#include <AnalysisRootpleProducer.h>

Inheritance diagram for AnalysisRootpleProducer:

Public Member Functions
	AnalysisRootpleProducer (const edm::ParameterSet &)
virtual void	analyze (const edm::Event &, const edm::EventSetup &)
virtual void	beginJob ()
virtual void	endJob ()
void	fillCaloJet (float, float, float, float)
void	fillChargedJet (float, float, float, float)
void	fillEventInfo (int)
void	fillInclusiveJet (float, float, float, float)
void	fillMCParticles (float, float, float, float)
void	fillTracks (float, float, float, float)
void	fillTracksJet (float, float, float, float)
void	store ()
virtual	~AnalysisRootpleProducer ()
Private Attributes
TClonesArray *	acceptedTriggers
TTree *	AnalysisTree
TClonesArray *	CalorimeterJet
edm::Handle< std::vector < reco::GenParticle > >	CandHandleMC
edm::Handle < reco::CandidateCollection >	CandHandleRECO
TClonesArray *	ChargedJet
edm::Handle < reco::GenJetCollection >	ChgGenJetsHandle
edm::InputTag	chgGenPartCollName
edm::InputTag	chgJetCollName
float	EtaCJ [NCJMAX]
float	EtaEHJ [NEHJMAX]
float	EtaIJ [NIJMAX]
float	EtaMC [NMCPMAX]
float	EtaTJ [NTJMAX]
float	EtaTK [NTKMAX]
int	EventKind
edm::Handle< edm::HepMCProduct >	EvtHandle
edm::Service< TFileService >	fs
edm::InputTag	genJetCollName
edm::Handle < reco::GenJetCollection >	GenJetsHandle
TClonesArray *	InclusiveJet
edm::InputTag	mcEvent
float	MomentumCJ [NCJMAX]
float	MomentumEHJ [NEHJMAX]
float	MomentumIJ [NIJMAX]
float	MomentumMC [NMCPMAX]
float	MomentumTJ [NTJMAX]
float	MomentumTK [NTKMAX]
TClonesArray *	MonteCarlo
int	NumberCaloJet
int	NumberChargedJet
int	NumberInclusiveJet
int	NumberMCParticles
int	NumberTracks
int	NumberTracksJet
bool	onlyRECO
float	PhiCJ [NCJMAX]
float	PhiEHJ [NEHJMAX]
float	PhiIJ [NIJMAX]
float	PhiMC [NMCPMAX]
float	PhiTJ [NTJMAX]
float	PhiTK [NTKMAX]
float	piG
edm::InputTag	recoCaloJetCollName
edm::Handle < reco::CaloJetCollection >	RecoCaloJetsHandle
TClonesArray *	Track
edm::InputTag	tracksCollName
TClonesArray *	TracksJet
edm::InputTag	tracksJetCollName
edm::Handle < reco::BasicJetCollection >	TracksJetsHandle
float	TransverseMomentumCJ [NCJMAX]
float	TransverseMomentumEHJ [NEHJMAX]
float	TransverseMomentumIJ [NIJMAX]
float	TransverseMomentumMC [NMCPMAX]
float	TransverseMomentumTJ [NTJMAX]
float	TransverseMomentumTK [NTKMAX]
edm::Handle< edm::TriggerResults >	triggerResults
edm::InputTag	triggerResultsTag
Static Private Attributes
static const int	NCJMAX = 10000
static const int	NEHJMAX = 10000
static const int	NIJMAX = 10000
static const int	NMCPMAX = 10000
static const int	NTJMAX = 10000
static const int	NTKMAX = 10000

Detailed Description

Definition at line 40 of file AnalysisRootpleProducer.h.

Constructor & Destructor Documentation

AnalysisRootpleProducer::AnalysisRootpleProducer ( const edm::ParameterSet & pset ) [explicit]

Definition at line 102 of file AnalysisRootpleProducer.cc.

References edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), and AlCaHLTBitMon_QueryRunRegistry::string.

