CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
Functions | Variables
/afs/cern.ch/work/c/cmsdoxy/cmsdoxy/tmp/CMSSWAutoDoc/CMSSW_8_0_7_patch1/src/FWCore/Framework/doc/EventSelector-behavior.doc File Reference

Functions

How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive 
criterion ("HLTx1","HLT*","*") will set appropriate bit checking in the decision bits
 
How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive
and the trigger will pass if
any such matching triggers are
PASS or EXCEPTION[A criterion
thatmatches no triggers at all
is detected and causes a
throw.] A single negative 
criterion ("!HLTx1") or a wildcarded negative criterion that happens to match only one trigger in the trigger list("!HLTx*"if the list has no other triggers starting with HLTx) will set
 
How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive
and the trigger will pass if
any such matching triggers are
PASS or EXCEPTION[A criterion
thatmatches no triggers at all
is detected and causes a
throw.] A single negative with
an expectation of appropriate
bit checking in the decision
and the trigger will pass if
any such matching triggers are
FAIL or EXCEPTION A wildcarded
negative criterion that
matches more than one trigger
in the trigger but the state
exists so we define the
behavior If all triggers are
the negative crieriion will
lead to accepting the 
event (this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
 
How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive
and the trigger will pass if
any such matching triggers are
PASS or EXCEPTION[A criterion
thatmatches no triggers at all
is detected and causes a
throw.] A single negative with
an expectation of appropriate
bit checking in the decision
and the trigger will pass if
any such matching triggers are
FAIL or EXCEPTION A wildcarded
negative criterion that
matches more than one trigger
in the trigger 
list ("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
 
How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is 
rejected (acceptEvent retursns false).There are 3 relevant cases of types of criteria
 

Variables

How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive
and the trigger will pass if
any such matching triggers are
PASS or EXCEPTION[A criterion
thatmatches no triggers at all
is detected and causes a
throw.] A single negative with
an expectation of appropriate
bit checking in the decision 
bits
 
How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive
and the trigger will pass if
any such matching triggers are
PASS or EXCEPTION[A criterion
thatmatches no triggers at all
is detected and causes a
throw.] A single negative with
an expectation of 
FALSE
 
How EventSelector::AcceptEvent()
decides whether to accept an
event for output otherwise it
is excluding the probing of A
single or multiple positive
and the trigger will pass if
any such matching triggers are
PASS or EXCEPTION[A criterion
thatmatches no triggers at all
is detected and causes a
throw.] A single negative with
an expectation of appropriate
bit checking in the decision
and the trigger will pass if
any such matching triggers are
FAIL or EXCEPTION A wildcarded
negative criterion that
matches more than one trigger
in the trigger but the state
exists so we define the
behavior If all triggers are 
READY
 

Function Documentation

How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive criterion ( "HLTx1"  ,
"HLT*"  ,
"*"   
)
How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION [A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative criterion ( "!HLTx1"  )
How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION [A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event ( this again matches the behavior of"!*"before the partial wildcard feature was  incorporated)

