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HGCalGeometry Class Referencefinal

#include <HGCalGeometry.h>

Inheritance diagram for HGCalGeometry:
CaloSubdetectorGeometry

Public Types

typedef HGCalGeometryRecord AlignedRecord
 
typedef CaloCellGeometry::CCGFloat CCGFloat
 
typedef std::vector< FlatHexagonCellVec
 
typedef std::vector< FlatTrdCellVec2
 
typedef std::vector< GlobalPointCornersVec
 
typedef std::set< DetIdDetIdSet
 
typedef PHGCalRcd PGeometryRecord
 
typedef CaloCellGeometry::Pt3D Pt3D
 
typedef CaloCellGeometry::Pt3DVec Pt3DVec
 
- Public Types inherited from CaloSubdetectorGeometry
typedef CaloCellGeometry::CCGFloat CCGFloat
 
typedef std::vector< std::shared_ptr< const CaloCellGeometry > > CellSet
 
typedef std::set< DetIdDetIdSet
 
typedef std::vector< CCGFloatDimVec
 
typedef std::vector< unsigned int > IVec
 
typedef CaloCellGeometry::ParMgr ParMgr
 
typedef CaloCellGeometry::ParVec ParVec
 
typedef CaloCellGeometry::ParVecVec ParVecVec
 
typedef std::vector< CCGFloatTrVec
 

Public Member Functions

std::string cellElement () const
 
virtual void fillNamedParams (DDFilteredView fv)
 
CornersVec get8Corners (const DetId &id) const
 
double getArea (const DetId &detid) const
 Returns area of a cell. More...
 
DetIdSet getCells (const GlobalPoint &r, double dR) const override
 Get a list of all cells within a dR of the given cell. More...
 
DetId getClosestCell (const GlobalPoint &r) const override
 
DetId getClosestCellHex (const GlobalPoint &r, bool extend) const
 
CornersVec getCorners (const DetId &id) const
 Returns the corner points of this cell's volume. More...
 
std::shared_ptr< const CaloCellGeometrygetGeometry (const DetId &id) const override
 Get the cell geometry of a given detector id. Should return false if not found. More...
 
CornersVec getNewCorners (const DetId &id, bool debug=false) const
 
GlobalPoint getPosition (const DetId &id, bool debug=false) const
 
void getSummary (CaloSubdetectorGeometry::TrVec &trVector, CaloSubdetectorGeometry::IVec &iVector, CaloSubdetectorGeometry::DimVec &dimVector, CaloSubdetectorGeometry::IVec &dinsVector) const override
 
const std::vector< DetId > & getValidDetIds (DetId::Detector det=DetId::Detector(0), int subdet=0) const override
 Get a list of valid detector ids (for the given subdetector) More...
 
const std::vector< DetId > & getValidGeomDetIds (void) const
 
GlobalPoint getWaferPosition (const DetId &id) const
 
 HGCalGeometry (const HGCalTopology &topology)
 
void initializeParms () override
 
void localCorners (Pt3DVec &lc, const CCGFloat *pv, unsigned int i, Pt3D &ref)
 
DetId neighborZ (const DetId &idin, const GlobalVector &p) const
 
DetId neighborZ (const DetId &idin, const MagneticField *bField, int charge, const GlobalVector &momentum) const
 
void newCell (const GlobalPoint &f1, const GlobalPoint &f2, const GlobalPoint &f3, const CCGFloat *parm, const DetId &detId) override
 
bool present (const DetId &id) const override
 is this detid present in the geometry? More...
 
void sortDetIds ()
 
const HGCalTopologytopology () const
 
 ~HGCalGeometry () override=default
 
- Public Member Functions inherited from CaloSubdetectorGeometry
void allocateCorners (CaloCellGeometry::CornersVec::size_type n)
 
void allocatePar (ParVec::size_type n, unsigned int m)
 
 CaloSubdetectorGeometry ()
 
 CaloSubdetectorGeometry (const CaloSubdetectorGeometry &)=delete
 avoid copies More...
 
CaloCellGeometry::CornersMgrcornersMgr ()
 
CCGFloat deltaEta (const DetId &detId) const
 
CCGFloat deltaPhi (const DetId &detId) const
 
virtual void fillDefaultNamedParameters () const
 
virtual CellSet getCellSet (const GlobalPoint &r, double dR) const
 
virtual unsigned int numberOfParametersPerShape () const
 
virtual unsigned int numberOfShapes () const
 
virtual unsigned int numberOfTransformParms () const
 
CaloSubdetectorGeometryoperator= (const CaloSubdetectorGeometry &)=delete
 
ParMgrparMgr ()
 
const ParMgrparMgrConst () const
 
ParVecVecparVecVec ()
 
const ParVecVecparVecVec () const
 
virtual ~CaloSubdetectorGeometry ()
 The base class DOES assume that it owns the CaloCellGeometry objects. More...
 

Static Public Member Functions

static std::string dbString ()
 
static std::string producerTag ()
 

Static Public Attributes

static constexpr unsigned int k_NumberOfParametersPerHex = 3
 
static constexpr unsigned int k_NumberOfParametersPerShape = 3
 
static constexpr unsigned int k_NumberOfParametersPerTrd = 12
 
static constexpr unsigned int k_NumberOfShapes = 100
 
static constexpr unsigned int k_NumberOfShapesTrd = 1000
 

Protected Member Functions

void addValidID (const DetId &id)
 
std::shared_ptr< const CaloCellGeometrycellGeomPtr (uint32_t index) const override
 
unsigned int getClosestCellIndex (const GlobalPoint &r) const
 
const CaloCellGeometrygetGeometryRawPtr (uint32_t index) const override
 
unsigned int indexFor (const DetId &id) const override
 
virtual unsigned int sizeForDenseIndex (const DetId &id) const
 
unsigned int sizeForDenseIndex () const
 
- Protected Member Functions inherited from CaloSubdetectorGeometry
void addValidID (const DetId &id)
 
virtual unsigned int sizeForDenseIndex (const DetId &id) const
 

Private Member Functions

std::shared_ptr< const CaloCellGeometrycellGeomPtr (uint32_t index, const GlobalPoint &p) const
 
template<class T >
unsigned int getClosestCellIndex (const GlobalPoint &r, const std::vector< T > &vec) const
 
DetId getGeometryDetId (DetId detId) const
 

Private Attributes

CellVec m_cellVec
 
CellVec2 m_cellVec2
 
DetId::Detector m_det
 
ForwardSubdetector m_subdet
 
const HGCalTopologym_topology
 
std::vector< DetIdm_validGeomIds
 
const double twoBysqrt3_
 

Static Private Attributes

static constexpr double k_fac1 = 0.5
 
static constexpr double k_fac2 = 1.0 / 3.0
 
static constexpr double k_half = 0.5
 

Additional Inherited Members

- Static Protected Member Functions inherited from CaloSubdetectorGeometry
static CCGFloat deltaR (const GlobalPoint &p1, const GlobalPoint &p2)
 
- Protected Attributes inherited from CaloSubdetectorGeometry
ParVecVec m_parVecVec
 
std::vector< DetIdm_validIds
 

Detailed Description

Definition at line 29 of file HGCalGeometry.h.

Member Typedef Documentation

◆ AlignedRecord

Definition at line 40 of file HGCalGeometry.h.

◆ CCGFloat

Definition at line 33 of file HGCalGeometry.h.

◆ CellVec

typedef std::vector<FlatHexagon> HGCalGeometry::CellVec

Definition at line 31 of file HGCalGeometry.h.

◆ CellVec2

typedef std::vector<FlatTrd> HGCalGeometry::CellVec2

Definition at line 32 of file HGCalGeometry.h.

◆ CornersVec

typedef std::vector<GlobalPoint> HGCalGeometry::CornersVec

Definition at line 38 of file HGCalGeometry.h.

◆ DetIdSet

typedef std::set<DetId> HGCalGeometry::DetIdSet

Definition at line 37 of file HGCalGeometry.h.

◆ PGeometryRecord

Definition at line 41 of file HGCalGeometry.h.

◆ Pt3D

Definition at line 34 of file HGCalGeometry.h.

◆ Pt3DVec

Definition at line 35 of file HGCalGeometry.h.

Constructor & Destructor Documentation

◆ HGCalGeometry()

HGCalGeometry::HGCalGeometry ( const HGCalTopology topology)

Definition at line 28 of file HGCalGeometry.cc.

References DetId::HGCalHSc, m_cellVec, m_cellVec2, m_det, m_topology, CaloSubdetectorGeometry::m_validIds, HGCalTopology::totalGeomModules(), and HGCalTopology::totalModules().

