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AlCaHOCalibProducer Class Reference

#include <Calibration/AlCaHOCalibProducer/src/AlCaHOCalibProducer.cc>

Inheritance diagram for AlCaHOCalibProducer:
edm::EDProducer edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Public Types

typedef Basic3DVector< float > DirectionType
 
typedef Basic3DVector< float > PositionType
 
typedef Basic3DVector< float > RotationType
 
- Public Types inherited from edm::EDProducer
typedef EDProducer ModuleType
 
- Public Types inherited from edm::ProducerBase
using ModuleToResolverIndicies = std::unordered_multimap< std::string, std::tuple< edm::TypeID const *, const char *, edm::ProductResolverIndex >>
 
typedef ProductRegistryHelper::TypeLabelList TypeLabelList
 
- Public Types inherited from edm::EDConsumerBase
typedef ProductLabels Labels
 

Public Member Functions

 AlCaHOCalibProducer (const edm::ParameterSet &)
 
 ~AlCaHOCalibProducer () override
 
- Public Member Functions inherited from edm::EDProducer
 EDProducer ()
 
SerialTaskQueueglobalLuminosityBlocksQueue ()
 
SerialTaskQueueglobalRunsQueue ()
 
ModuleDescription const & moduleDescription () const
 
 ~EDProducer () override
 
- Public Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
std::vector< edm::ProductResolverIndex > const & indiciesForPutProducts (BranchType iBranchType) const
 
 ProducerBase ()
 
std::vector< edm::ProductResolverIndex > const & putTokenIndexToProductResolverIndex () const
 
void registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
 
std::function< void(BranchDescription const &)> registrationCallback () const
 used by the fwk to register list of products More...
 
void resolvePutIndicies (BranchType iBranchType, ModuleToResolverIndicies const &iIndicies, std::string const &moduleLabel)
 
 ~ProducerBase () noexcept(false) override
 
- Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfoconsumesInfo () const
 
void convertCurrentProcessAlias (std::string const &processName)
 Convert "@currentProcess" in InputTag process names to the actual current process name. More...
 
 EDConsumerBase ()
 
 EDConsumerBase (EDConsumerBase const &)=delete
 
 EDConsumerBase (EDConsumerBase &&)=default
 
ESProxyIndex const * esGetTokenIndices (edm::Transition iTrans) const
 
ProductResolverIndexAndSkipBit indexFrom (EDGetToken, BranchType, TypeID const &) const
 
void itemsMayGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
 
void itemsToGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
 
std::vector< ProductResolverIndexAndSkipBit > const & itemsToGetFrom (BranchType iType) const
 
void labelsForToken (EDGetToken iToken, Labels &oLabels) const
 
void modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
 
EDConsumerBase const & operator= (EDConsumerBase const &)=delete
 
EDConsumerBaseoperator= (EDConsumerBase &&)=default
 
bool registeredToConsume (ProductResolverIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
ProductResolverIndexAndSkipBit uncheckedIndexFrom (EDGetToken) const
 
void updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)
 
void updateLookup (eventsetup::ESRecordsToProxyIndices const &)
 
virtual ~EDConsumerBase () noexcept(false)
 

Private Types

typedef math::Error< 5 >::type CovarianceMatrix
 

Private Member Functions

void beginJob () override
 
void beginLuminosityBlock (const edm::LuminosityBlock &, const edm::EventSetup &) override
 
void endJob () override
 
void fillHOStore (const reco::TrackRef &ncosm, HOCalibVariables &tmpHOCalib, std::unique_ptr< HOCalibVariableCollection > &hostore, int Noccu_old, int indx, edm::Handle< reco::TrackCollection > cosmicmuon, edm::View< reco::Muon >::const_iterator muon1, const edm::Event &iEvent, const edm::EventSetup &iSetup)
 
void findHOEtaPhi (int iphsect, int &ietaho, int &iphiho)
 
FreeTrajectoryState getFreeTrajectoryState (const reco::Track &tk, const MagneticField *field, int itag, bool dir)
 
void produce (edm::Event &, const edm::EventSetup &) override
 

Private Attributes

std::map< std::string, bool > fired
 
edm::ESHandle< HcalSeverityLevelComputerhcalSevLvlComputerHndl
 
TH2F * ho_occupency [5]
 
int iring
 
float localxhor0
 
float localxhor1
 
float localyhor0
 
float localyhor1
 
bool m_cosmic
 
int m_endTS
 
bool m_hbinfo
 
bool m_occupancy
 
double m_sigma
 
int m_startTS
 
edm::InputTag muonTags_
 
const int ncidmx = 5
 
const int netabin = 16
 
const int netamx = 32
 
int Nevents
 
int Noccu
 
const int nphimx = 72
 
int nRuns
 
unsigned int Ntp
 
const double rHOL0 = 382.0
 
const double rHOL1 = 407.0
 
const HcalChannelQualitytheHcalChStatus
 
edm::EDGetTokenT< HBHERecHitCollectiontok_hbhe_
 
edm::EDGetTokenT< HORecHitCollectiontok_ho_
 
edm::EDGetTokenT< LumiScalersCollectiontok_lumi_
 
edm::EDGetTokenT< edm::View< reco::Muon > > tok_muons_
 
edm::EDGetTokenT< reco::TrackCollectiontok_muonsCosmic_
 
edm::EDGetTokenT< CaloTowerCollectiontok_tower_
 
edm::EDGetTokenT< reco::VertexCollectiontok_vertex_
 
float xhor0
 
float xhor1
 
float yhor0
 
float yhor1
 

Additional Inherited Members

- Static Public Member Functions inherited from edm::EDProducer
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
static bool wantsGlobalLuminosityBlocks ()
 
static bool wantsGlobalRuns ()
 
static bool wantsStreamLuminosityBlocks ()
 
static bool wantsStreamRuns ()
 
- Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > consumes (edm::InputTag const &tag)
 
EDGetToken consumes (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken consumes (TypeToGet const &id, edm::InputTag const &tag)
 
ConsumesCollector consumesCollector ()
 Use a ConsumesCollector to gather consumes information from helper functions. More...
 
template<typename ProductType , BranchType B = InEvent>
void consumesMany ()
 
void consumesMany (const TypeToGet &id)
 
template<BranchType B>
void consumesMany (const TypeToGet &id)
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes ()
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes (ESInputTag const &tag)
 
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > mayConsume (edm::InputTag const &tag)
 
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 

Detailed Description

change magnetic field inside ../data/HOCosmicCalib_RecoLocalMuon.cff ../data/HOCosmicCalib_RecoLocalTracker.cff

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>=""> Missing towers : eta=5, phi=18-19 : eta = -5, phi =11-14

HO tile sizes Ring +-2 : width Tray 6:404.6, 5&4:347.6, 3:352.6, 2:364.6, 1:315.6 (phi ordering is opposite) lenght Tile 1:420.1, 2:545.1, 3:583.3, 4:626.0, 5:335.5

    (five tiles, 1 is close to Ring 1 and 5 is towardslc endcap)

Ring +-1 : width Tray 6:404.6, 5&4:347.6, 3:352.6, 2:364.6, 1:315.6 (same as Ring+-2) lenght Tile 1:391.5, 2:394.2, 3:411.0, 4:430.9, 5:454.0, 6:426.0 (1: near R0 and 6 near R2)

Ring 0 L1 : Width Tray (6:290.6, 5&4:345.6, 3:350.6, 2:362.6, 1:298.6 lenght 1:351.2, 2:353.8, 3:359.2, 4:189.1 (4 is towards Ring1)

Ring 0 L0 : Width Tray 6:266.6, 5&4:325.6, 3:330.6, 2:341.6, 1:272.6 length 1:331.5, 2:334.0, 3:339.0, 4:248.8 (4 is towards Ring1)

Definition at line 152 of file AlCaHOCalibProducer.cc.

