CMS 3D CMS Logo

List of all members | Classes | Public Types | Public Member Functions | Protected Member Functions | Private Member Functions | Private Attributes
MuonShowerInformationFiller Class Reference

#include <MuonShowerInformationFiller.h>

Classes

struct  AbsDThetaTransform
 
struct  AbsLessDTheta
 
struct  AbsMagTransform
 
struct  LessAbsMag
 
struct  LessMag
 
struct  LessPerp
 
struct  LessPhi
 
struct  MagTransform
 
struct  PerpTransform
 
struct  PhiTransform
 

Public Types

typedef MuonTransientTrackingRecHit::ConstMuonRecHitPointer ConstMuonRecHitPointer
 
typedef TransientTrackingRecHit::ConstRecHitContainer ConstRecHitContainer
 
typedef MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
 

Public Member Functions

void fillHitsByStation (const reco::Muon &)
 
reco::MuonShower fillShowerInformation (const reco::Muon &muon, const edm::Event &, const edm::EventSetup &)
 fill muon shower variables More...
 
 MuonShowerInformationFiller ()
 constructors More...
 
 MuonShowerInformationFiller (const edm::ParameterSet &, edm::ConsumesCollector &)
 
virtual void setEvent (const edm::Event &)
 pass the Event to the algorithm at each event More...
 
void setServices (const edm::EventSetup &)
 set the services needed More...
 
virtual ~MuonShowerInformationFiller ()
 destructor More...
 

Protected Member Functions

const MuonServiceProxygetService () const
 

Private Member Functions

GlobalPoint crossingPoint (const GlobalPoint &, const GlobalPoint &, const BarrelDetLayer *) const
 
GlobalPoint crossingPoint (const GlobalPoint &, const GlobalPoint &, const Cylinder &) const
 
GlobalPoint crossingPoint (const GlobalPoint &, const GlobalPoint &, const ForwardDetLayer *) const
 
GlobalPoint crossingPoint (const GlobalPoint &, const GlobalPoint &, const Disk &) const
 
std::vector< const GeomDet * > cscPositionToDets (const GlobalPoint &) const
 
std::vector< const GeomDet * > dtPositionToDets (const GlobalPoint &) const
 
MuonRecHitContainer findPerpCluster (const MuonRecHitContainer &muonRecHits) const
 
TransientTrackingRecHit::ConstRecHitContainer findThetaCluster (const TransientTrackingRecHit::ConstRecHitContainer &, const GlobalPoint &) const
 
std::vector< const GeomDet * > getCompatibleDets (const reco::Track &) const
 
TransientTrackingRecHit::ConstRecHitContainer hitsFromSegments (const GeomDet *, edm::Handle< DTRecSegment4DCollection >, edm::Handle< CSCSegmentCollection >) const
 

Private Attributes

std::string category_
 
std::vector< int > theAllStationHits
 
unsigned long long theCacheId_MT
 
unsigned long long theCacheId_TRH
 
std::vector< int > theCorrelatedStationHits
 
edm::ESHandle< CSCGeometrytheCSCGeometry
 
edm::ESGetToken< CSCGeometry, MuonGeometryRecordtheCSCGeometryToken
 
edm::InputTag theCSCRecHitLabel
 
edm::Handle< CSCRecHit2DCollectiontheCSCRecHits
 
edm::EDGetTokenT< CSCRecHit2DCollectiontheCSCRecHitToken
 
edm::Handle< CSCSegmentCollectiontheCSCSegments
 
edm::InputTag theCSCSegmentsLabel
 
edm::EDGetTokenT< CSCSegmentCollectiontheCSCSegmentsToken
 
edm::InputTag theDT4DRecSegmentLabel
 
edm::Handle< DTRecSegment4DCollectiontheDT4DRecSegments
 
edm::EDGetTokenT< DTRecSegment4DCollectiontheDT4DRecSegmentToken
 
edm::ESHandle< DTGeometrytheDTGeometry
 
edm::ESGetToken< DTGeometry, MuonGeometryRecordtheDTGeometryToken
 
edm::InputTag theDTRecHitLabel
 
edm::Handle< DTRecHitCollectiontheDTRecHits
 
edm::EDGetTokenT< DTRecHitCollectiontheDTRecHitToken
 
edm::ESHandle< MagneticFieldtheField
 
edm::ESGetToken< MagneticField, IdealMagneticFieldRecordtheFieldToken
 
edm::ESHandle< TransientTrackingRecHitBuildertheMuonRecHitBuilder
 
edm::ESGetToken< TransientTrackingRecHitBuilder, TransientRecHitRecordtheMuonRecHitBuilderToken
 
MuonServiceProxytheService
 
std::vector< float > theStationShowerDeltaR
 
std::vector< float > theStationShowerTSize
 
edm::ESHandle< GeometricSearchTrackertheTracker
 
edm::ESHandle< TransientTrackingRecHitBuildertheTrackerRecHitBuilder
 
edm::ESGetToken< TransientTrackingRecHitBuilder, TransientRecHitRecordtheTrackerRecHitBuilderToken
 
edm::ESGetToken< GeometricSearchTracker, TrackerRecoGeometryRecordtheTrackerToken
 
edm::ESHandle< GlobalTrackingGeometrytheTrackingGeometry
 
edm::ESGetToken< GlobalTrackingGeometry, GlobalTrackingGeometryRecordtheTrackingGeometryToken
 

Detailed Description

Description: class for muon shower identification

Author
: A. Svyatkovskiy, Purdue University

Definition at line 68 of file MuonShowerInformationFiller.h.

Member Typedef Documentation

◆ ConstMuonRecHitPointer

Definition at line 72 of file MuonShowerInformationFiller.h.

◆ ConstRecHitContainer

Definition at line 70 of file MuonShowerInformationFiller.h.

◆ MuonRecHitContainer

Definition at line 71 of file MuonShowerInformationFiller.h.

Constructor & Destructor Documentation

◆ MuonShowerInformationFiller() [1/2]

MuonShowerInformationFiller::MuonShowerInformationFiller ( )
inline

constructors

Definition at line 76 of file MuonShowerInformationFiller.h.

76 {}

◆ MuonShowerInformationFiller() [2/2]

MuonShowerInformationFiller::MuonShowerInformationFiller ( const edm::ParameterSet par,
edm::ConsumesCollector iC 
)

Definition at line 110 of file MuonShowerInformationFiller.cc.

References category_, edm::ConsumesCollector::consumes(), edm::ConsumesCollector::esConsumes(), edm::ParameterSet::getParameter(), MuonServiceProxy_cff::MuonServiceProxy, theAllStationHits, theCacheId_MT, theCacheId_TRH, theCorrelatedStationHits, theCSCGeometryToken, theCSCRecHitLabel, theCSCRecHitToken, theCSCSegmentsLabel, theCSCSegmentsToken, theDT4DRecSegmentLabel, theDT4DRecSegmentToken, theDTGeometryToken, theDTRecHitLabel, theDTRecHitToken, theFieldToken, theMuonRecHitBuilderToken, theService, theStationShowerDeltaR, theStationShowerTSize, theTrackerRecHitBuilderToken, theTrackerToken, and theTrackingGeometryToken.

