[01f457a] | 1 | /*
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| 2 | * Delphes: a framework for fast simulation of a generic collider experiment
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| 3 | * Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
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[1fa50c2] | 4 | *
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[01f457a] | 5 | * This program is free software: you can redistribute it and/or modify
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| 6 | * it under the terms of the GNU General Public License as published by
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| 7 | * the Free Software Foundation, either version 3 of the License, or
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| 8 | * (at your option) any later version.
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[1fa50c2] | 9 | *
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[01f457a] | 10 | * This program is distributed in the hope that it will be useful,
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| 11 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 12 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 13 | * GNU General Public License for more details.
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[1fa50c2] | 14 | *
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[01f457a] | 15 | * You should have received a copy of the GNU General Public License
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| 16 | * along with this program. If not, see <http://www.gnu.org/licenses/>.
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| 17 | */
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| 18 |
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[82575a3] | 19 |
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| 20 | /** \class SimpleCalorimeter
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| 21 | *
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| 22 | * Fills SimpleCalorimeter towers, performs SimpleCalorimeter resolution smearing,
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| 23 | * and creates energy flow objects (tracks, photons, and neutral hadrons).
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| 24 | *
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| 25 | * $Date: 2014-04-16 15:29:31 +0200 (Wed, 16 Apr 2014) $
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| 26 | * $Revision: 1364 $
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| 27 | *
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| 28 | *
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| 29 | * \author P. Demin - UCL, Louvain-la-Neuve
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| 30 | *
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| 31 | */
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| 32 |
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| 33 | #include "modules/SimpleCalorimeter.h"
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| 34 |
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| 35 | #include "classes/DelphesClasses.h"
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| 36 | #include "classes/DelphesFactory.h"
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| 37 | #include "classes/DelphesFormula.h"
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| 38 |
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| 39 | #include "ExRootAnalysis/ExRootResult.h"
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| 40 | #include "ExRootAnalysis/ExRootFilter.h"
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| 41 | #include "ExRootAnalysis/ExRootClassifier.h"
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| 42 |
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| 43 | #include "TMath.h"
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| 44 | #include "TString.h"
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| 45 | #include "TFormula.h"
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| 46 | #include "TRandom3.h"
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| 47 | #include "TObjArray.h"
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| 48 | #include "TDatabasePDG.h"
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| 49 | #include "TLorentzVector.h"
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| 50 |
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| 51 | #include <algorithm>
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| 52 | #include <stdexcept>
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| 53 | #include <iostream>
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| 54 | #include <sstream>
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| 55 |
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| 56 | using namespace std;
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| 57 |
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| 58 | //------------------------------------------------------------------------------
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| 59 |
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| 60 | SimpleCalorimeter::SimpleCalorimeter() :
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| 61 | fResolutionFormula(0),
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| 62 | fItParticleInputArray(0), fItTrackInputArray(0),
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| 63 | fTowerTrackArray(0), fItTowerTrackArray(0)
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| 64 | {
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| 65 | fResolutionFormula = new DelphesFormula;
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| 66 |
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| 67 | fTowerTrackArray = new TObjArray;
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| 68 | fItTowerTrackArray = fTowerTrackArray->MakeIterator();
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| 69 | }
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| 70 |
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| 71 | //------------------------------------------------------------------------------
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| 72 |
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| 73 | SimpleCalorimeter::~SimpleCalorimeter()
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| 74 | {
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| 75 | if(fResolutionFormula) delete fResolutionFormula;
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| 76 |
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| 77 | if(fTowerTrackArray) delete fTowerTrackArray;
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| 78 | if(fItTowerTrackArray) delete fItTowerTrackArray;
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| 79 | }
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| 80 |
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| 81 | //------------------------------------------------------------------------------
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| 82 |
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| 83 | void SimpleCalorimeter::Init()
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| 84 | {
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| 85 | ExRootConfParam param, paramEtaBins, paramPhiBins, paramFractions;
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| 86 | Long_t i, j, k, size, sizeEtaBins, sizePhiBins;
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| 87 | Double_t fraction;
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| 88 | TBinMap::iterator itEtaBin;
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| 89 | set< Double_t >::iterator itPhiBin;
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| 90 | vector< Double_t > *phiBins;
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| 91 |
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| 92 | // read eta and phi bins
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| 93 | param = GetParam("EtaPhiBins");
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| 94 | size = param.GetSize();