Member Typedef Documentation

Definition at line 220 of file AlCaHOCalibProducer.cc.

Definition at line 158 of file AlCaHOCalibProducer.cc.

Definition at line 157 of file AlCaHOCalibProducer.cc.

Definition at line 159 of file AlCaHOCalibProducer.cc.

Constructor & Destructor Documentation

AlCaHOCalibProducer::AlCaHOCalibProducer ( const edm::ParameterSet iConfig)
explicit

Definition at line 248 of file AlCaHOCalibProducer.cc.

References edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), ho_occupency, m_cosmic, m_hbinfo, m_occupancy, m_sigma, TFileService::make(), muonTags_, netamx, nphimx, runGCPTkAlMap::title, tok_hbhe_, tok_ho_, tok_lumi_, tok_muons_, tok_muonsCosmic_, tok_tower_, and tok_vertex_.

248  {
249  //register your products
250 
251  m_hbinfo = iConfig.getUntrackedParameter<bool>("hbinfo", false);
252  m_sigma = iConfig.getUntrackedParameter<double>("sigma", 0.05);
253  m_occupancy = iConfig.getUntrackedParameter<bool>("plotOccupancy", false);
254  m_cosmic = iConfig.getUntrackedParameter<bool>("CosmicData", false);
255 
256  // keep InputTag muonTags_ since it is used below. - cowden
257  muonTags_ = iConfig.getUntrackedParameter<edm::InputTag>("muons");
258  tok_muonsCosmic_ = consumes<reco::TrackCollection>(muonTags_);
259  tok_muons_ = consumes<edm::View<reco::Muon> >(muonTags_);
260  tok_vertex_ = consumes<reco::VertexCollection>(iConfig.getParameter<edm::InputTag>("vertexTags"));
261  // tok_lumi_ = consumes<LumiDetails ,edm::InLumi>(iConfig.getParameter<edm::InputTag>("lumiTags"));
262  tok_lumi_ = consumes<LumiScalersCollection>(iConfig.getParameter<edm::InputTag>("lumiTags"));
263  tok_ho_ = consumes<HORecHitCollection>(iConfig.getParameter<edm::InputTag>("hoInput"));
264  tok_hbhe_ = consumes<HBHERecHitCollection>(iConfig.getParameter<edm::InputTag>("hbheInput"));
265  tok_tower_ = consumes<CaloTowerCollection>(iConfig.getParameter<edm::InputTag>("towerInput"));
266 
267  produces<HOCalibVariableCollection>("HOCalibVariableCollection").setBranchAlias("HOCalibVariableCollection");
268 
269  if (m_occupancy) {
271 
272  char title[200];
273 
274  for (int ij = 0; ij < 5; ij++) {
275  sprintf(title, "ho_occupency (>%i #sigma)", ij + 2);
276  ho_occupency[ij] =
277  fs->make<TH2F>(title, title, netamx + 1, -netamx - 0.5, netamx / 2 + 0.5, nphimx, 0.5, nphimx + 0.5);
278  }
279  }
280 }
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
edm::EDGetTokenT< CaloTowerCollection > tok_tower_
T * make(const Args &...args) const
make new ROOT object
Definition: TFileService.h:64
edm::EDGetTokenT< reco::TrackCollection > tok_muonsCosmic_
edm::EDGetTokenT< LumiScalersCollection > tok_lumi_
edm::EDGetTokenT< reco::VertexCollection > tok_vertex_
edm::EDGetTokenT< edm::View< reco::Muon > > tok_muons_
edm::EDGetTokenT< HORecHitCollection > tok_ho_
edm::EDGetTokenT< HBHERecHitCollection > tok_hbhe_
AlCaHOCalibProducer::~AlCaHOCalibProducer ( )
override

Definition at line 282 of file AlCaHOCalibProducer.cc.

282  {
283  // do anything here that needs to be done at desctruction time
284  // (e.g. close files, deallocate resources etc.)
285 }

Member Function Documentation

void AlCaHOCalibProducer::beginJob ( void  )
overrideprivatevirtual

Reimplemented from edm::EDProducer.

Definition at line 369 of file AlCaHOCalibProducer.cc.

References Nevents, Noccu, and nRuns.

369  {
370  Nevents = 0;
371  nRuns = 0;
372  Noccu = 0;
373 }
void AlCaHOCalibProducer::beginLuminosityBlock ( const edm::LuminosityBlock lBlock,
const edm::EventSetup es 
)
overrideprivate

Definition at line 390 of file AlCaHOCalibProducer.cc.

References edm::EventSetup::get(), edm::ESHandle< T >::product(), and theHcalChStatus.

390  {
392  es.get<HcalChannelQualityRcd>().get("withTopo", hcalChStatus);
393  theHcalChStatus = hcalChStatus.product();
394 
395  return;
396 }
const HcalChannelQuality * theHcalChStatus
T get() const
Definition: EventSetup.h:71
T const * product() const
Definition: ESHandle.h:86
void AlCaHOCalibProducer::endJob ( void  )
overrideprivatevirtual

Reimplemented from edm::EDProducer.

Definition at line 376 of file AlCaHOCalibProducer.cc.

References ho_occupency, m_occupancy, SiStripPI::max, Nevents, and Noccu.

Referenced by o2olib.O2ORunMgr::executeJob().

376  {
377  if (m_occupancy) {
378  for (int ij = 0; ij < 5; ij++) {
379  ho_occupency[ij]->Scale(1. / std::max(1, Noccu));
380  }
381  }
382  edm::LogInfo("HOCalib") << " AlCaHOCalibProducer processed event " << Nevents;
383 }
void AlCaHOCalibProducer::fillHOStore ( const reco::TrackRef ncosm,
HOCalibVariables tmpHOCalib,
std::unique_ptr< HOCalibVariableCollection > &  hostore,
int  Noccu_old,
int  indx,
edm::Handle< reco::TrackCollection cosmicmuon,
edm::View< reco::Muon >::const_iterator  muon1,
const edm::Event iEvent,
const edm::EventSetup iSetup 
)
private

Definition at line 398 of file AlCaHOCalibProducer.cc.

