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/data/refman/pasoursint/CMSSW_5_3_3/src/L1Trigger/GlobalTrigger/src/L1GlobalTrigger.cc

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00001 
00017 // this class header
00018 #include "L1Trigger/GlobalTrigger/interface/L1GlobalTrigger.h"
00019 
00020 // system include files
00021 #include <memory>
00022 #include <iostream>
00023 #include <iomanip>
00024 #include <algorithm>
00025 
00026 #include <boost/cstdint.hpp>
00027 
00028 // user include files
00029 //#include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutSetupFwd.h"
00030 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutRecord.h"
00031 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerEvmReadoutRecord.h"
00032 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerObjectMapRecord.h"
00033 
00034 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerObjectMap.h"
00035 
00036 #include "DataFormats/L1GlobalMuonTrigger/interface/L1MuGMTReadoutCollection.h"
00037 #include "DataFormats/L1GlobalMuonTrigger/interface/L1MuGMTCand.h"
00038 #include "DataFormats/L1GlobalMuonTrigger/interface/L1MuGMTExtendedCand.h"
00039 
00040 #include "DataFormats/L1GlobalCaloTrigger/interface/L1GctEmCand.h"
00041 #include "DataFormats/L1GlobalCaloTrigger/interface/L1GctJetCand.h"
00042 #include "DataFormats/L1GlobalCaloTrigger/interface/L1GctEtSums.h"
00043 #include "DataFormats/L1GlobalCaloTrigger/interface/L1GctJetCounts.h"
00044 #include "DataFormats/L1GlobalCaloTrigger/interface/L1GctHFBitCounts.h"
00045 #include "DataFormats/L1GlobalCaloTrigger/interface/L1GctHFRingEtSums.h"
00046 
00047 #include "FWCore/Framework/interface/Event.h"
00048 #include "FWCore/Framework/interface/EventSetup.h"
00049 #include "FWCore/Framework/interface/ESHandle.h"
00050 
00051 #include "CondFormats/L1TObjects/interface/L1GtStableParameters.h"
00052 #include "CondFormats/DataRecord/interface/L1GtStableParametersRcd.h"
00053 
00054 #include "CondFormats/L1TObjects/interface/L1GtParameters.h"
00055 #include "CondFormats/DataRecord/interface/L1GtParametersRcd.h"
00056 
00057 #include "CondFormats/L1TObjects/interface/L1GtFwd.h"
00058 #include "CondFormats/L1TObjects/interface/L1GtBoard.h"
00059 #include "CondFormats/L1TObjects/interface/L1GtBoardMaps.h"
00060 #include "CondFormats/DataRecord/interface/L1GtBoardMapsRcd.h"
00061 
00062 #include "CondFormats/L1TObjects/interface/L1GtPrescaleFactors.h"
00063 #include "CondFormats/DataRecord/interface/L1GtPrescaleFactorsAlgoTrigRcd.h"
00064 #include "CondFormats/DataRecord/interface/L1GtPrescaleFactorsTechTrigRcd.h"
00065 
00066 #include "CondFormats/L1TObjects/interface/L1GtTriggerMask.h"
00067 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskAlgoTrigRcd.h"
00068 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskTechTrigRcd.h"
00069 
00070 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskVetoAlgoTrigRcd.h"
00071 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskVetoTechTrigRcd.h"
00072 
00073 #include "L1Trigger/GlobalTrigger/interface/L1GlobalTriggerPSB.h"
00074 #include "L1Trigger/GlobalTrigger/interface/L1GlobalTriggerGTL.h"
00075 #include "L1Trigger/GlobalTrigger/interface/L1GlobalTriggerFDL.h"
00076 
00077 #include "DataFormats/L1GlobalTrigger/interface/L1GtfeWord.h"
00078 #include "DataFormats/L1GlobalTrigger/interface/L1GtfeExtWord.h"
00079 #include "DataFormats/L1GlobalTrigger/interface/L1TcsWord.h"
00080 
00081 #include "DataFormats/Common/interface/RefProd.h"
00082 #include "FWCore/Utilities/interface/InputTag.h"
00083 
00084 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00085 #include "FWCore/MessageLogger/interface/MessageDrop.h"
00086 
00087 
00088 
00089 // constructors
00090 
00091 L1GlobalTrigger::L1GlobalTrigger(const edm::ParameterSet& parSet) :
00092             m_muGmtInputTag(parSet.getParameter<edm::InputTag> ("GmtInputTag")),
00093             m_caloGctInputTag(parSet.getParameter<edm::InputTag> ("GctInputTag")),
00094             m_castorInputTag(parSet.getParameter<edm::InputTag> ("CastorInputTag")),
00095             m_technicalTriggersInputTags(parSet.getParameter<std::vector<edm::InputTag> > (
00096                     "TechnicalTriggersInputTags")),
00097             m_produceL1GtDaqRecord(parSet.getParameter<bool> ("ProduceL1GtDaqRecord")),
00098             m_produceL1GtEvmRecord(parSet.getParameter<bool> ("ProduceL1GtEvmRecord")),
00099             m_produceL1GtObjectMapRecord(parSet.getParameter<bool> ("ProduceL1GtObjectMapRecord")),
00100             m_writePsbL1GtDaqRecord(parSet.getParameter<bool> ("WritePsbL1GtDaqRecord")),
00101             m_readTechnicalTriggerRecords(parSet.getParameter<bool> ("ReadTechnicalTriggerRecords")),
00102             m_emulateBxInEvent(parSet.getParameter<int> ("EmulateBxInEvent")),
00103             m_recordLength(parSet.getParameter<std::vector<int> > ("RecordLength")),
00104             m_alternativeNrBxBoardDaq(parSet.getParameter<unsigned int> ("AlternativeNrBxBoardDaq")),
00105             m_alternativeNrBxBoardEvm(parSet.getParameter<unsigned int> ("AlternativeNrBxBoardEvm")),
