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FFTJetProducer Class Reference

#include <RecoJets/FFTJetProducers/plugins/FFTJetProducer.h>

Inheritance diagram for FFTJetProducer:
fftjetcms::FFTJetInterface edm::stream::EDProducer<>

Public Types

typedef fftjet::RecombinedJet< fftjetcms::VectorLikeRecoFFTJet
 
enum  Resolution {
  FIXED = 0, MAXIMALLY_STABLE, GLOBALLY_ADAPTIVE, LOCALLY_ADAPTIVE,
  FROM_GENJETS
}
 
typedef fftjet::SparseClusteringTree< fftjet::Peak, long > SparseTree
 
enum  StatusBits {
  RESOLUTION = 0xff, CONSTITUENTS_RESUMMED = 0x100, PILEUP_CALCULATED = 0x200, PILEUP_SUBTRACTED_4VEC = 0x400,
  PILEUP_SUBTRACTED_PT = 0x800
}
 
- Public Types inherited from edm::stream::EDProducer<>
using CacheTypes = CacheContexts< T... >
 
using GlobalCache = typename CacheTypes::GlobalCache
 
using HasAbility = AbilityChecker< T... >
 
using InputProcessBlockCache = typename CacheTypes::InputProcessBlockCache
 
using LuminosityBlockCache = typename CacheTypes::LuminosityBlockCache
 
using LuminosityBlockContext = LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >
 
using LuminosityBlockSummaryCache = typename CacheTypes::LuminosityBlockSummaryCache
 
using RunCache = typename CacheTypes::RunCache
 
using RunContext = RunContextT< RunCache, GlobalCache >
 
using RunSummaryCache = typename CacheTypes::RunSummaryCache
 

Public Member Functions

 FFTJetProducer (const edm::ParameterSet &)
 
 FFTJetProducer ()=delete
 
 FFTJetProducer (const FFTJetProducer &)=delete
 
template<class Real >
void loadSparseTreeData (const edm::Event &iEvent, const edm::EDGetTokenT< reco::PattRecoTree< Real, reco::PattRecoPeak< Real > > > &tok)
 
FFTJetProduceroperator= (const FFTJetProducer &)=delete
 
 ~FFTJetProducer () override
 
- Public Member Functions inherited from fftjetcms::FFTJetInterface
 FFTJetInterface ()=delete
 
 FFTJetInterface (const FFTJetInterface &)=delete
 
FFTJetInterfaceoperator= (const FFTJetInterface &)=delete
 
 ~FFTJetInterface () override
 
- Public Member Functions inherited from edm::stream::EDProducer<>
 EDProducer ()=default
 
 EDProducer (const EDProducer &)=delete
 
bool hasAbilityToProduceInBeginLumis () const final
 
bool hasAbilityToProduceInBeginProcessBlocks () const final
 
bool hasAbilityToProduceInBeginRuns () const final
 
bool hasAbilityToProduceInEndLumis () const final
 
bool hasAbilityToProduceInEndProcessBlocks () const final
 
bool hasAbilityToProduceInEndRuns () const final
 
const EDProduceroperator= (const EDProducer &)=delete
 

Static Public Member Functions

static Resolution parse_resolution (const std::string &name)
 

Protected Member Functions

virtual void assignMembershipFunctions (std::vector< fftjet::Peak > *preclusters)
 
void beginStream (edm::StreamID) override
 
virtual void genJetPreclusters (const SparseTree &tree, edm::Event &, const edm::EventSetup &, const fftjet::Functor1< bool, fftjet::Peak > &peakSelector, std::vector< fftjet::Peak > *preclusters)
 
virtual std::unique_ptr< fftjetcms::AbsBgFunctorparse_bgMembershipFunction (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor2< double, RecoFFTJet, RecoFFTJet > > parse_jetDistanceCalc (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::ScaleSpaceKernel > parse_jetMembershipFunction (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > parse_memberFactorCalcJet (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > parse_memberFactorCalcPeak (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > parse_peakSelector (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjetcms::AbsPileupCalculatorparse_pileupDensityCalc (const edm::ParameterSet &ps)
 
virtual std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > parse_recoScaleCalcJet (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > parse_recoScaleCalcPeak (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > parse_recoScaleRatioCalcJet (const edm::ParameterSet &)
 
virtual std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > parse_recoScaleRatioCalcPeak (const edm::ParameterSet &)
 
void produce (edm::Event &, const edm::EventSetup &) override
 
virtual void selectPreclusters (const SparseTree &tree, const fftjet::Functor1< bool, fftjet::Peak > &peakSelector, std::vector< fftjet::Peak > *preclusters)
 
void selectTreeNodes (const SparseTree &tree, const fftjet::Functor1< bool, fftjet::Peak > &peakSelect, std::vector< SparseTree::NodeId > *nodes)
 
- Protected Member Functions inherited from fftjetcms::FFTJetInterface
template<class Ptr >
void checkConfig (const Ptr &ptr, const char *message)
 
void discretizeEnergyFlow ()
 
 FFTJetInterface (const edm::ParameterSet &)
 
double getEventScale () const
 
void loadInputCollection (const edm::Event &)
 
bool storeInSinglePrecision () const
 
const reco::Particle::PointvertexUsed () const
 

Private Types

typedef fftjet::AbsRecombinationAlg< fftjetcms::Real, fftjetcms::VectorLike, fftjetcms::BgDataGridAlg
 
typedef fftjet::AbsVectorRecombinationAlg< fftjetcms::VectorLike, fftjetcms::BgDataRecoAlg
 

Private Member Functions

void buildGridAlg ()
 
bool checkConvergence (const std::vector< RecoFFTJet > &previousIterResult, std::vector< RecoFFTJet > &thisIterResult)
 
void determineGriddedConstituents ()
 
void determinePileup ()
 
virtual void determinePileupDensityFromConfig (const edm::Event &iEvent, std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &density)
 
virtual void determinePileupDensityFromDB (const edm::Event &iEvent, const edm::EventSetup &iSetup, std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &density)
 
void determineVectorConstituents ()
 
unsigned iterateJetReconstruction ()
 
bool loadEnergyFlow (const edm::Event &iEvent, std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &flow)
 
template<class Real >
void loadSparseTreeData (const edm::Event &, const edm::EDGetTokenT< reco::PattRecoTree< Real, reco::PattRecoPeak< Real > > > &tok)
 
template<typename Jet >
void makeProduces (const std::string &alias, const std::string &tag)
 
void prepareRecombinationScales ()
 
void removeFakePreclusters ()
 
void saveResults (edm::Event &iEvent, const edm::EventSetup &, unsigned nPreclustersFound)
 
template<typename Jet >
void writeJets (edm::Event &iEvent, const edm::EventSetup &)
 

Static Private Member Functions

static void setJetStatusBit (RecoFFTJet *jet, int mask, bool value)
 

Private Attributes

const bool assignConstituents
 
std::unique_ptr< fftjetcms::AbsBgFunctorbgMembershipFunction
 
const bool calculatePileup
 
std::vector< unsigned > cellCountsVec
 
std::vector< std::vector< reco::CandidatePtr > > constituents
 
const double convergenceDistance
 
std::vector< double > doubleBuf
 
FFTJetLookupTableSequenceLoader esLoader_
 
const double fixedScale
 
const edm::InputTag genJetsLabel
 
edm::ESGetToken< CaloGeometry, CaloGeometryRecordgeometry_token_
 
std::unique_ptr< GridAlggridAlg
 
const double gridScanMaxEta
 
std::unique_ptr< std::vector< double > > iniScales
 
edm::EDGetTokenT< reco::DiscretizedEnergyFlowinput_energyflow_token_
 
edm::EDGetTokenT< std::vector< reco::FFTAnyJet< reco::GenJet > > > input_genjet_token_
 
edm::EDGetTokenT< reco::FFTJetPileupSummaryinput_pusummary_token_
 
edm::EDGetTokenT< reco::PattRecoTree< double, reco::PattRecoPeak< double > > > input_recotree_token_d_
 
edm::EDGetTokenT< reco::PattRecoTree< float, reco::PattRecoPeak< float > > > input_recotree_token_f_
 
const bool isCrisp
 
unsigned iterationsPerformed
 
std::vector< RecoFFTJetiterJets
 
std::vector< fftjet::Peak > iterPreclusters
 
std::unique_ptr< fftjet::Functor2< double, RecoFFTJet, RecoFFTJet > > jetDistanceCalc
 
std::unique_ptr< fftjet::ScaleSpaceKernel > jetMembershipFunction
 
bool loadPileupFromDB
 
const unsigned maxInitialPreclusters
 
const unsigned maxIterations
 
unsigned maxLevel
 
const double maxStableScale
 
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > memberFactorCalcJet
 
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > memberFactorCalcPeak
 
std::vector< fftjet::AbsKernel2d * > memFcns2dVec
 
unsigned minLevel
 
const double minStableScale
 
const edm::ParameterSet myConfiguration
 
const unsigned nClustersRequested
 
const unsigned nJetsRequiredToConverge
 
std::vector< SparseTree::NodeId > nodes
 
const double noiseLevel
 
std::vector< unsigned > occupancy
 
std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > peakSelector
 
std::vector< fftjetcms::VectorLikepileup
 
std::unique_ptr< fftjetcms::AbsPileupCalculatorpileupDensityCalc
 
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > pileupEnergyFlow
 
const edm::InputTag pileupLabel
 
std::string pileupTableCategory
 
std::string pileupTableName
 
std::string pileupTableRecord
 
std::vector< fftjet::Peak > preclusters
 
std::unique_ptr< RecoAlgrecoAlg
 
std::vector< RecoFFTJetrecoJets
 
const std::string recombinationAlgorithm
 
const double recombinationDataCutoff
 
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleCalcJet
 
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > recoScaleCalcPeak
 
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleRatioCalcJet
 
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > recoScaleRatioCalcPeak
 
Resolution resolution
 
const bool resumConstituents
 
const bool reuseExistingGrid
 
SparseTree sparseTree
 
const double stabilityAlpha
 
const bool subtractPileup
 
const bool subtractPileupAs4Vec
 
std::vector< double > thresholds
 
edm::ESGetToken< HcalTopology, HcalRecNumberingRecordtopology_token_
 
const edm::InputTag treeLabel
 
fftjetcms::VectorLike unclustered
 
const double unlikelyBgWeight
 
double unused
 
unsigned usedLevel
 
const bool useGriddedAlgorithm
 

Additional Inherited Members

- Protected Attributes inherited from fftjetcms::FFTJetInterface
const AnomalousTower anomalous
 
std::vector< unsigned > candidateIndex
 
const bool doPVCorrection
 
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
 
const std::vector< double > etaDependentMagnutideFactors
 
std::vector< fftjetcms::VectorLikeeventData
 
edm::Handle< reco::CandidateViewinputCollection
 
const edm::InputTag inputLabel
 
const JetType jetType
 
const std::string outputLabel
 
const edm::InputTag srcPVs
 

Detailed Description

Description: makes jets using FFTJet clustering tree

Implementation: [Notes on implementation]

Description: makes jets using FFTJet clustering tree

Implementation: If you want to change the jet algorithm functionality (for example, by providing your own jet membership function), derive from this class and override the appropriate parser method (for example, parse_jetMembershipFunction). At the end of your own parser, don't forget to call the parser of the base class in order to get the default behavior when your special configuration is not provided (this is known as the "chain-of-responsibility" design pattern). If you also need to override "beginJob" and/or "produce" methods, the first thing to do in your method is to call the corresponding method of this base.

Definition at line 84 of file FFTJetProducer.h.

Member Typedef Documentation

◆ GridAlg

typedef fftjet::AbsRecombinationAlg<fftjetcms::Real, fftjetcms::VectorLike, fftjetcms::BgData> FFTJetProducer::GridAlg
private

Definition at line 183 of file FFTJetProducer.h.

◆ RecoAlg

typedef fftjet::AbsVectorRecombinationAlg<fftjetcms::VectorLike, fftjetcms::BgData> FFTJetProducer::RecoAlg
private

Definition at line 182 of file FFTJetProducer.h.

◆ RecoFFTJet

typedef fftjet::RecombinedJet<fftjetcms::VectorLike> FFTJetProducer::RecoFFTJet

Definition at line 86 of file FFTJetProducer.h.

◆ SparseTree

typedef fftjet::SparseClusteringTree<fftjet::Peak, long> FFTJetProducer::SparseTree

Definition at line 87 of file FFTJetProducer.h.

Member Enumeration Documentation

◆ Resolution

enum FFTJetProducer::Resolution
Enumerator
FIXED 
MAXIMALLY_STABLE 
GLOBALLY_ADAPTIVE 
LOCALLY_ADAPTIVE 
FROM_GENJETS 

Definition at line 100 of file FFTJetProducer.h.

100 { FIXED = 0, MAXIMALLY_STABLE, GLOBALLY_ADAPTIVE, LOCALLY_ADAPTIVE, FROM_GENJETS };

◆ StatusBits

enum FFTJetProducer::StatusBits
Enumerator
RESOLUTION 
CONSTITUENTS_RESUMMED 
PILEUP_CALCULATED 
PILEUP_SUBTRACTED_4VEC 
PILEUP_SUBTRACTED_PT 

Definition at line 92 of file FFTJetProducer.h.

92  {
93  RESOLUTION = 0xff,
94  CONSTITUENTS_RESUMMED = 0x100,
95  PILEUP_CALCULATED = 0x200,
96  PILEUP_SUBTRACTED_4VEC = 0x400,
97  PILEUP_SUBTRACTED_PT = 0x800
98  };

Constructor & Destructor Documentation

◆ FFTJetProducer() [1/3]

FFTJetProducer::FFTJetProducer ( const edm::ParameterSet ps)
explicit

Definition at line 116 of file FFTJetProducer.cc.

References DefaultFFTJetRcdMapper< DataType >::acquireToken(), SiStripOfflineCRack_cfg::alias, assignConstituents, fftjetcms::CALOJET, fftjetcms::FFTJetInterface::checkConfig(), deDxTools::esConsumes(), esLoader_, Exception, fftjetcms::fftjet_ScaleSet_parser(), genJetsLabel, geometry_token_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), iniScales, input_energyflow_token_, input_genjet_token_, input_pusummary_token_, input_recotree_token_d_, input_recotree_token_f_, jet_type_switch, fftjetcms::FFTJetInterface::jetType, makeProduces(), fftjetcms::FFTJetInterface::outputLabel, pileupLabel, pileupTableRecord, resumConstituents, jetUpdater_cfi::sort, fftjetcms::FFTJetInterface::storeInSinglePrecision(), AlCaHLTBitMon_QueryRunRegistry::string, topology_token_, and treeLabel.

