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CMSSW_4_4_3_patch1/src/PhysicsTools/PatAlgos/plugins/PATTriggerProducer.cc

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00001 //
00002 // $Id: PATTriggerProducer.cc,v 1.29.2.1 2011/11/30 18:29:17 vadler Exp $
00003 //
00004 
00005 
00006 #include "PhysicsTools/PatAlgos/plugins/PATTriggerProducer.h"
00007 
00008 #include <vector>
00009 #include <map>
00010 #include <utility>
00011 #include <cassert>
00012 
00013 #include "CondFormats/L1TObjects/interface/L1GtTriggerMenu.h"
00014 #include "CondFormats/DataRecord/interface/L1GtTriggerMenuRcd.h"
00015 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutSetup.h"
00016 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutRecord.h"
00017 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerObjectMapRecord.h"
00018 #include "DataFormats/Common/interface/TriggerResults.h"
00019 #include "DataFormats/HLTReco/interface/TriggerEvent.h"
00020 #include "DataFormats/Provenance/interface/ProcessHistory.h"
00021 #include "FWCore/ParameterSet/interface/Registry.h"
00022 
00023 #include "DataFormats/PatCandidates/interface/TriggerAlgorithm.h"
00024 #include "DataFormats/PatCandidates/interface/TriggerCondition.h"
00025 #include "DataFormats/PatCandidates/interface/TriggerPath.h"
00026 #include "DataFormats/PatCandidates/interface/TriggerFilter.h"
00027 #include "DataFormats/PatCandidates/interface/TriggerObjectStandAlone.h"
00028 
00029 #include "FWCore/Framework/interface/ESHandle.h"
00030 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00031 
00032 
00033 using namespace pat;
00034 using namespace edm;
00035 
00036 
00037 // Constants' definitions
00038 const unsigned L1GlobalTriggerReadoutSetup::NumberPhysTriggers;
00039 const unsigned L1GlobalTriggerReadoutSetup::NumberPhysTriggersExtended;
00040 const unsigned L1GlobalTriggerReadoutSetup::NumberTechnicalTriggers;
00041 
00042 
00043 PATTriggerProducer::PATTriggerProducer( const ParameterSet & iConfig ) :
00044   nameProcess_( iConfig.getParameter< std::string >( "processName" ) ),
00045   autoProcessName_( nameProcess_ == "*" ),
00046   onlyStandAlone_( iConfig.getParameter< bool >( "onlyStandAlone" ) ),
00047   // L1 configuration parameters
00048   addL1Algos_( false ),
00049   tagL1GlobalTriggerObjectMapRecord_( "hltL1GtObjectMap" ),
00050   tagL1ExtraMu_(),
00051   tagL1ExtraNoIsoEG_(),
00052   tagL1ExtraIsoEG_(),
00053   tagL1ExtraCenJet_(),
00054   tagL1ExtraForJet_(),
00055   tagL1ExtraTauJet_(),
00056   tagL1ExtraETM_(),
00057   tagL1ExtraHTM_(),
00058   autoProcessNameL1ExtraMu_( false ),
00059   autoProcessNameL1ExtraNoIsoEG_( false ),
00060   autoProcessNameL1ExtraIsoEG_( false ),
00061   autoProcessNameL1ExtraCenJet_( false ),
00062   autoProcessNameL1ExtraForJet_( false ),
00063   autoProcessNameL1ExtraTauJet_( false ),
00064   autoProcessNameL1ExtraETM_( false ),
00065   autoProcessNameL1ExtraHTM_( false ),
00066   mainBxOnly_( true ),
00067   saveL1Refs_( false ),
00068   // HLT configuration parameters
00069   tagTriggerResults_( "TriggerResults" ),
00070   tagTriggerEvent_( "hltTriggerSummaryAOD" ),
00071   hltPrescaleLabel_(),
00072   labelHltPrescaleTable_(),
00073   hltPrescaleTableRun_(),
00074   hltPrescaleTableLumi_(),
00075   addPathModuleLabels_( false )
00076 {
00077 
00078   // L1 configuration parameters
00079   if ( iConfig.exists( "addL1Algos" ) ) addL1Algos_ = iConfig.getParameter< bool >( "addL1Algos" );
00080   if ( iConfig.exists( "l1GlobalTriggerObjectMapRecord" ) ) tagL1GlobalTriggerObjectMapRecord_ = iConfig.getParameter< InputTag >( "l1GlobalTriggerObjectMapRecord" );
00081   if ( iConfig.exists( "l1ExtraMu" ) ) {
00082     tagL1ExtraMu_ = iConfig.getParameter< InputTag >( "l1ExtraMu" );
00083     if ( tagL1ExtraMu_.process() == "*" ) {
00084       if ( autoProcessName_ ) autoProcessNameL1ExtraMu_ = true;
00085       else                    tagL1ExtraMu_ = InputTag( tagL1ExtraMu_.label(), tagL1ExtraMu_.instance(), nameProcess_ );
00086     }
00087   }
00088   if ( iConfig.exists( "l1ExtraNoIsoEG" ) ) {
00089     tagL1ExtraNoIsoEG_ = iConfig.getParameter< InputTag >( "l1ExtraNoIsoEG" );
00090     if ( tagL1ExtraNoIsoEG_.process() == "*" ) {
00091       if ( autoProcessName_ ) autoProcessNameL1ExtraNoIsoEG_ = true;
00092       else                    tagL1ExtraNoIsoEG_ = InputTag( tagL1ExtraNoIsoEG_.label(), tagL1ExtraNoIsoEG_.instance(), nameProcess_ );
00093     }
00094   }
00095   if ( iConfig.exists( "l1ExtraIsoEG" ) ) {
00096     tagL1ExtraIsoEG_ = iConfig.getParameter< InputTag >( "l1ExtraIsoEG" );
00097     if ( tagL1ExtraIsoEG_.process() == "*" ) {
00098       if ( autoProcessName_ ) autoProcessNameL1ExtraIsoEG_ = true;
00099       else                    tagL1ExtraIsoEG_ = InputTag( tagL1ExtraIsoEG_.label(), tagL1ExtraIsoEG_.instance(), nameProcess_ );
00100     }
00101   }
00102   if ( iConfig.exists( "l1ExtraCenJet" ) ) {
00103     tagL1ExtraCenJet_ = iConfig.getParameter< InputTag >( "l1ExtraCenJet" );
00104     if ( tagL1ExtraCenJet_.process() == "*" ) {
00105       if ( autoProcessName_ ) autoProcessNameL1ExtraCenJet_ = true;
00106       else                    tagL1ExtraCenJet_ = InputTag( tagL1ExtraCenJet_.label(), tagL1ExtraCenJet_.instance(), nameProcess_ );
00107     }
00108   }
00109   if ( iConfig.exists( "l1ExtraForJet" ) ) {
00110     tagL1ExtraForJet_ = iConfig.getParameter< InputTag >( "l1ExtraForJet" );
00111     if ( tagL1ExtraForJet_.process() == "*" ) {
00112       if ( autoProcessName_ ) autoProcessNameL1ExtraForJet_ = true;
00113       else                    tagL1ExtraForJet_ = InputTag( tagL1ExtraForJet_.label(), tagL1ExtraForJet_.instance(), nameProcess_ );
00114     }
00115   }
00116   if ( iConfig.exists( "l1ExtraTauJet" ) ) {
00117     tagL1ExtraTauJet_ = iConfig.getParameter< InputTag >( "l1ExtraTauJet" );
00118     if ( tagL1ExtraTauJet_.process() == "*" ) {
00119       if ( autoProcessName_ ) autoProcessNameL1ExtraTauJet_ = true;
00120       else                    tagL1ExtraTauJet_ = InputTag( tagL1ExtraTauJet_.label(), tagL1ExtraTauJet_.instance(), nameProcess_ );
00121     }
00122   }
00123   if ( iConfig.exists( "l1ExtraETM" ) ) {
00124     tagL1ExtraETM_ = iConfig.getParameter< InputTag >( "l1ExtraETM" );
00125     if ( tagL1ExtraETM_.process() == "*" ) {
00126       if ( autoProcessName_ ) autoProcessNameL1ExtraETM_ = true;
00127       else                    tagL1ExtraETM_ = InputTag( tagL1ExtraETM_.label(), tagL1ExtraETM_.instance(), nameProcess_ );
00128     }
00129   }
00130   if ( iConfig.exists( "l1ExtraHTM" ) ) {
00131     tagL1ExtraHTM_ = iConfig.getParameter< InputTag >( "l1ExtraHTM" );
00132     if ( tagL1ExtraHTM_.process() == "*" ) {
00133       if ( autoProcessName_ ) autoProcessNameL1ExtraHTM_ = true;
00134       else                    tagL1ExtraHTM_ = InputTag( tagL1ExtraHTM_.label(), tagL1ExtraHTM_.instance(), nameProcess_ );
00135     }
00136   }
00137   if ( iConfig.exists( "mainBxOnly" ) ) mainBxOnly_ = iConfig.getParameter< bool >( "mainBxOnly" );
00138   if ( iConfig.exists( "saveL1Refs" ) ) saveL1Refs_ = iConfig.getParameter< bool >( "saveL1Refs" );
00139 
00140   // HLT configuration parameters
00141   if ( iConfig.exists( "triggerResults" ) )      tagTriggerResults_     = iConfig.getParameter< InputTag >( "triggerResults" );
