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Public Member Functions | Private Member Functions | Private Attributes

HSCPValidator Class Reference

#include <HSCPValidation/HSCPValidator/src/HSCPValidator.cc>

Inheritance diagram for HSCPValidator:
edm::EDAnalyzer

List of all members.

Public Member Functions

 HSCPValidator (const edm::ParameterSet &)
 ~HSCPValidator ()

Private Member Functions

virtual void analyze (const edm::Event &, const edm::EventSetup &)
virtual void beginJob ()
virtual void endJob ()
bool IncreasedTreshold (const trigger::TriggerEvent &trEv, const edm::InputTag &InputPath, double NewThreshold, int NObjectAboveThreshold, bool averageThreshold)
std::string intToString (int num)
void makeGenPlots (const edm::Event &iEvent)
void makeHLTPlots (const edm::Event &iEvent)
void makeSimDigiPlotsECAL (const edm::Event &iEvent)
void makeSimDigiPlotsRPC (const edm::Event &iEvent)
void makeSimTrackPlots (const edm::Event &iEvent)

Private Attributes

TH1F * cluSizeDistribution_
TH2F * digiOccupancyMapEB_
TH2F * digiOccupancyMapEEM_
TH2F * digiOccupancyMapEEP_
TH1F * digisEcalNumHistEB_
TH1F * digisEcalNumHistEE_
bool doGenPlots_
bool doHLTPlots_
bool doRecoPlots_
bool doSimDigiPlots_
bool doSimTrackPlots_
edm::InputTag EBDigiCollection_
edm::InputTag ebSimHitTag_
edm::InputTag EEDigiCollection_
edm::InputTag eeSimHitTag_
TH1F * efficiencyRPCRecHitSimDigis_
TH1F * h_genhscp_met
TH1F * h_genhscp_met_nohscp
TH1F * h_genhscp_scaloret
TH1F * h_genhscp_scaloret_nohscp
TH1F * hltjet140_
TH1F * hltmet100_
TH1F * hltmu15_
edm::InputTag label_
TH1F * particleBetaHist_
TH1F * particleBetaInverseHist_
TH1F * particleEtaHist_
std::vector< int > particleIds_
std::map< int, int > particleIdsFoundMap_
TH1F * particleMassHist_
TH1F * particlePhiHist_
TH1F * particlePHist_
TH1F * particlePtHist_
int particleStatus_
TH1F * particleStatusHist_
TH1F * residualsRPCRecHitSimDigis_
TH1F * rpcBXBarrel_ [6]
TH1F * rpcBXEndCap_ [3]
edm::ESHandle< RPCGeometryrpcGeo
edm::InputTag RPCRecHitTag_
TH1F * rpcTimeOfFlightBarrel_ [6]
TH1F * rpcTimeOfFlightEndCap_ [3]
TH1F * simHitsEcalDigiMatchEnergyHistEB_
TH1F * simHitsEcalDigiMatchEnergyHistEE_
TH2F * simHitsEcalDigiMatchEnergyVsTimeHistEB_
TH2F * simHitsEcalDigiMatchEnergyVsTimeHistEE_
TH1F * simHitsEcalDigiMatchIEtaHist_
TH1F * simHitsEcalDigiMatchIPhiHist_
TH1F * simHitsEcalDigiMatchTimeHistEB_
TH1F * simHitsEcalDigiMatchTimeHistEE_
TH1F * simHitsEcalEnergyHistEB_
TH1F * simHitsEcalEnergyHistEE_
TH2F * simHitsEcalEnergyVsTimeHistEB_
TH2F * simHitsEcalEnergyVsTimeHistEE_
TH1F * simHitsEcalNumHistEB_
TH1F * simHitsEcalNumHistEE_
TH1F * simHitsEcalTimeHistEB_
TH1F * simHitsEcalTimeHistEE_
TH1F * simTrackParticleBetaHist_
TH1F * simTrackParticleEtaHist_
TH1F * simTrackParticlePhiHist_
TH1F * simTrackParticlePHist_
TH1F * simTrackParticlePtHist_
edm::InputTag simTrackTag_

Detailed Description

Description: [one line class summary]

Implementation: [Notes on implementation]

Definition at line 41 of file HSCPValidator.h.


Constructor & Destructor Documentation

HSCPValidator::HSCPValidator ( const edm::ParameterSet iConfig) [explicit]

Definition at line 97 of file HSCPValidator.cc.

References cluSizeDistribution_, digiOccupancyMapEB_, digiOccupancyMapEEM_, digiOccupancyMapEEP_, digisEcalNumHistEB_, digisEcalNumHistEE_, efficiencyRPCRecHitSimDigis_, h_genhscp_met, h_genhscp_met_nohscp, h_genhscp_scaloret, h_genhscp_scaloret_nohscp, hltjet140_, hltmet100_, hltmu15_, particleBetaHist_, particleBetaInverseHist_, particleEtaHist_, particleMassHist_, particlePhiHist_, particlePHist_, particlePtHist_, particleStatusHist_, residualsRPCRecHitSimDigis_, rpcBXBarrel_, rpcBXEndCap_, rpcTimeOfFlightBarrel_, rpcTimeOfFlightEndCap_, simHitsEcalDigiMatchEnergyHistEB_, simHitsEcalDigiMatchEnergyHistEE_, simHitsEcalDigiMatchEnergyVsTimeHistEB_, simHitsEcalDigiMatchEnergyVsTimeHistEE_, simHitsEcalDigiMatchIEtaHist_, simHitsEcalDigiMatchIPhiHist_, simHitsEcalDigiMatchTimeHistEB_, simHitsEcalDigiMatchTimeHistEE_, simHitsEcalEnergyHistEB_, simHitsEcalEnergyHistEE_, simHitsEcalEnergyVsTimeHistEB_, simHitsEcalEnergyVsTimeHistEE_, simHitsEcalNumHistEB_, simHitsEcalNumHistEE_, simHitsEcalTimeHistEB_, simHitsEcalTimeHistEE_, simTrackParticleBetaHist_, simTrackParticleEtaHist_, simTrackParticlePhiHist_, simTrackParticlePHist_, and simTrackParticlePtHist_.

