47 inline double ptFast(
const double energy,
50 const auto v = position - origin;
61 else if(step==
"tmp")
flags_ = 0;
63 throw cms::Exception(
"InvalidConfig") <<
" reconstructStep "<<step<<
" is invalid, the options are: tmp, final,oot or ootfinal"<<std::endl;
106 if (not pfEg.label().empty())
108 consumes<reco::PFCandidateCollection>(pfEg);
119 if (not hcTow.label().empty())
121 consumes<CaloTowerCollection>(hcTow);
143 const std::vector<std::string> flagnamesEB =
144 config.
getParameter<std::vector<std::string> >(
"RecHitFlagToBeExcludedEB");
146 const std::vector<std::string> flagnamesEE =
147 config.
getParameter<std::vector<std::string> >(
"RecHitFlagToBeExcludedEE");
150 StringToEnumValue<EcalRecHit::Flags>(flagnamesEB);
153 StringToEnumValue<EcalRecHit::Flags>(flagnamesEE);
155 const std::vector<std::string> severitynamesEB =
156 config.
getParameter<std::vector<std::string> >(
"RecHitSeverityToBeExcludedEB");
159 StringToEnumValue<EcalSeverityLevel::SeverityLevel>(severitynamesEB);
161 const std::vector<std::string> severitynamesEE =
162 config.
getParameter<std::vector<std::string> >(
"RecHitSeverityToBeExcludedEE");
165 StringToEnumValue<EcalSeverityLevel::SeverityLevel>(severitynamesEE);
170 auto sumes = consumesCollector();
171 thePhotonEnergyCorrector_->gedRegression()->setConsumes(sumes);
262 auto outputPhotonCollection_p = std::make_unique<reco::PhotonCollection>();
267 bool validPhotonCoreHandle=
false;
269 bool validPhotonHandle=
false;
293 validPhotonHandle=
true;
300 if (photonCoreHandle.
isValid()) {
301 validPhotonCoreHandle=
true;
309 bool validEcalRecHits=
true;
313 if (!barrelHitHandle.
isValid()) {
315 <<
"Error! Can't get the barrelEcalHits";
322 if (!endcapHitHandle.
isValid()) {
324 <<
"Error! Can't get the endcapEcalHits";
328 bool validPreshowerRecHits=
true;
332 if (!preshowerHitHandle.
isValid()) {
334 <<
"Error! Can't get the preshowerEcalHits";
336 if( validPreshowerRecHits ) preshowerRecHits = *(preshowerHitHandle.
product());
344 if (!pfEGCandidateHandle.
isValid()) {
346 <<
"Error! Can't get the pfEgammaCandidates";
358 <<
"Error! Can't get the pfCandidates";
389 bool validVertex=
true;
394 <<
"Error! Can't get the product primary Vertex Collection";
412 if ( validPhotonCoreHandle)
423 outputPhotonCollection,
435 outputPhotonCollection,
437 phoChargedIsolationMapCITK,
438 phoNeutralHadronIsolationMapCITK,
439 phoPhotonIsolationMapCITK,
440 phoPFECALClusIsolationMap,
441 phoPFHCALClusIsolationMap);
446 edm::LogInfo(
"GEDPhotonProducer") <<
" Put in the event " << iSC <<
" Photon Candidates \n";
447 outputPhotonCollection_p->assign(outputPhotonCollection.begin(),outputPhotonCollection.end());
453 auto pfEGCandToPhotonMap_p = std::make_unique<edm::ValueMap<reco::PhotonRef>>();
455 unsigned nObj = pfEGCandidateHandle->size();
456 std::vector<reco::PhotonRef>
values(nObj);
458 for(
unsigned int lCand=0; lCand < nObj; lCand++) {
462 for(
unsigned int lSC=0; lSC < photonOrphHandle->size(); lSC++) {
465 if ( pfScRef != scRef )
continue;
466 values[lCand] = photonRef;
471 filler.insert(pfEGCandidateHandle,values.begin(),values.end());
499 std::vector<double> preselCutValues;
500 std::vector<int> flags_, severitiesexcl_;
502 for(
unsigned int lSC=0; lSC < photonCoreHandle->size(); lSC++) {
513 int thedet = scRef->seed()->hitsAndFractions()[0].first.det();
514 int subdet = scRef->seed()->hitsAndFractions()[0].first.subdetId();
517 hits = ecalBarrelHits;
522 hits = ecalEndcapHits;
531 edm::LogWarning(
"")<<
"GEDPhotonProducer: do not know if it is a barrel or endcap SuperCluster" << thedet <<
' ' << subdet;
539 ptFast(parentSCRef->energy(),parentSCRef->position(),
math::XYZPoint(0,0,0)) <= preselCutValues[0] )
continue;
545 std::vector<CaloTowerDetId> TowersBehindClus;
546 float hcalDepth1OverEcalBc,hcalDepth2OverEcalBc;
547 hcalDepth1OverEcalBc=hcalDepth2OverEcalBc=0.f;