29  : m_topology(topology_),
30  m_validGeomIds(topology_.totalGeomModules()),
31  m_det(topology_.detector()),
32  m_subdet(topology_.subDetector()),
33  twoBysqrt3_(2.0 / std::sqrt(3.0)) {
34  if (m_det == DetId::HGCalHSc) {
35  m_cellVec2 = CellVec2(topology_.totalGeomModules());
36  } else {
37  m_cellVec = CellVec(topology_.totalGeomModules());
38  }
40 #ifdef EDM_ML_DEBUG
41  edm::LogVerbatim("HGCalGeom") << "Expected total # of Geometry Modules " << m_topology.totalGeomModules();
42 #endif
43 }
std::vector< DetId > m_validGeomIds
Log< level::Info, true > LogVerbatim
unsigned int totalGeomModules() const
Definition: HGCalTopology.h:93
std::vector< FlatHexagon > CellVec
Definition: HGCalGeometry.h:31
const HGCalTopology & m_topology
unsigned int totalModules() const
Definition: HGCalTopology.h:92
const double twoBysqrt3_
T sqrt(T t)
Definition: SSEVec.h:19
std::vector< DetId > m_validIds
CellVec2 m_cellVec2
ForwardSubdetector m_subdet
std::vector< FlatTrd > CellVec2
Definition: HGCalGeometry.h:32
DetId::Detector m_det
CellVec m_cellVec

◆ ~HGCalGeometry()

HGCalGeometry::~HGCalGeometry ( )
overridedefault

Member Function Documentation

◆ addValidID()

void HGCalGeometry::addValidID ( const DetId id)
protected

Definition at line 711 of file HGCalGeometry.cc.

711  {
712  edm::LogError("HGCalGeom") << "HGCalGeometry::addValidID is not implemented";
713 }
Log< level::Error, false > LogError

◆ cellElement()

std::string HGCalGeometry::cellElement ( ) const

Definition at line 625 of file HGCalGeometry.cc.

References DetId::HGCalEE, DetId::HGCalHSc, DetId::HGCalHSi, HGCEE, HGCHEB, HGCHEF, m_det, and m_subdet.

625  {
626  if (m_subdet == HGCEE || m_det == DetId::HGCalEE)
627  return "HGCalEE";
628  else if (m_subdet == HGCHEF || m_det == DetId::HGCalHSi)
629  return "HGCalHEFront";
630  else if (m_subdet == HGCHEB || m_det == DetId::HGCalHSc)
631  return "HGCalHEBack";
632  else
633  return "Unknown";
634 }
ForwardSubdetector m_subdet
DetId::Detector m_det

◆ cellGeomPtr() [1/2]

std::shared_ptr< const CaloCellGeometry > HGCalGeometry::cellGeomPtr ( uint32_t  index) const
overrideprotectedvirtual

Reimplemented from CaloSubdetectorGeometry.

Definition at line 666 of file HGCalGeometry.cc.

References DetId::HGCalHSc, m_cellVec, m_cellVec2, m_det, m_validGeomIds, and nano_mu_digi_cff::rawId.

Referenced by cellGeomPtr(), getGeometry(), and getSummary().

666  {
667  if ((index >= m_cellVec.size() && m_det != DetId::HGCalHSc) ||
668  (index >= m_cellVec2.size() && m_det == DetId::HGCalHSc) || (m_validGeomIds[index].rawId() == 0))
669  return nullptr;
670  static const auto do_not_delete = [](const void*) {};
671  if (m_det == DetId::HGCalHSc) {
672  auto cell = std::shared_ptr<const CaloCellGeometry>(&m_cellVec2[index], do_not_delete);
673  if (nullptr == cell->param())
674  return nullptr;
675  return cell;
676  } else {
677  auto cell = std::shared_ptr<const CaloCellGeometry>(&m_cellVec[index], do_not_delete);
678  if (nullptr == cell->param())
679  return nullptr;
680  return cell;
681  }
682 }
std::vector< DetId > m_validGeomIds
CellVec2 m_cellVec2
DetId::Detector m_det
CellVec m_cellVec

◆ cellGeomPtr() [2/2]

std::shared_ptr< const CaloCellGeometry > HGCalGeometry::cellGeomPtr ( uint32_t  index,
const GlobalPoint p 
) const
private

Definition at line 684 of file HGCalGeometry.cc.

References cellGeomPtr(), DetId::HGCalHSc, m_cellVec, m_cellVec2, m_det, m_validGeomIds, and nano_mu_digi_cff::rawId.

684  {
685  if ((index >= m_cellVec.size() && m_det != DetId::HGCalHSc) ||
686  (index >= m_cellVec2.size() && m_det == DetId::HGCalHSc) || (m_validGeomIds[index].rawId() == 0))
687  return nullptr;
688  if (pos == GlobalPoint())
689  return cellGeomPtr(index);
690  if (m_det == DetId::HGCalHSc) {
691  auto cell = std::make_shared<FlatTrd>(m_cellVec2[index]);
692  cell->setPosition(pos);
693 #ifdef EDM_ML_DEBUG
694  edm::LogVerbatim("HGCalGeom") << "cellGeomPtr " << index << ":" << cell;
695 #endif
696  if (nullptr == cell->param())
697  return nullptr;
698  return cell;
699  } else {
700  auto cell = std::make_shared<FlatHexagon>(m_cellVec[index]);
701  cell->setPosition(pos);
702 #ifdef EDM_ML_DEBUG
703  edm::LogVerbatim("HGCalGeom") << "cellGeomPtr " << index << ":" << cell;
704 #endif
705  if (nullptr == cell->param())
706  return nullptr;
707  return cell;
708  }
709 }
std::vector< DetId > m_validGeomIds
Log< level::Info, true > LogVerbatim
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
CellVec2 m_cellVec2
std::shared_ptr< const CaloCellGeometry > cellGeomPtr(uint32_t index) const override
DetId::Detector m_det
CellVec m_cellVec

◆ dbString()

static std::string HGCalGeometry::dbString ( )
inlinestatic

Definition at line 49 of file HGCalGeometry.h.

Referenced by CaloGeometryDBEP< T, U >::produceAligned().

49 { return "PHGCalRcd"; }

◆ fillNamedParams()

void HGCalGeometry::fillNamedParams ( DDFilteredView  fv)
virtual

Definition at line 45 of file HGCalGeometry.cc.

45 {}

◆ get8Corners()

HGCalGeometry::CornersVec HGCalGeometry::get8Corners ( const DetId id) const

Definition at line 331 of file HGCalGeometry.cc.

References HGCalDDDConstants::cellSizeTrap(), cms::cuda::co, funct::cos(), HGCalTopology::dddConstants(), debugLocate, HGCalTopology::decode(), l1ctLayer1_cff::dr, PVValHelper::dx, PVValHelper::dy, PVValHelper::dz, getPosition(), DetId::HGCalHSc, mps_fire::i, indexFor(), FlatTrd::k_Cell, FlatTrd::k_dZ, FlatHexagon::k_dZ, k_fac1, k_fac2, k_half, FlatHexagon::k_r, FlatHexagon::k_R, HGCalDDDConstants::localToGlobal8(), HGCalDDDConstants::locateCell(), HGCalDDDConstants::locateCellHex(), m_cellVec, m_cellVec2, m_det, m_topology, SiStripPI::min, FlatTrd::ncorner_, alignCSCRings::r, findQualityFiles::rr, funct::sin(), findQualityFiles::v, HGCalTopology::waferHexagon6(), HGCalDDDConstants::waferZ(), geometryCSVtoXML::xx, geometryCSVtoXML::xy, and geometryCSVtoXML::zz.