117  : FFTJetInterface(ps),
118  myConfiguration(ps),
119  init_param(edm::InputTag, treeLabel),
120  init_param(bool, useGriddedAlgorithm),
121  init_param(bool, reuseExistingGrid),
122  init_param(unsigned, maxIterations),
123  init_param(unsigned, nJetsRequiredToConverge),
124  init_param(double, convergenceDistance),
125  init_param(bool, assignConstituents),
126  init_param(bool, resumConstituents),
127  init_param(bool, calculatePileup),
128  init_param(bool, subtractPileup),
129  init_param(bool, subtractPileupAs4Vec),
130  init_param(edm::InputTag, pileupLabel),
131  init_param(double, fixedScale),
132  init_param(double, minStableScale),
133  init_param(double, maxStableScale),
134  init_param(double, stabilityAlpha),
135  init_param(double, noiseLevel),
136  init_param(unsigned, nClustersRequested),
137  init_param(double, gridScanMaxEta),
138  init_param(std::string, recombinationAlgorithm),
139  init_param(bool, isCrisp),
140  init_param(double, unlikelyBgWeight),
141  init_param(double, recombinationDataCutoff),
142  init_param(edm::InputTag, genJetsLabel),
143  init_param(unsigned, maxInitialPreclusters),
144  resolution(parse_resolution(ps.getParameter<std::string>("resolution"))),
145  init_param(std::string, pileupTableRecord),
146  init_param(std::string, pileupTableName),
147  init_param(std::string, pileupTableCategory),
148  init_param(bool, loadPileupFromDB),
149 
150  minLevel(0),
151  maxLevel(0),
152  usedLevel(0),
153  unused(0.0),
154  iterationsPerformed(1U),
155  constituents(200) {
156  // Check that the settings make sense
157  if (resumConstituents && !assignConstituents)
158  throw cms::Exception("FFTJetBadConfig") << "Can't resum constituents if they are not assigned" << std::endl;
159 
160  produces<reco::FFTJetProducerSummary>(outputLabel);
161  const std::string alias(ps.getUntrackedParameter<std::string>("alias", outputLabel));
162  jet_type_switch(makeProduces, alias, outputLabel);
163 
164  if (jetType == CALOJET) {
165  geometry_token_ = esConsumes();
166  topology_token_ = esConsumes();
167  }
168 
169  // Build the set of pattern recognition scales.
170  // This is needed in order to read the clustering tree
171  // from the event record.
172  iniScales = fftjet_ScaleSet_parser(ps.getParameter<edm::ParameterSet>("InitialScales"));
173  checkConfig(iniScales, "invalid set of scales");
174  std::sort(iniScales->begin(), iniScales->end(), std::greater<double>());
175 
176  if (storeInSinglePrecision())
177  input_recotree_token_f_ = consumes<reco::PattRecoTree<float, reco::PattRecoPeak<float> > >(treeLabel);
178  else
179  input_recotree_token_d_ = consumes<reco::PattRecoTree<double, reco::PattRecoPeak<double> > >(treeLabel);
180  input_genjet_token_ = consumes<std::vector<reco::FFTAnyJet<reco::GenJet> > >(genJetsLabel);
181  input_energyflow_token_ = consumes<reco::DiscretizedEnergyFlow>(treeLabel);
182  input_pusummary_token_ = consumes<reco::FFTJetPileupSummary>(pileupLabel);
183 
184  esLoader_.acquireToken(pileupTableRecord, consumesCollector());
185 
186  // Most of the configuration has to be performed inside
187  // the "beginStream" method. This is because chaining of the
188  // parsers between this base class and the derived classes
189  // can not work from the constructor of the base class.
190 }
FFTJetProducer::constituents
std::vector< std::vector< reco::CandidatePtr > > constituents
Definition: FFTJetProducer.h:384
jetUpdater_cfi.sort
sort
Definition: jetUpdater_cfi.py:30
deDxTools::esConsumes
ESGetTokenH3DDVariant esConsumes(std::string const &Record, edm::ConsumesCollector &)
Definition: DeDxTools.cc:283
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
FFTJetProducer::iterationsPerformed
unsigned iterationsPerformed
Definition: FFTJetProducer.h:381
FFTJetProducer::useGriddedAlgorithm
const bool useGriddedAlgorithm
Definition: FFTJetProducer.h:246
FFTJetProducer::parse_resolution
static Resolution parse_resolution(const std::string &name)
Definition: FFTJetProducer.cc:93
FFTJetProducer::resumConstituents
const bool resumConstituents
Definition: FFTJetProducer.h:265
FFTJetProducer::gridScanMaxEta
const double gridScanMaxEta
Definition: FFTJetProducer.h:295
FFTJetProducer::recombinationAlgorithm
const std::string recombinationAlgorithm
Definition: FFTJetProducer.h:298
FFTJetProducer::fixedScale
const double fixedScale
Definition: FFTJetProducer.h:278
FFTJetProducer::subtractPileupAs4Vec
const bool subtractPileupAs4Vec
Definition: FFTJetProducer.h:271
SiStripOfflineCRack_cfg.alias
alias
Definition: SiStripOfflineCRack_cfg.py:128
fftjetcms::FFTJetInterface::checkConfig
void checkConfig(const Ptr &ptr, const char *message)
Definition: FFTJetInterface.h:64
FFTJetProducer::unlikelyBgWeight
const double unlikelyBgWeight
Definition: FFTJetProducer.h:300
FFTJetProducer::makeProduces
void makeProduces(const std::string &alias, const std::string &tag)
Definition: FFTJetProducer.cc:109
FFTJetProducer::subtractPileup
const bool subtractPileup
Definition: FFTJetProducer.h:270
FFTJetProducer::nJetsRequiredToConverge
const unsigned nJetsRequiredToConverge
Definition: FFTJetProducer.h:256
FFTJetProducer::resolution
Resolution resolution
Definition: FFTJetProducer.h:314
FFTJetProducer::geometry_token_
edm::ESGetToken< CaloGeometry, CaloGeometryRecord > geometry_token_
Definition: FFTJetProducer.h:410
FFTJetProducer::isCrisp
const bool isCrisp
Definition: FFTJetProducer.h:299
FFTJetProducer::recombinationDataCutoff
const double recombinationDataCutoff
Definition: FFTJetProducer.h:301
DefaultFFTJetRcdMapper::acquireToken
void acquireToken(const std::string &record, edm::ConsumesCollector iC)
Definition: FFTJetRcdMapper.h:75
FFTJetProducer::minStableScale
const double minStableScale
Definition: FFTJetProducer.h:281
FFTJetProducer::maxStableScale
const double maxStableScale
Definition: FFTJetProducer.h:282
init_param
#define init_param(type, varname)
Definition: FFTJetProducer.cc:49
AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
mitigatedMETSequence_cff.U
U
Definition: mitigatedMETSequence_cff.py:36
edm::ParameterSet::getUntrackedParameter
T getUntrackedParameter(std::string const &, T const &) const
FFTJetProducer::reuseExistingGrid
const bool reuseExistingGrid
Definition: FFTJetProducer.h:250
FFTJetProducer::nClustersRequested
const unsigned nClustersRequested
Definition: FFTJetProducer.h:292
FFTJetProducer::iniScales
std::unique_ptr< std::vector< double > > iniScales
Definition: FFTJetProducer.h:324
FFTJetProducer::input_recotree_token_d_
edm::EDGetTokenT< reco::PattRecoTree< double, reco::PattRecoPeak< double > > > input_recotree_token_d_
Definition: FFTJetProducer.h:404
FFTJetProducer::usedLevel
unsigned usedLevel
Definition: FFTJetProducer.h:372
FFTJetProducer::input_recotree_token_f_
edm::EDGetTokenT< reco::PattRecoTree< float, reco::PattRecoPeak< float > > > input_recotree_token_f_
Definition: FFTJetProducer.h:405
FFTJetProducer::noiseLevel
const double noiseLevel
Definition: FFTJetProducer.h:289
FFTJetProducer::pileupTableRecord
std::string pileupTableRecord
Definition: FFTJetProducer.h:318
FFTJetProducer::pileupTableName
std::string pileupTableName
Definition: FFTJetProducer.h:319
FFTJetProducer::calculatePileup
const bool calculatePileup
Definition: FFTJetProducer.h:269
FFTJetProducer::assignConstituents
const bool assignConstituents
Definition: FFTJetProducer.h:260
FFTJetProducer::treeLabel
const edm::InputTag treeLabel
Definition: FFTJetProducer.h:242
FFTJetProducer::genJetsLabel
const edm::InputTag genJetsLabel
Definition: FFTJetProducer.h:304
FFTJetProducer::myConfiguration
const edm::ParameterSet myConfiguration
Definition: FFTJetProducer.h:239
FFTJetProducer::input_energyflow_token_
edm::EDGetTokenT< reco::DiscretizedEnergyFlow > input_energyflow_token_
Definition: FFTJetProducer.h:407
FFTJetProducer::topology_token_
edm::ESGetToken< HcalTopology, HcalRecNumberingRecord > topology_token_
Definition: FFTJetProducer.h:411
FFTJetProducer::input_pusummary_token_
edm::EDGetTokenT< reco::FFTJetPileupSummary > input_pusummary_token_
Definition: FFTJetProducer.h:408
FFTJetProducer::stabilityAlpha
const double stabilityAlpha
Definition: FFTJetProducer.h:285
FFTJetProducer::maxInitialPreclusters
const unsigned maxInitialPreclusters
Definition: FFTJetProducer.h:309
FFTJetProducer::pileupTableCategory
std::string pileupTableCategory
Definition: FFTJetProducer.h:320
FFTJetProducer::convergenceDistance
const double convergenceDistance
Definition: FFTJetProducer.h:257
FFTJetProducer::input_genjet_token_
edm::EDGetTokenT< std::vector< reco::FFTAnyJet< reco::GenJet > > > input_genjet_token_
Definition: FFTJetProducer.h:406
FFTJetProducer::pileupLabel
const edm::InputTag pileupLabel
Definition: FFTJetProducer.h:275
jet_type_switch
#define jet_type_switch(method, arg1, arg2)
Definition: FFTJetProducer.cc:58
FFTJetProducer::esLoader_
FFTJetLookupTableSequenceLoader esLoader_
Definition: FFTJetProducer.h:413
fftjetcms::fftjet_ScaleSet_parser
std::unique_ptr< std::vector< double > > fftjet_ScaleSet_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:350
fftjetcms::FFTJetInterface::outputLabel
const std::string outputLabel
Definition: FFTJetInterface.h:80
FFTJetProducer::maxIterations
const unsigned maxIterations
Definition: FFTJetProducer.h:253

◆ FFTJetProducer() [2/3]

FFTJetProducer::FFTJetProducer ( )
delete

◆ FFTJetProducer() [3/3]

FFTJetProducer::FFTJetProducer ( const FFTJetProducer )
delete

◆ ~FFTJetProducer()

FFTJetProducer::~FFTJetProducer ( )
override

Definition at line 192 of file FFTJetProducer.cc.

192 {}

Member Function Documentation

◆ assignMembershipFunctions()

void FFTJetProducer::assignMembershipFunctions ( std::vector< fftjet::Peak > *  preclusters)
protectedvirtual

Definition at line 815 of file FFTJetProducer.cc.

Referenced by produce().

815 {}

◆ beginStream()

void FFTJetProducer::beginStream ( edm::StreamID  )
overrideprotected

Definition at line 818 of file FFTJetProducer.cc.

References assignConstituents, bgMembershipFunction, buildGridAlg(), calculatePileup, fftjetcms::FFTJetInterface::checkConfig(), fftjetcms::FFTJetInterface::energyFlow, Exception, fftjetcms::fftjet_Grid2d_parser(), edm::ParameterSet::getParameter(), isCrisp, jetDistanceCalc, jetMembershipFunction, loadPileupFromDB, maxIterations, memberFactorCalcJet, memberFactorCalcPeak, myConfiguration, parse_bgMembershipFunction(), parse_jetDistanceCalc(), parse_jetMembershipFunction(), parse_memberFactorCalcJet(), parse_memberFactorCalcPeak(), parse_peakSelector(), parse_pileupDensityCalc(), parse_recoScaleCalcJet(), parse_recoScaleCalcPeak(), parse_recoScaleRatioCalcJet(), parse_recoScaleRatioCalcPeak(), peakSelector, VtxSmearedParameters_cfi::Phi, pileupDensityCalc, pileupEnergyFlow, recoAlg, recombinationAlgorithm, recoScaleCalcJet, recoScaleCalcPeak, recoScaleRatioCalcJet, recoScaleRatioCalcPeak, reuseExistingGrid, unlikelyBgWeight, and useGriddedAlgorithm.

818  {
819  const edm::ParameterSet& ps(myConfiguration);
820 
821  // Parse the peak selector definition
822  peakSelector = parse_peakSelector(ps);
823  checkConfig(peakSelector, "invalid peak selector");
824 
825  jetMembershipFunction = parse_jetMembershipFunction(ps);
826  checkConfig(jetMembershipFunction, "invalid jet membership function");
827 
828  bgMembershipFunction = parse_bgMembershipFunction(ps);
829  checkConfig(bgMembershipFunction, "invalid noise membership function");
830 
831  // Build the energy recombination algorithm
832  if (!useGriddedAlgorithm) {
833  fftjet::DefaultVectorRecombinationAlgFactory<VectorLike, BgData, VBuilder> factory;
834  if (factory[recombinationAlgorithm] == nullptr)
835  throw cms::Exception("FFTJetBadConfig")
836  << "Invalid vector recombination algorithm \"" << recombinationAlgorithm << "\"" << std::endl;
837  recoAlg = std::unique_ptr<RecoAlg>(factory[recombinationAlgorithm]->create(jetMembershipFunction.get(),
838  &VectorLike::Et,
839  &VectorLike::Eta,
840  &VectorLike::Phi,
841  bgMembershipFunction.get(),
842  unlikelyBgWeight,
843  isCrisp,
844  false,
845  assignConstituents));
846  } else if (!reuseExistingGrid) {
847  energyFlow = fftjet_Grid2d_parser(ps.getParameter<edm::ParameterSet>("GridConfiguration"));
848  checkConfig(energyFlow, "invalid discretization grid");
849  buildGridAlg();
850  }
851 
852  // Create the grid subsequently used for pile-up subtraction
853  if (calculatePileup) {
854  pileupEnergyFlow = fftjet_Grid2d_parser(ps.getParameter<edm::ParameterSet>("PileupGridConfiguration"));
855  checkConfig(pileupEnergyFlow, "invalid pileup density grid");
856 
857  if (!loadPileupFromDB) {
858  pileupDensityCalc = parse_pileupDensityCalc(ps);
859  checkConfig(pileupDensityCalc, "invalid pile-up density calculator");
860  }
861  }
862 
863  // Parse the calculator of the recombination scale
864  recoScaleCalcPeak = parse_recoScaleCalcPeak(ps);
865  checkConfig(recoScaleCalcPeak,
866  "invalid spec for the "
867  "reconstruction scale calculator from peaks");
868 
869  // Parse the calculator of the recombination scale ratio
870  recoScaleRatioCalcPeak = parse_recoScaleRatioCalcPeak(ps);
871  checkConfig(recoScaleRatioCalcPeak,
872  "invalid spec for the "
873  "reconstruction scale ratio calculator from peaks");
874 
875  // Calculator for the membership function factor
876  memberFactorCalcPeak = parse_memberFactorCalcPeak(ps);
877  checkConfig(memberFactorCalcPeak,
878  "invalid spec for the "
879  "membership function factor calculator from peaks");
880 
881  if (maxIterations > 1) {
882  // We are going to run iteratively. Make required objects.
883  recoScaleCalcJet = parse_recoScaleCalcJet(ps);
884  checkConfig(recoScaleCalcJet,
885  "invalid spec for the "
886  "reconstruction scale calculator from jets");
887 
888  recoScaleRatioCalcJet = parse_recoScaleRatioCalcJet(ps);
889  checkConfig(recoScaleRatioCalcJet,
890  "invalid spec for the "
891  "reconstruction scale ratio calculator from jets");
892 
893  memberFactorCalcJet = parse_memberFactorCalcJet(ps);
894  checkConfig(memberFactorCalcJet,
895  "invalid spec for the "
896  "membership function factor calculator from jets");
897 
898  jetDistanceCalc = parse_jetDistanceCalc(ps);
899  checkConfig(memberFactorCalcJet,
900  "invalid spec for the "
901  "jet distance calculator");
902  }
903 }
FFTJetProducer::parse_jetMembershipFunction
virtual std::unique_ptr< fftjet::ScaleSpaceKernel > parse_jetMembershipFunction(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:763
FFTJetProducer::jetDistanceCalc
std::unique_ptr< fftjet::Functor2< double, RecoFFTJet, RecoFFTJet > > jetDistanceCalc
Definition: FFTJetProducer.h:354
FFTJetProducer::useGriddedAlgorithm
const bool useGriddedAlgorithm
Definition: FFTJetProducer.h:246
FFTJetProducer::memberFactorCalcPeak
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > memberFactorCalcPeak
Definition: FFTJetProducer.h:345
FFTJetProducer::recoScaleCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleCalcJet
Definition: FFTJetProducer.h:348
FFTJetProducer::recombinationAlgorithm
const std::string recombinationAlgorithm
Definition: FFTJetProducer.h:298
FFTJetProducer::parse_bgMembershipFunction
virtual std::unique_ptr< fftjetcms::AbsBgFunctor > parse_bgMembershipFunction(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:768
fftjetcms::FFTJetInterface::checkConfig
void checkConfig(const Ptr &ptr, const char *message)
Definition: FFTJetInterface.h:64
FFTJetProducer::unlikelyBgWeight
const double unlikelyBgWeight
Definition: FFTJetProducer.h:300
fftjetcms::fftjet_Grid2d_parser
std::unique_ptr< fftjet::Grid2d< Real > > fftjet_Grid2d_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:125
FFTJetProducer::isCrisp
const bool isCrisp
Definition: FFTJetProducer.h:299
FFTJetProducer::reuseExistingGrid
const bool reuseExistingGrid
Definition: FFTJetProducer.h:250
FFTJetProducer::parse_pileupDensityCalc
virtual std::unique_ptr< fftjetcms::AbsPileupCalculator > parse_pileupDensityCalc(const edm::ParameterSet &ps)
Definition: FFTJetProducer.cc:779
FFTJetProducer::bgMembershipFunction
std::unique_ptr< fftjetcms::AbsBgFunctor > bgMembershipFunction
Definition: FFTJetProducer.h:336
fftjetcms::FFTJetInterface::energyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
Definition: FFTJetInterface.h:104
FFTJetProducer::parse_recoScaleCalcJet
virtual std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > parse_recoScaleCalcJet(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:795
FFTJetProducer::memberFactorCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > memberFactorCalcJet
Definition: FFTJetProducer.h:350
FFTJetProducer::parse_recoScaleRatioCalcPeak
virtual std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > parse_recoScaleRatioCalcPeak(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:784
FFTJetProducer::recoScaleRatioCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleRatioCalcJet
Definition: FFTJetProducer.h:349
FFTJetProducer::jetMembershipFunction
std::unique_ptr< fftjet::ScaleSpaceKernel > jetMembershipFunction
Definition: FFTJetProducer.h:335
FFTJetProducer::calculatePileup
const bool calculatePileup
Definition: FFTJetProducer.h:269
FFTJetProducer::assignConstituents
const bool assignConstituents
Definition: FFTJetProducer.h:260
VtxSmearedParameters_cfi.Phi
Phi
Definition: VtxSmearedParameters_cfi.py:112
FFTJetProducer::myConfiguration
const edm::ParameterSet myConfiguration
Definition: FFTJetProducer.h:239
FFTJetProducer::parse_recoScaleRatioCalcJet
virtual std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > parse_recoScaleRatioCalcJet(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:800
FFTJetProducer::pileupDensityCalc
std::unique_ptr< fftjetcms::AbsPileupCalculator > pileupDensityCalc
Definition: FFTJetProducer.h:396
FFTJetProducer::peakSelector
std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > peakSelector
Definition: FFTJetProducer.h:330
FFTJetProducer::recoScaleRatioCalcPeak
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > recoScaleRatioCalcPeak
Definition: FFTJetProducer.h:342
FFTJetProducer::parse_peakSelector
virtual std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > parse_peakSelector(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:758
FFTJetProducer::pileupEnergyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > pileupEnergyFlow
Definition: FFTJetProducer.h:393
FFTJetProducer::recoScaleCalcPeak
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > recoScaleCalcPeak
Definition: FFTJetProducer.h:339
FFTJetProducer::recoAlg
std::unique_ptr< RecoAlg > recoAlg
Definition: FFTJetProducer.h:333
FFTJetProducer::parse_memberFactorCalcPeak
virtual std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > parse_memberFactorCalcPeak(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:790
FFTJetProducer::parse_recoScaleCalcPeak
virtual std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > parse_recoScaleCalcPeak(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:773
FFTJetProducer::maxIterations
const unsigned maxIterations
Definition: FFTJetProducer.h:253
FFTJetProducer::parse_memberFactorCalcJet
virtual std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > parse_memberFactorCalcJet(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:805
FFTJetProducer::parse_jetDistanceCalc
virtual std::unique_ptr< fftjet::Functor2< double, RecoFFTJet, RecoFFTJet > > parse_jetDistanceCalc(const edm::ParameterSet &)
Definition: FFTJetProducer.cc:811

