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Public Member Functions | Private Types | Private Member Functions | Private Attributes | Static Private Attributes

RPCMonitorDigi Class Reference

#include <RPCMonitorDigi.h>

Inheritance diagram for RPCMonitorDigi:
edm::EDAnalyzer

List of all members.

Public Member Functions

virtual void analyze (const edm::Event &, const edm::EventSetup &)
virtual void beginJob ()
void beginRun (const edm::Run &r, const edm::EventSetup &c)
void bookRegionME (const std::string &, std::map< std::string, MonitorElement * > &)
 Booking of MonitoringElemnt at region (Barrel/Endcap) level.
void bookRollME (RPCDetId &, const edm::EventSetup &, const std::string &, std::map< std::string, MonitorElement * > &)
 Booking of MonitoringElement for one RPCDetId (= roll)
void bookSectorRingME (const std::string &, std::map< std::string, MonitorElement * > &)
 Booking of MonitoringElement at Sector/Ring level.
void bookWheelDiskME (const std::string &, std::map< std::string, MonitorElement * > &)
 Booking of MonitoringElemnt at Wheel/Disk level.
virtual void endJob (void)
void endLuminosityBlock (edm::LuminosityBlock const &, edm::EventSetup const &)
 RPCMonitorDigi (const edm::ParameterSet &)
 ~RPCMonitorDigi ()

Private Types

enum  detectorRegions { EM = 0, B = 1, EP = 2, ALL = 3 }

Private Member Functions

void makeDcsInfo (const edm::Event &)
void performSourceOperation (std::map< RPCDetId, std::vector< RPCRecHit > > &, std::string)
int stripsInRoll (RPCDetId &, const edm::EventSetup &)

Private Attributes

int counter
DQMStoredbe
 DQM store.
bool dcs_
std::string globalFolder_
std::map< std::string,
std::map< std::string,
MonitorElement * > > 
meMuonCollection
std::map< std::string,
std::map< std::string,
MonitorElement * > > 
meNoiseCollection
float muEtaCut_
std::string muonFolder_
edm::InputTag muonLabel_
MonitorElementmuonRPCEvents_
float muPtCut_
std::string noiseFolder_
MonitorElementnoiseRPCEvents_
int numberOfDisks_
int numberOfInnerRings_
MonitorElementNumberOfMuon_
MonitorElementNumberOfRecHitMuon_
std::map< std::string,
MonitorElement * > 
regionMuonCollection
std::map< std::string,
MonitorElement * > 
regionNoiseCollection
std::string RootFileName
edm::InputTag rpcRecHitLabel_
bool saveRootFile
std::map< std::string,
MonitorElement * > 
sectorRingMuonCollection
std::map< std::string,
MonitorElement * > 
sectorRingNoiseCollection
std::string subsystemFolder_
bool useMuonDigis_
bool useRollInfo_
std::map< std::string,
MonitorElement * > 
wheelDiskMuonCollection
std::map< std::string,
MonitorElement * > 
wheelDiskNoiseCollection

Static Private Attributes

static const std::string regionNames_ [3] = {"Endcap-", "Barrel", "Endcap+"}
 Data Format.

Detailed Description

Definition at line 20 of file RPCMonitorDigi.h.


Member Enumeration Documentation

Enumerator:
EM 
B 
EP 
ALL 

Definition at line 54 of file RPCMonitorDigi.h.

{EM = 0, B = 1, EP= 2, ALL=3};

Constructor & Destructor Documentation

RPCMonitorDigi::RPCMonitorDigi ( const edm::ParameterSet pset) [explicit]

Definition at line 22 of file RPCMonitorDigi.cc.

References edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), globalFolder_, muEtaCut_, muonFolder_, muonLabel_, muPtCut_, noiseFolder_, numberOfDisks_, numberOfInnerRings_, RootFileName, rpcRecHitLabel_, saveRootFile, subsystemFolder_, useMuonDigis_, and useRollInfo_.

                                                           :counter(0){

  saveRootFile  = pset.getUntrackedParameter<bool>("SaveRootFile", false); 
  RootFileName  = pset.getUntrackedParameter<std::string>("RootFileName", "RPCMonitorDigiDQM.root"); 

  useMuonDigis_=  pset.getUntrackedParameter<bool>("UseMuon", true);
  useRollInfo_=  pset.getUntrackedParameter<bool>("UseRollInfo", false);
  muonLabel_ = pset.getParameter<edm::InputTag>("MuonLabel");
  muPtCut_  = pset.getUntrackedParameter<double>("MuonPtCut", 3.0); 
  muEtaCut_ = pset.getUntrackedParameter<double>("MuonEtaCut", 1.9); 
 
  subsystemFolder_ = pset.getUntrackedParameter<std::string>("RPCFolder", "RPC");
  globalFolder_ = pset.getUntrackedParameter<std::string>("GlobalFolder", "SummaryHistograms");

  rpcRecHitLabel_ = pset.getParameter<edm::InputTag>("RecHitLabel");

  numberOfDisks_ = pset.getUntrackedParameter<int>("NumberOfEndcapDisks", 3);
  numberOfInnerRings_ = pset.getUntrackedParameter<int>("NumberOfInnermostEndcapRings", 2);

  noiseFolder_ = pset.getUntrackedParameter<std::string>("NoiseFolder", "AllHits");
  muonFolder_ = pset.getUntrackedParameter<std::string>("MuonFolder", "Muon");

}
RPCMonitorDigi::~RPCMonitorDigi ( )

Definition at line 46 of file RPCMonitorDigi.cc.

{}

Member Function Documentation

void RPCMonitorDigi::analyze ( const edm::Event event,
const edm::EventSetup setup 
) [virtual]

Implements edm::EDAnalyzer.

Definition at line 135 of file RPCMonitorDigi.cc.

References TrackingRecHit::clone(), counter, dcs_, reco::LeafCandidate::eta(), MonitorElement::Fill(), i, reco::Muon::isGlobalMuon(), edm::HandleBase::isValid(), makeDcsInfo(), muEtaCut_, muonFolder_, muonLabel_, muonRPCEvents_, muPtCut_, noiseFolder_, noiseRPCEvents_, NumberOfMuon_, NumberOfRecHitMuon_, patZpeak::numMuons, reco::Muon::outerTrack(), performSourceOperation(), reco::LeafCandidate::pt(), reco::Track::recHitsBegin(), reco::Track::recHitsEnd(), MuonSubdetId::RPC, RPCRecHit::rpcId(), rpcRecHitLabel_, and useMuonDigis_.