331  {
332  unsigned int ncorner = FlatTrd::ncorner_;
333  HGCalGeometry::CornersVec co(ncorner, GlobalPoint(0, 0, 0));
334  unsigned int cellIndex = indexFor(detid);
336  if (cellIndex < m_cellVec2.size() && m_det == DetId::HGCalHSc) {
337  GlobalPoint v = getPosition(detid, false);
338  int type = std::min(id.iType, 1);
339  std::pair<double, double> rr = m_topology.dddConstants().cellSizeTrap(type, id.iSec1);
340  float dr = k_half * (rr.second - rr.first);
341  float dfi = m_cellVec2[cellIndex].param()[FlatTrd::k_Cell];
342  float dz = id.zSide * m_cellVec2[cellIndex].param()[FlatTrd::k_dZ];
343  float r = v.perp();
344  float fi = v.phi();
345  static const int signr[] = {1, 1, -1, -1, 1, 1, -1, -1};
346  static const int signf[] = {-1, 1, 1, -1, -1, 1, 1, -1};
347  static const int signz[] = {-1, -1, -1, -1, 1, 1, 1, 1};
348  for (unsigned int i = 0; i < ncorner; ++i) {
349  co[i] = GlobalPoint((r + signr[i] * dr) * cos(fi + signf[i] * dfi),
350  (r + signr[i] * dr) * sin(fi + signf[i] * dfi),
351  (v.z() + signz[i] * dz));
352  }
353  } else if (cellIndex < m_cellVec.size() && m_det != DetId::HGCalHSc) {
354  std::pair<float, float> xy;
355  float dx(0);
356  static const int signx[] = {-1, -1, 1, 1, -1, -1, 1, 1};
357  static const int signy[] = {-1, 1, 1, -1, -1, 1, 1, -1};
358  static const int signz[] = {-1, -1, -1, -1, 1, 1, 1, 1};
359  if (m_topology.waferHexagon6()) {
360  xy = m_topology.dddConstants().locateCellHex(id.iCell1, id.iSec1, true);
361  dx = m_cellVec[cellIndex].param()[FlatHexagon::k_r];
362  float dz = m_cellVec[cellIndex].param()[FlatHexagon::k_dZ];
363  for (unsigned int i = 0; i < ncorner; ++i) {
364  const HepGeom::Point3D<float> lcoord(xy.first + signx[i] * dx, xy.second + signy[i] * dx, signz[i] * dz);
365  co[i] = m_cellVec[cellIndex].getPosition(lcoord);
366  }
367  } else {
369  id.zSide, id.iLay, id.iSec1, id.iSec2, id.iCell1, id.iCell2, true, false, true, debugLocate);
370  dx = k_fac2 * m_cellVec[cellIndex].param()[FlatHexagon::k_r];
371  float dy = k_fac1 * m_cellVec[cellIndex].param()[FlatHexagon::k_R];
372  float dz = -id.zSide * m_cellVec[cellIndex].param()[FlatHexagon::k_dZ];
373  float zz = m_topology.dddConstants().waferZ(id.iLay, true);
374  for (unsigned int i = 0; i < ncorner; ++i) {
375  auto xyglob = m_topology.dddConstants().localToGlobal8(
376  id.zSide, id.iLay, id.iSec1, id.iSec2, (xy.first + signx[i] * dx), (xy.second + signy[i] * dy), true, false);
377  double xx = id.zSide * xyglob.first;
378  co[i] = GlobalPoint(xx, xyglob.second, id.zSide * (zz + signz[i] * dz));
379  }
380  }
381  }
382  return co;
383 }
double waferZ(int layer, bool reco) const
std::pair< double, double > cellSizeTrap(int type, int irad) const
const HGCalTopology & m_topology
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
bool waferHexagon6() const
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
std::vector< GlobalPoint > CornersVec
Definition: HGCalGeometry.h:38
static constexpr double k_fac2
static constexpr uint32_t k_Cell
Definition: FlatTrd.h:45
__host__ __device__ VT * co
Definition: prefixScan.h:47
static constexpr double k_half
static constexpr double k_fac1
static constexpr unsigned int ncorner_
Definition: FlatTrd.h:97
static constexpr uint32_t k_R
Definition: FlatHexagon.h:29
static constexpr uint32_t k_r
Definition: FlatHexagon.h:28
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
unsigned int indexFor(const DetId &id) const override
DecodedDetId decode(const DetId &id) const
CellVec2 m_cellVec2
static constexpr uint32_t k_dZ
Definition: FlatHexagon.h:27
std::pair< float, float > locateCellHex(int cell, int wafer, bool reco) const
std::pair< float, float > locateCell(int cell, int lay, int type, bool reco) const
const bool debugLocate
GlobalPoint getPosition(const DetId &id, bool debug=false) const
static constexpr uint32_t k_dZ
Definition: FlatTrd.h:26
DetId::Detector m_det
std::pair< float, float > localToGlobal8(int zside, int lay, int waferU, int waferV, double localX, double localY, bool reco, bool debug) const
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ getArea()

double HGCalGeometry::getArea ( const DetId detid) const

Returns area of a cell.

Definition at line 260 of file HGCalGeometry.cc.

References funct::abs(), custom_jme_cff::area, getNewCorners(), mps_fire::i, dqmiolumiharvest::j, dqmiodumpmetadata::n, and y.

260  {
261  HGCalGeometry::CornersVec corners = getNewCorners(detid);
262  double area(0);
263  if (corners.size() > 1) {
264  int n = corners.size() - 1;
265  int j = n - 1;
266  for (int i = 0; i < n; ++i) {
267  area += ((corners[j].x() + corners[i].x()) * (corners[i].y() - corners[j].y()));
268  j = i;
269  }
270  }
271  return std::abs(0.5 * area);
272 }
std::vector< GlobalPoint > CornersVec
Definition: HGCalGeometry.h:38
CornersVec getNewCorners(const DetId &id, bool debug=false) const
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

◆ getCells()

HGCalGeometry::DetIdSet HGCalGeometry::getCells ( const GlobalPoint r,
double  dR 
) const
overridevirtual

Get a list of all cells within a dR of the given cell.

The default implementation makes a loop over all cell geometries. Cleverer implementations are suggested to use rough conversions between eta/phi and ieta/iphi and test on the boundaries.

Reimplemented from CaloSubdetectorGeometry.

Definition at line 620 of file HGCalGeometry.cc.

620  {
622  return dss;
623 }
std::set< DetId > DetIdSet
Definition: HGCalGeometry.h:37

◆ getClosestCell()

DetId HGCalGeometry::getClosestCell ( const GlobalPoint r) const
overridevirtual

Reimplemented from CaloSubdetectorGeometry.

Definition at line 518 of file HGCalGeometry.cc.

References HGCalDDDConstants::assignCell(), HGCalDDDConstants::assignCellHex(), HGCalDDDConstants::assignCellTrap(), HGCalTopology::dddConstants(), HGCalTopology::decode(), HGCalTopology::DecodedDetId::det, HGCalTopology::detector(), HGCalTopology::encode(), getClosestCellIndex(), HGCalDDDConstants::getLayer(), DetId::HGCalHSc, DTRecHitClients_cfi::local, m_cellVec, m_cellVec2, m_det, m_topology, m_validGeomIds, alignCSCRings::r, HGCalTopology::tileTrapezoid(), HGCalTopology::waferHexagon6(), HGCalDDDConstants::waferTypeT(), and ecaldqm::zside().

Referenced by neighborZ().

518  {
519  unsigned int cellIndex = getClosestCellIndex(r);
520  if ((cellIndex < m_cellVec.size() && m_det != DetId::HGCalHSc) ||
521  (cellIndex < m_cellVec2.size() && m_det == DetId::HGCalHSc)) {
523  if (id.det == 0)
524  id.det = static_cast<int>(m_topology.detector());
525  HepGeom::Point3D<float> local;
526  if (r.z() > 0) {
527  local = HepGeom::Point3D<float>(r.x(), r.y(), 0);
528  id.zSide = 1;
529  } else {
530  local = HepGeom::Point3D<float>(-r.x(), r.y(), 0);
531  id.zSide = -1;
532  }
533  if (m_topology.waferHexagon6()) {
534  const auto& kxy = m_topology.dddConstants().assignCell(local.x(), local.y(), id.iLay, id.iType, true);
535  id.iCell1 = kxy.second;
536  id.iSec1 = kxy.first;
537  id.iType = m_topology.dddConstants().waferTypeT(kxy.first);
538  if (id.iType != 1)
539  id.iType = -1;
540  } else if (m_topology.tileTrapezoid()) {
541  id.iLay = m_topology.dddConstants().getLayer(r.z(), true);
542  const auto& kxy = m_topology.dddConstants().assignCellTrap(r.x(), r.y(), r.z(), id.iLay, true);
543  id.iSec1 = kxy[0];
544  id.iCell1 = kxy[1];
545  id.iType = kxy[2];
546  } else {
547  id.iLay = m_topology.dddConstants().getLayer(r.z(), true);
548  int zside = (r.z() > 0) ? 1 : -1;
549 #ifdef EDM_ML_DEBUG
550  edm::LogVerbatim("HGCalGeom") << "ZZ " << r.z() << ":" << zside << " Layer " << id.iLay << " Global " << r
551  << " Local " << local;
552 #endif
553  const auto& kxy =
554  m_topology.dddConstants().assignCellHex(local.x(), local.y(), zside, id.iLay, true, false, true);
555  id.iSec1 = kxy[0];
556  id.iSec2 = kxy[1];
557  id.iType = kxy[2];
558  id.iCell1 = kxy[3];
559  id.iCell2 = kxy[4];
560  }
561 #ifdef EDM_ML_DEBUG
562  edm::LogVerbatim("HGCalGeom") << "getClosestCell: local " << local << " Id " << id.det << ":" << id.zSide << ":"
563  << id.iLay << ":" << id.iSec1 << ":" << id.iSec2 << ":" << id.iType << ":"
564  << id.iCell1 << ":" << id.iCell2;
565 #endif
566 
567  //check if returned cell is valid
568  if (id.iCell1 >= 0)
569  return m_topology.encode(id);
570  }
571 
572  //if not valid or out of bounds return a null DetId
573  return DetId();
574 }
std::vector< DetId > m_validGeomIds
Log< level::Info, true > LogVerbatim
DetId::Detector detector() const
bool tileTrapezoid() const
const HGCalTopology & m_topology
bool waferHexagon6() const
int waferTypeT(int wafer) const
int zside(DetId const &)
std::array< int, 5 > assignCellHex(float x, float y, int zside, int lay, bool reco, bool extend, bool debug) const
unsigned int getClosestCellIndex(const GlobalPoint &r) const
DecodedDetId decode(const DetId &id) const
std::pair< int, int > assignCell(float x, float y, int lay, int subSec, bool reco) const
CellVec2 m_cellVec2
Definition: DetId.h:17
std::array< int, 3 > assignCellTrap(float x, float y, float z, int lay, bool reco) const
DetId encode(const DecodedDetId &id_) const
int getLayer(double z, bool reco) const
DetId::Detector m_det
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ getClosestCellHex()

DetId HGCalGeometry::getClosestCellHex ( const GlobalPoint r,
bool  extend 
) const

Definition at line 576 of file HGCalGeometry.cc.