111  : theService(nullptr),
112  theDTRecHitLabel(par.getParameter<InputTag>("DTRecSegmentLabel")),
113  theCSCRecHitLabel(par.getParameter<InputTag>("CSCRecSegmentLabel")),
114  theCSCSegmentsLabel(par.getParameter<InputTag>("CSCSegmentLabel")),
115  theDT4DRecSegmentLabel(par.getParameter<InputTag>("DT4DRecSegmentLabel")) {
120 
123  theFieldToken = iC.esConsumes();
126 
127  edm::ParameterSet serviceParameters = par.getParameter<edm::ParameterSet>("ServiceParameters");
128  theService = new MuonServiceProxy(serviceParameters, edm::ConsumesCollector(iC));
129 
130  auto trackerRecHitBuilderName = par.getParameter<string>("TrackerRecHitBuilder");
131  theTrackerRecHitBuilderToken = iC.esConsumes(edm::ESInputTag("", trackerRecHitBuilderName));
132  auto muonRecHitBuilderName = par.getParameter<string>("MuonRecHitBuilder");
133  theMuonRecHitBuilderToken = iC.esConsumes(edm::ESInputTag("", muonRecHitBuilderName));
134 
135  theCacheId_TRH = 0;
136  theCacheId_MT = 0;
137 
138  category_ = "MuonShowerInformationFiller";
139 
140  for (int istat = 0; istat < 4; istat++) {
141  theStationShowerDeltaR.push_back(0.);
142  theStationShowerTSize.push_back(0.);
143  theAllStationHits.push_back(0);
144  theCorrelatedStationHits.push_back(0);
145  }
146 }
EDGetTokenT< ProductType > consumes(edm::InputTag const &tag)
edm::ESGetToken< CSCGeometry, MuonGeometryRecord > theCSCGeometryToken
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
edm::ESGetToken< TransientTrackingRecHitBuilder, TransientRecHitRecord > theMuonRecHitBuilderToken
edm::EDGetTokenT< CSCSegmentCollection > theCSCSegmentsToken
edm::EDGetTokenT< CSCRecHit2DCollection > theCSCRecHitToken
edm::ESGetToken< GeometricSearchTracker, TrackerRecoGeometryRecord > theTrackerToken
edm::ESGetToken< DTGeometry, MuonGeometryRecord > theDTGeometryToken
edm::ESGetToken< MagneticField, IdealMagneticFieldRecord > theFieldToken
edm::EDGetTokenT< DTRecSegment4DCollection > theDT4DRecSegmentToken
edm::ESGetToken< GlobalTrackingGeometry, GlobalTrackingGeometryRecord > theTrackingGeometryToken
edm::EDGetTokenT< DTRecHitCollection > theDTRecHitToken
edm::ESGetToken< TransientTrackingRecHitBuilder, TransientRecHitRecord > theTrackerRecHitBuilderToken

◆ ~MuonShowerInformationFiller()

MuonShowerInformationFiller::~MuonShowerInformationFiller ( )
virtual

destructor

Definition at line 151 of file MuonShowerInformationFiller.cc.

References theService.

151  {
152  if (theService)
153  delete theService;
154 }

Member Function Documentation

◆ crossingPoint() [1/4]

GlobalPoint MuonShowerInformationFiller::crossingPoint ( const GlobalPoint p1,
const GlobalPoint p2,
const BarrelDetLayer dl 
) const
private

Definition at line 446 of file MuonShowerInformationFiller.cc.

References LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, and BarrelDetLayer::specificSurface().

Referenced by crossingPoint(), and getCompatibleDets().

448  {
449  const BoundCylinder& bc = dl->specificSurface();
450  return crossingPoint(p1, p2, bc);
451 }
GlobalPoint crossingPoint(const GlobalPoint &, const GlobalPoint &, const BarrelDetLayer *) const
virtual const BoundCylinder & specificSurface() const final
Extension of the interface.

◆ crossingPoint() [2/4]

GlobalPoint MuonShowerInformationFiller::crossingPoint ( const GlobalPoint p1,
const GlobalPoint p2,
const Cylinder cyl 
) const
private

Definition at line 453 of file MuonShowerInformationFiller.cc.

References a, Calorimetry_cff::dp, n0, LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, Cylinder::radius(), CosmicsPD_Skims::radius, slope, mathSSE::sqrt(), testProducerWithPsetDescEmpty_cfi::x1, testProducerWithPsetDescEmpty_cfi::x2, testProducerWithPsetDescEmpty_cfi::y1, testProducerWithPsetDescEmpty_cfi::y2, ppsModifySingularModes_cfi::z1, and ppsModifySingularModes_cfi::z2.

455  {
456  float radius = cyl.radius();
457 
458  GlobalVector dp = p1 - p2;
459  float slope = dp.x() / dp.y();
460  float a = p1.x() - slope * p1.y();
461 
462  float n2 = (1 + slope * slope);
463  float n1 = 2 * a * slope;
464  float n0 = a * a - radius * radius;
465 
466  float y1 = 9999;
467  float y2 = 9999;
468  if (n1 * n1 - 4 * n2 * n0 > 0) {
469  y1 = (-n1 + sqrt(n1 * n1 - 4 * n2 * n0)) / (2 * n2);
470  y2 = (-n1 - sqrt(n1 * n1 - 4 * n2 * n0)) / (2 * n2);
471  }
472 
473  float x1 = p1.x() + slope * (y1 - p1.y());
474  float x2 = p1.x() + slope * (y2 - p1.y());
475 
476  float slopeZ = dp.z() / dp.y();
477 
478  float z1 = p1.z() + slopeZ * (y1 - p1.y());
479  float z2 = p1.z() + slopeZ * (y2 - p1.y());
480 
481  // there are two crossing points, return the one that is in the same quadrant as point of extrapolation
482  if ((p2.x() * x1 > 0) && (y1 * p2.y() > 0) && (z1 * p2.z() > 0)) {
483  return GlobalPoint(x1, y1, z1);
484  } else {
485  return GlobalPoint(x2, y2, z2);
486  }
487 }
static const double slope[3]
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
int n0
Definition: AMPTWrapper.h:44
T sqrt(T t)
Definition: SSEVec.h:23
double a
Definition: hdecay.h:121
Scalar radius() const
Radius of the cylinder.
Definition: Cylinder.h:64

◆ crossingPoint() [3/4]

GlobalPoint MuonShowerInformationFiller::crossingPoint ( const GlobalPoint p1,
const GlobalPoint p2,
const ForwardDetLayer dl 
) const
private

Definition at line 492 of file MuonShowerInformationFiller.cc.

References crossingPoint(), LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, and ForwardDetLayer::specificSurface().

494  {
495  const BoundDisk& bc = dl->specificSurface();
496  return crossingPoint(p1, p2, bc);
497 }
GlobalPoint crossingPoint(const GlobalPoint &, const GlobalPoint &, const BarrelDetLayer *) const
virtual const BoundDisk & specificSurface() const final

◆ crossingPoint() [4/4]

GlobalPoint MuonShowerInformationFiller::crossingPoint ( const GlobalPoint ,
const GlobalPoint ,
const Disk  
) const
private

◆ cscPositionToDets()

vector< const GeomDet * > MuonShowerInformationFiller::cscPositionToDets ( const GlobalPoint gp) const
private

Definition at line 626 of file MuonShowerInformationFiller.cc.

References category_, srCondWrite_cfg::deltaPhi, makeMuonMisalignmentScenario::endcap, ALCARECOEcalPhiSym_cff::float, runTauDisplay::gp, mps_fire::i, LogTrace, M_PI, mps_fire::result, relativeConstraints::ring, mergeVDriftHistosByStation::sectors, relativeConstraints::station, and theService.

Referenced by getCompatibleDets().