                                                                             {
  dcs_ = true;
  //Check HV status
  this->makeDcsInfo(event);
  if( !dcs_){
    edm::LogWarning ("rpcmonitordigi") <<"[RPCMonitorDigi]: DCS bit OFF" ;  
    return;//if RPC not ON there's no need to continue
  }

  counter++;
  edm::LogInfo ("rpcmonitordigi") <<"[RPCMonitorDigi]: Beginning analyzing event " << counter;
 
  //Muons
  edm::Handle<reco::CandidateView> muonCands;
  event.getByLabel(muonLabel_, muonCands);
  std::map<RPCDetId  , std::vector<RPCRecHit> > rechitMuon;

  int  numMuons = 0;
  int  numRPCRecHit = 0 ;

  if(muonCands.isValid()){

    int nStaMuons = muonCands->size();
    
    for( int i = 0; i < nStaMuons; i++ ) {
      
      const reco::Candidate & goodMuon = (*muonCands)[i];
      const reco::Muon * muCand = dynamic_cast<const reco::Muon*>(&goodMuon);
    
      if(!muCand->isGlobalMuon())continue;
      if(muCand->pt() < muPtCut_  ||  fabs(muCand->eta())>muEtaCut_) continue;
      numMuons++;
      reco::Track muTrack = (*(muCand->outerTrack()));
      std::vector<TrackingRecHitRef > rpcTrackRecHits;
      //loop on mu rechits
      for ( trackingRecHit_iterator it= muTrack.recHitsBegin(); it !=  muTrack.recHitsEnd() ; it++) {
        if (!(*it)->isValid ())continue;
        int muSubDetId = (*it)->geographicalId().subdetId();
        if(muSubDetId == MuonSubdetId::RPC)  {
          numRPCRecHit ++;
          TrackingRecHit * tkRecHit = (*it)->clone();
          RPCRecHit* rpcRecHit = dynamic_cast<RPCRecHit*>(tkRecHit);
          int detId = (int)rpcRecHit->rpcId();
          if(rechitMuon.find(detId) == rechitMuon.end() || rechitMuon[detId].size() == 0){
            std::vector<RPCRecHit>  myVect(1,*rpcRecHit );        
            rechitMuon[detId]= myVect;
          }else {
            rechitMuon[detId].push_back(*rpcRecHit);
          }
        }
      }// end loop on mu rechits
    
    }

    if( NumberOfMuon_)  NumberOfMuon_->Fill(numMuons);
    if( NumberOfRecHitMuon_)  NumberOfRecHitMuon_->Fill( numRPCRecHit);
    
  }else{
    edm::LogError ("rpcmonitordigi") <<"[RPCMonitorDigi]: Muons - Product not valid for event" << counter;
  }
  
 //RecHits
  edm::Handle<RPCRecHitCollection> rpcHits;
  event.getByLabel( rpcRecHitLabel_ , rpcHits);
  std::map<RPCDetId  , std::vector<RPCRecHit> > rechitNoise;

  
  if(rpcHits.isValid()){
   
    //    RPC rec hits NOT associated to a muon
    RPCRecHitCollection::const_iterator rpcRecHitIter;
    std::vector<RPCRecHit>::const_iterator muonRecHitIter;
    
    for (rpcRecHitIter = rpcHits->begin(); rpcRecHitIter != rpcHits->end() ; rpcRecHitIter++) {
      RPCRecHit rpcRecHit = (*rpcRecHitIter);
      int detId = (int)rpcRecHit.rpcId();
      if(rechitNoise.find(detId) == rechitNoise.end() || rechitNoise[detId].size() == 0){
        std::vector<RPCRecHit>  myVect(1,rpcRecHit );
        rechitNoise[detId]= myVect;
      }else {
        rechitNoise[detId].push_back(rpcRecHit);
      }
    }
  }else{
    edm::LogError ("rpcmonitordigi") <<"[RPCMonitorDigi]: RPCRecHits - Product not valid for event" << counter;
  }

 
  if( useMuonDigis_ && muonRPCEvents_ != 0 )  muonRPCEvents_->Fill(1);
  if( noiseRPCEvents_ != 0)  noiseRPCEvents_->Fill(1);

  if(useMuonDigis_ ) this->performSourceOperation(rechitMuon, muonFolder_);
  this->performSourceOperation(rechitNoise, noiseFolder_);
}
void RPCMonitorDigi::beginJob ( void  ) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 47 of file RPCMonitorDigi.cc.

{}
void RPCMonitorDigi::beginRun ( const edm::Run r,
const edm::EventSetup c 
) [virtual]

get hold of back-end interface

Reimplemented from edm::EDAnalyzer.

Definition at line 49 of file RPCMonitorDigi.cc.

References DQMStore::book1D(), bookRegionME(), bookRollME(), bookSectorRingME(), bookWheelDiskME(), RPCGeomServ::chambername(), dbe, dcs_, edm::EventSetup::get(), DQMStore::get(), MonitorElement::getName(), meMuonCollection, meNoiseCollection, muonFolder_, muonRPCEvents_, RPCGeomServ::name(), noiseFolder_, noiseRPCEvents_, NumberOfMuon_, NumberOfRecHitMuon_, cmsCodeRules::cppFunctionSkipper::operator, alignCSCRings::r, regionMuonCollection, regionNoiseCollection, DQMStore::removeElement(), RPCChamber::rolls(), sectorRingMuonCollection, sectorRingNoiseCollection, DQMStore::setCurrentFolder(), subsystemFolder_, useMuonDigis_, useRollInfo_, wheelDiskMuonCollection, and wheelDiskNoiseCollection.

                                                                         {

  edm::LogInfo ("rpcmonitordigi") <<"[RPCMonitorDigi]: Begin Run " ;
  
  dbe = edm::Service<DQMStore>().operator->();

  //Book 
  this->bookRegionME(noiseFolder_, regionNoiseCollection);
  this->bookSectorRingME(noiseFolder_, sectorRingNoiseCollection);
  this->bookWheelDiskME(noiseFolder_, wheelDiskNoiseCollection);



  std::string currentFolder = subsystemFolder_ +"/"+noiseFolder_;
  dbe->setCurrentFolder(currentFolder);
  
  noiseRPCEvents_= dbe->get(currentFolder +"/RPCEvents");
  if(noiseRPCEvents_) dbe->removeElement(noiseRPCEvents_->getName());
  noiseRPCEvents_ = dbe->book1D("RPCEvents","RPCEvents", 1, 0.5, 1.5);
  
  
  if(useMuonDigis_ ){
    this->bookRegionME(muonFolder_, regionMuonCollection);
    this->bookSectorRingME(muonFolder_, sectorRingMuonCollection);
    this->bookWheelDiskME(muonFolder_, wheelDiskMuonCollection);
    
    currentFolder = subsystemFolder_ +"/"+muonFolder_;
    dbe->setCurrentFolder(currentFolder); 
   
    muonRPCEvents_= dbe->get(currentFolder +"/RPCEvents");
    if(muonRPCEvents_) dbe->removeElement(muonRPCEvents_->getName());
    muonRPCEvents_ =  dbe->book1D("RPCEvents", "RPCEvents", 1, 0.5, 1.5);

    NumberOfMuon_ = dbe->get(currentFolder+"/NumberOfMuons");
    if(NumberOfMuon_) dbe->removeElement(NumberOfMuon_->getName());
    NumberOfMuon_ = dbe->book1D("NumberOfMuons", "Number of Muons", 11, -0.5, 10.5);


