#include <L1TdeCSCTPG.h>

Inheritance diagram for L1TdeCSCTPG:

Public Member Functions
	L1TdeCSCTPG (const edm::ParameterSet &ps)

	~L1TdeCSCTPG () override

Public Member Functions inherited from DQMEDAnalyzer
void	accumulate (edm::Event const &event, edm::EventSetup const &setup) final

void	beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final

void	beginRun (edm::Run const &run, edm::EventSetup const &setup) final

void	beginStream (edm::StreamID id) final

virtual void	dqmBeginRun (edm::Run const &, edm::EventSetup const &)

	DQMEDAnalyzer ()

void	endLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final

void	endRun (edm::Run const &run, edm::EventSetup const &setup) final

virtual bool	getCanSaveByLumi ()

Public Member Functions inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
	EDProducer ()=default

	EDProducer (const EDProducer &)=delete

bool	hasAbilityToProduceInBeginLumis () const final

bool	hasAbilityToProduceInBeginProcessBlocks () const final

bool	hasAbilityToProduceInBeginRuns () const final

bool	hasAbilityToProduceInEndLumis () const final

bool	hasAbilityToProduceInEndProcessBlocks () const final

bool	hasAbilityToProduceInEndRuns () const final

const EDProducer &	operator= (const EDProducer &)=delete

Protected Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override

void	bookHistograms (DQMStore::IBooker &, const edm::Run &, const edm::EventSetup &) override

Protected Member Functions inherited from DQMEDAnalyzer
uint64_t	meId () const

Private Member Functions
bool	areSameCLCTs (const CSCCLCTDigi &lhs, const CSCCLCTDigi &rhs) const

bool	areSameLCTs (const CSCCorrelatedLCTDigi &lhs, const CSCCorrelatedLCTDigi &rhs) const

Private Attributes
MonitorElement *	alctDataSummary_denom_

MonitorElement *	alctDataSummary_num_

MonitorElement *	alctEmulSummary_denom_

MonitorElement *	alctEmulSummary_num_

std::vector< double >	alctMaxBin_

std::vector< double >	alctMinBin_

std::vector< unsigned >	alctNBin_

std::vector< std::string >	alctVars_

std::map< uint32_t, std::map< std::string, MonitorElement * > >	chamberHistos

std::vector< std::string >	chambers_

MonitorElement *	clctDataSummary_denom_

MonitorElement *	clctDataSummary_num_

MonitorElement *	clctEmulSummary_denom_

MonitorElement *	clctEmulSummary_num_

std::vector< double >	clctMaxBin_

std::vector< double >	clctMinBin_

std::vector< unsigned >	clctNBin_

std::vector< std::string >	clctVars_

edm::EDGetTokenT< CSCALCTDigiCollection >	dataALCT_token_

edm::EDGetTokenT< CSCCLCTDigiCollection >	dataCLCT_token_

std::vector< std::string >	dataEmul_

edm::EDGetTokenT< CSCCorrelatedLCTDigiCollection >	dataLCT_token_

edm::EDGetTokenT< CSCALCTDigiCollection >	emulALCT_token_

edm::EDGetTokenT< CSCCLCTDigiCollection >	emulCLCT_token_

edm::EDGetTokenT< CSCCorrelatedLCTDigiCollection >	emulLCT_token_

edm::EDGetTokenT< CSCCLCTPreTriggerDigiCollection >	emulpreCLCT_token_

bool	isRun3_

MonitorElement *	lctDataSummary_denom_

MonitorElement *	lctDataSummary_num_

MonitorElement *	lctEmulSummary_denom_

MonitorElement *	lctEmulSummary_num_

std::vector< double >	lctMaxBin_

std::vector< double >	lctMinBin_

std::vector< unsigned >	lctNBin_

std::vector< std::string >	lctVars_

bool	make1DPlots_

std::string	monitorDir_

bool	preTriggerAnalysis_

bool	useB904_

bool	useB904ME11_

bool	useB904ME21_

bool	useB904ME234s2_

Additional Inherited Members
Public Types inherited from DQMEDAnalyzer
typedef dqm::reco::DQMStore	DQMStore

typedef dqm::reco::MonitorElement	MonitorElement

Public Types inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
using	CacheTypes = CacheContexts< T... >

using	GlobalCache = typename CacheTypes::GlobalCache

using	HasAbility = AbilityChecker< T... >

using	InputProcessBlockCache = typename CacheTypes::InputProcessBlockCache

using	LuminosityBlockCache = typename CacheTypes::LuminosityBlockCache

using	LuminosityBlockContext = LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >

using	LuminosityBlockSummaryCache = typename CacheTypes::LuminosityBlockSummaryCache

using	RunCache = typename CacheTypes::RunCache

using	RunContext = RunContextT< RunCache, GlobalCache >

using	RunSummaryCache = typename CacheTypes::RunSummaryCache

Static Public Member Functions inherited from DQMEDAnalyzer
static void	globalEndJob (DQMEDAnalyzerGlobalCache const *)

static void	globalEndLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup, LuminosityBlockContext const *context)

static void	globalEndRunProduce (edm::Run &run, edm::EventSetup const &setup, RunContext const *context)

static std::unique_ptr< DQMEDAnalyzerGlobalCache >	initializeGlobalCache (edm::ParameterSet const &)

Protected Attributes inherited from DQMEDAnalyzer
edm::EDPutTokenT< DQMToken >	lumiToken_

edm::EDPutTokenT< DQMToken >	runToken_

unsigned int	streamId_

Detailed Description

Definition at line 16 of file L1TdeCSCTPG.h.