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| 95 | fBinMap.clear();
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| 96 | fEtaBins.clear();
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| 97 | fPhiBins.clear();
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| 98 | for(i = 0; i < size/2; ++i)
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| 99 | {
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| 100 | paramEtaBins = param[i*2];
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| 101 | sizeEtaBins = paramEtaBins.GetSize();
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| 102 | paramPhiBins = param[i*2 + 1];
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| 103 | sizePhiBins = paramPhiBins.GetSize();
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| 104 |
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| 105 | for(j = 0; j < sizeEtaBins; ++j)
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| 106 | {
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| 107 | for(k = 0; k < sizePhiBins; ++k)
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| 108 | {
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| 109 | fBinMap[paramEtaBins[j].GetDouble()].insert(paramPhiBins[k].GetDouble());
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| 110 | }
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| 111 | }
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| 112 | }
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| 113 |
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| 114 | // for better performance we transform map of sets to parallel vectors:
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| 115 | // vector< double > and vector< vector< double >* >
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| 116 | for(itEtaBin = fBinMap.begin(); itEtaBin != fBinMap.end(); ++itEtaBin)
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| 117 | {
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| 118 | fEtaBins.push_back(itEtaBin->first);
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| 119 | phiBins = new vector< double >(itEtaBin->second.size());
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| 120 | fPhiBins.push_back(phiBins);
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| 121 | phiBins->clear();
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| 122 | for(itPhiBin = itEtaBin->second.begin(); itPhiBin != itEtaBin->second.end(); ++itPhiBin)
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| 123 | {
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| 124 | phiBins->push_back(*itPhiBin);
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| 125 | }
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| 126 | }
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| 127 |
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| 128 | // read energy fractions for different particles
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| 129 | param = GetParam("EnergyFraction");
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| 130 | size = param.GetSize();
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| 131 |
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| 132 | // set default energy fractions values
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| 133 | fFractionMap.clear();
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| 134 | fFractionMap[0] = 1.0;
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| 135 |
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| 136 | for(i = 0; i < size/2; ++i)
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| 137 | {
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| 138 | paramFractions = param[i*2 + 1];
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| 139 | fraction = paramFractions[0].GetDouble();
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| 140 | fFractionMap[param[i*2].GetInt()] = fraction;
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| 141 | }
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| 142 | /*
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| 143 | TFractionMap::iterator itFractionMap;
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| 144 | for(itFractionMap = fFractionMap.begin(); itFractionMap != fFractionMap.end(); ++itFractionMap)
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| 145 | {
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| 146 | cout << itFractionMap->first << " " << itFractionMap->second.first << " " << itFractionMap->second.second << endl;
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| 147 | }
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| 148 | */
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[4b9a2dc] | 149 |
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| 150 | // read min E value for towers to be saved
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| 151 | fEnergyMin = GetDouble("TowerMinEnergy", 0.0);
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| 152 | fSigmaMin = GetDouble("TowerMinSignificance", 0.0);
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| 153 |
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[82575a3] | 154 | // read resolution formulas
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| 155 | fResolutionFormula->Compile(GetString("ResolutionFormula", "0"));
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| 156 |
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| 157 | // import array with output from other modules
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| 158 | fParticleInputArray = ImportArray(GetString("ParticleInputArray", "ParticlePropagator/particles"));
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| 159 | fItParticleInputArray = fParticleInputArray->MakeIterator();
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| 160 |
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| 161 | fTrackInputArray = ImportArray(GetString("TrackInputArray", "ParticlePropagator/tracks"));
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| 162 | fItTrackInputArray = fTrackInputArray->MakeIterator();
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| 163 |
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| 164 | // create output arrays
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| 165 | fTowerOutputArray = ExportArray(GetString("TowerOutputArray", "towers"));
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| 166 | fEFlowTowerOutputArray = ExportArray(GetString("EFlowTowerOutputArray", "eflowTowers"));
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| 167 |
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| 168 | }
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| 169 |
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| 170 | //------------------------------------------------------------------------------
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| 171 |
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| 172 | void SimpleCalorimeter::Finish()
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| 173 | {
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| 174 | vector< vector< Double_t >* >::iterator itPhiBin;
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| 175 | if(fItParticleInputArray) delete fItParticleInputArray;
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| 176 | if(fItTrackInputArray) delete fItTrackInputArray;
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| 177 | for(itPhiBin = fPhiBins.begin(); itPhiBin != fPhiBins.end(); ++itPhiBin)
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| 178 | {
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| 179 | delete *itPhiBin;
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| 180 | }
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| 181 | }
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| 182 |
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| 183 | //------------------------------------------------------------------------------
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| 184 |
