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#ifndef L1TdeRCT_H
#define L1TdeRCT_H
// system include files
#include <memory>
#include <unistd.h>
#include <iostream>
#include <fstream>
#include <vector>
#include <bitset>
// user include files
#include "FWCore/Framework/interface/Frameworkfwd.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "FWCore/ServiceRegistry/interface/Service.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
// DQM
#include "DQMServices/Core/interface/DQMStore.h"
// GCT and RCT data formats
#include "DataFormats/L1CaloTrigger/interface/L1CaloCollections.h"
#include "CondFormats/L1TObjects/interface/L1GtTriggerMenu.h"
#include "CondFormats/DataRecord/interface/L1GtTriggerMenuRcd.h"
#include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutSetupFwd.h"
#include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutSetup.h"
#include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutRecord.h"
// TPGs
#include "DataFormats/EcalDigi/interface/EcalDigiCollections.h"
#include "DataFormats/HcalDigi/interface/HcalDigiCollections.h"
#include "DQMServices/Core/interface/DQMOneEDAnalyzer.h"
class RunInfoRcd;
class RunInfo;
// Trigger Headers
//
// class declaration
//
namespace l1tderct {
struct Empty {};
} // namespace l1tderct
class L1TdeRCT : public DQMOneEDAnalyzer<edm::LuminosityBlockCache<l1tderct::Empty>> {
public:
// Constructor
L1TdeRCT(const edm::ParameterSet& ps);
// Destructor
~L1TdeRCT() override;
protected:
// Analyze
void analyze(const edm::Event& e, const edm::EventSetup& c) override;
//For FED vector monitoring
void bookHistograms(DQMStore::IBooker& ibooker, const edm::Run&, const edm::EventSetup&) override;
std::shared_ptr<l1tderct::Empty> globalBeginLuminosityBlock(const edm::LuminosityBlock&,
const edm::EventSetup&) const override;
void globalEndLuminosityBlock(const edm::LuminosityBlock&, const edm::EventSetup&) final {}
void readFEDVector(MonitorElement*, const edm::EventSetup&, const bool isLumitransition = true) const;
private:
// ----------member data ---------------------------
// begin GT decision information
MonitorElement* triggerAlgoNumbers_;
// trigger type information
MonitorElement* triggerType_;
// begin region information
MonitorElement* rctRegDataOcc1D_;
MonitorElement* rctRegEmulOcc1D_;
MonitorElement* rctRegMatchedOcc1D_;
MonitorElement* rctRegUnmatchedDataOcc1D_;
MonitorElement* rctRegUnmatchedEmulOcc1D_;
MonitorElement* rctRegSpEffOcc1D_;
MonitorElement* rctRegSpIneffOcc1D_;
MonitorElement* rctRegEff1D_;
MonitorElement* rctRegIneff1D_;
MonitorElement* rctRegOvereff1D_;
MonitorElement* rctRegSpEff1D_;
MonitorElement* rctRegSpIneff1D_;
MonitorElement* rctRegDataOcc2D_;
MonitorElement* rctRegEmulOcc2D_;
MonitorElement* rctRegMatchedOcc2D_;
MonitorElement* rctRegUnmatchedDataOcc2D_;
MonitorElement* rctRegUnmatchedEmulOcc2D_;
// MonitorElement *rctRegDeltaEt2D_;
MonitorElement* rctRegSpEffOcc2D_;
MonitorElement* rctRegSpIneffOcc2D_;
MonitorElement* rctRegEff2D_;
MonitorElement* rctRegIneff2D_;
MonitorElement* rctRegOvereff2D_;
MonitorElement* rctRegSpEff2D_;
MonitorElement* rctRegSpIneff2D_;