Referenced by HcalLaserEventFilter2012::addEventString(), PhotonConversionTrajectorySeedProducerFromQuadrupletsAlgo::analyze(), TkConvValidator::analyze(), TreeProducerCalibSimul::analyze(), TriggerBxMonitor::analyze(), Rivet::CMS_2013_I1224539_DIJET::analyze(), TriggerRatesMonitor::analyze(), PhotonValidator::analyze(), DTChamberEfficiency::analyze(), SiStripBaselineAnalyzer::analyze(), fwlite::AnalyzerWrapper< T >::analyze(), GsfElectronAlgo::beginEvent(), edm::BranchTypeToString(), FWTrackingParticleProxyBuilderFullFramework::build(), TopologyWorker::CalcSqrts(), CalculatePt_FullPrecision(), FWMagField::checkFieldInfo(), FWTriggerTableView::dataChanged(), edm::decode(), edm::EDLooperBase::doDuringLoop(), ThePEG::LesHouchesInterface::doReadEvent(), FWFFMetadataManager::doUpdate(), fwlite::EventHistoryGetter::EventHistoryGetter(), CSCValHists::fill2DHistByEvent(), SiPixelRecHitsValid::fillBarrel(), edm::RootFile::fillEventHistory(), edm::IndexIntoFile::fillEventNumbersOrEntries(), FedRawDataInputSource::fillFEDRawDataCollection(), SiPixelRecHitsValid::fillForward(), edm::RootFile::fillIndexIntoFile(), Py8toJetInputHEPEVT::fillJetAlgoInput(), FWHLTTriggerTableView::fillTable(), MultiEventFilter::filter(), edm::FWLiteFilterWrapper< T >::filter(), edm::FilterWrapper< T >::filter(), edm::GeneratorFilter< HAD, DEC >::filter(), edm::HadronizerFilter< HAD, DEC >::filter(), EcalDeadCellTriggerPrimitiveFilter::filter(), PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::find(), edm::IndexIntoFile::findPosition(), VertexClassifier::genPrimaryVertices(), TrackClassifier::genPrimaryVertices(), sistrip::SpyEventMatcher::getCollections(), sistrip::SpyEventMatcher::getCounters(), ExpressionEvaluatorCutWithEventContent::getEventContent(), edm::PoolSource::getNextItemType(), sistrip::SpyEventMatcher::getProduct(), getPt(), PrimaryVertexAnalyzer4PUSlimmed::getSimPVs(), HLTPrescaler::globalEndJob(), CmsShowNavigator::goTo(), FWGLEventHandler::HandleKey(), HFShowerLibrary::HFShowerLibrary(), CastorShowerLibrary::initFile(), HcalSignalGenerator< HBHEDigitizerTraits >::initializeEvent(), EcalSignalGenerator< EEDigitizerTraits >::initializeEvent(), TrackingTruthAccumulator::initializeEvent(), main(), gen::TauolappInterface::make_simple_tau_event(), helper::MasterCollection< edm::View< T > >::MasterCollection(), rpcrawtodigi::EventRecords::mergeRecords(), lhef::LHEReader::next(), edm::SetRunHelper::overrideRunNumber(), edm::SetRunForEachLumiHelper::overrideRunNumber(), VariableHelper::printValues(), TFWLiteSelectorBasic::Process(), ShallowEventDataProducer::produce(), NtpProducer< C >::produce(), RPCUnpackingModule::produce(), edm::ThinningProducer< Collection, Selector >::produce(), ZToLLEdmNtupleDumper::produce(), MuonProducer::produce(), TriggerMatcherToHLTDebug::produce(), NuclearTrackCorrector::produce(), HLTRecHitInAllL1RegionsProducer< RecHitType >::produce(), edm::EventProcessor::readEvent(), edm::PoolSource::readIt(), edm::RootEmbeddedFileSequence::readOneSpecified(), fwlite::Scanner< Collection >::scan(), CosmicTrackingParticleSelector::select(), FWFFNavigator::setCurrentEvent(), CompositeTSG::setEvent(), TrackerSeedGenerator::setEvent(), LHAupLesHouches::setEvent(), MuonTrackingRegionBuilder::setEvent(), GlobalTrajectoryBuilderBase::setEvent(), GlobalMuonRefitter::setEvent(), MuonDetLayerMeasurements::setEvent(), triggerExpression::Data::setEvent(), edm::EventPrincipal::setRunAndLumiNumber(), AliDaqEventHeader::SetRunEvt(), MuonsGrabber::startNewEvent(), TB06TreeH2::store(), TB06Tree::store(), edm::service::summarizeContext(), fwlite::MultiChainEvent::to(), fwlite::Event::to(), pat::helper::TriggerMatchHelper::triggerMatchCandidates(), pat::helper::TriggerMatchHelper::triggerMatchObject(), pat::helper::TriggerMatchHelper::triggerMatchObjects(), edm::UnscheduledCallProducer::tryToFillImpl(), L1TLayer1::updateMismatch(), FWEventAnnotation::updateOverlayText(), RawEventOutputModuleForBU< Consumer >::write(), and MuIsolatorResultProducer< BT >::writeOut().