626  {
627  // determine the endcap side
628  int endcap = 0;
629  if (gp.z() > 0) {
630  endcap = 1;
631  } else {
632  endcap = 2;
633  }
634 
635  // determine the csc station and range of rings
636  int station = 5;
637 
638  // check all rings in a station
639  if (fabs(gp.z()) > 1000. && fabs(gp.z()) < 1055.0) {
640  station = 4;
641  } else if (fabs(gp.z()) > 910.0 && fabs(gp.z()) < 965.0) {
642  station = 3;
643  } else if (fabs(gp.z()) > 800.0 && fabs(gp.z()) < 860.0) {
644  station = 2;
645  } else if (fabs(gp.z()) > 570.0 && fabs(gp.z()) < 730.0) {
646  station = 1;
647  }
648 
649  vector<int> sectors;
650 
651  float phistep1 = M_PI / 18.; //for all the rings except first rings for stations > 1
652  float phistep2 = M_PI / 9.;
653  float phigp = (float)gp.barePhi();
654 
655  int ring = -1;
656 
657  // determine the ring
658  if (station == 1) {
659  //FIX ME!!!
660  if (gp.perp() > 100 && gp.perp() < 270)
661  ring = 1;
662  else if (gp.perp() > 270 && gp.perp() < 450)
663  ring = 2;
664  else if (gp.perp() > 450 && gp.perp() < 695)
665  ring = 3;
666  else if (gp.perp() > 100 && gp.perp() < 270)
667  ring = 4;
668 
669  } else if (station == 2) {
670  if (gp.perp() > 140 && gp.perp() < 350)
671  ring = 1;
672  else if (gp.perp() > 350 && gp.perp() < 700)
673  ring = 2;
674 
675  } else if (station == 3) {
676  if (gp.perp() > 160 && gp.perp() < 350)
677  ring = 1;
678  else if (gp.perp() > 350 && gp.perp() < 700)
679  ring = 2;
680 
681  } else if (station == 4) {
682  if (gp.perp() > 175 && gp.perp() < 350)
683  ring = 1;
684  else if (gp.perp() > 350 && gp.perp() < 700)
685  ring = 2;
686  }
687 
688  if (station > 1 && ring == 1) {
689  // we have 18 sectors in that case
690  for (int i = 0; i < 18; i++) {
691  if (fabs(deltaPhi(phigp, i * phistep2)) < phistep2)
692  sectors.push_back(i + 1);
693  }
694 
695  } else {
696  // we have 36 sectors in that case
697  for (int i = 0; i < 36; i++) {
698  if (fabs(deltaPhi(phigp, i * phistep1)) < phistep1)
699  sectors.push_back(i + 1);
700  }
701  }
702 
703  LogTrace(category_) << "CSC position to dets" << endl;
704  LogTrace(category_) << "ring: " << ring << endl;
705  LogTrace(category_) << "endcap: " << endcap << endl;
706  LogTrace(category_) << "station: " << station << endl;
707  LogTrace(category_) << "CSC number of sectors to consider: " << sectors.size() << endl;
708 
709  // check exceptional cases
710  vector<const GeomDet*> result;
711  if (station > 4 || station < 1)
712  return result;
713  if (endcap == 0)
714  return result;
715  if (ring == -1)
716  return result;
717 
718  int minlayer = 1;
719  int maxlayer = 6;
720 
721  for (vector<int>::const_iterator isector = sectors.begin(); isector != sectors.end(); ++isector) {
722  for (int ilayer = minlayer; ilayer != maxlayer + 1; ++ilayer) {
723  CSCDetId cscid(endcap, station, ring, (*isector), ilayer);
724  result.push_back(theService->trackingGeometry()->idToDet(cscid));
725  }
726  }
727 
728  return result;
729 }
#define LogTrace(id)
#define M_PI

◆ dtPositionToDets()

vector< const GeomDet * > MuonShowerInformationFiller::dtPositionToDets ( const GlobalPoint gp) const
private

Definition at line 526 of file MuonShowerInformationFiller.cc.

References category_, srCondWrite_cfg::deltaPhi, ALCARECOEcalPhiSym_cff::float, runTauDisplay::gp, LogTrace, M_PI, mps_fire::result, mergeVDriftHistosByStation::sectors, relativeConstraints::station, and theService.

Referenced by getCompatibleDets().

526  {
527  int minwheel = -3;
528  int maxwheel = -3;
529  if (gp.z() < -680.0) {
530  minwheel = -3;
531  maxwheel = -3;
532  } else if (gp.z() < -396.0) {
533  minwheel = -2;
534  maxwheel = -1;
535  } else if (gp.z() < -126.8) {
536  minwheel = -2;
537  maxwheel = 0;
538  } else if (gp.z() < 126.8) {
539  minwheel = -1;
540  maxwheel = 1;
541  } else if (gp.z() < 396.0) {
542  minwheel = 0;
543  maxwheel = 2;
544  } else if (gp.z() < 680.0) {
545  minwheel = 1;
546  maxwheel = 2;
547  } else {
548  minwheel = 3;
549  maxwheel = 3;
550  }
551 
552  int station = 5;
553  if (gp.perp() > 680.0 && gp.perp() < 755.0)
554  station = 4;
555  else if (gp.perp() > 580.0)
556  station = 3;
557  else if (gp.perp() > 480.0)
558  station = 2;
559  else if (gp.perp() > 380.0)
560  station = 1;
561  else
562  station = 0;
563 
564  vector<int> sectors;
565 
566  float phistep = M_PI / 6;
567 
568  float phigp = (float)gp.barePhi();
569 
570  if (fabs(deltaPhi(phigp, 0 * phistep)) < phistep)
571  sectors.push_back(1);
572  if (fabs(deltaPhi(phigp, phistep)) < phistep)
573  sectors.push_back(2);
574  if (fabs(deltaPhi(phigp, 2 * phistep)) < phistep)
575  sectors.push_back(3);
576  if (fabs(deltaPhi(phigp, 3 * phistep)) < phistep) {
577  sectors.push_back(4);
578  if (station == 4)
579  sectors.push_back(13);
580  }
581  if (fabs(deltaPhi(phigp, 4 * phistep)) < phistep)
582  sectors.push_back(5);
583  if (fabs(deltaPhi(phigp, 5 * phistep)) < phistep)
584  sectors.push_back(6);
585  if (fabs(deltaPhi(phigp, 6 * phistep)) < phistep)
586  sectors.push_back(7);
587  if (fabs(deltaPhi(phigp, 7 * phistep)) < phistep)
588  sectors.push_back(8);
589  if (fabs(deltaPhi(phigp, 8 * phistep)) < phistep)
590  sectors.push_back(9);
591  if (fabs(deltaPhi(phigp, 9 * phistep)) < phistep) {
592  sectors.push_back(10);
593  if (station == 4)
594  sectors.push_back(14);
595  }
596  if (fabs(deltaPhi(phigp, 10 * phistep)) < phistep)
597  sectors.push_back(11);
598  if (fabs(deltaPhi(phigp, 11 * phistep)) < phistep)
599  sectors.push_back(12);
600 
601  LogTrace(category_) << "DT position to dets" << endl;
602  LogTrace(category_) << "number of sectors to consider: " << sectors.size() << endl;
603  LogTrace(category_) << "station: " << station << " wheels: " << minwheel << " " << maxwheel << endl;
604 
605  vector<const GeomDet*> result;
606  if (station > 4 || station < 1)
607  return result;
608  if (minwheel > 2 || maxwheel < -2)
609  return result;
610 
611  for (vector<int>::const_iterator isector = sectors.begin(); isector != sectors.end(); ++isector) {
612  for (int iwheel = minwheel; iwheel != maxwheel + 1; ++iwheel) {
613  DTChamberId chamberid(iwheel, station, (*isector));
614  result.push_back(theService->trackingGeometry()->idToDet(chamberid));
615  }
616  }
617 
618  LogTrace(category_) << "number of GeomDets for this track: " << result.size() << endl;
619 
620  return result;
621 }
#define LogTrace(id)
#define M_PI

◆ fillHitsByStation()

void MuonShowerInformationFiller::fillHitsByStation ( const reco::Muon muon)

Definition at line 734 of file MuonShowerInformationFiller.cc.

References funct::abs(), SplitLinear::begin, category_, filterCSVwithJSON::copy, MuonSubdetId::CSC, srCondWrite_cfg::deltaPhi, DetId::det(), ALCARECOPPSCalTrackBasedSel_cff::detid, MuonSubdetId::DT, mps_fire::end, findPerpCluster(), findThetaCluster(), ALCARECOEcalPhiSym_cff::float, getCompatibleDets(), hitsFromSegments(), iseed, LogTrace, PV3DBase< T, PVType, FrameType >::mag(), WZElectronSkims53X_cff::max, DTChamberId::maxLayerId, DTChamberId::maxSuperLayerId, SiStripPI::min, DTChamberId::minLayerId, DTChamberId::minSuperLayerId, DetId::Muon, phi, funct::pow(), DetId::rawId(), relativeConstraints::ring, MuonSubdetId::RPC, MuonTransientTrackingRecHit::specificBuild(), mathSSE::sqrt(), edm_modernize_messagelogger::stat, relativeConstraints::station, DetId::subdetId(), groupFilesInBlocks::temp, theAllStationHits, theCorrelatedStationHits, theCSCRecHits, theCSCSegments, theDT4DRecSegments, theDTRecHits, theStationShowerDeltaR, theStationShowerTSize, HLT_2024v14_cff::track, and makeMuonMisalignmentScenario::wheel.

Referenced by fillShowerInformation().