References funct::abs(), angle(), anyDirection, SteppingHelixPropagator::applyRadX0Correction(), edm::SortedCollection< T, SORT >::begin(), HOCalibVariables::caloen, ALCARECOTkAlJpsiMuMu_cff::charge, HOCalibVariables::chisq, funct::cos(), Vector3DBase< T, FrameTag >::cross(), dot(), HOCalibVariables::ecal03, edm::SortedCollection< T, SORT >::end(), CaloRecHit::energy(), findHOEtaPhi(), edm::EventSetup::get(), edm::Event::getByToken(), CaloSubdetectorGeometry::getClosestCell(), getFreeTrajectoryState(), HcalSeverityLevelComputer::getSeverityLevel(), CaloGeometry::getSubdetectorGeometry(), HcalChannelStatus::getValue(), HcalCondObjectContainer< Item >::getValues(), reco::MuonEnergy::had, reco::MuonIsolation::hadEt, HOCalibVariables::hbhesig, DetId::Hcal, HOCalibVariables::hcal03, HcalOuter, hcalSevLvlComputerHndl, ho_occupency, HOCalibVariables::hoang, HOCalibVariables::hocorsig, HOCalibVariables::hocro, HOCalibVariables::hodx, HOCalibVariables::hody, HOCalibVariables::hoflag, HOCalibVariables::hosig, HOCalibVariables::htime, HORecHit::id(), HcalDetId::ieta(), createfilelist::int, HcalDetId::iphi(), iring, HOCalibVariables::isect, HOCalibVariables::isect2, SteppingHelixStateInfo::isValid(), localxhor0, localxhor1, localyhor0, localyhor1, m_cosmic, m_hbinfo, m_occupancy, m_sigma, HOCalibVariables::momatho, SteppingHelixStateInfo::momentum(), HOCalibVariables::ndof, netabin, HOCalibVariables::nmuon, Noccu, nphimx, HOCalibVariables::pherr, Basic3DVector< T >::phi(), pi, PlaneBuilder::plane(), SteppingHelixStateInfo::position(), edm::ESHandle< T >::product(), SteppingHelixPropagator::propagate(), rHOL0, rHOL1, makeMuonMisalignmentScenario::rot, SteppingHelixPropagator::setMaterialMode(), funct::sin(), mathSSE::sqrt(), reco::MuonIsolation::sumPt, theHcalChStatus, HOCalibVariables::therr, Basic3DVector< T >::theta(), HOCalibVariables::tkpt03, tok_hbhe_, tok_ho_, tok_tower_, HOCalibVariables::trkdr, HOCalibVariables::trkdz, HOCalibVariables::trkmm, HOCalibVariables::trkph, HOCalibVariables::trkth, HOCalibVariables::trkvx, HOCalibVariables::trkvy, HOCalibVariables::trkvz, PV3DBase< T, PVType, FrameType >::x(), xhor0, xhor1, geometryCSVtoXML::xx, PV3DBase< T, PVType, FrameType >::y(), yhor0, yhor1, geometryCSVtoXML::yy, and PV3DBase< T, PVType, FrameType >::z().

Referenced by produce().