References HGCalDDDConstants::assignCellHex(), HGCalTopology::dddConstants(), HGCalTopology::decode(), HGCalTopology::DecodedDetId::det, HGCalTopology::detector(), HGCalTopology::encode(), getClosestCellIndex(), HGCalDDDConstants::getLayer(), DetId::HGCalHSc, DTRecHitClients_cfi::local, m_cellVec, m_det, m_topology, m_validGeomIds, alignCSCRings::r, HGCalTopology::waferHexagon8(), and ecaldqm::zside().

576  {
577  unsigned int cellIndex = getClosestCellIndex(r);
578  if (cellIndex < m_cellVec.size() && m_det != DetId::HGCalHSc) {
580  if (id.det == 0)
581  id.det = static_cast<int>(m_topology.detector());
582  HepGeom::Point3D<float> local;
583  if (r.z() > 0) {
584  local = HepGeom::Point3D<float>(r.x(), r.y(), 0);
585  id.zSide = 1;
586  } else {
587  local = HepGeom::Point3D<float>(-r.x(), r.y(), 0);
588  id.zSide = -1;
589  }
590  if (m_topology.waferHexagon8()) {
591  id.iLay = m_topology.dddConstants().getLayer(r.z(), true);
592  int zside = (r.z() > 0) ? 1 : -1;
593 #ifdef EDM_ML_DEBUG
594  edm::LogVerbatim("HGCalGeom") << "ZZ " << r.z() << ":" << zside << " Layer " << id.iLay << " Global " << r
595  << " Local " << local;
596 #endif
597  const auto& kxy =
598  m_topology.dddConstants().assignCellHex(local.x(), local.y(), zside, id.iLay, true, extend, true);
599  id.iSec1 = kxy[0];
600  id.iSec2 = kxy[1];
601  id.iType = kxy[2];
602  id.iCell1 = kxy[3];
603  id.iCell2 = kxy[4];
604  }
605 #ifdef EDM_ML_DEBUG
606  edm::LogVerbatim("HGCalGeom") << "getClosestCell: local " << local << " Id " << id.det << ":" << id.zSide << ":"
607  << id.iLay << ":" << id.iSec1 << ":" << id.iSec2 << ":" << id.iType << ":"
608  << id.iCell1 << ":" << id.iCell2;
609 #endif
610 
611  //check if returned cell is valid
612  if (id.iCell1 >= 0)
613  return m_topology.encode(id);
614  }
615 
616  //if not valid or out of bounds return a null DetId
617  return DetId();
618 }
std::vector< DetId > m_validGeomIds
Log< level::Info, true > LogVerbatim
DetId::Detector detector() const
const HGCalTopology & m_topology
int zside(DetId const &)
std::array< int, 5 > assignCellHex(float x, float y, int zside, int lay, bool reco, bool extend, bool debug) const
unsigned int getClosestCellIndex(const GlobalPoint &r) const
DecodedDetId decode(const DetId &id) const
Definition: DetId.h:17
DetId encode(const DecodedDetId &id_) const
bool waferHexagon8() const
int getLayer(double z, bool reco) const
DetId::Detector m_det
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ getClosestCellIndex() [1/2]

unsigned int HGCalGeometry::getClosestCellIndex ( const GlobalPoint r) const
protected

Definition at line 715 of file HGCalGeometry.cc.

References DetId::HGCalHSc, m_cellVec, m_cellVec2, m_det, and alignCSCRings::r.

Referenced by getClosestCell(), and getClosestCellHex().

715  {
717 }
unsigned int getClosestCellIndex(const GlobalPoint &r) const
CellVec2 m_cellVec2
DetId::Detector m_det
CellVec m_cellVec

◆ getClosestCellIndex() [2/2]

template<class T >
unsigned int HGCalGeometry::getClosestCellIndex ( const GlobalPoint r,
const std::vector< T > &  vec 
) const
private

Definition at line 720 of file HGCalGeometry.cc.

References funct::abs(), PVValHelper::dz, getPosition(), dqmdumpme::k, M_PI, alignCSCRings::r, and z.

720  {
721  float phip = r.phi();
722  float zp = r.z();
723  float dzmin(9999), dphimin(9999), dphi10(0.175);
724  unsigned int cellIndex = vec.size();
725  for (unsigned int k = 0; k < vec.size(); ++k) {
726  float dphi = phip - vec[k].phiPos();
727  while (dphi > M_PI)
728  dphi -= 2 * M_PI;
729  while (dphi <= -M_PI)
730  dphi += 2 * M_PI;
731  if (std::abs(dphi) < dphi10) {
732  float dz = std::abs(zp - vec[k].getPosition().z());
733  if (dz < (dzmin + 0.001)) {
734  dzmin = dz;
735  if (std::abs(dphi) < (dphimin + 0.01)) {
736  cellIndex = k;
737  dphimin = std::abs(dphi);
738  } else {
739  if (cellIndex >= vec.size())
740  cellIndex = k;
741  }
742  }
743  }
744  }
745 #ifdef EDM_ML_DEBUG
746  edm::LogVerbatim("HGCalGeom") << "getClosestCellIndex::Input " << zp << ":" << phip << " Index " << cellIndex;
747  if (cellIndex < vec.size())
748  edm::LogVerbatim("HGCalGeom") << " Cell z " << vec[cellIndex].getPosition().z() << ":" << dzmin << " phi "
749  << vec[cellIndex].phiPos() << ":" << dphimin;
750 #endif
751  return cellIndex;
752 }
Log< level::Info, true > LogVerbatim
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
#define M_PI
GlobalPoint getPosition(const DetId &id, bool debug=false) const

◆ getCorners()

HGCalGeometry::CornersVec HGCalGeometry::getCorners ( const DetId id) const

Returns the corner points of this cell's volume.

Definition at line 274 of file HGCalGeometry.cc.

References HGCalDDDConstants::cellSizeTrap(), cms::cuda::co, funct::cos(), HGCalTopology::dddConstants(), debugLocate, HGCalTopology::decode(), l1ctLayer1_cff::dr, PVValHelper::dx, PVValHelper::dy, PVValHelper::dz, getPosition(), DetId::HGCalHSc, mps_fire::i, indexFor(), FlatTrd::k_Cell, FlatTrd::k_dZ, FlatHexagon::k_dZ, k_fac1, k_fac2, k_half, FlatHexagon::k_r, FlatHexagon::k_R, HGCalDDDConstants::localToGlobal8(), HGCalDDDConstants::locateCell(), HGCalDDDConstants::locateCellHex(), m_cellVec, m_cellVec2, m_det, m_topology, SiStripPI::min, FlatHexagon::ncorner_, FlatTrd::ncorner_, alignCSCRings::r, findQualityFiles::rr, funct::sin(), findQualityFiles::v, HGCalTopology::waferHexagon6(), HGCalDDDConstants::waferZ(), geometryCSVtoXML::xx, geometryCSVtoXML::xy, and geometryCSVtoXML::zz.