00106             m_psBstLengthBytes(parSet.getParameter<int> ("BstLengthBytes")),
00107             m_algorithmTriggersUnprescaled(parSet.getParameter<bool> ("AlgorithmTriggersUnprescaled")),
00108             m_algorithmTriggersUnmasked(parSet.getParameter<bool> ("AlgorithmTriggersUnmasked")),
00109             m_technicalTriggersUnprescaled(parSet.getParameter<bool> ("TechnicalTriggersUnprescaled")),
00110             m_technicalTriggersUnmasked(parSet.getParameter<bool> ("TechnicalTriggersUnmasked")),
00111             m_technicalTriggersVetoUnmasked(parSet.getParameter<bool> ("TechnicalTriggersVetoUnmasked")),
00112             m_verbosity(parSet.getUntrackedParameter<int>("Verbosity", 0)),
00113             m_isDebugEnabled(edm::isDebugEnabled())
00114 
00115 
00116 {
00117 
00118     if (m_verbosity) {
00119 
00120         LogDebug("L1GlobalTrigger") << std::endl;
00121 
00122         LogTrace("L1GlobalTrigger")
00123                 << "\nInput tag for muon collection from GMT:         " << m_muGmtInputTag
00124                 << "\nInput tag for calorimeter collections from GCT: " << m_caloGctInputTag
00125                 << "\nInput tag for CASTOR record:                    " << m_castorInputTag
00126                 << "\nInput tag for technical triggers:               "
00127                 << std::endl;
00128 
00129         // loop over all producers of technical trigger records
00130         for (std::vector<edm::InputTag>::const_iterator it = m_technicalTriggersInputTags.begin(); it
00131                 != m_technicalTriggersInputTags.end(); it++) {
00132             LogTrace("L1GlobalTrigger") << "\n  " << ( *it ) << std::endl;
00133         }
00134 
00135         LogTrace("L1GlobalTrigger")
00136                 << "\nProduce the L1 GT DAQ readout record:           " << m_produceL1GtDaqRecord
00137                 << "\nProduce the L1 GT EVM readout record:           " << m_produceL1GtEvmRecord
00138                 << "\nProduce the L1 GT Object Map record:            " << m_produceL1GtObjectMapRecord
00139                 << " \n"
00140                 << "\nWrite Psb content to L1 GT DAQ Record:          " << m_writePsbL1GtDaqRecord
00141                 << " \n"
00142                 << "\nRead technical trigger records:                 " << m_readTechnicalTriggerRecords
00143                 << " \n"
00144                 << "\nNumber of BxInEvent to be emulated:             " << m_emulateBxInEvent
00145                 << "\nNumber of BXs corresponding to alternative 0:   " << m_recordLength.at(0)
00146                 << "\nNumber of BXs corresponding to alternative 1:   " << m_recordLength.at(1)
00147                 << " \n"
00148                 << "\nAlternative for number of BX in GT DAQ record:   0x" << std::hex
00149                 << m_alternativeNrBxBoardDaq
00150                 << "\nAlternative for number of BX in GT EVM record:   0x" << std::hex
00151                 << m_alternativeNrBxBoardEvm << std::dec
00152                 << " \n"
00153                 << "\nLength of BST message [bytes]:                  " << m_psBstLengthBytes
00154                 << "\n"
00155                 << "\nRun algorithm triggers unprescaled:             " << m_algorithmTriggersUnprescaled
00156                 << "\nRun algorithm triggers unmasked (all enabled):  " << m_algorithmTriggersUnmasked
00157                 << "\n"
00158                 << "\nRun technical triggers unprescaled:             " << m_technicalTriggersUnprescaled
00159                 << "\nRun technical triggers unmasked (all enabled):  " << m_technicalTriggersUnmasked
00160                 << "\nRun technical triggers veto unmasked (no veto): " << m_technicalTriggersUnmasked
00161                 << "\n"
00162                 << std::endl;
00163     }
00164 
00165 
00166     if ( ( m_emulateBxInEvent > 0 ) && ( ( m_emulateBxInEvent % 2 ) == 0 )) {
00167         m_emulateBxInEvent = m_emulateBxInEvent - 1;
00168 
00169         if (m_verbosity) {
00170             edm::LogWarning("L1GlobalTrigger")
00171                     << "\nWARNING: Number of bunch crossing to be emulated rounded to: "
00172                     << m_emulateBxInEvent << "\n         The number must be an odd number!\n"
00173                     << std::endl;
00174         }
00175     }
00176 
00177     int requiredRecordLength = std::max(m_recordLength.at(0), m_recordLength.at(1));
00178     if ((m_emulateBxInEvent >= 0) && (m_emulateBxInEvent < requiredRecordLength) ) {
00179 
00180         m_emulateBxInEvent = requiredRecordLength;
00181 
00182         if (m_verbosity) {
00183             edm::LogWarning("L1GlobalTrigger")
00184                     << "\nWARNING: Number of bunch crossing required to be emulated ( "
00185                     << m_emulateBxInEvent << " BX) smaller as required in RecordLength:"
00186                     << "\n  Number of BXs corresponding to alternative 0:   " << m_recordLength.at(0)
00187                     << "\n  Number of BXs corresponding to alternative 1:   " << m_recordLength.at(1)
00188                     << "\nEmulating " << requiredRecordLength << " BX!"
