#include <HLTAlCaMonEcalPhiSym.h>
* DQM Source for phi symmetry stream
Definition at line 22 of file HLTAlCaMonEcalPhiSym.h.
HLTAlCaMonEcalPhiSym::HLTAlCaMonEcalPhiSym | ( | const edm::ParameterSet & | ps | ) |
Definition at line 43 of file HLTAlCaMonEcalPhiSym.cc.
References dbe_, fileName_, folderName_, edm::ParameterSet::getUntrackedParameter(), hEventEnergyEB_max_, hEventEnergyEB_min_, hEventEnergyEB_nbin_, hEventEnergyEE_max_, hEventEnergyEE_min_, hEventEnergyEE_nbin_, hiEtaDistrEB_max_, hiEtaDistrEB_min_, hiEtaDistrEB_nbin_, hiPhiDistrEB_max_, hiPhiDistrEB_min_, hiPhiDistrEB_nbin_, hMeanRecHitEnergyEB_max_, hMeanRecHitEnergyEB_min_, hMeanRecHitEnergyEB_nbin_, hMeanRecHitEnergyEE_max_, hMeanRecHitEnergyEE_min_, hMeanRecHitEnergyEE_nbin_, hNRecHitsEB_max_, hNRecHitsEB_min_, hNRecHitsEB_nbin_, hNRecHitsEE_max_, hNRecHitsEE_min_, hNRecHitsEE_nbin_, hRechitEnergyEB_max_, hRechitEnergyEB_min_, hRechitEnergyEB_nbin_, hRechitEnergyEE_max_, hRechitEnergyEE_min_, hRechitEnergyEE_nbin_, cmsCodeRules::cppFunctionSkipper::operator, prescaleFactor_, productMonitoredEB_, productMonitoredEE_, and saveToFile_.
: eventCounter_(0) { dbe_ = Service<DQMStore>().operator->(); folderName_ = ps.getUntrackedParameter<std::string>("FolderName","ALCAStreamEcalPhiSym"); prescaleFactor_ = ps.getUntrackedParameter<int>("prescaleFactor",1); productMonitoredEB_= ps.getUntrackedParameter<edm::InputTag>("AlCaStreamEBTag"); productMonitoredEE_= ps.getUntrackedParameter<edm::InputTag>("AlCaStreamEETag"); saveToFile_=ps.getUntrackedParameter<bool>("SaveToFile",false); fileName_= ps.getUntrackedParameter<std::string>("FileName","MonitorAlCaEcalPhiSym.root"); // histogram parameters // Distribution of rechits in iPhi hiPhiDistrEB_nbin_= ps.getUntrackedParameter<int>("hiPhiDistrEB_nbin",361); hiPhiDistrEB_min_= ps.getUntrackedParameter<double>("hiPhiDistrEB_min",1.); hiPhiDistrEB_max_= ps.getUntrackedParameter<double>("hiPhiDistrEB_max",361.); // Distribution of rechits in iEta hiEtaDistrEB_nbin_= ps.getUntrackedParameter<int>("hiEtaDistrEB_nbin",171); hiEtaDistrEB_min_ = ps.getUntrackedParameter<double>("hiEtaDistrEB_min",-85); hiEtaDistrEB_max_ = ps.getUntrackedParameter<double>("hiEtaDistrEB_max",85); // Energy Distribution of rechits hRechitEnergyEB_nbin_=ps.getUntrackedParameter<int>("hRechitEnergyEB_nbin",160); hRechitEnergyEB_min_=ps.getUntrackedParameter<double>("hRechitEnergyEB_min",0.); hRechitEnergyEB_max_= ps.getUntrackedParameter<double>("hRechitEnergyEB_max",2.); // Distribution of total event energy