558 TowersBehindClus = towerIsoBehindClus.
towersOf(*scRef);
559 hcalDepth1OverEcalBc = towerIsoBehindClus.
getDepth1HcalESum(TowersBehindClus)/scRef->energy();
560 hcalDepth2OverEcalBc = towerIsoBehindClus.
getDepth2HcalESum(TowersBehindClus)/scRef->energy();
570 float e2x5 = ( hits !=
nullptr ? EcalClusterTools::e2x5Max( *(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
571 float e3x3 = ( hits !=
nullptr ? EcalClusterTools::e3x3( *(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
573 std::vector<float> cov = ( hits !=
nullptr ? EcalClusterTools::covariances( *(scRef->seed()), &(*hits), &(*topology),
geometry) : std::vector<float>( {0.f,0.f,0.f} ) );
574 std::vector<float> locCov = ( hits !=
nullptr ? EcalClusterTools::localCovariances( *(scRef->seed()), &(*hits), &(*topology)) : std::vector<float>( {0.f,0.f,0.f} ) );
577 float sigmaIetaIeta =
sqrt(locCov[0]);
589 float full5x5_sigmaEtaEta =
sqrt(full5x5_cov[0]);
590 float full5x5_sigmaIetaIeta =
sqrt(full5x5_locCov[0]);
597 double photonEnergy=1.;
599 if (!vertexCollection.empty()) vtx = vertexCollection.begin()->position();
618 newCandidate.setFiducialVolumeFlags( fiducialFlags );
619 newCandidate.setIsolationVariables(isolVarR04, isolVarR03 );
626 showerShape.
e3x3= e3x3;
638 const float sep = locCov[1];
641 showerShape.
e2nd = ( hits !=
nullptr ? EcalClusterTools::e2nd(*(scRef->seed()),&(*hits)) : 0.
f );
642 showerShape.
eTop = ( hits !=
nullptr ? EcalClusterTools::eTop(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
643 showerShape.
eLeft = ( hits !=
nullptr ? EcalClusterTools::eLeft(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
644 showerShape.
eRight = ( hits !=
nullptr ? EcalClusterTools::eRight(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
645 showerShape.
eBottom = ( hits !=
nullptr ? EcalClusterTools::eBottom(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
646 showerShape.
e1x3 = ( hits !=
nullptr ? EcalClusterTools::e1x3(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
647 showerShape.
e2x2 = ( hits !=
nullptr ? EcalClusterTools::e2x2(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
648 showerShape.
e2x5Max = ( hits !=
nullptr ? EcalClusterTools::e2x5Max(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
649 showerShape.
e2x5Left = ( hits !=
nullptr ? EcalClusterTools::e2x5Left(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
650 showerShape.
e2x5Right = ( hits !=
nullptr ? EcalClusterTools::e2x5Right(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
651 showerShape.
e2x5Top = ( hits !=
nullptr ? EcalClusterTools::e2x5Top(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
652 showerShape.
e2x5Bottom = ( hits !=
nullptr ? EcalClusterTools::e2x5Bottom(*(scRef->seed()), &(*hits), &(*topology)) : 0.
f );
655 const float sigmaRR = toolsforES.eseffsirir( *scRef );
657 newCandidate.setShowerShapeVariables ( showerShape );
662 int nSaturatedXtals = 0;
663 bool isSeedSaturated =
false;
664 if (hits !=
nullptr) {
665 const auto hitsAndFractions = scRef->hitsAndFractions();
666 for (
auto&& hitFractionPair : hitsAndFractions) {
669 if (
ecalRecHit->checkFlag(EcalRecHit::Flags::kSaturated)) {
672 isSeedSaturated =
true;
678 newCandidate.setSaturationInfo(saturationInfo);
682 full5x5_showerShape.