274  {
275  unsigned int ncorner = ((m_det == DetId::HGCalHSc) ? FlatTrd::ncorner_ : FlatHexagon::ncorner_);
276  HGCalGeometry::CornersVec co(ncorner, GlobalPoint(0, 0, 0));
277  unsigned int cellIndex = indexFor(detid);
279  if (cellIndex < m_cellVec2.size() && m_det == DetId::HGCalHSc) {
280  GlobalPoint v = getPosition(detid, false);
281  int type = std::min(id.iType, 1);
282  std::pair<double, double> rr = m_topology.dddConstants().cellSizeTrap(type, id.iSec1);
283  float dr = k_half * (rr.second - rr.first);
284  float dfi = m_cellVec2[cellIndex].param()[FlatTrd::k_Cell];
285  float dz = id.zSide * m_cellVec2[cellIndex].param()[FlatTrd::k_dZ];
286  float r = v.perp();
287  float fi = v.phi();
288  static const int signr[] = {1, 1, -1, -1, 1, 1, -1, -1};
289  static const int signf[] = {-1, 1, 1, -1, -1, 1, 1, -1};
290  static const int signz[] = {-1, -1, -1, -1, 1, 1, 1, 1};
291  for (unsigned int i = 0; i < ncorner; ++i) {
292  co[i] = GlobalPoint((r + signr[i] * dr) * cos(fi + signf[i] * dfi),
293  (r + signr[i] * dr) * sin(fi + signf[i] * dfi),
294  (v.z() + signz[i] * dz));
295  }
296  } else if (cellIndex < m_cellVec.size() && m_det != DetId::HGCalHSc) {
297  std::pair<float, float> xy;
298  if (m_topology.waferHexagon6()) {
299  xy = m_topology.dddConstants().locateCellHex(id.iCell1, id.iSec1, true);
300  float dx = m_cellVec[cellIndex].param()[FlatHexagon::k_r];
301  float dy = k_half * m_cellVec[cellIndex].param()[FlatHexagon::k_R];
302  float dz = m_cellVec[cellIndex].param()[FlatHexagon::k_dZ];
303  static const int signx[] = {0, -1, -1, 0, 1, 1, 0, -1, -1, 0, 1, 1};
304  static const int signy[] = {-2, -1, 1, 2, 1, -1, -2, -1, 1, 2, 1, -1};
305  static const int signz[] = {-1, -1, -1, -1, -1, -1, 1, 1, 1, 1, 1, 1};
306  for (unsigned int i = 0; i < ncorner; ++i) {
307  const HepGeom::Point3D<float> lcoord(xy.first + signx[i] * dx, xy.second + signy[i] * dy, signz[i] * dz);
308  co[i] = m_cellVec[cellIndex].getPosition(lcoord);
309  }
310  } else {
312  id.zSide, id.iLay, id.iSec1, id.iSec2, id.iCell1, id.iCell2, true, false, true, debugLocate);
313  float zz = m_topology.dddConstants().waferZ(id.iLay, true);
314  float dx = k_fac2 * m_cellVec[cellIndex].param()[FlatHexagon::k_r];
315  float dy = k_fac1 * m_cellVec[cellIndex].param()[FlatHexagon::k_R];
316  float dz = -id.zSide * m_cellVec[cellIndex].param()[FlatHexagon::k_dZ];
317  static const int signx[] = {1, -1, -2, -1, 1, 2, 1, -1, -2, -1, 1, 2};
318  static const int signy[] = {1, 1, 0, -1, -1, 0, 1, 1, 0, -1, -1, 0};
319  static const int signz[] = {-1, -1, -1, -1, -1, -1, 1, 1, 1, 1, 1, 1};
320  for (unsigned int i = 0; i < ncorner; ++i) {
321  auto xyglob = m_topology.dddConstants().localToGlobal8(
322  id.zSide, id.iLay, id.iSec1, id.iSec2, (xy.first + signx[i] * dx), (xy.second + signy[i] * dy), true, false);
323  double xx = id.zSide * xyglob.first;
324  co[i] = GlobalPoint(xx, xyglob.second, id.zSide * (zz + signz[i] * dz));
325  }
326  }
327  }
328  return co;
329 }
double waferZ(int layer, bool reco) const
std::pair< double, double > cellSizeTrap(int type, int irad) const
const HGCalTopology & m_topology
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
bool waferHexagon6() const
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
std::vector< GlobalPoint > CornersVec
Definition: HGCalGeometry.h:38
static constexpr double k_fac2
static constexpr uint32_t k_Cell
Definition: FlatTrd.h:45
__host__ __device__ VT * co
Definition: prefixScan.h:47
static constexpr double k_half
static constexpr unsigned int ncorner_
Definition: FlatHexagon.h:81
static constexpr double k_fac1
static constexpr unsigned int ncorner_
Definition: FlatTrd.h:97
static constexpr uint32_t k_R
Definition: FlatHexagon.h:29
static constexpr uint32_t k_r
Definition: FlatHexagon.h:28
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
unsigned int indexFor(const DetId &id) const override
DecodedDetId decode(const DetId &id) const
CellVec2 m_cellVec2
static constexpr uint32_t k_dZ
Definition: FlatHexagon.h:27
std::pair< float, float > locateCellHex(int cell, int wafer, bool reco) const
std::pair< float, float > locateCell(int cell, int lay, int type, bool reco) const
const bool debugLocate
GlobalPoint getPosition(const DetId &id, bool debug=false) const
static constexpr uint32_t k_dZ
Definition: FlatTrd.h:26
DetId::Detector m_det
std::pair< float, float > localToGlobal8(int zside, int lay, int waferU, int waferV, double localX, double localY, bool reco, bool debug) const
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ getGeometry()

std::shared_ptr< const CaloCellGeometry > HGCalGeometry::getGeometry ( const DetId id) const
overridevirtual

Get the cell geometry of a given detector id. Should return false if not found.

Reimplemented from CaloSubdetectorGeometry.

Definition at line 181 of file HGCalGeometry.cc.

References cellGeomPtr(), hcalRecHitTable_cff::detId, HGCalTopology::detId2denseGeomId(), getGeometryDetId(), getPosition(), and m_topology.

181  {
182  if (detId == DetId())
183  return nullptr; // nothing to get
184  DetId geomId = getGeometryDetId(detId);
185  const uint32_t cellIndex(m_topology.detId2denseGeomId(geomId));
186  const GlobalPoint pos = (detId != geomId) ? getPosition(detId, false) : GlobalPoint();
187  return cellGeomPtr(cellIndex, pos);
188 }
const HGCalTopology & m_topology
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
virtual uint32_t detId2denseGeomId(const DetId &id) const
DetId getGeometryDetId(DetId detId) const
Definition: DetId.h:17
GlobalPoint getPosition(const DetId &id, bool debug=false) const
std::shared_ptr< const CaloCellGeometry > cellGeomPtr(uint32_t index) const override

◆ getGeometryDetId()

DetId HGCalGeometry::getGeometryDetId ( DetId  detId) const
private

Definition at line 868 of file HGCalGeometry.cc.

References hcalRecHitTable_cff::detId, HGCalDetId::geometryCell(), HGCScintillatorDetId::geometryCell(), HGCSiliconDetId::geometryCell(), HFNoseDetId::geometryCell(), HGCalTopology::isHFNose(), m_topology, HGCalTopology::tileTrapezoid(), and HGCalTopology::waferHexagon6().

Referenced by getGeometry(), indexFor(), newCell(), and present().

868  {
869  DetId geomId;
870  if (m_topology.waferHexagon6()) {
871  geomId = static_cast<DetId>(HGCalDetId(detId).geometryCell());
872  } else if (m_topology.tileTrapezoid()) {
873  geomId = static_cast<DetId>(HGCScintillatorDetId(detId).geometryCell());
874  } else if (m_topology.isHFNose()) {
875  geomId = static_cast<DetId>(HFNoseDetId(detId).geometryCell());
876  } else {
877  geomId = static_cast<DetId>(HGCSiliconDetId(detId).geometryCell());
878  }
879  return geomId;
880 }
bool tileTrapezoid() const
const HGCalTopology & m_topology
bool waferHexagon6() const
HGCalDetId geometryCell() const
Definition: HGCalDetId.h:34
HFNoseDetId geometryCell() const
Definition: HFNoseDetId.h:47
bool isHFNose() const
Definition: DetId.h:17
HGCScintillatorDetId geometryCell() const
HGCSiliconDetId geometryCell() const

◆ getGeometryRawPtr()

const CaloCellGeometry * HGCalGeometry::getGeometryRawPtr ( uint32_t  index) const
overrideprotectedvirtual

Implements CaloSubdetectorGeometry.

Definition at line 651 of file HGCalGeometry.cc.

References DetId::HGCalHSc, m_cellVec, m_cellVec2, m_det, and CaloCellGeometry::param().

Referenced by present().

651  {
652  // Modify the RawPtr class
653  if (m_det == DetId::HGCalHSc) {
654  if (m_cellVec2.size() < index)
655  return nullptr;
656  const CaloCellGeometry* cell(&m_cellVec2[index]);
657  return (nullptr == cell->param() ? nullptr : cell);
658  } else {
659  if (m_cellVec.size() < index)
660  return nullptr;
661  const CaloCellGeometry* cell(&m_cellVec[index]);
662  return (nullptr == cell->param() ? nullptr : cell);
663  }
664 }
CellVec2 m_cellVec2
DetId::Detector m_det
CellVec m_cellVec

◆ getNewCorners()

HGCalGeometry::CornersVec HGCalGeometry::getNewCorners ( const DetId id,
bool  debug = false 
) const

Definition at line 385 of file HGCalGeometry.cc.

References HGCalDDDConstants::cellSizeTrap(), cms::cuda::co, funct::cos(), HGCalTopology::dddConstants(), debug, HGCalTopology::decode(), l1ctLayer1_cff::dr, PVValHelper::dx, PVValHelper::dy, PVValHelper::dz, getPosition(), DetId::HGCalHSc, mps_fire::i, indexFor(), FlatTrd::k_Cell, FlatTrd::k_dZ, FlatHexagon::k_dZ, k_fac1, k_fac2, k_half, FlatHexagon::k_r, FlatHexagon::k_R, HGCalDDDConstants::localToGlobal8(), HGCalDDDConstants::locateCell(), HGCalDDDConstants::locateCellHex(), m_cellVec, m_cellVec2, m_det, m_topology, SiStripPI::min, alignCSCRings::r, findQualityFiles::rr, funct::sin(), findQualityFiles::v, HGCalTopology::waferHexagon6(), HGCalDDDConstants::waferZ(), geometryCSVtoXML::xx, geometryCSVtoXML::xy, and geometryCSVtoXML::zz.

