96 int firstBX = old_egammas->getFirstBX();
97 int lastBX = old_egammas->getLastBX();
99 new_egammas->setBXRange(firstBX, lastBX);
100 new_rlxtaus->setBXRange(firstBX, lastBX);
101 new_isotaus->setBXRange(firstBX, lastBX);
102 new_jets->setBXRange(firstBX, lastBX);
103 new_preGtJets->setBXRange(firstBX, lastBX);
104 new_etsums->setBXRange(firstBX, lastBX);
105 new_hfsums->setBXRange(firstBX, lastBX);
106 new_hfcounts->setBXRange(firstBX, lastBX);
108 for(
int bx = firstBX; bx <= lastBX; ++bx)
111 itEGamma != old_egammas->end(bx); ++itEGamma)
114 const double et = emScale->et( itEGamma->hwPt() );
120 itEGamma->hwEta(), itEGamma->hwPhi(),
121 itEGamma->hwQual(), itEGamma->hwIso());
122 new_egammas->push_back(bx, *&eg);
128 itTau != old_rlxtaus->end(bx); ++itTau)
138 const double et = jetScale->et( itTau->hwPt() );
145 itTau->hwEta(), itTau->hwPhi(),
146 itTau->hwQual(), itTau->hwIso());
147 new_rlxtaus->push_back(bx, *&
tau);
152 itTau != old_isotaus->end(bx); ++itTau)
162 const double et = jetScale->et( itTau->hwPt() );
169 itTau->hwEta(), itTau->hwPhi(),
170 itTau->hwQual(), itTau->hwIso());
171 new_isotaus->push_back(bx, *&
tau);
176 itJet != old_jets->end(bx); ++itJet)
186 const double et = jetScale->et( itJet->hwPt() );
188 const bool forward = ((itJet->hwQual() & 0x2) != 0);
194 itJet->hwEta(), itJet->hwPhi(),
196 new_jets->push_back(bx, *&
jet);
201 itJet != old_preGtJets->end(bx); ++itJet)
208 const double et = itJet->hwPt() * emScale->linearLsb();
213 const bool forward = ((itJet->hwQual() & 0x2) != 0);
219 itJet->hwEta(), itJet->hwPhi(),
221 new_preGtJets->push_back(bx, *&
jet);
227 itEtSum != old_etsums->end(bx); ++itEtSum)
229 double et = itEtSum->hwPt() * emScale->linearLsb();
236 if(sumType == EtSum::EtSumType::kMissingHt){
237 et = htMissScale->et( itEtSum->hwPt() );
239 phi=phi+(regionPhiWidth/2.);
245 EtSum eg(*&
p4, sumType, itEtSum->hwPt(),
246 itEtSum->hwEta(), itEtSum->hwPhi(),
248 new_etsums->push_back(bx, *&eg);
254 itCaloSpare != old_hfsums->end(bx); ++itCaloSpare)
258 new_hfsums->push_back(bx, *itCaloSpare);
262 itCaloSpare != old_hfcounts->end(bx); ++itCaloSpare)
266 new_hfcounts->push_back(bx, *itCaloSpare);
271 iEvent.
put(new_egammas);
272 iEvent.
put(new_rlxtaus,
"rlxTaus");
273 iEvent.
put(new_isotaus,
"isoTaus");
274 iEvent.
put(new_jets);
275 iEvent.
put(new_preGtJets,
"preGtJets");
276 iEvent.
put(new_etsums);
277 iEvent.
put(new_hfsums,
"HFRingSums");
278 iEvent.
put(new_hfcounts,
"HFBitCounts");
edm::EDGetToken JetToken_
edm::EDGetToken HfSumsToken_
bool getByToken(EDGetToken token, Handle< PROD > &result) const
edm::EDGetToken HfCountsToken_
edm::EDGetToken EtSumToken_
PtEtaPhiMLorentzVectorD PtEtaPhiMLorentzVector
Lorentz vector with cartesian internal representation.
edm::EDGetToken EGammaToken_
OrphanHandle< PROD > put(std::auto_ptr< PROD > product)
Put a new product.
edm::EDGetToken RlxTauToken_
edm::EDGetToken preGtJetToken_
double getPhysicalPhi(int phiIndex)
double getPhysicalEta(int etaIndex, bool forward=false)
edm::EDGetToken IsoTauToken_
static const unsigned N_PHI
std::vector< EGamma >::const_iterator const_iterator