◆ buildGridAlg()

void FFTJetProducer::buildGridAlg ( )
private

Definition at line 357 of file FFTJetProducer.cc.

References assignConstituents, bgMembershipFunction, fftjetcms::FFTJetInterface::energyFlow, Exception, gridAlg, gridScanMaxEta, isCrisp, jetMembershipFunction, cms::alpakatools::config::maxBin, cms::alpakatools::config::minBin, recombinationAlgorithm, recombinationDataCutoff, and unlikelyBgWeight.

Referenced by beginStream(), and produce().

357  {
358  int minBin = energyFlow->getEtaBin(-gridScanMaxEta);
359  if (minBin < 0)
360  minBin = 0;
361  int maxBin = energyFlow->getEtaBin(gridScanMaxEta) + 1;
362  if (maxBin < 0)
363  maxBin = 0;
364 
365  fftjet::DefaultRecombinationAlgFactory<Real, VectorLike, BgData, VBuilder> factory;
366  if (factory[recombinationAlgorithm] == nullptr)
367  throw cms::Exception("FFTJetBadConfig")
368  << "Invalid grid recombination algorithm \"" << recombinationAlgorithm << "\"" << std::endl;
369  gridAlg = std::unique_ptr<GridAlg>(factory[recombinationAlgorithm]->create(jetMembershipFunction.get(),
370  bgMembershipFunction.get(),
371  unlikelyBgWeight,
372  recombinationDataCutoff,
373  isCrisp,
374  false,
375  assignConstituents,
376  minBin,
377  maxBin));
378 }
FFTJetProducer::gridScanMaxEta
const double gridScanMaxEta
Definition: FFTJetProducer.h:295
cms::alpakatools::config::minBin
constexpr unsigned int minBin
Definition: AllocatorConfig.h:15
FFTJetProducer::recombinationAlgorithm
const std::string recombinationAlgorithm
Definition: FFTJetProducer.h:298
FFTJetProducer::unlikelyBgWeight
const double unlikelyBgWeight
Definition: FFTJetProducer.h:300
FFTJetProducer::gridAlg
std::unique_ptr< GridAlg > gridAlg
Definition: FFTJetProducer.h:334
cms::alpakatools::config::maxBin
constexpr unsigned int maxBin
Definition: AllocatorConfig.h:18
FFTJetProducer::isCrisp
const bool isCrisp
Definition: FFTJetProducer.h:299
FFTJetProducer::recombinationDataCutoff
const double recombinationDataCutoff
Definition: FFTJetProducer.h:301
FFTJetProducer::bgMembershipFunction
std::unique_ptr< fftjetcms::AbsBgFunctor > bgMembershipFunction
Definition: FFTJetProducer.h:336
fftjetcms::FFTJetInterface::energyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
Definition: FFTJetInterface.h:104
FFTJetProducer::jetMembershipFunction
std::unique_ptr< fftjet::ScaleSpaceKernel > jetMembershipFunction
Definition: FFTJetProducer.h:335
FFTJetProducer::assignConstituents
const bool assignConstituents
Definition: FFTJetProducer.h:260

◆ checkConvergence()

bool FFTJetProducer::checkConvergence ( const std::vector< RecoFFTJet > &  previousIterResult,
std::vector< RecoFFTJet > &  thisIterResult 
)
private

Definition at line 399 of file FFTJetProducer.cc.

References convergenceDistance, ztail::d, mps_fire::i, jetDistanceCalc, GetRecoTauVFromDQM_MC_cff::next, nJets, and callgraph::previous.

Referenced by iterateJetReconstruction().

399  {
400  fftjet::Functor2<double, RecoFFTJet, RecoFFTJet>& distanceCalc(*jetDistanceCalc);
401 
402  const unsigned nJets = previous.size();
403  if (nJets != nextSet.size())
404  return false;
405 
406  const RecoFFTJet* prev = &previous[0];
407  RecoFFTJet* next = &nextSet[0];
408 
409  // Calculate convergence distances for all jets
410  bool converged = true;
411  for (unsigned i = 0; i < nJets; ++i) {
412  const double d = distanceCalc(prev[i], next[i]);
413  next[i].setConvergenceDistance(d);
414  if (i < nJetsRequiredToConverge && d > convergenceDistance)
415  converged = false;
416  }
417 
418  return converged;
419 }
FFTJetProducer::jetDistanceCalc
std::unique_ptr< fftjet::Functor2< double, RecoFFTJet, RecoFFTJet > > jetDistanceCalc
Definition: FFTJetProducer.h:354
mps_fire.i
i
Definition: mps_fire.py:429
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
GetRecoTauVFromDQM_MC_cff.next
next
Definition: GetRecoTauVFromDQM_MC_cff.py:31
RecoFFTJet
fftjet::RecombinedJet< VectorLike > RecoFFTJet
Definition: FFTJetParameterParser.cc:37
ztail.d
d
Definition: ztail.py:151
FFTJetProducer::convergenceDistance
const double convergenceDistance
Definition: FFTJetProducer.h:257

◆ determineGriddedConstituents()

void FFTJetProducer::determineGriddedConstituents ( )
private

Definition at line 488 of file FFTJetProducer.cc.

References cms::cuda::assert(), fftjetcms::FFTJetInterface::candidateIndex, constituents, fftjetcms::FFTJetInterface::energyFlow, fftjetcms::FFTJetInterface::eventData, g, gridAlg, mps_fire::i, l1tPhase2CaloJetEmulator_cfi::iEta, fftjetcms::FFTJetInterface::inputCollection, B2GTnPMonitor_cfi::item, ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::mask, HLT_2024v10_cff::nEta, nJets, HLT_2024v10_cff::nPhi, and recoJets.

Referenced by produce().

488  {
489  const unsigned nJets = recoJets.size();
490  const unsigned* clusterMask = gridAlg->getClusterMask();
491  const int nEta = gridAlg->getLastNEta();
492  const int nPhi = gridAlg->getLastNPhi();
493  const fftjet::Grid2d<Real>& g(*energyFlow);
494 
495  const unsigned nInputs = eventData.size();
496  const VectorLike* inp = nInputs ? &eventData[0] : nullptr;
497  const unsigned* candIdx = nInputs ? &candidateIndex[0] : nullptr;
498  for (unsigned i = 0; i < nInputs; ++i) {
499  const VectorLike& item(inp[i]);
500  const int iPhi = g.getPhiBin(item.Phi());
501  const int iEta = g.getEtaBin(item.Eta());
502  const unsigned mask = iEta >= 0 && iEta < nEta ? clusterMask[iEta * nPhi + iPhi] : 0;
503  assert(mask <= nJets);
504  constituents[mask].push_back(inputCollection->ptrAt(candIdx[i]));
505  }
506 }
FFTJetProducer::constituents
std::vector< std::vector< reco::CandidatePtr > > constituents
Definition: FFTJetProducer.h:384
ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::mask
constexpr uint32_t mask
Definition: PixelClustering.h:35
mps_fire.i
i
Definition: mps_fire.py:429
fftjetcms::FFTJetInterface::inputCollection
edm::Handle< reco::CandidateView > inputCollection
Definition: FFTJetInterface.h:107
HLT_2024v10_cff.nEta
nEta
Definition: HLT_2024v10_cff.py:4221
HLT_2024v10_cff.nPhi
nPhi
Definition: HLT_2024v10_cff.py:4222
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
FFTJetProducer::gridAlg
std::unique_ptr< GridAlg > gridAlg
Definition: FFTJetProducer.h:334
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
cms::cuda::assert
assert(be >=bs)
B2GTnPMonitor_cfi.item
item
Definition: B2GTnPMonitor_cfi.py:148
g
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
fftjetcms::FFTJetInterface::candidateIndex
std::vector< unsigned > candidateIndex
Definition: FFTJetInterface.h:101
fftjetcms::FFTJetInterface::energyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
Definition: FFTJetInterface.h:104
fftjetcms::VectorLike
math::XYZTLorentzVector VectorLike
Definition: fftjetTypedefs.h:26
l1tPhase2CaloJetEmulator_cfi.iEta
iEta
Definition: l1tPhase2CaloJetEmulator_cfi.py:24
fftjetcms::FFTJetInterface::eventData
std::vector< fftjetcms::VectorLike > eventData
Definition: FFTJetInterface.h:98

◆ determinePileup()

void FFTJetProducer::determinePileup ( )
private

Definition at line 1005 of file FFTJetProducer.cc.

References cms::cuda::assert(), cellCountsVec, HLT_2024v10_cff::dEta, doubleBuf, HLT_2024v10_cff::dPhi, PVValHelper::eta, f, g, mps_fire::i, hcalRecHitTable_cff::ieta, hcalRecHitTable_cff::iphi, isCrisp, metsig::jet, jetMembershipFunction, reco::btau::jetPhi, M_PI, memberFactorCalcJet, memFcns2dVec, HLT_2024v10_cff::nEta, nJets, HLT_2024v10_cff::nPhi, pileup, pileupEnergyFlow, recoJets, recoScaleCalcJet, recoScaleRatioCalcJet, mitigatedMETSequence_cff::U, and SiPixelPI::zero.

Referenced by produce().

1005  {
1006  // This function works with crisp clustering only
1007  if (!isCrisp)
1008  assert(!"Pile-up subtraction for fuzzy clustering "
1009  "is not implemented yet");
1010 
1011  // Clear the pileup vector
1012  const unsigned nJets = recoJets.size();
1013  pileup.resize(nJets);
1014  if (nJets == 0)
1015  return;
1016  const VectorLike zero;
1017  for (unsigned i = 0; i < nJets; ++i)
1018  pileup[i] = zero;
1019 
1020  // Pileup energy flow grid
1021  const fftjet::Grid2d<Real>& g(*pileupEnergyFlow);
1022  const unsigned nEta = g.nEta();
1023  const unsigned nPhi = g.nPhi();
1024  const double cellArea = g.etaBinWidth() * g.phiBinWidth();
1025 
1026  // Various calculators
1027  fftjet::Functor1<double, RecoFFTJet>& scaleCalc(*recoScaleCalcJet);
1028  fftjet::Functor1<double, RecoFFTJet>& ratioCalc(*recoScaleRatioCalcJet);
1029  fftjet::Functor1<double, RecoFFTJet>& factorCalc(*memberFactorCalcJet);
1030 
1031  // Make sure we have enough memory
1032  memFcns2dVec.resize(nJets);
1033  fftjet::AbsKernel2d** memFcns2d = &memFcns2dVec[0];
1034 
1035  doubleBuf.resize(nJets * 4U + nJets * nPhi);
1036  double* recoScales = &doubleBuf[0];
1037  double* recoScaleRatios = recoScales + nJets;
1038  double* memFactors = recoScaleRatios + nJets;
1039  double* dEta = memFactors + nJets;
1040  double* dPhiBuf = dEta + nJets;
1041 
1042  cellCountsVec.resize(nJets);
1043  unsigned* cellCounts = &cellCountsVec[0];
1044 
1045  // Go over jets and collect the necessary info
1046  for (unsigned ijet = 0; ijet < nJets; ++ijet) {
1047  const RecoFFTJet& jet(recoJets[ijet]);
1048  const fftjet::Peak& peak(jet.precluster());
1049 
1050  // Make sure we are using 2-d membership functions.
1051  // Pile-up subtraction scheme for 3-d functions should be different.
1052  fftjet::AbsMembershipFunction* m3d = dynamic_cast<fftjet::AbsMembershipFunction*>(peak.membershipFunction());
1053  if (m3d == nullptr)
1054  m3d = dynamic_cast<fftjet::AbsMembershipFunction*>(jetMembershipFunction.get());
1055  if (m3d) {
1056  assert(!"Pile-up subtraction for 3-d membership functions "
1057  "is not implemented yet");
1058  } else {
1059  fftjet::AbsKernel2d* m2d = dynamic_cast<fftjet::AbsKernel2d*>(peak.membershipFunction());
1060  if (m2d == nullptr)
1061  m2d = dynamic_cast<fftjet::AbsKernel2d*>(jetMembershipFunction.get());
1062  assert(m2d);
1063  memFcns2d[ijet] = m2d;
1064  }
1065  recoScales[ijet] = scaleCalc(jet);
1066  recoScaleRatios[ijet] = ratioCalc(jet);
1067  memFactors[ijet] = factorCalc(jet);
1068  cellCounts[ijet] = 0U;
1069 
1070  const double jetPhi = jet.vec().Phi();
1071  for (unsigned iphi = 0; iphi < nPhi; ++iphi) {
1072  double dphi = g.phiBinCenter(iphi) - jetPhi;
1073  while (dphi > M_PI)
1074  dphi -= (2.0 * M_PI);
1075  while (dphi < -M_PI)
1076  dphi += (2.0 * M_PI);
1077  dPhiBuf[iphi * nJets + ijet] = dphi;
1078  }
1079  }
1080 
1081  // Go over all grid points and integrate
1082  // the pile-up energy density
1083  VBuilder vMaker;
1084  for (unsigned ieta = 0; ieta < nEta; ++ieta) {
1085  const double eta(g.etaBinCenter(ieta));
1086  const Real* databuf = g.data() + ieta * nPhi;
1087 
1088  // Figure out dEta for each jet
1089  for (unsigned ijet = 0; ijet < nJets; ++ijet)
1090  dEta[ijet] = eta - recoJets[ijet].vec().Eta();
1091 
1092  for (unsigned iphi = 0; iphi < nPhi; ++iphi) {
1093  double maxW(0.0);
1094  unsigned maxWJet(nJets);
1095  const double* dPhi = dPhiBuf + iphi * nJets;
1096 
1097  for (unsigned ijet = 0; ijet < nJets; ++ijet) {
1098  if (recoScaleRatios[ijet] > 0.0)
1099  memFcns2d[ijet]->setScaleRatio(recoScaleRatios[ijet]);
1100  const double f = memFactors[ijet] * (*memFcns2d[ijet])(dEta[ijet], dPhi[ijet], recoScales[ijet]);
1101  if (f > maxW) {
1102  maxW = f;
1103  maxWJet = ijet;
1104  }
1105  }
1106 
1107  if (maxWJet < nJets) {
1108  pileup[maxWJet] += vMaker(cellArea * databuf[iphi], eta, g.phiBinCenter(iphi));
1109  cellCounts[maxWJet]++;
1110  }
1111  }
1112  }
1113 }
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::pileup
std::vector< fftjetcms::VectorLike > pileup
Definition: FFTJetProducer.h:388
HLT_2024v10_cff.nEta
nEta
Definition: HLT_2024v10_cff.py:4221
HLT_2024v10_cff.dPhi
dPhi
Definition: HLT_2024v10_cff.py:10823
FFTJetProducer::recoScaleCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleCalcJet
Definition: FFTJetProducer.h:348
HLT_2024v10_cff.nPhi
nPhi
Definition: HLT_2024v10_cff.py:4222
FFTJetProducer::doubleBuf
std::vector< double > doubleBuf
Definition: FFTJetProducer.h:400
FFTJetProducer::memFcns2dVec
std::vector< fftjet::AbsKernel2d * > memFcns2dVec
Definition: FFTJetProducer.h:399
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
FFTJetProducer::isCrisp
const bool isCrisp
Definition: FFTJetProducer.h:299
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
cms::cuda::assert
assert(be >=bs)
g
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
mitigatedMETSequence_cff.U
U
Definition: mitigatedMETSequence_cff.py:36
RecoFFTJet
fftjet::RecombinedJet< VectorLike > RecoFFTJet
Definition: FFTJetParameterParser.cc:37
hcalRecHitTable_cff.ieta
ieta
Definition: hcalRecHitTable_cff.py:15
FFTJetProducer::memberFactorCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > memberFactorCalcJet
Definition: FFTJetProducer.h:350
fftjetcms::VectorLike
math::XYZTLorentzVector VectorLike
Definition: fftjetTypedefs.h:26
f
double f[11][100]
Definition: MuScleFitUtils.cc:78
HLT_2024v10_cff.dEta
dEta
Definition: HLT_2024v10_cff.py:10822
FFTJetProducer::cellCountsVec
std::vector< unsigned > cellCountsVec
Definition: FFTJetProducer.h:401
FFTJetProducer::recoScaleRatioCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleRatioCalcJet
Definition: FFTJetProducer.h:349
FFTJetProducer::jetMembershipFunction
std::unique_ptr< fftjet::ScaleSpaceKernel > jetMembershipFunction
Definition: FFTJetProducer.h:335
hcalRecHitTable_cff.iphi
iphi
Definition: hcalRecHitTable_cff.py:16
M_PI
#define M_PI
Definition: BXVectorInputProducer.cc:50
fftjetcms::Real
double Real
Definition: fftjetTypedefs.h:21
FFTJetProducer::pileupEnergyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > pileupEnergyFlow
Definition: FFTJetProducer.h:393

