HSCPValidator Class Reference

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

Inheritance diagram for HSCPValidator:

Public Member Functions
	HSCPValidator (const edm::ParameterSet &)
	~HSCPValidator ()
Public Member Functions inherited from edm::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
	EDAnalyzer ()
ModuleDescription const &	moduleDescription () const
std::string	workerType () const
virtual	~EDAnalyzer ()
Public Member Functions inherited from edm::EDConsumerBase
	EDConsumerBase ()
ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const
void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const
void	labelsForToken (EDGetToken iToken, Labels &oLabels) const
bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const
bool	registeredToConsumeMany (TypeID const &, BranchType) const
void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
virtual	~EDConsumerBase ()

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, double etaCut, int NObjectAboveThreshold, bool averageThreshold)
std::string	intToString (int num)
void	makeGenPlots (const edm::Event &iEvent)
void	makeHLTPlots (const edm::Event &iEvent)
void	makeRecoPlots (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 *	dedxVsp
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 *	hltjet
TH1F *	hltmet
TH1F *	hltmu
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_
TH2F *	RecoHSCPPtVsGenPt
TH1F *	residualsRPCRecHitSimDigis_
TH1F *	rpcBXBarrel_ [6]
TH1F *	rpcBXEndCap_ [3]
edm::ESHandle< RPCGeometry >	rpcGeo
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_

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType
Static Public Member Functions inherited from edm::EDAnalyzer
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &)
Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)
ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...
template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()
void	consumesMany (const TypeToGet &id)
template<BranchType B>
void	consumesMany (const TypeToGet &id)
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Detailed Description

Description: [one line class summary]

Implementation: [Notes on implementation]

Definition at line 40 of file HSCPValidator.h.

Constructor & Destructor Documentation

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

explicit

Definition at line 97 of file HSCPValidator.cc.

References cluSizeDistribution_, dedxVsp, digiOccupancyMapEB_, digiOccupancyMapEEM_, digiOccupancyMapEEP_, digisEcalNumHistEB_, digisEcalNumHistEE_, efficiencyRPCRecHitSimDigis_, h_genhscp_met, h_genhscp_met_nohscp, h_genhscp_scaloret, h_genhscp_scaloret_nohscp, hltjet, hltmet, hltmu, TFileService::make(), particleBetaHist_, particleBetaInverseHist_, particleEtaHist_, particleMassHist_, particlePhiHist_, particlePHist_, particlePtHist_, particleStatusHist_, RecoHSCPPtVsGenPt, 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);
//reco track Info

  RecoHSCPPtVsGenPt= fileService->make<TH2F>("Recovsgenpt","RecovsGen",100,0,1000,100,0,1000);
  dedxVsp = fileService->make<TH2F>("dedxvsp","dedxvsp",100,0,1000,100,0,10);
//HLT Info
  hltmet = fileService->make<TH1F>("HLT_MET","MET",3,-1,2);
  hltjet = fileService->make<TH1F>("HLT_JET","JET",3,-1,2);
  hltmu = fileService->make<TH1F>("HLT_Mu","Mu",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 196 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  )

privatevirtual

Implements edm::EDAnalyzer.

Definition at line 219 of file HSCPValidator.cc.

References doGenPlots_, doHLTPlots_, doRecoPlots_, doSimDigiPlots_, doSimTrackPlots_, edm::EventSetup::get(), makeGenPlots(), makeHLTPlots(), makeRecoPlots(), makeSimDigiPlotsECAL(), makeSimDigiPlotsRPC(), makeSimTrackPlots(), and rpcGeo.

{
  using namespace edm;
  iSetup.get<MuonGeometryRecord>().get(rpcGeo);


  if(doGenPlots_)
    makeGenPlots(iEvent);
  if(doSimTrackPlots_)
    makeSimTrackPlots(iEvent);
  if(doSimDigiPlots_){
    makeSimDigiPlotsECAL(iEvent);
    makeSimDigiPlotsRPC(iEvent);
  }
  if(doHLTPlots_){
    makeHLTPlots(iEvent);
  }
  if(doRecoPlots_){
     makeRecoPlots(iEvent);
  }
}

void HSCPValidator::beginJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 244 of file HSCPValidator.cc.

