-ex/0901.2718v1] **
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| 14 | ** **
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| 15 | ** ------------------------------------------------------------------ **
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| 16 | ** **
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| 17 | ** Main authors: **
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| 18 | ** ------------- **
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| 19 | ** **
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| 20 | ** Severine Ovyn Xavier Rouby **
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| 21 | ** severine.ovyn@uclouvain.be xavier.rouby@cern **
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| 22 | ** **
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| 23 | ** Center for Particle Physics and Phenomenology (CP3) **
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| 24 | ** Universite catholique de Louvain (UCL) **
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| 25 | ** Louvain-la-Neuve, Belgium **
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| 26 | ** **
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| 27 | ** Copyright (C) 2008-2009, **
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| 28 | ** All rights reserved. **
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| 29 | ** **
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| 30 | ***********************************************************************/
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| 31 |
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| 32 |
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[81] | 33 | #include "Examples/interface/Analysis_Ex.h"
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[227] | 34 | #include <iostream>
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| 35 | #include <sstream>
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| 36 | #include <fstream>
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| 37 | #include <iomanip>
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[81] | 38 |
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| 39 | using namespace std;
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| 40 |
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| 41 | //******************************Debut de l'analyse****************************************
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| 42 | //*****************************************************************************************
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| 43 |
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| 44 | Analysis_Ex::Analysis_Ex(string CardWithCuts,string LogName)
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| 45 | {
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| 46 | string temp_string;
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| 47 | istringstream curstring;
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| 48 |
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| 49 | ifstream fichier_a_lire(CardWithCuts.c_str());
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| 50 | if(!fichier_a_lire.good()) {
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| 51 | cout << "DataCardname " << CardWithCuts << " not found, use default values" << endl;
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| 52 | return;
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| 53 | }
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| 54 |
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| 55 | while (getline(fichier_a_lire,temp_string)) {
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| 56 | curstring.clear(); // needed when using several times istringstream::str(string)
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| 57 | curstring.str(temp_string);
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| 58 | string varname;
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| 59 | float value;
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| 60 |
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| 61 | if(strstr(temp_string.c_str(),"#")) { }//remove comments
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| 62 | else if(strstr(temp_string.c_str(),"PT_ELEC")){curstring >> varname >> value; PT_ELEC = value;}
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| 63 | else if(strstr(temp_string.c_str(),"PT_MUON")){curstring >> varname >> value; PT_MUON = value;}
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| 64 | else if(strstr(temp_string.c_str(),"INV_MASS_LL")){curstring >> varname >> value; INV_MASS_LL = value;}
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| 65 | }
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| 66 |
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| 67 | ofstream f_out(LogName.c_str(),ofstream::app);
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| 68 |
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| 69 | f_out<<"*******************************************************************"<<endl;
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| 70 | f_out << left << setw(30) <<"Cut values used in the analysis: "<<""
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| 71 | << right << setw(37) <<"-------------------------------------"<<"\n";
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| 72 | f_out << left <<setw(50) << "Invariant mass of the leptons: "<<""
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| 73 | << right <<setw(17) << INV_MASS_LL <<"\n";
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| 74 | f_out<<"*******************************************************************"<<endl;
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| 75 |
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| 76 | }
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| 77 |
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| 78 | Analysis_Ex::~Analysis_Ex()
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| 79 | {
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| 80 | }
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| 81 |
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[84] | 82 | void Analysis_Ex::Run(ExRootTreeReader *treeReaderGen, ExRootTreeReader *treeReaderRec, ExRootTreeReader *treeReaderTrig, ExRootTreeWriter *treeWriter)
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[81] | 83 | {
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| 84 | total=0;//initialisation of total number of events
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| 85 | cut_trig=0;
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| 86 | cut_1=0;//initialisation of counter for cut 1
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| 87 | cut_2=0;
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| 88 | //access the branches************************
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| 89 | //to get the generator level information
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| 90 | const TClonesArray *GEN = treeReaderGen->UseBranch("Particle");
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| 91 |
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| 92 | //to get the reconstructed level information
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| 93 | const TClonesArray *JET = treeReaderRec->UseBranch("Jet");
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| 94 | const TClonesArray *TAUJET = treeReaderRec->UseBranch("TauJet");
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| 95 | const TClonesArray *PHOTO = treeReaderRec->UseBranch("Photon");
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| 96 | const TClonesArray *ELEC = treeReaderRec->UseBranch("Electron");
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| 97 | const TClonesArray *MUON = treeReaderRec->UseBranch("Muon");
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| 98 | const TClonesArray *TRACKS = treeReaderRec->UseBranch("Tracks");