                                                           :
  doGenPlots_ (iConfig.getParameter<bool>("MakeGenPlots")),
  doHLTPlots_ (iConfig.getParameter<bool>("MakeHLTPlots")),
  doSimTrackPlots_ (iConfig.getParameter<bool>("MakeSimTrackPlots")),
  doSimDigiPlots_ (iConfig.getParameter<bool>("MakeSimDigiPlots")),
  doRecoPlots_ (iConfig.getParameter<bool>("MakeRecoPlots")),
  label_ (iConfig.getParameter<edm::InputTag>("generatorLabel")),
  particleIds_ (iConfig.getParameter< std::vector<int> >("particleIds")),
  particleStatus_ (iConfig.getUntrackedParameter<int>("particleStatus",1)),
  ebSimHitTag_ (iConfig.getParameter<edm::InputTag>("EBSimHitCollection")),
  eeSimHitTag_ (iConfig.getParameter<edm::InputTag>("EESimHitCollection")),
  simTrackTag_ (iConfig.getParameter<edm::InputTag>("SimTrackCollection")),
  EBDigiCollection_ (iConfig.getParameter<edm::InputTag>("EBDigiCollection")),
  EEDigiCollection_ (iConfig.getParameter<edm::InputTag>("EEDigiCollection")),
  RPCRecHitTag_ (iConfig.getParameter<edm::InputTag>("RPCRecHitTag"))
{
  //now do what ever initialization is needed
  // GEN
  particleEtaHist_ = fileService->make<TH1F>("particleEta","Eta of gen particle",100,-5,5);
  particlePhiHist_ = fileService->make<TH1F>("particlePhi","Phi of gen particle",180,-3.15,3.15);
  particlePHist_ = fileService->make<TH1F>("particleP","Momentum of gen particle",500,0,2000);
  particlePtHist_ = fileService->make<TH1F>("particlePt","P_{T} of gen particle",500,0,2000);
  particleMassHist_ = fileService->make<TH1F>("particleMass","Mass of gen particle",1000,0,2000);
  particleStatusHist_ = fileService->make<TH1F>("particleStatus","Status of gen particle",10,0,10);
  particleBetaHist_ = fileService->make<TH1F>("particleBeta","Beta of gen particle",100,0,1);
  particleBetaInverseHist_ = fileService->make<TH1F>("particleBetaInverse","1/#beta of gen particle",100,0,5);
  
  h_genhscp_met = fileService->make<TH1F>( "hscp_met"  , "missing E_{T} hscp" , 100, 0., 1500. );
  h_genhscp_met_nohscp = fileService->make<TH1F>( "hscp_met_nohscp"  , "missing E_{T} w/o hscp" , 100, 0., 1500. );
  h_genhscp_scaloret =  fileService->make<TH1F>( "hscp_scaloret"  , "scalor E_{T} sum" , 100, 0., 1500. );
  h_genhscp_scaloret_nohscp =  fileService->make<TH1F>( "hscp_scaloret_nohscp"  , "scalor E_{T} sum w/o hscp" , 100, 0., 1500. );




  //SIM track Info
  simTrackParticleEtaHist_ = fileService->make<TH1F>("simTrackParticleEta","Eta of simTrackParticle",100,-5,5);
  simTrackParticlePhiHist_ = fileService->make<TH1F>("simTrackParticlePhi","Phi of simTrackParticle",180,-3.15,3.15);
  simTrackParticlePHist_ = fileService->make<TH1F>("simTrackParticleP","Momentum of simTrackParticle",500,0,2000);
  simTrackParticlePtHist_ = fileService->make<TH1F>("simTrackParticlePt","P_{T} of simTrackParticle",500,0,2000);
  simTrackParticleBetaHist_ = fileService->make<TH1F>("simTrackParticleBeta","Beta of simTrackParticle",100,0,1);

//HLT Info
  hltmet100_ = fileService->make<TH1F>("HLT_MET100","MET100",3,-1,2);
  hltjet140_ = fileService->make<TH1F>("HLT_JET140","JET140",3,-1,2);
  hltmu15_ = fileService->make<TH1F>("HLT_Mu15","Mu15",3,-1,2);


  // SIM-DIGI: ECAL
  simHitsEcalEnergyHistEB_ = fileService->make<TH1F>("ecalEnergyOfSimHitsEB","HSCP SimTrack-matching SimHit energy EB [GeV]",125,-1,4);
  simHitsEcalEnergyHistEE_ = fileService->make<TH1F>("ecalEnergyOfSimHitsEE","HSCP SimTrack-matching SimHit energy EE [GeV]",125,-1,4);
  simHitsEcalTimeHistEB_ = fileService->make<TH1F>("ecalTimingOfSimHitsEB","HSCP SimTrack-matching SimHit time EB [ns]",115,-15,100);
  simHitsEcalTimeHistEE_ = fileService->make<TH1F>("ecalTimingOfSimHitsEE","HSCP SimTrack-matching SimHit time EE [ns]",115,-15,100);
  simHitsEcalNumHistEB_ = fileService->make<TH1F>("ecalNumberOfSimHitsEB","Number of HSCP SimTrack-matching EB sim hits in event",100,0,200);
  simHitsEcalNumHistEE_ = fileService->make<TH1F>("ecalNumberOfSimHitsEE","Number of HSCP SimTrack-matching EE sim hits in event",100,0,200);
  simHitsEcalEnergyVsTimeHistEB_ = fileService->make<TH2F>("ecalEnergyVsTimeOfSimHitsEB","Energy vs. time of HSCP SimTrack-matching EB sim hits in event",115,-15,100,125,-1,4);
  simHitsEcalEnergyVsTimeHistEE_ = fileService->make<TH2F>("ecalEnergyVsTimeOfSimHitsEE","Energy vs. time of HSCP SimTrack-matching EE sim hits in event",115,-15,100,125,-1,4);
  simHitsEcalDigiMatchEnergyHistEB_ = fileService->make<TH1F>("ecalEnergyOfDigiMatSimHitsEB","HSCP digi-matching SimHit energy EB [GeV]",125,-1,4);
  simHitsEcalDigiMatchEnergyHistEE_ = fileService->make<TH1F>("ecalEnergyOfDigiMatSimHitsEE","HSCP digi-matching SimHit energy EE [GeV]",125,-1,4);
  simHitsEcalDigiMatchTimeHistEB_ = fileService->make<TH1F>("ecalTimingOfDigiMatSimHitsEB","HSCP digi-matching SimHit time EB [ns]",115,-15,100);
  simHitsEcalDigiMatchTimeHistEE_ = fileService->make<TH1F>("ecalTimingOfDigiMatSimHitsEE","HSCP digi-matching SimHit time EE [ns]",115,-15,100);
  simHitsEcalDigiMatchEnergyVsTimeHistEB_ = fileService->make<TH2F>("ecalEnergyVsTimeOfDigiMatSimHitsEB","HSCP digi-matching EB SimHit energy vs. time",115,-15,100,125,-1,4);
  simHitsEcalDigiMatchEnergyVsTimeHistEE_ = fileService->make<TH2F>("ecalEnergyVsTimeOfDigiMatSimHitsEE","HSCP digi-matching EE SimHit energy vs. time",115,-15,100,125,-1,4);
  simHitsEcalDigiMatchIEtaHist_ = fileService->make<TH1F>("ecalIEtaOfDigiMatchSimHits","iEta of digi-matching Ecal simHits (EB)",171,-85,86);
  simHitsEcalDigiMatchIPhiHist_ = fileService->make<TH1F>("ecalIPhiOfDigiMatchSimHits","iPhi of digi-matching Ecal simHits (EB)",360,1,361);
  digisEcalNumHistEB_ = fileService->make<TH1F>("ecalDigisNumberEB","Number of EB digis matching simhits in event",200,0,1000);
  digisEcalNumHistEE_ = fileService->make<TH1F>("ecalDigisNumberEE","Number of EE digis matching simhits in event",200,0,1000);
  digiOccupancyMapEB_ = fileService->make<TH2F>("ecalDigiOccupancyMapEB","Occupancy of simhit-matching digis EB;i#phi;i#eta",360,1,361,171,-85,86);
  digiOccupancyMapEEP_ = fileService->make<TH2F>("ecalDigiOccupancyMapEEM","Occupancy of simhit-matching digis EEM;ix;iy",100,1,100,100,1,100);
  digiOccupancyMapEEM_ = fileService->make<TH2F>("ecalDigiOccupancyMapEEP","Occupancy of simhit-matching digis EEP;ix;iy",100,1,100,100,1,100);

