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HcalCaloTowerMonitor Class Reference

#include <HcalCaloTowerMonitor.h>

Inheritance diagram for HcalCaloTowerMonitor:
HcalBaseMonitor

Public Member Functions

int getIeta (double eta)
 
 HcalCaloTowerMonitor ()
 
void processEvent (const CaloTowerCollection &calotower)
 
void reset ()
 
void setup (const edm::ParameterSet &ps, DQMStore::IBooker &ib)
 
 ~HcalCaloTowerMonitor ()
 
- Public Member Functions inherited from HcalBaseMonitor
void beginLuminosityBlock (int lb)
 
virtual void beginRun ()
 
virtual void clearME ()
 
virtual void done ()
 
void endLuminosityBlock ()
 
bool getDiagnostics () const
 
int getVerbosity () const
 
 HcalBaseMonitor ()
 
void hideKnownBadCells ()
 
virtual void periodicReset ()
 
void processEvent ()
 
void setDiagnostics (bool myval)
 
void setMinMaxHists1D (std::vector< MonitorElement * > &hh, double min, double max)
 
void setMinMaxHists2D (std::vector< MonitorElement * > &hh, double min, double max)
 
void setupDepthHists1D (DQMStore::IBooker &ib, MonitorElement *&h, std::vector< MonitorElement * > &hh, std::string Name, std::string Units, int lowbound, int highbound, int Nbins)
 
void setupDepthHists1D (DQMStore::IBooker &ib, std::vector< MonitorElement * > &hh, std::string Name, std::string Units, int lowbound, int highbound, int Nbins)
 
void setupDepthHists2D (DQMStore::IBooker &ib, MonitorElement *&h, std::vector< MonitorElement * > &hh, std::string Name, std::string Units)
 
void setupDepthHists2D (DQMStore::IBooker &ib, std::vector< MonitorElement * > &hh, std::string Name, std::string Units)
 
void setupDepthHists2D (DQMStore::IBooker &ib, MonitorElement *&h, std::vector< MonitorElement * > &hh, std::string Name, std::string Units, int nbinsx, int lowboundx, int highboundx, int nbinsy, int lowboundy, int highboundy)
 
void setupDepthHists2D (DQMStore::IBooker &ib, std::vector< MonitorElement * > &hh, std::string Name, std::string Units, int nbinsx, int lowboundx, int highboundx, int nbinsy, int lowboundy, int highboundy)
 
void SetupEtaPhiHists (DQMStore::IBooker &ib, MonitorElement *&h, EtaPhiHists &hh, std::string Name, std::string Units)
 
void SetupEtaPhiHists (DQMStore::IBooker &ib, EtaPhiHists &hh, std::string Name, std::string Units)
 
void setVerbosity (int verb)
 
bool vetoCell (HcalDetId &id)
 
virtual ~HcalBaseMonitor ()
 

Private Attributes

MonitorElementcaloTowerEnergy
 
MonitorElementcaloTowerEnergyMap
 
MonitorElementcaloTowerMeanEnergyEta
 
MonitorElementcaloTowerOccMap
 
MonitorElementcaloTowerTime
 
bool debug_
 Monitoring elements. More...
 
MonitorElementecalEnergy
 
MonitorElementecalEnergyMap
 
MonitorElementecalMeanEnergyEta
 
MonitorElementecalOccMap
 
MonitorElementecalTime
 
MonitorElementenergy_CaloTowervsEcal
 
MonitorElementenergy_CaloTowervsHcal
 
MonitorElementenergy_HcalvsEcal
 
int etaBins_
 
double etaMax_
 
double etaMin_
 
MonitorElementhcalEnergy
 
MonitorElementhcalEnergyMap
 
MonitorElementhcalMeanEnergyEta
 
MonitorElementhcalOccMap
 
MonitorElementhcalTime
 
int ievt_
 
MonitorElementmeEVT_
 
int phiBins_
 
double phiMax_
 
double phiMin_
 
MonitorElementtime_CaloTowervsEcal
 
MonitorElementtime_CaloTowervsHcal
 
MonitorElementtime_HcalvsEcal
 

Additional Inherited Members

- Protected Member Functions inherited from HcalBaseMonitor
void LumiBlockUpdate (int lb)
 