{
  // flag to ignore gen-level analysis
  onlyRECO = pset.getUntrackedParameter<bool>("OnlyRECO",false);

  // particle, track and jet collections
  mcEvent = pset.getUntrackedParameter<InputTag>("MCEvent",std::string(""));
  genJetCollName = pset.getUntrackedParameter<InputTag>("GenJetCollectionName",std::string(""));
  chgJetCollName = pset.getUntrackedParameter<InputTag>("ChgGenJetCollectionName",std::string(""));
  tracksJetCollName = pset.getUntrackedParameter<InputTag>("TracksJetCollectionName",std::string(""));
  recoCaloJetCollName = pset.getUntrackedParameter<InputTag>("RecoCaloJetCollectionName",std::string(""));
  chgGenPartCollName = pset.getUntrackedParameter<InputTag>("ChgGenPartCollectionName",std::string(""));
  tracksCollName = pset.getUntrackedParameter<InputTag>("TracksCollectionName",std::string(""));

  // trigger results
  triggerResultsTag = pset.getParameter<InputTag>("triggerResults");
  //   hltFilterTag      = pset.getParameter<InputTag>("hltFilter");
  //   triggerName       = pset.getParameter<InputTag>("triggerName");

  piG = acos(-1.);
  NumberMCParticles=0;
  NumberTracks=0;
  NumberInclusiveJet=0;
  NumberChargedJet=0;
  NumberTracksJet=0;
  NumberCaloJet=0;
}

virtual AnalysisRootpleProducer::~AnalysisRootpleProducer ( ) [inline, virtual]

Definition at line 47 of file AnalysisRootpleProducer.h.

{} // no need to delete ROOT stuff

Member Function Documentation

void AnalysisRootpleProducer::analyze	(	const edm::Event &	e,
		const edm::EventSetup &
	)		`[virtual]`

Implements edm::EDAnalyzer.

Definition at line 211 of file AnalysisRootpleProducer.cc.

References edm::Event::getByLabel(), edm::TriggerNames::triggerName(), edm::Event::triggerNames(), and patRefSel_triggerSelection_cff::triggerResults.

{
  
  e.getByLabel( triggerResultsTag, triggerResults );
  const edm::TriggerNames & triggerNames = e.triggerNames(*triggerResults);

  acceptedTriggers->Clear();
  unsigned int iAcceptedTriggers( 0 ); 
  if ( triggerResults.product()->wasrun() )
    {
      //cout << "at least one path out of " << triggerResults.product()->size() << " ran? " << triggerResults.product()->wasrun() << endl;
  
      if ( triggerResults.product()->accept() ) 
        {
          //cout << endl << "at least one path accepted? " << triggerResults.product()->accept() << endl;

          const unsigned int n_TriggerResults( triggerResults.product()->size() );
          for ( unsigned int itrig( 0 ); itrig < n_TriggerResults; ++itrig )
            {
              if ( triggerResults.product()->accept( itrig ) )
                {
                  //cout << "path " << triggerNames.triggerName( itrig );
                  //cout << ", module index " << triggerResults.product()->index( itrig );
                  //cout << ", state (Ready = 0, Pass = 1, Fail = 2, Exception = 3) " << triggerResults.product()->state( itrig );
                  //cout << ", accept " << triggerResults.product()->accept( itrig );
                  //cout << endl;

                  // save name of accepted trigger path
                  new((*acceptedTriggers)[iAcceptedTriggers]) TObjString( (triggerNames.triggerName( itrig )).c_str() );
                  ++iAcceptedTriggers;
                }
            }
        }
    }

  // gen level analysis
  // skipped, if onlyRECO flag set to true

  if(!onlyRECO){
    
    e.getByLabel( mcEvent           , EvtHandle        );
    e.getByLabel( chgGenPartCollName, CandHandleMC     );
    e.getByLabel( chgJetCollName    , ChgGenJetsHandle );
    e.getByLabel( genJetCollName    , GenJetsHandle    );
    
    const HepMC::GenEvent* Evt = EvtHandle->GetEvent() ;
    
