[9] | 1 | /*
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| 2 | ---- FastSim ----
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| 3 | A Fast Simulator for general purpose LHC detector
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| 4 | S. Ovyn ~~~~ severine.ovyn@uclouvain.be
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| 5 |
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| 6 | Center for Particle Physics and Phenomenology (CP3)
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| 7 | Universite Catholique de Louvain (UCL)
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| 8 | Louvain-la-Neuve, Belgium
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| 9 | */
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| 10 |
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| 11 | /// \file Smearing.cpp
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| 12 | /// \brief executable for the FastSim
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| 13 |
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| 14 | #include "TChain.h"
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| 15 | #include "TApplication.h"
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| 16 |
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| 17 | #include "Utilities/ExRootAnalysis/interface/ExRootTreeReader.h"
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| 18 | #include "Utilities/ExRootAnalysis/interface/ExRootTreeWriter.h"
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| 19 | #include "Utilities/ExRootAnalysis/interface/ExRootTreeBranch.h"
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| 20 |
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[19] | 21 | #include "H_BeamParticle.h"
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| 22 | #include "H_BeamLine.h"
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| 23 | #include "H_RomanPot.h"
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[9] | 24 |
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| 25 | #include "interface/DataConverter.h"
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| 26 | #include "interface/HEPEVTConverter.h"
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| 27 | #include "interface/LHEFConverter.h"
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| 28 | #include "interface/STDHEPConverter.h"
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[19] | 29 |
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[9] | 30 | #include "interface/SmearUtil.h"
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[88] | 31 | #include "interface/JetUtils.h"
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| 32 | #include "interface/BFieldProp.h"
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| 33 |
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[19] | 34 | #include "Utilities/Fastjet/include/fastjet/PseudoJet.hh"
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| 35 | #include "Utilities/Fastjet/include/fastjet/ClusterSequence.hh"
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| 36 |
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| 37 | #include<vector>
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| 38 | #include<iostream>
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| 39 |
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[9] | 40 | #include "interface/TreeClasses.h"
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| 41 | using namespace std;
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| 42 |
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| 43 | //------------------------------------------------------------------------------
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| 44 |
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[39] | 45 | // //********************************** PYTHIA INFORMATION*********************************
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[26] | 46 |
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[39] | 47 | TSimpleArray<TRootGenParticle> TauHadr(const TClonesArray *GEN)
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| 48 | {
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| 49 | TIter it((TCollection*)GEN);
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| 50 | it.Reset();
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| 51 | TRootGenParticle *gen1;
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| 52 | TSimpleArray<TRootGenParticle> array,array2;
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[26] | 53 |
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[39] | 54 | while((gen1 = (TRootGenParticle*) it.Next()))
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| 55 | {
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| 56 | array.Add(gen1);
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| 57 | }
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| 58 | it.Reset();
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| 59 | bool tauhad;
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| 60 | while((gen1 = (TRootGenParticle*) it.Next()))
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| 61 | {
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| 62 | tauhad=false;
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| 63 | if(abs(gen1->PID)==15)
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| 64 | {
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| 65 | int d1=gen1->D1;
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| 66 | int d2=gen1->D2;
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| 67 |
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| 68 | if((d1 < array.GetEntries()) && (d1 > 0) && (d2 < array.GetEntries()) && (d2 > 0))
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| 69 | {
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| 70 | tauhad=true;
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| 71 | for(int d=d1; d < d2+1; d++)
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| 72 | {
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| 73 | if(abs(array[d]->PID)== pE || abs(array[d]->PID)== pMU)tauhad=false;
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| 74 | }
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| 75 | }
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| 76 | }
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| 77 | if(tauhad)array2.Add(gen1);
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| 78 | }
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| 79 | return array2;
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| 80 | }
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| 81 |
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| 82 |
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| 83 |
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| 84 | void PairingJet(TLorentzVector &JETSm, const TLorentzVector &JET, vector<fastjet::PseudoJet> sorted_jetsS)
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[9] | 85 | {