00142   if ( iConfig.exists( "triggerEvent" ) )        tagTriggerEvent_       = iConfig.getParameter< InputTag >( "triggerEvent" );
00143   if ( iConfig.exists( "hltPrescaleLabel" ) )    hltPrescaleLabel_      = iConfig.getParameter< std::string >( "hltPrescaleLabel" );
00144   if ( iConfig.exists( "hltPrescaleTable" ) )    labelHltPrescaleTable_ = iConfig.getParameter< std::string >( "hltPrescaleTable" );
00145   if ( iConfig.exists( "addPathModuleLabels" ) ) addPathModuleLabels_   = iConfig.getParameter< bool >( "addPathModuleLabels" );
00146   exludeCollections_.clear();
00147   if ( iConfig.exists( "exludeCollections" )  ) exludeCollections_      = iConfig.getParameter< std::vector< std::string > >( "exludeCollections" );
00148 
00149   if ( ! onlyStandAlone_ ) {
00150     produces< TriggerAlgorithmCollection >();
00151     produces< TriggerConditionCollection >();
00152     produces< TriggerPathCollection >();
00153     produces< TriggerFilterCollection >();
00154     produces< TriggerObjectCollection >();
00155   }
00156   produces< TriggerObjectStandAloneCollection >();
00157 
00158 }
00159 
00160 
00161 void PATTriggerProducer::beginRun( Run & iRun, const EventSetup & iSetup )
00162 {
00163 
00164   // Initialize
00165   hltConfigInit_ = false;
00166 
00167   // Initialize process name
00168   if ( autoProcessName_ ) {
00169     // reset
00170     nameProcess_ = "*";
00171     // determine process name from last run TriggerSummaryProducerAOD module in process history of input
00172     const ProcessHistory & processHistory( iRun.processHistory() );
00173     ProcessConfiguration processConfiguration;
00174     ParameterSet processPSet;
00175     // unbroken loop, which relies on time ordering (accepts the last found entry)
00176     for ( ProcessHistory::const_iterator iHist = processHistory.begin(); iHist != processHistory.end(); ++iHist ) {
00177       if ( processHistory.getConfigurationForProcess( iHist->processName(), processConfiguration )     &&
00178            pset::Registry::instance()->getMapped( processConfiguration.parameterSetID(), processPSet ) &&
00179            processPSet.exists( tagTriggerEvent_.label() )
00180          ) {
00181         nameProcess_ = iHist->processName();
00182         LogDebug( "autoProcessName" ) << "HLT process name '" << nameProcess_ << "' discovered";
00183       }
00184     }
00185     // terminate, if nothing is found
00186     if ( nameProcess_ == "*" ) {
00187       LogError( "autoProcessName" ) << "trigger::TriggerEvent product with label '" << tagTriggerEvent_.label() << "' not produced according to process history of input data\n"
00188                                     << "No trigger information produced";
00189       return;
00190     }
00191     LogInfo( "autoProcessName" ) << "HLT process name' " << nameProcess_ << "' used for PAT trigger information";
00192   }
00193   // adapt configuration of used input tags
00194   if ( tagTriggerResults_.process().empty() || tagTriggerResults_.process() == "*" ) {
00195     tagTriggerResults_ = InputTag( tagTriggerResults_.label(), tagTriggerResults_.instance(), nameProcess_ );
00196   } else if ( tagTriggerEvent_.process() != nameProcess_ ) {
00197     LogWarning( "triggerResultsTag" ) << "TriggerResults process name '" << tagTriggerResults_.process() << "' differs from HLT process name '" << nameProcess_ << "'";
00198   }
00199   if ( tagTriggerEvent_.process().empty() || tagTriggerEvent_.process()   == "*" ) {
00200     tagTriggerEvent_ = InputTag( tagTriggerEvent_.label(), tagTriggerEvent_.instance(), nameProcess_ );
00201   } else if ( tagTriggerEvent_.process() != nameProcess_ ) {
00202     LogWarning( "triggerEventTag" ) << "TriggerEvent process name '" << tagTriggerEvent_.process() << "' differs from HLT process name '" << nameProcess_ << "'";
00203   }
00204   if ( autoProcessNameL1ExtraMu_ )      tagL1ExtraMu_      = InputTag( tagL1ExtraMu_.label()     , tagL1ExtraMu_.instance()     , nameProcess_ );
00205   if ( autoProcessNameL1ExtraNoIsoEG_ ) tagL1ExtraNoIsoEG_ = InputTag( tagL1ExtraNoIsoEG_.label(), tagL1ExtraNoIsoEG_.instance(), nameProcess_ );
00206   if ( autoProcessNameL1ExtraIsoEG_ )   tagL1ExtraIsoEG_   = InputTag( tagL1ExtraIsoEG_.label()  , tagL1ExtraIsoEG_.instance()  , nameProcess_ );
00207   if ( autoProcessNameL1ExtraCenJet_ )  tagL1ExtraCenJet_  = InputTag( tagL1ExtraCenJet_.label() , tagL1ExtraCenJet_.instance() , nameProcess_ );
00208   if ( autoProcessNameL1ExtraForJet_ )  tagL1ExtraForJet_  = InputTag( tagL1ExtraForJet_.label() , tagL1ExtraForJet_.instance() , nameProcess_ );
00209   if ( autoProcessNameL1ExtraTauJet_ )  tagL1ExtraTauJet_  = InputTag( tagL1ExtraTauJet_.label() , tagL1ExtraTauJet_.instance() , nameProcess_ );
00210   if ( autoProcessNameL1ExtraETM_ )     tagL1ExtraETM_     = InputTag( tagL1ExtraETM_.label()    , tagL1ExtraETM_.instance()    , nameProcess_ );
00211   if ( autoProcessNameL1ExtraHTM_ )     tagL1ExtraHTM_     = InputTag( tagL1ExtraHTM_.label()    , tagL1ExtraHTM_.instance()    , nameProcess_ );
00212 
00213   // Initialize HLTConfigProvider
00214   bool changed( true );
00215   if ( ! hltConfig_.init( iRun, iSetup, nameProcess_, changed ) ) {
00216     LogError( "hltConfigExtraction" ) << "HLT config extraction error with process name '" << nameProcess_ << "'";
00217   } else if ( hltConfig_.size() <= 0 ) {
00218     LogError( "hltConfigSize" ) << "HLT config size error";
00219   } else hltConfigInit_ = true;
00220 
00221   // Extract pre-scales
00222   if ( hltConfigInit_ ) {
00223     // Start empty
00224     hltPrescaleTableRun_ = trigger::HLTPrescaleTable();
00225     // Try run product, if configured
00226     if ( ! labelHltPrescaleTable_.empty() ) {
00227       Handle< trigger::HLTPrescaleTable > handleHltPrescaleTable;
00228       iRun.getByLabel( InputTag( labelHltPrescaleTable_, "Run", nameProcess_ ), handleHltPrescaleTable );
00229       if ( handleHltPrescaleTable.isValid() ) {
00230         hltPrescaleTableRun_ = trigger::HLTPrescaleTable( handleHltPrescaleTable->set(), handleHltPrescaleTable->labels(), handleHltPrescaleTable->table() );
00231       }
00232     }
00233   }
00234 
00235 }
00236 
00237 
00238 void PATTriggerProducer::beginLuminosityBlock( LuminosityBlock & iLuminosityBlock, const EventSetup & iSetup )
00239 {
00240 
00241   // Terminate, if auto process name determination failed
00242   if ( nameProcess_ == "*" ) return;
00243 
00244   // Extract pre-scales
00245   if ( hltConfigInit_ ) {
00246     // Start from run
00247     hltPrescaleTableLumi_ = trigger::HLTPrescaleTable( hltPrescaleTableRun_.set(), hltPrescaleTableRun_.labels(), hltPrescaleTableRun_.table() );
00248     // Try lumi product, if configured and available
00249     if ( ! labelHltPrescaleTable_.empty() ) {
00250       Handle< trigger::HLTPrescaleTable > handleHltPrescaleTable;
00251       iLuminosityBlock.getByLabel( InputTag( labelHltPrescaleTable_, "Lumi", nameProcess_ ), handleHltPrescaleTable );
00252       if ( handleHltPrescaleTable.isValid() ) {
00253         hltPrescaleTableLumi_ = trigger::HLTPrescaleTable( handleHltPrescaleTable->set(), handleHltPrescaleTable->labels(), handleHltPrescaleTable->table() );
00254       }
00255     }
00256   }
00257 
00258 }
00259 
00260 
00261 void PATTriggerProducer::produce( Event& iEvent, const EventSetup& iSetup )
00262 {
00263 
00264   // Terminate, if auto process name determination failed
00265   if ( nameProcess_ == "*" ) return;