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| 99 | const TClonesArray *CALO = treeReaderRec->UseBranch("CaloTower");
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| 100 |
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| 101 | //to get the VFD reconstructed level information
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| 102 | const TClonesArray *ZDC = treeReaderRec->UseBranch("ZDChits");
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| 103 | const TClonesArray *RP220 = treeReaderRec->UseBranch("RP220hits");
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| 104 | const TClonesArray *FP420 = treeReaderRec->UseBranch("FP420hits");
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| 105 |
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| 106 | //to get the trigger information
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| 107 | const TClonesArray *TRIGGER = treeReaderTrig->UseBranch("TrigResult");
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[84] | 108 |
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| 109 | //Define the branches that will be filled during the analysis
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| 110 | ExRootTreeBranch *INVMASS = treeWriter->NewBranch("INVMass", TRootInvm::Class());
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| 111 | TRootInvm *inv_mass;
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[81] | 112 | //*******************************************
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| 113 |
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| 114 | //run on the events
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| 115 | Long64_t entry, allEntries = treeReaderRec->GetEntries();
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| 116 | cout << "** Chain contains " << allEntries << " events" << endl;
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| 117 | total=allEntries;
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| 118 |
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| 119 | //general information
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| 120 | float E,Px,Py,Pz;
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| 121 | float PT,Eta,Phi;
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| 122 |
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| 123 | //lepton information
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| 124 | bool IsolFlag;
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| 125 |
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| 126 | //bjet information
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| 127 | bool Btag;
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| 128 |
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| 129 | //Particle level information
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| 130 | int PID, Status, M1,M2,D1,D2;
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| 131 | float Charge, T, X, Y, Z, M;
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| 132 |
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| 133 | //VFD information
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| 134 | float S,q2,Tx,Ty;
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| 135 | int side;
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| 136 |
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| 137 | for(entry = 0; entry < allEntries; ++entry)
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| 138 | {
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| 139 | treeReaderGen->ReadEntry(entry);//access information of generated information
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| 140 | treeReaderRec->ReadEntry(entry);//access information of reconstructed information
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| 141 | treeReaderTrig->ReadEntry(entry);//access information of Trigger information
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| 142 |
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| 143 | //*****************************************************
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| 144 | //Example how to run on the generator level information
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| 145 | //*****************************************************
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| 146 | TIter itGen((TCollection*)GEN);
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| 147 | TRootGenParticle *gen;
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| 148 | itGen.Reset();
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| 149 | while( (gen = (TRootGenParticle*) itGen.Next()) )
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| 150 | {
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| 151 | PID = gen->PID; // particle HEP ID number
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| 152 | Status = gen->Status; // particle status
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| 153 | M1 = gen->M1; // particle 1st mother
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| 154 | M2 = gen->M2; // particle 2nd mother
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| 155 | D1 = gen->D1; // particle 1st daughter
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| 156 | D2 = gen->D2; // particle 2nd daughter
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[264] | 157 | Charge = gen->getCharge(); // electrical charge
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[81] | 158 |
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| 159 | T = gen->T; // particle vertex position (t component)
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| 160 | X = gen->X; // particle vertex position (x component)
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| 161 | Y = gen->Y; // particle vertex position (y component)
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| 162 | Z = gen->Z; // particle vertex position (z component)
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| 163 | M = gen->M; // particle mass
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| 164 | }
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| 165 |
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| 166 |
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| 167 | //***********************************************
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| 168 | //Example how to run on the reconstructed objects
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| 169 | //***********************************************
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| 170 |
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| 171 | //access the Electron branch
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| 172 | TIter itElec((TCollection*)ELEC);
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| 173 | TRootElectron *elec;
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| 174 | itElec.Reset();
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| 175 | while( (elec = (TRootElectron*) itElec.Next()) )
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| 176 | {
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| 177 | E = elec->E; // particle energy in GeV
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| 178 | Px = elec->Px; // particle momentum vector (x component) in GeV
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| 179 | Py = elec->Py; // particle momentum vector (y component) in GeV
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| 180 | Pz = elec->Pz; // particle momentum vector (z component) in GeV
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| 181 |
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| 182 | PT = elec->PT; // particle transverse momentum in GeV
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| 183 | Eta = elec->Eta; // particle pseudorapidity
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| 184 | Phi = elec->Phi; // particle azimuthal angle in rad
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| 185 | IsolFlag = elec->IsolFlag; // is the particule isolated?