00189                     << "\n"
00190                     << std::endl;
00191         }
00192 
00193     }
00194 
00195     // register products
00196     if (m_produceL1GtDaqRecord) {
00197         produces<L1GlobalTriggerReadoutRecord>();
00198     }
00199 
00200     if (m_produceL1GtEvmRecord) {
00201         produces<L1GlobalTriggerEvmReadoutRecord>();
00202     }
00203 
00204     if (m_produceL1GtObjectMapRecord) {
00205         produces<L1GlobalTriggerObjectMapRecord>();
00206     }
00207 
00208     // create new PSBs
00209     m_gtPSB = new L1GlobalTriggerPSB();
00210     m_gtPSB->setVerbosity(m_verbosity);
00211 
00212     // create new GTL
00213     m_gtGTL = new L1GlobalTriggerGTL();
00214     m_gtGTL->setVerbosity(m_verbosity);
00215 
00216     // create new FDL
00217     m_gtFDL = new L1GlobalTriggerFDL();
00218     m_gtFDL->setVerbosity(m_verbosity);
00219 
00220     // initialize cached IDs
00221 
00222     //
00223     m_l1GtStableParCacheID = 0ULL;
00224 
00225     m_numberPhysTriggers = 0;
00226     m_numberTechnicalTriggers = 0;
00227     m_numberDaqPartitions = 0;
00228 
00229     m_nrL1Mu = 0;
00230 
00231     m_nrL1NoIsoEG = 0;
00232     m_nrL1IsoEG = 0;
00233 
00234     m_nrL1CenJet = 0;
00235     m_nrL1ForJet = 0;
00236     m_nrL1TauJet = 0;
00237 
00238     m_nrL1JetCounts = 0;
00239 
00240     m_ifMuEtaNumberBits = 0;
00241     m_ifCaloEtaNumberBits = 0;
00242 
00243     //
00244     m_l1GtParCacheID = 0ULL;
00245 
00246     m_totalBxInEvent = 0;
00247 
00248     m_activeBoardsGtDaq = 0;
00249     m_activeBoardsGtEvm = 0;
00250     m_bstLengthBytes = 0;
00251 
00252     //
00253     m_l1GtBMCacheID = 0ULL;
00254 
00255     //
00256     m_l1GtPfAlgoCacheID = 0ULL;
00257     m_l1GtPfTechCacheID = 0ULL;
00258 
00259     m_l1GtTmAlgoCacheID = 0ULL;
00260     m_l1GtTmTechCacheID = 0ULL;
00261 
00262     m_l1GtTmVetoAlgoCacheID = 0ULL;
00263     m_l1GtTmVetoTechCacheID = 0ULL;
00264 
00265 }
00266 
00267 // destructor
00268 L1GlobalTrigger::~L1GlobalTrigger()
00269 {
00270 
00271     delete m_gtPSB;
00272     delete m_gtGTL;
00273     delete m_gtFDL;
00274 }
00275 
00276 // member functions
00277 
00278 // method called to produce the data
00279 void L1GlobalTrigger::produce(edm::Event& iEvent, const edm::EventSetup& evSetup)
00280 {
00281 
00282     // process event iEvent
00283 
00284         // get / update the stable parameters from the EventSetup
00285     // local cache & check on cacheIdentifier
00286 
00287     unsigned long long l1GtStableParCacheID =
00288             evSetup.get<L1GtStableParametersRcd>().cacheIdentifier();
00289 
00290     if (m_l1GtStableParCacheID != l1GtStableParCacheID) {
00291 
00292         edm::ESHandle< L1GtStableParameters > l1GtStablePar;
00293         evSetup.get< L1GtStableParametersRcd >().get( l1GtStablePar );
00294         m_l1GtStablePar = l1GtStablePar.product();
00295 
00296         // number of physics triggers
00297         m_numberPhysTriggers = m_l1GtStablePar->gtNumberPhysTriggers();
00298 
00299         // number of technical triggers
00300         m_numberTechnicalTriggers = m_l1GtStablePar->gtNumberTechnicalTriggers();
00301 
00302         // number of DAQ partitions
00303         m_numberDaqPartitions = 8; // FIXME add it to stable parameters
00304 
00305         // number of objects of each type
00306         m_nrL1Mu = static_cast<int> (m_l1GtStablePar->gtNumberL1Mu());
00307 
00308         m_nrL1NoIsoEG = static_cast<int> (m_l1GtStablePar->gtNumberL1NoIsoEG());
00309         m_nrL1IsoEG = static_cast<int> (m_l1GtStablePar->gtNumberL1IsoEG());
00310 
00311         m_nrL1CenJet = static_cast<int> (m_l1GtStablePar->gtNumberL1CenJet());
00312         m_nrL1ForJet = static_cast<int> (m_l1GtStablePar->gtNumberL1ForJet());
00313         m_nrL1TauJet = static_cast<int> (m_l1GtStablePar->gtNumberL1TauJet());
00314 
00315         m_nrL1JetCounts = static_cast<int> (m_l1GtStablePar->gtNumberL1JetCounts());
00316 
00317         // ... the rest of the objects are global
00318 
00319         m_ifMuEtaNumberBits = static_cast<int> (m_l1GtStablePar->gtIfMuEtaNumberBits());
00320         m_ifCaloEtaNumberBits = static_cast<int> (m_l1GtStablePar->gtIfCaloEtaNumberBits());
00321 
00322         // (re)initialize L1GlobalTriggerGTL
00323         m_gtGTL->init(m_nrL1Mu, m_numberPhysTriggers);
00324 
00325         // (re)initialize L1GlobalTriggerPSB
00326         m_gtPSB->init(m_nrL1NoIsoEG, m_nrL1IsoEG,
00327                 m_nrL1CenJet, m_nrL1ForJet, m_nrL1TauJet,
00328                 m_numberTechnicalTriggers);
00329 
00330         //
00331         m_l1GtStableParCacheID = l1GtStableParCacheID;
00332 
00333     }
00334 
00335     // get / update the parameters from the EventSetup
00336     // local cache & check on cacheIdentifier
00337 
00338     unsigned long long l1GtParCacheID = evSetup.get<L1GtParametersRcd>().cacheIdentifier();
00339 
00340     if (m_l1GtParCacheID != l1GtParCacheID) {
00341 
00342         edm::ESHandle< L1GtParameters > l1GtPar;
00343         evSetup.get< L1GtParametersRcd >().get( l1GtPar );
00344         m_l1GtPar = l1GtPar.product();
00345 
00346         //    total number of Bx's in the event coming from EventSetup
00347         m_totalBxInEvent = m_l1GtPar->gtTotalBxInEvent();
00348 
00349         //    active boards in L1 GT DAQ record and in L1 GT EVM record
00350         m_activeBoardsGtDaq = m_l1GtPar->gtDaqActiveBoards();
00351         m_activeBoardsGtEvm = m_l1GtPar->gtEvmActiveBoards();
00352 
00354         m_bstLengthBytes = m_l1GtPar->gtBstLengthBytes();
00355 
00356 
00357         m_l1GtParCacheID = l1GtParCacheID;
00358 
00359     }
00360 
00361     // negative value: emulate TotalBxInEvent as given in EventSetup
00362     if (m_emulateBxInEvent < 0) {
00363         m_emulateBxInEvent = m_totalBxInEvent;
00364     }
00365 
00366     int minBxInEvent = (m_emulateBxInEvent + 1)/2 - m_emulateBxInEvent;
00367     int maxBxInEvent = (m_emulateBxInEvent + 1)/2 - 1;
00368 
00369     int recordLength0 = m_recordLength.at(0);
00370     int recordLength1 = m_recordLength.at(1);
00371 
00372     if ((recordLength0 < 0) || (recordLength1 < 0) ) {
00373 
00374         // take them from event setup
00375         // FIXME implement later - temporary solution
00376 
00377         recordLength0 = m_emulateBxInEvent;
00378         recordLength1 = m_emulateBxInEvent;
00379 
00380     }
00381 
00382 
00383 
00384     if (m_verbosity) {
00385 
00386         LogDebug("L1GlobalTrigger")
00387                 << "\nTotal number of BX to emulate in the GT readout record: "
00388                 << m_emulateBxInEvent << " = " << "[" << minBxInEvent << ", " << maxBxInEvent
00389                 << "] BX\n"
00390                 << "\nNumber of BX for alternative 0:  " << recordLength0