MonitorElement* rctRegBitOn_;
MonitorElement* rctRegBitOff_;
MonitorElement* rctRegBitDiff_;
// end region information
// begin bit information
MonitorElement* rctBitEmulOverFlow2D_;
MonitorElement* rctBitDataOverFlow2D_;
MonitorElement* rctBitMatchedOverFlow2D_;
MonitorElement* rctBitUnmatchedEmulOverFlow2D_;
MonitorElement* rctBitUnmatchedDataOverFlow2D_;
MonitorElement* rctBitOverFlowEff2D_;
MonitorElement* rctBitOverFlowIneff2D_;
MonitorElement* rctBitOverFlowOvereff2D_;
MonitorElement* rctBitEmulTauVeto2D_;
MonitorElement* rctBitDataTauVeto2D_;
MonitorElement* rctBitMatchedTauVeto2D_;
MonitorElement* rctBitUnmatchedEmulTauVeto2D_;
MonitorElement* rctBitUnmatchedDataTauVeto2D_;
MonitorElement* rctBitTauVetoEff2D_;
MonitorElement* rctBitTauVetoIneff2D_;
MonitorElement* rctBitTauVetoOvereff2D_;
MonitorElement* rctBitEmulMip2D_;
MonitorElement* rctBitDataMip2D_;
MonitorElement* rctBitMatchedMip2D_;
MonitorElement* rctBitUnmatchedEmulMip2D_;
MonitorElement* rctBitUnmatchedDataMip2D_;
MonitorElement* rctBitMipEff2D_;
MonitorElement* rctBitMipIneff2D_;
MonitorElement* rctBitMipOvereff2D_;
MonitorElement* rctBitEmulQuiet2D_;
MonitorElement* rctBitDataQuiet2D_;
MonitorElement* rctBitMatchedQuiet2D_;
MonitorElement* rctBitUnmatchedEmulQuiet2D_;
MonitorElement* rctBitUnmatchedDataQuiet2D_;
// QUIETBIT: To add quiet bit information, uncomment following 3 lines:
// MonitorElement *rctBitQuietEff2D_;
// MonitorElement *rctBitQuietIneff2D_;
// MonitorElement *rctBitQuietOvereff2D_;
MonitorElement* rctBitEmulHfPlusTau2D_;
MonitorElement* rctBitDataHfPlusTau2D_;
MonitorElement* rctBitMatchedHfPlusTau2D_;
MonitorElement* rctBitUnmatchedEmulHfPlusTau2D_;
MonitorElement* rctBitUnmatchedDataHfPlusTau2D_;
MonitorElement* rctBitHfPlusTauEff2D_;
MonitorElement* rctBitHfPlusTauIneff2D_;
MonitorElement* rctBitHfPlusTauOvereff2D_;
// end bit information
MonitorElement* rctInputTPGEcalOcc_;
MonitorElement* rctInputTPGEcalOccNoCut_;
MonitorElement* rctInputTPGEcalRank_;
MonitorElement* rctInputTPGHcalOcc_;
MonitorElement* rctInputTPGHcalRank_;
MonitorElement* rctInputTPGHcalSample_;
MonitorElement* rctIsoEmDataOcc_;
MonitorElement* rctIsoEmEmulOcc_;
MonitorElement* rctIsoEmEff1Occ_;
MonitorElement* rctIsoEmEff2Occ_;
MonitorElement* rctIsoEmIneff2Occ_;
MonitorElement* rctIsoEmIneffOcc_;
MonitorElement* rctIsoEmOvereffOcc_;
MonitorElement* rctIsoEmEff1_;
MonitorElement* rctIsoEmEff2_;
MonitorElement* rctIsoEmIneff2_;
MonitorElement* rctIsoEmIneff_;
MonitorElement* rctIsoEmOvereff_;
MonitorElement* rctIsoEmDataOcc1D_;
MonitorElement* rctIsoEmEmulOcc1D_;
MonitorElement* rctIsoEmEff1Occ1D_;
MonitorElement* rctIsoEmEff2Occ1D_;
MonitorElement* rctIsoEmIneff2Occ1D_;
MonitorElement* rctIsoEmIneffOcc1D_;
MonitorElement* rctIsoEmOvereffOcc1D_;
MonitorElement* rctIsoEmEff1oneD_;
MonitorElement* rctIsoEmEff2oneD_;
MonitorElement* rctIsoEmIneff2oneD_;
MonitorElement* rctIsoEmIneff1D_;
MonitorElement* rctIsoEmOvereff1D_;
MonitorElement* rctIsoEmBitOn_;
MonitorElement* rctIsoEmBitOff_;
MonitorElement* rctIsoEmBitDiff_;
MonitorElement* rctNisoEmDataOcc_;
MonitorElement* rctNisoEmEmulOcc_;
MonitorElement* rctNisoEmEff1Occ_;
