L1Analysis::L1AnalysisL1Upgrade Class Reference

#include <L1AnalysisL1Upgrade.h>

Public Types
enum	{ TEST =0 }

Public Member Functions
L1AnalysisL1UpgradeDataFormat *	getData ()
	L1AnalysisL1Upgrade ()
void	Reset ()
void	SetEm (const edm::Handle< l1t::EGammaBxCollection > em, unsigned maxL1Upgrade)
void	SetJet (const edm::Handle< l1t::JetBxCollection > jet, unsigned maxL1Upgrade)
void	SetMuon (const edm::Handle< l1t::MuonBxCollection > muon, unsigned maxL1Upgrade)
void	SetSum (const edm::Handle< l1t::EtSumBxCollection > sums, unsigned maxL1Upgrade)
void	SetTau (const edm::Handle< l1t::TauBxCollection > tau, unsigned maxL1Upgrade)
	~L1AnalysisL1Upgrade ()

Private Attributes
L1AnalysisL1UpgradeDataFormat	l1upgrade_

Detailed Description

Definition at line 23 of file L1AnalysisL1Upgrade.h.

Member Enumeration Documentation

anonymous enum

Enumerator
TEST

Definition at line 26 of file L1AnalysisL1Upgrade.h.

{TEST=0};

Constructor & Destructor Documentation

L1Analysis::L1AnalysisL1Upgrade::L1AnalysisL1Upgrade

(

)

Definition at line 3 of file L1AnalysisL1Upgrade.cc.

{
}

L1Analysis::L1AnalysisL1Upgrade::~L1AnalysisL1Upgrade

(

)

Definition at line 7 of file L1AnalysisL1Upgrade.cc.

{

}

Member Function Documentation

L1AnalysisL1UpgradeDataFormat* L1Analysis::L1AnalysisL1Upgrade::getData ( void  )

inline

Definition at line 35 of file L1AnalysisL1Upgrade.h.

References l1upgrade_.

{return &l1upgrade_;}

void L1Analysis::L1AnalysisL1Upgrade::Reset ( void  )

inline

Definition at line 29 of file L1AnalysisL1Upgrade.h.

References l1upgrade_, and L1Analysis::L1AnalysisL1UpgradeDataFormat::Reset().

Referenced by L1UpgradeTreeProducer::analyze().

{l1upgrade_.Reset();}

void L1Analysis::L1AnalysisL1Upgrade::SetEm	(	const edm::Handle< l1t::EGammaBxCollection >	em,
		unsigned	maxL1Upgrade
	)

Definition at line 12 of file L1AnalysisL1Upgrade.cc.

Referenced by L1UpgradeTreeProducer::analyze().

{
  for (int ibx = em->getFirstBX(); ibx <= em->getLastBX(); ++ibx) {
    for (l1t::EGammaBxCollection::const_iterator it=em->begin(ibx); it!=em->end(ibx) && l1upgrade_.nEGs<maxL1Upgrade; it++){
      if (it->pt() > 0){
    l1upgrade_.egEt .push_back(it->pt());
    l1upgrade_.egEta.push_back(it->eta());
    l1upgrade_.egPhi.push_back(it->phi());
    l1upgrade_.egIEt .push_back(it->hwPt());
    l1upgrade_.egIEta.push_back(it->hwEta());
    l1upgrade_.egIPhi.push_back(it->hwPhi());
    l1upgrade_.egIso.push_back(it->hwIso());
    l1upgrade_.egBx .push_back(ibx);
    l1upgrade_.egTowerIPhi.push_back(it->towerIPhi());
    l1upgrade_.egTowerIEta.push_back(it->towerIEta());
    l1upgrade_.egRawEt.push_back(it->rawEt());
    l1upgrade_.egIsoEt.push_back(it->isoEt());
    l1upgrade_.egFootprintEt.push_back(it->footprintEt());
    l1upgrade_.egNTT.push_back(it->nTT());
    l1upgrade_.egShape.push_back(it->shape());
    l1upgrade_.egTowerHoE.push_back(it->towerHoE());
    l1upgrade_.nEGs++;
      }
    }
  }
}

void L1Analysis::L1AnalysisL1Upgrade::SetJet	(	const edm::Handle< l1t::JetBxCollection >	jet,
		unsigned	maxL1Upgrade
	)

Definition at line 68 of file L1AnalysisL1Upgrade.cc.

Referenced by L1UpgradeTreeProducer::analyze().

{
  for (int ibx = jet->getFirstBX(); ibx <= jet->getLastBX(); ++ibx) {
    for (l1t::JetBxCollection::const_iterator it=jet->begin(ibx); it!=jet->end(ibx) && l1upgrade_.nJets<maxL1Upgrade; it++){
      if (it->pt() > 0){
    l1upgrade_.jetEt .push_back(it->et());
    l1upgrade_.jetEta.push_back(it->eta());
    l1upgrade_.jetPhi.push_back(it->phi());
    l1upgrade_.jetIEt .push_back(it->hwPt());
    l1upgrade_.jetIEta.push_back(it->hwEta());
    l1upgrade_.jetIPhi.push_back(it->hwPhi());
    l1upgrade_.jetBx .push_back(ibx);
    l1upgrade_.jetRawEt.push_back(it->rawEt());
    l1upgrade_.jetSeedEt.push_back(it->seedEt());
    l1upgrade_.jetTowerIEta.push_back(it->towerIEta());
    l1upgrade_.jetTowerIPhi.push_back(it->towerIPhi());
    l1upgrade_.jetPUEt.push_back(it->puEt());
    l1upgrade_.jetPUDonutEt0.push_back(it->puDonutEt(0));
    l1upgrade_.jetPUDonutEt1.push_back(it->puDonutEt(1));
    l1upgrade_.jetPUDonutEt2.push_back(it->puDonutEt(2));
    l1upgrade_.jetPUDonutEt3.push_back(it->puDonutEt(3));
    l1upgrade_.nJets++;
      }
    }
  }
}

void L1Analysis::L1AnalysisL1Upgrade::SetMuon	(	const edm::Handle< l1t::MuonBxCollection >	muon,
		unsigned	maxL1Upgrade
	)

Definition at line 96 of file L1AnalysisL1Upgrade.cc.