{
}

void HSCPValidator::endJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 250 of file HSCPValidator.cc.

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

{
  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, double  etaCut, int  NObjectAboveThreshold, bool  averageThreshold  )

private

Definition at line 836 of file HSCPValidator.cc.

References eta(), trigger::TriggerEvent::filterIds(), trigger::TriggerEvent::filterIndex(), trigger::TriggerEvent::filterKeys(), trigger::TriggerEvent::getObjects(), i, max(), n, RecoTauCleanerPlugins::pt, 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 && fabs(TOC[KEYS[i]].eta())<etaCut) 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 823 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 267 of file HSCPValidator.cc.

References funct::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 371 of file HSCPValidator.cc.

References gather_cfg::cout, edm::Event::getByLabel(), hltjet, hltmet, hltmu, i, 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;
      }
 
   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_Mu40_v1")){
      if(tr.accept(tr.triggerIndex("HLT_Mu40_v1"))) hltmu->Fill(1);
      else {hltmu->Fill(0);}
   }
   else{
      if(TrIndex_Unknown != tr.triggerIndex("HLT_Mu30_v1")){
         if(IncreasedTreshold(trEv, InputTag("hltSingleMu30L3Filtered30","","HLT"), 40,2.1, 1, false)) hltmu->Fill(1);
         else hltmu->Fill(0);
      }else{
         printf("BUG with HLT_Mu\n");
         std::cout<<"trigger names are : ";
         for(unsigned int i=0;i<tr.size();i++){
            std::cout<<" "<<tr.triggerName(i);
         }
         std::cout<<std::endl;       
      }
   }


 // HLT TRIGGER BASED ON MET!
   if(TrIndex_Unknown != tr.triggerIndex("HLT_PFMHT150_v3")){
      if(tr.accept(tr.triggerIndex("HLT_PFMHT150_v3")))hltmet->Fill(1);
      else hltmet->Fill(0);
   }else{
      if(TrIndex_Unknown != tr.triggerIndex("HLT_PFMHT150_v2")){
          if(tr.accept(tr.triggerIndex("HLT_PFMHT150_v2"))) hltmet->Fill(1);
          else hltmet->Fill(0);
      }
      else{
         printf("BUG with HLT_MET\n");
         
      }
   }
   

  // HLT TRIGGER BASED ON 1 JET!
   if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet370_v1")){
       if(tr.accept(tr.triggerIndex("HLT_Jet370_v1")))hltjet->Fill(1);
       else   hltjet->Fill(0);
   }else{ 
      if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet100U")){
         if(IncreasedTreshold(trEv, InputTag("hlt1jet100U","","HLT"), 140, 5.,1, false))hltjet->Fill(1);
         else   hltjet->Fill(0);
      }else{
         if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet70U")){   
            if(IncreasedTreshold(trEv, InputTag("hlt1jet70U","","HLT"), 140, 5.,1, false))hltjet->Fill(1);
            else   hltjet->Fill(0);
         }else{
            if(TrIndex_Unknown != tr.triggerIndex("HLT_Jet50U")){
               if(IncreasedTreshold(trEv, InputTag("hlt1jet50U","","HLT"), 140,2.5, 1, false))hltjet->Fill(1);
               else   hltjet->Fill(0); 
            }else{
               printf("BUG with HLT_Jet\n");
               
            }
         }
      }
   }
   



  
}

void HSCPValidator::makeRecoPlots ( const edm::Event &  iEvent )

private

Definition at line 670 of file HSCPValidator.cc.

References dedxVsp, spr::find(), edm::Event::getByLabel(), i, label_, AlCaHLTBitMon_ParallelJobs::p, particleIds_, particleStatus_, funct::pow(), dt_dqm_sourceclient_common_cff::reco, RecoHSCPPtVsGenPt, and mathSSE::sqrt().

Referenced by analyze().