    NumberOfRecHitMuon_ = dbe->get(currentFolder+"/NumberOfRPCRecHitsMuons");
    if(NumberOfRecHitMuon_) dbe->removeElement(NumberOfRecHitMuon_->getName());
    NumberOfRecHitMuon_ = dbe->book1D("NumberOfRecHitMuons", "Number of RPC RecHits per Muon", 8, -0.5, 7.5);
  }
   

  edm::ESHandle<RPCGeometry> rpcGeo;
  iSetup.get<MuonGeometryRecord>().get(rpcGeo);
  //loop on geometry to book all MEs
  edm::LogInfo ("rpcmonitordigi") <<"[RPCMonitorDigi]: Booking histograms per roll. " ;
  for (TrackingGeometry::DetContainer::const_iterator it=rpcGeo->dets().begin();it<rpcGeo->dets().end();it++){
    if(dynamic_cast< RPCChamber* >( *it ) != 0 ){
      RPCChamber* ch = dynamic_cast< RPCChamber* >( *it ); 
      std::vector< const RPCRoll*> roles = (ch->rolls());
      if(useRollInfo_){
        for(std::vector<const RPCRoll*>::const_iterator r = roles.begin();r != roles.end(); ++r){
          RPCDetId rpcId = (*r)->id();
          //booking all histograms
          RPCGeomServ rpcsrv(rpcId);
          std::string nameID = rpcsrv.name();
          if(useMuonDigis_) bookRollME(rpcId ,iSetup, muonFolder_, meMuonCollection[nameID]);
          bookRollME(rpcId, iSetup, noiseFolder_, meNoiseCollection[nameID]);
        }
      }else{
        RPCDetId rpcId = roles[0]->id(); //any roll would do - here I just take the first one
        RPCGeomServ rpcsrv(rpcId);
        std::string nameID = rpcsrv.chambername();
        if(useMuonDigis_) bookRollME(rpcId,iSetup, muonFolder_, meMuonCollection[nameID]);
        bookRollME(rpcId, iSetup, noiseFolder_, meNoiseCollection[nameID]);
        
      }
    }
  }//end loop on geometry to book all MEs


  //Clear flags;
  dcs_ = true;
}
void RPCMonitorDigi::bookRegionME ( const std::string &  recHitType,
std::map< std::string, MonitorElement * > &  meMap 
)

Booking of MonitoringElemnt at region (Barrel/Endcap) level.

Definition at line 319 of file RPCBookDetUnitME.cc.

References newFWLiteAna::bin, DQMStore::book1D(), dbe, DQMStore::get(), MonitorElement::getName(), globalFolder_, mergeVDriftHistosByStation::name, NULL, numberOfInnerRings_, alignCSCRings::r, regionNames_, DQMStore::removeElement(), relativeConstraints::ring, DQMStore::setCurrentFolder(), subsystemFolder_, and indexGen::title.

Referenced by beginRun().

                                                                                                           {
  //std::map<std::string, MonitorElement*>   RPCMonitorDigi::bookRegionME(std::string recHitType) {

  //  std::map<std::string, MonitorElement*> meMap;  

  std::string currentFolder = subsystemFolder_ +"/"+recHitType+"/"+ globalFolder_;
  dbe->setCurrentFolder(currentFolder);  
  
  MonitorElement * me = NULL;
  std::stringstream name;
  std::stringstream title;
  for(int r = 0; r < 3; r++){ //RPC regions are E-, B, and E+
    
    std::string regionName = RPCMonitorDigi::regionNames_[r];
    //Cluster size
    name.str("");
    title.str("");
    name<<"ClusterSize_"<< regionName;
    title<< "ClusterSize - "<<regionName;
    me = dbe->get(currentFolder+ "/" + name.str());
    if (me) dbe->removeElement(me->getName());
     meMap[name.str()] = dbe->book1D(name.str(), title.str(),  16, 0.5, 16.5);
    
 
  }
 

  //Number of Cluster
  name.str("");
  title.str("");
  name<<"NumberOfClusters_Barrel";
  title<< "Number of Clusters per Event - Barrel";
  me = dbe->get(currentFolder+ "/" + name.str());
  if (me) dbe->removeElement(me->getName());
  meMap[name.str()]  = dbe->book1D(name.str(), title.str(),  30, 0.5, 30.5);

  name.str("");
  title.str("");
  name<<"NumberOfClusters_Endcap+";
  title<< "Number of Clusters per Event - Endcap+";
  me = dbe->get(currentFolder+ "/" + name.str());
  if (me) dbe->removeElement(me->getName());
  meMap[name.str()]  = dbe->book1D(name.str(), title.str(),  15, 0.5, 15.5);
 
  name.str("");
  title.str("");
  name<<"NumberOfClusters_Endcap-";
  title<< "Number of Clusters per Event - Endcap-";
  me = dbe->get(currentFolder+ "/" + name.str());
  if (me) dbe->removeElement(me->getName());
  meMap[name.str()]  = dbe->book1D(name.str(), title.str(),  15, 0.5, 15.5);

  //Number of Digis
  name.str("");
  title.str("");
  name<<"Multiplicity_Barrel";
  title<< "Multiplicity per Event per Roll - Barrel";
  me = dbe->get(currentFolder+ "/" + name.str());
  if (me) dbe->removeElement(me->getName());
  meMap[name.str()] = dbe->book1D(name.str(), title.str(), 50, 0.5, 50.5);   
  
  
  name.str("");
  title.str("");
  name<<"Multiplicity_Endcap+";
  title<< "Multiplicity per Event per Roll - Endcap+";
  me = dbe->get(currentFolder+ "/" + name.str());
  if (me) dbe->removeElement(me->getName());
  meMap[name.str()] = dbe->book1D(name.str(), title.str(), 32, 0.5, 32.5);  
  
  name.str("");
  title.str("");
  name<<"Multiplicity_Endcap-";
  title<< "Multiplicity per Event per Roll - Endcap-";
  me = dbe->get(currentFolder+ "/" + name.str());
  if (me) dbe->removeElement(me->getName());
  meMap[name.str()] = dbe->book1D(name.str(), title.str(), 32, 0.5, 32.5);  

  
  for(int layer = 1 ; layer <= 6 ; layer ++){
    
    name.str("");
    title.str("");
    name<<"ClusterSize_Layer"<< layer;
    title<< "ClusterSize - Layer"<<layer;
    me = dbe->get(currentFolder+ "/" + name.str());
    if (me) dbe->removeElement(me->getName());
    meMap[name.str()] = dbe->book1D(name.str(), title.str(),  16, 0.5, 16.5);
  }

  for(int ring = RPCMonitorDigi::numberOfInnerRings_  ; ring <= 3 ; ring ++){
    
    name.str("");
    title.str("");
    name<<"ClusterSize_Ring"<< ring;
    title<< "ClusterSize - Ring"<<ring;
    me = dbe->get(currentFolder+ "/" + name.str());
    if (me) dbe->removeElement(me->getName());
    meMap[name.str()] = dbe->book1D(name.str(), title.str(),  16, 0.5, 16.5);
  