00391                 << "\nNumber of BX for alternative 1:  " << recordLength1
00392                 << "\nActive boards in L1 GT DAQ record (hex format) = " << std::hex
00393                 << std::setw(sizeof(m_activeBoardsGtDaq) * 2) << std::setfill('0')
00394                 << m_activeBoardsGtDaq << std::dec << std::setfill(' ')
00395                 << "\nActive boards in L1 GT EVM record (hex format) = " << std::hex
00396                 << std::setw(sizeof(m_activeBoardsGtEvm) * 2) << std::setfill('0')
00397                 << m_activeBoardsGtEvm << std::dec << std::setfill(' ') << "\n"
00398                 << std::endl;
00399     }
00400 
00401     // get / update the board maps from the EventSetup
00402     // local cache & check on cacheIdentifier
00403 
00404     typedef std::vector<L1GtBoard>::const_iterator CItBoardMaps;
00405 
00406     unsigned long long l1GtBMCacheID = evSetup.get<L1GtBoardMapsRcd>().cacheIdentifier();
00407 
00408     if (m_l1GtBMCacheID != l1GtBMCacheID) {
00409 
00410         edm::ESHandle< L1GtBoardMaps > l1GtBM;
00411         evSetup.get< L1GtBoardMapsRcd >().get( l1GtBM );
00412         m_l1GtBM = l1GtBM.product();
00413 
00414         m_l1GtBMCacheID = l1GtBMCacheID;
00415 
00416     }
00417 
00418     // TODO need changes in CondFormats to cache the maps
00419     const std::vector<L1GtBoard>& boardMaps = m_l1GtBM->gtBoardMaps();
00420 
00421     // get / update the prescale factors from the EventSetup
00422     // local cache & check on cacheIdentifier
00423 
00424     unsigned long long l1GtPfAlgoCacheID =
00425         evSetup.get<L1GtPrescaleFactorsAlgoTrigRcd>().cacheIdentifier();
00426 
00427     if (m_l1GtPfAlgoCacheID != l1GtPfAlgoCacheID) {
00428 
00429         edm::ESHandle< L1GtPrescaleFactors > l1GtPfAlgo;
00430         evSetup.get< L1GtPrescaleFactorsAlgoTrigRcd >().get( l1GtPfAlgo );
00431         m_l1GtPfAlgo = l1GtPfAlgo.product();
00432 
00433         m_prescaleFactorsAlgoTrig = &(m_l1GtPfAlgo->gtPrescaleFactors());
00434 
00435         m_l1GtPfAlgoCacheID = l1GtPfAlgoCacheID;
00436 
00437     }
00438 
00439     unsigned long long l1GtPfTechCacheID =
00440         evSetup.get<L1GtPrescaleFactorsTechTrigRcd>().cacheIdentifier();
00441 
00442     if (m_l1GtPfTechCacheID != l1GtPfTechCacheID) {
00443 
00444         edm::ESHandle< L1GtPrescaleFactors > l1GtPfTech;
00445         evSetup.get< L1GtPrescaleFactorsTechTrigRcd >().get( l1GtPfTech );
00446         m_l1GtPfTech = l1GtPfTech.product();
00447 
00448         m_prescaleFactorsTechTrig = &(m_l1GtPfTech->gtPrescaleFactors());
00449 
00450         m_l1GtPfTechCacheID = l1GtPfTechCacheID;
00451 
00452     }
00453 
00454 
00455     // get / update the trigger mask from the EventSetup
00456     // local cache & check on cacheIdentifier
00457 
00458     unsigned long long l1GtTmAlgoCacheID =
00459         evSetup.get<L1GtTriggerMaskAlgoTrigRcd>().cacheIdentifier();
00460 
00461     if (m_l1GtTmAlgoCacheID != l1GtTmAlgoCacheID) {
00462 
00463         edm::ESHandle< L1GtTriggerMask > l1GtTmAlgo;
00464         evSetup.get< L1GtTriggerMaskAlgoTrigRcd >().get( l1GtTmAlgo );
00465         m_l1GtTmAlgo = l1GtTmAlgo.product();
00466 
00467         m_triggerMaskAlgoTrig = m_l1GtTmAlgo->gtTriggerMask();
00468 
00469         m_l1GtTmAlgoCacheID = l1GtTmAlgoCacheID;
00470 
00471     }
00472 
00473 
00474     unsigned long long l1GtTmTechCacheID =
00475         evSetup.get<L1GtTriggerMaskTechTrigRcd>().cacheIdentifier();
00476 
00477     if (m_l1GtTmTechCacheID != l1GtTmTechCacheID) {
00478 
00479         edm::ESHandle< L1GtTriggerMask > l1GtTmTech;
00480         evSetup.get< L1GtTriggerMaskTechTrigRcd >().get( l1GtTmTech );
00481         m_l1GtTmTech = l1GtTmTech.product();
00482 
00483         m_triggerMaskTechTrig = m_l1GtTmTech->gtTriggerMask();
00484 
00485         m_l1GtTmTechCacheID = l1GtTmTechCacheID;
00486 
00487     }
00488 
00489     unsigned long long l1GtTmVetoAlgoCacheID =
00490         evSetup.get<L1GtTriggerMaskVetoAlgoTrigRcd>().cacheIdentifier();
00491 
00492     if (m_l1GtTmVetoAlgoCacheID != l1GtTmVetoAlgoCacheID) {
00493 
00494         edm::ESHandle< L1GtTriggerMask > l1GtTmVetoAlgo;
00495         evSetup.get< L1GtTriggerMaskVetoAlgoTrigRcd >().get( l1GtTmVetoAlgo );
00496         m_l1GtTmVetoAlgo = l1GtTmVetoAlgo.product();
00497 
00498         m_triggerMaskVetoAlgoTrig = m_l1GtTmVetoAlgo->gtTriggerMask();
00499 
00500         m_l1GtTmVetoAlgoCacheID = l1GtTmVetoAlgoCacheID;
00501 
00502     }
00503 
00504 
00505     unsigned long long l1GtTmVetoTechCacheID =
00506         evSetup.get<L1GtTriggerMaskVetoTechTrigRcd>().cacheIdentifier();
00507 
00508     if (m_l1GtTmVetoTechCacheID != l1GtTmVetoTechCacheID) {
00509 
00510         edm::ESHandle< L1GtTriggerMask > l1GtTmVetoTech;
00511         evSetup.get< L1GtTriggerMaskVetoTechTrigRcd >().get( l1GtTmVetoTech );
00512         m_l1GtTmVetoTech = l1GtTmVetoTech.product();
00513 
00514         m_triggerMaskVetoTechTrig = m_l1GtTmVetoTech->gtTriggerMask();
00515 
00516         m_l1GtTmVetoTechCacheID = l1GtTmVetoTechCacheID;
00517 
00518     }
00519 
00520     // loop over blocks in the GT DAQ record receiving data, count them if they are active
00521     // all board type are defined in CondFormats/L1TObjects/L1GtFwd
00522     // enum L1GtBoardType { GTFE, FDL, PSB, GMT, TCS, TIM };
00523     // &
00524     // set the active flag for each object type received from GMT and GCT
00525     // all objects in the GT system are defined in enum L1GtObject from
00526     // DataFormats/L1Trigger/L1GlobalTriggerReadoutSetupFwd
00527 
00528     int daqNrGtfeBoards = 0;
00529 
00530     int daqNrFdlBoards = 0;
00531     int daqNrPsbBoards = 0;
00532     int daqNrGmtBoards = 0;
00533     int daqNrTcsBoards = 0;
00534     int daqNrTimBoards = 0;
00535 
00536     //
00537     bool receiveMu = false;
00538     bool receiveNoIsoEG = false;
00539     bool receiveIsoEG = false;
00540     bool receiveCenJet = false;
00541     bool receiveForJet = false;
00542     bool receiveTauJet = false;
00543     bool receiveETM = false;
00544     bool receiveETT = false;
00545     bool receiveHTT = false;
00546     bool receiveHTM = false;
00547     bool receiveJetCounts = false;
00548     bool receiveHfBitCounts = false;
00549     bool receiveHfRingEtSums = false;
00550 
00551     bool receiveExternal = false;
00552 
00553     bool receiveTechTr = false;
00554 
00555     for (CItBoardMaps
00556             itBoard = boardMaps.begin();
00557             itBoard != boardMaps.end(); ++itBoard) {
00558 
00559         int iPosition = itBoard->gtPositionDaqRecord();
00560         if (iPosition > 0) {
00561 
00562             int iActiveBit = itBoard->gtBitDaqActiveBoards();
00563             bool activeBoard = false;
00564 
00565             if (iActiveBit >= 0) {