    EventKind = Evt->signal_process_id();

    std::vector<math::XYZTLorentzVector> GenPart;
    std::vector<GenJet> ChgGenJetContainer;
    std::vector<GenJet> GenJetContainer;
    
    GenPart.clear();
    ChgGenJetContainer.clear();
    GenJetContainer.clear();
    MonteCarlo->Clear();
    InclusiveJet->Clear();
    ChargedJet->Clear();

    // jets from charged particles at hadron level
    if (ChgGenJetsHandle->size()){

      for ( GenJetCollection::const_iterator it(ChgGenJetsHandle->begin()), itEnd(ChgGenJetsHandle->end());
            it!=itEnd; ++it)
        {
          ChgGenJetContainer.push_back(*it);
        }

      std::stable_sort(ChgGenJetContainer.begin(),ChgGenJetContainer.end(),GenJetSort());

      std::vector<GenJet>::const_iterator it(ChgGenJetContainer.begin()), itEnd(ChgGenJetContainer.end());
      for ( int iChargedJet(0); it != itEnd; ++it, ++iChargedJet)
        {
          fillChargedJet(it->p(),it->pt(),it->eta(),it->phi());
          new((*ChargedJet)[iChargedJet]) TLorentzVector(it->px(), it->py(), it->pz(), it->energy());
        }
    }


    // GenJets
    if (GenJetsHandle->size()){

      for ( GenJetCollection::const_iterator it(GenJetsHandle->begin()), itEnd(GenJetsHandle->end());
            it!=itEnd; ++it )
        {
          GenJetContainer.push_back(*it);
        }

      std::stable_sort(GenJetContainer.begin(),GenJetContainer.end(),GenJetSort());

      std::vector<GenJet>::const_iterator it(GenJetContainer.begin()), itEnd(GenJetContainer.end());
      for ( int iInclusiveJet(0); it != itEnd; ++it, ++iInclusiveJet)
        {
          fillInclusiveJet(it->p(),it->pt(),it->eta(),it->phi());
          new((*InclusiveJet)[iInclusiveJet]) TLorentzVector(it->px(), it->py(), it->pz(), it->energy());
        }
    }


    // hadron level particles
    if (CandHandleMC->size()){
      
      for (vector<GenParticle>::const_iterator it(CandHandleMC->begin()), itEnd(CandHandleMC->end());
           it != itEnd;it++)
        {
          GenPart.push_back(it->p4());
        }

      std::stable_sort(GenPart.begin(),GenPart.end(),GreaterPt());

      std::vector<math::XYZTLorentzVector>::const_iterator it(GenPart.begin()), itEnd(GenPart.end());
      for( int iMonteCarlo(0); it != itEnd; ++it, ++iMonteCarlo )
        {
          fillMCParticles(it->P(),it->Pt(),it->Eta(),it->Phi());
          new((*MonteCarlo)[iMonteCarlo]) TLorentzVector(it->Px(), it->Py(), it->Pz(), it->E());
        }
    }

  } 

  
  // reco level analysis
  
  e.getByLabel( tracksCollName     , CandHandleRECO     );
  e.getByLabel( recoCaloJetCollName, RecoCaloJetsHandle );
  e.getByLabel( tracksJetCollName  , TracksJetsHandle   );
  
  std::vector<math::XYZTLorentzVector> Tracks;
  std::vector<BasicJet> TracksJetContainer;
  std::vector<CaloJet> RecoCaloJetContainer;
  
  Tracks.clear();
  TracksJetContainer.clear();
  RecoCaloJetContainer.clear();
  