00266 
00267   std::auto_ptr< TriggerObjectCollection > triggerObjects( new TriggerObjectCollection() );
00268   if ( onlyStandAlone_ ) triggerObjects->reserve( 0 );
00269   std::auto_ptr< TriggerObjectStandAloneCollection > triggerObjectsStandAlone( new TriggerObjectStandAloneCollection() );
00270 
00271   // HLT
00272 
00273   // Get and check HLT event data
00274   Handle< trigger::TriggerEvent > handleTriggerEvent;
00275   iEvent.getByLabel( tagTriggerEvent_, handleTriggerEvent );
00276   Handle< TriggerResults > handleTriggerResults;
00277   iEvent.getByLabel( tagTriggerResults_, handleTriggerResults );
00278   bool goodHlt( hltConfigInit_ );
00279   if ( goodHlt ) {
00280     if( ! handleTriggerResults.isValid() ) {
00281       LogError( "triggerResultsValid" ) << "TriggerResults product with InputTag '" << tagTriggerResults_.encode() << "' not in event\n"
00282                                         << "No HLT information produced";
00283       goodHlt = false;
00284     } else if ( ! handleTriggerEvent.isValid() ) {
00285       LogError( "triggerEventValid" ) << "trigger::TriggerEvent product with InputTag '" << tagTriggerEvent_.encode() << "' not in event\n"
00286                                       << "No HLT information produced";
00287       goodHlt = false;
00288     }
00289   }
00290 
00291   // Produce HLT paths and determine status of modules
00292 
00293   if ( goodHlt ) {
00294 
00295     // Extract pre-scales
00296     // Start from lumi
00297     trigger::HLTPrescaleTable hltPrescaleTable( hltPrescaleTableLumi_.set(), hltPrescaleTableLumi_.labels(), hltPrescaleTableLumi_.table() );
00298     // Try event product, if configured and available
00299     if ( ! labelHltPrescaleTable_.empty() ) {
00300       Handle< trigger::HLTPrescaleTable > handleHltPrescaleTable;
00301       iEvent.getByLabel( InputTag( labelHltPrescaleTable_, "Event", nameProcess_ ), handleHltPrescaleTable );
00302       if ( handleHltPrescaleTable.isValid() ) {
00303         hltPrescaleTable = trigger::HLTPrescaleTable( handleHltPrescaleTable->set(), handleHltPrescaleTable->labels(), handleHltPrescaleTable->table() );
00304       }
00305     }
00306     // Try event setup, if no product
00307     if ( hltPrescaleTable.size() == 0 ) {
00308       if ( ! labelHltPrescaleTable_.empty() ) {
00309         LogWarning( "hltPrescaleInputTag" ) << "HLTPrescaleTable product with label '" << labelHltPrescaleTable_ << "' not found in process" << nameProcess_ << "\n"
00310                                             << "Using default from event setup";
00311       }
00312       if ( hltConfig_.prescaleSize() > 0 ) {
00313         if ( hltConfig_.prescaleSet( iEvent, iSetup ) != -1 ) {
00314           hltPrescaleTable = trigger::HLTPrescaleTable( hltConfig_.prescaleSet( iEvent, iSetup ), hltConfig_.prescaleLabels(), hltConfig_.prescaleTable() );
00315           LogDebug( "hltPrescaleTable" ) << "HLT prescale table found in event setup";
00316         } else {
00317           LogWarning( "hltPrescaleSet" ) << "HLTPrescaleTable from event setup has error";
00318         }
00319       }
00320     }
00321     unsigned set( hltPrescaleTable.set() );
00322     if ( hltPrescaleTable.size() > 0 ) {
00323       if ( hltPrescaleLabel_.size() > 0 ) {
00324         bool foundPrescaleLabel( false );
00325         for ( unsigned iLabel = 0; iLabel <  hltPrescaleTable.labels().size(); ++iLabel ) {
00326           if ( hltPrescaleTable.labels().at( iLabel ) == hltPrescaleLabel_ ) {
00327             set                = iLabel;
00328             foundPrescaleLabel = true;
00329             break;
00330           }
00331         }
00332         if ( ! foundPrescaleLabel ) {
00333           LogWarning( "hltPrescaleLabel" ) << "HLT prescale label '" << hltPrescaleLabel_ << "' not in prescale table\n"
00334                                            << "Using default";
00335         }
00336       }
00337     } else if ( iEvent.isRealData() ) {
00338       LogWarning( "hltPrescaleTable" ) << "No HLT prescale table found\n"
00339                                        << "Using default empty table with all prescales 1";
00340     }
00341 
00342     const unsigned sizePaths( hltConfig_.size() );
00343     const unsigned sizeFilters( handleTriggerEvent->sizeFilters() );
00344     const unsigned sizeObjects( handleTriggerEvent->sizeObjects() );
00345 
00346     std::auto_ptr< TriggerPathCollection > triggerPaths( new TriggerPathCollection() );
00347     triggerPaths->reserve( onlyStandAlone_ ? 0 : sizePaths );
00348     std::map< std::string, int > moduleStates;
00349     std::multimap< std::string, std::pair< std::string, std::pair< bool, bool > > > filterPaths;
00350 
00351     for ( size_t iP = 0; iP < sizePaths; ++iP ) {
00352       const std::string namePath( hltConfig_.triggerName( iP ) );
00353       const unsigned indexPath( hltConfig_.triggerIndex( namePath ) );
00354       const unsigned sizeModulesPath( hltConfig_.size( namePath ) );
00355       unsigned indexLastFilterPathModules( handleTriggerResults->index( indexPath ) + 1 );
00356       unsigned indexLastFilterFilters( sizeFilters );
00357       while ( indexLastFilterPathModules > 0 ) {
00358         --indexLastFilterPathModules;
00359         const std::string labelLastFilterPathModules( hltConfig_.moduleLabel( indexPath, indexLastFilterPathModules ) );
00360         indexLastFilterFilters = handleTriggerEvent->filterIndex( InputTag( labelLastFilterPathModules, "", nameProcess_ ) );
00361         if ( indexLastFilterFilters < sizeFilters ) {
00362           if ( hltConfig_.moduleType( labelLastFilterPathModules ) == "HLTBool" ) continue;
00363           break;
00364         }
00365       }
00366       for ( size_t iM = 0; iM < sizeModulesPath; ++iM ) {
00367         const std::string nameFilter( hltConfig_.moduleLabel( indexPath, iM ) );
00368         const unsigned indexFilter( handleTriggerEvent->filterIndex( InputTag( nameFilter, "", nameProcess_ ) ) );
00369         if ( indexFilter < sizeFilters ) {
00370           bool pathLastFilterAccepted( handleTriggerResults->wasrun( indexPath ) && handleTriggerResults->accept( indexPath ) && indexFilter == indexLastFilterFilters );
00371           bool pathL3FilterAccepted( handleTriggerResults->wasrun( indexPath ) && handleTriggerResults->accept( indexPath ) && hltConfig_.saveTags( nameFilter ) );
00372           std::pair< bool, bool > pathStatusValues( pathLastFilterAccepted, pathL3FilterAccepted );
00373           std::pair< std::string, std::pair< bool, bool > > pathAndStatus( namePath, pathStatusValues );
00374           filterPaths.insert( std::pair< std::string, std::pair< std::string, std::pair< bool, bool > > >( nameFilter, pathAndStatus ) );
00375         }
00376       }
00377       if ( ! onlyStandAlone_ ) {
00378         TriggerPath triggerPath( namePath, indexPath, hltConfig_.prescaleValue( set, namePath ), handleTriggerResults->wasrun( indexPath ), handleTriggerResults->accept( indexPath ), handleTriggerResults->error( indexPath ), indexLastFilterPathModules, hltConfig_.saveTagsModules( namePath ).size() );
00379         // add module names to path and states' map
00380         assert( indexLastFilterPathModules < sizeModulesPath );
00381         std::map< unsigned, std::string > indicesModules;
00382         for ( size_t iM = 0; iM < sizeModulesPath; ++iM ) {