◆ determinePileupDensityFromConfig()

void FFTJetProducer::determinePileupDensityFromConfig ( const edm::Event iEvent,
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &  density 
)
privatevirtual

Definition at line 937 of file FFTJetProducer.cc.

References fastSimProducer_cff::density, PVValHelper::eta, g, hcalRecHitTable_cff::ieta, iEvent, input_pusummary_token_, hcalRecHitTable_cff::iphi, fftjetcms::AbsPileupCalculator::isPhiDependent(), HLT_2024v10_cff::nEta, HLT_2024v10_cff::nPhi, phi, pileupDensityCalc, alignCSCRings::s, and edmLumisInFiles::summary.

Referenced by produce().

938  {
939  edm::Handle<reco::FFTJetPileupSummary> summary;
940  iEvent.getByToken(input_pusummary_token_, summary);
941 
942  const reco::FFTJetPileupSummary& s(*summary);
943  const AbsPileupCalculator& calc(*pileupDensityCalc);
944  const bool phiDependent = calc.isPhiDependent();
945 
946  fftjet::Grid2d<Real>& g(*density);
947  const unsigned nEta = g.nEta();
948  const unsigned nPhi = g.nPhi();
949 
950  for (unsigned ieta = 0; ieta < nEta; ++ieta) {
951  const double eta(g.etaBinCenter(ieta));
952 
953  if (phiDependent) {
954  for (unsigned iphi = 0; iphi < nPhi; ++iphi) {
955  const double phi(g.phiBinCenter(iphi));
956  g.uncheckedSetBin(ieta, iphi, calc(eta, phi, s));
957  }
958  } else {
959  const double pil = calc(eta, 0.0, s);
960  for (unsigned iphi = 0; iphi < nPhi; ++iphi)
961  g.uncheckedSetBin(ieta, iphi, pil);
962  }
963  }
964 }
HLT_2024v10_cff.nEta
nEta
Definition: HLT_2024v10_cff.py:4221
HLT_2024v10_cff.nPhi
nPhi
Definition: HLT_2024v10_cff.py:4222
reco::FFTJetPileupSummary
Summary info for pile-up determined by Gaussian filtering.
Definition: FFTJetPileupSummary.h:13
g
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
hcalRecHitTable_cff.ieta
ieta
Definition: hcalRecHitTable_cff.py:15
iEvent
int iEvent
Definition: GenABIO.cc:224
hcalRecHitTable_cff.iphi
iphi
Definition: hcalRecHitTable_cff.py:16
fastSimProducer_cff.density
density
Definition: fastSimProducer_cff.py:62
FFTJetProducer::input_pusummary_token_
edm::EDGetTokenT< reco::FFTJetPileupSummary > input_pusummary_token_
Definition: FFTJetProducer.h:408
FFTJetProducer::pileupDensityCalc
std::unique_ptr< fftjetcms::AbsPileupCalculator > pileupDensityCalc
Definition: FFTJetProducer.h:396

◆ determinePileupDensityFromDB()

void FFTJetProducer::determinePileupDensityFromDB ( const edm::Event iEvent,
const edm::EventSetup iSetup,
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &  density 
)
privatevirtual

Definition at line 966 of file FFTJetProducer.cc.

References fastSimProducer_cff::density, esLoader_, PVValHelper::eta, f, g, h, hcalRecHitTable_cff::ieta, iEvent, input_pusummary_token_, hcalRecHitTable_cff::iphi, DefaultFFTJetRcdMapper< DataType >::load(), HLT_2024v10_cff::nEta, HLT_2024v10_cff::nPhi, pileupTableCategory, pileupTableName, pileupTableRecord, rho, edmLumisInFiles::summary, and mitigatedMETSequence_cff::U.

Referenced by produce().

968  {
969  edm::ESHandle<FFTJetLookupTableSequence> h = esLoader_.load(pileupTableRecord, iSetup);
970  std::shared_ptr<npstat::StorableMultivariateFunctor> f = (*h)[pileupTableCategory][pileupTableName];
971 
972  edm::Handle<reco::FFTJetPileupSummary> summary;
973  iEvent.getByToken(input_pusummary_token_, summary);
974 
975  const float rho = summary->pileupRho();
976  const bool phiDependent = f->minDim() == 3U;
977 
978  fftjet::Grid2d<Real>& g(*density);
979  const unsigned nEta = g.nEta();
980  const unsigned nPhi = g.nPhi();
981 
982  double functorArg[3] = {0.0, 0.0, 0.0};
983  if (phiDependent)
984  functorArg[2] = rho;
985  else
986  functorArg[1] = rho;
987 
988  for (unsigned ieta = 0; ieta < nEta; ++ieta) {
989  const double eta(g.etaBinCenter(ieta));
990  functorArg[0] = eta;
991 
992  if (phiDependent) {
993  for (unsigned iphi = 0; iphi < nPhi; ++iphi) {
994  functorArg[1] = g.phiBinCenter(iphi);
995  g.uncheckedSetBin(ieta, iphi, (*f)(functorArg, 3U));
996  }
997  } else {
998  const double pil = (*f)(functorArg, 2U);
999  for (unsigned iphi = 0; iphi < nPhi; ++iphi)
1000  g.uncheckedSetBin(ieta, iphi, pil);
1001  }
1002  }
1003 }
DefaultFFTJetRcdMapper::load
edm::ESHandle< DataType > load(const std::string &record, const edm::EventSetup &iSetup) const
Definition: FFTJetRcdMapper.h:89
HLT_2024v10_cff.nEta
nEta
Definition: HLT_2024v10_cff.py:4221
HLT_2024v10_cff.nPhi
nPhi
Definition: HLT_2024v10_cff.py:4222
g
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
mitigatedMETSequence_cff.U
U
Definition: mitigatedMETSequence_cff.py:36
hcalRecHitTable_cff.ieta
ieta
Definition: hcalRecHitTable_cff.py:15
iEvent
int iEvent
Definition: GenABIO.cc:224
f
double f[11][100]
Definition: MuScleFitUtils.cc:78
FFTJetProducer::pileupTableRecord
std::string pileupTableRecord
Definition: FFTJetProducer.h:318
FFTJetProducer::pileupTableName
std::string pileupTableName
Definition: FFTJetProducer.h:319
hcalRecHitTable_cff.iphi
iphi
Definition: hcalRecHitTable_cff.py:16
fastSimProducer_cff.density
density
Definition: fastSimProducer_cff.py:62
FFTJetProducer::input_pusummary_token_
edm::EDGetTokenT< reco::FFTJetPileupSummary > input_pusummary_token_
Definition: FFTJetProducer.h:408
FFTJetProducer::pileupTableCategory
std::string pileupTableCategory
Definition: FFTJetProducer.h:320
h
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4
FFTJetProducer::esLoader_
FFTJetLookupTableSequenceLoader esLoader_
Definition: FFTJetProducer.h:413

◆ determineVectorConstituents()

void FFTJetProducer::determineVectorConstituents ( )
private

Definition at line 508 of file FFTJetProducer.cc.

References cms::cuda::assert(), fftjetcms::FFTJetInterface::candidateIndex, constituents, fftjetcms::FFTJetInterface::eventData, mps_fire::i, fftjetcms::FFTJetInterface::inputCollection, ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::mask, nJets, recoAlg, and recoJets.

Referenced by produce().

508  {
509  const unsigned nJets = recoJets.size();
510  const unsigned* clusterMask = recoAlg->getClusterMask();
511  const unsigned maskLength = recoAlg->getLastNData();
512  assert(maskLength == eventData.size());
513 
514  const unsigned* candIdx = maskLength ? &candidateIndex[0] : nullptr;
515  for (unsigned i = 0; i < maskLength; ++i) {
516  // In FFTJet, the mask value of 0 corresponds to unclustered
517  // energy. We will do the same here. Jet numbers are therefore
518  // shifted by 1 wrt constituents vector, and constituents[1]
519  // corresponds to jet number 0.
520  const unsigned mask = clusterMask[i];
521  assert(mask <= nJets);
522  constituents[mask].push_back(inputCollection->ptrAt(candIdx[i]));
523  }
524 }
FFTJetProducer::constituents
std::vector< std::vector< reco::CandidatePtr > > constituents
Definition: FFTJetProducer.h:384
ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::mask
constexpr uint32_t mask
Definition: PixelClustering.h:35
mps_fire.i
i
Definition: mps_fire.py:429
fftjetcms::FFTJetInterface::inputCollection
edm::Handle< reco::CandidateView > inputCollection
Definition: FFTJetInterface.h:107
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
cms::cuda::assert
assert(be >=bs)
fftjetcms::FFTJetInterface::candidateIndex
std::vector< unsigned > candidateIndex
Definition: FFTJetInterface.h:101
FFTJetProducer::recoAlg
std::unique_ptr< RecoAlg > recoAlg
Definition: FFTJetProducer.h:333
fftjetcms::FFTJetInterface::eventData
std::vector< fftjetcms::VectorLike > eventData
Definition: FFTJetInterface.h:98

◆ genJetPreclusters()

void FFTJetProducer::genJetPreclusters ( const SparseTree tree,
edm::Event iEvent,
const edm::EventSetup ,
const fftjet::Functor1< bool, fftjet::Peak > &  peakSelector,
std::vector< fftjet::Peak > *  preclusters 
)
protectedvirtual

Definition at line 214 of file FFTJetProducer.cc.

References mps_fire::i, iEvent, input, input_genjet_token_, SimL1EmulatorRepack_Full_cff::InputCollection, metsig::jet, fftjetcms::jetFromStorable(), AlCaHLTBitMon_ParallelJobs::p, preclusters, resolution, and l1tEGammaCrystalsEmulatorProducer_cfi::scale.

Referenced by produce().

218  {
219  typedef reco::FFTAnyJet<reco::GenJet> InputJet;
220  typedef std::vector<InputJet> InputCollection;
221 
222  edm::Handle<InputCollection> input;
223  iEvent.getByToken(input_genjet_token_, input);
224 
225  const unsigned sz = input->size();
226  preclusters->reserve(sz);
227  for (unsigned i = 0; i < sz; ++i) {
228  const RecoFFTJet& jet(jetFromStorable((*input)[i].getFFTSpecific()));
229  fftjet::Peak p(jet.precluster());
230  const double scale(p.scale());
231  p.setEtaPhi(jet.vec().Eta(), jet.vec().Phi());
232  p.setMagnitude(jet.vec().Pt() / scale / scale);
233  p.setStatus(resolution);
234  if (peakSelect(p))
235  preclusters->push_back(p);
236  }
237 }
mps_fire.i
i
Definition: mps_fire.py:429
l1tEGammaCrystalsEmulatorProducer_cfi.scale
scale
Definition: l1tEGammaCrystalsEmulatorProducer_cfi.py:10
fftjetcms::jetFromStorable
fftjet::RecombinedJet< VectorLike > jetFromStorable(const reco::FFTJet< Real > &jet)
Definition: jetConverters.h:65
FFTJetProducer::resolution
Resolution resolution
Definition: FFTJetProducer.h:314
FFTJetProducer::preclusters
std::vector< fftjet::Peak > preclusters
Definition: FFTJetProducer.h:360
input
static std::string const input
Definition: EdmProvDump.cc:50
RecoFFTJet
fftjet::RecombinedJet< VectorLike > RecoFFTJet
Definition: FFTJetParameterParser.cc:37
iEvent
int iEvent
Definition: GenABIO.cc:224
SimL1EmulatorRepack_Full_cff.InputCollection
InputCollection
Definition: SimL1EmulatorRepack_Full_cff.py:97
reco::FFTAnyJet
Implements inheritance relationships for FFTJet jets.
Definition: FFTAnyJet.h:16
FFTJetProducer::input_genjet_token_
edm::EDGetTokenT< std::vector< reco::FFTAnyJet< reco::GenJet > > > input_genjet_token_
Definition: FFTJetProducer.h:406
AlCaHLTBitMon_ParallelJobs.p
def p
Definition: AlCaHLTBitMon_ParallelJobs.py:153

◆ iterateJetReconstruction()

unsigned FFTJetProducer::iterateJetReconstruction ( )
private

Definition at line 421 of file FFTJetProducer.cc.

References cms::cuda::assert(), checkConvergence(), fftjetcms::FFTJetInterface::energyFlow, fftjetcms::FFTJetInterface::eventData, Exception, gridAlg, mps_fire::i, iterJets, iterPreclusters, metsig::jet, PDWG_EXODelayedJetMET_cff::jets, maxIterations, memberFactorCalcJet, nJets, noiseLevel, AlCaHLTBitMon_ParallelJobs::p, preclusters, recoAlg, recoJets, recoScaleCalcJet, recoScaleRatioCalcJet, removeFakePreclusters(), mps_update::status, mitigatedMETSequence_cff::U, unclustered, unused, and useGriddedAlgorithm.

Referenced by produce().