  Track->Clear();
  TracksJet->Clear();
  CalorimeterJet->Clear();

  if(RecoCaloJetsHandle->size())
    {
    for(CaloJetCollection::const_iterator it(RecoCaloJetsHandle->begin()), itEnd(RecoCaloJetsHandle->end());
        it!=itEnd;++it)
      {
        RecoCaloJetContainer.push_back(*it);
      }
    std::stable_sort(RecoCaloJetContainer.begin(),RecoCaloJetContainer.end(),CaloJetSort());

    std::vector<CaloJet>::const_iterator it(RecoCaloJetContainer.begin()), itEnd(RecoCaloJetContainer.end());
    for( int iCalorimeterJet(0); it != itEnd; ++it, ++iCalorimeterJet)
      {
        fillCaloJet(it->p(),it->pt(),it->eta(),it->phi());
        new((*CalorimeterJet)[iCalorimeterJet]) TLorentzVector(it->px(), it->py(), it->pz(), it->energy());
      }
    }
    
  if(TracksJetsHandle->size())
    {
      for(BasicJetCollection::const_iterator it(TracksJetsHandle->begin()), itEnd(TracksJetsHandle->end());
          it!=itEnd;++it)
        {
          TracksJetContainer.push_back(*it);
        }
      std::stable_sort(TracksJetContainer.begin(),TracksJetContainer.end(),BasicJetSort());
    
      std::vector<BasicJet>::const_iterator it(TracksJetContainer.begin()), itEnd(TracksJetContainer.end());
      for(int iTracksJet(0); it != itEnd; ++it, ++iTracksJet)
        {
          fillTracksJet(it->p(),it->pt(),it->eta(),it->phi());
          new((*TracksJet)[iTracksJet]) TLorentzVector(it->px(), it->py(), it->pz(), it->energy());
        }
    }
  
  if(CandHandleRECO->size())
    {
      for(CandidateCollection::const_iterator it(CandHandleRECO->begin()), itEnd(CandHandleRECO->end());
          it!=itEnd;++it)
        {
          Tracks.push_back(it->p4());
        }
      std::stable_sort(Tracks.begin(),Tracks.end(),GreaterPt());
    
      std::vector<math::XYZTLorentzVector>::const_iterator it( Tracks.begin()), itEnd(Tracks.end());
      for(int iTracks(0); it != itEnd; ++it, ++iTracks)
        {
          fillTracks(it->P(),it->Pt(),it->Eta(),it->Phi());
          new ((*Track)[iTracks]) TLorentzVector(it->Px(), it->Py(), it->Pz(), it->E());
        }
    }
  
  store();
}

void AnalysisRootpleProducer::beginJob ( void ) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 130 of file AnalysisRootpleProducer.cc.

{
 
  // use TFileService for output to root file
  AnalysisTree = fs->make<TTree>("AnalysisTree","MBUE Analysis Tree ");

  AnalysisTree->Branch("EventKind",&EventKind,"EventKind/I");

  // store p, pt, eta, phi for particles and jets

  // GenParticles at hadron level  
  AnalysisTree->Branch("NumberMCParticles",&NumberMCParticles,"NumberMCParticles/I");
  AnalysisTree->Branch("MomentumMC",MomentumMC,"MomentumMC[NumberMCParticles]/F");
  AnalysisTree->Branch("TransverseMomentumMC",TransverseMomentumMC,"TransverseMomentumMC[NumberMCParticles]/F");
  AnalysisTree->Branch("EtaMC",EtaMC,"EtaMC[NumberMCParticles]/F");
  AnalysisTree->Branch("PhiMC",PhiMC,"PhiMC[NumberMCParticles]/F");
  
  // tracks
  AnalysisTree->Branch("NumberTracks",&NumberTracks,"NumberTracks/I");
  AnalysisTree->Branch("MomentumTK",MomentumTK,"MomentumTK[NumberTracks]/F");
  AnalysisTree->Branch("TrasverseMomentumTK",TransverseMomentumTK,"TransverseMomentumTK[NumberTracks]/F");
  AnalysisTree->Branch("EtaTK",EtaTK,"EtaTK[NumberTracks]/F");
  AnalysisTree->Branch("PhiTK",PhiTK,"PhiTK[NumberTracks]/F");
  