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| 185 | void SimpleCalorimeter::Process()
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| 186 | {
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| 187 | Candidate *particle, *track;
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| 188 | TLorentzVector position, momentum;
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| 189 | Short_t etaBin, phiBin, flags;
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| 190 | Int_t number;
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| 191 | Long64_t towerHit, towerEtaPhi, hitEtaPhi;
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| 192 | Double_t fraction;
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| 193 | Double_t energy;
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| 194 | Int_t pdgCode;
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| 195 |
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| 196 | TFractionMap::iterator itFractionMap;
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| 197 |
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| 198 | vector< Double_t >::iterator itEtaBin;
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| 199 | vector< Double_t >::iterator itPhiBin;
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| 200 | vector< Double_t > *phiBins;
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| 201 |
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| 202 | vector< Long64_t >::iterator itTowerHits;
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| 203 |
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| 204 | DelphesFactory *factory = GetFactory();
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| 205 | fTowerHits.clear();
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| 206 | fTowerFractions.clear();
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| 207 | fTrackFractions.clear();
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| 208 |
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| 209 | // loop over all particles
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| 210 | fItParticleInputArray->Reset();
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| 211 | number = -1;
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| 212 | while((particle = static_cast<Candidate*>(fItParticleInputArray->Next())))
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| 213 | {
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| 214 | const TLorentzVector &particlePosition = particle->Position;
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| 215 | ++number;
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| 216 |
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| 217 | pdgCode = TMath::Abs(particle->PID);
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| 218 |
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| 219 | itFractionMap = fFractionMap.find(pdgCode);
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| 220 | if(itFractionMap == fFractionMap.end())
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| 221 | {
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| 222 | itFractionMap = fFractionMap.find(0);
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| 223 | }
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| 224 |
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| 225 | fraction = itFractionMap->second;
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| 226 | fTowerFractions.push_back(fraction);
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| 227 |
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| 228 | if(fraction < 1.0E-9) continue;
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| 229 |
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| 230 | // find eta bin [1, fEtaBins.size - 1]
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| 231 | itEtaBin = lower_bound(fEtaBins.begin(), fEtaBins.end(), particlePosition.Eta());
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| 232 | if(itEtaBin == fEtaBins.begin() || itEtaBin == fEtaBins.end()) continue;
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| 233 | etaBin = distance(fEtaBins.begin(), itEtaBin);
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| 234 |
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| 235 | // phi bins for given eta bin
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| 236 | phiBins = fPhiBins[etaBin];
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| 237 |
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| 238 | // find phi bin [1, phiBins.size - 1]
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| 239 | itPhiBin = lower_bound(phiBins->begin(), phiBins->end(), particlePosition.Phi());
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| 240 | if(itPhiBin == phiBins->begin() || itPhiBin == phiBins->end()) continue;
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| 241 | phiBin = distance(phiBins->begin(), itPhiBin);
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| 242 |
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| 243 | flags = 0;
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| 244 | flags |= (pdgCode == 11 || pdgCode == 22) << 1;
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| 245 |
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| 246 | // make tower hit {16-bits for eta bin number, 16-bits for phi bin number, 8-bits for flags, 24-bits for particle number}
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| 247 | towerHit = (Long64_t(etaBin) << 48) | (Long64_t(phiBin) << 32) | (Long64_t(flags) << 24) | Long64_t(number);
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| 248 |
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| 249 | fTowerHits.push_back(towerHit);
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| 250 | }
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| 251 |
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| 252 | // loop over all tracks
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| 253 | fItTrackInputArray->Reset();
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| 254 | number = -1;
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| 255 | while((track = static_cast<Candidate*>(fItTrackInputArray->Next())))
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| 256 | {
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| 257 | const TLorentzVector &trackPosition = track->Position;
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| 258 | ++number;
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| 259 |
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| 260 | pdgCode = TMath::Abs(track->PID);
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| 261 |
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| 262 | itFractionMap = fFractionMap.find(pdgCode);
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| 263 | if(itFractionMap == fFractionMap.end())
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| 264 | {
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| 265 | itFractionMap = fFractionMap.find(0);
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| 266 | }
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| 267 |
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| 268 | fraction = itFractionMap->second;
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| 269 |
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| 270 | fTrackFractions.push_back(fraction);
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| 271 |
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| 272 | // find eta bin [1, fEtaBins.size - 1]
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| 273 | itEtaBin = lower_bound(fEtaBins.begin(), fEtaBins.end(), trackPosition.Eta());
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| 274 | if(itEtaBin == fEtaBins.begin() || itEtaBin == fEtaBins.end()) continue;
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| 275 | etaBin = distance(fEtaBins.begin(), itEtaBin);
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| 276 |