  // SIM-DIGI: RPC
  residualsRPCRecHitSimDigis_ = fileService->make<TH1F>("residualsRPCRecHitSimDigis","HSCP SimHit - Clossest RPC RecHit",100,-5,5);
  efficiencyRPCRecHitSimDigis_ = fileService->make<TH1F>("efficiencyRPCRecHitSimDigis","HSCP SimHits RecHits Efficiency",2,-0.5,1.5);
  cluSizeDistribution_ = fileService->make<TH1F>("RPCCluSizeDistro","RPC HSCP CluSize Distribution",11,-0.5,10.5);
  rpcTimeOfFlightBarrel_[0] = fileService->make<TH1F>("RPCToFLayer1","RPC HSCP Time Of Flight Layer 1",50,5,100);
  rpcTimeOfFlightBarrel_[1] = fileService->make<TH1F>("RPCToFLayer2","RPC HSCP Time Of Flight Layer 2",50,5,100);
  rpcTimeOfFlightBarrel_[2] = fileService->make<TH1F>("RPCToFLayer3","RPC HSCP Time Of Flight Layer 3",50,5,100);
  rpcTimeOfFlightBarrel_[3] = fileService->make<TH1F>("RPCToFLayer4","RPC HSCP Time Of Flight Layer 4",50,5,100);
  rpcTimeOfFlightBarrel_[4] = fileService->make<TH1F>("RPCToFLayer5","RPC HSCP Time Of Flight Layer 5",50,5,100);
  rpcTimeOfFlightBarrel_[5] = fileService->make<TH1F>("RPCToFLayer6","RPC HSCP Time Of Flight Layer 6",50,5,100);
  rpcBXBarrel_[0] = fileService->make<TH1F>("RPCBXLayer1","RPC HSCP BX Layer 1",5,-0.5,4.5);
  rpcBXBarrel_[1] = fileService->make<TH1F>("RPCBXLayer2","RPC HSCP BX Layer 2",5,-0.5,4.5);
  rpcBXBarrel_[2] = fileService->make<TH1F>("RPCBXLayer3","RPC HSCP BX Layer 3",5,-0.5,4.5);
  rpcBXBarrel_[3] = fileService->make<TH1F>("RPCBXLayer4","RPC HSCP BX Layer 4",5,-0.5,4.5);
  rpcBXBarrel_[4] = fileService->make<TH1F>("RPCBXLayer5","RPC HSCP BX Layer 5",5,-0.5,4.5);
  rpcBXBarrel_[5] = fileService->make<TH1F>("RPCBXLayer6","RPC HSCP BX Layer 6",5,-0.5,4.5);
  rpcTimeOfFlightEndCap_[0]= fileService->make<TH1F>("RPCToFDisk1","RPC HSCP Time Of Flight Disk 1",50,5,100);
  rpcTimeOfFlightEndCap_[1]= fileService->make<TH1F>("RPCToFDisk2","RPC HSCP Time Of Flight Disk 2",50,5,100);
  rpcTimeOfFlightEndCap_[2]= fileService->make<TH1F>("RPCToFDisk3","RPC HSCP Time Of Flight Disk 3",50,5,100);
  rpcBXEndCap_[0] = fileService->make<TH1F>("RPCBXDisk1","RPC HSCP BX Disk 1",5,-0.5,4.5);
  rpcBXEndCap_[1] = fileService->make<TH1F>("RPCBXDisk2","RPC HSCP BX Disk 2",5,-0.5,4.5);
  rpcBXEndCap_[2] = fileService->make<TH1F>("RPCBXDisk3","RPC HSCP BX Disk 3",5,-0.5,4.5);
}
HSCPValidator::~HSCPValidator ( )

Definition at line 193 of file HSCPValidator.cc.

{
 
   // do anything here that needs to be done at desctruction time
   // (e.g. close files, deallocate resources etc.)
//   particleEtaHist_ = fileService->make<TH1F>("particleEta","Eta of gen particle",100,-5,5);
//   particlePhiHist_ = fileService->make<TH1F>("particlePhi","Phi of gen particle",180,-3.15,3.15);
//   particlePHist_ = fileService->make<TH1F>("particleP","Momentum of gen particle",500,0,2000);
//   particlePtHist_ = fileService->make<TH1F>("particlePt","P_{T} of gen particle",500,0,2000);
//   particleMassHist_ = fileService->make<TH1F>("particleMass","Mass of gen particle",1000,0,2000);
//   particleStatusHist_ = fileService->make<TH1F>("particleStatus","Status of gen particle",10,0,10);
//   particleBetaHist_ = fileService->make<TH1F>("particleBeta","Beta of gen particle",100,0,1);
//   particleBetaInverseHist_ = fileService->make<TH1F>("particleBetaInverse","1/#beta of gen particle",100,0,5);

}

Member Function Documentation

void HSCPValidator::analyze ( const edm::Event iEvent,
const edm::EventSetup iSetup 
) [private, virtual]
void HSCPValidator::beginJob ( void  ) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 238 of file HSCPValidator.cc.