- Protected Attributes inherited from HcalBaseMonitor
std::vector< int > AllowedCalibTypes_
 
std::vector< std::string > badCells_
 
std::string baseFolder_
 
bool checkHB_
 
bool checkHE_
 
bool checkHF_
 
bool checkHO_
 
int checkNevents_
 
edm::CPUTimer cpu_timer
 
bool dump2database
 
int etaBins_
 
double etaMax_
 
double etaMin_
 
int fVerbosity
 
int ievt_
 
bool LBprocessed_
 
int levt_
 
int lumiblock
 
bool makeDiagnostics
 
MonitorElementmeEVT_
 
MonitorElementmeTOTALEVT_
 
double minErrorFlag_
 
int Nlumiblocks_
 
int NumBadHB
 
int NumBadHE
 
int NumBadHF
 
int NumBadHO
 
int oldlumiblock
 
bool Online_
 
int phiBins_
 
double phiMax_
 
double phiMin_
 
MonitorElementProblemCells
 
EtaPhiHists ProblemCellsByDepth
 
MonitorElementProblemsVsLB
 
MonitorElementProblemsVsLB_HB
 
MonitorElementProblemsVsLB_HBHEHF
 
MonitorElementProblemsVsLB_HE
 
MonitorElementProblemsVsLB_HF
 
MonitorElementProblemsVsLB_HO
 
int resetNevents_
 
std::string rootFolder_
 
bool showTiming
 
int tevt_
 

Detailed Description

Author
J. Temple - Univ. of Maryland

Definition at line 17 of file HcalCaloTowerMonitor.h.

Constructor & Destructor Documentation

HcalCaloTowerMonitor::HcalCaloTowerMonitor ( )

Definition at line 4 of file HcalCaloTowerMonitor.cc.

4 {}
HcalCaloTowerMonitor::~HcalCaloTowerMonitor ( )

Definition at line 6 of file HcalCaloTowerMonitor.cc.

6 {}

Member Function Documentation

int HcalCaloTowerMonitor::getIeta ( double  eta)

Definition at line 192 of file HcalCaloTowerMonitor.cc.

Referenced by processEvent().

193 {
194  // return Ieta index given physical eta value
195 
196  double myeta=fabs(eta);
197  int neg=int(eta/myeta); // eta can be negative or positive
198 
199  if (myeta<=1.740) // first 20 bins are spaced evenly in increments of .087 radians, starting at ieta=1
200  return (1+int(myeta/.087))*neg;
201 
202  if (fabs(eta)<=1.83)
203  return int(21*neg);
204  if (fabs(eta)<=1.93)
205  return int(22*neg);
206  if (fabs(eta)<=2.043)
207  return int(23*neg);
208  if (fabs(eta)<=2.172)
209  return int(24*neg);
210  if (fabs(eta)<=2.322)
211  return int(25*neg);
212 
213  if (fabs(eta)<=2.5)
214  return int(26*neg);
215  if (fabs(eta)<=2.65)
216  return int(27*neg);
217 
218  // 28 and 29 aren't quite right -- eta values depend on depth
219  if (fabs(eta)<=2.853)
220  return int(28*neg);
221  if (fabs(eta)<=2.964)
222  return int(29*neg);
223  if (fabs(eta)<=3.139)
224  return int(30*neg);
225 
226  if (fabs(eta)<=3.314)
227  return int(31*neg);
228  if (fabs(eta)<=3.489)
229  return int(32*neg);
230  if (fabs(eta)<=3.664)
231  return int(33*neg);
232  if (fabs(eta)<=3.839)
233  return int(34*neg);
234  if (fabs(eta)<=4.013)
235  return int(35*neg);
236 
237  if (fabs(eta)<=4.191)
238  return int(36*neg);
239  if (fabs(eta)<=4.363)
240  return int(37*neg);
241  if (fabs(eta)<=4.538)
242  return int(38*neg);
243  if (fabs(eta)<=4.716)
244  return int(39*neg);
245  if (fabs(eta)<=4.889)
246  return int(40*neg);
247  if (fabs(eta)<=5.191)
248  return int(41*neg);
249 
250  // Anything with large eta is outside calorimeter; skip it?
251  // Are there ZDC-based calotowers?
252  return 42;
253 
254 } // int HcalCaloTowerMonitor::getIeta(double eta)
void HcalCaloTowerMonitor::processEvent ( const CaloTowerCollection calotower)

Definition at line 107 of file HcalCaloTowerMonitor.cc.

