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source: svn/trunk/src/CaloUtil.cc@ 408

Last change on this file since 408 was 391, checked in by Xavier Rouby, 16 years ago

new 'D_CaloTower::getElement() const' method
File size: 7.0 KB
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[264]1/*
2 ---- Delphes ----
3 A Fast Simulator for general purpose LHC detector
4 S. Ovyn ~~~~ severine.ovyn@uclouvain.be
5
6 Center for Particle Physics and Phenomenology (CP3)
7 Universite Catholique de Louvain (UCL)
8 Louvain-la-Neuve, Belgium
9*/
10
11/// \file D_CaloUtil.cc
12/// \brief Implementation of D_CaloElement, D_CaloResolution and D_CaloList classes
13
14#include "CaloUtil.h"
15#include <cmath>
16#include <algorithm>
17#include <iostream>
18#include "TRandom.h"
19
20D_CaloElement& D_CaloElement::operator=(const D_CaloElement& calo) {
21 if(this == &calo) return *this;
22 _name = calo._name;
23 _etamin = calo._etamin;
24 _etamax = calo._etamax;
25 _resol_em = calo._resol_em;
26 _resol_had= calo._resol_had;
27 return *this;
28}
29
30D_CaloResolution& D_CaloResolution::operator=(const D_CaloResolution& resolution) {
31 if(this == &resolution) return *this;
32 _c = resolution._c;
33 _n = resolution._n;
34 _s = resolution._s;
35 return *this;
36}
37
38void D_CaloResolution::print() const {
39 std::cout << "C: " << _c << " N:" << _n << " S:" << _s << std::endl;
40}
41
42const D_CaloElement& D_CaloList::getElement(const float eta) const {
43 for (unsigned int i=0; i<_calorimeters.size(); i++) {
44 if(_calorimeters[i].getEtamin() < eta && eta < _calorimeters[i].getEtamax()) return _calorimeters[i];
45 }
46 // if not found
47 return dummyCalo;
48}
49
50void D_CaloList::addElement(const D_CaloElement & calo) {
51 _sorted = false;
52 _calorimeters.push_back(calo);
53}
54
55void D_CaloList::sortElements() {
56 // here: it sorts the elements with respect to their eta
57 sort(_calorimeters.begin(),_calorimeters.end(),ordering());
58
59 for (unsigned int i=0; i<_calorimeters.size()-1; i++) {
60 if(_calorimeters[i].getEtamax() > _calorimeters[i+1].getEtamin() ) {
61 _etamin = UNDEFINED;
62 _etamax = UNDEFINED;
63 cerr << "** Error: the calorimeter list should never contain overlapping **"<< endl;
64 cerr << "** calorimeters. **"<< endl;
65 return;
66 }
67 }
68 _etamin = _calorimeters[0].getEtamin();
69 _etamax = _calorimeters[_calorimeters.size()-1].getEtamax();
70 _sorted = true;
71}
72
73D_CaloList& D_CaloList::operator=(const D_CaloList& list) {
74 if(this == &list) return *this;
75 _calorimeters = list._calorimeters;
76 _etamin = list._etamin;
77 _etamax = list._etamax;
78 _sorted = list._sorted;
79 return *this;
80}
81
82void D_CaloList::print() const {
83 if(_sorted) cout << "The list has been sorted\n";
84 else cout << "The list has not been sorted\n";
85
86 for (unsigned int i=0; i<_calorimeters.size(); i++) {
87 std::cout << _calorimeters[i].getName() << " " << _calorimeters[i].getEtamin() <<
88 " " << _calorimeters[i].getEtamax() << std::endl;
89 _calorimeters[i].getElectromagneticResolution().print();
90 _calorimeters[i].getHadronicResolution().print();
91 }
92
93}
94
95
96
97
98
99
100
101
102D_CaloTower::D_CaloTower(const float iEta, const float iPhi) :
103 _eta(iEta), _phi(iPhi), _Eem(UNDEFINED), _Ehad(UNDEFINED), _E(UNDEFINED), _ET(UNDEFINED) {}
104
105D_CaloTower::D_CaloTower(const D_CaloTower& tower) :
106 _eta(tower._eta), _phi(tower._phi), _Eem(tower._Eem),
107 _Ehad(tower._Ehad), _E(tower._E), _ET(tower._ET) {}
108
109D_CaloTower& D_CaloTower::operator=(const D_CaloTower& tower) {
110 if(this==&tower) return *this;
111 _eta = tower._eta; _phi = tower._phi;
112 _Eem = tower._Eem; _Ehad = tower._Ehad;
113 _E = tower._E; _ET = tower._ET;
114 return *this;
115}
116
117