734  {
736  if (muon.isGlobalMuon())
737  track = muon.globalTrack();
738  else if (muon.isStandAloneMuon())
739  track = muon.outerTrack();
740  else
741  return;
742 
743  // split 1D rechits by station
744  vector<MuonRecHitContainer> muonRecHits(4);
745 
746  // split rechits from segs by station
747  vector<TransientTrackingRecHit::ConstRecHitContainer> muonCorrelatedHits(4);
748 
749  // get vector of GeomDets compatible with a track
750  vector<const GeomDet*> compatibleLayers = getCompatibleDets(*track);
751 
752  // for special cases: CSC station 1
753  MuonRecHitContainer tmpCSC1;
754  bool dtOverlapToCheck = false;
755  bool cscOverlapToCheck = false;
756 
757  for (vector<const GeomDet*>::const_iterator igd = compatibleLayers.begin(); igd != compatibleLayers.end(); igd++) {
758  // get det id
759  DetId geoId = (*igd)->geographicalId();
760 
761  // skip tracker hits
762  if (geoId.det() != DetId::Muon)
763  continue;
764 
765  // DT
766  if (geoId.subdetId() == MuonSubdetId::DT) {
767  // get station
768  DTChamberId detid(geoId.rawId());
769  int station = detid.station();
770  int wheel = detid.wheel();
771 
772  // get rechits from segments per station
773  TransientTrackingRecHit::ConstRecHitContainer muonCorrelatedHitsTmp =
775  TransientTrackingRecHit::ConstRecHitContainer::const_iterator hits_begin = muonCorrelatedHitsTmp.begin();
776  TransientTrackingRecHit::ConstRecHitContainer::const_iterator hits_end = muonCorrelatedHitsTmp.end();
777 
778  for (; hits_begin != hits_end; ++hits_begin) {
779  muonCorrelatedHits.at(station - 1).push_back(*hits_begin);
780  }
781 
782  //check overlap certain wheels and stations
783  if (abs(wheel) == 2 && station != 4 && station != 1)
784  dtOverlapToCheck = true;
785 
786  // loop over all superlayers of a DT chamber
787  for (int isuperlayer = DTChamberId::minSuperLayerId; isuperlayer != DTChamberId::maxSuperLayerId + 1;
788  ++isuperlayer) {
789  // loop over all layers inside the superlayer
790  for (int ilayer = DTChamberId::minLayerId; ilayer != DTChamberId::maxLayerId + 1; ++ilayer) {
791  DTLayerId lid(detid, isuperlayer, ilayer);
792  DTRecHitCollection::range dRecHits = theDTRecHits->get(lid);
793  for (DTRecHitCollection::const_iterator rechit = dRecHits.first; rechit != dRecHits.second; ++rechit) {
794  vector<const TrackingRecHit*> subrechits = (*rechit).recHits();
795  for (vector<const TrackingRecHit*>::iterator irechit = subrechits.begin(); irechit != subrechits.end();
796  ++irechit) {
797  muonRecHits.at(station - 1).push_back(MuonTransientTrackingRecHit::specificBuild((&**igd), &**irechit));
798  }
799  }
800  }
801  }
802  } else if (geoId.subdetId() == MuonSubdetId::CSC) {
803  // get station
804  CSCDetId did(geoId.rawId());
805  int station = did.station();
806  int ring = did.ring();
807 
808  //get rechits from segments by station
809  TransientTrackingRecHit::ConstRecHitContainer muonCorrelatedHitsTmp =
811  TransientTrackingRecHit::ConstRecHitContainer::const_iterator hits_begin = muonCorrelatedHitsTmp.begin();
812  TransientTrackingRecHit::ConstRecHitContainer::const_iterator hits_end = muonCorrelatedHitsTmp.end();
813 
814  for (; hits_begin != hits_end; ++hits_begin) {
815  muonCorrelatedHits.at(station - 1).push_back(*hits_begin);
816  }
817 
818  if ((station == 1 && ring == 3) && dtOverlapToCheck)
819  cscOverlapToCheck = true;
820 
821  // split 1D rechits by station
822  CSCRecHit2DCollection::range dRecHits = theCSCRecHits->get(did);
823  for (CSCRecHit2DCollection::const_iterator rechit = dRecHits.first; rechit != dRecHits.second; ++rechit) {
824  if (!cscOverlapToCheck) {
825  muonRecHits.at(station - 1).push_back(MuonTransientTrackingRecHit::specificBuild((&**igd), &*rechit));
826  } else {
827  tmpCSC1.push_back(MuonTransientTrackingRecHit::specificBuild((&**igd), &*rechit));
828 
829  //sort by perp, then insert to appropriate container
831  if (temp.empty())
832  continue;
833 
834  float center;
835  if (temp.size() > 1) {
836  center = (temp.front()->globalPosition().perp() + temp.back()->globalPosition().perp()) / 2.;
837  } else {
838  center = temp.front()->globalPosition().perp();
839  }
840  temp.clear();
841 
842  if (center > 550.) {
843  muonRecHits.at(2).insert(muonRecHits.at(2).end(), tmpCSC1.begin(), tmpCSC1.end());
844  } else {
845  muonRecHits.at(1).insert(muonRecHits.at(1).end(), tmpCSC1.begin(), tmpCSC1.end());
846  }
847  tmpCSC1.clear();
848  }
849  }
850  } else if (geoId.subdetId() == MuonSubdetId::RPC) {
851  LogTrace(category_) << "Wrong subdet id" << endl;
852  }
853  } //loop over GeomDets compatible with a track
854 
855  // calculate number of all and correlated hits
856  for (int stat = 0; stat < 4; stat++) {
857  theCorrelatedStationHits[stat] = muonCorrelatedHits.at(stat).size();
858  theAllStationHits[stat] = muonRecHits[stat].size();
859  }
860  LogTrace(category_) << "Hits used by the segments, by station " << theCorrelatedStationHits.at(0) << " "
861  << theCorrelatedStationHits.at(1) << " " << theCorrelatedStationHits.at(2) << " "
862  << theCorrelatedStationHits.at(3) << endl;
863 
864  LogTrace(category_) << "All DT 1D/CSC 2D hits, by station " << theAllStationHits.at(0) << " "
865  << theAllStationHits.at(1) << " " << theAllStationHits.at(2) << " " << theAllStationHits.at(3)
866  << endl;
867 
868  //station shower sizes
870  TransientTrackingRecHit::ConstRecHitContainer muonRecHitsThetaTemp, muonRecHitsThetaBest;
871  // send station hits to the clustering algorithm
872  for (int stat = 0; stat != 4; stat++) {
873  const size_t nhit = muonRecHits[stat].size();
874  if (nhit < 2)
875  continue; // Require at least 2 hits
876  muonRecHitsPhiBest.clear();
877  muonRecHitsPhiBest.reserve(nhit);
878 
879  // Cluster seeds by global position phi. Best cluster is chosen to give greatest dphi
880  // Sort by phi (complexity = NLogN with enough memory, or = NLog^2N for insufficient mem)
881  muonRecHits[stat] = sort_all_indexed(muonRecHits[stat], std::less(), PhiTransform());
882 
883  // Search for gaps (complexity = N)
884  std::vector<size_t> clUppers;
885  for (size_t ihit = 0; ihit < nhit; ++ihit) {
886  const size_t jhit = (ihit + 1) % nhit;
887  const double phi1 = muonRecHits[stat].at(ihit)->globalPosition().barePhi();
888  const double phi2 = muonRecHits[stat].at(jhit)->globalPosition().barePhi();
889 
890  const double dphi = std::abs(deltaPhi(phi1, phi2));
891  if (dphi >= 0.05)
892  clUppers.push_back(ihit);
893  }