Constructor & Destructor Documentation

◆ L1TdeCSCTPG()

L1TdeCSCTPG::L1TdeCSCTPG ( const edm::ParameterSet & ps )

Definition at line 6 of file L1TdeCSCTPG.cc.

References or, useB904_, useB904ME11_, useB904ME21_, and useB904ME234s2_.

     : dataALCT_token_(consumes<CSCALCTDigiCollection>(ps.getParameter<edm::InputTag>("dataALCT"))),
       emulALCT_token_(consumes<CSCALCTDigiCollection>(ps.getParameter<edm::InputTag>("emulALCT"))),
       dataCLCT_token_(consumes<CSCCLCTDigiCollection>(ps.getParameter<edm::InputTag>("dataCLCT"))),
       emulCLCT_token_(consumes<CSCCLCTDigiCollection>(ps.getParameter<edm::InputTag>("emulCLCT"))),
       emulpreCLCT_token_(consumes<CSCCLCTPreTriggerDigiCollection>(ps.getParameter<edm::InputTag>("emulpreCLCT"))),
       dataLCT_token_(consumes<CSCCorrelatedLCTDigiCollection>(ps.getParameter<edm::InputTag>("dataLCT"))),
       emulLCT_token_(consumes<CSCCorrelatedLCTDigiCollection>(ps.getParameter<edm::InputTag>("emulLCT"))),
       monitorDir_(ps.getParameter<std::string>("monitorDir")),
 
       chambers_(ps.getParameter<std::vector<std::string>>("chambers")),
       dataEmul_(ps.getParameter<std::vector<std::string>>("dataEmul")),
 
       // variables
       alctVars_(ps.getParameter<std::vector<std::string>>("alctVars")),
       clctVars_(ps.getParameter<std::vector<std::string>>("clctVars")),
       lctVars_(ps.getParameter<std::vector<std::string>>("lctVars")),
 
       // binning
       alctNBin_(ps.getParameter<std::vector<unsigned>>("alctNBin")),
       clctNBin_(ps.getParameter<std::vector<unsigned>>("clctNBin")),
       lctNBin_(ps.getParameter<std::vector<unsigned>>("lctNBin")),
       alctMinBin_(ps.getParameter<std::vector<double>>("alctMinBin")),
       clctMinBin_(ps.getParameter<std::vector<double>>("clctMinBin")),
       lctMinBin_(ps.getParameter<std::vector<double>>("lctMinBin")),
       alctMaxBin_(ps.getParameter<std::vector<double>>("alctMaxBin")),
       clctMaxBin_(ps.getParameter<std::vector<double>>("clctMaxBin")),
       lctMaxBin_(ps.getParameter<std::vector<double>>("lctMaxBin")),
       // options for test stands at B904
       useB904ME11_(ps.getParameter<bool>("useB904ME11")),
       useB904ME21_(ps.getParameter<bool>("useB904ME21")),
       useB904ME234s2_(ps.getParameter<bool>("useB904ME234s2")),
       isRun3_(ps.getParameter<bool>("isRun3")),
       make1DPlots_(ps.getParameter<bool>("make1DPlots")),
       preTriggerAnalysis_(ps.getParameter<bool>("preTriggerAnalysis")) {
   useB904_ = useB904ME11_ or useB904ME21_ or useB904ME234s2_;
 }

◆ ~L1TdeCSCTPG()

L1TdeCSCTPG::~L1TdeCSCTPG ( )

override

Definition at line 44 of file L1TdeCSCTPG.cc.

44 {}

Member Function Documentation

◆ analyze()

void L1TdeCSCTPG::analyze	(	const edm::Event &	e,
		const edm::EventSetup &	c
	)

overrideprotectedvirtual

Reimplemented from DQMEDAnalyzer.

Definition at line 198 of file L1TdeCSCTPG.cc.

                                                                    {
   // handles
   edm::Handle<CSCALCTDigiCollection> dataALCTs;
   edm::Handle<CSCALCTDigiCollection> emulALCTs;
   edm::Handle<CSCCLCTDigiCollection> dataCLCTs;
   edm::Handle<CSCCLCTDigiCollection> emulCLCTs;
   edm::Handle<CSCCLCTPreTriggerDigiCollection> emulpreCLCTs;
   edm::Handle<CSCCorrelatedLCTDigiCollection> dataLCTs;
   edm::Handle<CSCCorrelatedLCTDigiCollection> emulLCTs;
 
   e.getByToken(dataALCT_token_, dataALCTs);
   e.getByToken(emulALCT_token_, emulALCTs);
   e.getByToken(dataCLCT_token_, dataCLCTs);
   e.getByToken(emulCLCT_token_, emulCLCTs);
   e.getByToken(dataLCT_token_, dataLCTs);
   e.getByToken(emulLCT_token_, emulLCTs);
   // only do pre-trigger analysis when B904 setup is used
   if (useB904_)
     e.getByToken(emulpreCLCT_token_, emulpreCLCTs);
 