118const float D_CaloResolution::Smear(const float energy) const {
119 float sE = gRandom->Gaus(energy,
120 sqrt( pow(_n,2) +
121 pow(_c*energy,2) +
122 pow(_s*sqrt(energy),2) ));
123 return (sE>0)? sE : 0;
124}
125
126const bool D_CaloTower::operator==(const D_CaloTower& el) const { if (this == &el) return true; return this->_eta==el._eta && this->_phi == el._phi;}
127
128void D_CaloTowerList::addTower(const D_CaloTower& tower) {
129 _calotowers.push_back(tower);
130 _sorted = false;
131 _merged = false;
132}
133
134D_CaloTowerList& D_CaloTowerList::operator=(const D_CaloTowerList& list) {
135 if(this==&list) return *this;
136 _calotowers = list._calotowers;
137 _sorted = list._sorted;
138 _merged = list._merged;
139 return *this;
140}
141
142void D_CaloTowerList::sortElements() {
143 _sorted = true;
144 if(_calotowers.size()==0) return;
145 sort(_calotowers.begin(),_calotowers.end(),ordering());
146}
147
148void D_CaloTowerList::mergeDuplicates() {
149 if(!_sorted) sortElements();
150 _merged = true;
151 if (_calotowers.size() ==0) { return;}
152
153 vector<D_CaloTower> temp;
154 temp.push_back(_calotowers[0]);
155 for (unsigned int i=1; i<_calotowers.size(); i++) {
156
157 if(temp[temp.size()-1] == _calotowers[i]) {
158 //i.e. if towers have the same eta/phi
159 float em = temp[temp.size()-1].getEem() + _calotowers[i].getEem();
160 float had= temp[temp.size()-1].getEhad()+ _calotowers[i].getEhad();
161 temp[temp.size()-1].Set_Eem_Ehad_E_ET(em,had);
162 }
163 else temp.push_back(_calotowers[i]);
164
165 }
166 _calotowers = temp;
167}
168
169void D_CaloTowerList::print() const {
170 for (unsigned int i=0; i<_calotowers.size(); i++) {
171 std::cout << _calotowers[i].getEta() << " " <<
172 _calotowers[i].getPhi() << " " <<
173 _calotowers[i].getEem() << " " <<
174 _calotowers[i].getEhad() << std::endl;
175 }
176}
177
178void D_CaloTowerList::smearTowers(const D_CaloList& list_of_calorimeters) {
179 for (unsigned int i=0; i<_calotowers.size(); i++) {
180 // first, finds in which calo the tower is, in order to have its resolution em /had
181 D_CaloElement currentCalo = list_of_calorimeters.getElement(_calotowers[i].getEta() );
182 // then, smears separately the em and had parts
183 float sEem = currentCalo.getElectromagneticResolution().Smear( _calotowers[i].getEem() );
184 float sEhad = currentCalo.getHadronicResolution().Smear( _calotowers[i].getEhad() );
185 // finally, sets the tower smeared energy
186 _calotowers[i].Set_Eem_Ehad_E_ET(sEem,sEhad);
187 }
188}
189
190
191const bool D_CaloTower::operator>(const D_CaloTower& tocomp) const {
192 if(_eta == tocomp._eta) {
193 if(_phi > tocomp._phi) return true;
194 else return false;
195 }
196 else if(_eta > tocomp._eta) return true;
197 else return false;
198};
199
200const bool D_CaloTower::operator<(const D_CaloTower& tocomp) const {
201 if(_eta == tocomp._eta) {
202 if(_phi < tocomp._phi) return true;
203 else return false;
204 }
205 else if(_eta < tocomp._eta) return true;
206 else return false;
207};
208
209const D_CaloTower& D_CaloTowerList::getElement(const float eta, const float phi) {
210 if(!_sorted) sortElements();
211 for (unsigned int i=0; i< _calotowers.size(); i++) {
212 if(_calotowers[i].getEta() == eta &&
213 _calotowers[i].getPhi() == phi )
214 return _calotowers[i];
215 }
216 return dummyTower; // if not found
217}
[391]218
219const D_CaloTower& D_CaloTowerList::getElement(const float eta, const float phi) const {
220 if(!_sorted) cout << "Warning: unsorted list!";
221 for (unsigned int i=0; i< _calotowers.size(); i++) {
222 if(_calotowers[i].getEta() == eta &&
223 _calotowers[i].getPhi() == phi )
224 return _calotowers[i];
225 }
226 return dummyTower; // if not found
227}
228
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