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source: git/modules/PileUpMergerPythia8.cc@ d3fb80d

ImprovedOutputFile Timing dual_readout llp
Last change on this file since d3fb80d was 2d494a6, checked in by Pavel Demin <pavel.demin@…>, 10 years ago

add code from CMS to PileUpMerger and PileUpMergerPythia8

  • Property mode set to 100644
File size: 6.8 KB
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1/*
2 * Delphes: a framework for fast simulation of a generic collider experiment
3 * Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
4 *
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.
9 *
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.
14 *
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
19/** \class PileUpMergerPythia8
20 *
21 * Merges particles from pile-up sample into event
22 *
23 * \author M. Selvaggi - UCL, Louvain-la-Neuve
24 *
25 */
26
27#include "modules/PileUpMergerPythia8.h"
28
29#include "classes/DelphesClasses.h"
30#include "classes/DelphesFactory.h"
31#include "classes/DelphesTF2.h"
32#include "classes/DelphesPileUpReader.h"
33
34#include "ExRootAnalysis/ExRootResult.h"
35#include "ExRootAnalysis/ExRootFilter.h"
36#include "ExRootAnalysis/ExRootClassifier.h"
37
38#include "Pythia.h"
39
40#include "TMath.h"
41#include "TString.h"
42#include "TFormula.h"
43#include "TRandom3.h"
44#include "TObjArray.h"
45#include "TDatabasePDG.h"
46#include "TLorentzVector.h"
47
48#include <algorithm>
49#include <stdexcept>
50#include <iostream>
51#include <sstream>
52
53using namespace std;
54
55//------------------------------------------------------------------------------
56
57PileUpMergerPythia8::PileUpMergerPythia8() :
58 fFunction(0), fPythia(0), fItInputArray(0)
59{
60 fFunction = new DelphesTF2;
61}
62
63//------------------------------------------------------------------------------
64
65PileUpMergerPythia8::~PileUpMergerPythia8()
66{
67 delete fFunction;
68}
69
70//------------------------------------------------------------------------------
71
72void PileUpMergerPythia8::Init()
73{
74 const char *fileName;
75
76 fPileUpDistribution = GetInt("PileUpDistribution", 0);
77
78 fMeanPileUp = GetDouble("MeanPileUp", 10);
79
80 fZVertexSpread = GetDouble("ZVertexSpread", 0.15);
81 fTVertexSpread = GetDouble("TVertexSpread", 1.5E-09);
82
83 fInputBeamSpotX = GetDouble("InputBeamSpotX", 0.0);
84 fInputBeamSpotY = GetDouble("InputBeamSpotY", 0.0);
85 fOutputBeamSpotX = GetDouble("OutputBeamSpotX", 0.0);
86 fOutputBeamSpotY = GetDouble("OutputBeamSpotY", 0.0);
87
88 fPTMin = GetDouble("PTMin", 0.0);
89
90 fFunction->Compile(GetString("VertexDistributionFormula", "0.0"));
91 fFunction->SetRange(-fZVertexSpread, -fTVertexSpread, fZVertexSpread, fTVertexSpread);
92
93 fileName = GetString("ConfigFile", "MinBias.cmnd");
94 fPythia = new Pythia8::Pythia();
95 fPythia->readFile(fileName);
96
97 // import input array
98 fInputArray = ImportArray(GetString("InputArray", "Delphes/stableParticles"));
99 fItInputArray = fInputArray->MakeIterator();
100
101 // create output arrays
102 fParticleOutputArray = ExportArray(GetString("ParticleOutputArray", "stableParticles"));
103 fVertexOutputArray = ExportArray(GetString("VertexOutputArray", "vertices"));
104}
105
106//------------------------------------------------------------------------------
107
108void PileUpMergerPythia8::Finish()
109{
110 if(fPythia) delete fPythia;
111}
112
113//------------------------------------------------------------------------------
114
115void PileUpMergerPythia8::Process()
116{
117 TDatabasePDG *pdg = TDatabasePDG::Instance();