Referenced by getArea().

385  {
386  unsigned int ncorner = (m_det == DetId::HGCalHSc) ? 5 : 7;
387  HGCalGeometry::CornersVec co(ncorner, GlobalPoint(0, 0, 0));
388  unsigned int cellIndex = indexFor(detid);
390  if (debug)
391  edm::LogVerbatim("HGCalGeom") << "NewCorners for Layer " << id.iLay << " Wafer " << id.iSec1 << ":" << id.iSec2
392  << " Cell " << id.iCell1 << ":" << id.iCell2;
393  if (cellIndex < m_cellVec2.size() && m_det == DetId::HGCalHSc) {
394  GlobalPoint v = getPosition(detid, false);
395  int type = std::min(id.iType, 1);
396  std::pair<double, double> rr = m_topology.dddConstants().cellSizeTrap(type, id.iSec1);
397  float dr = k_half * (rr.second - rr.first);
398  float dfi = m_cellVec2[cellIndex].param()[FlatTrd::k_Cell];
399  float dz = -id.zSide * m_cellVec2[cellIndex].param()[FlatTrd::k_dZ];
400  float r = v.perp();
401  float fi = v.phi();
402  static const int signr[] = {1, 1, -1, -1};
403  static const int signf[] = {-1, 1, 1, -1};
404  for (unsigned int i = 0; i < ncorner - 1; ++i) {
405  co[i] = GlobalPoint(
406  (r + signr[i] * dr) * cos(fi + signf[i] * dfi), (r + signr[i] * dr) * sin(fi + signf[i] * dfi), (v.z() + dz));
407  }
408  // Used to pass downstream the thickness of this cell
409  co[ncorner - 1] = GlobalPoint(0, 0, -2 * dz);
410  } else if (cellIndex < m_cellVec.size() && m_det != DetId::HGCalHSc) {
411  std::pair<float, float> xy;
412  float dx = k_fac2 * m_cellVec[cellIndex].param()[FlatHexagon::k_r];
413  float dy = k_fac1 * m_cellVec[cellIndex].param()[FlatHexagon::k_R];
414  float dz = -id.zSide * m_cellVec[cellIndex].param()[FlatHexagon::k_dZ];
415  static const int signx[] = {1, -1, -2, -1, 1, 2};
416  static const int signy[] = {1, 1, 0, -1, -1, 0};
417 #ifdef EDM_ML_DEBUG
418  if (debug)
419  edm::LogVerbatim("HGCalGeom") << "kfac " << k_fac1 << ":" << k_fac2 << " dx:dy:dz " << dx << ":" << dy << ":"
420  << dz;
421 #endif
422  if (m_topology.waferHexagon6()) {
423  xy = m_topology.dddConstants().locateCellHex(id.iCell1, id.iSec1, true);
424  for (unsigned int i = 0; i < ncorner - 1; ++i) {
425  const HepGeom::Point3D<float> lcoord(xy.first + signx[i] * dx, xy.second + signy[i] * dy, dz);
426  co[i] = m_cellVec[cellIndex].getPosition(lcoord);
427  }
428  } else {
430  id.zSide, id.iLay, id.iSec1, id.iSec2, id.iCell1, id.iCell2, true, false, true, debug);
431  float zz = m_topology.dddConstants().waferZ(id.iLay, true);
432  for (unsigned int i = 0; i < ncorner; ++i) {
433  double xloc = xy.first + signx[i] * dx;
434  double yloc = xy.second + signy[i] * dy;
435 #ifdef EDM_ML_DEBUG
436  if (debug)
437  edm::LogVerbatim("HGCalGeom") << "Corner " << i << " x " << xy.first << ":" << xloc << " y " << xy.second
438  << ":" << yloc << " z " << zz << ":" << id.zSide * (zz + dz);
439 #endif
440  auto xyglob =
441  m_topology.dddConstants().localToGlobal8(id.zSide, id.iLay, id.iSec1, id.iSec2, xloc, yloc, true, debug);
442  double xx = id.zSide * xyglob.first;
443  co[i] = GlobalPoint(xx, xyglob.second, id.zSide * (zz + dz));
444  }
445  }
446  // Used to pass downstream the thickness of this cell
447  co[ncorner - 1] = GlobalPoint(0, 0, -2 * dz);
448  }
449  return co;
450 }
double waferZ(int layer, bool reco) const
Log< level::Info, true > LogVerbatim
std::pair< double, double > cellSizeTrap(int type, int irad) const
const HGCalTopology & m_topology
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
bool waferHexagon6() const
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
std::vector< GlobalPoint > CornersVec
Definition: HGCalGeometry.h:38
static constexpr double k_fac2
static constexpr uint32_t k_Cell
Definition: FlatTrd.h:45
__host__ __device__ VT * co
Definition: prefixScan.h:47
static constexpr double k_half
static constexpr double k_fac1
static constexpr uint32_t k_R
Definition: FlatHexagon.h:29
static constexpr uint32_t k_r
Definition: FlatHexagon.h:28
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
unsigned int indexFor(const DetId &id) const override
DecodedDetId decode(const DetId &id) const
CellVec2 m_cellVec2
#define debug
Definition: HDRShower.cc:19
static constexpr uint32_t k_dZ
Definition: FlatHexagon.h:27
std::pair< float, float > locateCellHex(int cell, int wafer, bool reco) const
std::pair< float, float > locateCell(int cell, int lay, int type, bool reco) const
GlobalPoint getPosition(const DetId &id, bool debug=false) const
static constexpr uint32_t k_dZ
Definition: FlatTrd.h:26
DetId::Detector m_det
std::pair< float, float > localToGlobal8(int zside, int lay, int waferU, int waferV, double localX, double localY, bool reco, bool debug) const
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ getPosition()

GlobalPoint HGCalGeometry::getPosition ( const DetId id,
bool  debug = false 
) const

Definition at line 198 of file HGCalGeometry.cc.

References HGCalTopology::dddConstants(), debug, HGCalTopology::decode(), indexFor(), HGCalDDDConstants::locateCell(), HGCalDDDConstants::locateCellHex(), m_cellVec, m_cellVec2, m_topology, reco_skim_cfg_mod::maxSize, DetId::rawId(), HGCalTopology::tileTrapezoid(), HGCalTopology::waferHexagon6(), HGCalDDDConstants::waferZ(), geometryCSVtoXML::xx, geometryCSVtoXML::xy, and geometryCSVtoXML::zz.

Referenced by HGCalTBAnalyzer::analyzeDigi(), HGCalTBAnalyzer::analyzeRecHits(), HGCDigitizer::checkPosition(), HGCalRadiationMap::computeRadius(), get8Corners(), getClosestCellIndex(), getCorners(), getGeometry(), HGCalTriggerGeometryV9Imp2::getModulePosition(), HGCalTriggerGeometryV9Imp3::getModulePosition(), getNewCorners(), hgcal::RecHitTools::getPosition(), HGCalTriggerGeometryV9Imp2::getTriggerCellPosition(), HGCalTriggerGeometryV9Imp3::getTriggerCellPosition(), HGCalUncalibRecHitRecWeightsAlgo< HGCDataFrame >::makeRecHit(), and neighborZ().