How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION [A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list ( "!*"  ,
"!HLTx*"if it matches 2 triggers or  more 
)

Referenced by GlobalTag.GlobalTag::__add__(), dataset.Dataset::__createSnippet(), Mixins._TypedParameterizable::__findDefaultsFor(), Config.Process::__findFirstSequenceUsingModule(), frozendict.frozendict::__new__(), GlobalTag.GlobalTag::__or__(), argparse.HelpFormatter::_expand_help(), python.rootplot.argparse.HelpFormatter::_expand_help(), chain.Chain::_guessTreeName(), BeautifulSoup.PageElement::_invert(), Vispa.Views.BoxDecayView.BoxDecayView::_sortByRelations(), python.rootplot.argparse::_sorted(), argparse::_sorted(), DTUserKeyedConfigPopConAnalyzer::analyze(), DTKeyedConfigPopConAnalyzer::analyze(), cmsHarvester::build_dataset_list(), cmsHarvester::build_runs_list(), harvestRelVal::check_dset(), JetCombinatorics::Combinatorics(), ValidationMatrix_v2.ReleaseComparison::compare(), Mixins._TypedParameterizable::copy(), plotscripts::corrections2D(), cmsHarvester::create_and_check_castor_dirs(), alignmentValidation::createCanvasToIDList(), geometryXMLparser::cscorder(), rh_customizeAll::customise(), pf_01_customize_HLT::customise(), ZmumuStandaloneSelectionAll::customise(), embeddingCustomizeAll::customise(), embeddingCustomizeAll_Old::customise(), ValidationMatrix::do_comparisons_threaded(), geometryDiffVisualization::draw_disk(), geometryXMLparser::dtorder(), HLTAnalyzer::endJob(), SequenceTypes._CopyAndExcludeSequenceVisitorOld::enter(), SequenceTypes._MutatingSequenceVisitor::enter(), DiscoverDQMFiles.DiscoverDQMFiles::filesList(), ZtoMMEventSelector::filter(), ZtoEEEventSelector::filter(), FWFileEntry::filterEventsWithCustomParser(), findBadModT9::findpr(), findBadModT9::findse(), edm::DaqProvenanceHelper::fixMetaData(), ParticleAllocator::FreeList(), ParticleAllocator::FreeListNode(), generateFlavCfromFlavB::generate_flav_c(), dqm-mbProfile::get_children(), dataLoader::get_data_csv(), python.rootplot.core::get_plot_inputs(), dqm_interfaces.DQMcommunicator::get_RelVal_CMSSW_versions(), python.Lumis::getByLabel(), python.Runs::getByLabel(), python.Events::getByLabel(), specificLumi::getFillFromDB(), reco::TaggingVariableList::getList(), EgammaHLTValidationUtils::getPathsOfDataSet(), specificLumi::getSpecificLumi(), HDQMSummary::getSummaryObj(), PythonParameterSet::getVPSet(), ValidationMatrix::guess_params(), heppy_hadd::haddChunks(), mpl_axes_hist_fix::hist(), Types.VLuminosityBlockID::insertInto(), Types.VInputTag::insertInto(), Types.VESInputTag::insertInto(), Types.VEventID::insertInto(), Types.VLuminosityBlockRange::insertInto(), Types.VEventRange::insertInto(), Types.VPSet::insertInto(), RandomServiceHelper.RandomNumberServiceHelper::insertSeeds(), SequenceTypes._CopyAndExcludeSequenceVisitorOld::leave(), SequenceTypes._MutatingSequenceVisitor::leave(), generateFlavCfromFlavB::main(), directories2html::make_summary_table(), generateEDF::makeEDFplot(), deltar::matchObjectCollection(), deltar::matchObjectCollection2(), deltar::matchObjectCollection3(), DQMStore::mergeAndResetMEsLuminositySummaryCache(), DQMStore::mergeAndResetMEsRunSummaryCache(), autoSkim::mergeMapping(), MEtoEDM< TH1F >::mergeProduct(), EnablePSetHistory::new_dumpModifications(), EnablePSetHistory::new_modificationCheckpoint(), FWFileEntry::nextSelectedEvent(), cmsPerfSuite.PerfSuite::optionParse(), python.rootplot.core::parse_arguments(), matplotRender.matplotRender::plotPeakPerday_Time(), matplotRender.matplotRender::plotPerdayX_Time(), matplotRender.matplotRender::plotSumX_Fill(), matplotRender.matplotRender::plotSumX_Run(), matplotRender.matplotRender::plotSumX_Time(), RandomServiceHelper.RandomNumberServiceHelper::populate(), FWFileEntry::previousSelectedEvent(), edmStreamStallGrapher::printStalledModulesInOrder(), cmsPerfSuiteHarvest::process_igprof_dir(), cmsPerfSuiteHarvest::process_memcheck_dir(), cmsPerfSuiteHarvest::process_timesize_dir(), Config.Process::prune(), upload_popcon.HTTP::query(), uploadConditions.HTTP::query(), DTConfigDBProducer::readDTCCBConfig(), edmStreamStallGrapher::readLogFile(), MatrixReader.MatrixReader::readMatrix(), LRHelpFunctions::readObsHistsAndFits(), heppy_report::root2map(), python.rootplot.utilities::rootglob(), dqm_interfaces.DirWalkerDB::run(), DiscoverProcessedRuns.DiscoverProcessedRuns::runsList(), DTUserKeyedConfigHandler::setList(), DTKeyedConfigHandler::setList(), RawDataFEDSelector::setRange(), MonRunDat::setTaskList(), jetTools::setupBTagging(), SiPixelTemplate::simpletemplate2D(), confdb::splitter(), edmIntegrityCheck.IntegrityCheck::stripDuplicates(), reco::TemplatedSoftLeptonTagInfo< REF >::taggingVariables(), testing_classes.data_sources_tests::test_check_types(), checkBTagCalibrationConsistency.BtagCalibConsistencyChecker::test_coverage(), checkBTagCalibrationConsistency.BtagCalibConsistencyChecker::test_lowercase(), testing_classes.data_sources_tests::test_make_json_list(), checkBTagCalibrationConsistency.BtagCalibConsistencyChecker::test_systematics_values_vs_centrals(), SequenceTypes.TestModuleCommand::testDumpPython(), SequenceTypes.TestModuleCommand::testResolve(), Types.testTypes::testvint32(), esMonitoring.LineHistoryEnd::to_json(), jetTools.AddJetCollection::toolCode(), jetTools.UpdateJetCollection::toolCode(), Vispa.Plugins.EdmBrowser.EventContentDataAccessor.EventContentDataAccessor::topLevelObjects(), edm::toPythonList(), lumiReport::toScreenTotEffective(), PhysicsTools::MVAModuleHelper< Record, Object, Filler >::train(), svgfig.SVG::tree(), Mixins._ValidatingParameterListBase::value(), and tnp::BaseTreeFiller::writeProvenance().