  }


  me = dbe->get(currentFolder+ "/Occupancy_for_Endcap");
  if (me) dbe->removeElement(me->getName());
  meMap["Occupancy_for_Endcap"] = dbe -> book2D("Occupancy_for_Endcap", "Occupancy Endcap", 6, 0.5, 6.5, 2, 1.5, 3.5);
  meMap["Occupancy_for_Endcap"] ->setAxisTitle("Disk", 1);
  meMap["Occupancy_for_Endcap"] ->setAxisTitle("Ring", 2);

  std::stringstream binlabel;
  for (int bin = 1 ; bin <= 6 ; bin++){
    binlabel.str("");
    if(bin<4) {//negative endcap
      binlabel<<(bin-4); 
    }else{//positive endcaps
      binlabel<<(bin-3); 
    }
    meMap["Occupancy_for_Endcap"]->setBinLabel( bin , binlabel.str(), 1);
  }

  meMap["Occupancy_for_Endcap"]->setBinLabel( 1 , "2", 2);
  meMap["Occupancy_for_Endcap"]->setBinLabel( 2 , "3", 2);


  me = dbe->get(currentFolder+ "/Occupancy_for_Barrel");
  if (me) dbe->removeElement(me->getName());
  meMap["Occupancy_for_Barrel"]  = dbe -> book2D("Occupancy_for_Barrel", "Occupancy Barrel", 12, 0.5 , 12.5, 5, -2.5, 2.5 );
  meMap["Occupancy_for_Barrel"] ->setAxisTitle("Sec", 1);
  meMap["Occupancy_for_Barrel"] ->setAxisTitle("Wheel", 2);
  
  for (int bin = 1 ; bin <= 12 ; bin++){
    binlabel.str("");
    binlabel<<bin;
    meMap["Occupancy_for_Barrel"]->setBinLabel( bin , binlabel.str(), 1);
    if(bin <= 5 ){
      binlabel.str("");
      binlabel<< (bin - 3);
     meMap["Occupancy_for_Barrel"]->setBinLabel( bin , binlabel.str(), 2);
    }
  }
  //  return meMap; 

}
void RPCMonitorDigi::bookRollME ( RPCDetId detId,
const edm::EventSetup iSetup,
const std::string &  recHitType,
std::map< std::string, MonitorElement * > &  meMap 
)

Booking of MonitoringElement for one RPCDetId (= roll)

Name components common to current RPCDetId

Definition at line 9 of file RPCBookDetUnitME.cc.

References abs, DQMStore::book1D(), RPCGeomServ::chambername(), rpcdqm::CLUSTERSIZE, dbe, RPCBookFolderStructure::folderStructure(), RPCDetId::layer(), rpcdqm::MULTIPLICITY, RPCGeomServ::name(), rpcdqm::OCCUPANCY, RPCDetId::region(), RPCDetId::ring(), DQMStore::setCurrentFolder(), RPCDetId::station(), stripsInRoll(), subsystemFolder_, DQMStore::tag(), and useRollInfo_.

Referenced by beginRun().

                                                                                                                                                         {
  //std::map<std::string, MonitorElement*> RPCMonitorDigi::bookRollME(RPCDetId & detId, const edm::EventSetup & iSetup, std::string recHitType) {
  //std::map<std::string, MonitorElement*> meMap;  

  RPCBookFolderStructure *  folderStr = new RPCBookFolderStructure();
  std::string folder = subsystemFolder_+ "/"+ recHitType +"/"+folderStr->folderStructure(detId);

  dbe->setCurrentFolder(folder);
  
  //get number of strips in current roll
  int nstrips = this->stripsInRoll(detId, iSetup);
  if (nstrips == 0 ) nstrips = 1;

  RPCGeomServ RPCname(detId);
  std::string nameRoll = "";
 
  if (RPCMonitorDigi::useRollInfo_) {
    nameRoll = RPCname.name();
  }else{
    nameRoll = RPCname.chambername();
  }

    if(detId.region() != 0 || //Endcaps
       (abs(detId.ring()) == 2 && detId.station()== 2 && detId.layer() != 1) ||  //Wheel -/+2 RB2out
       (abs(detId.ring()) != 2 && detId.station()== 2 && detId.layer() == 1)){nstrips *= 3;} //Wheel -1,0,+1 RB2in
    else {
      nstrips *= 2;
    }


  std::stringstream os;
  os.str("");
  os<<"Occupancy_"<<nameRoll;
  meMap[os.str()] = dbe->book1D(os.str(), os.str(), nstrips, 0.5, nstrips+0.5);
  dbe->tag( meMap[os.str()],  rpcdqm::OCCUPANCY);

  os.str("");
  os<<"BXDistribution_"<<nameRoll;
  meMap[os.str()] = dbe->book1D(os.str(), os.str(), 7, -3.5, 3.5);
   

  if(detId.region() == 0){
    os.str("");
    os<<"ClusterSize_"<<nameRoll;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 15, 0.5, 15.5);
    dbe->tag( meMap[os.str()],  rpcdqm::CLUSTERSIZE);
    
    os.str("");
    os<<"Multiplicity_"<<nameRoll;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 30, 0.5, 30.5);
    dbe->tag( meMap[os.str()],  rpcdqm::MULTIPLICITY);

  }else{
    os.str("");
    os<<"ClusterSize_"<<nameRoll;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 10, 0.5, 10.5);
    dbe->tag( meMap[os.str()],  rpcdqm::CLUSTERSIZE);
    
    os.str("");
    os<<"Multiplicity_"<<nameRoll;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 15, 0.5, 15.5);
    dbe->tag( meMap[os.str()],  rpcdqm::MULTIPLICITY);
  }


//   os.str("");
//   os<<"BXWithData_"<<nameRoll;
//   meMap[os.str()] = dbe->book1D(os.str(), os.str(), 10, 0.5, 10.5);
  
  os.str("");
  os<<"NumberOfClusters_"<<nameRoll;
  meMap[os.str()] = dbe->book1D(os.str(), os.str(),10,0.5,10.5);
  

  delete folderStr;
  //  return meMap;
}
void RPCMonitorDigi::bookSectorRingME ( const std::string &  recHitType,
std::map< std::string, MonitorElement * > &  meMap 
)

Booking of MonitoringElement at Sector/Ring level.

Definition at line 89 of file RPCBookDetUnitME.cc.

References DQMStore::book2D(), dbe, i, rpcdqm::utils::labelYAxisRoll(), numberOfDisks_, numberOfInnerRings_, relativeConstraints::ring, MonitorElement::setAxisTitle(), DQMStore::setCurrentFolder(), and subsystemFolder_.

Referenced by beginRun().