00566                 activeBoard = m_activeBoardsGtDaq & (1 << iActiveBit);
00567             }
00568 
00569             // use board if: in the record, but not in ActiveBoardsMap (iActiveBit < 0)
00570             //               in the record and ActiveBoardsMap, and active
00571             if ((iActiveBit < 0) || activeBoard) {
00572 
00573                 switch (itBoard->gtBoardType()) {
00574 
00575                     case GTFE: {
00576                             daqNrGtfeBoards++;
00577                         }
00578 
00579                         break;
00580                     case FDL: {
00581                             daqNrFdlBoards++;
00582                         }
00583 
00584                         break;
00585                     case PSB: {
00586                             daqNrPsbBoards++;
00587 
00588                             // get the objects coming to this PSB
00589                             std::vector<L1GtPsbQuad> quadInPsb = itBoard->gtQuadInPsb();
00590                             for (std::vector<L1GtPsbQuad>::const_iterator
00591                                     itQuad = quadInPsb.begin();
00592                                     itQuad != quadInPsb.end(); ++itQuad) {
00593 
00594                                 switch (*itQuad) {
00595 
00596                                     case TechTr: {
00597                                             receiveTechTr = true;
00598                                         }
00599 
00600                                         break;
00601                                     case NoIsoEGQ: {
00602                                             receiveNoIsoEG = true;
00603                                         }
00604 
00605                                         break;
00606                                     case IsoEGQ: {
00607                                             receiveIsoEG = true;
00608                                         }
00609 
00610                                         break;
00611                                     case CenJetQ: {
00612                                             receiveCenJet = true;
00613                                         }
00614 
00615                                         break;
00616                                     case ForJetQ: {
00617                                             receiveForJet = true;
00618                                         }
00619 
00620                                         break;
00621                                     case TauJetQ: {
00622                                             receiveTauJet = true;
00623                                         }
00624 
00625                                         break;
00626                                     case ESumsQ: {
00627                                             receiveETM = true;
00628                                             receiveETT = true;
00629                                             receiveHTT = true;
00630                                             receiveHTM = true;
00631                                         }
00632 
00633                                         break;
00634                                     case JetCountsQ: {
00635                                             receiveJetCounts = true;
00636                                         }
00637 
00638                                         break;
00639                                     case CastorQ: {
00640                                             // obsolete
00641                                         }
00642 
00643                                         break;
00644                                     case BptxQ: {
00645                                             // obsolete
00646                                         }
00647 
00648                                         break;
00649                                     case GtExternalQ: {
00650                                             receiveExternal = true;
00651                                         }
00652 
00653                                         break;
00654                                     case HfQ: {
00655                                             receiveHfBitCounts = true;
00656                                             receiveHfRingEtSums = true;
00657                                         }
00658 
00659                                         break;
00660                                         // FIXME add MIP/Iso bits
00661                                     default: {
00662                                             // do nothing
00663                                         }
00664 
00665                                         break;
00666                                 }
00667 
00668                             }
00669 
00670                         }
00671 
00672                         break;
00673                     case GMT: {
00674                             daqNrGmtBoards++;
00675                             receiveMu = true;
00676                         }
00677 
00678                         break;
00679                     case TCS: {
00680                             daqNrTcsBoards++;
00681                         }
00682 
00683                         break;
00684                     case TIM: {
00685                             daqNrTimBoards++;
00686                         }
00687 
00688                         break;
00689                     default: {
00690                             // do nothing, all blocks are given in GtBoardType enum
00691                         }
00692 
00693                         break;
00694                 }
00695             }
00696         }
00697 
00698     }
00699 
00700     // produce the L1GlobalTriggerReadoutRecord now, after we found how many
00701     // BxInEvent the record has and how many boards are active
00702     std::auto_ptr<L1GlobalTriggerReadoutRecord> gtDaqReadoutRecord(
00703         new L1GlobalTriggerReadoutRecord(
00704             m_emulateBxInEvent, daqNrFdlBoards, daqNrPsbBoards) );
00705 
00706 
00707     // * produce the L1GlobalTriggerEvmReadoutRecord
00708     std::auto_ptr<L1GlobalTriggerEvmReadoutRecord> gtEvmReadoutRecord(
00709         new L1GlobalTriggerEvmReadoutRecord(m_emulateBxInEvent, daqNrFdlBoards) );
00710     // daqNrFdlBoards OK, just reserve memory at this point
00711 
00712     // * produce the L1GlobalTriggerObjectMapRecord
00713     std::auto_ptr<L1GlobalTriggerObjectMapRecord> gtObjectMapRecord(
00714         new L1GlobalTriggerObjectMapRecord() );
00715 
00716 
00717     // fill the boards not depending on the BxInEvent in the L1 GT DAQ record
00718     // GMT, PSB and FDL depend on BxInEvent
00719 
00720     // fill in emulator the same bunch crossing (12 bits - hardwired number of bits...)