00383           const std::string nameModule( hltConfig_.moduleLabel( indexPath, iM ) );
00384           if ( addPathModuleLabels_ ) {
00385             triggerPath.addModule( nameModule );
00386           }
00387           const unsigned indexFilter( handleTriggerEvent->filterIndex( InputTag( nameModule, "", nameProcess_ ) ) );
00388           if ( indexFilter < sizeFilters ) {
00389             triggerPath.addFilterIndex( indexFilter );
00390           }
00391           const unsigned slotModule( hltConfig_.moduleIndex( indexPath, nameModule ) );
00392           indicesModules.insert( std::pair< unsigned, std::string >( slotModule, nameModule ) );
00393         }
00394         // add L1 seeds
00395         const L1SeedCollection l1Seeds( hltConfig_.hltL1GTSeeds( namePath ) );
00396         for ( L1SeedCollection::const_iterator iSeed = l1Seeds.begin(); iSeed != l1Seeds.end(); ++iSeed ) {
00397           triggerPath.addL1Seed( *iSeed );
00398         }
00399         // store path
00400         triggerPaths->push_back( triggerPath );
00401         // cache module states to be used for the filters
00402         for ( std::map< unsigned, std::string >::const_iterator iM = indicesModules.begin(); iM != indicesModules.end(); ++iM ) {
00403           if ( iM->first < indexLastFilterPathModules ) {
00404             moduleStates[ iM->second ] = 1;
00405           } else if ( iM->first == indexLastFilterPathModules ) {
00406             moduleStates[ iM->second ] = handleTriggerResults->accept( indexPath );
00407           } else if ( moduleStates.find( iM->second ) == moduleStates.end() ) {
00408             moduleStates[ iM->second ] = -1;
00409           }
00410         }
00411       }
00412     }
00413 
00414     // Put HLT paths to event
00415     if ( ! onlyStandAlone_ ) iEvent.put( triggerPaths );
00416 
00417     // Store used trigger objects and their types for HLT filters
00418     // (only last active filter(s) available from trigger::TriggerEvent)
00419 
00420     std::auto_ptr< TriggerFilterCollection > triggerFilters( new TriggerFilterCollection() );
00421     triggerFilters->reserve( onlyStandAlone_ ? 0 : sizeFilters );
00422     std::multimap< trigger::size_type, int >         objectTypes;
00423     std::multimap< trigger::size_type, std::string > filterLabels;
00424 
00425     for ( size_t iF = 0; iF < sizeFilters; ++iF ) {
00426       const std::string nameFilter( handleTriggerEvent->filterTag( iF ).label() );
00427       const trigger::Keys & keys  = handleTriggerEvent->filterKeys( iF );
00428       const trigger::Vids & types = handleTriggerEvent->filterIds( iF );
00429       assert( types.size() == keys.size() );
00430       for ( size_t iK = 0; iK < keys.size(); ++iK ) {
00431         filterLabels.insert( std::pair< trigger::size_type, std::string >( keys[ iK ], nameFilter ) );
00432         objectTypes.insert( std::pair< trigger::size_type, int >( keys[ iK ], types[ iK ] ) );
00433       }
00434     }
00435 
00436     // HLT objects
00437 
00438     const trigger::Keys & collectionKeys( handleTriggerEvent->collectionKeys() );
00439     std::map< trigger::size_type, trigger::size_type > newObjectKeys;
00440     for ( size_t iO = 0, iC = 0; iO < sizeObjects && iC < handleTriggerEvent->sizeCollections(); ++iO ) {
00441 
00442       TriggerObject triggerObject( handleTriggerEvent->getObjects().at( iO ) );
00443       // set collection
00444       while ( iO >= collectionKeys[ iC ] ) ++iC; // relies on well ordering of trigger objects with respect to the collections
00445       triggerObject.setCollection( handleTriggerEvent->collectionTag( iC ) );
00446       // set filter ID
00447       for ( std::multimap< trigger::size_type, int >::iterator iM = objectTypes.begin(); iM != objectTypes.end(); ++iM ) {
00448         if ( iM->first == iO ) {
00449           triggerObject.addTriggerObjectType( iM->second );
00450         }
00451       }
00452 
00453       // stand-alone trigger object
00454       TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00455       // check for excluded collections
00456       bool excluded( false );
00457       for ( size_t iE = 0; iE < exludeCollections_.size(); ++iE ) {
00458         if ( triggerObjectStandAlone.hasCollection( exludeCollections_.at( iE ) ) ) {
00459           newObjectKeys[ iO ] = trigger::size_type( sizeObjects );
00460           excluded = true;
00461           break;
00462         }
00463       }
00464       if ( excluded ) continue;
00465       for ( std::multimap< trigger::size_type, std::string >::iterator iM = filterLabels.begin(); iM != filterLabels.end(); ++iM ) {
00466         if ( iM->first == iO ) {
00467           triggerObjectStandAlone.addFilterLabel( iM->second );
00468           for ( std::multimap< std::string, std::pair< std::string, std::pair< bool, bool > > >::iterator iP = filterPaths.begin(); iP != filterPaths.end(); ++iP ) {
00469             if ( iP->first == iM->second ) {
00470               triggerObjectStandAlone.addPathName( iP->second.first, iP->second.second.first, iP->second.second.second );
00471             }
00472           }
00473         }
00474       }
00475 
00476       if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00477       triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00478       newObjectKeys[ iO ] = trigger::size_type( triggerObjectsStandAlone->size() - 1 );
00479     }
00480 
00481     // Re-iterate HLT filters and finally produce them
00482     // in ordert to account for optionally skipped objects
00483 
00484     if ( ! onlyStandAlone_ ) {
00485       for ( size_t iF = 0; iF < sizeFilters; ++iF ) {
00486         const std::string nameFilter( handleTriggerEvent->filterTag( iF ).label() );
00487         const trigger::Keys & keys  = handleTriggerEvent->filterKeys( iF ); // not cached
00488         const trigger::Vids & types = handleTriggerEvent->filterIds( iF );  // not cached
00489         TriggerFilter triggerFilter( nameFilter );
00490         // set filter type
00491         const std::string typeFilter( hltConfig_.moduleType( nameFilter ) );
00492         triggerFilter.setType( typeFilter );
00493         triggerFilter.setSaveTags( hltConfig_.saveTags( nameFilter ) );
00494         // set keys and trigger object types of used objects
00495         for ( size_t iK = 0; iK < keys.size(); ++iK ) { // identical to types.size()
00496           // check, if current object is excluded
00497           if ( newObjectKeys.find( keys.at( iK ) ) != newObjectKeys.end() ) {
00498             if ( newObjectKeys[ keys.at( iK ) ] == sizeObjects ) continue;
00499             triggerFilter.addObjectKey( keys.at( iK ) );
00500             triggerFilter.addTriggerObjectType( types.at( iK ) );
00501           } else {
00502             LogWarning( "triggerObjectKey" ) << "TriggerFilter '" << nameFilter << "' requests non-existing TriggerObject key " << keys.at( iK ) << "\n"
00503                                              << "Skipping object assignment";
00504           }
00505         }
00506         // set status from path info
00507         std::map< std::string, int >::iterator iS( moduleStates.find( nameFilter ) );
00508         if ( iS != moduleStates.end() ) {
00509           if ( ! triggerFilter.setStatus( iS->second ) ) {
00510             triggerFilter.setStatus( -1 ); // FIXME different code for "unvalid status determined" needed?