   // 1D plots for experts
   if (useB904ME11_ or useB904ME21_ or useB904ME234s2_ or make1DPlots_) {
     for (auto it = dataALCTs->begin(); it != dataALCTs->end(); it++) {
       auto range = dataALCTs->get((*it).first);
       const CSCDetId& detid((*it).first);
       int type = ((*it).first).iChamberType() - 2;
       // ignore non-ME1/1 chambers when using B904 test-stand data
       if (useB904ME11_ and !(detid.isME11()))
         continue;
       if (useB904ME21_ and !(detid.isME21()))
         continue;
       if (useB904ME234s2_ and !(detid.isME22() or detid.isME32() or detid.isME42()))
         continue;
       // to prevent crashes because you are booking histos for single b904 chamber
       if (useB904ME234s2_ or useB904ME21_)
         type = 0;
       for (auto alct = range.first; alct != range.second; alct++) {
         if (alct->isValid()) {
           chamberHistos[type]["alct_quality_data"]->Fill(alct->getQuality());
           chamberHistos[type]["alct_wiregroup_data"]->Fill(alct->getKeyWG());
           chamberHistos[type]["alct_bx_data"]->Fill(alct->getBX());
         }
       }
     }
 
     for (auto it = emulALCTs->begin(); it != emulALCTs->end(); it++) {
       auto range = emulALCTs->get((*it).first);
       const CSCDetId& detid((*it).first);
       int type = ((*it).first).iChamberType() - 2;
       // ignore non-ME1/1 chambers when using B904 test-stand data
       if (useB904ME11_ and !(detid.isME11()))
         continue;
       if (useB904ME21_ and !(detid.isME21()))
         continue;
       if (useB904ME234s2_ and !(detid.isME22() or detid.isME32() or detid.isME42()))
         continue;
       // to prevent crashes because you are booking histos for single b904 chamber
       if (useB904ME234s2_ or useB904ME21_)
         type = 0;
       for (auto alct = range.first; alct != range.second; alct++) {
         if (alct->isValid()) {
           chamberHistos[type]["alct_quality_emul"]->Fill(alct->getQuality());
           chamberHistos[type]["alct_wiregroup_emul"]->Fill(alct->getKeyWG());
           chamberHistos[type]["alct_bx_emul"]->Fill(alct->getBX());
         }
       }
     }
 
     // temporary containers for B904 analysis
     std::vector<CSCCLCTDigi> tempdata;
     std::vector<CSCCLCTDigi> tempemul;
 
     for (auto it = dataCLCTs->begin(); it != dataCLCTs->end(); it++) {
       auto range = dataCLCTs->get((*it).first);
       const CSCDetId& detid((*it).first);
       int type = ((*it).first).iChamberType() - 2;
       // ignore non-ME1/1 chambers when using B904 test-stand data
       if (useB904ME11_ and !(detid.isME11()))
         continue;
       if (useB904ME21_ and !(detid.isME21()))
         continue;
       if (useB904ME234s2_ and !(detid.isME22() or detid.isME32() or detid.isME42()))
         continue;
       // to prevent crashes because you are booking histos for single b904 chamber
       if (useB904ME234s2_ or useB904ME21_)
         type = 0;
       for (auto clct = range.first; clct != range.second; clct++) {
         if (clct->isValid()) {
           if (preTriggerAnalysis_) {
             tempdata.push_back(*clct);
           }
           chamberHistos[type]["clct_pattern_data"]->Fill(clct->getPattern());
           chamberHistos[type]["clct_quality_data"]->Fill(clct->getQuality());
           chamberHistos[type]["clct_halfstrip_data"]->Fill(clct->getKeyStrip());
           chamberHistos[type]["clct_bend_data"]->Fill(clct->getBend());
           if (isRun3_) {
             chamberHistos[type]["clct_run3pattern_data"]->Fill(clct->getRun3Pattern());
             chamberHistos[type]["clct_quartstrip_data"]->Fill(clct->getKeyStrip(4));
             chamberHistos[type]["clct_eighthstrip_data"]->Fill(clct->getKeyStrip(8));
             chamberHistos[type]["clct_slope_data"]->Fill(clct->getSlope());
             chamberHistos[type]["clct_compcode_data"]->Fill(clct->getCompCode());
             if (useB904_) {
               chamberHistos[type]["clct_quartstripbit_data"]->Fill(clct->getQuartStripBit());
               chamberHistos[type]["clct_eighthstripbit_data"]->Fill(clct->getEighthStripBit());
             }
           }
         }
       }
     }
 