How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is rejected ( acceptEvent retursns  false)

Variable Documentation

How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION [A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision bits

Definition at line 35 of file EventSelector-behavior.doc.

Referenced by pos::PixelCalibConfiguration::disablePixels(), pos::PixelCalibConfiguration::enablePixels(), getdPhiFromBin(), getEta(), getEtafromBin(), getEtaInt(), getNLBdPhi(), getNLBdPhiBin(), pos::PixelTrimAllPixels::PixelTrimAllPixels(), l1t::Stage1Layer2CentralityAlgorithm::processEvent(), MiniFloatConverter::reduceMantissaToNbits(), l1t::emtf::ME::set_af(), l1t::emtf::ME::set_afef(), l1t::emtf::ME::set_afff(), l1t::EMTFOutput::set_AMC13Header(), l1t::EMTFOutput::set_AMC13Trailer(), l1t::emtf::MTF7Header::set_amc_number(), l1t::emtf::EventTrailer::set_bb(), l1t::emtf::RPC::set_bc0(), l1t::emtf::ME::set_bc0(), l1t::emtf::SP::set_bc0(), l1t::emtf::RPC::set_bcn(), l1t::emtf::MTF7Header::set_board_id(), l1t::emtf::EventHeader::set_bsy(), l1t::emtf::SP::set_bx(), l1t::emtf::MTF7Header::set_bx_id(), l1t::emtf::AMC13Header::set_bx_id(), l1t::emtf::ME::set_bxe(), l1t::emtf::RPC::set_bxn(), l1t::emtf::AMC13Trailer::set_c(), l1t::emtf::SP::set_c(), l1t::emtf::ME::set_cik(), l1t::emtf::ME::set_clct_key_half_strip(), l1t::emtf::ME::set_clct_pattern(), l1t::EMTFOutput::set_Counters(), l1t::emtf::AMC13Trailer::set_crc16(), l1t::emtf::EventTrailer::set_crc22(), l1t::emtf::MTF7Trailer::set_crc_32(), l1t::emtf::ME::set_csc_ID(), l1t::emtf::MTF7Trailer::set_data_length(), l1t::emtf::MTF7Header::set_data_length(), l1t::emtf::Counters::set_dataword(), l1t::emtf::MTF7Trailer::set_dataword(), l1t::emtf::AMC13Trailer::set_dataword(), l1t::emtf::MTF7Header::set_dataword(), l1t::emtf::RPC::set_dataword(), l1t::emtf::AMC13Header::set_dataword(), l1t::emtf::EventTrailer::set_dataword(), l1t::EMTFOutput::set_dataword(), l1t::emtf::ME::set_dataword(), l1t::emtf::EventHeader::set_dataword(), l1t::emtf::SP::set_dataword(), l1t::emtf::EventTrailer::set_dd(), l1t::emtf::EventTrailer::set_ddcsr_bid(), l1t::emtf::EventTrailer::set_ddcsr_lf(), l1t::emtf::EventHeader::set_ddm(), l1t::emtf::EventHeader::set_endcap(), l1t::emtf::RPC::set_eod(), l1t::emtf::ME::set_epc(), l1t::emtf::SP::set_eta_GMT_int(), l1t::EMTFOutput::set_EventHeader(), l1t::EMTFOutput::set_EventTrailer(), l1t::emtf::AMC13Trailer::set_evt_lgth(), l1t::emtf::AMC13Trailer::set_evt_stat(), l1t::emtf::AMC13Header::set_evt_ty(), l1t::emtf::AMC13Trailer::set_f(), l1t::emtf::AMC13Header::set_fov(), l1t::emtf::AMC13Header::set_h(), l1t::emtf::SP::set_hl(), l1t::emtf::EventTrailer::set_hp(), l1t::emtf::ME::set_key_wire_group(), l1t::emtf::EventHeader::set_l1a(), l1t::emtf::EventTrailer::set_l1a(), l1t::emtf::EventHeader::set_l1a_bxn(), l1t::emtf::RPC::set_lb(), l1t::emtf::EventTrailer::set_lfff(), l1t::emtf::RPC::set_link_number(), l1t::emtf::EventTrailer::set_lp(), l1t::emtf::ME::set_lr(), l1t::emtf::MTF7Trailer::set_lv1_id(), l1t::emtf::AMC13Header::set_lv1_id(), l1t::emtf::MTF7Header::set_lv1_id(), l1t::emtf::SP::set_me1_csc_id(), l1t::emtf::SP::set_me1_subsector(), l1t::emtf::SP::set_me1_TBIN(), l1t::emtf::SP::set_me1_trk_stub_num(), l1t::emtf::EventHeader::set_me1a(), l1t::emtf::EventHeader::set_me1b(), l1t::emtf::EventHeader::set_me2(), l1t::emtf::SP::set_me2_csc_id(), l1t::emtf::SP::set_me2_TBIN(), l1t::emtf::SP::