{
}
void HSCPValidator::endJob ( void  ) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 244 of file HSCPValidator.cc.

References gather_cfg::cout, intToString(), and particleIdsFoundMap_.

{
  std::string frequencies = "";
  for(std::map<int,int>::const_iterator itr = particleIdsFoundMap_.begin();
      itr != particleIdsFoundMap_.end(); ++itr)
  {
      frequencies+="PDG ID: ";
      frequencies+=intToString(itr->first);
      frequencies+=" Frequency: ";
      frequencies+=intToString(itr->second);
      frequencies+="\n";
  }
  std::cout << "Found PDGIds: " << "\n\n" << frequencies << std::endl;

}
bool HSCPValidator::IncreasedTreshold ( const trigger::TriggerEvent trEv,
const edm::InputTag InputPath,
double  NewThreshold,
int  NObjectAboveThreshold,
bool  averageThreshold 
) [private]

Definition at line 783 of file HSCPValidator.cc.

References trigger::TriggerEvent::filterIds(), trigger::TriggerEvent::filterIndex(), trigger::TriggerEvent::filterKeys(), trigger::TriggerEvent::getObjects(), i, max(), n, trigger::TriggerEvent::sizeFilters(), and python::multivaluedict::sort().

Referenced by makeHLTPlots().

{
   unsigned int filterIndex = trEv.filterIndex(InputPath);
   //if(filterIndex<trEv.sizeFilters())printf("SELECTED INDEX =%i --> %s    XXX   %s\n",filterIndex,trEv.filterTag(filterIndex).label().c_str(), trEv.filterTag(filterIndex).process().c_str());

   if (filterIndex<trEv.sizeFilters()){
      const trigger::Vids& VIDS(trEv.filterIds(filterIndex));
      const trigger::Keys& KEYS(trEv.filterKeys(filterIndex));
      const int nI(VIDS.size());
      const int nK(KEYS.size());
      assert(nI==nK);
      const int n(std::max(nI,nK));
      const trigger::TriggerObjectCollection& TOC(trEv.getObjects());


      if(!averageThreshold){
         int NObjectAboveThresholdObserved = 0;
         for (int i=0; i!=n; ++i) {
            if(TOC[KEYS[i]].pt()> NewThreshold) NObjectAboveThresholdObserved++;
            //cout << "   " << i << " " << VIDS[i] << "/" << KEYS[i] << ": "<< TOC[KEYS[i]].id() << " " << TOC[KEYS[i]].pt() << " " << TOC[KEYS[i]].eta() << " " << TOC[KEYS[i]].phi() << " " << TOC[KEYS[i]].mass()<< endl;
         }
         if(NObjectAboveThresholdObserved>=NObjectAboveThreshold)return true;

      }else{
         std::vector<double> ObjPt;

         for (int i=0; i!=n; ++i) {
            ObjPt.push_back(TOC[KEYS[i]].pt());
            //cout << "   " << i << " " << VIDS[i] << "/" << KEYS[i] << ": "<< TOC[KEYS[i]].id() << " " << TOC[KEYS[i]].pt() << " " << TOC[KEYS[i]].eta() << " " << TOC[KEYS[i]].phi() << " " << TOC[KEYS[i]].mass()<< endl;
         }
         if((int)(ObjPt.size())<NObjectAboveThreshold)return false;
         std::sort(ObjPt.begin(), ObjPt.end());

         double Average = 0;
         for(int i=0; i<NObjectAboveThreshold;i++){
            Average+= ObjPt[ObjPt.size()-1-i];
         }Average/=NObjectAboveThreshold;
         //cout << "AVERAGE = " << Average << endl;

         if(Average>NewThreshold)return true;
      }
   }
   return false;
}
std::string HSCPValidator::intToString ( int  num) [private]

Definition at line 772 of file HSCPValidator.cc.

Referenced by endJob().

{
  using namespace std;
  ostringstream myStream;
  myStream << num << flush;
  return(myStream.str()); //returns the string form of the stringstream object
}
void HSCPValidator::makeGenPlots ( const edm::Event iEvent) [private]

Definition at line 261 of file HSCPValidator.cc.

References abs, spr::find(), edm::Event::getByLabel(), h_genhscp_met, h_genhscp_met_nohscp, h_genhscp_scaloret, h_genhscp_scaloret_nohscp, label_, mag(), AlCaHLTBitMon_ParallelJobs::p, particleBetaHist_, particleBetaInverseHist_, particleEtaHist_, particleIds_, particleIdsFoundMap_, particleMassHist_, particlePhiHist_, particlePHist_, particlePtHist_, particleStatus_, particleStatusHist_, funct::pow(), and mathSSE::sqrt().

Referenced by analyze().

{
  using namespace edm;

  double missingpx=0;
  double missingpy=0;
  double missingpx_nohscp=0;
  double missingpy_nohscp=0;
  double scalorEt=0;
  double scalorEt_nohscp=0;


  Handle<HepMCProduct> evt;
  iEvent.getByLabel(label_, evt);

  HepMC::GenEvent * myGenEvent = new  HepMC::GenEvent(*(evt->GetEvent()));
  for(HepMC::GenEvent::particle_iterator p = myGenEvent->particles_begin();
      p != myGenEvent->particles_end(); ++p )
  {

    if((*p)->status() != particleStatus_)
      continue;
    //calculate MET(neutrino as MET)
    if(abs((*p)->pdg_id())!=12 && abs((*p)->pdg_id())!=14 && abs((*p)->pdg_id())!=16){ //for non-neutrino particles. 
       missingpx-=(*p)->momentum().px();
       missingpy-=(*p)->momentum().py();
       scalorEt+=(*p)->momentum().perp();
    }