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| 86 | JETSm.SetPxPyPzE(0,0,0,0);
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| 87 | float deltaRtest=5000;
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[19] | 88 | for (unsigned int i = 0; i < sorted_jetsS.size(); i++) {
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| 89 | TLorentzVector Att;
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| 90 | Att.SetPxPyPzE(sorted_jetsS[i].px(),sorted_jetsS[i].py(),sorted_jetsS[i].pz(),sorted_jetsS[i].E());
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| 91 | if(DeltaR(JET.Phi(),JET.Eta(),Att.Phi(),Att.Eta()) < deltaRtest)
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| 92 | {
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| 93 | deltaRtest = DeltaR(JET.Phi(),JET.Eta(),Att.Phi(),Att.Eta());
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| 94 | if(deltaRtest < 0.25)
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| 95 | {
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| 96 | JETSm = Att;
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| 97 | }
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| 98 | }
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| 99 | }
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[9] | 100 | }
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| 101 |
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| 102 | int main(int argc, char *argv[])
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| 103 | {
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| 104 | int appargc = 2;
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[26] | 105 | char *appName = "Smearing";
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[9] | 106 | char *appargv[] = {appName, "-b"};
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| 107 | TApplication app(appName, &appargc, appargv);
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| 108 |
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| 109 | if(argc != 4 && argc != 3) {
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| 110 | cout << " Usage: " << argv[0] << " input_file" << " output_file" << " data_card " << endl;
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| 111 | cout << " input_list - list of files in Ntpl, StdHep of LHEF format," << endl;
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| 112 | cout << " output_file - output file." << endl;
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| 113 | cout << " data_card - Datacard containing resolution variables for the detector simulation (optional) "<<endl;
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| 114 | exit(1);
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| 115 | }
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| 116 |
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| 117 | srand (time (NULL)); /* Initialisation du générateur */
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| 118 |
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| 119 | //read the input TROOT file
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| 120 | string inputFileList(argv[1]), outputfilename(argv[2]);
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| 121 | if(outputfilename.find(".root") > outputfilename.length() ) {
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| 122 | cout << "output_file should be a .root file!\n";
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| 123 | return -1;
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| 124 | }
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[88] | 125 |
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[9] | 126 | TFile *outputFile = TFile::Open(outputfilename.c_str(), "RECREATE"); // Creates the file, but should be closed just after
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| 127 | outputFile->Close();
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[26] | 128 |
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[9] | 129 | string line;
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| 130 | ifstream infile(inputFileList.c_str());
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| 131 | infile >> line; // the first line determines the type of input files
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[26] | 132 |
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[9] | 133 | DataConverter *converter=0;
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[26] | 134 |
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[9] | 135 | if(strstr(line.c_str(),".hep"))
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| 136 | {
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| 137 | cout<<"*************************************************************************"<<endl;
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| 138 | cout<<"************ StdHEP file format detected **************"<<endl;
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| 139 | cout<<"************ Starting convertion to TRoot format **************"<<endl;
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| 140 | cout<<"*************************************************************************"<<endl;
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| 141 | converter = new STDHEPConverter(inputFileList,outputfilename);//case ntpl file in input list
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| 142 | }
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| 143 | else if(strstr(line.c_str(),".lhe"))
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| 144 | {
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| 145 | cout<<"*************************************************************************"<<endl;
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| 146 | cout<<"************ LHEF file format detected **************"<<endl;
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| 147 | cout<<"************ Starting convertion to TRoot format **************"<<endl;
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| 148 | cout<<"*************************************************************************"<<endl;
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| 149 | converter = new LHEFConverter(inputFileList,outputfilename);//case ntpl file in input list
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| 150 | }
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| 151 | else if(strstr(line.c_str(),".root"))
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| 152 | {
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| 153 | cout<<"*************************************************************************"<<endl;
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| 154 | cout<<"************ h2root file format detected **************"<<endl;
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| 155 | cout<<"************ Starting convertion to TRoot format **************"<<endl;