421  {
422  fftjet::Functor1<double, RecoFFTJet>& scaleCalc(*recoScaleCalcJet);
423  fftjet::Functor1<double, RecoFFTJet>& ratioCalc(*recoScaleRatioCalcJet);
424  fftjet::Functor1<double, RecoFFTJet>& factorCalc(*memberFactorCalcJet);
425 
426  unsigned nJets = recoJets.size();
427  unsigned iterNum = 1U;
428  bool converged = false;
429  for (; iterNum < maxIterations && !converged; ++iterNum) {
430  // Recreate the vector of preclusters using the jets
431  const RecoFFTJet* jets = &recoJets[0];
432  iterPreclusters.clear();
433  iterPreclusters.reserve(nJets);
434  for (unsigned i = 0; i < nJets; ++i) {
435  const RecoFFTJet& jet(jets[i]);
436  fftjet::Peak p(jet.precluster());
437  p.setEtaPhi(jet.vec().Eta(), jet.vec().Phi());
438  p.setRecoScale(scaleCalc(jet));
439  p.setRecoScaleRatio(ratioCalc(jet));
440  p.setMembershipFactor(factorCalc(jet));
441  iterPreclusters.push_back(p);
442  }
443 
444  // Run the algorithm
445  int status = 0;
446  if (useGriddedAlgorithm)
447  status = gridAlg->run(iterPreclusters, *energyFlow, &noiseLevel, 1U, 1U, &iterJets, &unclustered, &unused);
448  else
449  status = recoAlg->run(iterPreclusters, eventData, &noiseLevel, 1U, &iterJets, &unclustered, &unused);
450  if (status)
451  throw cms::Exception("FFTJetInterface") << "FFTJet algorithm failed" << std::endl;
452 
453  // As it turns out, it is possible, in very rare cases,
454  // to have iterJets.size() != nJets at this point
455 
456  // Figure out if the iterations have converged
457  converged = checkConvergence(recoJets, iterJets);
458 
459  // Prepare for the next cycle
460  iterJets.swap(recoJets);
461  nJets = recoJets.size();
462  }
463 
464  // Check that we have the correct number of preclusters
465  if (preclusters.size() != nJets) {
466  assert(nJets < preclusters.size());
467  removeFakePreclusters();
468  assert(preclusters.size() == nJets);
469  }
470 
471  // Plug in the original precluster coordinates into the result
472  RecoFFTJet* jets = &recoJets[0];
473  for (unsigned i = 0; i < nJets; ++i) {
474  const fftjet::Peak& oldp(preclusters[i]);
475  jets[i].setPeakEtaPhi(oldp.eta(), oldp.phi());
476  }
477 
478  // If we have converged on the last cycle, the result
479  // would be indistinguishable from no convergence.
480  // Because of this, raise the counter by one to indicate
481  // the case when the convergence is not achieved.
482  if (!converged)
483  ++iterNum;
484 
485  return iterNum;
486 }
FFTJetProducer::useGriddedAlgorithm
const bool useGriddedAlgorithm
Definition: FFTJetProducer.h:246
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::recoScaleCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleCalcJet
Definition: FFTJetProducer.h:348
PDWG_EXODelayedJetMET_cff.jets
jets
Definition: PDWG_EXODelayedJetMET_cff.py:14
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
FFTJetProducer::gridAlg
std::unique_ptr< GridAlg > gridAlg
Definition: FFTJetProducer.h:334
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
cms::cuda::assert
assert(be >=bs)
FFTJetProducer::preclusters
std::vector< fftjet::Peak > preclusters
Definition: FFTJetProducer.h:360
mitigatedMETSequence_cff.U
U
Definition: mitigatedMETSequence_cff.py:36
RecoFFTJet
fftjet::RecombinedJet< VectorLike > RecoFFTJet
Definition: FFTJetParameterParser.cc:37
fftjetcms::FFTJetInterface::energyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
Definition: FFTJetInterface.h:104
FFTJetProducer::memberFactorCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > memberFactorCalcJet
Definition: FFTJetProducer.h:350
FFTJetProducer::noiseLevel
const double noiseLevel
Definition: FFTJetProducer.h:289
FFTJetProducer::iterJets
std::vector< RecoFFTJet > iterJets
Definition: FFTJetProducer.h:380
mps_update.status
status
Definition: mps_update.py:68
FFTJetProducer::recoScaleRatioCalcJet
std::unique_ptr< fftjet::Functor1< double, RecoFFTJet > > recoScaleRatioCalcJet
Definition: FFTJetProducer.h:349
FFTJetProducer::checkConvergence
bool checkConvergence(const std::vector< RecoFFTJet > &previousIterResult, std::vector< RecoFFTJet > &thisIterResult)
Definition: FFTJetProducer.cc:399
FFTJetProducer::recoAlg
std::unique_ptr< RecoAlg > recoAlg
Definition: FFTJetProducer.h:333
fftjetcms::FFTJetInterface::eventData
std::vector< fftjetcms::VectorLike > eventData
Definition: FFTJetInterface.h:98
FFTJetProducer::unclustered
fftjetcms::VectorLike unclustered
Definition: FFTJetProducer.h:375
FFTJetProducer::iterPreclusters
std::vector< fftjet::Peak > iterPreclusters
Definition: FFTJetProducer.h:379
AlCaHLTBitMon_ParallelJobs.p
def p
Definition: AlCaHLTBitMon_ParallelJobs.py:153
FFTJetProducer::removeFakePreclusters
void removeFakePreclusters()
Definition: FFTJetProducer.cc:905
FFTJetProducer::maxIterations
const unsigned maxIterations
Definition: FFTJetProducer.h:253

◆ loadEnergyFlow()

bool FFTJetProducer::loadEnergyFlow ( const edm::Event iEvent,
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &  flow 
)
private

Definition at line 380 of file FFTJetProducer.cc.

References fftjetcommon_cfi::flow, iEvent, input, and input_energyflow_token_.

Referenced by produce().

380  {
381  edm::Handle<reco::DiscretizedEnergyFlow> input;
382  iEvent.getByToken(input_energyflow_token_, input);
383 
384  // Make sure that the grid is compatible with the stored one
385  bool rebuildGrid = flow.get() == nullptr;
386  if (!rebuildGrid)
387  rebuildGrid =
388  !(flow->nEta() == input->nEtaBins() && flow->nPhi() == input->nPhiBins() && flow->etaMin() == input->etaMin() &&
389  flow->etaMax() == input->etaMax() && flow->phiBin0Edge() == input->phiBin0Edge());
390  if (rebuildGrid) {
391  // We should not get here very often...
392  flow = std::make_unique<fftjet::Grid2d<Real> >(
393  input->nEtaBins(), input->etaMin(), input->etaMax(), input->nPhiBins(), input->phiBin0Edge(), input->title());
394  }
395  flow->blockSet(input->data(), input->nEtaBins(), input->nPhiBins());
396  return rebuildGrid;
397 }
input
static std::string const input
Definition: EdmProvDump.cc:50
iEvent
int iEvent
Definition: GenABIO.cc:224
fftjetcommon_cfi.flow
flow
Definition: fftjetcommon_cfi.py:191
FFTJetProducer::input_energyflow_token_
edm::EDGetTokenT< reco::DiscretizedEnergyFlow > input_energyflow_token_
Definition: FFTJetProducer.h:407

◆ loadSparseTreeData() [1/2]

template<class Real >
void FFTJetProducer::loadSparseTreeData ( const edm::Event ,
const edm::EDGetTokenT< reco::PattRecoTree< Real, reco::PattRecoPeak< Real > > > &  tok 
)
private

◆ loadSparseTreeData() [2/2]

template<class Real >
void FFTJetProducer::loadSparseTreeData ( const edm::Event iEvent,
const edm::EDGetTokenT< reco::PattRecoTree< Real, reco::PattRecoPeak< Real > > > &  tok 
)

Definition at line 198 of file FFTJetProducer.cc.

References fftjetcms::FFTJetInterface::getEventScale(), iEvent, iniScales, input, fftjetcms::sparsePeakTreeFromStorable(), and sparseTree.

199  {
200  typedef reco::PattRecoTree<Real, reco::PattRecoPeak<Real> > StoredTree;
201 
202  // Get the input
203  edm::Handle<StoredTree> input;
204  iEvent.getByToken(tok, input);
205 
206  if (!input->isSparse())
207  throw cms::Exception("FFTJetBadConfig") << "The stored clustering tree is not sparse" << std::endl;
208 
209  sparsePeakTreeFromStorable(*input, iniScales.get(), getEventScale(), &sparseTree);
210  sparseTree.sortNodes();
211  fftjet::updateSplitMergeTimes(sparseTree, sparseTree.minScale(), sparseTree.maxScale());
212 }
reco::PattRecoTree
Class for storing FFTJet sparse clustering trees.
Definition: PattRecoTree.h:20
input
static std::string const input
Definition: EdmProvDump.cc:50
FFTJetProducer::iniScales
std::unique_ptr< std::vector< double > > iniScales
Definition: FFTJetProducer.h:324
iEvent
int iEvent
Definition: GenABIO.cc:224
fftjetcms::sparsePeakTreeFromStorable
void sparsePeakTreeFromStorable(const reco::PattRecoTree< Real, reco::PattRecoPeak< Real > > &in, const std::vector< double > *scaleSetIfNotAdaptive, double completeEventScale, fftjet::SparseClusteringTree< fftjet::Peak, long > *out)
Definition: clusteringTreeConverters.h:133
FFTJetProducer::sparseTree
SparseTree sparseTree
Definition: FFTJetProducer.h:327

◆ makeProduces()

template<typename T >
void FFTJetProducer::makeProduces ( const std::string &  alias,
const std::string &  tag 
)
private

Definition at line 109 of file FFTJetProducer.cc.

References SiStripOfflineCRack_cfg::alias, and makeGlobalPositionRcd_cfg::tag.

Referenced by FFTJetProducer().

109  {
110  produces<std::vector<reco::FFTAnyJet<T> > >(tag).setBranchAlias(alias);
111 }
SiStripOfflineCRack_cfg.alias
alias
Definition: SiStripOfflineCRack_cfg.py:128
makeGlobalPositionRcd_cfg.tag
tag
Definition: makeGlobalPositionRcd_cfg.py:6

◆ operator=()

FFTJetProducer& FFTJetProducer::operator= ( const FFTJetProducer )
delete

◆ parse_bgMembershipFunction()

std::unique_ptr< AbsBgFunctor > FFTJetProducer::parse_bgMembershipFunction ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 768 of file FFTJetProducer.cc.

References fftjetcms::fftjet_BgFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

768  {
769  return fftjet_BgFunctor_parser(ps.getParameter<edm::ParameterSet>("bgMembershipFunction"));
770 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_BgFunctor_parser
std::unique_ptr< AbsBgFunctor > fftjet_BgFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:338

◆ parse_jetDistanceCalc()

std::unique_ptr< fftjet::Functor2< double, FFTJetProducer::RecoFFTJet, FFTJetProducer::RecoFFTJet > > FFTJetProducer::parse_jetDistanceCalc ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 811 of file FFTJetProducer.cc.

References fftjetcms::fftjet_JetDistance_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

811  {
812  return fftjet_JetDistance_parser(ps.getParameter<edm::ParameterSet>("jetDistanceCalc"));
813 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_JetDistance_parser
std::unique_ptr< fftjet::Functor2< double, fftjet::RecombinedJet< VectorLike >, fftjet::RecombinedJet< VectorLike > > > fftjet_JetDistance_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:689

◆ parse_jetMembershipFunction()

std::unique_ptr< fftjet::ScaleSpaceKernel > FFTJetProducer::parse_jetMembershipFunction ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 763 of file FFTJetProducer.cc.

References fftjetcms::fftjet_MembershipFunction_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

763  {
764  return fftjet_MembershipFunction_parser(ps.getParameter<edm::ParameterSet>("jetMembershipFunction"));
765 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_MembershipFunction_parser
std::unique_ptr< fftjet::ScaleSpaceKernel > fftjet_MembershipFunction_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:227

◆ parse_memberFactorCalcJet()

std::unique_ptr< fftjet::Functor1< double, FFTJetProducer::RecoFFTJet > > FFTJetProducer::parse_memberFactorCalcJet ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 805 of file FFTJetProducer.cc.

References fftjetcms::fftjet_JetFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

806  {
807  return fftjet_JetFunctor_parser(ps.getParameter<edm::ParameterSet>("memberFactorCalcJet"));
808 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_JetFunctor_parser
std::unique_ptr< fftjet::Functor1< double, fftjet::RecombinedJet< VectorLike > > > fftjet_JetFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:589

◆ parse_memberFactorCalcPeak()

std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > FFTJetProducer::parse_memberFactorCalcPeak ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 790 of file FFTJetProducer.cc.

References fftjetcms::fftjet_PeakFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

791  {
792  return fftjet_PeakFunctor_parser(ps.getParameter<edm::ParameterSet>("memberFactorCalcPeak"));
793 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_PeakFunctor_parser
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > fftjet_PeakFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:473

◆ parse_peakSelector()

std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > FFTJetProducer::parse_peakSelector ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 758 of file FFTJetProducer.cc.

References fftjetcms::fftjet_PeakSelector_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

758  {
759  return fftjet_PeakSelector_parser(ps.getParameter<edm::ParameterSet>("PeakSelectorConfiguration"));
760 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_PeakSelector_parser
std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > fftjet_PeakSelector_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:166

◆ parse_pileupDensityCalc()

std::unique_ptr< fftjetcms::AbsPileupCalculator > FFTJetProducer::parse_pileupDensityCalc ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 779 of file FFTJetProducer.cc.

References fftjetcms::fftjet_PileupCalculator_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

779  {
780  return fftjet_PileupCalculator_parser(ps.getParameter<edm::ParameterSet>("pileupDensityCalc"));
781 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_PileupCalculator_parser
std::unique_ptr< AbsPileupCalculator > fftjet_PileupCalculator_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:746

◆ parse_recoScaleCalcJet()

std::unique_ptr< fftjet::Functor1< double, FFTJetProducer::RecoFFTJet > > FFTJetProducer::parse_recoScaleCalcJet ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 795 of file FFTJetProducer.cc.

References fftjetcms::fftjet_JetFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

796  {
797  return fftjet_JetFunctor_parser(ps.getParameter<edm::ParameterSet>("recoScaleCalcJet"));
798 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_JetFunctor_parser
std::unique_ptr< fftjet::Functor1< double, fftjet::RecombinedJet< VectorLike > > > fftjet_JetFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:589

◆ parse_recoScaleCalcPeak()

std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > FFTJetProducer::parse_recoScaleCalcPeak ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 773 of file FFTJetProducer.cc.

References fftjetcms::fftjet_PeakFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

774  {
775  return fftjet_PeakFunctor_parser(ps.getParameter<edm::ParameterSet>("recoScaleCalcPeak"));
776 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_PeakFunctor_parser
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > fftjet_PeakFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:473

◆ parse_recoScaleRatioCalcJet()

std::unique_ptr< fftjet::Functor1< double, FFTJetProducer::RecoFFTJet > > FFTJetProducer::parse_recoScaleRatioCalcJet ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 800 of file FFTJetProducer.cc.

References fftjetcms::fftjet_JetFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

801  {
802  return fftjet_JetFunctor_parser(ps.getParameter<edm::ParameterSet>("recoScaleRatioCalcJet"));
803 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_JetFunctor_parser
std::unique_ptr< fftjet::Functor1< double, fftjet::RecombinedJet< VectorLike > > > fftjet_JetFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:589

◆ parse_recoScaleRatioCalcPeak()

std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > FFTJetProducer::parse_recoScaleRatioCalcPeak ( const edm::ParameterSet ps)
protectedvirtual

Definition at line 784 of file FFTJetProducer.cc.

References fftjetcms::fftjet_PeakFunctor_parser(), and edm::ParameterSet::getParameter().

Referenced by beginStream().

785  {
786  return fftjet_PeakFunctor_parser(ps.getParameter<edm::ParameterSet>("recoScaleRatioCalcPeak"));
787 }
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
fftjetcms::fftjet_PeakFunctor_parser
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > fftjet_PeakFunctor_parser(const edm::ParameterSet &ps)
Definition: FFTJetParameterParser.cc:473

◆ parse_resolution()

FFTJetProducer::Resolution FFTJetProducer::parse_resolution ( const std::string &  name)
static

Definition at line 93 of file FFTJetProducer.cc.

References Exception, and Skims_PA_cff::name.

93  {
94  if (!name.compare("fixed"))
95  return FIXED;
96  else if (!name.compare("maximallyStable"))
97  return MAXIMALLY_STABLE;
98  else if (!name.compare("globallyAdaptive"))
99  return GLOBALLY_ADAPTIVE;
100  else if (!name.compare("locallyAdaptive"))
101  return LOCALLY_ADAPTIVE;
102  else if (!name.compare("fromGenJets"))
103  return FROM_GENJETS;
104  else
105  throw cms::Exception("FFTJetBadConfig") << "Invalid resolution specification \"" << name << "\"" << std::endl;
106 }
Skims_PA_cff.name
name
Definition: Skims_PA_cff.py:17

◆ prepareRecombinationScales()

void FFTJetProducer::prepareRecombinationScales ( )
private

Definition at line 341 of file FFTJetProducer.cc.

References mps_fire::i, memberFactorCalcPeak, preclusters, recoScaleCalcPeak, and recoScaleRatioCalcPeak.

Referenced by produce().

341  {
342  const unsigned nClus = preclusters.size();
343  if (nClus) {
344  fftjet::Peak* clus = &preclusters[0];
345  fftjet::Functor1<double, fftjet::Peak>& scaleCalc(*recoScaleCalcPeak);
346  fftjet::Functor1<double, fftjet::Peak>& ratioCalc(*recoScaleRatioCalcPeak);
347  fftjet::Functor1<double, fftjet::Peak>& factorCalc(*memberFactorCalcPeak);
348 
349  for (unsigned i = 0; i < nClus; ++i) {
350  clus[i].setRecoScale(scaleCalc(clus[i]));
351  clus[i].setRecoScaleRatio(ratioCalc(clus[i]));
352  clus[i].setMembershipFactor(factorCalc(clus[i]));
353  }
354  }
355 }
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::memberFactorCalcPeak
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > memberFactorCalcPeak
Definition: FFTJetProducer.h:345
FFTJetProducer::preclusters
std::vector< fftjet::Peak > preclusters
Definition: FFTJetProducer.h:360
FFTJetProducer::recoScaleRatioCalcPeak
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > recoScaleRatioCalcPeak
Definition: FFTJetProducer.h:342
FFTJetProducer::recoScaleCalcPeak
std::unique_ptr< fftjet::Functor1< double, fftjet::Peak > > recoScaleCalcPeak
Definition: FFTJetProducer.h:339

◆ produce()

void FFTJetProducer::produce ( edm::Event iEvent,
const edm::EventSetup iSetup 
)
overrideprotected

Definition at line 656 of file FFTJetProducer.cc.