References edm::SortedCollection< T, SORT >::begin(), caloTowerEnergy, caloTowerEnergyMap, caloTowerMeanEnergyEta, caloTowerOccMap, caloTowerTime, gather_cfg::cout, ecalEnergy, ecalEnergyMap, ecalMeanEnergyEta, ecalOccMap, ecalTime, edm::SortedCollection< T, SORT >::end(), energy_HcalvsEcal, eta, MonitorElement::Fill(), HcalBaseMonitor::fVerbosity, getIeta(), hcalEnergy, hcalEnergyMap, hcalMeanEnergyEta, hcalOccMap, hcalTime, i, phi, and time_HcalvsEcal.

108 {
109  // fill histograms for each event
110 
111  if (fVerbosity) std::cout <<"Processing calotower"<<std::endl;
112 
113 
114  // Store values of hcal, energy for forming averages at each eta
115  float hcalenergy[90]={0.};
116  float ecalenergy[90]={0.};
117  int etacounts[90]={0};
118 
119  for (CaloTowerCollection::const_iterator it=calotower.begin();
120  it!=calotower.end();++it)
121  {
122  //caloTowers give eta and phi; need to map to ieta,iphi
123  // phi is mapped into 72 equally spaced segments (2pi/72=.087 radians each), starting at iphi=1
124  // at ieta=21 (eta=1.74), iphi spaced in 10 degree increments
125  // at ieta=40 (eta=4.716), iphi spaced in 20 degree increments
126  // However, segmentation values are similar
127  // (iphi=1,2,3,4,5 for 5 degree segments,
128  // iphi 1,3,5,... for 10 degree segments, and iphi=3,7,... for 20 deg.)
129  int iphi;
130  double eta=it->eta();
131  double phi=it->phi();
132  // if phi<0; shift it by 2pi (so that phi runs from 0->2pi, rather than -pi->pi)
133  if (phi<0)
134  phi+=2*3.14159265359;
135  iphi = int(phi/.087)+1;
136  if (fabs(eta)>1.74)
137  {
138  if (fabs(eta)<=4.716)
139  iphi=(iphi-1)/2*2+1;
140  else
141  iphi=(iphi-1)/4*4+3;
142 
143  }
144  //ieta is more complicated -- it runs in segments of .087 for the first 20 segments, then the segmentation becomes non-uniform
145  int ieta=getIeta(eta);
146 
147  // Add 42 to the indices. Only index[1...] will have values within [HB...HF]. Index[0] and [84] store values outside the expected calorimeter range.
148  hcalenergy[ieta+42]+=it->hadEnergy();
149  ecalenergy[ieta+42]+=it->emEnergy();
150  etacounts[ieta+42]++;
151 
152  /*
153  std::cout <<"CALOTOWER eta = \t"<<eta<<"\tphi = "<<it->phi()<<std::endl;
154  std::cout <<"\t ieta = \t"<<ieta<<"\tiphi = "<<iphi<<std::endl;
155  */
156 
157  // Fill histograms
158 
159  // calotowers
160  caloTowerOccMap->Fill(ieta,iphi);
161  caloTowerEnergyMap->Fill(ieta,iphi,it->energy());
162  caloTowerTime->Fill((it->ecalTime()+it->hcalTime())/2.);
163  caloTowerEnergy->Fill(it->energy());
164  //std::cout <<"calotower times: "<<it->ecalTime()<<" "<<it->hcalTime()<<std::endlx;
165 
166  //hcal
167  hcalOccMap->Fill(ieta,iphi);
168  hcalEnergyMap->Fill(ieta,iphi,it->hadEnergy());
169  hcalTime->Fill(it->hcalTime());
170  hcalEnergy->Fill(it->hadEnergy());
171 
172  //ecal
173  ecalOccMap->Fill(ieta,iphi);
174  ecalEnergyMap->Fill(ieta,iphi,it->emEnergy());
175  ecalTime->Fill(it->ecalTime());
176  ecalEnergy->Fill(it->emEnergy());
177 
178  time_HcalvsEcal->Fill(it->ecalTime(),it->hcalTime());
179  energy_HcalvsEcal->Fill(it->emEnergy(),it->hadEnergy());
180  } // for CaloTowerCollection::const_iterator it...
181 
182  // Now form average for each eta bin;
183  for (int i=0;i<90;++i)
184  {
185  if (etacounts[i]==0) continue;
186  caloTowerMeanEnergyEta->Fill(i-42, 1.*(hcalenergy[i]+ecalenergy[i])/etacounts[i]);
187  hcalMeanEnergyEta->Fill(i-42, 1.*hcalenergy[i]/etacounts[i]);
188  ecalMeanEnergyEta->Fill(i-42,1.*ecalenergy[i]/etacounts[i]);
189  }
190 }
int i
Definition: DBlmapReader.cc:9
MonitorElement * hcalEnergy
MonitorElement * hcalEnergyMap
std::vector< CaloTower >::const_iterator const_iterator
MonitorElement * caloTowerTime
MonitorElement * ecalOccMap
MonitorElement * hcalMeanEnergyEta
MonitorElement * caloTowerEnergy
MonitorElement * caloTowerOccMap
void Fill(long long x)
MonitorElement * caloTowerEnergyMap
MonitorElement * time_HcalvsEcal
const_iterator end() const
MonitorElement * energy_HcalvsEcal
MonitorElement * ecalEnergy
MonitorElement * caloTowerMeanEnergyEta
MonitorElement * hcalTime
tuple cout
Definition: gather_cfg.py:145
MonitorElement * ecalMeanEnergyEta
MonitorElement * ecalEnergyMap
MonitorElement * ecalTime
const_iterator begin() const
MonitorElement * hcalOccMap
void HcalCaloTowerMonitor::reset ( void  )