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| 186 | }
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| 187 | //Running on the muon branch is identical:
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| 188 | TIter itMuon((TCollection*)MUON);
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| 189 | TRootMuon *muon;
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| 190 | itMuon.Reset();
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| 191 | while( (muon = (TRootMuon*) itMuon.Next()) ){}
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| 192 |
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| 193 | //access the Photon branch
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| 194 | TIter itGam((TCollection*)PHOTO);
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| 195 | TRootPhoton *gam;
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| 196 | itGam.Reset();
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| 197 | while( (gam = (TRootPhoton*) itGam.Next()) )
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| 198 | {
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| 199 | E = gam->E; // particle energy in GeV
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| 200 | Px = gam->Px; // particle momentum vector (x component) in GeV
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| 201 | Py = gam->Py; // particle momentum vector (y component) in GeV
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| 202 | Pz = gam->Pz; // particle momentum vector (z component) in GeV
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| 203 |
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| 204 | PT = gam->PT; // particle transverse momentum in GeV
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| 205 | Eta = gam->Eta; // particle pseudorapidity
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| 206 | Phi = gam->Phi; // particle azimuthal angle in rad
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| 207 | }
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| 208 |
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| 209 | //access the jet branch
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| 210 | TIter itJet((TCollection*)JET);
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| 211 | TRootJet *jet;
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| 212 | itJet.Reset();
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| 213 | while( (jet = (TRootJet*) itJet.Next()) )
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| 214 | {
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| 215 | E = jet->E; // particle energy in GeV
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| 216 | Px = jet->Px; // particle momentum vector (x component) in GeV
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| 217 | Py = jet->Py; // particle momentum vector (y component) in GeV
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| 218 | Pz = jet->Pz; // particle momentum vector (z component) in GeV
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| 219 |
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| 220 | PT = jet->PT; // particle transverse momentum in GeV
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| 221 | Eta = jet->Eta; // particle pseudorapidity
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| 222 | Phi = jet->Phi; // particle azimuthal angle in rad
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| 223 | Btag = jet->Btag; // is the jet BTagged
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| 224 | }
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| 225 | //Running on the tau-jet branch is identical:
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| 226 | TIter itTaujet((TCollection*)TAUJET);
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| 227 | TRootTauJet *taujet;
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| 228 | itTaujet.Reset();
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| 229 | while( (taujet = (TRootTauJet*) itTaujet.Next()) ){}
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| 230 |
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| 231 | //access the track branch
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| 232 | TIter itTrack((TCollection*)TRACKS);
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| 233 | TRootTracks *tracks;
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| 234 | itTrack.Reset();
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| 235 | while( (tracks = (TRootTracks*) itTrack.Next()) )
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| 236 | {
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| 237 | E = tracks->E; // particle energy in GeV
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| 238 | Px = tracks->Px; // particle momentum vector (x component) in GeV
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| 239 | Py = tracks->Py; // particle momentum vector (y component) in GeV
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| 240 | Pz = tracks->Pz; // particle momentum vector (z component) in GeV
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| 241 |
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| 242 | PT = tracks->PT; // particle transverse momentum in GeV
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| 243 | Eta = tracks->Eta; // particle pseudorapidity
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| 244 | Phi = tracks->Phi; // particle azimuthal angle in rad
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| 245 | }
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| 246 |
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| 247 | //Running on the calo branch is identical:
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| 248 | TIter itCalo((TCollection*)CALO);
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| 249 | TRootCalo *calo;
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| 250 | itCalo.Reset();
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| 251 | while( (calo = (TRootCalo*) itCalo.Next()) ){}
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| 252 |
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| 253 | //***************************************************
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| 254 | //Example how to run on the VFD reconstructed objects
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| 255 | //***************************************************
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| 256 |