References cms::cuda::assert(), assignConstituents, assignMembershipFunctions(), buildGridAlg(), calculatePileup, l1ct::clear(), constituents, determineGriddedConstituents(), determinePileup(), determinePileupDensityFromConfig(), determinePileupDensityFromDB(), determineVectorConstituents(), fftjetcms::FFTJetInterface::discretizeEnergyFlow(), fftjetcms::FFTJetInterface::energyFlow, fftjetcms::FFTJetInterface::eventData, Exception, FROM_GENJETS, genJetPreclusters(), gridAlg, mps_fire::i, iEvent, input_recotree_token_d_, input_recotree_token_f_, iterateJetReconstruction(), iterationsPerformed, loadEnergyFlow(), fftjetcms::FFTJetInterface::loadInputCollection(), loadPileupFromDB, maxInitialPreclusters, maxIterations, nJets, noiseLevel, occupancy, peakSelector, pileup, pileupEnergyFlow, preclusters, prepareRecombinationScales(), recoAlg, recoJets, removeFakePreclusters(), resolution, reuseExistingGrid, saveResults(), selectPreclusters(), jetUpdater_cfi::sort, sparseTree, mps_update::status, fftjetcms::FFTJetInterface::storeInSinglePrecision(), mitigatedMETSequence_cff::U, unclustered, unused, and useGriddedAlgorithm.

656  {
657  // Load the clustering tree made by FFTJetPatRecoProducer
658  if (storeInSinglePrecision())
659  loadSparseTreeData<float>(iEvent, input_recotree_token_f_);
660  else
661  loadSparseTreeData<double>(iEvent, input_recotree_token_d_);
662 
663  // Do we need to load the candidate collection?
664  if (assignConstituents || !(useGriddedAlgorithm && reuseExistingGrid))
665  loadInputCollection(iEvent);
666 
667  // Do we need to have discretized energy flow?
668  if (useGriddedAlgorithm) {
669  if (reuseExistingGrid) {
670  if (loadEnergyFlow(iEvent, energyFlow))
671  buildGridAlg();
672  } else
673  discretizeEnergyFlow();
674  }
675 
676  // Calculate cluster occupancy as a function of level number
677  sparseTree.occupancyInScaleSpace(*peakSelector, &occupancy);
678 
679  // Select the preclusters using the requested resolution scheme
680  preclusters.clear();
681  if (resolution == FROM_GENJETS)
682  genJetPreclusters(sparseTree, iEvent, iSetup, *peakSelector, &preclusters);
683  else
684  selectPreclusters(sparseTree, *peakSelector, &preclusters);
685  if (preclusters.size() > maxInitialPreclusters) {
686  std::sort(preclusters.begin(), preclusters.end(), std::greater<fftjet::Peak>());
687  preclusters.erase(preclusters.begin() + maxInitialPreclusters, preclusters.end());
688  }
689 
690  // Prepare to run the jet recombination procedure
691  prepareRecombinationScales();
692 
693  // Assign membership functions to preclusters. If this function
694  // is not overriden in a derived class, default algorithm membership
695  // function will be used for every cluster.
696  assignMembershipFunctions(&preclusters);
697 
698  // Count the preclusters going in
699  unsigned nPreclustersFound = 0U;
700  const unsigned npre = preclusters.size();
701  for (unsigned i = 0; i < npre; ++i)
702  if (preclusters[i].membershipFactor() > 0.0)
703  ++nPreclustersFound;
704 
705  // Run the recombination algorithm once
706  int status = 0;
707  if (useGriddedAlgorithm)
708  status = gridAlg->run(preclusters, *energyFlow, &noiseLevel, 1U, 1U, &recoJets, &unclustered, &unused);
709  else
710  status = recoAlg->run(preclusters, eventData, &noiseLevel, 1U, &recoJets, &unclustered, &unused);
711  if (status)
712  throw cms::Exception("FFTJetInterface") << "FFTJet algorithm failed (first iteration)" << std::endl;
713 
714  // If requested, iterate the jet recombination procedure
715  if (maxIterations > 1U && !recoJets.empty()) {
716  // It is possible to have a smaller number of jets than we had
717  // preclusters. Fake preclusters are possible, but for a good
718  // choice of pattern recognition kernel their presence should
719  // be infrequent. However, any fake preclusters will throw the
720  // iterative reconstruction off balance. Deal with the problem now.
721  const unsigned nJets = recoJets.size();
722  if (preclusters.size() != nJets) {
723  assert(nJets < preclusters.size());
724  removeFakePreclusters();
725  }
726  iterationsPerformed = iterateJetReconstruction();
727  } else
728  iterationsPerformed = 1U;
729 
730  // Determine jet constituents. FFTJet returns a map
731  // of constituents which is inverse to what we need here.
732  const unsigned nJets = recoJets.size();
733  if (constituents.size() <= nJets)
734  constituents.resize(nJets + 1U);
735  if (assignConstituents) {
736  for (unsigned i = 0; i <= nJets; ++i)
737  constituents[i].clear();
738  if (useGriddedAlgorithm)
739  determineGriddedConstituents();
740  else
741  determineVectorConstituents();
742  }
743 
744  // Figure out the pile-up
745  if (calculatePileup) {
746  if (loadPileupFromDB)
747  determinePileupDensityFromDB(iEvent, iSetup, pileupEnergyFlow);
748  else
749  determinePileupDensityFromConfig(iEvent, pileupEnergyFlow);
750  determinePileup();
751  assert(pileup.size() == recoJets.size());
752  }
753 
754  // Write out the results
755  saveResults(iEvent, iSetup, nPreclustersFound);
756 }
FFTJetProducer::constituents
std::vector< std::vector< reco::CandidatePtr > > constituents
Definition: FFTJetProducer.h:384
jetUpdater_cfi.sort
sort
Definition: jetUpdater_cfi.py:30
FFTJetProducer::iterationsPerformed
unsigned iterationsPerformed
Definition: FFTJetProducer.h:381
FFTJetProducer::useGriddedAlgorithm
const bool useGriddedAlgorithm
Definition: FFTJetProducer.h:246
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::pileup
std::vector< fftjetcms::VectorLike > pileup
Definition: FFTJetProducer.h:388
FFTJetProducer::saveResults
void saveResults(edm::Event &iEvent, const edm::EventSetup &, unsigned nPreclustersFound)
Definition: FFTJetProducer.cc:620
FFTJetProducer::assignMembershipFunctions
virtual void assignMembershipFunctions(std::vector< fftjet::Peak > *preclusters)
Definition: FFTJetProducer.cc:815
fftjetcms::FFTJetInterface::loadInputCollection
void loadInputCollection(const edm::Event &)
Definition: FFTJetInterface.cc:39
FFTJetProducer::resolution
Resolution resolution
Definition: FFTJetProducer.h:314
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
FFTJetProducer::gridAlg
std::unique_ptr< GridAlg > gridAlg
Definition: FFTJetProducer.h:334
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
FFTJetProducer::occupancy
std::vector< unsigned > occupancy
Definition: FFTJetProducer.h:366
cms::cuda::assert
assert(be >=bs)
FFTJetProducer::preclusters
std::vector< fftjet::Peak > preclusters
Definition: FFTJetProducer.h:360
mitigatedMETSequence_cff.U
U
Definition: mitigatedMETSequence_cff.py:36
FFTJetProducer::determineVectorConstituents
void determineVectorConstituents()
Definition: FFTJetProducer.cc:508
FFTJetProducer::reuseExistingGrid
const bool reuseExistingGrid
Definition: FFTJetProducer.h:250
iEvent
int iEvent
Definition: GenABIO.cc:224
FFTJetProducer::input_recotree_token_d_
edm::EDGetTokenT< reco::PattRecoTree< double, reco::PattRecoPeak< double > > > input_recotree_token_d_
Definition: FFTJetProducer.h:404
fftjetcms::FFTJetInterface::energyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
Definition: FFTJetInterface.h:104
FFTJetProducer::input_recotree_token_f_
edm::EDGetTokenT< reco::PattRecoTree< float, reco::PattRecoPeak< float > > > input_recotree_token_f_
Definition: FFTJetProducer.h:405
FFTJetProducer::noiseLevel
const double noiseLevel
Definition: FFTJetProducer.h:289
mps_update.status
status
Definition: mps_update.py:68
FFTJetProducer::determinePileupDensityFromDB
virtual void determinePileupDensityFromDB(const edm::Event &iEvent, const edm::EventSetup &iSetup, std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &density)
Definition: FFTJetProducer.cc:966
FFTJetProducer::iterateJetReconstruction
unsigned iterateJetReconstruction()
Definition: FFTJetProducer.cc:421
FFTJetProducer::calculatePileup
const bool calculatePileup
Definition: FFTJetProducer.h:269
FFTJetProducer::assignConstituents
const bool assignConstituents
Definition: FFTJetProducer.h:260
FFTJetProducer::selectPreclusters
virtual void selectPreclusters(const SparseTree &tree, const fftjet::Functor1< bool, fftjet::Peak > &peakSelector, std::vector< fftjet::Peak > *preclusters)
Definition: FFTJetProducer.cc:239
FFTJetProducer::maxInitialPreclusters
const unsigned maxInitialPreclusters
Definition: FFTJetProducer.h:309
FFTJetProducer::sparseTree
SparseTree sparseTree
Definition: FFTJetProducer.h:327
FFTJetProducer::determineGriddedConstituents
void determineGriddedConstituents()
Definition: FFTJetProducer.cc:488
FFTJetProducer::peakSelector
std::unique_ptr< fftjet::Functor1< bool, fftjet::Peak > > peakSelector
Definition: FFTJetProducer.h:330
FFTJetProducer::pileupEnergyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > pileupEnergyFlow
Definition: FFTJetProducer.h:393
FFTJetProducer::genJetPreclusters
virtual void genJetPreclusters(const SparseTree &tree, edm::Event &, const edm::EventSetup &, const fftjet::Functor1< bool, fftjet::Peak > &peakSelector, std::vector< fftjet::Peak > *preclusters)
Definition: FFTJetProducer.cc:214
l1ct::clear
void clear(EGIsoObj &c)
Definition: egamma.h:82
FFTJetProducer::loadEnergyFlow
bool loadEnergyFlow(const edm::Event &iEvent, std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &flow)
Definition: FFTJetProducer.cc:380
FFTJetProducer::recoAlg
std::unique_ptr< RecoAlg > recoAlg
Definition: FFTJetProducer.h:333
fftjetcms::FFTJetInterface::eventData
std::vector< fftjetcms::VectorLike > eventData
Definition: FFTJetInterface.h:98
FFTJetProducer::unclustered
fftjetcms::VectorLike unclustered
Definition: FFTJetProducer.h:375
FFTJetProducer::determinePileupDensityFromConfig
virtual void determinePileupDensityFromConfig(const edm::Event &iEvent, std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > &density)
Definition: FFTJetProducer.cc:937
FFTJetProducer::removeFakePreclusters
void removeFakePreclusters()
Definition: FFTJetProducer.cc:905
FFTJetProducer::maxIterations
const unsigned maxIterations
Definition: FFTJetProducer.h:253
FFTJetProducer::prepareRecombinationScales
void prepareRecombinationScales()
Definition: FFTJetProducer.cc:341

◆ removeFakePreclusters()

void FFTJetProducer::removeFakePreclusters ( )
private

Definition at line 905 of file FFTJetProducer.cc.

References cms::cuda::assert(), mps_fire::i, iterPreclusters, fftjetcms::matchOneToOne(), preclusters, and recoJets.

Referenced by iterateJetReconstruction(), and produce().

905  {
906  // There are two possible reasons for fake preclusters:
907  // 1. Membership factor was set to 0
908  // 2. Genuine problem with pattern recognition
909  //
910  // Anyway, we need to match jets to preclusters and keep
911  // only those preclusters that have been matched
912  //
913  std::vector<int> matchTable;
914  const unsigned nmatched = matchOneToOne(recoJets, preclusters, JetToPeakDistance(), &matchTable);
915 
916  // Ensure that all jets have been matched.
917  // If not, we must have a bug somewhere.
918  assert(nmatched == recoJets.size());
919 
920  // Collect all matched preclusters
921  iterPreclusters.clear();
922  iterPreclusters.reserve(nmatched);
923  for (unsigned i = 0; i < nmatched; ++i)
924  iterPreclusters.push_back(preclusters[matchTable[i]]);
925  iterPreclusters.swap(preclusters);
926 }
fftjetcms::matchOneToOne
unsigned matchOneToOne(const std::vector< T1 > &v1, const std::vector< T2 > &v2, const DistanceCalculator &calc, std::vector< int > *matchFrom1To2, const double maxMatchingDistance=1.0e300)
Definition: matchOneToOne.h:38
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
cms::cuda::assert
assert(be >=bs)
FFTJetProducer::preclusters
std::vector< fftjet::Peak > preclusters
Definition: FFTJetProducer.h:360
FFTJetProducer::iterPreclusters
std::vector< fftjet::Peak > iterPreclusters
Definition: FFTJetProducer.h:379

◆ saveResults()

void FFTJetProducer::saveResults ( edm::Event iEvent,
const edm::EventSetup iSetup,
unsigned  nPreclustersFound 
)
private

Definition at line 620 of file FFTJetProducer.cc.

References constituents, makeMEIFBenchmarkPlots::ev, mps_fire::i, iterationsPerformed, jet_type_switch, maxIterations, maxLevel, fftjetcommon_cfi::maxScale, minLevel, fftjetcommon_cfi::minScale, occupancy, fftjetcms::FFTJetInterface::outputLabel, resumConstituents, sparseTree, thresholds, mitigatedMETSequence_cff::U, unclustered, unused, usedLevel, and writeJets().

Referenced by produce().

620  {
621  // Write recombined jets
622  jet_type_switch(writeJets, ev, iSetup);
623 
624  // Check if we should resum unclustered energy constituents
625  VectorLike unclusE(unclustered);
626  if (resumConstituents) {
627  VectorLike sum(0.0, 0.0, 0.0, 0.0);
628  const unsigned nCon = constituents[0].size();
629  const reco::CandidatePtr* cn = nCon ? &constituents[0][0] : nullptr;
630  for (unsigned i = 0; i < nCon; ++i)
631  sum += cn[i]->p4();
632  unclusE = sum;
633  }
634 
635  // Write the jet reconstruction summary
636  const double minScale = minLevel ? sparseTree.getScale(minLevel) : 0.0;
637  const double maxScale = maxLevel ? sparseTree.getScale(maxLevel) : 0.0;
638  const double scaleUsed = usedLevel ? sparseTree.getScale(usedLevel) : 0.0;
639 
640  ev.put(
641  std::make_unique<reco::FFTJetProducerSummary>(thresholds,
642  occupancy,
643  unclusE,
644  constituents[0],
645  unused,
646  minScale,
647  maxScale,
648  scaleUsed,
649  nPreclustersFound,
650  iterationsPerformed,
651  iterationsPerformed == 1U || iterationsPerformed <= maxIterations),
652  outputLabel);
653 }
FFTJetProducer::constituents
std::vector< std::vector< reco::CandidatePtr > > constituents
Definition: FFTJetProducer.h:384
FFTJetProducer::iterationsPerformed
unsigned iterationsPerformed
Definition: FFTJetProducer.h:381
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::resumConstituents
const bool resumConstituents
Definition: FFTJetProducer.h:265
fftjetcommon_cfi.minScale
minScale
Definition: fftjetcommon_cfi.py:109
FFTJetProducer::occupancy
std::vector< unsigned > occupancy
Definition: FFTJetProducer.h:366
mitigatedMETSequence_cff.U
U
Definition: mitigatedMETSequence_cff.py:36
fftjetcms::VectorLike
math::XYZTLorentzVector VectorLike
Definition: fftjetTypedefs.h:26
FFTJetProducer::usedLevel
unsigned usedLevel
Definition: FFTJetProducer.h:372
fftjetcommon_cfi.maxScale
maxScale
Definition: fftjetcommon_cfi.py:110
FFTJetProducer::thresholds
std::vector< double > thresholds
Definition: FFTJetProducer.h:369
FFTJetProducer::sparseTree
SparseTree sparseTree
Definition: FFTJetProducer.h:327
FFTJetProducer::writeJets
void writeJets(edm::Event &iEvent, const edm::EventSetup &)
Definition: FFTJetProducer.cc:529
jet_type_switch
#define jet_type_switch(method, arg1, arg2)
Definition: FFTJetProducer.cc:58
fftjetcms::FFTJetInterface::outputLabel
const std::string outputLabel
Definition: FFTJetInterface.h:80
FFTJetProducer::unclustered
fftjetcms::VectorLike unclustered
Definition: FFTJetProducer.h:375
FFTJetProducer::maxIterations
const unsigned maxIterations
Definition: FFTJetProducer.h:253

◆ selectPreclusters()

void FFTJetProducer::selectPreclusters ( const SparseTree tree,
const fftjet::Functor1< bool, fftjet::Peak > &  peakSelector,
std::vector< fftjet::Peak > *  preclusters 
)
protectedvirtual

Definition at line 239 of file FFTJetProducer.cc.