Definition at line 257 of file HcalCaloTowerMonitor.cc.

257 {}
void HcalCaloTowerMonitor::setup ( const edm::ParameterSet ps,
DQMStore::IBooker ib 
)
virtual

Reimplemented from HcalBaseMonitor.

Definition at line 8 of file HcalCaloTowerMonitor.cc.

References HcalBaseMonitor::baseFolder_, DQMStore::IBooker::book1D(), DQMStore::IBooker::book2D(), DQMStore::IBooker::bookInt(), DQMStore::IBooker::bookProfile(), caloTowerEnergy, caloTowerEnergyMap, caloTowerMeanEnergyEta, caloTowerOccMap, caloTowerTime, gather_cfg::cout, ecalEnergy, ecalEnergyMap, ecalMeanEnergyEta, ecalOccMap, ecalTime, energy_CaloTowervsEcal, energy_CaloTowervsHcal, energy_HcalvsEcal, etaBins_, etaMax_, etaMin_, MonitorElement::Fill(), edm::ParameterSet::getUntrackedParameter(), hcalEnergy, hcalEnergyMap, hcalMeanEnergyEta, hcalOccMap, hcalTime, ievt_, meEVT_, phiBins_, phiMax_, phiMin_, HcalBaseMonitor::rootFolder_, DQMStore::IBooker::setCurrentFolder(), HcalBaseMonitor::setup(), time_CaloTowervsEcal, time_CaloTowervsHcal, and time_HcalvsEcal.