hEventEnergyEB_nbin_= ps.getUntrackedParameter<int>("hEventEnergyEB_nbin",100); hEventEnergyEB_min_ = ps.getUntrackedParameter<double>("hEventEnergyEB_min",0.); hEventEnergyEB_max_ = ps.getUntrackedParameter<double>("hEventEnergyEB_max",20.); // Distribution of number of RecHits hNRecHitsEB_nbin_= ps.getUntrackedParameter<int>("hNRecHitsEB_nbin",100); hNRecHitsEB_min_ = ps.getUntrackedParameter<double>("hNRecHitsEB_min",0); hNRecHitsEB_max_ = ps.getUntrackedParameter<double>("hNRecHitsEB_max",250); // Distribution of Mean energy per rechit hMeanRecHitEnergyEB_nbin_= ps.getUntrackedParameter<int>("hMeanRecHitEnergyEB_nbin",50); hMeanRecHitEnergyEB_min_ = ps.getUntrackedParameter<int>("hMeanRecHitEnergyEB_min",0); hMeanRecHitEnergyEB_max_ = ps.getUntrackedParameter<int>("hMeanRecHitEnergyEB_max",2); // Energy Distribution of rechits hRechitEnergyEE_nbin_=ps.getUntrackedParameter<int>("hRechitEnergyEE_nbin",160); hRechitEnergyEE_min_ =ps.getUntrackedParameter<double>("hRechitEnergyEE_min",0.); hRechitEnergyEE_max_ =ps.getUntrackedParameter<double>("hRechitEnergyEE_max",3.); // Distribution of total event energy hEventEnergyEE_nbin_= ps.getUntrackedParameter<int>("hEventEnergyEE_nbin",100); hEventEnergyEE_min_ = ps.getUntrackedParameter<double>("hEventEnergyEE_min",0.); hEventEnergyEE_max_ = ps.getUntrackedParameter<double>("hEventEnergyEE_max",20.); // Distribution of number of RecHits hNRecHitsEE_nbin_= ps.getUntrackedParameter<int>("hNRecHitsEE_nbin",100); hNRecHitsEE_min_ = ps.getUntrackedParameter<double>("hNRecHitsEE_min",0); hNRecHitsEE_max_ = ps.getUntrackedParameter<double>("hNRecHitsEE_max",250); // Distribution of Mean energy per rechit hMeanRecHitEnergyEE_nbin_= ps.getUntrackedParameter<int>("hMeanRecHitEnergyEE_nbin",50); hMeanRecHitEnergyEE_min_ = ps.getUntrackedParameter<double>("hMeanRecHitEnergyEE_min",0); hMeanRecHitEnergyEE_max_ = ps.getUntrackedParameter<double>("hMeanRecHitEnergyEE_max",5); }
HLTAlCaMonEcalPhiSym::~HLTAlCaMonEcalPhiSym | ( | ) |
Definition at line 112 of file HLTAlCaMonEcalPhiSym.cc.
{}
void HLTAlCaMonEcalPhiSym::analyze | ( | const edm::Event & | e, |
const edm::EventSetup & | c | ||
) | [protected, virtual] |
Implements edm::EDAnalyzer.
Definition at line 217 of file HLTAlCaMonEcalPhiSym.cc.
References eventCounter_, MonitorElement::Fill(), edm::Event::getByLabel(), hEventEnergyEB_, hEventEnergyEE_, hiEtaDistrEB_, hiPhiDistrEB_, hMeanRecHitEnergyEB_, hMeanRecHitEnergyEE_, hNRecHitsEB_, hNRecHitsEE_, hRechitEnergyEB_, hRechitEnergyEE_, edm::HandleBase::isValid(), prescaleFactor_, productMonitoredEB_, and productMonitoredEE_.