894 
895  //station shower sizes
896  double dphimax = 0;
897  if (clUppers.empty()) {
898  // No gaps - there is only one cluster. Take all of them
899  const double refPhi = muonRecHits[stat].at(0)->globalPosition().barePhi();
900  double dphilo = 0, dphihi = 0;
901  for (auto& hit : muonRecHits[stat]) {
902  muonRecHitsPhiBest.push_back(hit);
903  const double phi = hit->globalPosition().barePhi();
904  dphilo = std::min(dphilo, deltaPhi(refPhi, phi));
905  dphihi = std::max(dphihi, deltaPhi(refPhi, phi));
906  }
907  dphimax = std::abs(dphihi + dphilo);
908  } else {
909  // Loop over gaps to find the one with maximum dphi(begin, end)
910  // By construction, number of gap must be greater than 1.
911  size_t bestUpper = 0, bestLower = 0;
912  for (auto icl = clUppers.begin(); icl != clUppers.end(); ++icl) {
913  // upper bound of this cluster
914  const size_t upper = *icl;
915  // lower bound is +1 of preceeding upper bound
916  const auto prevCl = (icl == clUppers.begin()) ? clUppers.end() : icl;
917  const size_t lower = (*(prevCl - 1) + 1) % nhit;
918 
919  // At least two hit for a cluster
920  if (upper == lower)
921  continue;
922 
923  const double phi1 = muonRecHits[stat].at(upper)->globalPosition().barePhi();
924  const double phi2 = muonRecHits[stat].at(lower)->globalPosition().barePhi();
925 
926  const double dphi = std::abs(deltaPhi(phi1, phi2));
927  if (dphimax < dphi) {
928  dphimax = dphi;
929  bestUpper = upper;
930  bestLower = lower;
931  }
932  }
933 
934  if (bestUpper > bestLower) {
935  muonRecHitsPhiBest.reserve(bestUpper - bestLower + 1);
936  std::copy(muonRecHits[stat].begin() + bestLower,
937  muonRecHits[stat].begin() + bestUpper + 1,
938  std::back_inserter(muonRecHitsPhiBest));
939  } else if (bestUpper < bestLower) {
940  muonRecHitsPhiBest.reserve(bestUpper + (nhit - bestLower) + 1);
941  std::copy(muonRecHits[stat].begin(),
942  muonRecHits[stat].begin() + bestUpper + 1,
943  std::back_inserter(muonRecHitsPhiBest));
944  std::copy(
945  muonRecHits[stat].begin() + bestLower, muonRecHits[stat].end(), std::back_inserter(muonRecHitsPhiBest));
946  }
947  }
948 
949  //fill showerTs
950  if (!muonRecHitsPhiBest.empty()) {
951  muonRecHits[stat] = sort_all_indexed(muonRecHitsPhiBest, std::less(), AbsMagTransform());
952  GlobalPoint refpoint = muonRecHits[stat].front()->globalPosition();
953  theStationShowerTSize.at(stat) = refpoint.mag() * dphimax;
954  }
955 
956  //for theta
957  if (!muonCorrelatedHits.at(stat).empty()) {
958  float dthetamax = 0;
959  for (TransientTrackingRecHit::ConstRecHitContainer::const_iterator iseed = muonCorrelatedHits.at(stat).begin();
960  iseed != muonCorrelatedHits.at(stat).end();
961  ++iseed) {
962  if (!(*iseed)->isValid())
963  continue;
964  GlobalPoint refpoint = (*iseed)->globalPosition(); //starting from the one with smallest value of phi
965  muonRecHitsThetaTemp.clear();
966  muonRecHitsThetaTemp = findThetaCluster(muonCorrelatedHits.at(stat), refpoint);
967  if (muonRecHitsThetaTemp.size() > 1) {
968  float dtheta = fabs((float)muonRecHitsThetaTemp.back()->globalPosition().theta() -
969  (float)muonRecHitsThetaTemp.front()->globalPosition().theta());
970  if (dtheta > dthetamax) {
971  dthetamax = dtheta;
972  muonRecHitsThetaBest = muonRecHitsThetaTemp;
973  }
974  } //at least two hits
975  } //loop over seeds
976  } //not empty container2
977 
978  //fill deltaRs
979  if (muonRecHitsThetaBest.size() > 1 && muonRecHitsPhiBest.size() > 1)
980  theStationShowerDeltaR.at(stat) = sqrt(pow(deltaPhi(muonRecHitsPhiBest.front()->globalPosition().barePhi(),
981  muonRecHitsPhiBest.back()->globalPosition().barePhi()),
982  2) +
983  pow(muonRecHitsThetaBest.front()->globalPosition().theta() -
984  muonRecHitsThetaBest.back()->globalPosition().theta(),
985  2));
986 
987  } //loop over station
988 
989  LogTrace(category_) << "deltaR around a track containing all the station hits, by station "
990  << theStationShowerDeltaR.at(0) << " " << theStationShowerDeltaR.at(1) << " "
991  << theStationShowerDeltaR.at(2) << " " << theStationShowerDeltaR.at(3) << endl;
992 
993  LogTrace(category_) << "Transverse cluster size, by station " << theStationShowerTSize.at(0) << " "
994  << theStationShowerTSize.at(1) << " " << theStationShowerTSize.at(2) << " "
995  << theStationShowerTSize.at(3) << endl;
996 
997  return;
998 }
std::pair< const_iterator, const_iterator > range
iterator range
Definition: RangeMap.h:50
TransientTrackingRecHit::ConstRecHitContainer hitsFromSegments(const GeomDet *, edm::Handle< DTRecSegment4DCollection >, edm::Handle< CSCSegmentCollection >) const
constexpr Detector det() const
get the detector field from this detid
Definition: DetId.h:46
std::vector< const GeomDet * > getCompatibleDets(const reco::Track &) const
#define LogTrace(id)
C::const_iterator const_iterator
constant access iterator type
Definition: RangeMap.h:43
static const int maxLayerId
highest layer id
Definition: DTChamberId.h:73
T sqrt(T t)
Definition: SSEVec.h:23
TransientTrackingRecHit::ConstRecHitContainer findThetaCluster(const TransientTrackingRecHit::ConstRecHitContainer &, const GlobalPoint &) const
edm::Handle< DTRecHitCollection > theDTRecHits
T mag() const
Definition: PV3DBase.h:64
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
static const int minLayerId
lowest layer id. 0 indicates a full SL
Definition: DTChamberId.h:71
constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:48
static const int maxSuperLayerId
highest superlayer id
Definition: DTChamberId.h:69
edm::Handle< CSCSegmentCollection > theCSCSegments
std::vector< ConstRecHitPointer > ConstRecHitContainer
Definition: DetId.h:17
int iseed
Definition: AMPTWrapper.h:134
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
edm::Handle< CSCRecHit2DCollection > theCSCRecHits
static constexpr int RPC
Definition: MuonSubdetId.h:13
static const int minSuperLayerId
loweset super layer id. 0 indicates a full chamber
Definition: DTChamberId.h:67
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
static constexpr int DT
Definition: MuonSubdetId.h:11
MuonRecHitContainer findPerpCluster(const MuonRecHitContainer &muonRecHits) const
static constexpr int CSC
Definition: MuonSubdetId.h:12
static MuonRecHitPointer specificBuild(const GeomDet *geom, const TrackingRecHit *rh)
std::vector< MuonRecHitPointer > MuonRecHitContainer
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29
edm::Handle< DTRecSegment4DCollection > theDT4DRecSegments