set_me2_trk_stub_num(), l1t::emtf::EventHeader::set_me3(), l1t::emtf::SP::set_me3_csc_id(), l1t::emtf::SP::set_me3_TBIN(), l1t::emtf::SP::set_me3_trk_stub_num(), l1t::emtf::EventHeader::set_me4(), l1t::emtf::SP::set_me4_csc_id(), l1t::emtf::SP::set_me4_TBIN(), l1t::emtf::SP::set_me4_trk_stub_num(), l1t::emtf::ME::set_me_bxn(), l1t::emtf::EventTrailer::set_mm(), l1t::EMTFOutput::set_MTF7Header(), l1t::EMTFOutput::set_MTF7Trailer(), l1t::emtf::AMC13Header::set_namc(), l1t::emtf::ME::set_nit(), l1t::emtf::Counters::set_orbit_counter(), l1t::emtf::MTF7Header::set_orbit_number(), l1t::emtf::AMC13Header::set_orn(), l1t::emtf::EventHeader::set_osy(), l1t::emtf::RPC::set_partition_data(), l1t::emtf::RPC::set_partition_num(), l1t::emtf::SP::set_phi_GMT_int(), l1t::emtf::SP::set_phi_local_int(), l1t::emtf::RPC::set_prt_delay(), l1t::emtf::SP::set_pt_int(), l1t::emtf::SP::set_pt_lut_address(), l1t::emtf::ME::set_quality(), l1t::emtf::SP::set_quality(), l1t::emtf::AMC13Trailer::set_r(), l1t::emtf::EventHeader::set_rdy(), l1t::emtf::AMC13Header::set_res(), l1t::emtf::Counters::set_rpc_counter(), l1t::emtf::EventHeader::set_rpca(), l1t::emtf::ME::set_se(), l1t::emtf::SP::set_se(), l1t::emtf::EventHeader::set_sector(), l1t::emtf::EventHeader::set_skip(), l1t::emtf::ME::set_sm(), l1t::emtf::AMC13Header::set_source_id(), l1t::emtf::EventHeader::set_sp_addr(), l1t::emtf::EventHeader::set_sp_ersv(), l1t::emtf::EventTrailer::set_sp_ersv(), l1t::emtf::EventTrailer::set_sp_ladr(), l1t::emtf::EventTrailer::set_sp_padr(), l1t::emtf::EventHeader::set_sp_ts(), l1t::emtf::EventHeader::set_spa(), l1t::emtf::EventTrailer::set_spcsr_scc(), l1t::emtf::ME::set_station(), l1t::emtf::AMC13Trailer::set_t(), l1t::emtf::RPC::set_tbin(), l1t::emtf::EventHeader::set_tbin(), l1t::emtf::ME::set_tbin_num(), l1t::emtf::SP::set_TBIN_num(), l1t::emtf::Counters::set_track_counter(), l1t::emtf::AMC13Trailer::set_tts(), l1t::emtf::AMC13Header::set_ufov(), l1t::emtf::MTF7Header::set_user_id(), l1t::emtf::SP::set_vc(), l1t::emtf::ME::set_vp(), l1t::emtf::SP::set_vt(), l1t::emtf::EventHeader::set_wof(), l1t::emtf::AMC13Header::set_x(), l1t::emtf::EventTrailer::set_yy(), L1MuGMTDebugBlock::SetCancelBits(), l1t::RegionalMuonCand::setDataword(), RunMemTTErrorsDat::setErrorBits(), RunMemChErrorsDat::setErrorBits(), RunTTErrorsDat::setErrorBits(), RunPNErrorsDat::setErrorBits(), RunCrystalErrorsDat::setErrorBits(), l1t::MuonCaloSum::setEtaBits(), l1t::MuonCaloSum::setEtBits(), egHLT::OffEvt::setEvtTrigBits(), l1t::RegionalMuonCand::setHwEta(), l1t::RegionalMuonCand::setHwPhi(), l1t::RegionalMuonCand::setHwPt(), l1t::RegionalMuonCand::setHwQual(), l1t::GMTInternalMuon::setHwRank(), l1t::RegionalMuonCand::setHwSign(), l1t::RegionalMuonCand::setHwSignValid(), l1t::MuonCaloSum::setPhiBits(), egHLT::OffPho::setTrigBits(), egHLT::OffEle::setTrigBits(), Signal::Signal(), OMTFSorter::sortProcessorAndFillCandidates(), and l1t::stage2::emtf::TwosCompl().

How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION [A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of FALSE

Definition at line 35 of file EventSelector-behavior.doc.

Referenced by Fit::CheckIfFitPossible(), and Fit::fitNextEvent().

How EventSelector::AcceptEvent () decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION [A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are READY

Definition at line 45 of file EventSelector-behavior.doc.