e1x5= full5x5_e1x5;
683 full5x5_showerShape.
e2x5= full5x5_e2x5;
684 full5x5_showerShape.
e3x3= full5x5_e3x3;
685 full5x5_showerShape.
e5x5= full5x5_e5x5;
687 full5x5_showerShape.
sigmaEtaEta = full5x5_sigmaEtaEta;
690 const float full5x5_spp = (!
edm::isFinite(full5x5_locCov[2]) ? 0. :
sqrt(full5x5_locCov[2]));
691 const float full5x5_sep = full5x5_locCov[1];
708 newCandidate.full5x5_setShowerShapeVariables ( full5x5_showerShape );
737 newCandidate.setP4(
p4);
741 fiducialFlags.
isEE =
true;
742 newCandidate.setFiducialVolumeFlags(fiducialFlags);
758 newCandidate.setMIPVariables(mipVar);
765 if ( newCandidate.pt() <
highEt_) {
766 if ( newCandidate.hadronicOverEm() >= preselCutValues[1] ) isLooseEM=
false;
767 if ( newCandidate.ecalRecHitSumEtConeDR04() > preselCutValues[2]+ preselCutValues[3]*newCandidate.pt() ) isLooseEM=
false;
768 if ( newCandidate.hcalTowerSumEtConeDR04() > preselCutValues[4]+ preselCutValues[5]*newCandidate.pt() ) isLooseEM=
false;
769 if ( newCandidate.nTrkSolidConeDR04() >
int(preselCutValues[6]) ) isLooseEM=
false;
770 if ( newCandidate.nTrkHollowConeDR04() >
int(preselCutValues[7]) ) isLooseEM=
false;
771 if ( newCandidate.trkSumPtSolidConeDR04() > preselCutValues[8] ) isLooseEM=
false;
772 if ( newCandidate.trkSumPtHollowConeDR04() > preselCutValues[9] ) isLooseEM=
false;
773 if ( newCandidate.sigmaIetaIeta() > preselCutValues[10] ) isLooseEM=
false;
779 outputPhotonCollection.push_back(newCandidate);
804 std::vector<double> preselCutValues;
807 for(
unsigned int lSC=0; lSC < photonHandle->size(); lSC++) {
811 int thedet = scRef->seed()->hitsAndFractions()[0].first.det();
812 int subdet = scRef->seed()->hitsAndFractions()[0].first.subdetId();
820 edm::LogWarning(
"")<<
"GEDPhotonProducer: do not know if it is a barrel or endcap SuperCluster" << thedet <<
' ' << subdet;
827 ptFast(parentSCRef->energy(),parentSCRef->position(),
math::XYZPoint(0,0,0)) <= preselCutValues[0] )
continue;
880 outputPhotonCollection.push_back(newCandidate);
edm::EDGetTokenT< edm::ValueMap< float > > phoNeutralHadronIsolationTokenCITK_
edm::InputTag photonProducer_
void setPflowIsolationVariables(const PflowIsolationVariables &pfisol)
Set Particle Flow Isolation variables.
T getParameter(std::string const &) const
PhotonEnergyCorrector * thePhotonEnergyCorrector_
PhotonMIPHaloTagger * thePhotonMIPHaloTagger_
OrphanHandle< PROD > put(std::unique_ptr< PROD > product)
Put a new product.
void calculate(const reco::Photon *, const edm::Event &, const edm::EventSetup &es, reco::Photon::FiducialFlags &phofid, reco::Photon::IsolationVariables &phoisolR03, reco::Photon::IsolationVariables &phoisolR04) const
bool isNonnull() const
Checks for non-null.
edm::EDGetTokenT< reco::PFCandidateCollection > pfCandidates_
edm::ESHandle< CaloGeometry > theCaloGeom_
bool existsAs(std::string const ¶meterName, bool trackiness=true) const
checks if a parameter exists as a given type
std::vector< CaloTowerDetId > hcalTowersBehindClusters
ROOT::Math::LorentzVector< ROOT::Math::PxPyPzE4D< double > > XYZTLorentzVectorD
Lorentz vector with cylindrical internal representation using pseudorapidity.