◆ fillShowerInformation()

reco::MuonShower MuonShowerInformationFiller::fillShowerInformation ( const reco::Muon muon,
const edm::Event iEvent,
const edm::EventSetup iSetup 
)

fill muon shower variables

Definition at line 159 of file MuonShowerInformationFiller.cc.

References fillHitsByStation(), iEvent, reco::MuonShower::nStationCorrelatedHits, reco::MuonShower::nStationHits, setEvent(), setServices(), reco::MuonShower::stationShowerDeltaR, reco::MuonShower::stationShowerSizeT, theAllStationHits, theCorrelatedStationHits, theService, theStationShowerDeltaR, and theStationShowerTSize.

Referenced by MuonShowerInformationProducer::produce().

161  {
162  reco::MuonShower returnShower;
163 
164  // Update the services
165  theService->update(iSetup);
166  setEvent(iEvent);
167  setServices(theService->eventSetup());
168 
170  std::vector<int> nStationHits = theAllStationHits;
171  std::vector<int> nStationCorrelatedHits = theCorrelatedStationHits;
172  std::vector<float> stationShowerSizeT = theStationShowerTSize;
173  std::vector<float> stationShowerDeltaR = theStationShowerDeltaR;
174 
175  returnShower.nStationHits = nStationHits;
176  returnShower.nStationCorrelatedHits = nStationCorrelatedHits;
177  returnShower.stationShowerSizeT = stationShowerSizeT;
178  returnShower.stationShowerDeltaR = stationShowerDeltaR;
179 
180  return returnShower;
181 }
virtual void setEvent(const edm::Event &)
pass the Event to the algorithm at each event
void setServices(const edm::EventSetup &)
set the services needed
std::vector< int > nStationHits
number of all the muon RecHits per chamber crossed by a track (1D hits)
Definition: MuonShower.h:9
std::vector< int > nStationCorrelatedHits
number of the muon RecHits used by segments per chamber crossed by a track
Definition: MuonShower.h:11
int iEvent
Definition: GenABIO.cc:224
void fillHitsByStation(const reco::Muon &)
std::vector< float > stationShowerSizeT
the transverse size of the hit cluster
Definition: MuonShower.h:13
std::vector< float > stationShowerDeltaR
the radius of the cone containing the all the hits around the track
Definition: MuonShower.h:15

◆ findPerpCluster()

MuonTransientTrackingRecHit::MuonRecHitContainer MuonShowerInformationFiller::findPerpCluster ( const MuonRecHitContainer muonRecHits) const
private

Definition at line 344 of file MuonShowerInformationFiller.cc.

References perp(), and mps_fire::result.

Referenced by fillHitsByStation().

345  {
346  if (muonRecHitsIn.empty())
347  return muonRecHitsIn;
348 
349  auto muonRecHitsTmp = sort_all_indexed(muonRecHitsIn, std::less(), PerpTransform());
350 
351  MuonTransientTrackingRecHit::MuonRecHitContainer::const_iterator seedhit =
352  min_element(muonRecHitsTmp.begin(), muonRecHitsTmp.end(), LessPerp());
353 
354  MuonTransientTrackingRecHit::MuonRecHitContainer::const_iterator ihigh = seedhit;
355  MuonTransientTrackingRecHit::MuonRecHitContainer::const_iterator ilow = seedhit;
356 
357  float step = 0.1;
358  while (ihigh != muonRecHitsTmp.end() - 1 &&
359  (fabs((*(ihigh + 1))->globalPosition().perp() - (*ihigh)->globalPosition().perp()) < step)) {
360  ihigh++;
361  }
362  while (ilow != muonRecHitsTmp.begin() &&
363  (fabs((*ilow)->globalPosition().perp() - (*(ilow - 1))->globalPosition().perp()) < step)) {
364  ilow--;
365  }
366 
368 
369  return result;
370 }
T perp() const
Magnitude of transverse component.
step
Definition: StallMonitor.cc:83
std::vector< MuonRecHitPointer > MuonRecHitContainer

◆ findThetaCluster()

TransientTrackingRecHit::ConstRecHitContainer MuonShowerInformationFiller::findThetaCluster ( const TransientTrackingRecHit::ConstRecHitContainer muonRecHitsIn,
const GlobalPoint refpoint 
) const
private

Definition at line 317 of file MuonShowerInformationFiller.cc.

References mps_fire::result, and tauSpinnerTable_cfi::theta.

Referenced by fillHitsByStation().

318  {
319  if (muonRecHitsIn.empty())
320  return muonRecHitsIn;
321 
322  //clustering step by theta
323  float step = 0.05;
325 
326  auto muonRecHitsTmp = sort_all_indexed(muonRecHitsIn, std::less(), AbsDThetaTransform(refpoint));
327 
328  for (TransientTrackingRecHit::ConstRecHitContainer::const_iterator ihit = muonRecHitsTmp.begin();
329  ihit != muonRecHitsTmp.end() - 1;
330  ++ihit) {
331  if (fabs((*(ihit + 1))->globalPosition().theta() - (*ihit)->globalPosition().theta()) < step) {
332  result.push_back(*ihit);
333  } else {
334  break;
335  }
336  }
337 
338  return result;
339 }
std::vector< ConstRecHitPointer > ConstRecHitContainer
step
Definition: StallMonitor.cc:83

◆ getCompatibleDets()

vector< const GeomDet * > MuonShowerInformationFiller::getCompatibleDets ( const reco::Track track) const
private

Definition at line 375 of file MuonShowerInformationFiller.cc.

References SplitLinear::begin, category_, crossingPoint(), cscPositionToDets(), dtPositionToDets(), mps_fire::end, TrajectoryStateOnSurface::globalPosition(), trajectoryStateTransform::innerStateOnSurface(), LogTrace, trajectoryStateTransform::outerStateOnSurface(), theService, dqmMemoryStats::total, HLT_2024v14_cff::track, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by fillHitsByStation().

375  {
376  vector<const GeomDet*> total;
377  total.reserve(1000);
378 
379  LogTrace(category_) << "Consider a track " << track.p() << " eta: " << track.eta() << " phi " << track.phi() << endl;
380 
382  track, *theService->trackingGeometry(), &*theService->magneticField());
384  track, *theService->trackingGeometry(), &*theService->magneticField());
385 
386  GlobalPoint innerPos = innerTsos.globalPosition();
387  GlobalPoint outerPos = outerTsos.globalPosition();
388 
389  vector<GlobalPoint> allCrossingPoints;
390 
391  const vector<const DetLayer*>& dtlayers = theService->detLayerGeometry()->allDTLayers();
392 
393  for (auto iLayer = dtlayers.begin(); iLayer != dtlayers.end(); ++iLayer) {
394  // crossing points of track with cylinder
395  GlobalPoint xPoint = crossingPoint(innerPos, outerPos, dynamic_cast<const BarrelDetLayer*>(*iLayer));
396 
397  // check if point is inside the detector
398  if ((fabs(xPoint.y()) < 1000.0) && (fabs(xPoint.z()) < 1500) &&
399  (!(xPoint.y() == 0 && xPoint.x() == 0 && xPoint.z() == 0)))
400  allCrossingPoints.push_back(xPoint);
401  }
402 
403  allCrossingPoints = sort_all_indexed(allCrossingPoints, std::less(), MagTransform(innerPos));
404 
405  vector<const GeomDet*> tempDT;
406 
407  for (vector<GlobalPoint>::const_iterator ipos = allCrossingPoints.begin(); ipos != allCrossingPoints.end(); ++ipos) {
408  tempDT = dtPositionToDets(*ipos);
409  vector<const GeomDet*>::const_iterator begin = tempDT.begin();
410  vector<const GeomDet*>::const_iterator end = tempDT.end();
411 
412  for (; begin != end; ++begin) {
413  total.push_back(*begin);
414  }
415  }
416  allCrossingPoints.clear();
417 
418  const vector<const DetLayer*>& csclayers = theService->detLayerGeometry()->allCSCLayers();
419  for (auto iLayer = csclayers.begin(); iLayer != csclayers.end(); ++iLayer) {
420  GlobalPoint xPoint = crossingPoint(innerPos, outerPos, dynamic_cast<const ForwardDetLayer*>(*iLayer));
421 
422  // check if point is inside the detector
423  if ((fabs(xPoint.y()) < 1000.0) && (fabs(xPoint.z()) < 1500.0) &&
424  (!(xPoint.y() == 0 && xPoint.x() == 0 && xPoint.z() == 0)))
425  allCrossingPoints.push_back(xPoint);
426  }
427  allCrossingPoints = sort_all_indexed(allCrossingPoints, std::less(), MagTransform(innerPos));
428 
429  vector<const GeomDet*> tempCSC;
430  for (vector<GlobalPoint>::const_iterator ipos = allCrossingPoints.begin(); ipos != allCrossingPoints.end(); ++ipos) {
431  tempCSC = cscPositionToDets(*ipos);
432  vector<const GeomDet*>::const_iterator begin = tempCSC.begin();
433  vector<const GeomDet*>::const_iterator end = tempCSC.end();
434 
435  for (; begin != end; ++begin) {
436  total.push_back(*begin);
437  }
438  }
439 
440  return total;
441 }
std::vector< const GeomDet * > cscPositionToDets(const GlobalPoint &) const
TrajectoryStateOnSurface outerStateOnSurface(const reco::Track &tk, const TrackingGeometry &geom, const MagneticField *field, bool withErr=true)
T z() const
Definition: PV3DBase.h:61
#define LogTrace(id)
T x() const
Definition: PV3DBase.h:59
T y() const
Definition: PV3DBase.h:60
GlobalPoint globalPosition() const
GlobalPoint crossingPoint(const GlobalPoint &, const GlobalPoint &, const BarrelDetLayer *) const
std::vector< const GeomDet * > dtPositionToDets(const GlobalPoint &) const
TrajectoryStateOnSurface innerStateOnSurface(const reco::Track &tk, const TrackingGeometry &geom, const MagneticField *field, bool withErr=true)

◆ getService()

const MuonServiceProxy* MuonShowerInformationFiller::getService ( ) const
inlineprotected

Definition at line 95 of file MuonShowerInformationFiller.h.