198  {
199  unsigned int cellIndex = indexFor(detid);
200  GlobalPoint glob;
201  unsigned int maxSize = (m_topology.tileTrapezoid() ? m_cellVec2.size() : m_cellVec.size());
202  if (cellIndex < maxSize) {
204  std::pair<float, float> xy;
205  if (m_topology.waferHexagon6()) {
206  xy = m_topology.dddConstants().locateCellHex(id.iCell1, id.iSec1, true);
207  const HepGeom::Point3D<float> lcoord(xy.first, xy.second, 0);
208  glob = m_cellVec[cellIndex].getPosition(lcoord);
209  if (debug)
210  edm::LogVerbatim("HGCalGeom") << "getPosition:: index " << cellIndex << " Local " << lcoord.x() << ":"
211  << lcoord.y() << " ID " << id.iCell1 << ":" << id.iSec1 << " Global " << glob;
212  } else if (m_topology.tileTrapezoid()) {
213  const HepGeom::Point3D<float> lcoord(0, 0, 0);
214  glob = m_cellVec2[cellIndex].getPosition(lcoord);
215  if (debug)
216  edm::LogVerbatim("HGCalGeom") << "getPositionTrap:: index " << cellIndex << " Local " << lcoord.x() << ":"
217  << lcoord.y() << " ID " << id.iLay << ":" << id.iSec1 << ":" << id.iCell1
218  << " Global " << glob;
219  } else {
220  if (debug)
221  edm::LogVerbatim("HGCalGeom") << "getPosition for " << HGCSiliconDetId(detid) << " Layer " << id.iLay
222  << " Wafer " << id.iSec1 << ":" << id.iSec2 << " Cell " << id.iCell1 << ":"
223  << id.iCell2;
225  id.zSide, id.iLay, id.iSec1, id.iSec2, id.iCell1, id.iCell2, true, true, false, debug);
226  double xx = id.zSide * xy.first;
227  double zz = id.zSide * m_topology.dddConstants().waferZ(id.iLay, true);
228  glob = GlobalPoint(xx, xy.second, zz);
229  if (debug)
230  edm::LogVerbatim("HGCalGeom") << "getPositionWafer:: index " << cellIndex << " Local " << xy.first << ":"
231  << xy.second << " ID " << id.iLay << ":" << id.iSec1 << ":" << id.iSec2 << ":"
232  << id.iCell1 << ":" << id.iCell2 << " Global " << glob;
233  }
234  } else {
235  edm::LogVerbatim("HGCalGeom") << "Cannot recognize " << std::hex << detid.rawId() << " cellIndex " << cellIndex
236  << ":" << maxSize << " Type " << m_topology.tileTrapezoid();
237  }
238  return glob;
239 }
double waferZ(int layer, bool reco) const
Log< level::Info, true > LogVerbatim
bool tileTrapezoid() const
const HGCalTopology & m_topology
bool waferHexagon6() const
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
unsigned int indexFor(const DetId &id) const override
DecodedDetId decode(const DetId &id) const
CellVec2 m_cellVec2
#define debug
Definition: HDRShower.cc:19
std::pair< float, float > locateCellHex(int cell, int wafer, bool reco) const
std::pair< float, float > locateCell(int cell, int lay, int type, bool reco) const
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ getSummary()

void HGCalGeometry::getSummary ( CaloSubdetectorGeometry::TrVec trVector,
CaloSubdetectorGeometry::IVec iVector,
CaloSubdetectorGeometry::DimVec dimVector,
CaloSubdetectorGeometry::IVec dinsVector 
) const
overridevirtual

Reimplemented from CaloSubdetectorGeometry.

Definition at line 766 of file HGCalGeometry.cc.

References HGCalParameters::hgtrap::alpha, HGCalParameters::hgtrap::bl, cellGeomPtr(), HGCalParameters::hgtrap::cellSize, HGCalTopology::dddConstants(), hcalRecHitTable_cff::detId, HGCalTopology::detId2denseGeomId(), HGCalParameters::hgtrap::dz, HGCalParameters::firstModule_, HGCalDDDConstants::getModule(), HGCalDDDConstants::getParameter(), HGCalDDDConstants::getTrForm(), HGCalDDDConstants::getTrFormN(), runTauDisplay::gp, HGCalParameters::hgtrap::h, DetId::HGCalHSc, mps_fire::i, HGCalTopology::isHFNose(), FlatTrd::k_Alp1, FlatTrd::k_Alp2, FlatTrd::k_Cell, FlatTrd::k_dX1, FlatTrd::k_dX2, FlatTrd::k_dX3, FlatTrd::k_dX4, FlatTrd::k_dY1, FlatTrd::k_dY2, FlatTrd::k_dZ, FlatHexagon::k_dZ, k_NumberOfParametersPerHex, k_NumberOfParametersPerTrd, k_NumberOfShapes, FlatTrd::k_Phi, FlatHexagon::k_r, FlatHexagon::k_R, FlatTrd::k_Theta, HGCalParameters::lastModule_, HGCalParameters::hgtrform::lay, nano_mu_digi_cff::layer, HGCalDetId::layer(), HGCScintillatorDetId::layer(), HGCSiliconDetId::layer(), HFNoseDetId::layer(), HGCalDDDConstants::layerIndex(), m_det, m_topology, m_validGeomIds, CaloSubdetectorGeometry::numberOfParametersPerShape(), CaloSubdetectorGeometry::numberOfShapes(), CaloSubdetectorGeometry::numberOfTransformParms(), submitPVValidationJobs::params, findQualityFiles::rr, HGCalDDDConstants::sectors(), HGCalTopology::tileTrapezoid(), HGCalParameters::hgtrap::tl, HGCalTopology::totalGeomModules(), groupFilesInBlocks::tt, twoBysqrt3_, HGCalTopology::waferHexagon6(), and HGCalDDDConstants::waferInLayer().

769  {
770  unsigned int numberOfCells = m_topology.totalGeomModules(); // total Geom Modules both sides
771  unsigned int numberOfShapes = k_NumberOfShapes;
772  unsigned int numberOfParametersPerShape = ((m_det == DetId::HGCalHSc) ? (unsigned int)(k_NumberOfParametersPerTrd)
773  : (unsigned int)(k_NumberOfParametersPerHex));
774 
775  trVector.reserve(numberOfCells * numberOfTransformParms());
776  iVector.reserve(numberOfCells);
777  dimVector.reserve(numberOfShapes * numberOfParametersPerShape);
778  dinsVector.reserve(numberOfCells);
779 
780  for (unsigned itr = 0; itr < m_topology.dddConstants().getTrFormN(); ++itr) {
782  int layer = mytr.lay;
783 
784  if (m_topology.waferHexagon6()) {
785  for (int wafer = 0; wafer < m_topology.dddConstants().sectors(); ++wafer) {
786  if (m_topology.dddConstants().waferInLayer(wafer, layer, true)) {
787  HGCalParameters::hgtrap vol = m_topology.dddConstants().getModule(wafer, true, true);
789  params[FlatHexagon::k_dZ] = vol.dz;
792  dimVector.insert(dimVector.end(), params.begin(), params.end());
793  }
794  }
795  } else if (m_topology.tileTrapezoid()) {
796  int indx = m_topology.dddConstants().layerIndex(layer, true);
797  for (int md = m_topology.dddConstants().getParameter()->firstModule_[indx];
799  ++md) {
802  params[FlatTrd::k_dZ] = vol.dz;
809  dimVector.insert(dimVector.end(), params.begin(), params.end());
810  }
811  } else {
812  for (int wafer = 0; wafer < m_topology.dddConstants().sectors(); ++wafer) {
813  if (m_topology.dddConstants().waferInLayer(wafer, layer, true)) {
814  HGCalParameters::hgtrap vol = m_topology.dddConstants().getModule(wafer, true, true);
816  params[FlatHexagon::k_dZ] = vol.dz;
819  dimVector.insert(dimVector.end(), params.begin(), params.end());
820  }
821  }
822  }
823  }
824 
825  for (unsigned int i(0); i < numberOfCells; ++i) {
827  int layer(0);
828  if (m_topology.waferHexagon6()) {
830  } else if (m_topology.tileTrapezoid()) {
832  } else if (m_topology.isHFNose()) {
834  } else {
836  }
837  dinsVector.emplace_back(m_topology.detId2denseGeomId(detId));
838  iVector.emplace_back(layer);
839 
840  Tr3D tr;
841  auto ptr = cellGeomPtr(i);
842  if (nullptr != ptr) {
843  ptr->getTransform(tr, (Pt3DVec*)nullptr);
844 
845  if (Tr3D() == tr) { // there is no rotation
846  const GlobalPoint& gp(ptr->getPosition());
847  tr = HepGeom::Translate3D(gp.x(), gp.y(), gp.z());
848  }
849 
850  const CLHEP::Hep3Vector tt(tr.getTranslation());
851  trVector.emplace_back(tt.x());
852  trVector.emplace_back(tt.y());
853  trVector.emplace_back(tt.z());
854  if (6 == numberOfTransformParms()) {
855  const CLHEP::HepRotation rr(tr.getRotation());
856  const ROOT::Math::Transform3D rtr(
857  rr.xx(), rr.xy(), rr.xz(), tt.x(), rr.yx(), rr.yy(), rr.yz(), tt.y(), rr.zx(), rr.zy(), rr.zz(), tt.z());
859  rtr.GetRotation(ea);
860  trVector.emplace_back(ea.Phi());
861  trVector.emplace_back(ea.Theta());
862  trVector.emplace_back(ea.Psi());
863  }
864  }
865  }
866 }
static constexpr unsigned int k_NumberOfShapes
Definition: HGCalGeometry.h:46
std::vector< DetId > m_validGeomIds
unsigned int totalGeomModules() const
Definition: HGCalTopology.h:93
int layer() const
get the layer #
Definition: HFNoseDetId.h:57
const HGCalParameters * getParameter() const
bool tileTrapezoid() const
HGCalParameters::hgtrap getModule(unsigned int k, bool hexType, bool reco) const
virtual unsigned int numberOfTransformParms() const
const HGCalTopology & m_topology
bool waferHexagon6() const
static constexpr uint32_t k_Theta
Definition: FlatTrd.h:27
virtual unsigned int numberOfShapes() const
static constexpr uint32_t k_Cell
Definition: FlatTrd.h:45
static constexpr uint32_t k_dY1
Definition: FlatTrd.h:31
CaloCellGeometry::Tr3D Tr3D
bool waferInLayer(int wafer, int lay, bool reco) const
const double twoBysqrt3_
int layer() const
get the layer #
std::vector< int > firstModule_
Definition: TTTypes.h:54
static constexpr uint32_t k_R
Definition: FlatHexagon.h:29
static constexpr uint32_t k_r
Definition: FlatHexagon.h:28
std::vector< float > ParmVec
static constexpr uint32_t k_dX1
Definition: FlatTrd.h:32
int layerIndex(int lay, bool reco) const
virtual uint32_t detId2denseGeomId(const DetId &id) const
static constexpr unsigned int k_NumberOfParametersPerTrd
Definition: HGCalGeometry.h:43
int layer() const
get the layer #
static constexpr uint32_t k_dY2
Definition: FlatTrd.h:38
static constexpr uint32_t k_dX4
Definition: FlatTrd.h:41
bool isHFNose() const
static constexpr unsigned int k_NumberOfParametersPerHex
Definition: HGCalGeometry.h:44
Definition: DetId.h:17
std::vector< int > lastModule_
AlgebraicVector EulerAngles
Definition: Definitions.h:34
static constexpr uint32_t k_dZ
Definition: FlatHexagon.h:27
static constexpr uint32_t k_Phi
Definition: FlatTrd.h:29
int layer() const
get the layer #
Definition: HGCalDetId.h:46
CaloCellGeometry::Pt3DVec Pt3DVec
unsigned int getTrFormN() const
HGCalParameters::hgtrform getTrForm(unsigned int k) const
CaloCellGeometry::Tr3D Tr3D
std::shared_ptr< const CaloCellGeometry > cellGeomPtr(uint32_t index) const override
static constexpr uint32_t k_dZ
Definition: FlatTrd.h:26
DetId::Detector m_det
static constexpr uint32_t k_Alp1
Definition: FlatTrd.h:36
static constexpr uint32_t k_dX3
Definition: FlatTrd.h:39
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
static constexpr uint32_t k_dX2
Definition: FlatTrd.h:34
virtual unsigned int numberOfParametersPerShape() const
static constexpr uint32_t k_Alp2
Definition: FlatTrd.h:43