9 {
11 
12  baseFolder_ = rootFolder_+"CaloTowerMonitor";
13  etaMax_ = ps.getUntrackedParameter<double>("MaxEta", 41.5);
14  etaMin_ = ps.getUntrackedParameter<double>("MinEta", -41.5);
15  etaBins_ = (int)(etaMax_ - etaMin_);
16  std::cout << "CaloTower Monitor eta min/max set to " << etaMin_ << "/" << etaMax_ << std::endl;
17 
18  phiMax_ = ps.getUntrackedParameter<double>("MaxPhi", 73);
19  phiMin_ = ps.getUntrackedParameter<double>("MinPhi", 0);
20  phiBins_ = (int)(phiMax_ - phiMin_);
21  std::cout << "CaloTower Monitor phi min/max set to " << phiMin_ << "/" << phiMax_ << std::endl;
22 
23  ievt_=0;
24  // book histograms
26  meEVT_ = ib.bookInt("CaloTower Event Number");
27  meEVT_->Fill(ievt_);
28 
29  // Calo Tower occupancy
30  caloTowerOccMap=ib.book2D("CaloTowerOccupancyMap", "Calo Tower Occupancy Map",
32  phiBins_,phiMin_,phiMax_);
33  // Calo Tower energy
34  caloTowerEnergyMap=ib.book2D("CaloTowerEnergyMap", "Calo Tower Energy Map",
36  phiBins_,phiMin_,phiMax_);
37 
38  caloTowerTime = ib.book1D("CaloTowerTime", "Calo Tower Time",
39  10,0,10);
40  caloTowerEnergy = ib.book1D("CalotowerEnergy", "Calo Tower Energy",
41  100,0,100);
42  caloTowerMeanEnergyEta = ib.bookProfile("CaloTowerMeanEnergyEta","Calo tower Mean Energy vs. Eta",
43  etaBins_,etaMin_,etaMax_,100,0,100);
44 
45  // Make plots of HCAL contributions to tower
46  ib.setCurrentFolder(baseFolder_+"/"+"HCAL");
47  hcalOccMap=ib.book2D("HcalOccupancyMap", "Calo Tower Occupancy Map",
49  phiBins_,phiMin_,phiMax_);
50  // Calo Tower energy
51  hcalEnergyMap=ib.book2D("HcalEnergyMap", "Calo Tower Energy Map",
53  phiBins_,phiMin_,phiMax_);
54 
55  hcalTime = ib.book1D("HcalTime", "Calo Tower Time",
56  10,0,10);
57  hcalEnergy = ib.book1D("HcalEnergy", "Calo Tower Energy",
58  100,0,100);
59  hcalMeanEnergyEta = ib.bookProfile("HcalMeanEnergyEta",
60  "Calo tower Mean Energy vs. Eta",
62  100,0,100);
63 
64 
65  ib.setCurrentFolder(baseFolder_+"/"+"ECAL");
66  ecalOccMap=ib.book2D("EcalOccupancyMap", "Calo Tower Occupancy Map",
68  phiBins_,phiMin_,phiMax_);
69  // Calo Tower energy
70  ecalEnergyMap=ib.book2D("EcalEnergyMap", "Calo Tower Energy Map",
72  phiBins_,phiMin_,phiMax_);
73 
74  ecalTime = ib.book1D("EcalTime", "Calo Tower Time",
75  10,0,10);
76  ecalEnergy = ib.book1D("EcalEnergy", "Calo Tower Energy",
77  100,0,100);
78  ecalMeanEnergyEta = ib.bookProfile("EcalMeanEnergyEta",
79  "Calo tower Mean Energy vs. Eta",
81  100,0,100);
82 
83  // Comparison Plots
84  ib.setCurrentFolder(baseFolder_+"/"+"ComparisonPlots");
85  time_HcalvsEcal=ib.book2D("HcalvsEcalTime",
86  "Hcal Time vs. Ecal time",
87  10,0,10,10,0,10);
88  time_CaloTowervsEcal=ib.book2D("CaloTowervsEcalTime",
89  "Calotower Time vs. Ecal time",
90  10,0,10,10,0,10);
91  time_CaloTowervsHcal=ib.book2D("CaloTowervsHcalTime",
92  "CaloTower Time vs. Hcal time",
93  10,0,10,10,0,10);
94  energy_HcalvsEcal=ib.book2D("HcalvsEcalEnergy",
95  "Hcal Energy vs. Ecal energy",
96  100,0,100,100,0,100);
97  energy_CaloTowervsEcal=ib.book2D("CaloTowervsEcalEnergy",
98  "Calotower Energy vs. Ecal energy",
99  100,0,100,100,0,100);
100  energy_CaloTowervsHcal=ib.book2D("CaloTowervsHcalEnergy",
101  "CaloTower Energy vs. Hcal energy",
102  100,0,100,100,0,100);
103 
104 } //void HcalCaloTowerMonitor::setup(...)
T getUntrackedParameter(std::string const &, T const &) const
MonitorElement * time_CaloTowervsHcal
MonitorElement * hcalEnergy
MonitorElement * bookProfile(Args &&...args)
Definition: DQMStore.h:157
MonitorElement * hcalEnergyMap
virtual void setup(const edm::ParameterSet &ps, DQMStore::IBooker &ib)
MonitorElement * energy_CaloTowervsHcal
MonitorElement * bookInt(Args &&...args)
Definition: DQMStore.h:103
MonitorElement * caloTowerTime
MonitorElement * ecalOccMap
MonitorElement * hcalMeanEnergyEta
MonitorElement * caloTowerEnergy
MonitorElement * caloTowerOccMap
void Fill(long long x)
MonitorElement * caloTowerEnergyMap
MonitorElement * time_HcalvsEcal
std::string rootFolder_
MonitorElement * book1D(Args &&...args)
Definition: DQMStore.h:115
std::string baseFolder_
MonitorElement * energy_HcalvsEcal
MonitorElement * energy_CaloTowervsEcal
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:276
MonitorElement * book2D(Args &&...args)
Definition: DQMStore.h:133
MonitorElement * ecalEnergy
MonitorElement * caloTowerMeanEnergyEta
MonitorElement * time_CaloTowervsEcal
MonitorElement * hcalTime
tuple cout
Definition: gather_cfg.py:145
MonitorElement * ecalMeanEnergyEta
MonitorElement * ecalEnergyMap
MonitorElement * ecalTime
MonitorElement * hcalOccMap