406  {
408  iSetup.get<CaloGeometryRecord>().get(pG);
409  const CaloGeometry* geo = pG.product();
411 
412  // Get Hcal Severity Level Computer, so that the severity of each rechit flag/status may be determined
413  // edm::ESHandle<HcalSeverityLevelComputer> hcalSevLvlComputerHndl;
415  const HcalSeverityLevelComputer* hcalSevLvlComputer = hcalSevLvlComputerHndl.product();
416 
417  int charge = ncosm->charge();
418 
419  double innerr = (*ncosm).innerPosition().Perp2();
420  double outerr = (*ncosm).outerPosition().Perp2();
421  int iiner = (innerr < outerr) ? 1 : 0;
422 
423  //---------------------------------------------------
424  // in_to_out Dir in_to_out Dir
425  // StandAlone ^ ^ Cosmic ^ |
426  // | | | v
427  //---------------------------------------------------Y=0
428  // StandAlone | | Cosmic ^ |
429  // v v | v
430  //----------------------------------------------------
431 
432  double posx, posy, posz;
433  double momx, momy, momz;
434 
435  if (iiner == 1) {
436  posx = (*ncosm).innerPosition().X();
437  posy = (*ncosm).innerPosition().Y();
438  posz = (*ncosm).innerPosition().Z();
439 
440  momx = (*ncosm).innerMomentum().X();
441  momy = (*ncosm).innerMomentum().Y();
442  momz = (*ncosm).innerMomentum().Z();
443 
444  } else {
445  posx = (*ncosm).outerPosition().X();
446  posy = (*ncosm).outerPosition().Y();
447  posz = (*ncosm).outerPosition().Z();
448 
449  momx = (*ncosm).outerMomentum().X();
450  momy = (*ncosm).outerMomentum().Y();
451  momz = (*ncosm).outerMomentum().Z();
452  }
453 
454  PositionType trkpos(posx, posy, posz);
455 
456  CLHEP::Hep3Vector tmpmuon3v(posx, posy, posz);
457  CLHEP::Hep3Vector tmpmuondir(momx, momy, momz);
458 
459  bool samedir = (tmpmuon3v.dot(tmpmuondir) > 0) ? true : false;
460  for (int ij = 0; ij < 3; ij++) {
461  tmpHOCalib.caloen[ij] = 0.0;
462  }
463  int inearbymuon = 0;
464  localxhor0 = localyhor0 = 20000; //GM for 22OCT07 data
465 
466  if (m_cosmic) {
467  int ind(0);
468  for (reco::TrackCollection::const_iterator ncosmcor = cosmicmuon->begin(); ncosmcor != cosmicmuon->end();
469  ++ncosmcor, ++ind) {
470  if (indx == ind)
471  continue;
472  CLHEP::Hep3Vector tmpmuon3vcor;
473  CLHEP::Hep3Vector tmpmom3v;
474  if (iiner == 1) {
475  tmpmuon3vcor = CLHEP::Hep3Vector(
476  (*ncosmcor).innerPosition().X(), (*ncosmcor).innerPosition().Y(), (*ncosmcor).innerPosition().Z());
477  tmpmom3v = CLHEP::Hep3Vector(
478  (*ncosmcor).innerMomentum().X(), (*ncosmcor).innerMomentum().Y(), (*ncosmcor).innerMomentum().Z());
479  } else {
480  tmpmuon3vcor = CLHEP::Hep3Vector(
481  (*ncosmcor).outerPosition().X(), (*ncosmcor).outerPosition().Y(), (*ncosmcor).outerPosition().Z());
482  tmpmom3v = CLHEP::Hep3Vector(
483  (*ncosmcor).outerMomentum().X(), (*ncosmcor).outerMomentum().Y(), (*ncosmcor).outerMomentum().Z());
484  }
485 
486  if (tmpmom3v.mag() < 0.2 || (*ncosmcor).ndof() < 5)
487  continue;
488 
489  double angle = tmpmuon3v.angle(tmpmuon3vcor);
490  if (angle < 7.5 * CLHEP::deg) {
491  inearbymuon = 1;
492  } // break;}
493 
494  // if (muonTagsi_.label() =="cosmicMuons") {
495  if (angle < 7.5 * CLHEP::deg) {
496  tmpHOCalib.caloen[0] += 1.;
497  }
498  if (angle < 15.0 * CLHEP::deg) {
499  tmpHOCalib.caloen[1] += 1.;
500  }
501  if (angle < 35.0 * CLHEP::deg) {
502  tmpHOCalib.caloen[2] += 1.;
503  }
504  }
505  } else {
506  // if (muonTags_.label() =="muons") {
508  iEvent.getByToken(tok_tower_, calotower);
509 
510  for (CaloTowerCollection::const_iterator calt = calotower->begin(); calt != calotower->end(); calt++) {
511  //CMSSW_2_1_x const math::XYZVector towermom = (*calt).momentum();
512  double ith = (*calt).momentum().theta();
513  double iph = (*calt).momentum().phi();
514 
515  CLHEP::Hep3Vector calo3v(sin(ith) * cos(iph), sin(ith) * sin(iph), cos(ith));
516 
517  double angle = tmpmuon3v.angle(calo3v);
518 
519  if (angle < 7.5 * CLHEP::deg) {
520  tmpHOCalib.caloen[0] += calt->emEnergy() + calt->hadEnergy();
521  }
522  if (angle < 15 * CLHEP::deg) {
523  tmpHOCalib.caloen[1] += calt->emEnergy() + calt->hadEnergy();
524  }
525  if (angle < 35 * CLHEP::deg) {
526  tmpHOCalib.caloen[2] += calt->emEnergy() + calt->hadEnergy();
527  }
528  }
529  }
530  if ((m_cosmic) || (tmpHOCalib.caloen[0] <= 10.0)) {
531  GlobalPoint glbpt(posx, posy, posz);
532 
533  double mom = sqrt(momx * momx + momy * momy + momz * momz);
534 
535  momx /= mom;
536  momy /= mom;
537  momz /= mom;
538 
539  DirectionType trkdir(momx, momy, momz);
540 
541  tmpHOCalib.trkdr = (*ncosm).d0();
542  tmpHOCalib.trkdz = (*ncosm).dz();
543  tmpHOCalib.nmuon = (m_cosmic) ? cosmicmuon->size() : 1;
544  tmpHOCalib.trkvx = glbpt.x();
545  tmpHOCalib.trkvy = glbpt.y();
546  tmpHOCalib.trkvz = glbpt.z();
547  tmpHOCalib.trkmm = mom * charge;
548  tmpHOCalib.trkth = trkdir.theta();
549  tmpHOCalib.trkph = trkdir.phi();
550  tmpHOCalib.isect2 = -2;
551  tmpHOCalib.isect = -2;
552  tmpHOCalib.hodx = -100;
553  tmpHOCalib.hody = -100;
554  tmpHOCalib.hoang = -2.0;
555  tmpHOCalib.momatho = -2;
556  tmpHOCalib.ndof = (inearbymuon == 0) ? (int)(*ncosm).ndof() : -(int)(*ncosm).ndof();
557  tmpHOCalib.chisq = (*ncosm).normalizedChi2(); // max(1.,tmpHOCalib.ndof);
558  if (!m_cosmic) {
559  reco::MuonEnergy muonenr = muon1->calEnergy();
560  reco::MuonIsolation iso03 = muon1->isolationR03();
561  reco::MuonIsolation iso05 = muon1->isolationR05();
562 
563  tmpHOCalib.tkpt03 = iso03.sumPt;
564  tmpHOCalib.ecal03 = iso05.sumPt; // iso03.emEt+muonenr.em;
565  tmpHOCalib.hcal03 = iso03.hadEt + muonenr.had;
566  }
567  tmpHOCalib.therr = 0.;
568  tmpHOCalib.pherr = 0.;
569  if (iiner == 1) {
570  reco::TrackBase::CovarianceMatrix innercov = (*ncosm).innerStateCovariance();
571  tmpHOCalib.therr = innercov(1, 1); //thetaError();
572  tmpHOCalib.pherr = innercov(2, 2); //phi0Error();
573  } else {
574  reco::TrackBase::CovarianceMatrix outercov = (*ncosm).outerStateCovariance();
575  tmpHOCalib.therr = outercov(1, 1); //thetaError();
576  tmpHOCalib.pherr = outercov(2, 2); //phi0Error();
577  }
578  edm::ESHandle<MagneticField> theMagField;
579  iSetup.get<IdealMagneticFieldRecord>().get(theMagField);
580 
