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OccupancyTask.cc
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OccupancyTask.cc
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#include "DQM/EcalMonitorTasks/interface/OccupancyTask.h"
#include "FWCore/Framework/interface/Event.h"
#include "DQM/EcalCommon/interface/EcalDQMCommonUtils.h"
#include "DataFormats/EcalRawData/interface/EcalDCCHeaderBlock.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
namespace ecaldqm {
OccupancyTask::OccupancyTask() : DQWorkerTask(), recHitThreshold_(0.), tpThreshold_(0.), m_iTime(0.) {}
void OccupancyTask::setParams(edm::ParameterSet const& _params) {
recHitThreshold_ = _params.getUntrackedParameter<double>("recHitThreshold");
tpThreshold_ = _params.getUntrackedParameter<double>("tpThreshold");
}
void OccupancyTask::setTokens(edm::ConsumesCollector& _collector) { lasertoken_ = _collector.esConsumes(); }
bool OccupancyTask::filterRunType(short const* _runType) {
for (int iFED(0); iFED < 54; iFED++) {
if (_runType[iFED] == EcalDCCHeaderBlock::COSMIC || _runType[iFED] == EcalDCCHeaderBlock::MTCC ||
_runType[iFED] == EcalDCCHeaderBlock::COSMICS_GLOBAL ||
_runType[iFED] == EcalDCCHeaderBlock::PHYSICS_GLOBAL || _runType[iFED] == EcalDCCHeaderBlock::COSMICS_LOCAL ||
_runType[iFED] == EcalDCCHeaderBlock::PHYSICS_LOCAL)
return true;
}
return false;
}
void OccupancyTask::beginRun(edm::Run const&, edm::EventSetup const& _es) { FillLaser = true; }
void OccupancyTask::beginEvent(edm::Event const& _evt,
edm::EventSetup const& _es,
bool const& ByLumiResetSwitch,
bool&) {
if (ByLumiResetSwitch) {
MEs_.at("DigiAllByLumi").reset(GetElectronicsMap());
MEs_.at("TPDigiThrAllByLumi").reset(GetElectronicsMap());
MEs_.at("RecHitThrAllByLumi").reset(GetElectronicsMap());
}
MESet& meLaserCorrProjEta(MEs_.at("LaserCorrProjEta"));
m_iTime = _evt.time().value();
if (FillLaser) {
float lasercalib = 1.;
auto const& laser = &_es.getData(lasertoken_);
const edm::Timestamp& evtTimeStamp = edm::Timestamp(m_iTime);
for (int i = 0; i < EBDetId::kSizeForDenseIndexing; i++) {
if (!EBDetId::validDenseIndex(i))
continue;
EBDetId ebid(EBDetId::unhashIndex(i));
lasercalib = laser->getLaserCorrection(ebid, evtTimeStamp);
meLaserCorrProjEta.fill(getEcalDQMSetupObjects(), ebid, lasercalib);
}
for (int i = 0; i < EEDetId::kSizeForDenseIndexing; i++) {
if (!EEDetId::validDenseIndex(i))
continue;
EEDetId eeid(EEDetId::unhashIndex(i));
lasercalib = laser->getLaserCorrection(eeid, evtTimeStamp);
meLaserCorrProjEta.fill(getEcalDQMSetupObjects(), eeid, lasercalib);
}
FillLaser = false;
}
}
void OccupancyTask::runOnRawData(EcalRawDataCollection const& _dcchs) {
MESet& meDCC(MEs_.at("DCC"));
for (EcalRawDataCollection::const_iterator dcchItr(_dcchs.begin()); dcchItr != _dcchs.end(); ++dcchItr)
meDCC.fill(getEcalDQMSetupObjects(), dcchItr->id());
}
template <typename DigiCollection>
void OccupancyTask::runOnDigis(DigiCollection const& _digis, Collections _collection) {
MESet& meDigi(MEs_.at("Digi"));
MESet& meDigiProjEta(MEs_.at("DigiProjEta"));
MESet& meDigiProjPhi(MEs_.at("DigiProjPhi"));
MESet& meDigiAll(MEs_.at("DigiAll"));
MESet& meDigiAllByLumi(MEs_.at("DigiAllByLumi"));
MESet& meDigiDCC(MEs_.at("DigiDCC"));
MESet& meDigi1D(MEs_.at("Digi1D"));
MESet& meTrendNDigi(MEs_.at("TrendNDigi"));
std::for_each(_digis.begin(), _digis.end(), [&](typename DigiCollection::Digi const& digi) {
DetId id(digi.id());
meDigi.fill(getEcalDQMSetupObjects(), id);
meDigiProjEta.fill(getEcalDQMSetupObjects(), id);
meDigiProjPhi.fill(getEcalDQMSetupObjects(), id);
meDigiAll.fill(getEcalDQMSetupObjects(), id);