     for (auto it = emulCLCTs->begin(); it != emulCLCTs->end(); it++) {
       auto range = emulCLCTs->get((*it).first);
       const CSCDetId& detid((*it).first);
       int type = ((*it).first).iChamberType() - 2;
       // ignore non-ME1/1 chambers when using B904 test-stand data
       if (useB904ME11_ and !(detid.isME11()))
         continue;
       if (useB904ME21_ and !(detid.isME21()))
         continue;
       if (useB904ME234s2_ and !(detid.isME22() or detid.isME32() or detid.isME42()))
         continue;
       // to prevent crashes because you are booking histos for single b904 chamber
       if (useB904ME234s2_ or useB904ME21_)
         type = 0;
       for (auto clct = range.first; clct != range.second; clct++) {
         if (clct->isValid()) {
           if (preTriggerAnalysis_) {
             tempemul.push_back(*clct);
           }
           chamberHistos[type]["clct_pattern_emul"]->Fill(clct->getPattern());
           chamberHistos[type]["clct_quality_emul"]->Fill(clct->getQuality());
           chamberHistos[type]["clct_halfstrip_emul"]->Fill(clct->getKeyStrip());
           chamberHistos[type]["clct_bend_emul"]->Fill(clct->getBend());
           if (isRun3_) {
             chamberHistos[type]["clct_run3pattern_emul"]->Fill(clct->getRun3Pattern());
             chamberHistos[type]["clct_quartstrip_emul"]->Fill(clct->getKeyStrip(4));
             chamberHistos[type]["clct_eighthstrip_emul"]->Fill(clct->getKeyStrip(8));
             chamberHistos[type]["clct_slope_emul"]->Fill(clct->getSlope());
             chamberHistos[type]["clct_compcode_emul"]->Fill(clct->getCompCode());
             if (useB904_) {
               chamberHistos[type]["clct_quartstripbit_emul"]->Fill(clct->getQuartStripBit());
               chamberHistos[type]["clct_eighthstripbit_emul"]->Fill(clct->getEighthStripBit());
             }
           }
         }
       }
     }
 
     // Pre-trigger analysis
     if (preTriggerAnalysis_) {
       if (tempdata.size() != tempemul.size()) {
         for (auto& clct : tempdata) {
           edm::LogWarning("L1TdeCSCTPG") << "data" << clct;
         }
         for (auto& clct : tempemul) {
           edm::LogWarning("L1TdeCSCTPG") << "emul" << clct;
         }
         for (auto it = emulpreCLCTs->begin(); it != emulpreCLCTs->end(); it++) {
           auto range = emulpreCLCTs->get((*it).first);
           for (auto clct = range.first; clct != range.second; clct++) {
             edm::LogWarning("L1TdeCSCTPG") << "emul pre" << *clct;
           }
         }
       }
     }
 
     for (auto it = dataLCTs->begin(); it != dataLCTs->end(); it++) {
       auto range = dataLCTs->get((*it).first);
       const CSCDetId& detid((*it).first);
       int type = ((*it).first).iChamberType() - 2;
       // ignore non-ME1/1 chambers when using B904 test-stand data
       if (useB904ME11_ and !(detid.isME11()))
         continue;
       if (useB904ME21_ and !(detid.isME21()))
         continue;
       if (useB904ME234s2_ and !(detid.isME22() or detid.isME32() or detid.isME42()))
         continue;
       // to prevent crashes because you are booking histos for single b904 chamber
       if (useB904ME234s2_ or useB904ME21_)
         type = 0;
       for (auto lct = range.first; lct != range.second; lct++) {
         if (lct->isValid()) {
           chamberHistos[type]["lct_pattern_data"]->Fill(lct->getPattern());
           chamberHistos[type]["lct_quality_data"]->Fill(lct->getQuality());
           chamberHistos[type]["lct_wiregroup_data"]->Fill(lct->getKeyWG());
           chamberHistos[type]["lct_halfstrip_data"]->Fill(lct->getStrip());
           chamberHistos[type]["lct_bend_data"]->Fill(lct->getBend());
           if (isRun3_) {
             chamberHistos[type]["lct_run3pattern_data"]->Fill(lct->getRun3Pattern());
             chamberHistos[type]["lct_slope_data"]->Fill(lct->getSlope());
             chamberHistos[type]["lct_quartstrip_data"]->Fill(lct->getStrip(4));
             chamberHistos[type]["lct_eighthstrip_data"]->Fill(lct->getStrip(8));
             if (useB904_) {
               chamberHistos[type]["lct_quartstripbit_data"]->Fill(lct->getQuartStripBit());
               chamberHistos[type]["lct_eighthstripbit_data"]->Fill(lct->getEighthStripBit());
             }
           }
         }
       }
     }
 