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| 257 | //access the ZDC branch
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| 258 | TIter itZdc((TCollection*)ZDC);
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| 259 | TRootZdcHits *zdc;
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| 260 | itZdc.Reset();
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| 261 | while( (zdc = (TRootZdcHits*) itZdc.Next()) )
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| 262 | {
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| 263 | E = zdc->E; // particle energy in GeV
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| 264 | Px = zdc->Px; // particle momentum vector (x component) in GeV
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| 265 | Py = zdc->Py; // particle momentum vector (y component) in GeV
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| 266 | Pz = zdc->Pz; // particle momentum vector (z component) in GeV
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| 267 |
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| 268 | PT = zdc->PT; // particle transverse momentum in GeV
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| 269 | Eta = zdc->Eta; // particle pseudorapidity
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| 270 | Phi = zdc->Phi; // particle azimuthal angle in rad
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| 271 |
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| 272 | T = zdc->T; // time of flight [s]
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| 273 | side = zdc->side; // -1 or +1
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| 274 | }
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| 275 |
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| 276 | //access the RP220 branch
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| 277 | TIter itRp220((TCollection*)RP220);
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| 278 | TRootRomanPotHits *rp220;
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| 279 | itRp220.Reset();
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| 280 | //TRootRomanPotHits.MakeClass("test_xav");
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| 281 | while( (rp220 = (TRootRomanPotHits*) itRp220.Next()) )
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| 282 | {
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| 283 | T = rp220->T; // time of flight to the detector [s]
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| 284 | S = rp220->S; // distance to the IP [m]
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| 285 | E = rp220->E; // reconstructed energy [GeV]
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| 286 | q2 = rp220->q2; // reconstructed squared momentum transfer [GeV^2]
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| 287 |
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| 288 | X = rp220->X; // horizontal distance to the beam [um]
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| 289 | Y = rp220->Y; // vertical distance to the beam [um]
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| 290 |
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| 291 | Tx = rp220->Tx; // angle of the momentum in the horizontal (x,z) plane [urad]
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| 292 | Ty = rp220->Ty; // angle of the momentum in the verical (y,z) plane [urad]
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| 293 |
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| 294 | side = rp220->side; // -1 or 1
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| 295 | }
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| 296 | //running on FP420 branch is identical
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| 297 | TIter itFp420((TCollection*)FP420);
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| 298 | TRootRomanPotHits *fp420;
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| 299 | itFp420.Reset();
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| 300 | while( (fp420 = (TRootRomanPotHits*) itFp420.Next()) ){}
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| 301 |
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| 302 | //*********************************************
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| 303 | //Example how to run on the trigger information
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| 304 | //*********************************************
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| 305 |
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| 306 | TRootTrigger *trig;
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| 307 | int NumTrigBit = TRIGGER->GetEntries();
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| 308 | //get the global response of the trigger
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| 309 |
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| 310 | bool GlobalResponse=false;
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| 311 | if(NumTrigBit!=0)GlobalResponse=true;
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| 312 | cout<<"GlobalResponse "<<GlobalResponse<<endl;
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| 313 | for(int i=0; i < NumTrigBit-1; i++){
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| 314 | trig = (TRootTrigger*)TRIGGER->At(i);
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| 315 | cout<<"The event has been accepted by the trigger number: "<<trig->Accepted<<endl;
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| 316 | }
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| 317 |
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| 318 | //********************************
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| 319 | //Example of a very small analysis
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| 320 | //********************************
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| 321 |
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| 322 | TLorentzVector Lept[2];
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| 323 |
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| 324 | if(NumTrigBit==0)continue; //event not accepted by the trigger
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| 325 | cut_trig++;//event accepted
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| 326 |
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| 327 | TSimpleArray<TRootElectron> el=SubArrayEl(ELEC,PT_ELEC);//the central isolated electrons, pt > PT_ELEC GeV