    // Check if the particleId is in our R-hadron list
    std::vector<int>::const_iterator partIdItr = find(particleIds_.begin(),particleIds_.end(),(*p)->pdg_id());
    if(partIdItr==particleIds_.end()){
       //calculate MET(neutrino+ HSCP as MET)
       if(abs((*p)->pdg_id())!=12 && abs((*p)->pdg_id())!=14 && abs((*p)->pdg_id())!=16){ //for non-neutrino particles. 
          missingpx_nohscp-=(*p)->momentum().px();
          missingpy_nohscp-=(*p)->momentum().py();
          scalorEt_nohscp+=(*p)->momentum().perp();
        }
    }
    else{

       particleStatusHist_->Fill((*p)->status());
    
       std::pair<std::map<int,int>::iterator,bool> pair = particleIdsFoundMap_.insert(std::make_pair<int,int>((*p)->pdg_id(),1));
       if(!pair.second)
       {
          ++(pair.first->second);
       }
       
       double mag = sqrt(pow((*p)->momentum().px(),2) + pow((*p)->momentum().py(),2) + pow((*p)->momentum().pz(),2) );
       particleEtaHist_->Fill((*p)->momentum().eta());
       particlePhiHist_->Fill((*p)->momentum().phi());
       particlePHist_->Fill(mag);
       particlePtHist_->Fill((*p)->momentum().perp());
       particleMassHist_->Fill((*p)->generated_mass());
       float particleP = mag;
       float particleM = (*p)->generated_mass();
       particleBetaHist_->Fill(particleP/sqrt(particleP*particleP+particleM*particleM));
       particleBetaInverseHist_->Fill(sqrt(particleP*particleP+particleM*particleM)/particleP);
    }
       
  }

  h_genhscp_met->Fill(sqrt(missingpx*missingpx+missingpy*missingpy));
  h_genhscp_met_nohscp->Fill(sqrt(missingpx_nohscp*missingpx_nohscp+missingpy_nohscp*missingpy_nohscp));
  h_genhscp_scaloret->Fill(scalorEt);
  h_genhscp_scaloret_nohscp->Fill(scalorEt_nohscp);


  delete myGenEvent; 



}
void HSCPValidator::makeHLTPlots ( const edm::Event iEvent) [private]

Definition at line 364 of file HSCPValidator.cc.

References gather_cfg::cout, edm::Event::getByLabel(), hltjet140_, hltmet100_, hltmu15_, IncreasedTreshold(), and edm::Event::triggerResultsByName().

Referenced by analyze().

{
  using namespace edm;
  //get HLT infos
     

      edm::TriggerResultsByName tr = iEvent.triggerResultsByName("HLT");

      if(!tr.isValid()){
         std::cout<<"Tirgger Results not available"<<std::endl;
       }
 
//     std::cout<<"trigger names are : ";
//      for(unsigned int i=0;i<tr.size();i++){
//         std::cout<<" "<<tr.triggerName(i);
//      }
//      std::cout<<std::endl;

   edm::Handle< trigger::TriggerEvent > trEvHandle;
   iEvent.getByLabel("hltTriggerSummaryAOD", trEvHandle);
   trigger::TriggerEvent trEv = *trEvHandle;


   unsigned int TrIndex_Unknown     = tr.size();


   // HLT TRIGGER BASED ON 1 MUON!
   if(TrIndex_Unknown != tr.triggerIndex("HLT_Mu15_v1")){
      if(tr.accept(tr.triggerIndex("HLT_Mu15_v1"))) hltmu15_->Fill(1);
      else hltmu15_->Fill(0);
   }else{
      if(TrIndex_Unknown != tr.triggerIndex("HLT_Mu11")){
         if(IncreasedTreshold(trEv, InputTag("hltSingleMu11L3Filtered11","","HLT"), 15, 1, false))  hltmu15_->Fill(1);
         else hltmu15_->Fill(0);
      }else{
         if(TrIndex_Unknown != tr.triggerIndex("HLT_Mu9")){
            if(IncreasedTreshold(trEv, InputTag("hltSingleMu9L3Filtered9","","HLT"), 15, 1, false)) hltmu15_->Fill(1);
            else hltmu15_->Fill(0);
         }else{           printf("BUG with HLT_Mu15\n");

         }
      }
   }

 // HLT TRIGGER BASED ON MET!
   if(TrIndex_Unknown != tr.triggerIndex("HLT_MET100_v3")){
      if(tr.accept(tr.triggerIndex("HLT_MET100_v3")))hltmet100_->Fill(1);
      else hltmet100_->Fill(0);
   }else{
      if(TrIndex_Unknown != tr.triggerIndex("HLT_MET100_v2")){
          if(tr.accept(tr.triggerIndex("HLT_MET100_v2"))) hltmet100_->Fill(1);
          else hltmet100_->Fill(0);
      }else{
         if(TrIndex_Unknown != tr.triggerIndex("HLT_MET100")){
             if(tr.accept(tr.triggerIndex("HLT_MET100"))) hltmet100_->Fill(1);
             else hltmet100_->Fill(0);
         }else{
           printf("BUG with HLT_MET100\n");

         }
      }
   }

  // HLT TRIGGER BASED ON 1 JET!
   if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet140U_v3")){
       if(tr.accept(tr.triggerIndex("HLT_Jet140U_v3")))hltjet140_->Fill(1);
       else   hltjet140_->Fill(0);
   }else{ 
      if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet140U_v1")){
          if(tr.accept(tr.triggerIndex("HLT_Jet140U_v1")))hltjet140_->Fill(1);
          else   hltjet140_->Fill(0);
      }else{
         if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet100U")){
             if(IncreasedTreshold(trEv, InputTag("hlt1jet100U","","HLT"), 140, 1, false))hltjet140_->Fill(1);
             else   hltjet140_->Fill(0);
         }else{
            if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet70U")){   
               if(IncreasedTreshold(trEv, InputTag("hlt1jet70U","","HLT"), 140, 1, false))hltjet140_->Fill(1);
               else   hltjet140_->Fill(0);
            }else{
               if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet50U")){
                  if(IncreasedTreshold(trEv, InputTag("hlt1jet50U","","HLT"), 140, 1, false))hltjet140_->Fill(1);
                  else   hltjet140_->Fill(0); 
               }else{
                  printf("BUG with HLT_Jet140\n");

               }
            }
         }
      }
   }



  
}
void HSCPValidator::makeSimDigiPlotsECAL ( const edm::Event iEvent) [private]

Definition at line 462 of file HSCPValidator.cc.

References EcalMGPASample::adc(), gather_cfg::cout, digiOccupancyMapEB_, digiOccupancyMapEEM_, digiOccupancyMapEEP_, digisEcalNumHistEB_, digisEcalNumHistEE_, EBDigiCollection_, ebSimHitTag_, EEDigiCollection_, eeSimHitTag_, spr::find(), edm::Event::getByLabel(), i, particleIds_, EcalDataFrame::sample(), simHitsEcalDigiMatchEnergyHistEB_, simHitsEcalDigiMatchEnergyHistEE_, simHitsEcalDigiMatchEnergyVsTimeHistEB_, simHitsEcalDigiMatchEnergyVsTimeHistEE_, simHitsEcalDigiMatchIEtaHist_, simHitsEcalDigiMatchIPhiHist_, simHitsEcalDigiMatchTimeHistEB_, simHitsEcalDigiMatchTimeHistEE_, simHitsEcalEnergyHistEB_, simHitsEcalEnergyHistEE_, simHitsEcalEnergyVsTimeHistEB_, simHitsEcalEnergyVsTimeHistEE_, simHitsEcalNumHistEB_, simHitsEcalNumHistEE_, simHitsEcalTimeHistEB_, simHitsEcalTimeHistEE_, simTrackTag_, and EcalDataFrame::size().