00721     // and the same local bunch crossing for all boards
00722     int bxCross = iEvent.bunchCrossing();
00723     boost::uint16_t bxCrossHw = 0;
00724     if ((bxCross & 0xFFF) == bxCross) {
00725         bxCrossHw = static_cast<boost::uint16_t> (bxCross);
00726     }
00727     else {
00728         bxCrossHw = 0; // Bx number too large, set to 0!
00729         if (m_verbosity) {
00730 
00731             LogDebug("L1GlobalTrigger")
00732                 << "\nBunch cross number [hex] = " << std::hex << bxCross
00733                 << "\n  larger than 12 bits. Set to 0! \n" << std::dec
00734                 << std::endl;
00735         }
00736     }
00737 
00738 
00739     if (m_produceL1GtDaqRecord) {
00740 
00741         for (CItBoardMaps
00742                 itBoard = boardMaps.begin();
00743                 itBoard != boardMaps.end(); ++itBoard) {
00744 
00745             int iPosition = itBoard->gtPositionDaqRecord();
00746             if (iPosition > 0) {
00747 
00748                 int iActiveBit = itBoard->gtBitDaqActiveBoards();
00749                 bool activeBoard = false;
00750 
00751                 if (iActiveBit >= 0) {
00752                     activeBoard = m_activeBoardsGtDaq & (1 << iActiveBit);
00753                 }
00754 
00755                 // use board if: in the record, but not in ActiveBoardsMap (iActiveBit < 0)
00756                 //               in the record and ActiveBoardsMap, and active
00757                 if ((iActiveBit < 0) || activeBoard) {
00758 
00759                     switch (itBoard->gtBoardType()) {
00760 
00761                         case GTFE: {
00762                                 L1GtfeWord gtfeWordValue;
00763 
00764                                 gtfeWordValue.setBoardId( itBoard->gtBoardId() );
00765 
00766                                 // cast int to boost::uint16_t
00767                                 // there are normally 3 or 5 BxInEvent
00768                                 gtfeWordValue.setRecordLength(
00769                                     static_cast<boost::uint16_t>(recordLength0));
00770 
00771                                 gtfeWordValue.setRecordLength1(
00772                                     static_cast<boost::uint16_t>(recordLength1));
00773 
00774                                 // bunch crossing
00775                                 gtfeWordValue.setBxNr(bxCrossHw);
00776 
00777                                 // set the list of active boards
00778                                 gtfeWordValue.setActiveBoards(m_activeBoardsGtDaq);
00779 
00780                                 // set alternative for number of BX per board
00781                                 gtfeWordValue.setAltNrBxBoard(
00782                                     static_cast<boost::uint16_t> (m_alternativeNrBxBoardDaq));
00783 
00784                                 // set the TOTAL_TRIGNR as read from iEvent
00785                                 // TODO check again - PTC stuff
00786 
00787                                 gtfeWordValue.setTotalTriggerNr(
00788                                     static_cast<boost::uint32_t>(iEvent.id().event()));
00789 
00790                                 // ** fill L1GtfeWord in GT DAQ record
00791 
00792                                 gtDaqReadoutRecord->setGtfeWord(gtfeWordValue);
00793                             }
00794 
00795                             break;
00796                         case TCS: {
00797                                 // nothing
00798                             }
00799 
00800                             break;
00801                         case TIM: {
00802                                 // nothing
00803                             }
00804 
00805                             break;
00806                         default: {
00807                                 // do nothing, all blocks are given in GtBoardType enum
00808                             }
00809 
00810                             break;
00811                     }
00812                 }
00813             }
00814 
00815         }
00816 
00817     }
00818 
00819     // fill the boards not depending on the BxInEvent in the L1 GT EVM record
00820 
00821     int evmNrFdlBoards = 0;
00822 
00823     if (m_produceL1GtEvmRecord) {
00824 
00825         // get the length of the BST message from parameter set or from event setup
00826 
00827         int bstLengthBytes = 0;
00828 
00829         if (m_psBstLengthBytes < 0) {
00830             // length from event setup
00831             bstLengthBytes = static_cast<int> (m_bstLengthBytes);
00832 
00833         } else {
00834             // length from parameter set
00835             bstLengthBytes = m_psBstLengthBytes;
00836         }
00837 
00838         if (m_verbosity) {
00839 
00840             LogTrace("L1GlobalTrigger")
00841                 << "\n Length of BST message (in bytes): "
00842                 << bstLengthBytes << "\n"
00843                 << std::endl;
00844         }
00845 
00846         for (CItBoardMaps
00847                 itBoard = boardMaps.begin();
00848                 itBoard != boardMaps.end(); ++itBoard) {
00849 
00850             int iPosition = itBoard->gtPositionEvmRecord();
00851             if (iPosition > 0) {
00852 
00853                 int iActiveBit = itBoard->gtBitEvmActiveBoards();
00854                 bool activeBoard = false;
00855 
00856                 if (iActiveBit >= 0) {
00857                     activeBoard = m_activeBoardsGtEvm & (1 << iActiveBit);
00858                 }
00859 
00860                 // use board if: in the record, but not in ActiveBoardsMap (iActiveBit < 0)
00861                 //               in the record and ActiveBoardsMap, and active
00862                 if ((iActiveBit < 0) || activeBoard) {
00863 
00864                     switch (itBoard->gtBoardType()) {
00865 
00866                         case GTFE: {
00867                                 L1GtfeExtWord gtfeWordValue(bstLengthBytes);
00868 
00869                                 gtfeWordValue.setBoardId(itBoard->gtBoardId() );
00870 
00871                                 // cast int to boost::uint16_t
00872                                 // there are normally 3 or 5 BxInEvent
00873                                 gtfeWordValue.setRecordLength(