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| 328 | TSimpleArray<TRootMuon> mu=SubArrayMu(MUON,PT_MUON);//the central isolated electrons, pt > PT_MUON GeV
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| 329 |
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| 330 | Int_t numElec=el.GetEntries();
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| 331 |
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| 332 | if(el.GetEntries()+mu.GetEntries()!=2)continue;//Exactly 2 isolated leptons are needed
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| 333 | cut_1++;//event accepted
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| 334 | for(Int_t i=0;i < numElec; i++)Lept[i].SetPxPyPzE(el[i]->Px,el[i]->Py,el[i]->Pz,el[i]->E);
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| 335 | for(Int_t k = numElec; k < (numElec+mu.GetEntries()); k++)Lept[k].SetPxPyPzE(mu[k-numElec]->Px,mu[k-numElec]->Py,mu[k-numElec]->Pz,mu[k-numElec]->E);
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[264] | 336 | cout<<"normalement il y a quelque chose... "<<endl;
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[84] | 337 | //Example how to white a branch in the output file
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| 338 | inv_mass=(TRootInvm*) INVMASS->NewEntry();
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| 339 | inv_mass->M=(Lept[0]+Lept[1]).M();
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| 340 |
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[81] | 341 | if((Lept[0]+Lept[1]).M() > INV_MASS_LL )continue;// the invariant mass should be < INV_MASS_LL
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| 342 | cut_2++;//event accepted
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[84] | 343 |
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| 344 | treeWriter->Fill();
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[81] | 345 | }
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[84] | 346 | treeWriter->Write();
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[81] | 347 |
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| 348 | }
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| 349 |
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| 350 | void Analysis_Ex::WriteOutput(string LogName)
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| 351 | {
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| 352 | ofstream f_out(LogName.c_str(),ofstream::app);
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| 353 |
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| 354 | f_out<<"*******************************************************************"<<endl;
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| 355 | f_out << left << setw(20) << "Numer of Events "<<""
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| 356 | << right << setw(15) << total <<"\n";
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| 357 | f_out << left << setw(17) << " Accepted by the trigger "<<""
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| 358 | << right << setw(20) << cut_trig <<"\n";
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| 359 | f_out << left << setw(17) <<" 2 leptons "<< ""
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| 360 | << right << setw(20) << cut_1 << ""
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| 361 | << right << setw(15) << cut_1/total << "\n";
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| 362 | f_out << left << setw(17) <<" Invariant mass "<< ""
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| 363 | << right << setw(20) << cut_2 << ""
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| 364 | << right << setw(15) << cut_2/total << "\n";
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| 365 | f_out<<"*******************************************************************"<<endl;
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| 366 | f_out<<" "<<endl;
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| 367 |
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| 368 | }
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| 369 |
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| 370 | TSimpleArray<TRootElectron> Analysis_Ex::SubArrayEl(const TClonesArray *ELEC,float pt)
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| 371 | {
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| 372 | TIter itElec((TCollection*)ELEC);
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| 373 | TRootElectron *elec;
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| 374 | itElec.Reset();
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| 375 | TSimpleArray<TRootElectron> array;
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| 376 | while( (elec = (TRootElectron*) itElec.Next()) )
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| 377 | {
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| 378 | if(elec->PT<pt)continue;
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| 379 | array.Add(elec);
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| 380 | }
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| 381 | return array;
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| 382 | }
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| 383 |
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| 384 | TSimpleArray<TRootMuon> Analysis_Ex::SubArrayMu(const TClonesArray *MUON,float pt)
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| 385 | {
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| 386 | TIter itMuon((TCollection*)MUON);
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| 387 | TRootMuon *muon;
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| 388 | itMuon.Reset();
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| 389 | TSimpleArray<TRootMuon> array;
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| 390 | while( (muon = (TRootMuon*) itMuon.Next()) )
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| 391 | {
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| 392 | if(muon->PT<pt)continue;
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| 393 | array.Add(muon);
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| 394 | }
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| 395 | return array;
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| 396 | }
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| 397 |
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