MonitorElement* rctNisoEmEff2Occ_;
MonitorElement* rctNisoEmIneff2Occ_;
MonitorElement* rctNisoEmIneffOcc_;
MonitorElement* rctNisoEmOvereffOcc_;
MonitorElement* rctNisoEmEff1_;
MonitorElement* rctNisoEmEff2_;
MonitorElement* rctNisoEmIneff2_;
MonitorElement* rctNisoEmIneff_;
MonitorElement* rctNisoEmOvereff_;
MonitorElement* rctNisoEmDataOcc1D_;
MonitorElement* rctNisoEmEmulOcc1D_;
MonitorElement* rctNisoEmEff1Occ1D_;
MonitorElement* rctNisoEmEff2Occ1D_;
MonitorElement* rctNisoEmIneff2Occ1D_;
MonitorElement* rctNisoEmIneffOcc1D_;
MonitorElement* rctNisoEmOvereffOcc1D_;
MonitorElement* rctNisoEmEff1oneD_;
MonitorElement* rctNisoEmEff2oneD_;
MonitorElement* rctNisoEmIneff2oneD_;
MonitorElement* rctNisoEmIneff1D_;
MonitorElement* rctNisoEmOvereff1D_;
MonitorElement* rctNIsoEmBitOn_;
MonitorElement* rctNIsoEmBitOff_;
MonitorElement* rctNIsoEmBitDiff_;
MonitorElement* rctIsoEffChannel_[396];
MonitorElement* rctIsoIneffChannel_[396];
MonitorElement* rctIsoOvereffChannel_[396];
MonitorElement* rctNisoEffChannel_[396];
MonitorElement* rctNisoIneffChannel_[396];
MonitorElement* rctNisoOvereffChannel_[396];
// begin region channel information
MonitorElement* rctRegEffChannel_[396];
MonitorElement* rctRegIneffChannel_[396];
MonitorElement* rctRegOvereffChannel_[396];
//efficiency
MonitorElement* trigEffThresh_;
MonitorElement* trigEffThreshOcc_;
MonitorElement* trigEffTriggThreshOcc_;
MonitorElement* trigEff_[396];
MonitorElement* trigEffOcc_[396];
MonitorElement* trigEffTriggOcc_[396];
// end region channel information
//begin fed vector information
static const int crateFED[108];
MonitorElement* fedVectorMonitorRUN_;
MonitorElement* fedVectorMonitorLS_;
///////////////////////////////
int nev_; // Number of events processed
std::string histFolder_; // base dqm folder
bool verbose_;
bool singlechannelhistos_;
bool perLSsaving_; //to avoid nanoDQMIO crashing, driven by DQMServices/Core/python/DQMStore_cfi.py
edm::EDGetTokenT<L1CaloRegionCollection> rctSourceEmul_rgnEmul_;
edm::EDGetTokenT<L1CaloEmCollection> rctSourceEmul_emEmul_;
edm::EDGetTokenT<L1CaloRegionCollection> rctSourceData_rgnData_;
edm::EDGetTokenT<L1CaloEmCollection> rctSourceData_emData_;
edm::EDGetTokenT<L1CaloRegionCollection> gctSourceData_rgnData_;
edm::EDGetTokenT<L1CaloEmCollection> gctSourceData_emData_;
edm::EDGetTokenT<EcalTrigPrimDigiCollection> ecalTPGData_;
edm::EDGetTokenT<HcalTrigPrimDigiCollection> hcalTPGData_;
edm::EDGetTokenT<L1GlobalTriggerReadoutRecord> gtDigisLabel_;
edm::ESGetToken<RunInfo, RunInfoRcd> runInfoToken_;
edm::ESGetToken<RunInfo, RunInfoRcd> runInfolumiToken_;
std::string gtEGAlgoName_; // name of algo to determine EG trigger threshold
int doubleThreshold_; // value of ET at which to make 2-D eff plot
/// filter TriggerType
int filterTriggerType_;
int selectBX_;
std::string dataInputTagName_;
int trigCount, notrigCount;
protected:
void DivideME1D(MonitorElement* numerator, MonitorElement* denominator, MonitorElement* result);
void DivideME2D(MonitorElement* numerator, MonitorElement* denominator, MonitorElement* result);
};
#endif
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