References theService.

95 { return theService; }

◆ hitsFromSegments()

TransientTrackingRecHit::ConstRecHitContainer MuonShowerInformationFiller::hitsFromSegments ( const GeomDet geomDet,
edm::Handle< DTRecSegment4DCollection dtSegments,
edm::Handle< CSCSegmentCollection cscSegments 
) const
private

Definition at line 223 of file MuonShowerInformationFiller.cc.

References MuonTransientTrackingRecHitBreaker::breakInSubRecHits(), category_, dtT0FillChamberFromDBCorrection_cfg::chamberId, MuonSubdetId::CSC, dtChamberEfficiency_cfi::cscSegments, MuonSubdetId::DT, GeomDet::geographicalId(), LogTrace, mag(), isotrackApplyRegressor::range, DetId::rawId(), MuonTransientTrackingRecHit::specificBuild(), and DetId::subdetId().

Referenced by fillHitsByStation().

226  {
228 
229  DetId geoId = geomDet->geographicalId();
230 
231  if (geoId.subdetId() == MuonSubdetId::DT) {
232  DTChamberId chamberId(geoId.rawId());
233 
234  // loop on segments 4D
236  for (chamberIdIt = dtSegments->id_begin(); chamberIdIt != dtSegments->id_end(); ++chamberIdIt) {
237  if (*chamberIdIt != chamberId)
238  continue;
239 
240  // Get the range for the corresponding ChamberId
241  DTRecSegment4DCollection::range range = dtSegments->get((*chamberIdIt));
242 
243  for (DTRecSegment4DCollection::const_iterator iseg = range.first; iseg != range.second; ++iseg) {
244  if (iseg->dimension() != 4)
245  continue;
246  segments.push_back(MuonTransientTrackingRecHit::specificBuild(geomDet, &*iseg));
247  }
248  }
249  } else if (geoId.subdetId() == MuonSubdetId::CSC) {
250  CSCDetId did(geoId.rawId());
251 
253  ++chamberId) {
254  if ((*chamberId).chamber() != did.chamber())
255  continue;
256 
257  // Get the range for the corresponding ChamberId
259 
260  for (CSCSegmentCollection::const_iterator iseg = range.first; iseg != range.second; ++iseg) {
261  if (iseg->dimension() != 3)
262  continue;
263  segments.push_back(MuonTransientTrackingRecHit::specificBuild(geomDet, &*iseg));
264  }
265  }
266  } else {
267  LogTrace(category_) << "Segments are not built in RPCs" << endl;
268  }
269 
271 
272  if (segments.empty())
273  return allhitscorrelated;
274 
275  TransientTrackingRecHit::ConstRecHitPointer muonRecHit(segments.front());
276  allhitscorrelated = MuonTransientTrackingRecHitBreaker::breakInSubRecHits(muonRecHit, 2);
277 
278  if (segments.size() == 1)
279  return allhitscorrelated;
280 
281  for (MuonTransientTrackingRecHit::MuonRecHitContainer::const_iterator iseg = segments.begin() + 1;
282  iseg != segments.end();
283  ++iseg) {
287 
288  for (TransientTrackingRecHit::ConstRecHitContainer::const_iterator ihit1 = hits1.begin(); ihit1 != hits1.end();
289  ++ihit1) {
290  bool usedbefore = false;
291  //unused DetId thisID = (*ihit1)->geographicalId();
292  //LocalPoint lp1dinsegHit = (*ihit1)->localPosition();
293  GlobalPoint gp1dinsegHit = (*ihit1)->globalPosition();
294 
295  for (TransientTrackingRecHit::ConstRecHitContainer::const_iterator ihit2 = allhitscorrelated.begin();
296  ihit2 != allhitscorrelated.end();
297  ++ihit2) {
298  //unused DetId thisID2 = (*ihit2)->geographicalId();
299  //LocalPoint lp1dinsegHit2 = (*ihit2)->localPosition();
300  GlobalPoint gp1dinsegHit2 = (*ihit2)->globalPosition();
301 
302  if ((gp1dinsegHit2 - gp1dinsegHit).mag() < 1.0)
303  usedbefore = true;
304  }
305  if (!usedbefore)
306  allhitscorrelated.push_back(*ihit1);
307  }
308  }
309 
310  return allhitscorrelated;
311 }
std::pair< const_iterator, const_iterator > range
iterator range
Definition: RangeMap.h:50
identifier iterator
Definition: RangeMap.h:130
#define LogTrace(id)
static TransientTrackingRecHit::ConstRecHitContainer breakInSubRecHits(TransientTrackingRecHit::ConstRecHitPointer, int granularity)
takes a muon rechit and returns its sub-rechits given a certain granularity
C::const_iterator const_iterator
constant access iterator type
Definition: RangeMap.h:43
std::shared_ptr< TrackingRecHit const > ConstRecHitPointer
constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:48
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
std::vector< ConstRecHitPointer > ConstRecHitContainer
Definition: DetId.h:17
T mag() const
The vector magnitude. Equivalent to sqrt(vec.mag2())
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
static constexpr int DT
Definition: MuonSubdetId.h:11
static constexpr int CSC
Definition: MuonSubdetId.h:12
static MuonRecHitPointer specificBuild(const GeomDet *geom, const TrackingRecHit *rh)
std::vector< MuonRecHitPointer > MuonRecHitContainer

◆ setEvent()

void MuonShowerInformationFiller::setEvent ( const edm::Event event)
virtual

pass the Event to the algorithm at each event

Definition at line 186 of file MuonShowerInformationFiller.cc.

References theAllStationHits, theCorrelatedStationHits, theCSCRecHits, theCSCRecHitToken, theCSCSegments, theCSCSegmentsToken, theDT4DRecSegments, theDT4DRecSegmentToken, theDTRecHits, theDTRecHitToken, theStationShowerDeltaR, and theStationShowerTSize.

Referenced by fillShowerInformation().

186  {
187  // get all the necesary products
188  event.getByToken(theDTRecHitToken, theDTRecHits);
189  event.getByToken(theCSCRecHitToken, theCSCRecHits);
190  event.getByToken(theCSCSegmentsToken, theCSCSegments);
191  event.getByToken(theDT4DRecSegmentToken, theDT4DRecSegments);
192 
193  for (int istat = 0; istat < 4; istat++) {
194  theStationShowerDeltaR.at(istat) = 0.;
195  theStationShowerTSize.at(istat) = 0.;
196  theAllStationHits.at(istat) = 0;
197  theCorrelatedStationHits.at(istat) = 0;
198  }
199 }
edm::EDGetTokenT< CSCSegmentCollection > theCSCSegmentsToken
edm::EDGetTokenT< CSCRecHit2DCollection > theCSCRecHitToken
edm::Handle< DTRecHitCollection > theDTRecHits
edm::Handle< CSCSegmentCollection > theCSCSegments
edm::EDGetTokenT< DTRecSegment4DCollection > theDT4DRecSegmentToken
edm::Handle< CSCRecHit2DCollection > theCSCRecHits
edm::EDGetTokenT< DTRecHitCollection > theDTRecHitToken
edm::Handle< DTRecSegment4DCollection > theDT4DRecSegments

◆ setServices()

void MuonShowerInformationFiller::setServices ( const edm::EventSetup setup)

set the services needed

Definition at line 204 of file MuonShowerInformationFiller.cc.