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| 156 | cout<<"*************************************************************************"<<endl;
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| 157 | converter = new HEPEVTConverter(inputFileList,outputfilename);//case ntpl file in input list
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| 158 | }
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| 159 | else { cout << "*** " << line.c_str() << "\n*** file format not identified\n*** Exiting\n"; return -1;};
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[26] | 160 |
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[9] | 161 | TChain chain("GEN");
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| 162 | chain.Add(outputfilename.c_str());
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| 163 | ExRootTreeReader *treeReader = new ExRootTreeReader(&chain);
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| 164 | const TClonesArray *branchGen = treeReader->UseBranch("Particle");
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| 165 | TIter itGen((TCollection*)branchGen);
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| 166 |
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| 167 | //write the output root file
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| 168 | ExRootTreeWriter *treeWriter = new ExRootTreeWriter(outputfilename, "Analysis");
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| 169 | ExRootTreeBranch *branchjet = treeWriter->NewBranch("JetPTResol", RESOLJET::Class());
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| 170 | ExRootTreeBranch *branchelec = treeWriter->NewBranch("ElecEResol", RESOLELEC::Class());
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| 171 | ExRootTreeBranch *branchmuon = treeWriter->NewBranch("MuonPTResol", RESOLMUON::Class());
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| 172 | ExRootTreeBranch *branchtaujet = treeWriter->NewBranch("TauJetPTResol", TAUHAD::Class());
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| 173 | ExRootTreeBranch *branchetmis = treeWriter->NewBranch("ETmisResol",ETMIS::Class());
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[26] | 174 |
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[9] | 175 | TRootGenParticle *particle;
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[26] | 176 |
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[39] | 177 | RESOLELEC * elementElec;
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[9] | 178 | RESOLMUON *elementMuon;
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| 179 | RESOLJET *elementJet;
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| 180 | TAUHAD *elementTaujet;
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| 181 | ETMIS *elementEtmis;
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[26] | 182 |
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| 183 |
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[9] | 184 | //read the datacard input file
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[89] | 185 | string DetDatacard("data/DataCardDet.dat");
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[9] | 186 | if(argc==4) DetDatacard =argv[3];
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| 187 | RESOLution *DET = new RESOLution();
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| 188 | DET->ReadDataCard(DetDatacard);
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[88] | 189 |
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| 190 | //Jet information
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| 191 | JetsUtil *JETRUN = new JetsUtil();
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| 192 |
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| 193 | //Propagation of tracks in the B field
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| 194 | TrackPropagation *TRACP = new TrackPropagation();
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| 195 |
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| 196 | TLorentzVector genMomentum(0,0,0,0);//TLorentzVector containing generator level information
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| 197 | TLorentzVector recoMomentum(0,0,0,0);//TLorentzVector containing Reco level information
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[9] | 198 | LorentzVector jetMomentum;
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[19] | 199 | vector<TLorentzVector> TrackCentral;
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[26] | 200 |
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[88] | 201 | vector<fastjet::PseudoJet> input_particlesGEN;//for FastJet algorithm
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| 202 | vector<fastjet::PseudoJet> sorted_jetsGEN;
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[26] | 203 |
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[88] | 204 | vector<fastjet::PseudoJet> input_particlesReco;//for FastJet algorithm
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| 205 | vector<fastjet::PseudoJet> sorted_jetsReco;
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[39] | 206 |
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[23] | 207 | vector<PhysicsTower> towers;
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[26] | 208 |
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[9] | 209 | // Loop over all events
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| 210 | Long64_t entry, allEntries = treeReader->GetEntries();
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| 211 | cout << "** Chain contains " << allEntries << " events" << endl;
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| 212 | for(entry = 0; entry < allEntries; ++entry)
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| 213 | {
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[88] | 214 | TLorentzVector PTmisReco(0,0,0,0);
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| 215 | TLorentzVector PTmisGEN(0,0,0,0);
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[9] | 216 | treeReader->ReadEntry(entry);
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| 217 | treeWriter->Clear();
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| 218 | if((entry % 100) == 0 && entry > 0 ) cout << "** Processing element # " << entry << endl;
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| 219 |
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| 220 | TSimpleArray<TRootGenParticle> bGen;
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| 221 | itGen.Reset();
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| 222 | TrackCentral.clear();
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| 223 | TSimpleArray<TRootGenParticle> NFCentralQ;
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[89] | 224 |
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[88] | 225 | input_particlesReco.clear();
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| 226 | input_particlesGEN.clear();
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[23] | 227 | towers.clear();