{ if (eventCounter_% prescaleFactor_ ) return; eventCounter_++; edm::Handle<EcalRecHitCollection> rhEB; edm::Handle<EcalRecHitCollection> rhEE; iEvent.getByLabel(productMonitoredEB_, rhEB); iEvent.getByLabel(productMonitoredEE_, rhEE); EcalRecHitCollection::const_iterator itb; // fill EB histos if (rhEB.isValid()){ float etot =0; for(itb=rhEB->begin(); itb!=rhEB->end(); ++itb){ EBDetId id(itb->id()); hiPhiDistrEB_->Fill(id.iphi()); hiEtaDistrEB_->Fill(id.ieta()); hRechitEnergyEB_->Fill(itb->energy()); etot+= itb->energy(); } // Eb rechits hNRecHitsEB_->Fill(rhEB->size()); hMeanRecHitEnergyEB_->Fill(etot/rhEB->size()); hEventEnergyEB_->Fill(etot); } // if valid // fill EE histos EcalRecHitCollection::const_iterator ite; if (rhEE.isValid()){ float etot =0; for(ite=rhEE->begin(); ite!=rhEE->end(); ++ite){ EEDetId id(ite->id()); hRechitEnergyEE_->Fill(ite->energy()); etot+= ite->energy(); } // EE rechits hNRecHitsEE_->Fill(rhEE->size()); hMeanRecHitEnergyEE_->Fill(etot/rhEE->size()); hEventEnergyEE_->Fill(etot); } } //analyze
void HLTAlCaMonEcalPhiSym::beginJob | ( | void | ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 117 of file HLTAlCaMonEcalPhiSym.cc.
References DQMStore::book1D(), dbe_, folderName_, hEventEnergyEB_, hEventEnergyEB_max_, hEventEnergyEB_min_, hEventEnergyEB_nbin_, hEventEnergyEE_, hEventEnergyEE_max_, hEventEnergyEE_min_, hEventEnergyEE_nbin_, hiEtaDistrEB_, hiEtaDistrEB_max_, hiEtaDistrEB_min_, hiEtaDistrEB_nbin_, hiPhiDistrEB_, hiPhiDistrEB_max_, hiPhiDistrEB_min_, hiPhiDistrEB_nbin_, hMeanRecHitEnergyEB_, hMeanRecHitEnergyEB_max_, hMeanRecHitEnergyEB_min_, hMeanRecHitEnergyEB_nbin_, hMeanRecHitEnergyEE_, hMeanRecHitEnergyEE_max_, hMeanRecHitEnergyEE_min_, hMeanRecHitEnergyEE_nbin_, hNRecHitsEB_, hNRecHitsEB_max_, hNRecHitsEB_min_, hNRecHitsEB_nbin_, hNRecHitsEE_, hNRecHitsEE_max_, hNRecHitsEE_min_, hNRecHitsEE_nbin_, hRechitEnergyEB_, hRechitEnergyEB_max_, hRechitEnergyEB_min_, hRechitEnergyEB_nbin_, hRechitEnergyEE_, hRechitEnergyEE_max_, hRechitEnergyEE_min_, hRechitEnergyEE_nbin_, MonitorElement::setAxisTitle(), and DQMStore::setCurrentFolder().