References bsc_activity_cfg::clusters, mps_fire::i, nodes, preclusters, resolution, selectTreeNodes(), and sparseTree.

Referenced by produce().

241  {
242  nodes.clear();
243  selectTreeNodes(tree, peakSelect, &nodes);
244 
245  // Fill out the vector of preclusters using the tree node ids
246  const unsigned nNodes = nodes.size();
247  const SparseTree::NodeId* pnodes = nNodes ? &nodes[0] : nullptr;
248  preclusters->reserve(nNodes);
249  for (unsigned i = 0; i < nNodes; ++i)
250  preclusters->push_back(sparseTree.uncheckedNode(pnodes[i]).getCluster());
251 
252  // Remember the node id in the precluster and set
253  // the status word to indicate the resolution scheme used
254  fftjet::Peak* clusters = nNodes ? &(*preclusters)[0] : nullptr;
255  for (unsigned i = 0; i < nNodes; ++i) {
256  clusters[i].setCode(pnodes[i]);
257  clusters[i].setStatus(resolution);
258  }
259 }
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::selectTreeNodes
void selectTreeNodes(const SparseTree &tree, const fftjet::Functor1< bool, fftjet::Peak > &peakSelect, std::vector< SparseTree::NodeId > *nodes)
Definition: FFTJetProducer.cc:261
FFTJetProducer::resolution
Resolution resolution
Definition: FFTJetProducer.h:314
FFTJetProducer::preclusters
std::vector< fftjet::Peak > preclusters
Definition: FFTJetProducer.h:360
FFTJetProducer::sparseTree
SparseTree sparseTree
Definition: FFTJetProducer.h:327
FFTJetProducer::nodes
std::vector< SparseTree::NodeId > nodes
Definition: FFTJetProducer.h:357
tree
Definition: tree.py:1
bsc_activity_cfg.clusters
clusters
Definition: bsc_activity_cfg.py:36

◆ selectTreeNodes()

void FFTJetProducer::selectTreeNodes ( const SparseTree tree,
const fftjet::Functor1< bool, fftjet::Peak > &  peakSelect,
std::vector< SparseTree::NodeId > *  nodes 
)
protected

Definition at line 261 of file FFTJetProducer.cc.

References cms::cuda::assert(), ztail::d, dumpMFGeometry_cfg::delta, FIXED, fixedScale, GLOBALLY_ADAPTIVE, personalPlayback::level, LOCALLY_ADAPTIVE, MAXIMALLY_STABLE, maxLevel, maxStableScale, minLevel, minStableScale, dqmiodumpmetadata::n, nClustersRequested, occupancy, resolution, stabilityAlpha, TopDecayID::stable, thresholds, and usedLevel.

Referenced by selectPreclusters().

263  {
264  minLevel = maxLevel = usedLevel = 0;
265 
266  // Get the tree nodes which pass the cuts
267  // (according to the selected resolution strategy)
268  switch (resolution) {
269  case FIXED: {
270  usedLevel = tree.getLevel(fixedScale);
271  tree.getPassingNodes(usedLevel, peakSelect, mynodes);
272  } break;
273 
274  case MAXIMALLY_STABLE: {
275  const unsigned minStartingLevel = maxStableScale > 0.0 ? tree.getLevel(maxStableScale) : 0;
276  const unsigned maxStartingLevel = minStableScale > 0.0 ? tree.getLevel(minStableScale) : UINT_MAX;
277 
278  if (tree.stableClusterCount(
279  peakSelect, &minLevel, &maxLevel, stabilityAlpha, minStartingLevel, maxStartingLevel)) {
280  usedLevel = (minLevel + maxLevel) / 2;
281  tree.getPassingNodes(usedLevel, peakSelect, mynodes);
282  }
283  } break;
284 
285  case GLOBALLY_ADAPTIVE: {
286  const bool stable = tree.clusterCountLevels(nClustersRequested, peakSelect, &minLevel, &maxLevel);
287  if (minLevel || maxLevel) {
288  usedLevel = (minLevel + maxLevel) / 2;
289  if (!stable) {
290  const int maxlev = tree.maxStoredLevel();
291  bool levelFound = false;
292  for (int delta = 0; delta <= maxlev && !levelFound; ++delta)
293  for (int ifac = 1; ifac > -2 && !levelFound; ifac -= 2) {
294  const int level = usedLevel + ifac * delta;
295  if (level > 0 && level <= maxlev)
296  if (occupancy[level] == nClustersRequested) {
297  usedLevel = level;
298  levelFound = true;
299  }
300  }
301  assert(levelFound);
302  }
303  } else {
304  // Can't find that exact number of preclusters.
305  // Try to get the next best thing.
306  usedLevel = 1;
307  const unsigned occ1 = occupancy[1];
308  if (nClustersRequested >= occ1) {
309  const unsigned maxlev = tree.maxStoredLevel();
310  if (nClustersRequested > occupancy[maxlev])
311  usedLevel = maxlev;
312  else {
313  // It would be nice to use "lower_bound" here,
314  // but the occupancy is not necessarily monotonous.
315  unsigned bestDelta = nClustersRequested > occ1 ? nClustersRequested - occ1 : occ1 - nClustersRequested;
316  for (unsigned level = 2; level <= maxlev; ++level) {
317  const unsigned n = occupancy[level];
318  const unsigned d = nClustersRequested > n ? nClustersRequested - n : n - nClustersRequested;
319  if (d < bestDelta) {
320  bestDelta = d;
321  usedLevel = level;
322  }
323  }
324  }
325  }
326  }
327  tree.getPassingNodes(usedLevel, peakSelect, mynodes);
328  } break;
329 
330  case LOCALLY_ADAPTIVE: {
331  usedLevel = tree.getLevel(fixedScale);
332  tree.getMagS2OptimalNodes(peakSelect, nClustersRequested, usedLevel, mynodes, &thresholds);
333  } break;
334 
335  default:
336  assert(!"ERROR in FFTJetProducer::selectTreeNodes : "
337  "should never get here! This is a bug. Please report.");
338  }
339 }
TopDecayID::stable
static const int stable
Definition: TopGenEvent.h:10
FFTJetProducer::fixedScale
const double fixedScale
Definition: FFTJetProducer.h:278
FFTJetProducer::resolution
Resolution resolution
Definition: FFTJetProducer.h:314
FFTJetProducer::occupancy
std::vector< unsigned > occupancy
Definition: FFTJetProducer.h:366
cms::cuda::assert
assert(be >=bs)
FFTJetProducer::minStableScale
const double minStableScale
Definition: FFTJetProducer.h:281
FFTJetProducer::maxStableScale
const double maxStableScale
Definition: FFTJetProducer.h:282
dumpMFGeometry_cfg.delta
delta
Definition: dumpMFGeometry_cfg.py:25
FFTJetProducer::nClustersRequested
const unsigned nClustersRequested
Definition: FFTJetProducer.h:292
FFTJetProducer::usedLevel
unsigned usedLevel
Definition: FFTJetProducer.h:372
FFTJetProducer::thresholds
std::vector< double > thresholds
Definition: FFTJetProducer.h:369
ztail.d
d
Definition: ztail.py:151
FFTJetProducer::stabilityAlpha
const double stabilityAlpha
Definition: FFTJetProducer.h:285
tree
Definition: tree.py:1

◆ setJetStatusBit()

void FFTJetProducer::setJetStatusBit ( RecoFFTJet jet,
int  mask,
bool  value 
)
staticprivate

Definition at line 928 of file FFTJetProducer.cc.

References metsig::jet, ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::mask, and mps_update::status.

Referenced by writeJets().

928  {
929  int status = jet->status();
930  if (value)
931  status |= mask;
932  else
933  status &= ~mask;
934  jet->setStatus(status);
935 }
ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::mask
constexpr uint32_t mask
Definition: PixelClustering.h:35
mps_update.status
status
Definition: mps_update.py:68
value
Definition: value.py:1

◆ writeJets()

template<typename T >
void FFTJetProducer::writeJets ( edm::Event iEvent,
const edm::EventSetup iSetup 
)
private

Definition at line 529 of file FFTJetProducer.cc.

References fftjetcms::adjustForPileup(), calculatePileup, cellCountsVec, ALPAKA_ACCELERATOR_NAMESPACE::brokenline::constexpr(), constituents, CONSTITUENTS_RESUMMED, fftjetcms::FFTJetInterface::energyFlow, geometry_token_, edm::EventSetup::getData(), mps_fire::i, iEvent, metsig::jet, PDWG_EXODelayedJetMET_cff::jets, eostools::move(), nJets, HLTTauReferences_cfi::OutputCollection, fftjetcms::FFTJetInterface::outputLabel, pileup, PILEUP_CALCULATED, PILEUP_SUBTRACTED_4VEC, PILEUP_SUBTRACTED_PT, pileupEnergyFlow, DiDispStaMuonMonitor_cfi::pt, recoJets, recombinationDataCutoff, resumConstituents, reco::FFTJet< Real >::setFourVec(), setJetStatusBit(), reco::FFTJet< Real >::setNCells(), reco::FFTJet< Real >::setPileup(), jetUpdater_cfi::sort, subtractPileup, subtractPileupAs4Vec, HLT_2024v10_cff::topology, topology_token_, useGriddedAlgorithm, fftjetcms::FFTJetInterface::vertexUsed(), and reco::writeSpecific().

Referenced by saveResults().

529  {
530  using namespace reco;
531 
532  typedef FFTAnyJet<T> OutputJet;
533  typedef std::vector<OutputJet> OutputCollection;
534 
535  // Area of a single eta-phi cell for jet area calculations.
536  // Set it to 0 in case the module configuration does not allow
537  // us to calculate jet areas reliably.
538  double cellArea = useGriddedAlgorithm && recombinationDataCutoff < 0.0
539  ? energyFlow->etaBinWidth() * energyFlow->phiBinWidth()
540  : 0.0;
541 
542  if (calculatePileup)
543  cellArea = pileupEnergyFlow->etaBinWidth() * pileupEnergyFlow->phiBinWidth();
544 
545  // allocate output jet collection
546  auto jets = std::make_unique<OutputCollection>();
547  const unsigned nJets = recoJets.size();
548  jets->reserve(nJets);
549 
550  bool sorted = true;
551  double previousPt = DBL_MAX;
552  for (unsigned ijet = 0; ijet < nJets; ++ijet) {
553  RecoFFTJet& myjet(recoJets[ijet]);
554 
555  // Check if we should resum jet constituents
556  VectorLike jet4vec(myjet.vec());
557  if (resumConstituents) {
558  VectorLike sum(0.0, 0.0, 0.0, 0.0);
559  const unsigned nCon = constituents[ijet + 1].size();
560  const reco::CandidatePtr* cn = nCon ? &constituents[ijet + 1][0] : nullptr;
561  for (unsigned i = 0; i < nCon; ++i)
562  sum += cn[i]->p4();
563  jet4vec = sum;
564  setJetStatusBit(&myjet, CONSTITUENTS_RESUMMED, true);
565  }
566 
567  // Subtract the pile-up
568  if (calculatePileup && subtractPileup) {
569  jet4vec = adjustForPileup(jet4vec, pileup[ijet], subtractPileupAs4Vec);
570  if (subtractPileupAs4Vec)
571  setJetStatusBit(&myjet, PILEUP_SUBTRACTED_4VEC, true);
572  else
573  setJetStatusBit(&myjet, PILEUP_SUBTRACTED_PT, true);
574  }
575 
576  // Write the specifics to the jet (simultaneously sets 4-vector,
577  // vertex, constituents). These are overridden functions that will
578  // call the appropriate specific code.
579  T jet;
580  if constexpr (std::is_same_v<T, reco::CaloJet>) {
581  const CaloGeometry& geometry = iSetup.getData(geometry_token_);
582  const HcalTopology& topology = iSetup.getData(topology_token_);
583  writeSpecific(jet, jet4vec, vertexUsed(), constituents[ijet + 1], geometry, topology);
584  } else {
585  writeSpecific(jet, jet4vec, vertexUsed(), constituents[ijet + 1]);
586  }
587 
588  // calcuate the jet area
589  double ncells = myjet.ncells();
590  if (calculatePileup) {
591  ncells = cellCountsVec[ijet];
592  setJetStatusBit(&myjet, PILEUP_CALCULATED, true);
593  }
594  jet.setJetArea(cellArea * ncells);
595 
596  // add jet to the list
597  FFTJet<float> fj(jetToStorable<float>(myjet));
598  fj.setFourVec(jet4vec);
599  if (calculatePileup) {
600  fj.setPileup(pileup[ijet]);
601  fj.setNCells(ncells);
602  }
603  jets->push_back(OutputJet(jet, fj));
604 
605  // Check whether the sequence remains sorted by pt
606  const double pt = jet.pt();
607  if (pt > previousPt)
608  sorted = false;
609  previousPt = pt;
610  }
611 
612  // Sort the collection
613  if (!sorted)
614  std::sort(jets->begin(), jets->end(), LocalSortByPt());
615 
616  // put the collection into the event
617  iEvent.put(std::move(jets), outputLabel);
618 }
FFTJetProducer::constituents
std::vector< std::vector< reco::CandidatePtr > > constituents
Definition: FFTJetProducer.h:384
jetUpdater_cfi.sort
sort
Definition: jetUpdater_cfi.py:30
FFTJetProducer::useGriddedAlgorithm
const bool useGriddedAlgorithm
Definition: FFTJetProducer.h:246
mps_fire.i
i
Definition: mps_fire.py:429
FFTJetProducer::pileup
std::vector< fftjetcms::VectorLike > pileup
Definition: FFTJetProducer.h:388
FFTJetProducer::resumConstituents
const bool resumConstituents
Definition: FFTJetProducer.h:265
edm::EventSetup::getData
T const & getData(const ESGetToken< T, R > &iToken) const noexcept(false)
Definition: EventSetup.h:119
FFTJetProducer::subtractPileupAs4Vec
const bool subtractPileupAs4Vec
Definition: FFTJetProducer.h:271
PDWG_EXODelayedJetMET_cff.jets
jets
Definition: PDWG_EXODelayedJetMET_cff.py:14
fftjetcms::FFTJetInterface::vertexUsed
const reco::Particle::Point & vertexUsed() const
Definition: FFTJetInterface.h:74
reco::writeSpecific
void writeSpecific(reco::CaloJet &jet, reco::Particle::LorentzVector const &p4, reco::Particle::Point const &point, std::vector< reco::CandidatePtr > const &constituents, CaloGeometry const &geometry, HcalTopology const &topology)
Definition: JetSpecific.cc:32
FFTJetProducer::subtractPileup
const bool subtractPileup
Definition: FFTJetProducer.h:270
FFTJetProducer::recoJets
std::vector< RecoFFTJet > recoJets
Definition: FFTJetProducer.h:363
FFTJetProducer::geometry_token_
edm::ESGetToken< CaloGeometry, CaloGeometryRecord > geometry_token_
Definition: FFTJetProducer.h:410
FFTJetProducer::recombinationDataCutoff
const double recombinationDataCutoff
Definition: FFTJetProducer.h:301
ALPAKA_ACCELERATOR_NAMESPACE::brokenline::constexpr
if constexpr(n > 3)
Definition: BrokenLine.h:164
nJets
static constexpr int nJets
Definition: Phase2L1CaloJetEmulator.h:16
DiDispStaMuonMonitor_cfi.pt
pt
Definition: DiDispStaMuonMonitor_cfi.py:39
RecoFFTJet
fftjet::RecombinedJet< VectorLike > RecoFFTJet
Definition: FFTJetParameterParser.cc:37
iEvent
int iEvent
Definition: GenABIO.cc:224
fftjetcms::FFTJetInterface::energyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > energyFlow
Definition: FFTJetInterface.h:104
fftjetcms::VectorLike
math::XYZTLorentzVector VectorLike
Definition: fftjetTypedefs.h:26
reco::FFTAnyJet
Implements inheritance relationships for FFTJet jets.
Definition: FFTAnyJet.h:16
FFTJetProducer::setJetStatusBit
static void setJetStatusBit(RecoFFTJet *jet, int mask, bool value)
Definition: FFTJetProducer.cc:928
FFTJetProducer::cellCountsVec
std::vector< unsigned > cellCountsVec
Definition: FFTJetProducer.h:401
HLT_2024v10_cff.topology
topology
Definition: HLT_2024v10_cff.py:10578
FFTJetProducer::calculatePileup
const bool calculatePileup
Definition: FFTJetProducer.h:269
FFTJetProducer::topology_token_
edm::ESGetToken< HcalTopology, HcalRecNumberingRecord > topology_token_
Definition: FFTJetProducer.h:411
reco
fixed size matrix
Definition: AlignmentAlgorithmBase.h:46
FFTJetProducer::pileupEnergyFlow
std::unique_ptr< fftjet::Grid2d< fftjetcms::Real > > pileupEnergyFlow
Definition: FFTJetProducer.h:393
T
long double T
Definition: Basic3DVectorLD.h:48
HLTTauReferences_cfi.OutputCollection
OutputCollection
Definition: HLTTauReferences_cfi.py:92
fftjetcms::FFTJetInterface::outputLabel
const std::string outputLabel
Definition: FFTJetInterface.h:80
fftjetcms::adjustForPileup
math::XYZTLorentzVector adjustForPileup(const math::XYZTLorentzVector &jet, const math::XYZTLorentzVector &pileup, bool subtractPileupAs4Vec)
Definition: adjustForPileup.cc:4
eostools.move
def move(src, dest)
Definition: eostools.py:511

Member Data Documentation

◆ assignConstituents

const bool FFTJetProducer::assignConstituents
private

Definition at line 260 of file FFTJetProducer.h.