     for (auto it = emulLCTs->begin(); it != emulLCTs->end(); it++) {
       auto range = emulLCTs->get((*it).first);
       const CSCDetId& detid((*it).first);
       int type = ((*it).first).iChamberType() - 2;
       // ignore non-ME1/1 chambers when using B904 test-stand data
       if (useB904ME11_ and !(detid.isME11()))
         continue;
       if (useB904ME21_ and !(detid.isME21()))
         continue;
       if (useB904ME234s2_ and !(detid.isME22() or detid.isME32() or detid.isME42()))
         continue;
       // to prevent crashes because you are booking histos for single b904 chamber
       if (useB904ME234s2_ or useB904ME21_)
         type = 0;
       for (auto lct = range.first; lct != range.second; lct++) {
         if (lct->isValid()) {
           chamberHistos[type]["lct_pattern_emul"]->Fill(lct->getPattern());
           chamberHistos[type]["lct_quality_emul"]->Fill(lct->getQuality());
           chamberHistos[type]["lct_wiregroup_emul"]->Fill(lct->getKeyWG());
           chamberHistos[type]["lct_halfstrip_emul"]->Fill(lct->getStrip());
           chamberHistos[type]["lct_bend_emul"]->Fill(lct->getBend());
           if (isRun3_) {
             chamberHistos[type]["lct_run3pattern_emul"]->Fill(lct->getRun3Pattern());
             chamberHistos[type]["lct_slope_emul"]->Fill(lct->getSlope());
             chamberHistos[type]["lct_quartstrip_emul"]->Fill(lct->getStrip(4));
             chamberHistos[type]["lct_eighthstrip_emul"]->Fill(lct->getStrip(8));
             if (useB904_) {
               chamberHistos[type]["lct_quartstripbit_emul"]->Fill(lct->getQuartStripBit());
               chamberHistos[type]["lct_eighthstripbit_emul"]->Fill(lct->getEighthStripBit());
             }
           }
         }
       }
     }
   }
 
   // summary plots
   const std::map<std::pair<int, int>, int> histIndexCSC = {{{1, 1}, 8},
                                                            {{1, 2}, 7},
                                                            {{1, 3}, 6},
                                                            {{2, 1}, 5},
                                                            {{2, 2}, 4},
                                                            {{3, 1}, 3},
                                                            {{3, 2}, 2},
                                                            {{4, 1}, 1},
                                                            {{4, 2}, 0}};
 
   const int min_endcap = CSCDetId::minEndcapId();
   const int max_endcap = CSCDetId::maxEndcapId();
   const int min_station = CSCDetId::minStationId();
   const int max_station = CSCDetId::maxStationId();
   const int min_sector = CSCTriggerNumbering::minTriggerSectorId();
   const int max_sector = CSCTriggerNumbering::maxTriggerSectorId();
   const int min_subsector = CSCTriggerNumbering::minTriggerSubSectorId();
   const int max_subsector = CSCTriggerNumbering::maxTriggerSubSectorId();
   const int min_chamber = CSCTriggerNumbering::minTriggerCscId();
   const int max_chamber = CSCTriggerNumbering::maxTriggerCscId();
 
   for (int endc = min_endcap; endc <= max_endcap; endc++) {
     // loop on all stations
     for (int stat = min_station; stat <= max_station; stat++) {
       int numsubs = ((stat == 1) ? max_subsector : 1);
       // loop on sectors and subsectors
       for (int sect = min_sector; sect <= max_sector; sect++) {
         for (int subs = min_subsector; subs <= numsubs; subs++) {
           // loop on all chambers
           for (int cham = min_chamber; cham <= max_chamber; cham++) {
             // extract the ring number
             int ring = CSCTriggerNumbering::ringFromTriggerLabels(stat, cham);
 
             // actual chamber number =/= trigger chamber number
             int chid = CSCTriggerNumbering::chamberFromTriggerLabels(sect, subs, stat, cham);
 
             // 0th layer means whole chamber.
             CSCDetId detid(endc, stat, ring, chid, 0);
 
             int chamber = detid.chamber();
 
             int sr = histIndexCSC.at({stat, ring});
             if (endc == 1)
               sr = 17 - sr;
 
             // ALCT analysis
             auto range_dataALCT = dataALCTs->get(detid);
             auto range_emulALCT = emulALCTs->get(detid);
 
             for (auto dalct = range_dataALCT.first; dalct != range_dataALCT.second; dalct++) {
               if (dalct->isValid()) {
                 alctDataSummary_denom_->Fill(chamber, sr);
                 // check for least one matching ALCT
                 for (auto ealct = range_emulALCT.first; ealct != range_emulALCT.second; ealct++) {
                   if (ealct->isValid() and *dalct == *ealct) {
                     alctDataSummary_num_->Fill(chamber, sr);
                   }
                 }
               }
             }
 
             for (auto ealct = range_emulALCT.first; ealct != range_emulALCT.second; ealct++) {
               bool isMatched = false;
               if (ealct->isValid()) {
                 alctEmulSummary_denom_->Fill(chamber, sr);
                 // check for least one matching ALCT
                 for (auto dalct = range_dataALCT.first; dalct != range_dataALCT.second; dalct++) {
                   if (*dalct == *ealct)
                     isMatched = true;
                 }
                 // only fill when it is not matched to an ALCT
                 // to understand if the emulator is producing too many ALCTs
                 if (!isMatched) {
                   alctEmulSummary_num_->Fill(chamber, sr);
                 }
               }
             }
 