                                                                                                             {  
  //std::map<std::string, MonitorElement*> RPCMonitorDigi::bookSectorRingME(std::string recHitType) {  

  //  std::map<std::string, MonitorElement*> meMap;  
  std::stringstream os;
 
  for(int wheel = -2 ; wheel <= 2; wheel++){
      os.str("");     
      os<< subsystemFolder_<< "/"<<recHitType<<"/Barrel/Wheel_"<<wheel<<"/SummaryBySectors";
      dbe->setCurrentFolder(os.str());
      
      for (int sector = 1 ; sector <= 12 ; sector++){
        
        os.str("");
        os<<"Occupancy_Wheel_"<<wheel<<"_Sector_"<<sector;
    
        if (sector==9 || sector==11)
          meMap[os.str()] = dbe->book2D(os.str(), os.str(),  90, 0.5,  90.5, 15, 0.5, 15.5);
        else  if (sector==4) 
          meMap[os.str()] = dbe->book2D(os.str(), os.str(),  90, 0.5,  90.5, 21, 0.5, 21.5);
        else
          meMap[os.str()] = dbe->book2D(os.str(), os.str(),  90, 0.5,  90.5, 17, 0.5, 17.5);
        
        meMap[os.str()]->setAxisTitle("strip", 1);
        rpcdqm::utils rpcUtils;
        rpcUtils.labelYAxisRoll( meMap[os.str()], 0, wheel, true);
        
//      os.str("");
//      os<<"BxDistribution_Wheel_"<<wheel<<"_Sector_"<<sector;
//      meMap[os.str()] = dbe->book1D(os.str(), os.str(), 11, -5.5, 5.5);

      }
  }


  for (int region = -1 ; region <= 1; region++){
    if( region == 0 ) continue;

    std::string regionName = "Endcap-";
    if(region == 1) regionName = "Endcap+";

    for (int disk = 1; disk <=  RPCMonitorDigi::numberOfDisks_; disk++) {
      os.str("");
      os<< subsystemFolder_<< "/"<<recHitType<<"/"<<regionName<<"/Disk_"<<(region * disk)<<"/SummaryByRings/";
     
      dbe->setCurrentFolder(os.str());

      for (int ring = RPCMonitorDigi::numberOfInnerRings_  ; ring <= 3; ring ++) {

        os.str("");
        os<<"Occupancy_Disk_"<<(region * disk)<<"_Ring_"<<ring<<"_CH01-CH18";

        meMap[os.str()] = dbe->book2D(os.str(), os.str(), 96, 0.5, 96.5, 18 , 0.5,  18.5);
        meMap[os.str()]->setAxisTitle("strip", 1);

        std::stringstream yLabel;
        for (int i = 1 ; i<=18; i++) {
          yLabel.str("");
          yLabel<<"R"<<ring<<"_CH"<<std::setw(2)<<std::setfill('0')<<i;
          meMap[os.str()]->setBinLabel(i, yLabel.str(), 2);
        }
      
      
        for(int i = 1; i <= 96 ; i++) {
          if (i ==1) meMap[os.str()]->setBinLabel(i, "1", 1);
          else if (i==16) meMap[os.str()]->setBinLabel(i, "RollA", 1);
          else if (i==32) meMap[os.str()]->setBinLabel(i, "32", 1);
          else if (i==33) meMap[os.str()]->setBinLabel(i, "1", 1);
          else if (i==48) meMap[os.str()]->setBinLabel(i, "RollB", 1);
          else if (i==64) meMap[os.str()]->setBinLabel(i, "32", 1);
          else if (i==65) meMap[os.str()]->setBinLabel(i, "1", 1);
          else if (i==80) meMap[os.str()]->setBinLabel(i, "RollC", 1);
          else if (i==96) meMap[os.str()]->setBinLabel(i, "32", 1);
          else  meMap[os.str()]->setBinLabel(i, "", 1);
        }
  

        os.str("");
        os<<"Occupancy_Disk_"<<(region * disk)<<"_Ring_"<<ring<<"_CH19-CH36";

        meMap[os.str()] = dbe->book2D(os.str(), os.str(), 96, 0.5, 96.5, 18 , 18.5,  36.5);
        meMap[os.str()]->setAxisTitle("strip", 1);
        
        for (int i = 1 ; i<= 18; i++) {
          yLabel.str("");
          yLabel<<"R"<<ring<<"_CH"<<i+18;
          meMap[os.str()]->setBinLabel(i, yLabel.str(), 2);
        }
        
        
        for(int i = 1; i <= 96 ; i++) {
          if (i ==1) meMap[os.str()]->setBinLabel(i, "1", 1);
          else if (i==16) meMap[os.str()]->setBinLabel(i, "RollA", 1);
          else if (i==32) meMap[os.str()]->setBinLabel(i, "32", 1);
          else if (i==33) meMap[os.str()]->setBinLabel(i, "1", 1);
          else if (i==48) meMap[os.str()]->setBinLabel(i, "RollB", 1);
          else if (i==64) meMap[os.str()]->setBinLabel(i, "32", 1);
          else if (i==65) meMap[os.str()]->setBinLabel(i, "1", 1);
          else if (i==80) meMap[os.str()]->setBinLabel(i, "RollC", 1);
          else if (i==96) meMap[os.str()]->setBinLabel(i, "32", 1);
          else  meMap[os.str()]->setBinLabel(i, "", 1);
        }
   
        
//      os.str("");
//      os<<"BxDistribution_Disk_"<<(region * disk)<<"_Ring_"<<ring;
//      meMap[os.str()] = dbe->book1D(os.str(), os.str(), 11, -5.5, 5.5);
        
      }  //loop ring
    } //loop disk
  } //loop region

  // return meMap;
} 
void RPCMonitorDigi::bookWheelDiskME ( const std::string &  recHitType,
std::map< std::string, MonitorElement * > &  meMap 
)

Booking of MonitoringElemnt at Wheel/Disk level.

Definition at line 205 of file RPCBookDetUnitME.cc.

References DQMStore::book1D(), DQMStore::book2D(), dbe, globalFolder_, i, label, rpcdqm::utils::labelXAxisSector(), rpcdqm::utils::labelXAxisSegment(), rpcdqm::utils::labelYAxisRing(), rpcdqm::utils::labelYAxisRoll(), mergeVDriftHistosByStation::name, numberOfDisks_, numberOfInnerRings_, relativeConstraints::ring, MonitorElement::setBinLabel(), DQMStore::setCurrentFolder(), subsystemFolder_, and indexGen::title.

Referenced by beginRun().