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[26] | 228 |
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[9] | 229 | // Loop over all particles in event
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| 230 | while( (particle = (TRootGenParticle*) itGen.Next()) )
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| 231 | {
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| 232 | genMomentum.SetPxPyPzE(particle->Px, particle->Py, particle->Pz, particle->E);
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[26] | 233 |
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[9] | 234 | int pid = abs(particle->PID);
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| 235 | float eta = fabs(particle->Eta);
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[89] | 236 |
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[88] | 237 | //input generator level particle for jet algorithm
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[94] | 238 | if(particle->Status == 1 && eta < DET->CEN_max_calo_fwd)
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[26] | 239 | {
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[88] | 240 | input_particlesGEN.push_back(fastjet::PseudoJet(genMomentum.Px(),genMomentum.Py(),genMomentum.Pz(), genMomentum.E()));
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[26] | 241 | }
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[89] | 242 |
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[88] | 243 | //Calculate ETMIS from generated particles
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| 244 | if((pid == pNU1) || (pid == pNU2) || (pid == pNU3))PTmisGEN = PTmisGEN + genMomentum;
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[89] | 245 |
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[88] | 246 | if( (particle->Status == 1) &&
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| 247 | ((pid != pNU1) && (pid != pNU2) && (pid != pNU3)) &&
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[94] | 248 | (fabs(particle->Eta) < DET->CEN_max_calo_fwd)
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[88] | 249 | )
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| 250 | {
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| 251 | recoMomentum = genMomentum;
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| 252 | //use of the magnetic field propagation
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| 253 | TRACP->Propagation(particle,recoMomentum);
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[89] | 254 | // cout<<"eta "<<eta<<endl;
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| 255 | eta=fabs(recoMomentum.Eta());
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| 256 | // cout<<"eta apres"<<eta<<endl;
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| 257 |
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[26] | 258 | switch(pid) {
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[89] | 259 |
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[26] | 260 | case pE: // all electrons with eta < DET->MAX_CALO_FWD
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[88] | 261 | DET->SmearElectron(recoMomentum);
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[94] | 262 | if(recoMomentum.E() !=0 && eta < DET->CEN_max_tracker){
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[89] | 263 | elementElec=(RESOLELEC*) branchelec->NewEntry();
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| 264 | elementElec->E = genMomentum.E();
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| 265 | elementElec->SmearedE = recoMomentum.E();}
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[26] | 266 | break; // case pE
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| 267 | case pGAMMA: // all photons with eta < DET->MAX_CALO_FWD
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[88] | 268 | DET->SmearElectron(recoMomentum);
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[26] | 269 | break; // case pGAMMA
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| 270 | case pMU: // all muons with eta < DET->MAX_MU
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[88] | 271 | DET->SmearMu(recoMomentum);
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[89] | 272 | if(recoMomentum.E() !=0){
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[39] | 273 | elementMuon = (RESOLMUON*) branchmuon->NewEntry();
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[88] | 274 | elementMuon->OverPT = (1/genMomentum.Pt());
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[89] | 275 | elementMuon->OverSmearedPT = (1/recoMomentum.Pt());}
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[26] | 276 | break; // case pMU
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| 277 | case pLAMBDA: // all lambdas with eta < DET->MAX_CALO_FWD
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| 278 | case pK0S: // all K0s with eta < DET->MAX_CALO_FWD
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[88] | 279 | DET->SmearHadron(recoMomentum, 0.7);
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[26] | 280 | break; // case hadron
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| 281 | default: // all other final particles with eta < DET->MAX_CALO_FWD
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[88] | 282 | DET->SmearHadron(recoMomentum, 1.0);
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[26] | 283 | break;
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| 284 | } // switch (pid)
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[89] | 285 |
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| 286 | //information to reconstruct jets from reconstructed towers
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| 287 | int charge=Charge(pid);
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| 288 | if(recoMomentum.E() !=0 && pid != pMU) {
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[94] | 289 | if(charge == 0 || (charge !=0 && recoMomentum.Pt() >= DET->TRACK_ptmin)){
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[88] | 290 | towers.push_back(PhysicsTower(LorentzVector(recoMomentum.Px(),recoMomentum.Py(),recoMomentum.Pz(), recoMomentum.E())));
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| 291 | input_particlesReco.push_back(fastjet::PseudoJet(recoMomentum.Px(),recoMomentum.Py(),recoMomentum.Pz(), recoMomentum.E()));
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[26] | 292 | }
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[89] | 293 | }
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[26] | 294 |
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| 295 | // all final charged particles
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[89] | 296 | if(
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| 297 | (genMomentum.E()!=0) &&
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[94] | 298 | (fabs(genMomentum.Eta()) < DET->CEN_max_tracker) &&