Referenced by beginStream(), buildGridAlg(), FFTJetProducer(), and produce().

◆ bgMembershipFunction

std::unique_ptr<fftjetcms::AbsBgFunctor> FFTJetProducer::bgMembershipFunction
private

Definition at line 336 of file FFTJetProducer.h.

Referenced by beginStream(), and buildGridAlg().

◆ calculatePileup

const bool FFTJetProducer::calculatePileup
private

Definition at line 269 of file FFTJetProducer.h.

Referenced by beginStream(), produce(), and writeJets().

◆ cellCountsVec

std::vector<unsigned> FFTJetProducer::cellCountsVec
private

Definition at line 401 of file FFTJetProducer.h.

Referenced by determinePileup(), and writeJets().

◆ constituents

std::vector<std::vector<reco::CandidatePtr> > FFTJetProducer::constituents
private

Definition at line 384 of file FFTJetProducer.h.

Referenced by determineGriddedConstituents(), determineVectorConstituents(), produce(), saveResults(), and writeJets().

◆ convergenceDistance

const double FFTJetProducer::convergenceDistance
private

Definition at line 257 of file FFTJetProducer.h.

Referenced by checkConvergence().

◆ doubleBuf

std::vector<double> FFTJetProducer::doubleBuf
private

Definition at line 400 of file FFTJetProducer.h.

Referenced by determinePileup().

◆ esLoader_

FFTJetLookupTableSequenceLoader FFTJetProducer::esLoader_
private

Definition at line 413 of file FFTJetProducer.h.

Referenced by determinePileupDensityFromDB(), and FFTJetProducer().

◆ fixedScale

const double FFTJetProducer::fixedScale
private

Definition at line 278 of file FFTJetProducer.h.

Referenced by selectTreeNodes().

◆ genJetsLabel

const edm::InputTag FFTJetProducer::genJetsLabel
private

Definition at line 304 of file FFTJetProducer.h.

Referenced by FFTJetProducer().

◆ geometry_token_

edm::ESGetToken<CaloGeometry, CaloGeometryRecord> FFTJetProducer::geometry_token_
private

Definition at line 410 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and writeJets().

◆ gridAlg

std::unique_ptr<GridAlg> FFTJetProducer::gridAlg
private

Definition at line 334 of file FFTJetProducer.h.

Referenced by buildGridAlg(), determineGriddedConstituents(), iterateJetReconstruction(), and produce().

◆ gridScanMaxEta

const double FFTJetProducer::gridScanMaxEta
private

Definition at line 295 of file FFTJetProducer.h.

Referenced by buildGridAlg().

◆ iniScales

std::unique_ptr<std::vector<double> > FFTJetProducer::iniScales
private

Definition at line 324 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and loadSparseTreeData().

◆ input_energyflow_token_

edm::EDGetTokenT<reco::DiscretizedEnergyFlow> FFTJetProducer::input_energyflow_token_
private

Definition at line 407 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and loadEnergyFlow().

◆ input_genjet_token_

edm::EDGetTokenT<std::vector<reco::FFTAnyJet<reco::GenJet> > > FFTJetProducer::input_genjet_token_
private

Definition at line 406 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and genJetPreclusters().

◆ input_pusummary_token_

edm::EDGetTokenT<reco::FFTJetPileupSummary> FFTJetProducer::input_pusummary_token_
private

Definition at line 408 of file FFTJetProducer.h.

Referenced by determinePileupDensityFromConfig(), determinePileupDensityFromDB(), and FFTJetProducer().

◆ input_recotree_token_d_

edm::EDGetTokenT<reco::PattRecoTree<double, reco::PattRecoPeak<double> > > FFTJetProducer::input_recotree_token_d_
private

Definition at line 404 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and produce().

◆ input_recotree_token_f_

edm::EDGetTokenT<reco::PattRecoTree<float, reco::PattRecoPeak<float> > > FFTJetProducer::input_recotree_token_f_
private

Definition at line 405 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and produce().

◆ isCrisp

const bool FFTJetProducer::isCrisp
private

Definition at line 299 of file FFTJetProducer.h.

Referenced by beginStream(), buildGridAlg(), and determinePileup().

◆ iterationsPerformed

unsigned FFTJetProducer::iterationsPerformed
private

Definition at line 381 of file FFTJetProducer.h.

Referenced by produce(), and saveResults().

◆ iterJets

std::vector<RecoFFTJet> FFTJetProducer::iterJets
private

Definition at line 380 of file FFTJetProducer.h.

Referenced by iterateJetReconstruction().

◆ iterPreclusters

std::vector<fftjet::Peak> FFTJetProducer::iterPreclusters
private

Definition at line 379 of file FFTJetProducer.h.

Referenced by iterateJetReconstruction(), and removeFakePreclusters().

◆ jetDistanceCalc

std::unique_ptr<fftjet::Functor2<double, RecoFFTJet, RecoFFTJet> > FFTJetProducer::jetDistanceCalc
private

Definition at line 354 of file FFTJetProducer.h.

Referenced by beginStream(), and checkConvergence().

◆ jetMembershipFunction

std::unique_ptr<fftjet::ScaleSpaceKernel> FFTJetProducer::jetMembershipFunction
private

Definition at line 335 of file FFTJetProducer.h.

Referenced by beginStream(), buildGridAlg(), and determinePileup().

◆ loadPileupFromDB

bool FFTJetProducer::loadPileupFromDB
private

Definition at line 321 of file FFTJetProducer.h.

Referenced by beginStream(), and produce().

◆ maxInitialPreclusters

const unsigned FFTJetProducer::maxInitialPreclusters
private

Definition at line 309 of file FFTJetProducer.h.

Referenced by produce().

◆ maxIterations

const unsigned FFTJetProducer::maxIterations
private

Definition at line 253 of file FFTJetProducer.h.

Referenced by beginStream(), iterateJetReconstruction(), produce(), and saveResults().

◆ maxLevel

unsigned FFTJetProducer::maxLevel
private

Definition at line 372 of file FFTJetProducer.h.

Referenced by saveResults(), and selectTreeNodes().

◆ maxStableScale

const double FFTJetProducer::maxStableScale
private

Definition at line 282 of file FFTJetProducer.h.

Referenced by selectTreeNodes().

◆ memberFactorCalcJet

std::unique_ptr<fftjet::Functor1<double, RecoFFTJet> > FFTJetProducer::memberFactorCalcJet
private

Definition at line 350 of file FFTJetProducer.h.

Referenced by beginStream(), determinePileup(), and iterateJetReconstruction().

◆ memberFactorCalcPeak

std::unique_ptr<fftjet::Functor1<double, fftjet::Peak> > FFTJetProducer::memberFactorCalcPeak
private

Definition at line 345 of file FFTJetProducer.h.

Referenced by beginStream(), and prepareRecombinationScales().

◆ memFcns2dVec

std::vector<fftjet::AbsKernel2d*> FFTJetProducer::memFcns2dVec
private

Definition at line 399 of file FFTJetProducer.h.

Referenced by determinePileup().

◆ minLevel

unsigned FFTJetProducer::minLevel
private

Definition at line 372 of file FFTJetProducer.h.

Referenced by saveResults(), and selectTreeNodes().

◆ minStableScale

const double FFTJetProducer::minStableScale
private

Definition at line 281 of file FFTJetProducer.h.

Referenced by selectTreeNodes().

◆ myConfiguration

const edm::ParameterSet FFTJetProducer::myConfiguration
private

Definition at line 239 of file FFTJetProducer.h.

Referenced by beginStream().

◆ nClustersRequested

const unsigned FFTJetProducer::nClustersRequested
private

Definition at line 292 of file FFTJetProducer.h.

Referenced by selectTreeNodes().

◆ nJetsRequiredToConverge

const unsigned FFTJetProducer::nJetsRequiredToConverge
private

Definition at line 256 of file FFTJetProducer.h.

◆ nodes

std::vector<SparseTree::NodeId> FFTJetProducer::nodes
private

Definition at line 357 of file FFTJetProducer.h.

Referenced by selectPreclusters().

◆ noiseLevel

const double FFTJetProducer::noiseLevel
private

Definition at line 289 of file FFTJetProducer.h.

Referenced by iterateJetReconstruction(), and produce().

◆ occupancy

std::vector<unsigned> FFTJetProducer::occupancy
private

Definition at line 366 of file FFTJetProducer.h.

Referenced by produce(), saveResults(), and selectTreeNodes().

◆ peakSelector

std::unique_ptr<fftjet::Functor1<bool, fftjet::Peak> > FFTJetProducer::peakSelector
private

Definition at line 330 of file FFTJetProducer.h.

Referenced by beginStream(), and produce().

◆ pileup

std::vector<fftjetcms::VectorLike> FFTJetProducer::pileup
private

Definition at line 388 of file FFTJetProducer.h.

Referenced by determinePileup(), produce(), and writeJets().

◆ pileupDensityCalc

std::unique_ptr<fftjetcms::AbsPileupCalculator> FFTJetProducer::pileupDensityCalc
private

Definition at line 396 of file FFTJetProducer.h.

Referenced by beginStream(), and determinePileupDensityFromConfig().

◆ pileupEnergyFlow

std::unique_ptr<fftjet::Grid2d<fftjetcms::Real> > FFTJetProducer::pileupEnergyFlow
private

Definition at line 393 of file FFTJetProducer.h.

Referenced by beginStream(), determinePileup(), produce(), and writeJets().

◆ pileupLabel

const edm::InputTag FFTJetProducer::pileupLabel
private

Definition at line 275 of file FFTJetProducer.h.

Referenced by FFTJetProducer().

◆ pileupTableCategory

std::string FFTJetProducer::pileupTableCategory
private

Definition at line 320 of file FFTJetProducer.h.

Referenced by determinePileupDensityFromDB().

◆ pileupTableName

std::string FFTJetProducer::pileupTableName
private

Definition at line 319 of file FFTJetProducer.h.

Referenced by determinePileupDensityFromDB().

◆ pileupTableRecord

std::string FFTJetProducer::pileupTableRecord
private

Definition at line 318 of file FFTJetProducer.h.

Referenced by determinePileupDensityFromDB(), and FFTJetProducer().

◆ preclusters

std::vector<fftjet::Peak> FFTJetProducer::preclusters
private

Definition at line 360 of file FFTJetProducer.h.

Referenced by genJetPreclusters(), iterateJetReconstruction(), prepareRecombinationScales(), produce(), removeFakePreclusters(), and selectPreclusters().

◆ recoAlg

std::unique_ptr<RecoAlg> FFTJetProducer::recoAlg
private

Definition at line 333 of file FFTJetProducer.h.

Referenced by beginStream(), determineVectorConstituents(), iterateJetReconstruction(), and produce().

◆ recoJets

std::vector<RecoFFTJet> FFTJetProducer::recoJets
private

Definition at line 363 of file FFTJetProducer.h.

Referenced by determineGriddedConstituents(), determinePileup(), determineVectorConstituents(), iterateJetReconstruction(), produce(), removeFakePreclusters(), and writeJets().

◆ recombinationAlgorithm

const std::string FFTJetProducer::recombinationAlgorithm
private

Definition at line 298 of file FFTJetProducer.h.

Referenced by beginStream(), and buildGridAlg().

◆ recombinationDataCutoff

const double FFTJetProducer::recombinationDataCutoff
private

Definition at line 301 of file FFTJetProducer.h.

Referenced by buildGridAlg(), and writeJets().

◆ recoScaleCalcJet

std::unique_ptr<fftjet::Functor1<double, RecoFFTJet> > FFTJetProducer::recoScaleCalcJet
private

Definition at line 348 of file FFTJetProducer.h.

Referenced by beginStream(), determinePileup(), and iterateJetReconstruction().

◆ recoScaleCalcPeak

std::unique_ptr<fftjet::Functor1<double, fftjet::Peak> > FFTJetProducer::recoScaleCalcPeak
private

Definition at line 339 of file FFTJetProducer.h.

Referenced by beginStream(), and prepareRecombinationScales().

◆ recoScaleRatioCalcJet

std::unique_ptr<fftjet::Functor1<double, RecoFFTJet> > FFTJetProducer::recoScaleRatioCalcJet
private

Definition at line 349 of file FFTJetProducer.h.

Referenced by beginStream(), determinePileup(), and iterateJetReconstruction().

◆ recoScaleRatioCalcPeak

std::unique_ptr<fftjet::Functor1<double, fftjet::Peak> > FFTJetProducer::recoScaleRatioCalcPeak
private

Definition at line 342 of file FFTJetProducer.h.

Referenced by beginStream(), and prepareRecombinationScales().

◆ resolution

Resolution FFTJetProducer::resolution
private

Definition at line 314 of file FFTJetProducer.h.

Referenced by genJetPreclusters(), produce(), selectPreclusters(), and selectTreeNodes().

◆ resumConstituents

const bool FFTJetProducer::resumConstituents
private

Definition at line 265 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), saveResults(), and writeJets().

◆ reuseExistingGrid

const bool FFTJetProducer::reuseExistingGrid
private

Definition at line 250 of file FFTJetProducer.h.

Referenced by beginStream(), and produce().

◆ sparseTree

SparseTree FFTJetProducer::sparseTree
private

Definition at line 327 of file FFTJetProducer.h.

Referenced by loadSparseTreeData(), produce(), saveResults(), and selectPreclusters().

◆ stabilityAlpha

const double FFTJetProducer::stabilityAlpha
private

Definition at line 285 of file FFTJetProducer.h.

Referenced by selectTreeNodes().

◆ subtractPileup

const bool FFTJetProducer::subtractPileup
private

Definition at line 270 of file FFTJetProducer.h.

Referenced by writeJets().

◆ subtractPileupAs4Vec

const bool FFTJetProducer::subtractPileupAs4Vec
private

Definition at line 271 of file FFTJetProducer.h.

Referenced by writeJets().

◆ thresholds

std::vector<double> FFTJetProducer::thresholds
private

Definition at line 369 of file FFTJetProducer.h.

Referenced by saveResults(), and selectTreeNodes().

◆ topology_token_

edm::ESGetToken<HcalTopology, HcalRecNumberingRecord> FFTJetProducer::topology_token_
private

Definition at line 411 of file FFTJetProducer.h.

Referenced by FFTJetProducer(), and writeJets().

◆ treeLabel

const edm::InputTag FFTJetProducer::treeLabel
private

Definition at line 242 of file FFTJetProducer.h.

Referenced by FFTJetProducer().

◆ unclustered

fftjetcms::VectorLike FFTJetProducer::unclustered
private

Definition at line 375 of file FFTJetProducer.h.

Referenced by iterateJetReconstruction(), produce(), and saveResults().

◆ unlikelyBgWeight

const double FFTJetProducer::unlikelyBgWeight
private

Definition at line 300 of file FFTJetProducer.h.

Referenced by beginStream(), and buildGridAlg().

◆ unused

double FFTJetProducer::unused
private

Definition at line 376 of file FFTJetProducer.h.

Referenced by iterateJetReconstruction(), produce(), and saveResults().

◆ usedLevel

unsigned FFTJetProducer::usedLevel
private

Definition at line 372 of file FFTJetProducer.h.

Referenced by saveResults(), and selectTreeNodes().

◆ useGriddedAlgorithm

const bool FFTJetProducer::useGriddedAlgorithm
private

Definition at line 246 of file FFTJetProducer.h.

Referenced by beginStream(), iterateJetReconstruction(), produce(), and writeJets().

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