void setCandidateP4type(const P4type type)
void beginRun(edm::Run const &r, edm::EventSetup const &es) final
edm::EDGetTokenT< CaloTowerCollection > hcalTowers_
isolationSumsCalculatorSet
CaloTopology const * topology(0)
bool getByToken(EDGetToken token, Handle< PROD > &result) const
void produce(edm::Event &evt, const edm::EventSetup &es) override
float hcalDepth2OverEcalBc
~GEDPhotonProducer() override
bool exists(std::string const ¶meterName) const
checks if a parameter exists
std::vector< int > flagsexclEB_
std::vector< Vertex > VertexCollection
collection of Vertex objects
edm::EDGetTokenT< EcalRecHitCollection > endcapEcalHits_
PhotonIsolationCalculator * thePhotonIsolationCalculator_
std::vector< int > severitiesexclEE_
std::unique_ptr< ModifyObjectValueBase > & gedRegression()
double ptFast(const double energy, const math::XYZPoint &position, const math::XYZPoint &origin)
std::string photonCollection_
RecoStepInfo(const std::string &recoStep)
edm::EDGetTokenT< edm::ValueMap< float > > phoPhotonIsolationTokenCITK_
edm::ESHandle< CaloTopology > theCaloTopo_
void setTowerCollection(const CaloTowerCollection *towercollection)
edm::EDGetTokenT< EcalRecHitCollection > barrelEcalHits_
PositionCalc posCalculator_
double getDepth1HcalESum(const reco::SuperCluster &sc) const
void setup(const edm::ParameterSet &conf, std::vector< int > const &flagsEB_, std::vector< int > const &flagsEE_, std::vector< int > const &severitiesEB_, std::vector< int > const &severitiesEE_, edm::ConsumesCollector &&iC)
void setPflowIDVariables(const PflowIDVariables &pfid)
std::vector< int > flagsexclEE_
edm::EDGetTokenT< reco::PhotonCoreCollection > photonCoreProducerT_
edm::EDGetTokenT< edm::ValueMap< float > > phoPFHCALClusIsolationToken_
void init(const edm::EventSetup &theEventSetup)
void setup(const edm::ParameterSet &conf, edm::ConsumesCollector &&iC)
double getTowerESum(const reco::Candidate *cand, const std::vector< CaloTowerDetId > *detIdToExclude=0) const
edm::EDGetTokenT< reco::PFCandidateCollection > pfEgammaCandidates_
std::vector< int > severitiesexclEB_
const_iterator end() const
void calculate(edm::Event &evt, reco::Photon &, int subdet, const reco::VertexCollection &vtxcol, const edm::EventSetup &iSetup)
DetId seed() const
return DetId of seed
GEDPhotonProducer(const edm::ParameterSet &ps)
float hcalDepth1OverEcalBc
T const * product() const
std::vector< double > preselCutValuesBarrel_
edm::EDGetTokenT< reco::PhotonCollection > photonProducerT_
XYZVectorD XYZVector
spatial vector with cartesian internal representation
XYZPointD XYZPoint
point in space with cartesian internal representation
edm::EDGetTokenT< edm::ValueMap< float > > phoChargedIsolationTokenCITK_
std::vector< Photon > PhotonCollection
collectin of Photon objects
std::vector< double > preselCutValuesEndcap_
const LorentzVector & p4(P4type type) const
std::string candidateP4type_
void fillPhotonCollection(edm::Event &evt, edm::EventSetup const &es, const edm::Handle< reco::PhotonCoreCollection > &photonCoreHandle, const CaloTopology *topology, const EcalRecHitCollection *ecalBarrelHits, const EcalRecHitCollection *ecalEndcapHits, const EcalRecHitCollection *preshowerHits, const edm::Handle< CaloTowerCollection > &hcalTowersHandle, const reco::VertexCollection &pvVertices, reco::PhotonCollection &outputCollection, int &iSC)
void endRun(edm::Run const &, edm::EventSetup const &) final
std::vector< CaloTowerDetId > towersOf(const reco::SuperCluster &sc) const
double getDepth2HcalESum(const reco::SuperCluster &sc) const
ESHandle< TrackerGeometry > geometry
iterator find(key_type k)
static int position[264][3]
edm::EDGetTokenT< edm::ValueMap< float > > phoPFECALClusIsolationToken_
bool isUninitialized() const
edm::EDGetTokenT< reco::VertexCollection > vertexProducer_
T const * product() const
edm::EDGetTokenT< EcalRecHitCollection > preshowerHits_
void setP4(P4type type, const LorentzVector &p4, float p4Error, bool setToRecoCandidate)
std::string valueMapPFCandPhoton_