References l1t::MicroGMTConfiguration::calcMuonEtaExtra(), and l1t::MicroGMTConfiguration::calcMuonPhiExtra().

Referenced by L1UpgradeTreeProducer::analyze().

{
  for (int ibx = muon->getFirstBX(); ibx <= muon->getLastBX(); ++ibx) {
    for (l1t::MuonBxCollection::const_iterator it=muon->begin(ibx); it!=muon->end(ibx) && l1upgrade_.nMuons<maxL1Upgrade; it++){
      if (it->pt() > 0){
    l1upgrade_.muonEt .push_back(it->et());
    l1upgrade_.muonEta.push_back(it->eta());
    l1upgrade_.muonPhi.push_back(it->phi());
    l1upgrade_.muonEtaAtVtx.push_back(l1t::MicroGMTConfiguration::calcMuonEtaExtra(*it));
    l1upgrade_.muonPhiAtVtx.push_back(l1t::MicroGMTConfiguration::calcMuonPhiExtra(*it));
    l1upgrade_.muonIEt .push_back(it->hwPt());
    l1upgrade_.muonIEta.push_back(it->hwEta());
    l1upgrade_.muonIPhi.push_back(it->hwPhi());
    l1upgrade_.muonIDEta.push_back(it->hwDEtaExtra());
    l1upgrade_.muonIDPhi.push_back(it->hwDPhiExtra());
    l1upgrade_.muonChg.push_back(it->charge());
    l1upgrade_.muonIso.push_back(it->hwIso());
    l1upgrade_.muonQual.push_back(it->hwQual());
    l1upgrade_.muonTfMuonIdx.push_back(it->tfMuonIndex());
    l1upgrade_.muonBx .push_back(ibx);
    l1upgrade_.nMuons++;
      }
    }
  }
}

void L1Analysis::L1AnalysisL1Upgrade::SetSum	(	const edm::Handle< l1t::EtSumBxCollection >	sums,
		unsigned	maxL1Upgrade
	)

Definition at line 122 of file L1AnalysisL1Upgrade.cc.

Referenced by L1UpgradeTreeProducer::analyze().

{
  for (int ibx = sums->getFirstBX(); ibx <= sums->getLastBX(); ++ibx) {
    for (l1t::EtSumBxCollection::const_iterator it=sums->begin(ibx); it!=sums->end(ibx) && l1upgrade_.nSums<maxL1Upgrade; it++) {
      int type = static_cast<int>( it->getType() ); 
      l1upgrade_.sumType. push_back( type ); 
      l1upgrade_.sumEt. push_back( it->et() ); 
      l1upgrade_.sumPhi.push_back( it->phi() );
      l1upgrade_.sumIEt. push_back( it->hwPt() ); 
      l1upgrade_.sumIPhi.push_back( it->hwPhi() );
      l1upgrade_.sumBx. push_back( ibx );
      l1upgrade_.nSums++;
    }
  }
}

void L1Analysis::L1AnalysisL1Upgrade::SetTau	(	const edm::Handle< l1t::TauBxCollection >	tau,
		unsigned	maxL1Upgrade
	)

Definition at line 40 of file L1AnalysisL1Upgrade.cc.

Referenced by L1UpgradeTreeProducer::analyze().

{
  for (int ibx = tau->getFirstBX(); ibx <= tau->getLastBX(); ++ibx) {
    for (l1t::TauBxCollection::const_iterator it=tau->begin(ibx); it!=tau->end(ibx) && l1upgrade_.nTaus<maxL1Upgrade; it++){
      if (it->pt() > 0){
    l1upgrade_.tauEt .push_back(it->et());
    l1upgrade_.tauEta.push_back(it->eta());
    l1upgrade_.tauPhi.push_back(it->phi());
    l1upgrade_.tauIEt .push_back(it->hwPt());
    l1upgrade_.tauIEta.push_back(it->hwEta());
    l1upgrade_.tauIPhi.push_back(it->hwPhi());
    l1upgrade_.tauIso.push_back(it->hwIso());
    l1upgrade_.tauBx .push_back(ibx);
    l1upgrade_.tauTowerIPhi.push_back(it->towerIPhi());
    l1upgrade_.tauTowerIEta.push_back(it->towerIEta());
    l1upgrade_.tauRawEt.push_back(it->rawEt());
    l1upgrade_.tauIsoEt.push_back(it->isoEt());
    l1upgrade_.tauNTT.push_back(it->nTT());
    l1upgrade_.tauHasEM.push_back(it->hasEM());
    l1upgrade_.tauIsMerged.push_back(it->isMerged());
    l1upgrade_.tauHwQual.push_back(it->hwQual());
    l1upgrade_.nTaus++;
      }
    }
  }
}

Member Data Documentation

L1AnalysisL1UpgradeDataFormat L1Analysis::L1AnalysisL1Upgrade::l1upgrade_

private

Definition at line 38 of file L1AnalysisL1Upgrade.h.

Referenced by getData(), and Reset().