Referenced by analyze().

{
  using namespace edm;
  // EB SimHits
  Handle<PCaloHitContainer> ebSimHits;
  iEvent.getByLabel(ebSimHitTag_, ebSimHits);
  if(!ebSimHits.isValid())
  {
    std::cout << "Cannot get EBSimHits from event!" << std::endl;
    return;
  }
  // EE SimHits
  Handle<PCaloHitContainer> eeSimHits;
  iEvent.getByLabel(eeSimHitTag_, eeSimHits);
  if(!eeSimHits.isValid())
  {
    std::cout << "Cannot get EESimHits from event!" << std::endl;
    return;
  }
  // SimTracks
  Handle<SimTrackContainer> simTracks;
  iEvent.getByLabel(simTrackTag_,simTracks);
  if(!simTracks.isValid())
  {
    std::cout << "Cannot get SimTracks from event!" << std::endl;
    return;
  }
  // EB Digis
  Handle<EBDigiCollection> ebDigis;
  iEvent.getByLabel(EBDigiCollection_,ebDigis);
  if(!ebDigis.isValid())
  {
    std::cout << "Cannot get EBDigis from event!" << std::endl;
    return;
  }
  // EE Digis
  Handle<EEDigiCollection> eeDigis;
  iEvent.getByLabel(EEDigiCollection_,eeDigis);
  if(!eeDigis.isValid())
  {
    std::cout << "Cannot get EEDigis from event!" << std::endl;
    return;
  }

  // EB first
  // 1) Look at SimTracks, getting only the HSCP tracks
  // 2) Match to PCaloHits
  // 3) Match to digis
  int numMatchedSimHitsEventEB = 0;
  int numMatchedDigisEventEB = 0;
  const PCaloHitContainer* phitsEB=0;
  phitsEB = ebSimHits.product();
  for(SimTrackContainer::const_iterator simTrack = simTracks->begin(); simTrack != simTracks->end(); ++simTrack)
  {
    // Check if the particleId is in our list
    std::vector<int>::const_iterator partIdItr = find(particleIds_.begin(),particleIds_.end(),simTrack->type());
    if(partIdItr==particleIds_.end())
      continue;

    PCaloHitContainer mySimHitsEB;
    std::vector<EBDataFrame> myDigisEB;

    //int particleId = simTrack->type();
    int trackId = simTrack->trackId();
    PCaloHitContainer::const_iterator simHitItr = phitsEB->begin();
    while(simHitItr != phitsEB->end())
    {
      if(simHitItr->geantTrackId()==trackId)
        mySimHitsEB.push_back(*simHitItr);
      ++simHitItr;
    }
    if(mySimHitsEB.size()==0)
    {
      std::cout << "Could not find matching EB PCaloHits for SimTrack id: " << trackId << ".  Skipping this SimTrack" << std::endl;
      continue;
    }

    // Loop over matching PCaloHits
    for(simHitItr = mySimHitsEB.begin(); simHitItr != mySimHitsEB.end(); ++simHitItr)
    {
      simHitsEcalEnergyHistEB_->Fill(simHitItr->energy());
      simHitsEcalTimeHistEB_->Fill(simHitItr->time());
      simHitsEcalEnergyVsTimeHistEB_->Fill(simHitItr->time(),simHitItr->energy());
      EBDetId simHitId = EBDetId(simHitItr->id());
      std::cout << "SimHit DetId found: " << simHitId << " for PDGid: " << simTrack->type() << std::endl;
      //std::cout << "SimHit hashedIndex: " << simHitId.hashedIndex() << std::endl;
      std::cout << "SimHit energy: " << simHitItr->energy() << " time: " << simHitItr->time() << std::endl;
      ++numMatchedSimHitsEventEB;

      EBDigiCollection::const_iterator digiItr = ebDigis->begin();
      while(digiItr != ebDigis->end() && (digiItr->id() != simHitId))
        ++digiItr;
      if(digiItr==ebDigis->end())
      {
        // Commented out for debugging ease, Aug 3 2009
        std::cout << "Could not find simHit detId: " << simHitId << "in EBDigiCollection!" << std::endl;
        continue;
      }
      std::vector<EBDataFrame>::const_iterator myDigiItr = myDigisEB.begin();
      while(myDigiItr != myDigisEB.end() && (digiItr->id() != myDigiItr->id()))
        ++myDigiItr;
      if(myDigiItr!=myDigisEB.end())
        continue; // if this digi is already in the list, skip it

      ++numMatchedDigisEventEB;
      EBDataFrame df = *digiItr;
      myDigisEB.push_back(df);
      std::cout << "SAMPLE ADCs: " << "\t";
      for(int i=0; i<10;++i)
        std::cout << i << "\t";
      std::cout << std::endl << "\t\t";
      for(int i=0; i < df.size(); ++i)
      {
        std::cout << df.sample(i).adc() << "\t";
      }
      std::cout << std::endl << std::endl;

      simHitsEcalDigiMatchEnergyHistEB_->Fill(simHitItr->energy());
      simHitsEcalDigiMatchTimeHistEB_->Fill(simHitItr->time());
      simHitsEcalDigiMatchEnergyVsTimeHistEB_->Fill(simHitItr->time(),simHitItr->energy());
      simHitsEcalDigiMatchIEtaHist_->Fill(((EBDetId)digiItr->id()).ieta());
      simHitsEcalDigiMatchIPhiHist_->Fill(((EBDetId)digiItr->id()).iphi());
      digiOccupancyMapEB_->Fill(((EBDetId)digiItr->id()).iphi(),((EBDetId)digiItr->id()).ieta());
    }
  }
  simHitsEcalNumHistEB_->Fill(numMatchedSimHitsEventEB);
  digisEcalNumHistEB_->Fill(numMatchedDigisEventEB);