{
  using namespace edm;
   using namespace reco;

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

  Handle<TrackCollection> tkTracks;
  iEvent.getByLabel("generalTracks",tkTracks);
  const reco::TrackCollection tkTC = *(tkTracks.product());
  
  Handle<ValueMap<DeDxData> >          dEdxTrackHandle;
  iEvent.getByLabel("dedxHarmonic2", dEdxTrackHandle);
  const ValueMap<DeDxData> dEdxTrack = *dEdxTrackHandle.product();
  
  for(size_t i=0; i<tkTracks->size(); i++){
     
     reco::TrackRef trkRef = reco::TrackRef(tkTracks, i);
        
     if(trkRef->pt()<5 || trkRef->normalizedChi2()>10) continue;
 
     double minR= 999;
     double hscpgenPt =-1;
     
     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;
        // 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 DeltaR
           double distance =pow((*p)->momentum().eta()-trkRef->eta(),2)+pow((*p)->momentum().phi()-trkRef->phi(),2);
           distance =sqrt(distance);
           if(distance <minR ){
              minR = distance;
              hscpgenPt= (*p)->momentum().perp();
           }
        }
     }
     RecoHSCPPtVsGenPt->Fill(trkRef->pt(),hscpgenPt);
 
     delete myGenEvent;     
     double dedx = dEdxTrack[trkRef].dEdx();
     dedxVsp->Fill( trkRef->p(),dedx);
       
  }  

}

void HSCPValidator::makeSimDigiPlotsECAL ( const edm::Event &  iEvent )

private

Definition at line 458 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 726 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_, MuonSubdetId::RPC, rpcBXBarrel_, rpcBXEndCap_, rpcGeo, rpcRecHits_cfi::rpcRecHits, rpcTimeOfFlightBarrel_, rpcTimeOfFlightEndCap_, RPCDetId::station(), GeomDet::surface(), 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 344 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());  
     
     // std::cout<<"Particle:"<<simTrack->type()<<" Charge:"<<simTrack->charge()<<std::endl;

  }
}

Member Data Documentation

TH1F* HSCPValidator::cluSizeDistribution_

private

Definition at line 124 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

TH2F* HSCPValidator::dedxVsp

private

Definition at line 135 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeRecoPlots().

TH2F* HSCPValidator::digiOccupancyMapEB_

private

Definition at line 118 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH2F* HSCPValidator::digiOccupancyMapEEM_

private

Definition at line 120 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH2F* HSCPValidator::digiOccupancyMapEEP_

private

Definition at line 119 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::digisEcalNumHistEB_

private

Definition at line 116 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::digisEcalNumHistEE_

private

Definition at line 117 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

bool HSCPValidator::doGenPlots_

private

Definition at line 59 of file HSCPValidator.h.

Referenced by analyze().

bool HSCPValidator::doHLTPlots_

private

Definition at line 60 of file HSCPValidator.h.

Referenced by analyze().

bool HSCPValidator::doRecoPlots_

private

Definition at line 63 of file HSCPValidator.h.

Referenced by analyze().

bool HSCPValidator::doSimDigiPlots_

private

Definition at line 62 of file HSCPValidator.h.

Referenced by analyze().

bool HSCPValidator::doSimTrackPlots_

private

Definition at line 61 of file HSCPValidator.h.

Referenced by analyze().

edm::InputTag HSCPValidator::EBDigiCollection_

private

Definition at line 95 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

edm::InputTag HSCPValidator::ebSimHitTag_

private

Definition at line 92 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

edm::InputTag HSCPValidator::EEDigiCollection_

private

Definition at line 96 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

edm::InputTag HSCPValidator::eeSimHitTag_

private

Definition at line 93 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().

TH1F* HSCPValidator::efficiencyRPCRecHitSimDigis_

private

Definition at line 123 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

TH1F* HSCPValidator::h_genhscp_met

private

Definition at line 78 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::h_genhscp_met_nohscp

private

Definition at line 79 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::h_genhscp_scaloret

private

Definition at line 80 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::h_genhscp_scaloret_nohscp

private

Definition at line 81 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::hltjet

private

Definition at line 131 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeHLTPlots().

TH1F* HSCPValidator::hltmet

private

Definition at line 130 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeHLTPlots().

TH1F* HSCPValidator::hltmu

private

Definition at line 132 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeHLTPlots().

edm::InputTag HSCPValidator::label_

private

Definition at line 66 of file HSCPValidator.h.