{ // create and cd into new folder dbe_->setCurrentFolder(folderName_); // book some histograms 1D hiPhiDistrEB_ = dbe_->book1D("iphiDistributionEB", "RechitEB iphi", hiPhiDistrEB_nbin_, hiPhiDistrEB_min_, hiPhiDistrEB_max_); hiPhiDistrEB_->setAxisTitle("i#phi ", 1); hiPhiDistrEB_->setAxisTitle("# rechits", 2); hiEtaDistrEB_ = dbe_->book1D("iEtaDistributionEB", "RechitEB ieta", hiEtaDistrEB_nbin_, hiEtaDistrEB_min_, hiEtaDistrEB_max_ ); hiEtaDistrEB_->setAxisTitle("eta", 1); hiEtaDistrEB_->setAxisTitle("#rechits", 2); hRechitEnergyEB_ = dbe_->book1D("rhEnergyEB","rechits energy EB", hRechitEnergyEB_nbin_, hRechitEnergyEB_min_, hRechitEnergyEB_max_); hRechitEnergyEB_->setAxisTitle("energy (GeV) ",1); hRechitEnergyEB_->setAxisTitle("#rechits",2); hEventEnergyEB_ = dbe_->book1D("eventEnergyEB","event energy EB", hEventEnergyEB_nbin_, hEventEnergyEB_min_, hEventEnergyEB_max_); hEventEnergyEB_->setAxisTitle("energy (GeV) ",1); hNRecHitsEB_ = dbe_->book1D("nRechitsEB","#rechits in event EB", hNRecHitsEB_nbin_, hNRecHitsEB_min_, hNRecHitsEB_max_); hNRecHitsEB_->setAxisTitle("rechits ",1); hMeanRecHitEnergyEB_ = dbe_->book1D("meanEnergyEB","Mean rechit energy EB", hMeanRecHitEnergyEB_nbin_, hMeanRecHitEnergyEB_min_, hMeanRecHitEnergyEB_max_); hMeanRecHitEnergyEB_-> setAxisTitle("Mean Energy [GeV] ",1); hRechitEnergyEE_ = dbe_->book1D("rhEnergyEE","rechits energy EE", hRechitEnergyEE_nbin_ , hRechitEnergyEE_min_ , hRechitEnergyEE_max_ ); hRechitEnergyEE_->setAxisTitle("energy (GeV) ",1); hRechitEnergyEE_->setAxisTitle("#rechits",2); hEventEnergyEE_ = dbe_->book1D("eventEnergyEE","event energy EE", hEventEnergyEE_nbin_, hEventEnergyEE_min_, hEventEnergyEE_max_); hEventEnergyEE_->setAxisTitle("energy (GeV) ",1); hNRecHitsEE_ = dbe_->book1D("nRechitsEE","#rechits in event EE" , hNRecHitsEE_nbin_, hNRecHitsEE_min_, hNRecHitsEE_max_); hNRecHitsEE_->setAxisTitle("rechits ",1); hMeanRecHitEnergyEE_ = dbe_->book1D("meanEnergyEE","Mean rechit energy EE", hMeanRecHitEnergyEE_nbin_ , hMeanRecHitEnergyEE_min_ , hMeanRecHitEnergyEE_max_ ); hMeanRecHitEnergyEE_-> setAxisTitle("Mean Energy [GeV] ",1); }
void HLTAlCaMonEcalPhiSym::beginLuminosityBlock | ( | const edm::LuminosityBlock & | lumiSeg, |
const edm::EventSetup & | context | ||
) | [protected, virtual] |
void HLTAlCaMonEcalPhiSym::beginRun | ( | const edm::Run & | r, |
const edm::EventSetup & | c | ||
) | [protected, virtual] |
void HLTAlCaMonEcalPhiSym::endJob | ( | void | ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 285 of file HLTAlCaMonEcalPhiSym.cc.
References dbe_, fileName_, DQMStore::save(), and saveToFile_.
{ if (saveToFile_) { dbe_->save(fileName_); } }
void HLTAlCaMonEcalPhiSym::endLuminosityBlock | ( | const edm::LuminosityBlock & | lumiSeg, |
const edm::EventSetup & | c | ||
) | [protected, virtual] |
void HLTAlCaMonEcalPhiSym::endRun | ( | const edm::Run & | r, |
const edm::EventSetup & | c | ||
) | [protected, virtual] |
DQMStore* HLTAlCaMonEcalPhiSym::dbe_ [private] |
Definition at line 50 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), endJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::eventCounter_ [private] |
Definition at line 51 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze().
std::string HLTAlCaMonEcalPhiSym::fileName_ [private] |
Output file name if required.
Definition at line 131 of file HLTAlCaMonEcalPhiSym.h.
Referenced by endJob(), and HLTAlCaMonEcalPhiSym().
std::string HLTAlCaMonEcalPhiSym::folderName_ [private] |
DQM folder name.
Definition at line 125 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Distribution of total event energy.