  // EE next
  int numMatchedSimHitsEventEE = 0;
  int numMatchedDigisEventEE = 0;
  const PCaloHitContainer* phitsEE=0;
  phitsEE = eeSimHits.product();
  for(SimTrackContainer::const_iterator simTrack = simTracks->begin(); simTrack != simTracks->end(); ++simTrack)
  {
    // Check if the particleId is in our list
    std::vector<int>::const_iterator partIdItr = find(particleIds_.begin(),particleIds_.end(),simTrack->type());
    if(partIdItr==particleIds_.end())
      continue;

    PCaloHitContainer mySimHitsEE;
    std::vector<EEDataFrame> myDigisEE;

    //int particleId = simTrack->type();
    int trackId = simTrack->trackId();
    PCaloHitContainer::const_iterator simHitItr = phitsEE->begin();
    while(simHitItr != phitsEE->end())
    {
      if(simHitItr->geantTrackId()==trackId)
        mySimHitsEE.push_back(*simHitItr);
      ++simHitItr;
    }
    if(mySimHitsEE.size()==0)
    {
      std::cout << "Could not find matching EE PCaloHits for SimTrack id: " << trackId << ".  Skipping this SimTrack" << std::endl;
      continue;
    }

    // Loop over matching PCaloHits
    for(simHitItr = mySimHitsEE.begin(); simHitItr != mySimHitsEE.end(); ++simHitItr)
    {
      simHitsEcalEnergyHistEE_->Fill(simHitItr->energy());
      simHitsEcalTimeHistEE_->Fill(simHitItr->time());
      simHitsEcalEnergyVsTimeHistEE_->Fill(simHitItr->time(),simHitItr->energy());
      EEDetId simHitId = EEDetId(simHitItr->id());
      std::cout << "SimHit DetId found: " << simHitId << " for PDGid: " << simTrack->type() << std::endl;
      //std::cout << "SimHit hashedIndex: " << simHitId.hashedIndex() << std::endl;
      std::cout << "SimHit energy: " << simHitItr->energy() << " time: " << simHitItr->time() << std::endl;
      ++numMatchedSimHitsEventEE;

      EEDigiCollection::const_iterator digiItr = eeDigis->begin();
      while(digiItr != eeDigis->end() && (digiItr->id() != simHitId))
        ++digiItr;
      if(digiItr==eeDigis->end())
      {
        // Commented out for debugging ease, Aug 3 2009
        std::cout << "Could not find simHit detId: " << simHitId << "in EEDigiCollection!" << std::endl;
        continue;
      }
      std::vector<EEDataFrame>::const_iterator myDigiItr = myDigisEE.begin();
      while(myDigiItr != myDigisEE.end() && (digiItr->id() != myDigiItr->id()))
        ++myDigiItr;
      if(myDigiItr!=myDigisEE.end())
        continue; // if this digi is already in the list, skip it

      ++numMatchedDigisEventEE;
      EEDataFrame df = *digiItr;
      myDigisEE.push_back(df);
      std::cout << "SAMPLE ADCs: " << "\t";
      for(int i=0; i<10;++i)
        std::cout << i << "\t";
      std::cout << std::endl << "\t\t";
      for(int i=0; i < df.size(); ++i)
      {
        std::cout << df.sample(i).adc() << "\t";
      }
      std::cout << std::endl << std::endl;

      simHitsEcalDigiMatchEnergyHistEE_->Fill(simHitItr->energy());
      simHitsEcalDigiMatchTimeHistEE_->Fill(simHitItr->time());
      simHitsEcalDigiMatchEnergyVsTimeHistEE_->Fill(simHitItr->time(),simHitItr->energy());
      if(((EEDetId)digiItr->id()).zside() > 0)
        digiOccupancyMapEEP_->Fill(((EEDetId)digiItr->id()).ix(),((EEDetId)digiItr->id()).iy());
      else if(((EEDetId)digiItr->id()).zside() < 0)
        digiOccupancyMapEEM_->Fill(((EEDetId)digiItr->id()).ix(),((EEDetId)digiItr->id()).iy());
    }
  }
  simHitsEcalNumHistEE_->Fill(numMatchedSimHitsEventEE);
  digisEcalNumHistEE_->Fill(numMatchedDigisEventEE);

}
void HSCPValidator::makeSimDigiPlotsRPC ( const edm::Event iEvent) [private]

Definition at line 675 of file HSCPValidator.cc.

References cluSizeDistribution_, gather_cfg::cout, efficiencyRPCRecHitSimDigis_, PV3DBase< T, PVType, FrameType >::eta(), HcalObjRepresent::Fill(), spr::find(), edm::Event::getByLabel(), edm::Event::getManyByType(), i, RPCDetId::layer(), PV3DBase< T, PVType, FrameType >::mag(), DetId::Muon, RPCGeomServ::name(), particleIds_, PV3DBase< T, PVType, FrameType >::phi(), RPCDetId::region(), residualsRPCRecHitSimDigis_, dedefs::RPC, rpcBXBarrel_, rpcBXEndCap_, rpcGeo, python::rpcRecHits_cfi::rpcRecHits, rpcTimeOfFlightBarrel_, rpcTimeOfFlightEndCap_, RPCDetId::station(), GeomDet::surface(), Surface::toGlobal(), and PV3DBase< T, PVType, FrameType >::x().

Referenced by analyze().

{
  using namespace edm;

  //std::cout << " Getting the SimHits " <<std::endl;
  std::vector<Handle<edm::PSimHitContainer> > theSimHitContainers;
  iEvent.getManyByType(theSimHitContainers);
  //std::cout << " The Number of sim Hits is  " << theSimHitContainers.size() <<std::endl;

  Handle<RPCRecHitCollection> rpcRecHits;
  iEvent.getByLabel("rpcRecHits","",rpcRecHits);

  //SimTrack Stuff
  std::vector<PSimHit> theSimHits;

  for (int i = 0; i < int(theSimHitContainers.size()); i++){
    theSimHits.insert(theSimHits.end(),theSimHitContainers.at(i)->begin(),theSimHitContainers.at(i)->end());
  } 


  for (std::vector<PSimHit>::const_iterator iHit = theSimHits.begin(); iHit != theSimHits.end(); iHit++){

    std::vector<int>::const_iterator partIdItr = find(particleIds_.begin(),particleIds_.end(),(*iHit).particleType());
    if(partIdItr==particleIds_.end())
      continue;

    DetId theDetUnitId((*iHit).detUnitId());

    DetId simdetid= DetId((*iHit).detUnitId());

    if(simdetid.det()==DetId::Muon &&  simdetid.subdetId()== MuonSubdetId::RPC){//Only RPCs

      RPCDetId rollId(theDetUnitId);
      RPCGeomServ rpcsrv(rollId);