Referenced by Mixins._Labelable::_findDependencies(), Mixins._TypedParameterizable::dumpPython(), makeGenPlots(), makeRecoPlots(), and Mixins._Labelable::setLabel().

TH1F* HSCPValidator::particleBetaHist_

private

Definition at line 76 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::particleBetaInverseHist_

private

Definition at line 77 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::particleEtaHist_

private

Definition at line 70 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

std::vector<int> HSCPValidator::particleIds_

private

Definition at line 67 of file HSCPValidator.h.

Referenced by makeGenPlots(), makeRecoPlots(), makeSimDigiPlotsECAL(), makeSimDigiPlotsRPC(), and makeSimTrackPlots().

std::map<int,int> HSCPValidator::particleIdsFoundMap_

private

Definition at line 69 of file HSCPValidator.h.

Referenced by endJob(), and makeGenPlots().

TH1F* HSCPValidator::particleMassHist_

private

Definition at line 74 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::particlePhiHist_

private

Definition at line 71 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::particlePHist_

private

Definition at line 72 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH1F* HSCPValidator::particlePtHist_

private

Definition at line 73 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

int HSCPValidator::particleStatus_

private

Definition at line 68 of file HSCPValidator.h.

Referenced by makeGenPlots(), and makeRecoPlots().

TH1F* HSCPValidator::particleStatusHist_

private

Definition at line 75 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeGenPlots().

TH2F* HSCPValidator::RecoHSCPPtVsGenPt

private

Definition at line 134 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeRecoPlots().

TH1F* HSCPValidator::residualsRPCRecHitSimDigis_

private

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().

edm::ESHandle<RPCGeometry> HSCPValidator::rpcGeo

private

Definition at line 98 of file HSCPValidator.h.

Referenced by analyze(), and makeSimDigiPlotsRPC().

edm::InputTag HSCPValidator::RPCRecHitTag_

private

Definition at line 97 of file HSCPValidator.h.

TH1F* HSCPValidator::rpcTimeOfFlightBarrel_[6]

private

Definition at line 125 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

TH1F* HSCPValidator::rpcTimeOfFlightEndCap_[3]

private

Definition at line 127 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsRPC().

TH1F* HSCPValidator::simHitsEcalDigiMatchEnergyHistEB_

private

Definition at line 108 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalDigiMatchEnergyHistEE_

private

Definition at line 111 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH2F* HSCPValidator::simHitsEcalDigiMatchEnergyVsTimeHistEB_

private

Definition at line 110 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH2F* HSCPValidator::simHitsEcalDigiMatchEnergyVsTimeHistEE_

private

Definition at line 113 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalDigiMatchIEtaHist_

private

Definition at line 114 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalDigiMatchIPhiHist_

private

Definition at line 115 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalDigiMatchTimeHistEB_

private

Definition at line 109 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalDigiMatchTimeHistEE_

private

Definition at line 112 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalEnergyHistEB_

private

Definition at line 100 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalEnergyHistEE_

private

Definition at line 104 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH2F* HSCPValidator::simHitsEcalEnergyVsTimeHistEB_

private

Definition at line 103 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH2F* HSCPValidator::simHitsEcalEnergyVsTimeHistEE_

private

Definition at line 107 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalNumHistEB_

private

Definition at line 102 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalNumHistEE_

private

Definition at line 106 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalTimeHistEB_

private

Definition at line 101 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simHitsEcalTimeHistEE_

private

Definition at line 105 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimDigiPlotsECAL().

TH1F* HSCPValidator::simTrackParticleBetaHist_

private

Definition at line 89 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

TH1F* HSCPValidator::simTrackParticleEtaHist_

private

Definition at line 85 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

TH1F* HSCPValidator::simTrackParticlePhiHist_

private

Definition at line 86 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

TH1F* HSCPValidator::simTrackParticlePHist_

private

Definition at line 87 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

TH1F* HSCPValidator::simTrackParticlePtHist_

private

Definition at line 88 of file HSCPValidator.h.

Referenced by HSCPValidator(), and makeSimTrackPlots().

edm::InputTag HSCPValidator::simTrackTag_

private

Definition at line 94 of file HSCPValidator.h.

Referenced by makeSimDigiPlotsECAL().