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| 299 | (genMomentum.Pt() > DET->TRACK_ptmin ) && // pt too small to be taken into account
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| 300 | ((rand()%100) < DET->TRACK_eff) &&
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[89] | 301 | (charge!=0)
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| 302 | )
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| 303 | {TrackCentral.push_back(genMomentum);}
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| 304 |
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[9] | 305 | } // switch
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| 306 | } // while
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[89] | 307 |
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| 308 | //compute missing transverse energy from calo towers
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| 309 | TLorentzVector Att(0.,0.,0.,0.);
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| 310 | float ScalarEt=0;
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| 311 | for(unsigned int i=0; i < towers.size(); i++)
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| 312 | {
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| 313 | Att.SetPxPyPzE(towers[i].fourVector.px,towers[i].fourVector.py,towers[i].fourVector.pz,towers[i].fourVector.E);
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| 314 | ScalarEt = ScalarEt + Att.Et();
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| 315 | PTmisReco = PTmisReco + Att;
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| 316 | }
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| 317 |
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| 318 | elementEtmis= (ETMIS*) branchetmis->NewEntry();
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| 319 | elementEtmis->Et = (PTmisGEN).Pt();
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| 320 | elementEtmis->Ex = (-PTmisGEN).Px();
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| 321 | elementEtmis->SEt = ScalarEt;
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[88] | 322 |
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[89] | 323 | elementEtmis->EtSmeare = (PTmisReco).Pt()-(PTmisGEN).Pt();
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| 324 | elementEtmis->ExSmeare = (-PTmisReco).Px()-(PTmisGEN).Px();
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[9] | 325 |
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| 326 | //*****************************
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[26] | 327 |
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[88] | 328 | sorted_jetsGEN=JETRUN->RunJets(input_particlesGEN);
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| 329 | sorted_jetsReco=JETRUN->RunJets(input_particlesReco);
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| 330 |
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[39] | 331 | TSimpleArray<TRootGenParticle> TausHadr = TauHadr(branchGen);
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| 332 |
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[88] | 333 | TLorentzVector JETreco(0,0,0,0);
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| 334 | for (unsigned int i = 0; i < sorted_jetsGEN.size(); i++) {
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| 335 | TLorentzVector JETgen(0,0,0,0);
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| 336 | JETgen.SetPxPyPzE(sorted_jetsGEN[i].px(),sorted_jetsGEN[i].py(),sorted_jetsGEN[i].pz(),sorted_jetsGEN[i].E());
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| 337 | PairingJet(JETreco,JETgen,sorted_jetsReco);
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| 338 | if(JETreco.Pt()>1)
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[19] | 339 | {
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| 340 | elementJet= (RESOLJET*) branchjet->NewEntry();
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[88] | 341 | elementJet->PT = JETgen.Et();
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| 342 | elementJet->SmearedPT = JETreco.Et()/JETgen.Et();
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[19] | 343 | }
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[39] | 344 | }
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[88] | 345 | for (unsigned int i = 0; i < sorted_jetsReco.size(); i++) {
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[39] | 346 | TLorentzVector JETT(0,0,0,0);
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[88] | 347 | JETT.SetPxPyPzE(sorted_jetsReco[i].px(),sorted_jetsReco[i].py(),sorted_jetsReco[i].pz(),sorted_jetsReco[i].E());
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[94] | 348 | if(fabs(JETT.Eta()) < (DET->CEN_max_tracker - DET->TAU_track_scone))
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[39] | 349 | {
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| 350 | for(Int_t i=0; i<TausHadr.GetEntries();i++)
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| 351 | {
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| 352 | if(DeltaR(TausHadr[i]->Phi,TausHadr[i]->Eta,JETT.Phi(),JETT.Eta())<0.1)
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| 353 | {
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| 354 | elementTaujet= (TAUHAD*) branchtaujet->NewEntry();
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| 355 | elementTaujet->EnergieCen = (DET->EnergySmallCone(towers,JETT.Eta(),JETT.Phi())/JETT.E());
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[94] | 356 | elementTaujet->NumTrack = DET->NumTracks(TrackCentral,DET->TAU_track_pt,JETT.Eta(),JETT.Phi());
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[39] | 357 | }
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| 358 | }
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| 359 | }
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| 360 |
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[26] | 361 |
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| 362 | } // for itJet : loop on all jets
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| 363 |
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[9] | 364 | treeWriter->Fill();
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| 365 | } // Loop over all events
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| 366 | treeWriter->Write();
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| 367 |
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| 368 | cout << "** Exiting..." << endl;
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| 369 |
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| 370 | delete treeWriter;
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| 371 | delete treeReader;
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| 372 | delete DET;
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| 373 | if(converter) delete converter;
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| 374 | }
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| 375 |
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