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| 277 | // phi bins for given eta bin
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| 278 | phiBins = fPhiBins[etaBin];
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| 279 |
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| 280 | // find phi bin [1, phiBins.size - 1]
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| 281 | itPhiBin = lower_bound(phiBins->begin(), phiBins->end(), trackPosition.Phi());
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| 282 | if(itPhiBin == phiBins->begin() || itPhiBin == phiBins->end()) continue;
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| 283 | phiBin = distance(phiBins->begin(), itPhiBin);
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| 284 |
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| 285 | flags = 1;
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| 286 |
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| 287 | // make tower hit {16-bits for eta bin number, 16-bits for phi bin number, 8-bits for flags, 24-bits for track number}
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| 288 | towerHit = (Long64_t(etaBin) << 48) | (Long64_t(phiBin) << 32) | (Long64_t(flags) << 24) | Long64_t(number);
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| 289 |
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| 290 | fTowerHits.push_back(towerHit);
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| 291 | }
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| 292 |
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| 293 | // all hits are sorted first by eta bin number, then by phi bin number,
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| 294 | // then by flags and then by particle or track number
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| 295 | sort(fTowerHits.begin(), fTowerHits.end());
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| 296 |
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| 297 | // loop over all hits
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| 298 | towerEtaPhi = 0;
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| 299 | fTower = 0;
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| 300 | for(itTowerHits = fTowerHits.begin(); itTowerHits != fTowerHits.end(); ++itTowerHits)
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| 301 | {
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| 302 | towerHit = (*itTowerHits);
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| 303 | flags = (towerHit >> 24) & 0x00000000000000FFLL;
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| 304 | number = (towerHit) & 0x0000000000FFFFFFLL;
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| 305 | hitEtaPhi = towerHit >> 32;
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| 306 |
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| 307 | if(towerEtaPhi != hitEtaPhi)
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| 308 | {
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| 309 | // switch to next tower
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| 310 | towerEtaPhi = hitEtaPhi;
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| 311 |
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| 312 | // finalize previous tower
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| 313 | FinalizeTower();
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| 314 |
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| 315 | // create new tower
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| 316 | fTower = factory->NewCandidate();
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| 317 |
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| 318 | phiBin = (towerHit >> 32) & 0x000000000000FFFFLL;
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| 319 | etaBin = (towerHit >> 48) & 0x000000000000FFFFLL;
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| 320 |
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| 321 | // phi bins for given eta bin
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| 322 | phiBins = fPhiBins[etaBin];
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| 323 |
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| 324 | // calculate eta and phi of the tower's center
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| 325 | fTowerEta = 0.5*(fEtaBins[etaBin - 1] + fEtaBins[etaBin]);
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| 326 | fTowerPhi = 0.5*((*phiBins)[phiBin - 1] + (*phiBins)[phiBin]);
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| 327 |
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| 328 | fTowerEdges[0] = fEtaBins[etaBin - 1];
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| 329 | fTowerEdges[1] = fEtaBins[etaBin];
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| 330 | fTowerEdges[2] = (*phiBins)[phiBin - 1];
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| 331 | fTowerEdges[3] = (*phiBins)[phiBin];
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| 332 |
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| 333 | fTowerEnergy = 0.0;
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| 334 | fTrackEnergy = 0.0;
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| 335 |
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| 336 | fTowerTime = 0.0;
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| 337 | fTrackTime = 0.0;
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| 338 |
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| 339 | fTowerWeightTime = 0.0;
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| 340 |
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| 341 | fTowerTrackHits = 0;
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| 342 | fTowerPhotonHits = 0;
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| 343 |
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| 344 | fTowerTrackArray->Clear();
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| 345 | }
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| 346 |
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| 347 | // check for track hits
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| 348 | if(flags & 1)
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| 349 | {
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| 350 | ++fTowerTrackHits;
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| 351 |
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| 352 | track = static_cast<Candidate*>(fTrackInputArray->At(number));
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| 353 | momentum = track->Momentum;
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| 354 | position = track->Position;
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| 355 |
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| 356 | energy = momentum.E() * fTrackFractions[number];
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| 357 |
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| 358 | fTrackEnergy += energy;
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| 359 |
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| 360 | fTrackTime += TMath::Sqrt(energy)*position.T();
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| 361 | fTrackWeightTime += TMath::Sqrt(energy);
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| 362 |
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| 363 | fTowerTrackArray->Add(track);
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| 364 |
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| 365 | continue;
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| 366 | }
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| 367 |
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| 368 | // check for photon and electron hits in current tower
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| 369 | if(flags & 2) ++fTowerPhotonHits;
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| 370 |
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| 371 | particle = static_cast<Candidate*>(fParticleInputArray->At(number));
