67 os <<
"Read " << rhs.
gctFibres()->size() <<
" GCT raw fibre data\n" 68 <<
"Read " << rhs.
rctEm()->size() <<
" RCT EM candidates\n" 69 <<
"Read " << rhs.
rctCalo()->size()
70 <<
" RCT Calo Regions\n" 73 <<
"Read " << rhs.
gctInternEm()->size() <<
" GCT intermediate EM candidates\n" 74 <<
"Read " << rhs.
gctInternJets()->size() <<
" GCT intermediate jet candidates\n" 75 <<
"Read " << rhs.
gctInternEtSums()->size() <<
" GCT intermediate et sums\n" 76 <<
"Read " << rhs.
gctInternHFData()->size() <<
" GCT intermediate HF data\n" 78 <<
" GCT intermediate Missing Ht\n" 81 <<
"Read " << rhs.
gctIsoEm()->size() <<
" GCT iso EM candidates\n" 82 <<
"Read " << rhs.
gctNonIsoEm()->size() <<
" GCT non-iso EM candidates\n" 83 <<
"Read " << rhs.
gctCenJets()->size() <<
" GCT central jet candidates\n" 84 <<
"Read " << rhs.
gctForJets()->size() <<
" GCT forward jet candidates\n" 85 <<
"Read " << rhs.
gctTauJets()->size() <<
" GCT tau jet candidates\n" 86 <<
"Read " << rhs.
gctHfBitCounts()->size() <<
" GCT HF ring bit counts\n" 88 <<
"Read " << rhs.
gctEtTot()->size() <<
" GCT total et\n" 89 <<
"Read " << rhs.
gctEtHad()->size() <<
" GCT ht\n" 90 <<
"Read " << rhs.
gctEtMiss()->size() <<
" GCT met\n" 91 <<
"Read " << rhs.
gctHtMiss()->size() <<
" GCT mht";
L1GctJetCandCollection *const gctTauJets() const
GCT output: Tau Jets collection.
L1GctHFBitCountsCollection *const gctHfBitCounts() const
GCT output: Hadronic-Forward bit-counts collection.
std::vector< L1CaloEmCand > L1CaloEmCollection
OrphanHandle< PROD > put(std::unique_ptr< PROD > product)
Put a new product.
L1GctEmCandCollection *const gctNonIsoEm() const
GCT output: Non-isolated EM candidate collection.
std::unique_ptr< L1GctInternJetDataCollection > m_gctInternJets
std::unique_ptr< L1GctInternEtSumCollection > m_gctInternEtSums
L1CaloEmCollection *const rctEm() const
Input electrons from the RCT to the GCT.
std::vector< L1TriggerError > L1TriggerErrorCollection
std::vector< L1GctEtMiss > L1GctEtMissCollection
std::unique_ptr< L1GctEmCandCollection > m_gctNonIsoEm
edm::Event & m_event
The event the collections will be put into on destruction of the GctUnpackCollections instance...
L1GctHtMissCollection *const gctHtMiss() const
GCT output: Missing Ht collection.
std::vector< L1GctHFRingEtSums > L1GctHFRingEtSumsCollection
std::unique_ptr< L1CaloRegionCollection > m_rctCalo
Input calo regions.
std::unique_ptr< L1CaloEmCollection > m_rctEm
Input electrons.
std::vector< L1GctEtHad > L1GctEtHadCollection
std::vector< L1GctJetCounts > L1GctJetCountsCollection
std::vector< L1GctInternHtMiss > L1GctInternHtMissCollection
std::unique_ptr< L1GctFibreCollection > m_gctFibres
Raw fibre input to the GCT.
std::vector< L1GctInternEmCand > L1GctInternEmCandCollection
std::vector< L1GctFibreWord > L1GctFibreCollection
std::vector< L1GctEtTotal > L1GctEtTotalCollection
std::vector< L1GctInternHFData > L1GctInternHFDataCollection
L1GctInternHFDataCollection *const gctInternHFData() const
Internal Hadronic-Forward bit-counts/ring-sums data collection.
std::vector< L1GctHFBitCounts > L1GctHFBitCountsCollection
std::vector< L1GctJetCand > L1GctJetCandCollection
L1GctInternEtSumCollection *const gctInternEtSums() const
Internal Et Sum collection.
L1GctEtTotalCollection *const gctEtTot() const
GCT output: Total Et collection.
L1GctJetCandCollection *const gctCenJets() const
GCT output: Central Jets collection.
L1GctInternHtMissCollection *const gctInternHtMiss() const
Internal missing Ht collection.
std::ostream & operator<<(std::ostream &os, const GctUnpackCollections &rhs)
std::unique_ptr< L1GctInternHtMissCollection > m_gctInternHtMiss
L1GctEtMissCollection *const gctEtMiss() const
GCT output: Missing Et collection.
std::unique_ptr< L1TriggerErrorCollection > m_errors
std::unique_ptr< L1GctInternHFDataCollection > m_gctInternHFData
RAII and useful methods for the many dataformat collections required by the GCT unpacker.
std::unique_ptr< L1GctHtMissCollection > m_gctHtMiss
std::vector< L1GctHtMiss > L1GctHtMissCollection
std::unique_ptr< L1GctEtMissCollection > m_gctEtMiss
std::unique_ptr< L1GctEtHadCollection > m_gctEtHad
std::unique_ptr< L1GctJetCandCollection > m_gctTauJets
L1GctHFRingEtSumsCollection *const gctHfRingEtSums() const
GCT output: Hadronic-Forward ring-sums collection.
std::unique_ptr< L1GctInternEmCandCollection > m_gctInternEm
std::unique_ptr< L1GctJetCandCollection > m_gctForJets
std::vector< L1GctInternJetData > L1GctInternJetDataCollection
L1GctFibreCollection *const gctFibres() const
Raw fibre input to the GCT.
L1GctEmCandCollection *const gctIsoEm() const
GCT output: Isolated EM candidate collection.
std::unique_ptr< L1GctJetCountsCollection > m_gctJetCounts
L1GctInternJetDataCollection *const gctInternJets() const
Internal Jet candidate collection.
std::unique_ptr< L1GctHFRingEtSumsCollection > m_gctHfRingEtSums
std::unique_ptr< L1GctEmCandCollection > m_gctIsoEm
L1GctEtHadCollection *const gctEtHad() const
GCT output: Hadronic transverse-energy (Ht) collection.
~GctUnpackCollections()
Destructor - the last action of this object is to put the gct collections into the event provided on ...
std::vector< L1GctInternEtSum > L1GctInternEtSumCollection
std::vector< L1CaloRegion > L1CaloRegionCollection
L1GctInternEmCandCollection *const gctInternEm() const
Internal EM candidate collection.
std::unique_ptr< L1GctJetCandCollection > m_gctCenJets
L1CaloRegionCollection *const rctCalo() const
Input calo regions from the RCT to the GCT.
std::unique_ptr< L1GctHFBitCountsCollection > m_gctHfBitCounts
std::vector< L1GctEmCand > L1GctEmCandCollection
GctUnpackCollections(edm::Event &event)
Construct with an event. The collections get put into the event when the object instance goes out of ...
std::unique_ptr< L1GctEtTotalCollection > m_gctEtTot
L1GctJetCandCollection *const gctForJets() const
GCT output: Forward Jets collection.