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source: git/modules/Isolation.cc@ 1e8afcc

ImprovedOutputFile Timing dual_readout llp
Last change on this file since 1e8afcc was 3db5282, checked in by Michele Selvaggi <michele.selvaggi@…>, 10 years ago

included timing information in Calorimeter

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File size: 7.0 KB
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[b443089]1/*
2 * Delphes: a framework for fast simulation of a generic collider experiment
3 * Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
[1fa50c2]4 *
[b443089]5 * This program is free software: you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation, either version 3 of the License, or
8 * (at your option) any later version.
[1fa50c2]9 *
[b443089]10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
[1fa50c2]14 *
[b443089]15 * You should have received a copy of the GNU General Public License
16 * along with this program. If not, see <http://www.gnu.org/licenses/>.
17 */
18
[d7d2da3]19
20/** \class Isolation
21 *
22 * Sums transverse momenta of isolation objects (tracks, calorimeter towers, etc)
23 * within a DeltaR cone around a candidate and calculates fraction of this sum
24 * to the candidate's transverse momentum. outputs candidates that have
25 * the transverse momenta fraction within (PTRatioMin, PTRatioMax].
26 *
[7f9ae0a]27 * \author P. Demin, M. Selvaggi, R. Gerosa - UCL, Louvain-la-Neuve
[d7d2da3]28 *
29 */
30
31#include "modules/Isolation.h"
32
33#include "classes/DelphesClasses.h"
34#include "classes/DelphesFactory.h"
35#include "classes/DelphesFormula.h"
36
37#include "ExRootAnalysis/ExRootResult.h"
38#include "ExRootAnalysis/ExRootFilter.h"
39#include "ExRootAnalysis/ExRootClassifier.h"
40
41#include "TMath.h"
42#include "TString.h"
43#include "TFormula.h"
44#include "TRandom3.h"
45#include "TObjArray.h"
46#include "TDatabasePDG.h"
47#include "TLorentzVector.h"
48
49#include <algorithm>
50#include <stdexcept>
51#include <iostream>
52#include <sstream>
53
54using namespace std;
55
56//------------------------------------------------------------------------------
57
58class IsolationClassifier : public ExRootClassifier
59{
60public:
61
62 IsolationClassifier() {}
63
64 Int_t GetCategory(TObject *object);
65
66 Double_t fPTMin;
67};
68
69//------------------------------------------------------------------------------
70
71Int_t IsolationClassifier::GetCategory(TObject *object)
72{
73 Candidate *track = static_cast<Candidate*>(object);
74 const TLorentzVector &momentum = track->Momentum;
75
76 if(momentum.Pt() < fPTMin) return -1;
77
78 return 0;
79}
80
81//------------------------------------------------------------------------------
82
83Isolation::Isolation() :
84 fClassifier(0), fFilter(0),
[e9023b9]85 fItIsolationInputArray(0), fItCandidateInputArray(0),
86 fItRhoInputArray(0)
[d7d2da3]87{
88 fClassifier = new IsolationClassifier;
89}
90
91//------------------------------------------------------------------------------
92
93Isolation::~Isolation()
94{
95}
96
97//------------------------------------------------------------------------------
98
99void Isolation::Init()
100{
101 const char *rhoInputArrayName;
102
103 fDeltaRMax = GetDouble("DeltaRMax", 0.5);
104
105 fPTRatioMax = GetDouble("PTRatioMax", 0.1);
106
[b286067]107 fPTSumMax = GetDouble("PTSumMax", 5.0);
108
109 fUsePTSum = GetBool("UsePTSum", false);
110
[7f9ae0a]111 fVetoLeptons = GetBool("VetoLeptons", true);
112
[d7d2da3]113 fClassifier->fPTMin = GetDouble("PTMin", 0.5);
114
[7f9ae0a]115
[d7d2da3]116 // import input array(s)
117
118 fIsolationInputArray = ImportArray(GetString("IsolationInputArray", "Delphes/partons"));
119 fItIsolationInputArray = fIsolationInputArray->MakeIterator();
120
121 fFilter = new ExRootFilter(fIsolationInputArray);
122
123 fCandidateInputArray = ImportArray(GetString("CandidateInputArray", "Calorimeter/electrons"));
124 fItCandidateInputArray = fCandidateInputArray->MakeIterator();
125