00874                                     static_cast<boost::uint16_t>(recordLength0));
00875 
00876                                 gtfeWordValue.setRecordLength1(
00877                                     static_cast<boost::uint16_t>(recordLength1));
00878 
00879                                 // bunch crossing
00880                                 gtfeWordValue.setBxNr(bxCrossHw);
00881 
00882                                 // set the list of active boards
00883                                 gtfeWordValue.setActiveBoards(m_activeBoardsGtEvm);
00884 
00885                                 // set alternative for number of BX per board
00886                                 gtfeWordValue.setAltNrBxBoard(
00887                                     static_cast<boost::uint16_t> (m_alternativeNrBxBoardEvm));
00888 
00889                                 // set the TOTAL_TRIGNR as read from iEvent
00890                                 // TODO check again - PTC stuff
00891 
00892                                 gtfeWordValue.setTotalTriggerNr(
00893                                     static_cast<boost::uint32_t>(iEvent.id().event()));
00894 
00895                                 // set the GPS time to the value read from Timestamp
00896                                 edm::TimeValue_t evTime = iEvent.time().value();
00897 
00898                                 gtfeWordValue.setGpsTime(evTime);
00899 
00900                                 //LogDebug("L1GlobalTrigger")
00901                                 //<< "\nEvent timestamp value [hex] = " << std::hex << evTime
00902                                 //<< "\nBST retrieved value [hex]   = " << gtfeWordValue.gpsTime()
00903                                 //<< std::dec << std::endl;
00904 
00905                                 // source of BST message: DDDD simulated data
00906                                 boost::uint16_t bstSourceVal = 0xDDDD;
00907                                 gtfeWordValue.setBstSource(bstSourceVal);
00908 
00909                                 // ** fill L1GtfeWord in GT EVM record
00910 
00911                                 gtEvmReadoutRecord->setGtfeWord(gtfeWordValue);
00912                             }
00913 
00914                             break;
00915                         case FDL: {
00916                                 evmNrFdlBoards++;
00917                             }
00918 
00919                             break;
00920                         case TCS: {
00921 
00922                                 L1TcsWord tcsWordValue;
00923 
00924                                 tcsWordValue.setBoardId( itBoard->gtBoardId() );
00925 
00926                                 // bunch crossing
00927                                 tcsWordValue.setBxNr(bxCrossHw);
00928 
00929                                 boost::uint16_t trigType = 0x5; // 0101 simulated event
00930                                 tcsWordValue.setTriggerType(trigType);
00931 
00932                                 // luminosity segment number
00933                                 tcsWordValue.setLuminositySegmentNr(
00934                                         static_cast<boost::uint16_t>(iEvent.luminosityBlock()));
00935 
00936 
00937                                 // set the Event_Nr as read from iEvent
00938                                 tcsWordValue.setEventNr(
00939                                     static_cast<boost::uint32_t>(iEvent.id().event()));
00940 
00941                                 // orbit number
00942                                 tcsWordValue.setOrbitNr(
00943                                         static_cast<boost::uint64_t>(iEvent.orbitNumber()) );
00944 
00945                                 // ** fill L1TcsWord in the EVM record
00946 
00947                                 gtEvmReadoutRecord->setTcsWord(tcsWordValue);
00948 
00949                             }
00950 
00951                             break;
00952                         case TIM: {
00953                                 // nothing
00954                             }
00955 
00956                             break;
00957                         default: {
00958                                 // do nothing, all blocks are given in GtBoardType enum
00959                             }
00960 
00961                             break;
00962                     }
00963                 }
00964             }
00965 
00966         }
00967 
00968     }
00969 
00970     // get the prescale factor set used in the actual luminosity segment
00971     int pfAlgoSetIndex = 0; // FIXME
00972     const std::vector<int>& prescaleFactorsAlgoTrig =
00973         (*m_prescaleFactorsAlgoTrig).at(pfAlgoSetIndex);
00974 
00975     int pfTechSetIndex = 0; // FIXME
00976     const std::vector<int>& prescaleFactorsTechTrig =
00977         (*m_prescaleFactorsTechTrig).at(pfTechSetIndex);
00978 
00979     //
00980 
00981     // loop over BxInEvent
00982     for (int iBxInEvent = minBxInEvent; iBxInEvent <= maxBxInEvent;
00983             ++iBxInEvent) {
00984 
00985         // * receive GCT object data via PSBs
00986         //LogDebug("L1GlobalTrigger")
00987         //<< "\nL1GlobalTrigger : receiving PSB data for bx = " << iBxInEvent << "\n"
00988         //<< std::endl;
00989 
00990         m_gtPSB->receiveGctObjectData(
00991             iEvent,
00992             m_caloGctInputTag, iBxInEvent,
00993             receiveNoIsoEG, m_nrL1NoIsoEG,
00994             receiveIsoEG, m_nrL1IsoEG,
00995             receiveCenJet, m_nrL1CenJet,
00996             receiveForJet, m_nrL1ForJet,
00997             receiveTauJet, m_nrL1TauJet,
00998             receiveETM, receiveETT, receiveHTT, receiveHTM,
00999             receiveJetCounts,
01000             receiveHfBitCounts,
01001             receiveHfRingEtSums);
01002 
01004         if (m_readTechnicalTriggerRecords) {
01005             m_gtPSB->receiveTechnicalTriggers(iEvent,
01006                     m_technicalTriggersInputTags, iBxInEvent, receiveTechTr,
01007                     m_numberTechnicalTriggers);
01008         }
01009 
01010         if (receiveExternal) {
01011             // FIXME read the external conditions
01012         }
01013 
01014 
01015         if (m_produceL1GtDaqRecord && m_writePsbL1GtDaqRecord) {