Definition at line 73 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hEventEnergyEB_max_ [private] |
Definition at line 76 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hEventEnergyEB_min_ [private] |
Definition at line 75 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hEventEnergyEB_nbin_ [private] |
Definition at line 74 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Distribution of total event energy.
Definition at line 97 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hEventEnergyEE_max_ [private] |
Definition at line 100 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hEventEnergyEE_min_ [private] |
Definition at line 99 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hEventEnergyEE_nbin_ [private] |
Definition at line 98 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Distribution of rechits in iEta.
Definition at line 61 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hiEtaDistrEB_max_ [private] |
Definition at line 64 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hiEtaDistrEB_min_ [private] |
Definition at line 63 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hiEtaDistrEB_nbin_ [private] |
Definition at line 62 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Distribution of rechits in iPhi.
Definition at line 55 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hiPhiDistrEB_max_ [private] |
Definition at line 58 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hiPhiDistrEB_min_ [private] |
Definition at line 57 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hiPhiDistrEB_nbin_ [private] |
Definition at line 56 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Distribution of Mean energy per rechit.
Definition at line 85 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hMeanRecHitEnergyEB_max_ [private] |
Definition at line 88 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hMeanRecHitEnergyEB_min_ [private] |
Definition at line 87 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hMeanRecHitEnergyEB_nbin_ [private] |
Definition at line 86 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Distribution of Mean energy per rechit.
Definition at line 109 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hMeanRecHitEnergyEE_max_ [private] |
Definition at line 112 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hMeanRecHitEnergyEE_min_ [private] |
Definition at line 111 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hMeanRecHitEnergyEE_nbin_ [private] |
Definition at line 110 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
MonitorElement* HLTAlCaMonEcalPhiSym::hNRecHitsEB_ [private] |
Distribution of number of RecHits.
Definition at line 79 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hNRecHitsEB_max_ [private] |
Definition at line 82 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hNRecHitsEB_min_ [private] |
Definition at line 81 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hNRecHitsEB_nbin_ [private] |
Definition at line 80 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
MonitorElement* HLTAlCaMonEcalPhiSym::hNRecHitsEE_ [private] |
Distribution of number of RecHits.
Definition at line 103 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hNRecHitsEE_max_ [private] |
Definition at line 106 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hNRecHitsEE_min_ [private] |
Definition at line 105 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hNRecHitsEE_nbin_ [private] |
Definition at line 104 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Energy Distribution of rechits.
Definition at line 67 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hRechitEnergyEB_max_ [private] |
Definition at line 70 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hRechitEnergyEB_min_ [private] |
Definition at line 69 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hRechitEnergyEB_nbin_ [private] |
Definition at line 68 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
Energy Distribution of rechits.
Definition at line 91 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and beginJob().
double HLTAlCaMonEcalPhiSym::hRechitEnergyEE_max_ [private] |
Definition at line 94 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
double HLTAlCaMonEcalPhiSym::hRechitEnergyEE_min_ [private] |
Definition at line 93 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
int HLTAlCaMonEcalPhiSym::hRechitEnergyEE_nbin_ [private] |
Definition at line 92 of file HLTAlCaMonEcalPhiSym.h.
Referenced by beginJob(), and HLTAlCaMonEcalPhiSym().
unsigned int HLTAlCaMonEcalPhiSym::prescaleFactor_ [private] |
Monitor every prescaleFactor_ events.
Definition at line 122 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and HLTAlCaMonEcalPhiSym().
object to monitor
Definition at line 115 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and HLTAlCaMonEcalPhiSym().
object to monitor
Definition at line 118 of file HLTAlCaMonEcalPhiSym.h.
Referenced by analyze(), and HLTAlCaMonEcalPhiSym().
bool HLTAlCaMonEcalPhiSym::saveToFile_ [private] |
Write to file.
Definition at line 128 of file HLTAlCaMonEcalPhiSym.h.
Referenced by endJob(), and HLTAlCaMonEcalPhiSym().