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| 372 | momentum = particle->Momentum;
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| 373 | position = particle->Position;
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| 374 |
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| 375 | // fill current tower
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| 376 | energy = momentum.E() * fTowerFractions[number];
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| 377 |
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| 378 | fTowerEnergy += energy;
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| 379 |
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| 380 | fTowerTime += TMath::Sqrt(energy)*position.T();
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| 381 | fTowerWeightTime += TMath::Sqrt(energy);
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| 382 |
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| 383 | fTower->AddCandidate(particle);
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| 384 | }
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| 385 |
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| 386 | // finalize last tower
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| 387 | FinalizeTower();
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| 388 | }
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| 389 |
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| 390 | //------------------------------------------------------------------------------
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| 391 |
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| 392 | void SimpleCalorimeter::FinalizeTower()
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| 393 | {
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| 394 | Candidate *tower;
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| 395 | Double_t energy, pt, eta, phi;
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| 396 | Double_t sigma;
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| 397 | Double_t time;
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| 398 |
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| 399 | if(!fTower) return;
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| 400 |
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| 401 | sigma = fResolutionFormula->Eval(0.0, fTowerEta, 0.0, fTowerEnergy);
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| 402 |
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| 403 | // energy = gRandom->Gaus(fTowerEnergy, sigma);
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| 404 | // if(energy < 0.0) energy = 0.0;
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| 405 |
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| 406 | energy = LogNormal(fTowerEnergy, sigma);
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| 407 | time = (fTowerWeightTime < 1.0E-09 ) ? 0 : fTowerTime/fTowerWeightTime;
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| 408 |
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[4b9a2dc] | 409 | sigma = fResolutionFormula->Eval(0.0, fTowerEta, 0.0, energy);
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| 410 |
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| 411 | energy = (energy < fEnergyMin || energy < fSigmaMin*sigma) ? 0 : energy;
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| 412 |
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[82575a3] | 413 | eta = gRandom->Uniform(fTowerEdges[0], fTowerEdges[1]);
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| 414 | phi = gRandom->Uniform(fTowerEdges[2], fTowerEdges[3]);
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| 415 |
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| 416 | pt = energy / TMath::CosH(eta);
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| 417 |
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| 418 | // fTower->Position.SetXYZT(-time, 0.0, 0.0, time);
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| 419 | fTower->Position.SetPtEtaPhiE(1.0, eta, phi, time);
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| 420 | fTower->Momentum.SetPtEtaPhiE(pt, eta, phi, energy);
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| 421 |
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| 422 | fTower->Edges[0] = fTowerEdges[0];
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| 423 | fTower->Edges[1] = fTowerEdges[1];
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| 424 | fTower->Edges[2] = fTowerEdges[2];
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| 425 | fTower->Edges[3] = fTowerEdges[3];
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| 426 |
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| 427 |
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| 428 | // fill SimpleCalorimeter towers
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| 429 | if(energy > 0.0) fTowerOutputArray->Add(fTower);
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| 430 |
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| 431 |
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| 432 | // fill energy flow candidates
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| 433 | energy -= fTrackEnergy;
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[4b9a2dc] | 434 | if(energy < fEnergyMin || energy < fSigmaMin*fResolutionFormula->Eval(0.0, fTowerEta, 0.0, energy)) energy = 0.0;
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[82575a3] | 435 |
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| 436 | // save energy excess as an energy flow tower
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| 437 | if(energy > 0.0)
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| 438 | {
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| 439 | // create new photon tower
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| 440 | tower = static_cast<Candidate*>(fTower->Clone());
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| 441 | pt = energy / TMath::CosH(eta);
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| 442 |
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| 443 | tower->Momentum.SetPtEtaPhiE(pt, eta, phi, energy);
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| 444 | fEFlowTowerOutputArray->Add(tower);
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| 445 | }
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| 446 |
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| 447 | }
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| 448 |
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| 449 | //------------------------------------------------------------------------------
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| 450 |
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| 451 | Double_t SimpleCalorimeter::LogNormal(Double_t mean, Double_t sigma)
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| 452 | {
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| 453 | Double_t a, b;
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| 454 |
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| 455 | if(mean > 0.0)
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| 456 | {
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| 457 | b = TMath::Sqrt(TMath::Log((1.0 + (sigma*sigma)/(mean*mean))));
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| 458 | a = TMath::Log(mean) - 0.5*b*b;
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| 459 |
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| 460 | return TMath::Exp(a + b*gRandom->Gaus(0, 1));
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| 461 | }
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| 462 | else
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| 463 | {
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| 464 | return 0.0;
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| 465 | }
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| 466 | }
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