126 rhoInputArrayName = GetString("RhoInputArray", "");
127 if(rhoInputArrayName[0] != '\0')
128 {
129 fRhoInputArray = ImportArray(rhoInputArrayName);
[e9023b9]130 fItRhoInputArray = fRhoInputArray->MakeIterator();
[d7d2da3]131 }
132 else
133 {
134 fRhoInputArray = 0;
135 }
136
137 // create output array
138
139 fOutputArray = ExportArray(GetString("OutputArray", "electrons"));
140}
141
142//------------------------------------------------------------------------------
143
144void Isolation::Finish()
145{
[e9023b9]146 if(fItRhoInputArray) delete fItRhoInputArray;
[d7d2da3]147 if(fFilter) delete fFilter;
148 if(fItCandidateInputArray) delete fItCandidateInputArray;
149 if(fItIsolationInputArray) delete fItIsolationInputArray;
150}
151
152//------------------------------------------------------------------------------
153
154void Isolation::Process()
155{
[e9023b9]156 Candidate *candidate, *isolation, *object;
[d7d2da3]157 TObjArray *isolationArray;
[7f9ae0a]158 Double_t sumCharged, sumNeutral, sumAllParticles, sumChargedPU, sumDBeta, ratioDBeta, sumRhoCorr, ratioRhoCorr;
[d7d2da3]159 Int_t counter;
[e9023b9]160 Double_t eta = 0.0;
[d7d2da3]161 Double_t rho = 0.0;
162
163 if(fRhoInputArray && fRhoInputArray->GetEntriesFast() > 0)
164 {
165 candidate = static_cast<Candidate*>(fRhoInputArray->At(0));
166 rho = candidate->Momentum.Pt();
167 }
168
169 // select isolation objects
170 fFilter->Reset();
171 isolationArray = fFilter->GetSubArray(fClassifier, 0);
172
173 if(isolationArray == 0) return;
174
175 TIter itIsolationArray(isolationArray);
176
177 // loop over all input jets
178 fItCandidateInputArray->Reset();
179 while((candidate = static_cast<Candidate*>(fItCandidateInputArray->Next())))
180 {
181 const TLorentzVector &candidateMomentum = candidate->Momentum;
[e9023b9]182 eta = TMath::Abs(candidateMomentum.Eta());
[d7d2da3]183
184 // loop over all input tracks
[7f9ae0a]185
[3db5282]186 sumNeutral = 0.0;
[7f9ae0a]187 sumCharged = 0.0;
188 sumChargedPU = 0.0;
189 sumAllParticles = 0.0;
190
[d7d2da3]191 counter = 0;
192 itIsolationArray.Reset();
[7f9ae0a]193
[d7d2da3]194 while((isolation = static_cast<Candidate*>(itIsolationArray.Next())))
195 {
196 const TLorentzVector &isolationMomentum = isolation->Momentum;
197
198 if(candidateMomentum.DeltaR(isolationMomentum) <= fDeltaRMax &&
[7f9ae0a]199 candidate->GetUniqueID() != isolation->GetUniqueID() &&
200 ( !fVetoLeptons || (TMath::Abs(candidate->PID) != 11 && (TMath::Abs(candidate->PID) != 13)) ) )
[d7d2da3]201 {
[7f9ae0a]202
203 sumAllParticles += isolationMomentum.Pt();
204 if(isolation->Charge !=0)
205 {
206 sumCharged += isolationMomentum.Pt();
207 if(isolation->IsRecoPU != 0) sumChargedPU += isolationMomentum.Pt();
208 }
209
210 else sumNeutral += isolationMomentum.Pt();
211
[d7d2da3]212 ++counter;
213 }
214 }
215
[e9023b9]216 // find rho
217 rho = 0.0;
218 if(fRhoInputArray)
219 {
220 fItRhoInputArray->Reset();
221 while((object = static_cast<Candidate*>(fItRhoInputArray->Next())))
222 {
223 if(eta >= object->Edges[0] && eta < object->Edges[1])
224 {
225 rho = object->Momentum.Pt();
226 }
227 }
228 }
229
[7f9ae0a]230
231 // correct sum for pile-up contamination
232 sumDBeta = sumCharged + TMath::Max(sumNeutral-0.5*sumChargedPU,0.0);
233 sumRhoCorr = sumCharged + TMath::Max(sumNeutral-TMath::Max(rho,0.0)*fDeltaRMax*fDeltaRMax*TMath::Pi(),0.0);
234 ratioDBeta = sumDBeta/candidateMomentum.Pt();
235 ratioRhoCorr = sumRhoCorr/candidateMomentum.Pt();
236
[b62c2da]237 candidate->IsolationVar = ratioDBeta;
[7f9ae0a]238 candidate->IsolationVarRhoCorr = ratioRhoCorr;
[b62c2da]239 candidate->SumPtCharged = sumCharged;
240 candidate->SumPtNeutral = sumNeutral;
241 candidate->SumPtChargedPU = sumChargedPU;
242 candidate->SumPt = sumAllParticles;
[7f9ae0a]243
244 if((fUsePTSum && sumDBeta > fPTSumMax) || ratioDBeta > fPTRatioMax) continue;
[d7d2da3]245 fOutputArray->Add(candidate);
246 }
247}
248
249//------------------------------------------------------------------------------
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