581  SteppingHelixPropagator myHelix(&*theMagField, anyDirection);
582  myHelix.setMaterialMode(false);
583  myHelix.applyRadX0Correction(true);
584  double phiho = trkpos.phi();
585  if (phiho < 0)
586  phiho += CLHEP::twopi;
587 
588  int iphisect_dt = int(6 * (phiho + 10.0 * CLHEP::deg) / CLHEP::pi); //for u 18/12/06
589  if (iphisect_dt >= 12)
590  iphisect_dt = 0;
591 
592  int iphisect = -1;
593  bool ipath = false;
594  for (int kl = 0; kl <= 2; kl++) {
595  int iphisecttmp = (kl < 2) ? iphisect_dt + kl : iphisect_dt - 1;
596  if (iphisecttmp < 0)
597  iphisecttmp = 11;
598  if (iphisecttmp >= 12)
599  iphisecttmp = 0;
600 
601  double phipos = iphisecttmp * CLHEP::pi / 6.;
602  double phirot = phipos;
603 
604  GlobalVector xLocal(-sin(phirot), cos(phirot), 0.);
605  GlobalVector yLocal(0., 0., 1.);
606  GlobalVector zLocal = xLocal.cross(yLocal).unit();
607  // GlobalVector zLocal(cos(phirot), sin(phirot), 0.0);
608 
609  FreeTrajectoryState freetrajectorystate_ = getFreeTrajectoryState(*ncosm, &(*theMagField), iiner, samedir);
610 
611  Surface::RotationType rot(xLocal, yLocal, zLocal);
612 
613  for (int ik = 1; ik >= 0; ik--) { //propagate track in two HO layers
614 
615  double radial = rHOL1;
616  if (ik == 0)
617  radial = rHOL0;
618 
619  Surface::PositionType pos(radial * cos(phipos), radial * sin(phipos), 0.);
621 
622  auto aPlane2 = new Plane(pos, rot);
623 
624  SteppingHelixStateInfo steppingHelixstateinfo_;
625  myHelix.propagate(SteppingHelixStateInfo(freetrajectorystate_), (*aPlane2), steppingHelixstateinfo_);
626 
627  if (steppingHelixstateinfo_.isValid()) {
628  GlobalPoint hotrkpos2xx(steppingHelixstateinfo_.position().x(),
629  steppingHelixstateinfo_.position().y(),
630  steppingHelixstateinfo_.position().z());
631 
632  if (ik == 1) {
633  HcalDetId ClosestCell = (HcalDetId)gHO->getClosestCell(hotrkpos2xx);
634  int ixeta = ClosestCell.ieta();
635  int ixphi = ClosestCell.iphi();
636  tmpHOCalib.isect2 = 100 * std::abs(ixeta + 50) + std::abs(ixphi);
637  }
638 
639  GlobalVector hotrkpos2(steppingHelixstateinfo_.position().x(),
640  steppingHelixstateinfo_.position().y(),
641  steppingHelixstateinfo_.position().z());
642  CLHEP::Hep3Vector hotrkdir2(steppingHelixstateinfo_.momentum().x(),
643  steppingHelixstateinfo_.momentum().y(),
644  steppingHelixstateinfo_.momentum().z());
645 
646  LocalVector lclvt0 = (*aPlane).toLocal(hotrkpos2);
647 
648  double xx = lclvt0.x();
649  double yy = lclvt0.y();
650 
651  if (ik == 1) {
652  if ((std::abs(yy) < 130 && xx > -64.7 && xx < 138.2) //Ring-0
653  || (std::abs(yy) > 130 && std::abs(yy) < 700 && xx > -76.3 && xx < 140.5)) { //Ring +-1,2
654  ipath = true; //Only look for tracks which as hits in layer 1
655  iphisect = iphisecttmp;
656  }
657  }
658 
659  if (iphisect != iphisecttmp)
660  continue; //Look for ring-0 only when ring1 is accepted for that sector
661 
662  switch (ik) {
663  case 0:
664  xhor0 = xx; //lclvt0.x();
665  yhor0 = yy; //lclvt0.y();
666  break;
667  case 1:
668  xhor1 = xx; //lclvt0.x();
669  yhor1 = yy; //lclvt0.y();
670  tmpHOCalib.momatho = hotrkdir2.mag();
671  tmpHOCalib.hoang = CLHEP::Hep3Vector(zLocal.x(), zLocal.y(), zLocal.z()).dot(hotrkdir2.unit());
672  break;
673  default:
674  break;
675  }
676  } else {
677  break;
678  }
679  }
680  if (ipath)
681  break;
682  }
683  if (ipath) { //If muon crossed HO laeyrs
684 
685  int ietaho = 50;
686  int iphiho = -1;
687 
688  for (int ij = 0; ij < 9; ij++) {
689  tmpHOCalib.hosig[ij] = -100.0;
690  }
691  for (int ij = 0; ij < 18; ij++) {
692  tmpHOCalib.hocorsig[ij] = -100.0;
693  }
694  for (int ij = 0; ij < 9; ij++) {
695  tmpHOCalib.hbhesig[ij] = -100.0;
696  }
697  tmpHOCalib.hocro = -100;
698  tmpHOCalib.htime = -1000;
699 
700  int isect = 0;
701 
702  findHOEtaPhi(iphisect, ietaho, iphiho);
703 
704  if (ietaho != 0 && iphiho != 0 && std::abs(iring) <= 2) { //Muon passed through a tower
705  isect = 100 * std::abs(ietaho + 50) + std::abs(iphiho);
706  if (std::abs(ietaho) >= netabin || iphiho < 0)
707  isect *= -1; //Not extrapolated to any tower
708  if (std::abs(ietaho) >= netabin)
709  isect -= 1000000; //not matched with eta
710  if (iphiho < 0)
711  isect -= 2000000; //not matched with phi
712  tmpHOCalib.isect = isect;
713 
714  tmpHOCalib.hodx = localxhor1;
715  tmpHOCalib.hody = localyhor1;
716 
717  if (iring == 0) {
718  tmpHOCalib.hocorsig[8] = localxhor0;
719  tmpHOCalib.hocorsig[9] = localyhor0;
720  }
721 
722  int etamn = -4;
723  int etamx = 4;
724  if (iring == 1) {
725  etamn = 5;
726  etamx = 10;
727  }
728  if (iring == 2) {
729  etamn = 11;
730  etamx = 16;
731  }
732  if (iring == -1) {
733  etamn = -10;
734  etamx = -5;
735  }
736  if (iring == -2) {
737  etamn = -16;
738  etamx = -11;
739  }
740 
741  int phimn = 1;
742  int phimx = 2;
743  if (iring == 0) {
744  phimx = 2 * int((iphiho + 1) / 2.);
745  phimn = phimx - 1;
746  } else {
747  phimn = 3 * int((iphiho + 1) / 3.) - 1;
748  phimx = phimn + 2;
749  }
750 
751  if (phimn < 1)
752  phimn += nphimx;
753  if (phimx > 72)
754  phimx -= nphimx;
755 
756  if (m_hbinfo) {
757  for (int ij = 0; ij < 9; ij++) {
758  tmpHOCalib.hbhesig[ij] = -100.0;
759  }
760 
761  edm::Handle<HBHERecHitCollection> hbheht; // iEvent.getByType(hbheht);
762  iEvent.getByToken(tok_hbhe_, hbheht);
763 
764  if (!(*hbheht).empty()) {
765  if ((*hbheht).empty())
766  throw(int)(*hbheht).size();
767 
768  for (HBHERecHitCollection::const_iterator jk = (*hbheht).begin(); jk != (*hbheht).end(); jk++) {
769  HcalDetId id = (*jk).id();
770  int tmpeta = id.ieta();
771  int tmpphi = id.iphi();
772 
773  int deta = tmpeta - ietaho;
774  if (tmpeta < 0 && ietaho > 0)
775  deta += 1;
776  if (tmpeta > 0 && ietaho < 0)
777  deta -= 1;
778 
779  // if (tmpeta==-1 && ietaho== 1) deta = -1;
780  // if (tmpeta== 1 && ietaho==-1) deta = 1;
781 
782  int dphi = tmpphi - iphiho;
783  if (dphi > nphimx / 2) {
784  dphi -= nphimx;
785  }
786  if (dphi < -nphimx / 2) {
787  dphi += nphimx;
788  }
789 
790  // if (phimn >phimx) {
791  // if (dphi==71) dphi=-1;
792  // if (dphi==-71) dphi=1;
793  // }
794 
795  if (m_occupancy) {
796  float signal = (*jk).energy();