                                                                                                           {  
  //std::map<std::string, MonitorElement*> RPCMonitorDigi::bookWheelDiskME(std::string recHitType) {  

  //  std::map<std::string, MonitorElement*> meMap;  
  dbe->setCurrentFolder(subsystemFolder_ +"/"+recHitType+"/"+ globalFolder_);

  std::stringstream os, label, name, title ;
  rpcdqm::utils rpcUtils;

  for (int wheel = -2 ; wheel<= 2; wheel++ ) {//Loop on wheel

    //    os<<"OccupancyXY_"<<ringType<<"_"<<ring;
    //    meMap[os.str()] = dbe->book2D(os.str(), os.str(),63, -800, 800, 63, -800, 800);
    //    meMap[os.str()] = dbe->book2D(os.str(), os.str(),1000, -800, 800, 1000, -800, 800);
    
    
    os.str("");
    os<<"1DOccupancy_Wheel_"<<wheel;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 12, 0.5, 12.5);
    for(int i=1; i<12; i++) {
      label.str("");
      label<<"Sec"<<i;
      meMap[os.str()] ->setBinLabel(i, label.str(), 1); 
    }
    
    os.str("");
    os<<"Occupancy_Roll_vs_Sector_Wheel_"<<wheel;                                   
    meMap[os.str()] = dbe->book2D(os.str(), os.str(), 12, 0.5,12.5, 21, 0.5, 21.5);
    rpcUtils.labelXAxisSector(meMap[os.str()]);
    rpcUtils.labelYAxisRoll( meMap[os.str()], 0, wheel, true);

    os.str("");
    os<<"BxDistribution_Wheel_"<<wheel;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 9, -4.5, 4.5);
    

    for(int layer = 1 ; layer <= 6 ; layer ++){
      name.str("");
      title.str("");
      name<<"ClusterSize_Wheel_"<<wheel<<"_Layer"<< layer;
      title<< "ClusterSize - Wheel "<<wheel<<" Layer"<<layer;
      meMap[name.str()] = dbe->book1D(name.str(), title.str(),  16, 0.5, 16.5);
    }


    
  }//end loop on wheel 


  for (int disk = - RPCMonitorDigi::numberOfDisks_; disk <=  RPCMonitorDigi::numberOfDisks_; disk++){
    
    if(disk == 0) continue;
  

    os.str("");
    os<<"Occupancy_Ring_vs_Segment_Disk_"<<disk;                                  
    meMap[os.str()] = dbe->book2D(os.str(), os.str(), 36, 0.5,36.5, 6, 0.5, 6.5);
    
    rpcUtils.labelXAxisSegment(meMap[os.str()]);
    rpcUtils.labelYAxisRing(meMap[os.str()], 2, true);

    os.str("");
    os<<"BxDistribution_Disk_"<<disk;
    meMap[os.str()] = dbe->book1D(os.str(), os.str(), 9, -4.5, 4.5);


    for(int ring = RPCMonitorDigi::numberOfInnerRings_  ; ring <= 3 ; ring ++){
    
      name.str("");
      title.str("");
      name<<"ClusterSize_Disk_"<<disk<<"_Ring"<< ring;
      title<< "ClusterSize - Disk"<<disk<<" Ring"<<ring;
      meMap[name.str()] = dbe->book1D(name.str(), title.str(),  16, 0.5, 16.5);
      
    }
    
  }

   for(int ring = RPCMonitorDigi::numberOfInnerRings_  ; ring <= 3 ; ring ++){
     os.str("");
     os<<"1DOccupancy_Ring_"<<ring;
     meMap[os.str()] = dbe->book1D(os.str(), os.str(), 6 , 0.5, 6.5);
     for(int xbin= 1 ; xbin<= 6 ; xbin++) {
       label.str("");
       if (xbin < 4) label<<"Disk "<< (xbin - 4);
       else label<<"Disk "<< (xbin - 3);
       meMap[os.str()] ->setBinLabel(xbin, label.str(), 1); 
     }
   }



      
  //  return meMap; 
}
void RPCMonitorDigi::endJob ( void  ) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 127 of file RPCMonitorDigi.cc.

References dbe, RootFileName, DQMStore::save(), and saveRootFile.

void RPCMonitorDigi::endLuminosityBlock ( edm::LuminosityBlock const &  L,
edm::EventSetup const &  E 
) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 132 of file RPCMonitorDigi.cc.

{}
void RPCMonitorDigi::makeDcsInfo ( const edm::Event e) [private]

Definition at line 503 of file RPCMonitorDigi.cc.

References dcs_, edm::Event::getByLabel(), edm::HandleBase::isValid(), and DcsStatus::RPC.

Referenced by analyze().

                                                   {

  edm::Handle<DcsStatusCollection> dcsStatus;

  if ( ! e.getByLabel("scalersRawToDigi", dcsStatus) ){
    dcs_ = true;
    return;
  }
  
  if ( ! dcsStatus.isValid() ) 
  {
    edm::LogWarning("RPCDcsInfo") << "scalersRawToDigi not found" ;
    dcs_ = true; // info not available: set to true
    return;
  }
    
  for (DcsStatusCollection::const_iterator dcsStatusItr = dcsStatus->begin(); 
                            dcsStatusItr != dcsStatus->end(); ++dcsStatusItr){

      if (!dcsStatusItr->ready(DcsStatus::RPC)) dcs_=false;
  }
      
  return ;
}
void RPCMonitorDigi::performSourceOperation ( std::map< RPCDetId, std::vector< RPCRecHit > > &  recHitMap,
std::string  recHittype 
) [private]

Definition at line 231 of file RPCMonitorDigi.cc.

References abs, RPCRecHit::BunchX(), RPCGeomServ::chambername(), RPCRecHit::clusterSize(), rpcdqm::utils::detId2RollNr(), HcalObjRepresent::Fill(), RPCRecHit::firstClusterStrip(), i, RPCDetId::layer(), Association::map, meMuonCollection, meNoiseCollection, muonFolder_, RPCGeomServ::name(), noiseFolder_, RPCDetId::region(), regionMuonCollection, regionNames_, regionNoiseCollection, RPCDetId::ring(), relativeConstraints::ring, RPCDetId::roll(), alignCSCRings::s, RPCDetId::sector(), sectorRingMuonCollection, sectorRingNoiseCollection, RPCGeomServ::segment(), relativeConstraints::station, RPCDetId::station(), useRollInfo_, wheelDiskMuonCollection, and wheelDiskNoiseCollection.

Referenced by analyze().

                                                                                                                       {

  edm::LogInfo ("rpcmonitordigi") <<"[RPCMonitorDigi]: Performing DQM source operations for "; 
  
  if(recHitMap.size()==0) return;

  std::map<std::string, std::map<std::string, MonitorElement*> >  meRollCollection ;
  std::map<std::string, MonitorElement*>   meWheelDisk ;
  std::map<std::string, MonitorElement*>   meRegion ;
  std::map<std::string, MonitorElement*>   meSectorRing;  

  if(recHittype == muonFolder_ ) {
    meRollCollection = meMuonCollection;
    meWheelDisk =  wheelDiskMuonCollection;
    meRegion =  regionMuonCollection;
    meSectorRing =  sectorRingMuonCollection;
  }else if(recHittype == noiseFolder_ ){
    meRollCollection =  meNoiseCollection;
    meWheelDisk =  wheelDiskNoiseCollection;
    meRegion =  regionNoiseCollection;
    meSectorRing =  sectorRingNoiseCollection;
  }else{
    edm::LogWarning("rpcmonitordigi")<<"[RPCMonitorDigi]: RecHit type not valid.";
    return;
  }


  int totalNumberOfRecHits[3] ={ 0, 0, 0};
  std::stringstream os;