00511           }
00512         } else {
00513           triggerFilter.setStatus( -1 ); // FIXME different code for "unknown" needed?
00514         }
00515         // store filter
00516         triggerFilters->push_back( triggerFilter );
00517       }
00518       // put HLT filters to event
00519       iEvent.put( triggerFilters );
00520     }
00521 
00522   } // if ( goodHlt )
00523 
00524   // L1 objects
00525   // (needs to be done after HLT objects, since their x-links with filters rely on their collection keys)
00526 
00527   // map for assignments of objects to conditions
00528   std::map< L1GtObject, std::vector< unsigned > > l1ObjectTypeMap;
00529 
00530   if ( ! tagL1ExtraMu_.label().empty() ) {
00531     Handle< l1extra::L1MuonParticleCollection > handleL1ExtraMu;
00532     iEvent.getByLabel( tagL1ExtraMu_, handleL1ExtraMu );
00533     if ( handleL1ExtraMu.isValid() ) {
00534       std::vector< unsigned > muKeys;
00535       for ( size_t l1Mu = 0; l1Mu < handleL1ExtraMu->size(); ++l1Mu ) {
00536         if ( mainBxOnly_ && handleL1ExtraMu->at( l1Mu ).bx() != 0 ) continue;
00537         TriggerObject triggerObject;
00538         if ( saveL1Refs_ ) {
00539           const reco::CandidateBaseRef leafCandRef( l1extra::L1MuonParticleRef( handleL1ExtraMu, l1Mu ) );
00540           triggerObject = TriggerObject( leafCandRef );
00541         } else {
00542           const reco::LeafCandidate leafCandidate( *( handleL1ExtraMu->at( l1Mu ).reco::LeafCandidate::clone() ) );
00543           triggerObject = TriggerObject( leafCandidate );
00544         }
00545         triggerObject.setCollection( tagL1ExtraMu_ );
00546         triggerObject.addTriggerObjectType( trigger::TriggerL1Mu );
00547         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00548         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00549         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00550         if ( handleL1ExtraMu->at( l1Mu ).bx() == 0 ) muKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00551       }
00552       l1ObjectTypeMap.insert( std::make_pair( Mu, muKeys ) );
00553     } else LogError( "l1ExtraValid" ) << "l1extra::L1MuonParticleCollection product with InputTag '" << tagL1ExtraMu_.encode() << "' not in event";
00554   }
00555   if ( ! tagL1ExtraNoIsoEG_.label().empty() ) {
00556     Handle< l1extra::L1EmParticleCollection > handleL1ExtraNoIsoEG;
00557     iEvent.getByLabel( tagL1ExtraNoIsoEG_, handleL1ExtraNoIsoEG );
00558     if ( handleL1ExtraNoIsoEG.isValid() ) {
00559       std::vector< unsigned > noIsoEGKeys;
00560       for ( size_t l1NoIsoEG = 0; l1NoIsoEG < handleL1ExtraNoIsoEG->size(); ++l1NoIsoEG ) {
00561         if ( mainBxOnly_ && handleL1ExtraNoIsoEG->at( l1NoIsoEG ).bx() != 0 ) continue;
00562         TriggerObject triggerObject;
00563         if ( saveL1Refs_ ) {
00564           const reco::CandidateBaseRef leafCandRef( l1extra::L1EmParticleRef( handleL1ExtraNoIsoEG, l1NoIsoEG ) );
00565           triggerObject = TriggerObject( leafCandRef );
00566         } else {
00567           const reco::LeafCandidate leafCandidate( *( handleL1ExtraNoIsoEG->at( l1NoIsoEG ).reco::LeafCandidate::clone() ) );
00568           triggerObject = TriggerObject( leafCandidate );
00569         }
00570         triggerObject.setCollection( tagL1ExtraNoIsoEG_ );
00571         triggerObject.addTriggerObjectType( trigger::TriggerL1NoIsoEG );
00572         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00573         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00574         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00575         if ( handleL1ExtraNoIsoEG->at( l1NoIsoEG ).bx() == 0 ) noIsoEGKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00576       }
00577       l1ObjectTypeMap.insert( std::make_pair( NoIsoEG, noIsoEGKeys ) );
00578     } else LogError( "l1ExtraValid" ) << "l1extra::L1EmParticleCollection product with InputTag '" << tagL1ExtraNoIsoEG_.encode() << "' not in event";
00579   }
00580   if ( ! tagL1ExtraIsoEG_.label().empty() ) {
00581     Handle< l1extra::L1EmParticleCollection > handleL1ExtraIsoEG;
00582     iEvent.getByLabel( tagL1ExtraIsoEG_, handleL1ExtraIsoEG );
00583     if ( handleL1ExtraIsoEG.isValid() ) {
00584       std::vector< unsigned > isoEGKeys;
00585       for ( size_t l1IsoEG = 0; l1IsoEG < handleL1ExtraIsoEG->size(); ++l1IsoEG ) {
00586         if ( mainBxOnly_ && handleL1ExtraIsoEG->at( l1IsoEG ).bx() != 0 ) continue;
00587         TriggerObject triggerObject;
00588         if ( saveL1Refs_ ) {
00589           const reco::CandidateBaseRef leafCandRef( l1extra::L1EmParticleRef( handleL1ExtraIsoEG, l1IsoEG ) );
00590           triggerObject = TriggerObject( leafCandRef );
00591         } else {
00592           const reco::LeafCandidate leafCandidate( *( handleL1ExtraIsoEG->at( l1IsoEG ).reco::LeafCandidate::clone() ) );
00593           triggerObject = TriggerObject( leafCandidate );
00594         }
00595         triggerObject.setCollection( tagL1ExtraIsoEG_ );
00596         triggerObject.addTriggerObjectType( trigger::TriggerL1IsoEG );
00597         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00598         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00599         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00600         if ( handleL1ExtraIsoEG->at( l1IsoEG ).bx() == 0 ) isoEGKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00601       }
00602       l1ObjectTypeMap.insert( std::make_pair( IsoEG, isoEGKeys ) );
00603     } else LogError( "l1ExtraValid" ) << "l1extra::L1EmParticleCollection product with InputTag '" << tagL1ExtraIsoEG_.encode() << "' not in event";
00604   }
00605   if ( ! tagL1ExtraCenJet_.label().empty() ) {
00606     Handle< l1extra::L1JetParticleCollection > handleL1ExtraCenJet;
00607     iEvent.getByLabel( tagL1ExtraCenJet_, handleL1ExtraCenJet );
00608     if ( handleL1ExtraCenJet.isValid() ) {
00609       std::vector< unsigned > cenJetKeys;
00610       for ( size_t l1CenJet = 0; l1CenJet < handleL1ExtraCenJet->size(); ++l1CenJet ) {
00611         if ( mainBxOnly_ && handleL1ExtraCenJet->at( l1CenJet ).bx() != 0 ) continue;
00612         TriggerObject triggerObject;
00613         if ( saveL1Refs_ ) {
00614           const reco::CandidateBaseRef leafCandRef( l1extra::L1JetParticleRef( handleL1ExtraCenJet, l1CenJet ) );
00615           triggerObject = TriggerObject( leafCandRef );
00616         } else {
00617           const reco::LeafCandidate leafCandidate( *( handleL1ExtraCenJet->at( l1CenJet ).reco::LeafCandidate::clone() ) );
00618           triggerObject = TriggerObject( leafCandidate );
00619         }
00620         triggerObject.setCollection( tagL1ExtraCenJet_ );