797  // int tmpeta1 = (tmpeta>0) ? tmpeta -1 : -tmpeta +14;
798  if (signal > -100 && Noccu == Noccu_old) {
799  for (int ij = 0; ij < 5; ij++) {
800  if (signal > (ij + 2) * m_sigma) {
801  ho_occupency[ij]->Fill(tmpeta, tmpphi);
802  }
803  }
804  }
805  }
806 
807  int ipass2 = (std::abs(deta) <= 1 && std::abs(dphi) <= 1) ? 1 : 0; //NEED correction in full CMS detector
808  if (ipass2 == 0)
809  continue;
810 
811  float signal = (*jk).energy();
812 
813  if (3 * (deta + 1) + dphi + 1 < 9)
814  tmpHOCalib.hbhesig[3 * (deta + 1) + dphi + 1] = signal;
815  }
816  }
817  } //m_hbinfo #endif
818 
820  iEvent.getByToken(tok_ho_, hoht);
821 
822  if (!(*hoht).empty()) {
823  for (HORecHitCollection::const_iterator jk = (*hoht).begin(); jk != (*hoht).end(); jk++) {
824  HcalDetId id = (*jk).id();
825  int tmpeta = id.ieta();
826  int tmpphi = id.iphi();
827 
828  int ipass1 = 0;
829  if (tmpeta >= etamn && tmpeta <= etamx) {
830  if (phimn < phimx) {
831  ipass1 = (tmpphi >= phimn && tmpphi <= phimx) ? 1 : 0;
832  } else {
833  ipass1 = (tmpphi == 71 || tmpphi == 72 || tmpphi == 1) ? 1 : 0;
834  }
835  }
836 
837  int deta = tmpeta - ietaho;
838  int dphi = tmpphi - iphiho;
839 
840  if (tmpeta < 0 && ietaho > 0)
841  deta += 1;
842  if (tmpeta > 0 && ietaho < 0)
843  deta -= 1;
844  // if (tmpeta==-1 && ietaho== 1) deta = -1;
845  // if (tmpeta== 1 && ietaho==-1) deta = 1;
846 
847  if (dphi > nphimx / 2) {
848  dphi -= nphimx;
849  }
850  if (dphi < -nphimx / 2) {
851  dphi += nphimx;
852  }
853  // if (phimn>phimx) {
854  // if (dphi==71) dphi=-1;
855  // if (dphi==-71) dphi=1;
856  // }
857 
858  float signal = (*jk).energy();
859 
860  int ipass2 = (std::abs(deta) <= 1 && std::abs(dphi) <= 1) ? 1 : 0;
861 
862  if (ipass1 == 0 && ipass2 == 0)
863  continue;
864 
865  if (ipass1 == 1) {
866  int tmpdph = tmpphi - phimn;
867  if (tmpdph < 0)
868  tmpdph = 2; //only case of iphi==1, where phimn=71
869 
870  int ilog = 2 * (tmpeta - etamn) + tmpdph;
871  if (iring != 0) {
872  if (iring > 0) {
873  ilog = 3 * (tmpeta - etamn) + tmpdph; //Again CMS correction
874  } else {
875  ilog = 3 * (etamx - tmpeta) + tmpdph; //Again CMS correction
876  }
877  }
878  if (ilog > -1 && ilog < 18) {
879  tmpHOCalib.hocorsig[ilog] = signal;
880  }
881  }
882 
883  if (ipass2 == 1) {
884  if (3 * (deta + 1) + dphi + 1 < 9) {
885  tmpHOCalib.hosig[3 * (deta + 1) + dphi + 1] = signal; //Again CMS azimuthal near phi 1&72
886  }
887  }
888 
889  if (deta == 0 && dphi == 0) {
890  tmpHOCalib.htime = (*jk).time();
891  tmpHOCalib.hoflag = (*jk).flags();
892 
893  // Get Channel Quality information for the given detID
894  unsigned theStatusValue = theHcalChStatus->getValues(id)->getValue();
895  // Now get severity of problems for the given detID, based on the rechit flag word and the channel quality status value
896  int hitSeverity = hcalSevLvlComputer->getSeverityLevel(id, (*jk).flags(), theStatusValue);
897  tmpHOCalib.hoflag = hitSeverity;
898  int crphi = tmpphi + 6;
899  if (crphi > 72)
900  crphi -= 72;
901 
902  for (HORecHitCollection::const_iterator jcr = (*hoht).begin(); jcr != (*hoht).end(); jcr++) {
903  const HORecHit reccr = (const HORecHit)(*jcr);
904  HcalDetId idcr = reccr.id();
905  int etacr = idcr.ieta();
906  int phicr = idcr.iphi();
907  if (tmpeta == etacr && crphi == phicr) {
908  tmpHOCalib.hocro = reccr.energy();
909  }
910  }
911  }
912  }
913  }
914  }
915 
916  //GMA Npass++;
917  if (Noccu == Noccu_old)
918  Noccu++;
919  hostore->push_back(tmpHOCalib);
920  } // if (ipath)
921  } // Cut on calo energy
922 }
constexpr float energy() const
Definition: CaloRecHit.h:31
float hadEt
hcal sum-Et
Definition: MuonIsolation.h:9
const CaloSubdetectorGeometry * getSubdetectorGeometry(const DetId &id) const
access the subdetector geometry for the given subdetector directly
Definition: CaloGeometry.cc:49
Basic3DVector< float > DirectionType
edm::EDGetTokenT< CaloTowerCollection > tok_tower_
FreeTrajectoryState getFreeTrajectoryState(const reco::Track &tk, const MagneticField *field, int itag, bool dir)
float sumPt
sum-pt of tracks
Definition: MuonIsolation.h:7
const HcalChannelQuality * theHcalChStatus
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:517
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
ReturnType plane(const PositionType &pos, const RotationType &rot) const
Definition: PlaneBuilder.h:22
std::vector< CaloTower >::const_iterator const_iterator
T y() const
Definition: PV3DBase.h:63
const Item * getValues(DetId fId, bool throwOnFail=true) const
GlobalVector momentum() const
void findHOEtaPhi(int iphsect, int &ietaho, int &iphiho)
Definition: Plane.h:17
const Double_t pi
unsigned int hoflag
GlobalPoint position() const
T sqrt(T t)
Definition: SSEVec.h:18
Vector3DBase< typename PreciseFloatType< T, U >::Type, FrameTag > cross(const Vector3DBase< U, FrameTag > &v) const
Definition: Vector3DBase.h:119
T z() const
Definition: PV3DBase.h:64
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
int ieta() const
get the cell ieta
Definition: HcalDetId.h:159
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
Basic3DVector< float > PositionType
const_iterator end() const
virtual DetId getClosestCell(const GlobalPoint &r) const
int iphi() const
get the cell iphi
Definition: HcalDetId.h:161
int getSeverityLevel(const DetId &myid, const uint32_t &myflag, const uint32_t &mystatus) const
edm::EDGetTokenT< HORecHitCollection > tok_ho_
T dot(const Basic3DVector &v) const
Scalar product, or "dot" product, with a vector of same type.
T get() const
Definition: EventSetup.h:71
uint32_t getValue() const
T x() const
Definition: PV3DBase.h:62
T const * product() const
Definition: ESHandle.h:86
edm::ESHandle< HcalSeverityLevelComputer > hcalSevLvlComputerHndl
HcalDetId id() const
get the id
Definition: HORecHit.h:21
edm::EDGetTokenT< HBHERecHitCollection > tok_hbhe_
const_iterator begin() const
math::Error< dimension >::type CovarianceMatrix
5 parameter covariance matrix
Definition: TrackBase.h:77
T angle(T x1, T y1, T z1, T x2, T y2, T z2)
Definition: angle.h:11
void AlCaHOCalibProducer::findHOEtaPhi ( int  iphsect,
int &  ietaho,
int &  iphiho 
)
private