118 TParticlePDG *pdgParticle;
119 Int_t pid, status;
120 Float_t x, y, z, t, vx, vy;
121 Float_t px, py, pz, e;
122 Double_t dz, dphi, dt;
123 Int_t numberOfEvents, event, numberOfParticles, i;
124 Candidate *candidate, *vertex;
125 DelphesFactory *factory;
126
127 const Double_t c_light = 2.99792458E8;
128
129 fItInputArray->Reset();
130
131 // --- Deal with primary vertex first ------
132
133 fFunction->GetRandom2(dz, dt);
134
135 dt *= c_light*1.0E3; // necessary in order to make t in mm/c
136 dz *= 1.0E3; // necessary in order to make z in mm
137 vx = 0.0;
138 vy = 0.0;
139 numberOfParticles = fInputArray->GetEntriesFast();
140 while((candidate = static_cast<Candidate*>(fItInputArray->Next())))
141 {
142 vx += candidate->Position.X();
143 vy += candidate->Position.Y();
144 z = candidate->Position.Z();
145 t = candidate->Position.T();
146 candidate->Position.SetZ(z + dz);
147 candidate->Position.SetT(t + dt);
148 fParticleOutputArray->Add(candidate);
149 }
150
151 if(numberOfParticles > 0)
152 {
153 vx /= numberOfParticles;
154 vy /= numberOfParticles;
155 }
156
157 factory = GetFactory();
158
159 vertex = factory->NewCandidate();
160 vertex->Position.SetXYZT(vx, vy, dz, dt);
161 fVertexOutputArray->Add(vertex);
162
163 // --- Then with pile-up vertices ------
164
165 switch(fPileUpDistribution)
166 {
167 case 0:
168 numberOfEvents = gRandom->Poisson(fMeanPileUp);
169 break;
170 case 1:
171 numberOfEvents = gRandom->Integer(2*fMeanPileUp + 1);
172 break;
173 default:
174 numberOfEvents = gRandom->Poisson(fMeanPileUp);
175 break;
176 }
177
178 for(event = 0; event < numberOfEvents; ++event)
179 {
180 while(!fPythia->next());
181
182 // --- Pile-up vertex smearing
183
184 fFunction->GetRandom2(dz, dt);
185
186 dt *= c_light*1.0E3; // necessary in order to make t in mm/c
187 dz *= 1.0E3; // necessary in order to make z in mm
188
189 dphi = gRandom->Uniform(-TMath::Pi(), TMath::Pi());
190
191 vx = 0.0;
192 vy = 0.0;
193 numberOfParticles = fPythia->event.size();
194 for(i = 1; i < numberOfParticles; ++i)
195 {
196 Pythia8::Particle &particle = fPythia->event[i];
197
198 status = particle.statusHepMC();
199
200 if(status != 1 || !particle.isVisible() || particle.pT() <= fPTMin) continue;
201
202 pid = particle.id();
203 px = particle.px(); py = particle.py(); pz = particle.pz(); e = particle.e();
204 x = particle.xProd(); y = particle.yProd(); z = particle.zProd(); t = particle.tProd();
205
206 candidate = factory->NewCandidate();
207
208 candidate->PID = pid;
209
210 candidate->Status = 1;
211
212 pdgParticle = pdg->GetParticle(pid);
213 candidate->Charge = pdgParticle ? Int_t(pdgParticle->Charge()/3.0) : -999;
214 candidate->Mass = pdgParticle ? pdgParticle->Mass() : -999.9;
215
216 candidate->IsPU = 1;
217
218 candidate->Momentum.SetPxPyPzE(px, py, pz, e);
219 candidate->Momentum.RotateZ(dphi);
220
221 x -= fInputBeamSpotX;
222 y -= fInputBeamSpotY;
223 candidate->Position.SetXYZT(x, y, z + dz, t + dt);
224 candidate->Position.RotateZ(dphi);
225 candidate->Position += TLorentzVector(fOutputBeamSpotX, fOutputBeamSpotY, 0.0, 0.0);
226
227 vx += candidate->Position.X();
228 vy += candidate->Position.Y();
229
230 fParticleOutputArray->Add(candidate);
231 }
232
233 if(numberOfParticles > 0)
234 {
235 vx /= numberOfParticles;
236 vy /= numberOfParticles;
237 }
238
239 vertex = factory->NewCandidate();
240 vertex->Position.SetXYZT(vx, vy, dz, dt);
241 vertex->IsPU = 1;
242
243 fVertexOutputArray->Add(vertex);
244 }
245}
246
247//------------------------------------------------------------------------------
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