00621         triggerObject.addTriggerObjectType( trigger::TriggerL1CenJet );
00622         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00623         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00624         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00625         if ( handleL1ExtraCenJet->at( l1CenJet ).bx() == 0 ) cenJetKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00626       }
00627       l1ObjectTypeMap.insert( std::make_pair( CenJet, cenJetKeys ) );
00628     } else LogError( "l1ExtraValid" ) << "l1extra::L1JetParticleCollection product with InputTag '" << tagL1ExtraCenJet_.encode() << "' not in event";
00629   }
00630   if ( ! tagL1ExtraForJet_.label().empty() ) {
00631     Handle< l1extra::L1JetParticleCollection > handleL1ExtraForJet;
00632     iEvent.getByLabel( tagL1ExtraForJet_, handleL1ExtraForJet );
00633     if ( handleL1ExtraForJet.isValid() ) {
00634       std::vector< unsigned > forJetKeys;
00635       for ( size_t l1ForJet = 0; l1ForJet < handleL1ExtraForJet->size(); ++l1ForJet ) {
00636         if ( mainBxOnly_ && handleL1ExtraForJet->at( l1ForJet ).bx() != 0 ) continue;
00637         TriggerObject triggerObject;
00638         if ( saveL1Refs_ ) {
00639           const reco::CandidateBaseRef leafCandRef( l1extra::L1JetParticleRef( handleL1ExtraForJet, l1ForJet ) );
00640           triggerObject = TriggerObject( leafCandRef );
00641         } else {
00642           const reco::LeafCandidate leafCandidate( *( handleL1ExtraForJet->at( l1ForJet ).reco::LeafCandidate::clone() ) );
00643           triggerObject = TriggerObject( leafCandidate );
00644         }
00645         triggerObject.setCollection( tagL1ExtraForJet_ );
00646         triggerObject.addTriggerObjectType( trigger::TriggerL1ForJet );
00647         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00648         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00649         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00650         if ( handleL1ExtraForJet->at( l1ForJet ).bx() == 0 ) forJetKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00651       }
00652       l1ObjectTypeMap.insert( std::make_pair( ForJet, forJetKeys ) );
00653     } else LogError( "l1ExtraValid" ) << "l1extra::L1JetParticleCollection product with InputTag '" << tagL1ExtraForJet_.encode() << "' not in event";
00654   }
00655   if ( ! tagL1ExtraTauJet_.label().empty() ) {
00656     Handle< l1extra::L1JetParticleCollection > handleL1ExtraTauJet;
00657     iEvent.getByLabel( tagL1ExtraTauJet_, handleL1ExtraTauJet );
00658     if ( handleL1ExtraTauJet.isValid() ) {
00659       std::vector< unsigned > tauJetKeys;
00660       for ( size_t l1TauJet = 0; l1TauJet < handleL1ExtraTauJet->size(); ++l1TauJet ) {
00661         if ( mainBxOnly_ && handleL1ExtraTauJet->at( l1TauJet ).bx() != 0 ) continue;
00662         TriggerObject triggerObject;
00663         if ( saveL1Refs_ ) {
00664           const reco::CandidateBaseRef leafCandRef( l1extra::L1JetParticleRef( handleL1ExtraTauJet, l1TauJet ) );
00665           triggerObject = TriggerObject( leafCandRef );
00666         } else {
00667           const reco::LeafCandidate leafCandidate( *( handleL1ExtraTauJet->at( l1TauJet ).reco::LeafCandidate::clone() ) );
00668           triggerObject = TriggerObject( leafCandidate );
00669         }
00670         triggerObject.setCollection( tagL1ExtraTauJet_ );
00671         triggerObject.addTriggerObjectType( trigger::TriggerL1TauJet );
00672         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00673         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00674         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00675         if ( handleL1ExtraTauJet->at( l1TauJet ).bx() == 0 ) tauJetKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00676       }
00677       l1ObjectTypeMap.insert( std::make_pair( TauJet, tauJetKeys ) );
00678     } else LogError( "l1ExtraValid" ) << "l1extra::L1JetParticleCollection product with InputTag '" << tagL1ExtraTauJet_.encode() << "' not in event";
00679   }
00680   if ( ! tagL1ExtraETM_ .label().empty()) {
00681     Handle< l1extra::L1EtMissParticleCollection > handleL1ExtraETM;
00682     iEvent.getByLabel( tagL1ExtraETM_, handleL1ExtraETM );
00683     if ( handleL1ExtraETM.isValid() ) {
00684       std::vector< unsigned > etmKeys;
00685       for ( size_t l1ETM = 0; l1ETM < handleL1ExtraETM->size(); ++l1ETM ) {
00686         if ( mainBxOnly_ && handleL1ExtraETM->at( l1ETM ).bx() != 0 ) continue;
00687         TriggerObject triggerObject;
00688         if ( saveL1Refs_ ) {
00689           const reco::CandidateBaseRef leafCandRef( l1extra::L1EtMissParticleRef( handleL1ExtraETM, l1ETM ) );
00690           triggerObject = TriggerObject( leafCandRef );
00691         } else {
00692           const reco::LeafCandidate leafCandidate( *( handleL1ExtraETM->at( l1ETM ).reco::LeafCandidate::clone() ) );
00693           triggerObject = TriggerObject( leafCandidate );
00694         }
00695         triggerObject.setCollection( tagL1ExtraETM_ );
00696         triggerObject.addTriggerObjectType( trigger::TriggerL1ETM );
00697         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00698         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00699         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00700         if ( handleL1ExtraETM->at( l1ETM ).bx() == 0 ) etmKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00701       }
00702       l1ObjectTypeMap.insert( std::make_pair( ETM, etmKeys ) );
00703     } else LogError( "l1ExtraValid" ) << "l1extra::L1EtMissParticleCollection product with InputTag '" << tagL1ExtraETM_.encode() << "' not in event";
00704   }
00705   if ( ! tagL1ExtraHTM_.label().empty() ) {
00706     Handle< l1extra::L1EtMissParticleCollection > handleL1ExtraHTM;
00707     iEvent.getByLabel( tagL1ExtraHTM_, handleL1ExtraHTM );
00708     if ( handleL1ExtraHTM.isValid() ) {
00709       std::vector< unsigned > htmKeys;
00710       for ( size_t l1HTM = 0; l1HTM < handleL1ExtraHTM->size(); ++l1HTM ) {
00711         if ( mainBxOnly_ && handleL1ExtraHTM->at( l1HTM ).bx() != 0 ) continue;
00712         TriggerObject triggerObject;
00713         if ( saveL1Refs_ ) {
00714           const reco::CandidateBaseRef leafCandRef( l1extra::L1EtMissParticleRef( handleL1ExtraHTM, l1HTM ) );
00715           triggerObject = TriggerObject( leafCandRef );
00716         } else {
00717           const reco::LeafCandidate leafCandidate( *( handleL1ExtraHTM->at( l1HTM ).reco::LeafCandidate::clone() ) );
00718           triggerObject = TriggerObject( leafCandidate );
00719         }
00720         triggerObject.setCollection( tagL1ExtraHTM_ );
00721         triggerObject.addTriggerObjectType( trigger::TriggerL1HTM );