  //Loop on Rolls
  for ( std::map<RPCDetId , std::vector<RPCRecHit> >::const_iterator detIdIter = recHitMap.begin(); detIdIter !=  recHitMap.end() ;  detIdIter++){
    
    RPCDetId detId = (*detIdIter).first;
    // int id=detId();
    
    //get roll number
    rpcdqm::utils rpcUtils;
    int nr = rpcUtils.detId2RollNr(detId);
 
    
    RPCGeomServ geoServ(detId);
    std::string nameRoll = "";


    if(useRollInfo_) nameRoll = geoServ.name();
    else nameRoll = geoServ.chambername();

    int region=(int)detId.region();
    int wheelOrDiskNumber;
    std::string wheelOrDiskType;
    int ring = 0 ;
    int sector  = detId.sector();
    int layer = 0;
    int totalRolls = 3;
    int roll = detId.roll();
    if(region == 0) {
      wheelOrDiskType = "Wheel";  
      wheelOrDiskNumber = (int)detId.ring();
      int station = detId.station();
     
      if(station == 1){
        if(detId.layer() == 1){
          layer = 1; //RB1in
          totalRolls = 2;
        }else{
          layer = 2; //RB1out
          totalRolls = 2;
        }
        if(roll == 3) roll =2; // roll=3 is Forward
      }else if(station == 2){
        if(detId.layer() == 1){
          layer = 3; //RB2in
          if( abs(wheelOrDiskNumber) ==2 && roll == 3) {
            roll = 2; //W -2, +2 RB2in has only 2 rolls
            totalRolls = 2;
          }
        }else{
          layer = 4; //RB2out
          if( abs(wheelOrDiskNumber) !=2 && roll == 3){
            roll = 2;//W -1, 0, +1 RB2out has only 2 rolls
            totalRolls = 2;
          }
        }
      }else if (station == 3){
        layer = 5; //RB3
        totalRolls = 2;
        if(roll == 3) roll =2;
      }else{
        layer = 6; //RB4
        totalRolls = 2;
        if(roll == 3) roll =2;
      }

    }else {
      wheelOrDiskType =  "Disk";
      wheelOrDiskNumber = region*(int)detId.station();
      ring = detId.ring();
    }

    std::vector<RPCRecHit> recHits  = (*detIdIter).second;
    int numberOfRecHits = recHits.size();
    totalNumberOfRecHits[region + 1 ] +=  numberOfRecHits;

    std::set<int> bxSet ;
    int numDigi = 0;

    std::map<std::string, MonitorElement*>  meMap = meRollCollection[nameRoll];

    //Loop on recHits
    for(std::vector<RPCRecHit>::const_iterator recHitIter = recHits.begin(); recHitIter != recHits.end(); recHitIter++){
      RPCRecHit recHit = (*recHitIter);

      int bx = recHit.BunchX();
      bxSet.insert(bx); 
      int clusterSize = (int)recHit.clusterSize();
      numDigi +=  clusterSize ;
      int firstStrip = recHit.firstClusterStrip();
      int lastStrip = clusterSize + firstStrip - 1;
          
      // ###################### Roll Level  #################################
      
      os.str("");
      os<<"Occupancy_"<<nameRoll;
      if(meMap[os.str()]) {
        for(int s=firstStrip; s<= lastStrip; s++){
          if(useRollInfo_) { meMap[os.str()]->Fill(s);}
          else{ 
            int nstrips =   meMap[os.str()]->getNbinsX()/totalRolls;
            meMap[os.str()]->Fill(s + nstrips*(roll-1)); }
        }
      }
      
      os.str("");
      os<<"BXDistribution_"<<nameRoll;
      if(meMap[os.str()]) meMap[os.str()]->Fill(bx);

  
      os.str("");
      os<<"ClusterSize_"<<nameRoll;
      if(meMap[os.str()]) meMap[os.str()]->Fill(clusterSize);
 


      // ###################### Sector- Ring Level #################################


      os.str("");
      os<<"Occupancy_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Sector_"<<sector;
      if( meSectorRing[os.str()]){ 
        for(int s=firstStrip; s<= lastStrip; s++){//Loop on digis
           meSectorRing[os.str()]->Fill(s, nr);
        }
      }

   //    os.str("");
//       os<<"BxDistribution_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Sector_"<<sector;
//       if( meSectorRing[os.str()])  meSectorRing[os.str()]->Fill(bx);

      os.str("");
      if(geoServ.segment() > 0 && geoServ.segment() < 19 ){ 
        os<<"Occupancy_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Ring_"<<ring<<"_CH01-CH18";
      }else if (geoServ.segment() > 18 ){
        os<<"Occupancy_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Ring_"<<ring<<"_CH19-CH36";
      }
     
      if( meSectorRing[os.str()]){ 
        for(int s=firstStrip; s<= lastStrip; s++){//Loop on digis
           meSectorRing[os.str()]->Fill(s + 32*(detId.roll()-1),  geoServ.segment());
        }
      }

     //  os.str("");
//       os<<"BxDistribution_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Ring_"<<ring;
//       if( meSectorRing[os.str()])  meSectorRing[os.str()]->Fill(bx);

      
      // ###################### Wheel/Disk Level #########################ààà
      if(region ==0){
        os.str("");
        os<<"1DOccupancy_Wheel_"<<wheelOrDiskNumber;
        if( meWheelDisk[os.str()]) meWheelDisk[os.str()]->Fill(sector, clusterSize);
        
        os.str("");
        os<<"Occupancy_Roll_vs_Sector_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber;       
        if (meWheelDisk[os.str()]) meWheelDisk[os.str()]->Fill(sector, nr, clusterSize);

      }else{
        os.str("");
        os<<"1DOccupancy_Ring_"<<ring;
        if ((meWheelDisk[os.str()])){
          if (wheelOrDiskNumber > 0 ) meWheelDisk[os.str()]->Fill(wheelOrDiskNumber +3, clusterSize);
          else meWheelDisk[os.str()]->Fill(wheelOrDiskNumber + 4, clusterSize);
        }

        os.str("");
        os<<"Occupancy_Ring_vs_Segment_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber;   
        if (meWheelDisk[os.str()]) meWheelDisk[os.str()]->Fill( geoServ.segment(), (ring-1)*3-detId.roll()+1,clusterSize );
      }

      os.str("");
      os<<"BxDistribution_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber;
      if(meWheelDisk[os.str()])  meWheelDisk[os.str()]->Fill(bx);
      
  
      os.str("");
      os<<"ClusterSize_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Layer"<<layer;
      if(meWheelDisk[os.str()]) meWheelDisk[os.str()] -> Fill(clusterSize);
 

      os.str("");
      os<<"ClusterSize_"<<wheelOrDiskType<<"_"<<wheelOrDiskNumber<<"_Ring"<<ring;
      if(meWheelDisk[os.str()]) meWheelDisk[os.str()] -> Fill(clusterSize);