Definition at line 924 of file AlCaHOCalibProducer.cc.

References funct::abs(), iring, localxhor0, localxhor1, localyhor0, localyhor1, netabin, nphimx, xhor0, xhor1, yhor0, and yhor1.

Referenced by fillHOStore().

924  {
925  //18/12/06 : use only position, not angle phi
926 
927  const double etalow[16] = {0.025,
928  35.195,
929  70.625,
930  106.595,
931  141.565,
932  180.765,
933  220.235,
934  261.385,
935  304.525,
936  349.975,
937  410.025,
938  452.085,
939  506.645,
940  565.025,
941  627.725,
942  660.25};
943  const double etahgh[16] = {35.145,
944  70.575,
945  106.545,
946  125.505,
947  180.715,
948  220.185,
949  261.335,
950  304.475,
951  349.925,
952  392.575,
953  452.035,
954  506.595,
955  564.975,
956  627.675,
957  661.075,
958  700.25};
959 
960  const double philow[6] = {-76.27, -35.11, 0.35, 35.81, 71.77, 108.93}; //Ring+/-1 & 2
961  const double phihgh[6] = {-35.81, -0.35, 35.11, 71.07, 108.23, 140.49};
962 
963  const double philow00[6] = {-60.27, -32.91, 0.35, 33.61, 67.37, 102.23}; //Ring0 L0
964  const double phihgh00[6] = {-33.61, -0.35, 32.91, 66.67, 101.53, 129.49};
965 
966  const double philow01[6] = {-64.67, -34.91, 0.35, 35.61, 71.37, 108.33}; //Ring0 L1
967  const double phihgh01[6] = {-35.61, -0.35, 34.91, 70.67, 107.63, 138.19};
968 
969  iring = -10;
970 
971  double tmpdy = std::abs(yhor1);
972  for (int ij = 0; ij < netabin; ij++) {
973  if (tmpdy > etalow[ij] && tmpdy < etahgh[ij]) {
974  ietaho = ij + 1;
975  float tmp1 = fabs(tmpdy - etalow[ij]);
976  float tmp2 = fabs(tmpdy - etahgh[ij]);
977 
978  localyhor1 = (tmp1 < tmp2) ? -tmp1 : tmp2;
979  if (yhor1 < 0)
980  localyhor1 *= -1.;
981 
982  if (ij < 4)
983  iring = 0;
984  if (ij >= 4 && ij < 10)
985  iring = 1;
986  if (ij >= 10 && ij < netabin)
987  iring = 2;
988  break;
989  }
990  }
991 
992  int tmpphi = 0;
993  int tmpphi0 = 0;
994 
995  if (ietaho > 4) { //Ring 1 and 2
996  for (int ij = 0; ij < 6; ij++) {
997  if (xhor1 > philow[ij] && xhor1 < phihgh[ij]) {
998  tmpphi = ij + 1;
999  float tmp1 = fabs(xhor1 - philow[ij]);
1000  float tmp2 = fabs(xhor1 - phihgh[ij]);
1001  localxhor1 = (tmp1 < tmp2) ? -tmp1 : tmp2;
1002  break;
1003  }
1004  }
1005  } else { //Ring 0
1006  for (int ij = 0; ij < 6; ij++) {
1007  if (xhor1 > philow01[ij] && xhor1 < phihgh01[ij]) {
1008  tmpphi = ij + 1;
1009  float tmp1 = fabs(xhor1 - philow01[ij]);
1010  float tmp2 = fabs(xhor1 - phihgh01[ij]);
1011  localxhor1 = (tmp1 < tmp2) ? -tmp1 : tmp2;
1012  break;
1013  }
1014  }
1015 
1016  for (int ij = 0; ij < 6; ij++) {
1017  if (xhor0 > philow00[ij] && xhor0 < phihgh00[ij]) {
1018  tmpphi0 = ij + 1;
1019  float tmp1 = fabs(xhor0 - philow00[ij]);
1020  float tmp2 = fabs(xhor0 - phihgh00[ij]);
1021  localxhor0 = (tmp1 < tmp2) ? -tmp1 : tmp2;
1022  if (tmpphi != tmpphi0)
1023  localxhor0 += 10000.;
1024  break;
1025  }
1026  }
1027 
1028  double tmpdy = std::abs(yhor0);
1029  for (int ij = 0; ij < 4; ij++) {
1030  if (tmpdy > etalow[ij] && tmpdy < etahgh[ij]) {
1031  float tmp1 = fabs(tmpdy - etalow[ij]);
1032  float tmp2 = fabs(tmpdy - etahgh[ij]);
1033  localyhor0 = (tmp1 < tmp2) ? -tmp1 : tmp2;
1034  if (yhor0 < 0)
1035  localyhor0 *= -1.;
1036  if (ij + 1 != ietaho)
1037  localyhor0 += 10000.;
1038  break;
1039  }
1040  }
1041  }
1042 
1043  if (tmpphi != 0) {
1044  iphiho = 6 * iphisect - 2 + tmpphi;
1045  if (iphiho <= 0)
1046  iphiho += nphimx;
1047  if (iphiho > nphimx)
1048  iphiho -= nphimx;
1049  }
1050 
1051  // isect2 = 15*iring+iphisect+1;
1052 
1053  if (yhor1 < 0) {
1054  if (std::abs(ietaho) > netabin) { //Initialised with 50
1055  ietaho += 1;
1056  } else {
1057  ietaho *= -1;
1058  }
1059  // isect2 *=-1;
1060  iring *= -1;
1061  }
1062 }
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
FreeTrajectoryState AlCaHOCalibProducer::getFreeTrajectoryState ( const reco::Track tk,
const MagneticField field,
int  itag,
bool  dir 
)
private

Definition at line 1064 of file AlCaHOCalibProducer.cc.

References reco::TrackBase::charge(), DEFINE_FWK_MODULE, reco::Track::extra(), reco::Track::innerMomentum(), reco::Track::innerPosition(), reco::Track::outerPx(), reco::Track::outerPy(), reco::Track::outerPz(), reco::Track::outerX(), reco::Track::outerY(), and reco::Track::outerZ().

Referenced by fillHOStore().

1067  {
1068  if (iiner == 0) {
1069  GlobalPoint gpos(tk.outerX(), tk.outerY(), tk.outerZ());
1070  GlobalVector gmom(tk.outerPx(), tk.outerPy(), tk.outerPz());
1071  if (dir)
1072  gmom *= -1.;
1073  GlobalTrajectoryParameters par(gpos, gmom, tk.charge(), field);
1074  CurvilinearTrajectoryError err(tk.extra()->outerStateCovariance());
1075  return FreeTrajectoryState(par, err);
1076  } else {
1077  GlobalPoint gpos(tk.innerPosition().X(), tk.innerPosition().Y(), tk.innerPosition().Z());
1078  GlobalVector gmom(tk.innerMomentum().X(), tk.innerMomentum().Y(), tk.innerMomentum().Z());
1079  if (dir)
1080  gmom *= -1.;
1081  GlobalTrajectoryParameters par(gpos, -gmom, tk.charge(), field);
1082  CurvilinearTrajectoryError err(tk.extra()->innerStateCovariance());
1083  return FreeTrajectoryState(par, err);
1084  }
1085 }
double outerPy() const
y coordinate of momentum vector at the outermost hit position
Definition: Track.h:134
const TrackExtraRef & extra() const
reference to "extra" object
Definition: Track.h:194
double outerZ() const
z coordinate of the outermost hit position
Definition: Track.h:154
const math::XYZPoint & innerPosition() const
position of the innermost hit
Definition: Track.h:57
double outerX() const
x coordinate of the outermost hit position
Definition: Track.h:144
double outerPz() const
z coordinate of momentum vector at the outermost hit position
Definition: Track.h:139
const math::XYZVector & innerMomentum() const
momentum vector at the innermost hit position
Definition: Track.h:62
double outerY() const
y coordinate of the outermost hit position
Definition: Track.h:149
int charge() const
track electric charge
Definition: TrackBase.h:606
dbl *** dir
Definition: mlp_gen.cc:35
double outerPx() const
x coordinate of momentum vector at the outermost hit position
Definition: Track.h:129
void AlCaHOCalibProducer::produce ( edm::Event iEvent,
const edm::EventSetup iSetup 
)
overrideprivate

Definition at line 292 of file AlCaHOCalibProducer.cc.

References edm::EventID::event(), fillHOStore(), edm::Event::getByToken(), edm::EventBase::id(), HOCalibVariables::inslumi, edm::EventBase::isRealData(), edm::HandleBase::isValid(), m_cosmic, eostools::move(), Nevents, Noccu, HOCalibVariables::nprim, jets_cff::primaryVertices, edm::Event::put(), edm::EventID::run(), tok_lumi_, tok_muons_, tok_muonsCosmic_, and tok_vertex_.

Referenced by JSONExport.JsonExport::export(), HTMLExport.HTMLExport::export(), and HTMLExport.HTMLExportStatic::export().