00722         if ( ! onlyStandAlone_ ) triggerObjects->push_back( triggerObject );
00723         TriggerObjectStandAlone triggerObjectStandAlone( triggerObject );
00724         triggerObjectsStandAlone->push_back( triggerObjectStandAlone );
00725         if ( handleL1ExtraHTM->at( l1HTM ).bx() == 0 ) htmKeys.push_back( triggerObjectsStandAlone->size() - 1 );
00726       }
00727       l1ObjectTypeMap.insert( std::make_pair( HTM, htmKeys ) );
00728     } else LogError( "l1ExtraValid" ) << "l1extra::L1EtMissParticleCollection product with InputTag '" << tagL1ExtraHTM_.encode() << "' not in event";
00729   }
00730 
00731   // Put trigger objects to event
00732   if ( ! onlyStandAlone_ ) iEvent.put( triggerObjects );
00733 
00734   // L1 algorithms
00735   if ( ! onlyStandAlone_ ) {
00736     std::auto_ptr< TriggerAlgorithmCollection > triggerAlgos( new TriggerAlgorithmCollection() );
00737     std::auto_ptr< TriggerConditionCollection > triggerConditions( new TriggerConditionCollection() );
00738     if ( addL1Algos_ ) {
00739       // create trigger object types transalation map (yes, it's ugly!)
00740       std::map< L1GtObject, trigger::TriggerObjectType > mapObjectTypes;
00741       mapObjectTypes.insert( std::make_pair( Mu     , trigger::TriggerL1Mu ) );
00742       mapObjectTypes.insert( std::make_pair( NoIsoEG, trigger::TriggerL1NoIsoEG ) );
00743       mapObjectTypes.insert( std::make_pair( IsoEG  , trigger::TriggerL1IsoEG ) );
00744       mapObjectTypes.insert( std::make_pair( CenJet , trigger::TriggerL1CenJet ) );
00745       mapObjectTypes.insert( std::make_pair( ForJet , trigger::TriggerL1ForJet ) );
00746       mapObjectTypes.insert( std::make_pair( TauJet , trigger::TriggerL1TauJet ) );
00747       mapObjectTypes.insert( std::make_pair( ETM    , trigger::TriggerL1ETM ) );
00748       mapObjectTypes.insert( std::make_pair( HTM    , trigger::TriggerL1HTM ) );
00749       // get and cache L1 menu
00750       l1GtUtils_.retrieveL1EventSetup( iSetup );
00751       ESHandle< L1GtTriggerMenu > handleL1GtTriggerMenu;
00752       iSetup.get< L1GtTriggerMenuRcd >().get( handleL1GtTriggerMenu );
00753       L1GtTriggerMenu l1GtTriggerMenu( *handleL1GtTriggerMenu );
00754       const AlgorithmMap l1GtAlgorithms( l1GtTriggerMenu.gtAlgorithmMap() );
00755       const AlgorithmMap l1GtTechTriggers( l1GtTriggerMenu.gtTechnicalTriggerMap() );
00756       l1GtTriggerMenu.buildGtConditionMap();
00757       const std::vector< ConditionMap > l1GtConditionsVector( l1GtTriggerMenu.gtConditionMap() );
00758       // cache conditions in one single condition map
00759       ConditionMap l1GtConditions;
00760       for ( size_t iCv = 0; iCv < l1GtConditionsVector.size(); ++iCv ) {
00761         l1GtConditions.insert( l1GtConditionsVector.at( iCv ).begin(), l1GtConditionsVector.at( iCv ).end() );
00762       }
00763       triggerAlgos->reserve( l1GtAlgorithms.size() + l1GtTechTriggers.size() );
00764       Handle< L1GlobalTriggerObjectMapRecord > handleL1GlobalTriggerObjectMapRecord;
00765       iEvent.getByLabel( tagL1GlobalTriggerObjectMapRecord_, handleL1GlobalTriggerObjectMapRecord );
00766       if( ! handleL1GlobalTriggerObjectMapRecord.isValid() ) {
00767         LogWarning( "l1ObjectMap" ) << "L1GlobalTriggerObjectMapRecord product with InputTag '" << tagL1GlobalTriggerObjectMapRecord_.encode() << "' not in event\n"
00768                                     << "No L1 objects and GTL results available for physics algorithms";
00769       }
00770       // physics algorithms
00771       for ( CItAlgo iAlgo = l1GtAlgorithms.begin(); iAlgo != l1GtAlgorithms.end(); ++iAlgo ) {
00772         const std::string & algoName( iAlgo->second.algoName() );
00773         if ( ! ( iAlgo->second.algoBitNumber() < int( L1GlobalTriggerReadoutSetup::NumberPhysTriggers ) ) ) {
00774           LogError( "l1Algo" ) << "L1 physics algorithm '" << algoName << "' has bit number " << iAlgo->second.algoBitNumber() << " >= " << L1GlobalTriggerReadoutSetup::NumberPhysTriggers << "\n"
00775                                << "Skipping";
00776           continue;
00777         }
00778         L1GtUtils::TriggerCategory category;
00779         int bit;
00780         if ( ! l1GtUtils_.l1AlgoTechTrigBitNumber( algoName, category, bit ) ) {
00781           LogError( "l1Algo" ) << "L1 physics algorithm '" << algoName << "' not found in the L1 menu\n"
00782                                << "Skipping";
00783           continue;
00784         }
00785         if ( category != L1GtUtils::AlgorithmTrigger ) {
00786           LogError( "l1Algo" ) << "L1 physics algorithm '" << algoName << "' does not have category 'AlgorithmTrigger' from 'L1GtUtils'\n"
00787                                << "Skipping";
00788           continue;
00789         }
00790         bool decisionBeforeMask;
00791         bool decisionAfterMask;
00792         int  prescale;
00793         int  mask;
00794         int  error( l1GtUtils_.l1Results( iEvent, algoName, decisionBeforeMask, decisionAfterMask, prescale, mask ) );
00795         if ( error ) {
00796           LogError( "l1Algo" ) << "L1 physics algorithm '" << algoName << "' decision has error code " << error << " from 'L1GtUtils'\n"
00797                                << "Skipping";
00798           continue;
00799         }
00800         TriggerAlgorithm triggerAlgo( algoName, iAlgo->second.algoAlias(), category == L1GtUtils::TechnicalTrigger, (unsigned)bit, (unsigned)prescale, (bool)mask, decisionBeforeMask, decisionAfterMask );
00801         triggerAlgo.setLogicalExpression( iAlgo->second.algoLogicalExpression() );
00802         // GTL result and used conditions in physics algorithm
00803         if( ! handleL1GlobalTriggerObjectMapRecord.isValid() ) {
00804           triggerAlgos->push_back( triggerAlgo );
00805           continue; // LogWarning already earlier (before loop)
00806         }
00807         const L1GlobalTriggerObjectMap * l1ObjectMap( handleL1GlobalTriggerObjectMapRecord->getObjectMap( algoName ) );
00808         if ( ! l1ObjectMap ) {
00809           LogError( "l1ObjectMap" ) << "L1 physics algorithm '" << algoName << "' is missing in L1GlobalTriggerObjectMapRecord\n"
00810                                     << "Skipping conditions and GTL result";
00811           triggerAlgos->push_back( triggerAlgo );
00812           continue;
00813         }
00814 //         if ( ( l1ObjectMap->algoGtlResult() != decisionBeforeMask ) && ( decisionBeforeMask == true || prescale == 1 ) ) {
00815         if ( ( l1ObjectMap->algoGtlResult() != decisionBeforeMask ) && ( decisionBeforeMask == true ) ) { // FIXME: understand the difference for un-prescaled algos 118, 119, 123
00816           LogInfo( "l1ObjectMap" ) << "L1 physics algorithm '" << algoName << "' with different decisions in\n"