             // CLCT analysis
             auto range_dataCLCT = dataCLCTs->get(detid);
             auto range_emulCLCT = emulCLCTs->get(detid);
 
             for (auto dclct = range_dataCLCT.first; dclct != range_dataCLCT.second; dclct++) {
               if (dclct->isValid()) {
                 clctDataSummary_denom_->Fill(chamber, sr);
                 // check for least one matching CLCT
                 for (auto eclct = range_emulCLCT.first; eclct != range_emulCLCT.second; eclct++) {
                   if (eclct->isValid() and areSameCLCTs(*dclct, *eclct)) {
                     clctDataSummary_num_->Fill(chamber, sr);
                   }
                 }
               }
             }
 
             for (auto eclct = range_emulCLCT.first; eclct != range_emulCLCT.second; eclct++) {
               bool isMatched = false;
               if (eclct->isValid()) {
                 clctEmulSummary_denom_->Fill(chamber, sr);
                 // check for least one matching CLCT
                 for (auto dclct = range_dataCLCT.first; dclct != range_dataCLCT.second; dclct++) {
                   if (areSameCLCTs(*dclct, *eclct))
                     isMatched = true;
                 }
                 // only fill when it is not matched to an CLCT
                 // to understand if the emulator is producing too many CLCTs
                 if (!isMatched) {
                   clctEmulSummary_num_->Fill(chamber, sr);
                 }
               }
             }
 
             // LCT analysis
             auto range_dataLCT = dataLCTs->get(detid);
             auto range_emulLCT = emulLCTs->get(detid);
 
             for (auto dlct = range_dataLCT.first; dlct != range_dataLCT.second; dlct++) {
               if (dlct->isValid()) {
                 lctDataSummary_denom_->Fill(chamber, sr);
                 // check for least one matching LCT
                 for (auto elct = range_emulLCT.first; elct != range_emulLCT.second; elct++) {
                   if (elct->isValid() and areSameLCTs(*dlct, *elct)) {
                     lctDataSummary_num_->Fill(chamber, sr);
                   }
                 }
               }
             }
 
             for (auto elct = range_emulLCT.first; elct != range_emulLCT.second; elct++) {
               bool isMatched = false;
               if (elct->isValid()) {
                 lctEmulSummary_denom_->Fill(chamber, sr);
                 // check for least one matching LCT
                 for (auto dlct = range_dataLCT.first; dlct != range_dataLCT.second; dlct++) {
                   if (areSameLCTs(*dlct, *elct))
                     isMatched = true;
                 }
                 // only fill when it is not matched to an LCT
                 // to understand if the emulator is producing too many LCTs
                 if (!isMatched) {
                   lctEmulSummary_num_->Fill(chamber, sr);
                 }
               }
             }
           }
         }
       }
     }
   }
 }

◆ areSameCLCTs()

bool L1TdeCSCTPG::areSameCLCTs	(	const CSCCLCTDigi &	lhs,
		const CSCCLCTDigi &	rhs
	)		const

private

Definition at line 586 of file L1TdeCSCTPG.cc.

References CSCCLCTDigi::getBend(), CSCCLCTDigi::getEighthStripBit(), CSCCLCTDigi::getKeyStrip(), CSCCLCTDigi::getPattern(), CSCCLCTDigi::getQuality(), CSCCLCTDigi::getQuartStripBit(), CSCCLCTDigi::getRun3Pattern(), CSCCLCTDigi::getStripType(), and CSCCLCTDigi::isValid().

Referenced by analyze().

                                                                                    {
   // because the comparator code is degenerate (several comparator codes can produce the
   // same slope and position), we leave it out of the comparison
   // do not include the BX
   bool returnValue = false;
   if (lhs.isValid() == rhs.isValid() && lhs.getQuality() == rhs.getQuality() && lhs.getPattern() == rhs.getPattern() &&
       lhs.getRun3Pattern() == rhs.getRun3Pattern() && lhs.getKeyStrip() == rhs.getKeyStrip() &&
       lhs.getStripType() == rhs.getStripType() && lhs.getBend() == rhs.getBend() &&
       lhs.getQuartStripBit() == rhs.getQuartStripBit() && lhs.getEighthStripBit() == rhs.getEighthStripBit()) {
     returnValue = true;
   }
   return returnValue;
 }

◆ areSameLCTs()

bool L1TdeCSCTPG::areSameLCTs	(	const CSCCorrelatedLCTDigi &	lhs,
		const CSCCorrelatedLCTDigi &	rhs
	)		const

private

Definition at line 600 of file L1TdeCSCTPG.cc.

References CSCCorrelatedLCTDigi::getBend(), CSCCorrelatedLCTDigi::getEighthStripBit(), CSCCorrelatedLCTDigi::getKeyWG(), CSCCorrelatedLCTDigi::getPattern(), CSCCorrelatedLCTDigi::getQuality(), CSCCorrelatedLCTDigi::getQuartStripBit(), CSCCorrelatedLCTDigi::getRun3Pattern(), CSCCorrelatedLCTDigi::getStrip(), CSCCorrelatedLCTDigi::getStripType(), and CSCCorrelatedLCTDigi::isValid().

Referenced by analyze().