  // GenJets
  AnalysisTree->Branch("NumberInclusiveJet",&NumberInclusiveJet,"NumberInclusiveJet/I");
  AnalysisTree->Branch("MomentumIJ",MomentumIJ,"MomentumIJ[NumberInclusiveJet]/F");
  AnalysisTree->Branch("TrasverseMomentumIJ",TransverseMomentumIJ,"TransverseMomentumIJ[NumberInclusiveJet]/F");
  AnalysisTree->Branch("EtaIJ",EtaIJ,"EtaIJ[NumberInclusiveJet]/F");
  AnalysisTree->Branch("PhiIJ",PhiIJ,"PhiIJ[NumberInclusiveJet]/F");
  
  // jets from charged GenParticles
  AnalysisTree->Branch("NumberChargedJet",&NumberChargedJet,"NumberChargedJet/I");
  AnalysisTree->Branch("MomentumCJ",MomentumCJ,"MomentumCJ[NumberChargedJet]/F");
  AnalysisTree->Branch("TrasverseMomentumCJ",TransverseMomentumCJ,"TransverseMomentumCJ[NumberChargedJet]/F");
  AnalysisTree->Branch("EtaCJ",EtaCJ,"EtaCJ[NumberChargedJet]/F");
  AnalysisTree->Branch("PhiCJ",PhiCJ,"PhiCJ[NumberChargedJet]/F");
  
  // jets from tracks
  AnalysisTree->Branch("NumberTracksJet",&NumberTracksJet,"NumberTracksJet/I");
  AnalysisTree->Branch("MomentumTJ",MomentumTJ,"MomentumTJ[NumberTracksJet]/F");
  AnalysisTree->Branch("TrasverseMomentumTJ",TransverseMomentumTJ,"TransverseMomentumTJ[NumberTracksJet]/F");
  AnalysisTree->Branch("EtaTJ",EtaTJ,"EtaTJ[NumberTracksJet]/F");
  AnalysisTree->Branch("PhiTJ",PhiTJ,"PhiTJ[NumberTracksJet]/F");
  
  // jets from calorimeter towers
  AnalysisTree->Branch("NumberCaloJet",&NumberCaloJet,"NumberCaloJet/I");
  AnalysisTree->Branch("MomentumEHJ",MomentumEHJ,"MomentumEHJ[NumberCaloJet]/F");
  AnalysisTree->Branch("TrasverseMomentumEHJ",TransverseMomentumEHJ,"TransverseMomentumEHJ[NumberCaloJet]/F");
  AnalysisTree->Branch("EtaEHJ",EtaEHJ,"EtaEHJ[NumberCaloJet]/F");
  AnalysisTree->Branch("PhiEHJ",PhiEHJ,"PhiEHJ[NumberCaloJet]/F");
  

  // alternative storage method:
  // save TClonesArrays of TLorentzVectors
  // i.e. store 4-vectors of particles and jets

  MonteCarlo = new TClonesArray("TLorentzVector", 10000);
  AnalysisTree->Branch("MonteCarlo", "TClonesArray", &MonteCarlo, 128000, 0);

  Track = new TClonesArray("TLorentzVector", 10000);
  AnalysisTree->Branch("Track", "TClonesArray", &Track, 128000, 0);

  InclusiveJet = new TClonesArray("TLorentzVector", 10000);
  AnalysisTree->Branch("InclusiveJet", "TClonesArray", &InclusiveJet, 128000, 0);

  ChargedJet = new TClonesArray("TLorentzVector", 10000);
  AnalysisTree->Branch("ChargedJet", "TClonesArray", &ChargedJet, 128000, 0);

  TracksJet = new TClonesArray("TLorentzVector", 10000);
  AnalysisTree->Branch("TracksJet", "TClonesArray", &TracksJet, 128000, 0);

  CalorimeterJet = new TClonesArray("TLorentzVector", 10000);
  AnalysisTree->Branch("CalorimeterJet", "TClonesArray", &CalorimeterJet, 128000, 0);

  acceptedTriggers = new TClonesArray("TObjString", 10000);
  AnalysisTree->Branch("acceptedTriggers", "TClonesArray", &acceptedTriggers, 128000, 0);

}

void AnalysisRootpleProducer::endJob ( void ) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 405 of file AnalysisRootpleProducer.cc.