00817                                    << "L1GlobalTriggerObjectMapRecord (GTL result)        : " << l1ObjectMap->algoGtlResult() << "\n"
00818                                    << "L1GlobalTriggerReadoutRecord (decision before mask): " << decisionBeforeMask;
00819         }
00820         triggerAlgo.setGtlResult( l1ObjectMap->algoGtlResult() );
00821         // conditions in algorithm
00822         const std::vector< L1GtLogicParser::OperandToken > & tokens( l1ObjectMap->operandTokenVector() );
00823         for ( size_t iT = 0; iT < tokens.size(); ++iT ) {
00824           const L1GtLogicParser::OperandToken & token( tokens.at( iT ) );
00825           size_t key( triggerConditions->size() );
00826           for ( size_t iC = 0; iC < triggerConditions->size(); ++iC ) {
00827             if ( token.tokenName == triggerConditions->at( iC ).name() ) {
00828               key = iC;
00829               break;
00830             }
00831           }
00832           if ( key == triggerConditions->size() ) {
00833             TriggerCondition triggerCond( token.tokenName, token.tokenResult );
00834             if ( l1GtConditions.find( triggerCond.name() ) != l1GtConditions.end() ) {
00835               triggerCond.setCategory( l1GtConditions[ triggerCond.name() ]->condCategory() );
00836               triggerCond.setType( l1GtConditions[ triggerCond.name() ]->condType() );
00837               const std::vector< L1GtObject > l1ObjectTypes( l1GtConditions[ triggerCond.name() ]->objectType() );
00838               for ( size_t iT = 0 ; iT < l1ObjectTypes.size(); ++iT ) {
00839                 triggerCond.addTriggerObjectType( mapObjectTypes[ l1ObjectTypes.at( iT ) ] );
00840               }
00841               // objects in condition
00842               CombinationsInCond combis( l1ObjectMap->combinationVector().at( token.tokenNumber ) );
00843               for ( size_t iVV = 0; iVV < combis.size(); ++iVV ) {
00844                 SingleCombInCond combi( combis.at( iVV ) );
00845                 for ( size_t iV = 0; iV < combi.size(); ++iV ) {
00846                   if ( iV >= l1ObjectTypes.size() ) {
00847                     LogError( "l1CondMap" ) << "Index " << iV << " in combinations vector overshoots size " << l1ObjectTypes.size() << " of types vector in conditions map\n"
00848                                             << "Skipping object key in condition " << triggerCond.name();
00849                   } else if ( l1ObjectTypeMap.find( l1ObjectTypes.at( iV ) ) != l1ObjectTypeMap.end() ) {
00850                     if ( combi.at( iV ) >= int( l1ObjectTypeMap[ l1ObjectTypes.at( iV ) ].size() ) ) {
00851                       LogError( "l1CondMap" ) << "Index " << combi.at( iV ) << " in combination overshoots number " << l1ObjectTypeMap[ l1ObjectTypes.at( iV ) ].size() << "of according trigger objects\n"
00852                                               << "Skipping object key in condition " << triggerCond.name();
00853                     }
00854                     const unsigned objectKey( l1ObjectTypeMap[ l1ObjectTypes.at( iV ) ].at( combi.at( iV ) ) );
00855                     triggerCond.addObjectKey( objectKey );
00856                     // add current condition and algorithm also to the according stand-alone trigger object
00857                     triggerObjectsStandAlone->at( objectKey ).addAlgorithmName( triggerAlgo.name(), ( triggerAlgo.decision() && triggerCond.wasAccept() ) );
00858                     triggerObjectsStandAlone->at( objectKey ).addConditionName( triggerCond.name() );
00859                   }
00860                 }
00861               }
00862             } else {
00863               LogWarning( "l1CondMap" ) << "L1 conditions '" << triggerCond.name() << "' not found in the L1 menu\n"
00864                                         << "Remains incomplete";
00865             }
00866             triggerConditions->push_back( triggerCond );
00867           }
00868           triggerAlgo.addConditionKey( key );
00869         }
00870         triggerAlgos->push_back( triggerAlgo );
00871       }
00872       // technical triggers
00873       for ( CItAlgo iAlgo = l1GtTechTriggers.begin(); iAlgo != l1GtTechTriggers.end(); ++iAlgo ) {
00874         const std::string & algoName( iAlgo->second.algoName() );
00875         if ( ! ( iAlgo->second.algoBitNumber() < int( L1GlobalTriggerReadoutSetup::NumberTechnicalTriggers ) ) ) {
00876           LogError( "l1Algo" ) << "L1 technical trigger '" << algoName << "' has bit number " << iAlgo->second.algoBitNumber() << " >= " << L1GlobalTriggerReadoutSetup::NumberTechnicalTriggers << "\n"
00877                                << "Skipping";
00878           continue;
00879         }
00880         L1GtUtils::TriggerCategory category;
00881         int bit;
00882         if ( ! l1GtUtils_.l1AlgoTechTrigBitNumber( algoName, category, bit ) ) {
00883           LogError( "l1Algo" ) << "L1 technical trigger '" << algoName << "' not found in the L1 menu\n"
00884                                << "Skipping";
00885           continue;
00886         }
00887         if ( category != L1GtUtils::TechnicalTrigger ) {
00888           LogError( "l1Algo" ) << "L1 technical trigger '" << algoName << "' does not have category 'TechnicalTrigger' from 'L1GtUtils'\n"
00889                                << "Skipping";
00890           continue;
00891         }
00892         bool decisionBeforeMask;
00893         bool decisionAfterMask;
00894         int  prescale;
00895         int  mask;
00896         int  error( l1GtUtils_.l1Results( iEvent, algoName, decisionBeforeMask, decisionAfterMask, prescale, mask ) );
00897         if ( error ) {
00898           LogError( "l1Algo" ) << "L1 technical trigger '" << algoName << "' decision has error code " << error << " from 'L1GtUtils'\n"
00899                                << "Skipping";
00900           continue;
00901         }
00902         TriggerAlgorithm triggerAlgo( algoName, iAlgo->second.algoAlias(), category == L1GtUtils::TechnicalTrigger, (unsigned)bit, (unsigned)prescale, (bool)mask, decisionBeforeMask, decisionAfterMask );
00903         triggerAlgo.setLogicalExpression( iAlgo->second.algoLogicalExpression() );
00904         triggerAlgos->push_back( triggerAlgo );
00905       }
00906     }
00907 
00908     // Put L1 algorithms and conditions to event
00909     iEvent.put( triggerAlgos );
00910     iEvent.put( triggerConditions );
00911   }
00912 
00913   // Put (finally) stand-alone trigger objects to event
00914   iEvent.put( triggerObjectsStandAlone );
00915 
00916 }
00917 
00918 
00919 #include "FWCore/Framework/interface/MakerMacros.h"
00920 DEFINE_FWK_MODULE( PATTriggerProducer );