01016             m_gtPSB->fillPsbBlock(
01017                     iEvent, m_activeBoardsGtDaq, recordLength0, recordLength1,
01018                     m_alternativeNrBxBoardDaq, boardMaps, iBxInEvent, gtDaqReadoutRecord);
01019         }
01020 
01021         // * receive GMT object data via GTL
01022         //LogDebug("L1GlobalTrigger")
01023         //<< "\nL1GlobalTrigger : receiving GMT data for bx = " << iBxInEvent << "\n"
01024         //<< std::endl;
01025 
01026         m_gtGTL->receiveGmtObjectData(iEvent, m_muGmtInputTag, iBxInEvent,
01027                 receiveMu, m_nrL1Mu);
01028 
01029         // * run GTL
01030         //LogDebug("L1GlobalTrigger")
01031         //<< "\nL1GlobalTrigger : running GTL for bx = " << iBxInEvent << "\n"
01032         //<< std::endl;
01033 
01034         m_gtGTL->run(iEvent, evSetup, m_gtPSB,
01035             m_produceL1GtObjectMapRecord, iBxInEvent, gtObjectMapRecord,
01036             m_numberPhysTriggers,
01037             m_nrL1Mu,
01038             m_nrL1NoIsoEG,
01039             m_nrL1IsoEG,
01040             m_nrL1CenJet,
01041             m_nrL1ForJet,
01042             m_nrL1TauJet,
01043             m_nrL1JetCounts,
01044             m_ifMuEtaNumberBits,
01045             m_ifCaloEtaNumberBits);
01046 
01047         //LogDebug("L1GlobalTrigger")
01048         //<< "\n AlgorithmOR\n" << m_gtGTL->getAlgorithmOR() << "\n"
01049         //<< std::endl;
01050 
01051         // * run FDL
01052         //LogDebug("L1GlobalTrigger")
01053         //<< "\nL1GlobalTrigger : running FDL for bx = " << iBxInEvent << "\n"
01054         //<< std::endl;
01055 
01056         m_gtFDL->run(iEvent,
01057                 prescaleFactorsAlgoTrig, prescaleFactorsTechTrig,
01058                 m_triggerMaskAlgoTrig, m_triggerMaskTechTrig,
01059                 m_triggerMaskVetoAlgoTrig, m_triggerMaskVetoTechTrig,
01060                 boardMaps, m_emulateBxInEvent, iBxInEvent,
01061                 m_numberPhysTriggers, m_numberTechnicalTriggers,
01062                 m_numberDaqPartitions,
01063                 m_gtGTL, m_gtPSB,
01064                 pfAlgoSetIndex,
01065                 pfTechSetIndex,
01066                 m_algorithmTriggersUnprescaled,
01067                 m_algorithmTriggersUnmasked,
01068                 m_technicalTriggersUnprescaled,
01069                 m_technicalTriggersUnmasked,
01070                 m_technicalTriggersVetoUnmasked
01071                 );
01072 
01073         if (m_produceL1GtDaqRecord && ( daqNrFdlBoards > 0 )) {
01074             m_gtFDL->fillDaqFdlBlock(iBxInEvent,
01075                     m_activeBoardsGtDaq, recordLength0, recordLength1, m_alternativeNrBxBoardDaq,
01076                     boardMaps, gtDaqReadoutRecord);
01077         }
01078 
01079 
01080         if (m_produceL1GtEvmRecord && ( evmNrFdlBoards > 0 )) {
01081             m_gtFDL->fillEvmFdlBlock(iBxInEvent,
01082                     m_activeBoardsGtEvm, recordLength0, recordLength1, m_alternativeNrBxBoardEvm,
01083                     boardMaps, gtEvmReadoutRecord);
01084         }
01085 
01086         // reset
01087         m_gtPSB->reset();
01088         m_gtGTL->reset();
01089         m_gtFDL->reset();
01090 
01091         //LogDebug("L1GlobalTrigger") << "\n Reset PSB, GTL, FDL\n" << std::endl;
01092 
01093     }
01094 
01095 
01096     if ( receiveMu ) {
01097 
01098 
01099         //LogDebug("L1GlobalTrigger")
01100         //<< "\n**** "
01101         //<< "\n  Persistent reference for L1MuGMTReadoutCollection with input tag: "
01102         //<< m_muGmtInputTag
01103         //<< "\n**** \n"
01104         //<< std::endl;
01105 
01106         // get L1MuGMTReadoutCollection reference and set it in GT record
01107 
01108         edm::Handle<L1MuGMTReadoutCollection> gmtRcHandle;
01109         iEvent.getByLabel(m_muGmtInputTag, gmtRcHandle);
01110 
01111 
01112 
01113         if (!gmtRcHandle.isValid()) {
01114             if (m_verbosity) {
01115                 edm::LogWarning("L1GlobalTrigger")
01116                         << "\nWarning: L1MuGMTReadoutCollection with input tag " << m_muGmtInputTag
01117                         << "\nrequested in configuration, but not found in the event.\n"
01118                         << std::endl;
01119             }
01120         } else {
01121 
01122             gtDaqReadoutRecord->setMuCollectionRefProd(gmtRcHandle);
01123 
01124         }
01125 
01126     }
01127 
01128     if ( m_verbosity && m_isDebugEnabled ) {
01129 
01130         std::ostringstream myCoutStream;
01131         gtDaqReadoutRecord->print(myCoutStream);
01132         LogTrace("L1GlobalTrigger")
01133         << "\n The following L1 GT DAQ readout record was produced:\n"
01134         << myCoutStream.str() << "\n"
01135         << std::endl;
01136 
01137         myCoutStream.str("");
01138         myCoutStream.clear();
01139 
01140         gtEvmReadoutRecord->print(myCoutStream);
01141         LogTrace("L1GlobalTrigger")
01142         << "\n The following L1 GT EVM readout record was produced:\n"
01143         << myCoutStream.str() << "\n"
01144         << std::endl;
01145 
01146         myCoutStream.str("");
01147         myCoutStream.clear();
01148 
01149         const std::vector<L1GlobalTriggerObjectMap> objMapVec =
01150             gtObjectMapRecord->gtObjectMap();
01151 
01152         for (std::vector<L1GlobalTriggerObjectMap>::const_iterator
01153                 it = objMapVec.begin(); it != objMapVec.end(); ++it) {
01154 
01155             (*it).print(myCoutStream);
01156 
01157         }
01158 
01159 
01160         LogDebug("L1GlobalTrigger")
01161         << "Test gtObjectMapRecord in L1GlobalTrigger \n\n" << myCoutStream.str() << "\n\n"
01162         << std::endl;
01163 
01164         myCoutStream.str("");
01165         myCoutStream.clear();
01166 
01167     }
01168 
01169     // **
01170     // register products
01171     if (m_produceL1GtDaqRecord) {
01172         iEvent.put( gtDaqReadoutRecord );
01173     }
01174 
01175     if (m_produceL1GtEvmRecord) {
01176         iEvent.put( gtEvmReadoutRecord );
01177     }
01178 
01179     if (m_produceL1GtObjectMapRecord) {
01180         iEvent.put( gtObjectMapRecord );
01181     }
01182 
01183 }
01184 
01185 // static data members
01186