    // ######################  Global  ##################################
 

      os.str("");
      os<<"ClusterSize_"<<RPCMonitorDigi::regionNames_[region +1];
      if(meRegion[os.str()]) meRegion[os.str()] -> Fill(clusterSize);

      os.str("");
      os<<"ClusterSize_";
      if(region == 0){
        os<<"Layer"<<layer;
      }else{
        os<<"Ring"<<ring;
      }
      if(meRegion[os.str()]) meRegion[os.str()] -> Fill(clusterSize);

      
    }//end loop on recHits
  
    os.str("");
    os<<"BXWithData_"<<nameRoll;
    if(meMap[os.str()]) meMap[os.str()]->Fill(bxSet.size());
    
    os.str("");
    os<<"NumberOfClusters_"<<nameRoll;
    if(meMap[os.str()]) meMap[os.str()]->Fill( numberOfRecHits);

    os.str("");
    os<<"Multiplicity_"<<RPCMonitorDigi::regionNames_[region +1];
    if(meRegion[os.str()]) meRegion[os.str()]->Fill(numDigi);

    os.str("");
    if(region==0) {
      os<<"Occupancy_for_Barrel";
      if(meRegion[os.str()]) meRegion[os.str()]->Fill(sector, wheelOrDiskNumber, numDigi);
    }else {
      os<<"Occupancy_for_Endcap";
      int xbin = wheelOrDiskNumber+3;
      if (region==-1) xbin = wheelOrDiskNumber+4;
      if(meRegion[os.str()]) meRegion[os.str()]->Fill(xbin,ring,numDigi);
    }

    os.str("");
    os<<"Multiplicity_"<<nameRoll;
    if(meMap[os.str()]) meMap[os.str()]->Fill(numDigi);   

  }//end loop on rolls

  for(int i = 0; i< 3; i++ ){
    os.str("");
    os<<"NumberOfClusters_"<<RPCMonitorDigi::regionNames_[i];
    if(meRegion[os.str()]) meRegion[os.str()]->Fill( totalNumberOfRecHits[i]);
  }

}
int RPCMonitorDigi::stripsInRoll ( RPCDetId id,
const edm::EventSetup iSetup 
) [private]

Definition at line 304 of file RPCBookDetUnitME.cc.

References edm::EventSetup::get(), and RPCRoll::nstrips().

Referenced by bookRollME().

                                                                             {
  edm::ESHandle<RPCGeometry> rpcgeo;
  iSetup.get<MuonGeometryRecord>().get(rpcgeo);

  const RPCRoll * rpcRoll = rpcgeo->roll(id);

  if (!rpcRoll) return 1;

  return  rpcRoll->nstrips();

  

}

Member Data Documentation

int RPCMonitorDigi::counter [private]

Definition at line 65 of file RPCMonitorDigi.h.

Referenced by analyze().

DQM store.

Definition at line 68 of file RPCMonitorDigi.h.

Referenced by beginRun(), bookRegionME(), bookRollME(), bookSectorRingME(), bookWheelDiskME(), and endJob().

bool RPCMonitorDigi::dcs_ [private]

Definition at line 69 of file RPCMonitorDigi.h.

Referenced by analyze(), beginRun(), and makeDcsInfo().

std::string RPCMonitorDigi::globalFolder_ [private]

Definition at line 91 of file RPCMonitorDigi.h.

Referenced by bookRegionME(), bookWheelDiskME(), and RPCMonitorDigi().

std::map< std::string, std::map<std::string, MonitorElement*> > RPCMonitorDigi::meMuonCollection [private]

Definition at line 81 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

std::map<std::string, std::map<std::string, MonitorElement*> > RPCMonitorDigi::meNoiseCollection [private]

Definition at line 86 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

float RPCMonitorDigi::muEtaCut_ [private]

Definition at line 70 of file RPCMonitorDigi.h.

Referenced by analyze(), and RPCMonitorDigi().

std::string RPCMonitorDigi::muonFolder_ [private]

Definition at line 63 of file RPCMonitorDigi.h.

Referenced by analyze(), beginRun(), performSourceOperation(), and RPCMonitorDigi().

Definition at line 98 of file RPCMonitorDigi.h.

Referenced by analyze(), and RPCMonitorDigi().

Definition at line 73 of file RPCMonitorDigi.h.

Referenced by analyze(), and beginRun().

float RPCMonitorDigi::muPtCut_ [private]

Definition at line 70 of file RPCMonitorDigi.h.

Referenced by analyze(), and RPCMonitorDigi().

std::string RPCMonitorDigi::noiseFolder_ [private]

Definition at line 64 of file RPCMonitorDigi.h.

Referenced by analyze(), beginRun(), performSourceOperation(), and RPCMonitorDigi().

Definition at line 72 of file RPCMonitorDigi.h.

Referenced by analyze(), and beginRun().

Definition at line 78 of file RPCMonitorDigi.h.

Referenced by bookSectorRingME(), bookWheelDiskME(), and RPCMonitorDigi().

Definition at line 78 of file RPCMonitorDigi.h.

Referenced by bookRegionME(), bookSectorRingME(), bookWheelDiskME(), and RPCMonitorDigi().

Definition at line 76 of file RPCMonitorDigi.h.

Referenced by analyze(), and beginRun().

Definition at line 75 of file RPCMonitorDigi.h.

Referenced by analyze(), and beginRun().

std::map<std::string, MonitorElement*> RPCMonitorDigi::regionMuonCollection [private]

Definition at line 83 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

const std::string RPCMonitorDigi::regionNames_ = {"Endcap-", "Barrel", "Endcap+"} [static, private]

Data Format.

Geometry

Definition at line 62 of file RPCMonitorDigi.h.

Referenced by bookRegionME(), and performSourceOperation().

std::map<std::string, MonitorElement*> RPCMonitorDigi::regionNoiseCollection [private]

Definition at line 88 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

std::string RPCMonitorDigi::RootFileName [private]

Definition at line 95 of file RPCMonitorDigi.h.

Referenced by endJob(), and RPCMonitorDigi().

Definition at line 97 of file RPCMonitorDigi.h.

Referenced by analyze(), and RPCMonitorDigi().

Definition at line 94 of file RPCMonitorDigi.h.

Referenced by endJob(), and RPCMonitorDigi().

std::map<std::string, MonitorElement*> RPCMonitorDigi::sectorRingMuonCollection [private]

Definition at line 84 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

std::map<std::string, MonitorElement*> RPCMonitorDigi::sectorRingNoiseCollection [private]

Definition at line 89 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

std::string RPCMonitorDigi::subsystemFolder_ [private]

Definition at line 56 of file RPCMonitorDigi.h.

Referenced by analyze(), beginRun(), and RPCMonitorDigi().

Definition at line 71 of file RPCMonitorDigi.h.

Referenced by beginRun(), bookRollME(), performSourceOperation(), and RPCMonitorDigi().

std::map<std::string, MonitorElement*> RPCMonitorDigi::wheelDiskMuonCollection [private]

Definition at line 82 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().

std::map<std::string, MonitorElement*> RPCMonitorDigi::wheelDiskNoiseCollection [private]

Definition at line 87 of file RPCMonitorDigi.h.

Referenced by beginRun(), and performSourceOperation().