                                                                                                     {
   // do not include the BX
   bool returnValue = false;
   if (lhs.isValid() == rhs.isValid() && lhs.getQuality() == rhs.getQuality() && lhs.getPattern() == rhs.getPattern() &&
       lhs.getRun3Pattern() == rhs.getRun3Pattern() && lhs.getStrip() == rhs.getStrip() &&
       lhs.getStripType() == rhs.getStripType() && lhs.getBend() == rhs.getBend() &&
       lhs.getQuartStripBit() == rhs.getQuartStripBit() && lhs.getEighthStripBit() == rhs.getEighthStripBit() &&
       lhs.getKeyWG() == rhs.getKeyWG()) {
     returnValue = true;
   }
   return returnValue;
 }

◆ bookHistograms()

void L1TdeCSCTPG::bookHistograms	(	DQMStore::IBooker &	iBooker,
		const edm::Run &	,
		const edm::EventSetup &
	)

overrideprotectedvirtual

Implements DQMEDAnalyzer.

Definition at line 46 of file L1TdeCSCTPG.cc.

References alctDataSummary_denom_, alctDataSummary_num_, alctEmulSummary_denom_, alctEmulSummary_num_, alctMaxBin_, alctMinBin_, alctNBin_, alctVars_, dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), chamberHistos, chambers_, clctDataSummary_denom_, clctDataSummary_num_, clctEmulSummary_denom_, clctEmulSummary_num_, clctMaxBin_, clctMinBin_, clctNBin_, clctVars_, dataEmul_, B2GTnPMonitor_cfi::histTitle, isRun3_, crabWrapper::key, lctDataSummary_denom_, lctDataSummary_num_, lctEmulSummary_denom_, lctEmulSummary_num_, lctMaxBin_, lctMinBin_, lctNBin_, lctVars_, make1DPlots_, monitorDir_, or, dqm::impl::MonitorElement::setAxisTitle(), dqm::impl::MonitorElement::setBinLabel(), dqm::implementation::NavigatorBase::setCurrentFolder(), dqm::impl::MonitorElement::setOption(), AlCaHLTBitMon_QueryRunRegistry::string, groupFilesInBlocks::temp, useB904ME11_, useB904ME21_, and useB904ME234s2_.

                                                                                               {
   iBooker.setCurrentFolder(monitorDir_);
 
   // remove the non-ME1/1 chambers from the list when useB904ME11 is set to true
   if (useB904ME11_) {
     chambers_.resize(1);
   }
   // similar for ME2/1
   else if (useB904ME21_) {
     auto temp = chambers_[3];
     chambers_.resize(1);
     chambers_[0] = temp;
   }
   // similar for ME4/2
   else if (useB904ME234s2_) {
     auto temp = chambers_.back();
     chambers_.resize(1);
     chambers_[0] = temp;
   }
   // collision data in Run-3
   else if (isRun3_) {
     clctVars_.resize(9);
     lctVars_.resize(9);
   }
   // do not analyze Run-3 properties in Run-1 and Run-2 eras
   else {
     clctVars_.resize(4);
     lctVars_.resize(5);
   }
 
   // 1D plots for experts
   if (useB904ME11_ or useB904ME21_ or useB904ME234s2_ or make1DPlots_) {
     // chamber type
     for (unsigned iType = 0; iType < chambers_.size(); iType++) {
       // data vs emulator
       for (unsigned iData = 0; iData < dataEmul_.size(); iData++) {
         // alct variable
         for (unsigned iVar = 0; iVar < alctVars_.size(); iVar++) {
           const std::string key("alct_" + alctVars_[iVar] + "_" + dataEmul_[iData]);
           const std::string histName(key + "_" + chambers_[iType]);
           const std::string histTitle(chambers_[iType] + " ALCT " + alctVars_[iVar] + " (" + dataEmul_[iData] + ") ");
           chamberHistos[iType][key] =
               iBooker.book1D(histName, histTitle, alctNBin_[iVar], alctMinBin_[iVar], alctMaxBin_[iVar]);
           chamberHistos[iType][key]->getTH1()->SetMinimum(0);
         }
 
         // clct variable
         for (unsigned iVar = 0; iVar < clctVars_.size(); iVar++) {
           const std::string key("clct_" + clctVars_[iVar] + "_" + dataEmul_[iData]);
           const std::string histName(key + "_" + chambers_[iType]);
           const std::string histTitle(chambers_[iType] + " CLCT " + clctVars_[iVar] + " (" + dataEmul_[iData] + ") ");
           chamberHistos[iType][key] =
               iBooker.book1D(histName, histTitle, clctNBin_[iVar], clctMinBin_[iVar], clctMaxBin_[iVar]);
           chamberHistos[iType][key]->getTH1()->SetMinimum(0);
         }
 
         // lct variable
         for (unsigned iVar = 0; iVar < lctVars_.size(); iVar++) {
           const std::string key("lct_" + lctVars_[iVar] + "_" + dataEmul_[iData]);
           const std::string histName(key + "_" + chambers_[iType]);
           const std::string histTitle(chambers_[iType] + " LCT " + lctVars_[iVar] + " (" + dataEmul_[iData] + ") ");
           chamberHistos[iType][key] =
               iBooker.book1D(histName, histTitle, lctNBin_[iVar], lctMinBin_[iVar], lctMaxBin_[iVar]);
           chamberHistos[iType][key]->getTH1()->SetMinimum(0);
         }
       }
     }
   }
 