Member Data Documentation

MonitorElement* HcalCaloTowerMonitor::caloTowerEnergy
private

Definition at line 37 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::caloTowerEnergyMap
private

Definition at line 35 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::caloTowerMeanEnergyEta
private

Definition at line 38 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::caloTowerOccMap
private

Definition at line 34 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::caloTowerTime
private

Definition at line 36 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

bool HcalCaloTowerMonitor::debug_
private

Monitoring elements.

Definition at line 28 of file HcalCaloTowerMonitor.h.

MonitorElement* HcalCaloTowerMonitor::ecalEnergy
private

Definition at line 51 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::ecalEnergyMap
private

Definition at line 49 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::ecalMeanEnergyEta
private

Definition at line 52 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::ecalOccMap
private

Definition at line 48 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::ecalTime
private

Definition at line 50 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::energy_CaloTowervsEcal
private

Definition at line 59 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::energy_CaloTowervsHcal
private

Definition at line 60 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::energy_HcalvsEcal
private

Definition at line 58 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

int HcalCaloTowerMonitor::etaBins_
private

Definition at line 30 of file HcalCaloTowerMonitor.h.

Referenced by setup().

double HcalCaloTowerMonitor::etaMax_
private

Definition at line 29 of file HcalCaloTowerMonitor.h.

Referenced by setup().

double HcalCaloTowerMonitor::etaMin_
private

Definition at line 29 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::hcalEnergy
private

Definition at line 44 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::hcalEnergyMap
private

Definition at line 42 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::hcalMeanEnergyEta
private

Definition at line 45 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::hcalOccMap
private

Definition at line 41 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

MonitorElement* HcalCaloTowerMonitor::hcalTime
private

Definition at line 43 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().

int HcalCaloTowerMonitor::ievt_
private

Definition at line 31 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::meEVT_
private

Definition at line 62 of file HcalCaloTowerMonitor.h.

Referenced by setup().

int HcalCaloTowerMonitor::phiBins_
private

Definition at line 30 of file HcalCaloTowerMonitor.h.

Referenced by setup().

double HcalCaloTowerMonitor::phiMax_
private

Definition at line 29 of file HcalCaloTowerMonitor.h.

Referenced by setup().

double HcalCaloTowerMonitor::phiMin_
private

Definition at line 29 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::time_CaloTowervsEcal
private

Definition at line 56 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::time_CaloTowervsHcal
private

Definition at line 57 of file HcalCaloTowerMonitor.h.

Referenced by setup().

MonitorElement* HcalCaloTowerMonitor::time_HcalvsEcal
private

Definition at line 55 of file HcalCaloTowerMonitor.h.

Referenced by processEvent(), and setup().