References singleTopDQM_cfi::setup, theCacheId_TRH, theCSCGeometry, theCSCGeometryToken, theDTGeometry, theDTGeometryToken, theField, theFieldToken, theMuonRecHitBuilder, theMuonRecHitBuilderToken, theTracker, theTrackerRecHitBuilder, theTrackerRecHitBuilderToken, theTrackerToken, theTrackingGeometry, and theTrackingGeometryToken.

Referenced by fillShowerInformation().

204  {
205  // DetLayer Geometry
207  theField = setup.getHandle(theFieldToken);
208  theTracker = setup.getHandle(theTrackerToken);
211 
212  // Transient Rechit Builders
213  unsigned long long newCacheId_TRH = setup.get<TransientRecHitRecord>().cacheIdentifier();
214  if (newCacheId_TRH != theCacheId_TRH) {
217  }
218 }
edm::ESGetToken< CSCGeometry, MuonGeometryRecord > theCSCGeometryToken
edm::ESHandle< MagneticField > theField
edm::ESGetToken< TransientTrackingRecHitBuilder, TransientRecHitRecord > theMuonRecHitBuilderToken
edm::ESHandle< GeometricSearchTracker > theTracker
edm::ESHandle< CSCGeometry > theCSCGeometry
edm::ESHandle< DTGeometry > theDTGeometry
edm::ESGetToken< GeometricSearchTracker, TrackerRecoGeometryRecord > theTrackerToken
edm::ESGetToken< DTGeometry, MuonGeometryRecord > theDTGeometryToken
edm::ESHandle< TransientTrackingRecHitBuilder > theTrackerRecHitBuilder
edm::ESGetToken< MagneticField, IdealMagneticFieldRecord > theFieldToken
edm::ESGetToken< GlobalTrackingGeometry, GlobalTrackingGeometryRecord > theTrackingGeometryToken
edm::ESHandle< TransientTrackingRecHitBuilder > theMuonRecHitBuilder
edm::ESHandle< GlobalTrackingGeometry > theTrackingGeometry
edm::ESGetToken< TransientTrackingRecHitBuilder, TransientRecHitRecord > theTrackerRecHitBuilderToken

Member Data Documentation

◆ category_

std::string MuonShowerInformationFiller::category_
private

◆ theAllStationHits

std::vector<int> MuonShowerInformationFiller::theAllStationHits
private

◆ theCacheId_MT

unsigned long long MuonShowerInformationFiller::theCacheId_MT
private

Definition at line 202 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller().

◆ theCacheId_TRH

unsigned long long MuonShowerInformationFiller::theCacheId_TRH
private

Definition at line 201 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theCorrelatedStationHits

std::vector<int> MuonShowerInformationFiller::theCorrelatedStationHits
private

◆ theCSCGeometry

edm::ESHandle<CSCGeometry> MuonShowerInformationFiller::theCSCGeometry
private

Definition at line 229 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theCSCGeometryToken

edm::ESGetToken<CSCGeometry, MuonGeometryRecord> MuonShowerInformationFiller::theCSCGeometryToken
private

Definition at line 235 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theCSCRecHitLabel

edm::InputTag MuonShowerInformationFiller::theCSCRecHitLabel
private

Definition at line 211 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller().

◆ theCSCRecHits

edm::Handle<CSCRecHit2DCollection> MuonShowerInformationFiller::theCSCRecHits
private

Definition at line 216 of file MuonShowerInformationFiller.h.

Referenced by fillHitsByStation(), and setEvent().

◆ theCSCRecHitToken

edm::EDGetTokenT<CSCRecHit2DCollection> MuonShowerInformationFiller::theCSCRecHitToken
private

Definition at line 221 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setEvent().

◆ theCSCSegments

edm::Handle<CSCSegmentCollection> MuonShowerInformationFiller::theCSCSegments
private

Definition at line 217 of file MuonShowerInformationFiller.h.

Referenced by fillHitsByStation(), and setEvent().

◆ theCSCSegmentsLabel

edm::InputTag MuonShowerInformationFiller::theCSCSegmentsLabel
private

Definition at line 212 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller().

◆ theCSCSegmentsToken

edm::EDGetTokenT<CSCSegmentCollection> MuonShowerInformationFiller::theCSCSegmentsToken
private

Definition at line 222 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setEvent().

◆ theDT4DRecSegmentLabel

edm::InputTag MuonShowerInformationFiller::theDT4DRecSegmentLabel
private

Definition at line 213 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller().

◆ theDT4DRecSegments

edm::Handle<DTRecSegment4DCollection> MuonShowerInformationFiller::theDT4DRecSegments
private

Definition at line 218 of file MuonShowerInformationFiller.h.

Referenced by fillHitsByStation(), and setEvent().

◆ theDT4DRecSegmentToken

edm::EDGetTokenT<DTRecSegment4DCollection> MuonShowerInformationFiller::theDT4DRecSegmentToken
private

Definition at line 223 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setEvent().

◆ theDTGeometry

edm::ESHandle<DTGeometry> MuonShowerInformationFiller::theDTGeometry
private

Definition at line 230 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theDTGeometryToken

edm::ESGetToken<DTGeometry, MuonGeometryRecord> MuonShowerInformationFiller::theDTGeometryToken
private

Definition at line 236 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theDTRecHitLabel

edm::InputTag MuonShowerInformationFiller::theDTRecHitLabel
private

Definition at line 210 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller().

◆ theDTRecHits

edm::Handle<DTRecHitCollection> MuonShowerInformationFiller::theDTRecHits
private

Definition at line 215 of file MuonShowerInformationFiller.h.

Referenced by fillHitsByStation(), and setEvent().

◆ theDTRecHitToken

edm::EDGetTokenT<DTRecHitCollection> MuonShowerInformationFiller::theDTRecHitToken
private

Definition at line 220 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setEvent().

◆ theField

edm::ESHandle<MagneticField> MuonShowerInformationFiller::theField
private

Definition at line 228 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theFieldToken

edm::ESGetToken<MagneticField, IdealMagneticFieldRecord> MuonShowerInformationFiller::theFieldToken
private

Definition at line 234 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theMuonRecHitBuilder

edm::ESHandle<TransientTrackingRecHitBuilder> MuonShowerInformationFiller::theMuonRecHitBuilder
private

Definition at line 207 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theMuonRecHitBuilderToken

edm::ESGetToken<TransientTrackingRecHitBuilder, TransientRecHitRecord> MuonShowerInformationFiller::theMuonRecHitBuilderToken
private

Definition at line 208 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theService

MuonServiceProxy* MuonShowerInformationFiller::theService
private

◆ theStationShowerDeltaR

std::vector<float> MuonShowerInformationFiller::theStationShowerDeltaR
private

◆ theStationShowerTSize

std::vector<float> MuonShowerInformationFiller::theStationShowerTSize
private

◆ theTracker

edm::ESHandle<GeometricSearchTracker> MuonShowerInformationFiller::theTracker
private

Definition at line 226 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theTrackerRecHitBuilder

edm::ESHandle<TransientTrackingRecHitBuilder> MuonShowerInformationFiller::theTrackerRecHitBuilder
private

Definition at line 204 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theTrackerRecHitBuilderToken

edm::ESGetToken<TransientTrackingRecHitBuilder, TransientRecHitRecord> MuonShowerInformationFiller::theTrackerRecHitBuilderToken
private

Definition at line 205 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theTrackerToken

edm::ESGetToken<GeometricSearchTracker, TrackerRecoGeometryRecord> MuonShowerInformationFiller::theTrackerToken
private

Definition at line 232 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().

◆ theTrackingGeometry

edm::ESHandle<GlobalTrackingGeometry> MuonShowerInformationFiller::theTrackingGeometry
private

Definition at line 227 of file MuonShowerInformationFiller.h.

Referenced by setServices().

◆ theTrackingGeometryToken

edm::ESGetToken<GlobalTrackingGeometry, GlobalTrackingGeometryRecord> MuonShowerInformationFiller::theTrackingGeometryToken
private

Definition at line 233 of file MuonShowerInformationFiller.h.

Referenced by MuonShowerInformationFiller(), and setServices().