292  {
293  int irun = iEvent.id().run();
294  // int ilumi = iEvent.luminosityBlock();
295 
296  Nevents++;
297 
298  if (Nevents % 5000 == 1)
299  edm::LogInfo("HOCalib") << "AlCaHOCalibProducer Processing event # " << Nevents << " " << Noccu << " " << irun
300  << " " << iEvent.id().event();
301 
302  auto hostore = std::make_unique<HOCalibVariableCollection>();
303 
305  edm::Handle<edm::View<reco::Muon> > collisionmuon;
306 
307  bool muonOK(true);
308  HOCalibVariables tmpHOCalib;
309  tmpHOCalib.nprim = -1;
310  tmpHOCalib.inslumi = -1.;
311 
312  if (m_cosmic) {
313  iEvent.getByToken(tok_muonsCosmic_, cosmicmuon);
314  muonOK = (cosmicmuon.isValid() && !cosmicmuon->empty());
315  } else {
316  iEvent.getByToken(tok_muons_, collisionmuon);
317  muonOK = (collisionmuon.isValid() && !collisionmuon->empty());
318 
319  if (iEvent.isRealData()) {
321  iEvent.getByToken(tok_vertex_, primaryVertices);
322  if (primaryVertices.isValid()) {
323  tmpHOCalib.nprim = primaryVertices->size();
324  }
325 
326  tmpHOCalib.inslumi = 0.;
327 
329  iEvent.getByToken(tok_lumi_, lumiScale);
330 
331  if (lumiScale.isValid()) {
332  if (lumiScale->empty()) {
333  edm::LogError("HOCalib") << "lumiScale collection is empty";
334  } else {
335  tmpHOCalib.inslumi = lumiScale->begin()->pileup();
336  }
337  }
338  }
339  }
340 
341  if (muonOK) {
342  int Noccu_old = Noccu;
344  if (m_cosmic) {
345  int indx(0);
346  for (reco::TrackCollection::const_iterator ncosm = cosmicmuon->begin(); ncosm != cosmicmuon->end();
347  ++ncosm, ++indx) {
348  if ((*ncosm).ndof() < 15)
349  continue;
350  if ((*ncosm).normalizedChi2() > 30.0)
351  continue;
352  reco::TrackRef tRef = reco::TrackRef(cosmicmuon, indx);
353  fillHOStore(tRef, tmpHOCalib, hostore, Noccu_old, indx, cosmicmuon, muon1, iEvent, iSetup);
354  }
355  } else {
356  for (muon1 = collisionmuon->begin(); muon1 < collisionmuon->end(); muon1++) {
357  if ((!muon1->isGlobalMuon()) || (!muon1->isTrackerMuon()))
358  continue;
359  reco::TrackRef ncosm = muon1->innerTrack();
360  fillHOStore(ncosm, tmpHOCalib, hostore, Noccu_old, 0, cosmicmuon, muon1, iEvent, iSetup);
361  }
362  }
363  }
364 
365  iEvent.put(std::move(hostore), "HOCalibVariableCollection");
366 }
RunNumber_t run() const
Definition: EventID.h:39
EventNumber_t event() const
Definition: EventID.h:41
OrphanHandle< PROD > put(std::unique_ptr< PROD > product)
Put a new product.
Definition: Event.h:125
void fillHOStore(const reco::TrackRef &ncosm, HOCalibVariables &tmpHOCalib, std::unique_ptr< HOCalibVariableCollection > &hostore, int Noccu_old, int indx, edm::Handle< reco::TrackCollection > cosmicmuon, edm::View< reco::Muon >::const_iterator muon1, const edm::Event &iEvent, const edm::EventSetup &iSetup)
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:517
edm::EDGetTokenT< reco::TrackCollection > tok_muonsCosmic_
bool isRealData() const
Definition: EventBase.h:62
bool isValid() const
Definition: HandleBase.h:74
edm::EDGetTokenT< LumiScalersCollection > tok_lumi_
primaryVertices
Definition: jets_cff.py:34
edm::EDGetTokenT< reco::VertexCollection > tok_vertex_
edm::EDGetTokenT< edm::View< reco::Muon > > tok_muons_
edm::Ref< TrackCollection > TrackRef
persistent reference to a Track
Definition: TrackFwd.h:21
edm::EventID id() const
Definition: EventBase.h:59
boost::indirect_iterator< typename seq_t::const_iterator > const_iterator
Definition: View.h:86
def move(src, dest)
Definition: eostools.py:511

Member Data Documentation

std::map<std::string, bool> AlCaHOCalibProducer::fired
private

Definition at line 228 of file AlCaHOCalibProducer.cc.

edm::ESHandle<HcalSeverityLevelComputer> AlCaHOCalibProducer::hcalSevLvlComputerHndl
private

Definition at line 233 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore().

TH2F* AlCaHOCalibProducer::ho_occupency[5]
private

Definition at line 192 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), endJob(), and fillHOStore().

int AlCaHOCalibProducer::iring
private

Definition at line 185 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::localxhor0
private

Definition at line 187 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::localxhor1
private

Definition at line 189 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::localyhor0
private

Definition at line 188 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::localyhor1
private

Definition at line 190 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

bool AlCaHOCalibProducer::m_cosmic
private

Definition at line 194 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), fillHOStore(), and produce().

int AlCaHOCalibProducer::m_endTS
private

Definition at line 217 of file AlCaHOCalibProducer.cc.

bool AlCaHOCalibProducer::m_hbinfo
private

Definition at line 215 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and fillHOStore().

bool AlCaHOCalibProducer::m_occupancy
private

Definition at line 193 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), endJob(), and fillHOStore().

double AlCaHOCalibProducer::m_sigma
private

Definition at line 218 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and fillHOStore().

int AlCaHOCalibProducer::m_startTS
private

Definition at line 216 of file AlCaHOCalibProducer.cc.

edm::InputTag AlCaHOCalibProducer::muonTags_
private

Definition at line 203 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer().

const int AlCaHOCalibProducer::ncidmx = 5
private

Definition at line 199 of file AlCaHOCalibProducer.cc.

const int AlCaHOCalibProducer::netabin = 16
private

Definition at line 196 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

const int AlCaHOCalibProducer::netamx = 32
private

Definition at line 198 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer().

int AlCaHOCalibProducer::Nevents
private

Definition at line 234 of file AlCaHOCalibProducer.cc.

Referenced by beginJob(), endJob(), and produce().

int AlCaHOCalibProducer::Noccu
private

Definition at line 221 of file AlCaHOCalibProducer.cc.

Referenced by beginJob(), endJob(), fillHOStore(), and produce().

const int AlCaHOCalibProducer::nphimx = 72
private

Definition at line 197 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), fillHOStore(), and findHOEtaPhi().

int AlCaHOCalibProducer::nRuns
private

Definition at line 222 of file AlCaHOCalibProducer.cc.

Referenced by beginJob().

unsigned int AlCaHOCalibProducer::Ntp
private

Definition at line 227 of file AlCaHOCalibProducer.cc.

const double AlCaHOCalibProducer::rHOL0 = 382.0
private

Definition at line 200 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore().

const double AlCaHOCalibProducer::rHOL1 = 407.0
private

Definition at line 201 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore().

const HcalChannelQuality* AlCaHOCalibProducer::theHcalChStatus
private

Definition at line 231 of file AlCaHOCalibProducer.cc.

Referenced by beginLuminosityBlock(), and fillHOStore().

edm::EDGetTokenT<HBHERecHitCollection> AlCaHOCalibProducer::tok_hbhe_
private

Definition at line 211 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and fillHOStore().

edm::EDGetTokenT<HORecHitCollection> AlCaHOCalibProducer::tok_ho_
private

Definition at line 212 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and fillHOStore().

edm::EDGetTokenT<LumiScalersCollection> AlCaHOCalibProducer::tok_lumi_
private

Definition at line 209 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and produce().

edm::EDGetTokenT<edm::View<reco::Muon> > AlCaHOCalibProducer::tok_muons_
private

Definition at line 206 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and produce().

edm::EDGetTokenT<reco::TrackCollection> AlCaHOCalibProducer::tok_muonsCosmic_
private

Definition at line 205 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and produce().

edm::EDGetTokenT<CaloTowerCollection> AlCaHOCalibProducer::tok_tower_
private

Definition at line 213 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and fillHOStore().

edm::EDGetTokenT<reco::VertexCollection> AlCaHOCalibProducer::tok_vertex_
private

Definition at line 207 of file AlCaHOCalibProducer.cc.

Referenced by AlCaHOCalibProducer(), and produce().

float AlCaHOCalibProducer::xhor0
private

Definition at line 181 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::xhor1
private

Definition at line 183 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::yhor0
private

Definition at line 182 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().

float AlCaHOCalibProducer::yhor1
private

Definition at line 184 of file AlCaHOCalibProducer.cc.

Referenced by fillHOStore(), and findHOEtaPhi().