{
}

void AnalysisRootpleProducer::fillCaloJet	(	float	p,
		float	pt,
		float	eta,
		float	phi
	)

Definition at line 94 of file AnalysisRootpleProducer.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, and phi.

                                                                                {
  MomentumEHJ[NumberCaloJet]=p;
  TransverseMomentumEHJ[NumberCaloJet]=pt;
  EtaEHJ[NumberCaloJet]=eta;
  PhiEHJ[NumberCaloJet]=phi;
  NumberCaloJet++;
}

void AnalysisRootpleProducer::fillChargedJet	(	float	p,
		float	pt,
		float	eta,
		float	phi
	)

Definition at line 78 of file AnalysisRootpleProducer.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, and phi.

                                                                                   {
  MomentumCJ[NumberChargedJet]=p;
  TransverseMomentumCJ[NumberChargedJet]=pt;
  EtaCJ[NumberChargedJet]=eta;
  PhiCJ[NumberChargedJet]=phi;
  NumberChargedJet++;
}

void AnalysisRootpleProducer::fillEventInfo ( int e )

Definition at line 50 of file AnalysisRootpleProducer.cc.

References alignCSCRings::e.

                                                {
  EventKind = e;
}

void AnalysisRootpleProducer::fillInclusiveJet	(	float	p,
		float	pt,
		float	eta,
		float	phi
	)

Definition at line 70 of file AnalysisRootpleProducer.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, and phi.

                                                                                     {
  MomentumIJ[NumberInclusiveJet]=p;
  TransverseMomentumIJ[NumberInclusiveJet]=pt;
  EtaIJ[NumberInclusiveJet]=eta;
  PhiIJ[NumberInclusiveJet]=phi;
  NumberInclusiveJet++;
}

void AnalysisRootpleProducer::fillMCParticles	(	float	p,
		float	pt,
		float	eta,
		float	phi
	)

Definition at line 54 of file AnalysisRootpleProducer.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, and phi.

                                                                                    {
  MomentumMC[NumberMCParticles]=p;
  TransverseMomentumMC[NumberMCParticles]=pt;
  EtaMC[NumberMCParticles]=eta;
  PhiMC[NumberMCParticles]=phi;
  NumberMCParticles++;
}

void AnalysisRootpleProducer::fillTracks	(	float	p,
		float	pt,
		float	eta,
		float	phi
	)

Definition at line 62 of file AnalysisRootpleProducer.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, and phi.

                                                                               {
  MomentumTK[NumberTracks]=p;
  TransverseMomentumTK[NumberTracks]=pt;
  EtaTK[NumberTracks]=eta;
  PhiTK[NumberTracks]=phi;
  NumberTracks++;
}

void AnalysisRootpleProducer::fillTracksJet	(	float	p,
		float	pt,
		float	eta,
		float	phi
	)

Definition at line 86 of file AnalysisRootpleProducer.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, and phi.

                                                                                  {
  MomentumTJ[NumberTracksJet]=p;
  TransverseMomentumTJ[NumberTracksJet]=pt;
  EtaTJ[NumberTracksJet]=eta;
  PhiTJ[NumberTracksJet]=phi;
  NumberTracksJet++;
}

void AnalysisRootpleProducer::store ( )

Definition at line 38 of file AnalysisRootpleProducer.cc.

                                   {

  AnalysisTree->Fill();

  NumberMCParticles=0;
  NumberTracks=0;
  NumberInclusiveJet=0;
  NumberChargedJet=0;
  NumberTracksJet=0;
  NumberCaloJet=0;
}