meDigiAllByLumi.fill(getEcalDQMSetupObjects(), id);
meDigiDCC.fill(getEcalDQMSetupObjects(), id);
});
int iSubdet(_collection == kEBDigi ? EcalBarrel : EcalEndcap);
meDigi1D.fill(getEcalDQMSetupObjects(), iSubdet, double(_digis.size()));
meTrendNDigi.fill(getEcalDQMSetupObjects(), iSubdet, double(timestamp_.iLumi), double(_digis.size()));
}
void OccupancyTask::runOnTPDigis(EcalTrigPrimDigiCollection const& _digis) {
// MESet& meTPDigiAll(MEs_.at("TPDigiAll"));
// MESet& meTPDigiProjEta(MEs_.at("TPDigiProjEta"));
// MESet& meTPDigiProjPhi(MEs_.at("TPDigiProjPhi"));
MESet& meTPDigiRCT(MEs_.at("TPDigiRCT"));
MESet& meTPDigiThrAll(MEs_.at("TPDigiThrAll"));
MESet& meTPDigiThrAllByLumi(MEs_.at("TPDigiThrAllByLumi"));
MESet& meTPDigiThrProjEta(MEs_.at("TPDigiThrProjEta"));
MESet& meTPDigiThrProjPhi(MEs_.at("TPDigiThrProjPhi"));
MESet& meTrendNTPDigi(MEs_.at("TrendNTPDigi"));
double nFilteredEB(0.);
double nFilteredEE(0.);
std::for_each(_digis.begin(), _digis.end(), [&](EcalTrigPrimDigiCollection::value_type const& digi) {
EcalTrigTowerDetId const& id(digi.id());
// meTPDigiProjEta.fill(id);
// meTPDigiProjPhi.fill(id);
// meTPDigiAll.fill(id);
if (digi.compressedEt() > tpThreshold_) {
meTPDigiThrProjEta.fill(getEcalDQMSetupObjects(), id);
meTPDigiThrProjPhi.fill(getEcalDQMSetupObjects(), id);
meTPDigiThrAll.fill(getEcalDQMSetupObjects(), id);
meTPDigiThrAllByLumi.fill(getEcalDQMSetupObjects(), id);
meTPDigiRCT.fill(getEcalDQMSetupObjects(), id);
if (id.subDet() == EcalBarrel)
nFilteredEB += 1.;
else
nFilteredEE += 1.;
}
});
meTrendNTPDigi.fill(getEcalDQMSetupObjects(), EcalBarrel, double(timestamp_.iLumi), nFilteredEB);
meTrendNTPDigi.fill(getEcalDQMSetupObjects(), EcalEndcap, double(timestamp_.iLumi), nFilteredEE);
}
void OccupancyTask::runOnRecHits(EcalRecHitCollection const& _hits, Collections _collection) {
MESet& meRecHitAll(MEs_.at("RecHitAll"));
MESet& meRecHitProjEta(MEs_.at("RecHitProjEta"));
MESet& meRecHitProjPhi(MEs_.at("RecHitProjPhi"));
MESet& meRecHitThrAll(MEs_.at("RecHitThrAll"));
MESet& meRecHitThrAllByLumi(MEs_.at("RecHitThrAllByLumi"));
MESet& meRecHitThrmvp(MEs_.at("RecHitThrmvp"));
MESet& meRecHitThrpm(MEs_.at("RecHitThrpm"));
MESet& meRecHitThrProjEta(MEs_.at("RecHitThrProjEta"));
MESet& meRecHitThrProjPhi(MEs_.at("RecHitThrProjPhi"));
MESet& meRecHitThr1D(MEs_.at("RecHitThr1D"));
MESet& meTrendNRecHitThr(MEs_.at("TrendNRecHitThr"));
uint32_t mask(~(0x1 << EcalRecHit::kGood));
double nFiltered(0.);
float nRHThrp(0), nRHThrm(0);
int iSubdet(_collection == kEBRecHit ? EcalBarrel : EcalEndcap);
std::for_each(_hits.begin(), _hits.end(), [&](EcalRecHitCollection::value_type const& hit) {
DetId id(hit.id());
meRecHitAll.fill(getEcalDQMSetupObjects(), id);
meRecHitProjEta.fill(getEcalDQMSetupObjects(), id);
meRecHitProjPhi.fill(getEcalDQMSetupObjects(), id);
if (!hit.checkFlagMask(mask) && hit.energy() > recHitThreshold_) {
meRecHitThrProjEta.fill(getEcalDQMSetupObjects(), id);
meRecHitThrProjPhi.fill(getEcalDQMSetupObjects(), id);
meRecHitThrAll.fill(getEcalDQMSetupObjects(), id);
meRecHitThrAllByLumi.fill(getEcalDQMSetupObjects(), id);
nFiltered += 1.;
bool isPlusFar(iSubdet == EcalBarrel ? (EBDetId(id).iphi() > 100 && EBDetId(id).iphi() < 280) : zside(id) > 0);
if (isPlusFar)
nRHThrp++;
else
nRHThrm++;
}
});
meRecHitThr1D.fill(getEcalDQMSetupObjects(), iSubdet, nFiltered);
meTrendNRecHitThr.fill(getEcalDQMSetupObjects(), iSubdet, double(timestamp_.iLumi), nFiltered);
meRecHitThrmvp.fill(getEcalDQMSetupObjects(), iSubdet, nRHThrp, nRHThrm);
meRecHitThrpm.fill(getEcalDQMSetupObjects(), iSubdet, nRHThrp - nRHThrm);
}
DEFINE_ECALDQM_WORKER(OccupancyTask);
} // namespace ecaldqm