      //std::cout << " Reading the Roll"<<std::endl;
      const RPCRoll* rollasociated = rpcGeo->roll(rollId);

      //std::cout << " Getting the Surface"<<std::endl;
      const BoundPlane & RPCSurface = rollasociated->surface(); 

      GlobalPoint SimHitInGlobal = RPCSurface.toGlobal((*iHit).localPosition());

      std::cout<<"\t\t We have an RPC Sim Hit! in t="<<(*iHit).timeOfFlight()<<"ns "<<rpcsrv.name()<<" Global postition="<<SimHitInGlobal<<std::endl;

      int layer = 0;

      if(rollId.station()==1&&rollId.layer()==1) layer = 1;
      else if(rollId.station()==1&&rollId.layer()==2) layer = 2;
      else if(rollId.station()==2&&rollId.layer()==1) layer = 3;
      else if(rollId.station()==2&&rollId.layer()==2)  layer = 4;
      else if(rollId.station()==3) layer = 5;
      else if(rollId.station()==4) layer = 6;

      if(rollId.region()==0){
        rpcTimeOfFlightBarrel_[layer-1]->Fill((*iHit).timeOfFlight());
      }else{
        rpcTimeOfFlightEndCap_[rollId.station()-1]->Fill((*iHit).timeOfFlight());
      }

      std::cout<<"\t\t r="<<SimHitInGlobal.mag()<<" phi="<<SimHitInGlobal.phi()<<" eta="<<SimHitInGlobal.eta()<<std::endl;

      int cluSize = 0;
      int bx = 100;
      float minres = 3000.;

      std::cout<<"\t \t \t \t Getting RecHits in Roll Asociated"<<std::endl;

      typedef std::pair<RPCRecHitCollection::const_iterator, RPCRecHitCollection::const_iterator> rangeRecHits;
      rangeRecHits recHitCollection =  rpcRecHits->get(rollId);
      RPCRecHitCollection::const_iterator recHit;

      efficiencyRPCRecHitSimDigis_->Fill(0);

      for(recHit = recHitCollection.first; recHit != recHitCollection.second ; recHit++){
        LocalPoint recHitPos=recHit->localPosition();
        float res=(*iHit).localPosition().x()- recHitPos.x();
        if(fabs(res)<fabs(minres)){
          minres=res;
          cluSize = recHit->clusterSize();
          bx=recHit->BunchX();
          std::cout<<"\t New Min Res "<<res<<"cm."<<std::endl;
        }
      }

      if(minres<3000.){
        residualsRPCRecHitSimDigis_->Fill(minres);
        efficiencyRPCRecHitSimDigis_->Fill(1);
        cluSizeDistribution_->Fill(cluSize);
        if(rollId.region()==0) rpcBXBarrel_[layer-1]->Fill(bx);
        else rpcBXEndCap_[rollId.station()-1]->Fill(bx);
      }
    }
  }
}
void HSCPValidator::makeSimTrackPlots ( const edm::Event iEvent) [private]

Definition at line 337 of file HSCPValidator.cc.

References spr::find(), edm::Event::getByLabel(), particleIds_, simTrackParticleBetaHist_, simTrackParticleEtaHist_, simTrackParticlePhiHist_, simTrackParticlePHist_, and simTrackParticlePtHist_.

Referenced by analyze().

{  using namespace edm;
  //get sim track infos
  Handle<edm::SimTrackContainer> simTracksHandle;
  iEvent.getByLabel("g4SimHits",simTracksHandle);
  const SimTrackContainer simTracks = *(simTracksHandle.product());

  SimTrackContainer::const_iterator simTrack;

  for (simTrack = simTracks.begin(); simTrack != simTracks.end(); ++simTrack){
     // Check if the particleId is in our list
     std::vector<int>::const_iterator partIdItr = find(particleIds_.begin(),particleIds_.end(),simTrack->type());
     if(partIdItr==particleIds_.end()) continue;

     simTrackParticleEtaHist_->Fill((*simTrack).momentum().eta());
     simTrackParticlePhiHist_->Fill((*simTrack).momentum().phi());
     simTrackParticlePHist_->Fill((*simTrack).momentum().P());
     
     simTrackParticlePtHist_->Fill((*simTrack).momentum().pt());
     
     simTrackParticleBetaHist_->Fill((*simTrack).momentum().P()/(*simTrack).momentum().e());  
     


  }
}

Member Data Documentation

Definition at line 124 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

Definition at line 118 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 120 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 119 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 116 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 117 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 59 of file HSCPValidator.h.

Referenced by analyze().

Definition at line 60 of file HSCPValidator.h.

Referenced by analyze().

Definition at line 63 of file HSCPValidator.h.

Definition at line 62 of file HSCPValidator.h.

Referenced by analyze().

Definition at line 61 of file HSCPValidator.h.

Referenced by analyze().

Definition at line 95 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

Definition at line 92 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

Definition at line 96 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

Definition at line 93 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

Definition at line 123 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

Definition at line 78 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 79 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 80 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 81 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::hltjet140_ [private]

Definition at line 131 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeHLTPlots().

TH1F* HSCPValidator::hltmet100_ [private]

Definition at line 130 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeHLTPlots().

TH1F* HSCPValidator::hltmu15_ [private]

Definition at line 132 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeHLTPlots().

Definition at line 66 of file HSCPValidator.h.

Referenced by makeGenPlots().

Definition at line 76 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 77 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 70 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

std::vector<int> HSCPValidator::particleIds_ [private]
std::map<int,int> HSCPValidator::particleIdsFoundMap_ [private]

Definition at line 69 of file HSCPValidator.h.

Referenced by endJob(), and makeGenPlots().

Definition at line 74 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 71 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 72 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 73 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 68 of file HSCPValidator.h.

Referenced by makeGenPlots().

Definition at line 75 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

Definition at line 122 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

TH1F* HSCPValidator::rpcBXBarrel_[6] [private]

Definition at line 126 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

TH1F* HSCPValidator::rpcBXEndCap_[3] [private]

Definition at line 128 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

Definition at line 98 of file HSCPValidator.h.

Referenced by analyze(), and makeSimDigiPlotsRPC().

Definition at line 97 of file HSCPValidator.h.

Definition at line 125 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

Definition at line 127 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

Definition at line 108 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 111 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 110 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 113 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 114 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 115 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 109 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 112 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 100 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 104 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 103 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 107 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 102 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 106 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 101 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 105 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

Definition at line 89 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

Definition at line 85 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

Definition at line 86 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

Definition at line 87 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

Definition at line 88 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

Definition at line 94 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().