   // 2D summary plots
 
   // These plots are for showing the efficiency that the unpacked data are being correctly emulated (having a emulated data counterpart)
   lctDataSummary_denom_ = iBooker.book2D("lct_csctp_data_summary_denom", "LCT Summary", 36, 1, 37, 18, 0, 18);
   lctDataSummary_num_ = iBooker.book2D("lct_csctp_data_summary_num", "LCT Summary", 36, 1, 37, 18, 0, 18);
   alctDataSummary_denom_ = iBooker.book2D("alct_csctp_data_summary_denom", "ALCT Summary", 36, 1, 37, 18, 0, 18);
   alctDataSummary_num_ = iBooker.book2D("alct_csctp_data_summary_num", "ALCT Summary", 36, 1, 37, 18, 0, 18);
   clctDataSummary_denom_ = iBooker.book2D("clct_csctp_data_summary_denom", "CLCT Summary", 36, 1, 37, 18, 0, 18);
   clctDataSummary_num_ = iBooker.book2D("clct_csctp_data_summary_num", "CLCT Summary", 36, 1, 37, 18, 0, 18);
 
   // These plots are for showing the fraction of emulated data that does not have counterparts in the unpacked data
   lctEmulSummary_denom_ = iBooker.book2D("lct_csctp_emul_summary_denom", "LCT Summary", 36, 1, 37, 18, 0, 18);
   lctEmulSummary_num_ = iBooker.book2D("lct_csctp_emul_summary_num", "LCT Summary", 36, 1, 37, 18, 0, 18);
   alctEmulSummary_denom_ = iBooker.book2D("alct_csctp_emul_summary_denom", "ALCT Summary", 36, 1, 37, 18, 0, 18);
   alctEmulSummary_num_ = iBooker.book2D("alct_csctp_emul_summary_num", "ALCT Summary", 36, 1, 37, 18, 0, 18);
   clctEmulSummary_denom_ = iBooker.book2D("clct_csctp_emul_summary_denom", "CLCT Summary", 36, 1, 37, 18, 0, 18);
   clctEmulSummary_num_ = iBooker.book2D("clct_csctp_emul_summary_num", "CLCT Summary", 36, 1, 37, 18, 0, 18);
 
   // x labels
   lctDataSummary_denom_->setAxisTitle("Chamber", 1);
   lctDataSummary_num_->setAxisTitle("Chamber", 1);
   alctDataSummary_denom_->setAxisTitle("Chamber", 1);
   alctDataSummary_num_->setAxisTitle("Chamber", 1);
   clctDataSummary_denom_->setAxisTitle("Chamber", 1);
   clctDataSummary_num_->setAxisTitle("Chamber", 1);
 
   lctEmulSummary_denom_->setAxisTitle("Chamber", 1);
   lctEmulSummary_num_->setAxisTitle("Chamber", 1);
   alctEmulSummary_denom_->setAxisTitle("Chamber", 1);
   alctEmulSummary_num_->setAxisTitle("Chamber", 1);
   clctEmulSummary_denom_->setAxisTitle("Chamber", 1);
   clctEmulSummary_num_->setAxisTitle("Chamber", 1);
 
   // plotting option
   lctDataSummary_denom_->setOption("colz");
   lctDataSummary_num_->setOption("colz");
   alctDataSummary_denom_->setOption("colz");
   alctDataSummary_num_->setOption("colz");
   clctDataSummary_denom_->setOption("colz");
   clctDataSummary_num_->setOption("colz");
 
   lctEmulSummary_denom_->setOption("colz");
   lctEmulSummary_num_->setOption("colz");
   alctEmulSummary_denom_->setOption("colz");
   alctEmulSummary_num_->setOption("colz");
   clctEmulSummary_denom_->setOption("colz");
   clctEmulSummary_num_->setOption("colz");
 
   // summary plots
   const std::array<std::string, 9> suffix_label{{"4/2", "4/1", "3/2", "3/1", " 2/2", "2/1", "1/3", "1/2", "1/1"}};
 
   // y labels
   for (int ybin = 1; ybin <= 9; ++ybin) {
     lctDataSummary_denom_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     lctDataSummary_num_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     alctDataSummary_denom_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     alctDataSummary_num_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     clctDataSummary_denom_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     clctDataSummary_num_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
 
     lctEmulSummary_denom_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     lctEmulSummary_num_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     alctEmulSummary_denom_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     alctEmulSummary_num_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     clctEmulSummary_denom_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
     clctEmulSummary_num_->setBinLabel(ybin, "ME-" + suffix_label[ybin - 1], 2);
 
     lctDataSummary_denom_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     lctDataSummary_num_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     alctDataSummary_denom_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     alctDataSummary_num_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     clctDataSummary_denom_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     clctDataSummary_num_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
 
     lctEmulSummary_denom_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     lctEmulSummary_num_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     alctEmulSummary_denom_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     alctEmulSummary_num_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     clctEmulSummary_denom_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
     clctEmulSummary_num_->setBinLabel(19 - ybin, "ME+" + suffix_label[ybin - 1], 2);
   }
 }