◆ getValidDetIds()

const std::vector<DetId>& HGCalGeometry::getValidDetIds ( DetId::Detector  det = DetId::Detector(0),
int  subdet = 0 
) const
inlineoverridevirtual

Get a list of valid detector ids (for the given subdetector)

Note
The implementation in this class is relevant for SubdetectorGeometries which handle only a single subdetector at a time. It does not look at the det and subdet arguments.

Reimplemented from CaloSubdetectorGeometry.

Definition at line 89 of file HGCalGeometry.h.

References CaloSubdetectorGeometry::m_validIds.

89  {
90  return m_validIds;
91  }
std::vector< DetId > m_validIds

◆ getValidGeomDetIds()

const std::vector<DetId>& HGCalGeometry::getValidGeomDetIds ( void  ) const
inline

Definition at line 92 of file HGCalGeometry.h.

References m_validGeomIds.

92 { return m_validGeomIds; }
std::vector< DetId > m_validGeomIds

◆ getWaferPosition()

GlobalPoint HGCalGeometry::getWaferPosition ( const DetId id) const

Definition at line 241 of file HGCalGeometry.cc.

References TauDecayModes::dec, indexFor(), m_cellVec, m_cellVec2, m_topology, reco_skim_cfg_mod::maxSize, DetId::rawId(), and HGCalTopology::tileTrapezoid().

241  {
242  unsigned int cellIndex = indexFor(detid);
243  GlobalPoint glob;
244  unsigned int maxSize = (m_topology.tileTrapezoid() ? m_cellVec2.size() : m_cellVec.size());
245  if (cellIndex < maxSize) {
246  const HepGeom::Point3D<float> lcoord(0, 0, 0);
247  if (m_topology.tileTrapezoid()) {
248  glob = m_cellVec2[cellIndex].getPosition(lcoord);
249  } else {
250  glob = m_cellVec[cellIndex].getPosition(lcoord);
251  }
252 #ifdef EDM_ML_DEBUG
253  edm::LogVerbatim("HGCalGeom") << "getPositionTrap:: ID " << std::hex << detid.rawId() << std::dec << " index "
254  << cellIndex << " Global " << glob;
255 #endif
256  }
257  return glob;
258 }
Log< level::Info, true > LogVerbatim
bool tileTrapezoid() const
const HGCalTopology & m_topology
unsigned int indexFor(const DetId &id) const override
CellVec2 m_cellVec2
CellVec m_cellVec

◆ indexFor()

unsigned int HGCalGeometry::indexFor ( const DetId id) const
overrideprotectedvirtual

Reimplemented from CaloSubdetectorGeometry.

Definition at line 636 of file HGCalGeometry.cc.

References TauDecayModes::dec, hcalRecHitTable_cff::detId, HGCalTopology::detId2denseGeomId(), getGeometryDetId(), DetId::HGCalHSc, m_cellVec, m_cellVec2, m_det, m_topology, and DetId::rawId().

Referenced by get8Corners(), getCorners(), getNewCorners(), getPosition(), and getWaferPosition().

636  {
637  unsigned int cellIndex = ((m_det == DetId::HGCalHSc) ? m_cellVec2.size() : m_cellVec.size());
638  if (detId != DetId()) {
639  DetId geomId = getGeometryDetId(detId);
640  cellIndex = m_topology.detId2denseGeomId(geomId);
641 #ifdef EDM_ML_DEBUG
642  edm::LogVerbatim("HGCalGeom") << "indexFor " << std::hex << detId.rawId() << ":" << geomId.rawId() << std::dec
643  << " index " << cellIndex;
644 #endif
645  }
646  return cellIndex;
647 }
Log< level::Info, true > LogVerbatim
const HGCalTopology & m_topology
virtual uint32_t detId2denseGeomId(const DetId &id) const
DetId getGeometryDetId(DetId detId) const
CellVec2 m_cellVec2
Definition: DetId.h:17
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
DetId::Detector m_det
CellVec m_cellVec

◆ initializeParms()

void HGCalGeometry::initializeParms ( )
overridevirtual

Reimplemented from CaloSubdetectorGeometry.

Definition at line 47 of file HGCalGeometry.cc.

47 {}

◆ localCorners()

void HGCalGeometry::localCorners ( Pt3DVec lc,
const CCGFloat pv,
unsigned int  i,
Pt3D ref 
)

Definition at line 49 of file HGCalGeometry.cc.

References DetId::HGCalHSc, FlatHexagon::localCorners(), FlatTrd::localCorners(), and m_det.

49  {
50  if (m_det == DetId::HGCalHSc) {
51  FlatTrd::localCorners(lc, pv, ref);
52  } else {
53  FlatHexagon::localCorners(lc, pv, ref);
54  }
55 }
static void localCorners(Pt3DVec &vec, const CCGFloat *pv, Pt3D &ref)
Definition: FlatHexagon.cc:154
static void localCorners(Pt3DVec &vec, const CCGFloat *pv, Pt3D &ref)
Definition: FlatTrd.cc:153
DetId::Detector m_det

◆ neighborZ() [1/2]

DetId HGCalGeometry::neighborZ ( const DetId idin,
const GlobalVector p 
) const

Definition at line 452 of file HGCalGeometry.cc.

References HGCalTopology::dddConstants(), HGCalTopology::decode(), HGCalDDDConstants::firstLayer(), getClosestCell(), getPosition(), HGCalDDDConstants::lastLayer(), m_topology, AlCaHLTBitMon_ParallelJobs::p, alignCSCRings::r, HGCalDDDConstants::rangeR(), topology(), findQualityFiles::v, HGCalDDDConstants::waferZ(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), z, and PV3DBase< T, PVType, FrameType >::z().

452  {
453  DetId idnew;
455  int lay = ((momentum.z() * id.zSide > 0) ? (id.iLay + 1) : (id.iLay - 1));
456 #ifdef EDM_ML_DEBUG
457  edm::LogVerbatim("HGCalGeom") << "neighborz1:: ID " << id.iLay << ":" << id.iSec1 << ":" << id.iSec2 << ":"
458  << id.iCell1 << ":" << id.iCell2 << " New Layer " << lay << " Range "
459  << m_topology.dddConstants().firstLayer() << ":"
460  << m_topology.dddConstants().lastLayer(true) << " pz " << momentum.z();
461 #endif
462  if ((lay >= m_topology.dddConstants().firstLayer()) && (lay <= m_topology.dddConstants().lastLayer(true)) &&
463  (momentum.z() != 0.0)) {
464  GlobalPoint v = getPosition(idin, false);
465  double z = id.zSide * m_topology.dddConstants().waferZ(lay, true);
466  double grad = (z - v.z()) / momentum.z();
467  GlobalPoint p(v.x() + grad * momentum.x(), v.y() + grad * momentum.y(), z);
468  double r = p.perp();
469  auto rlimit = topology().dddConstants().rangeR(z, true);
470  if (r >= rlimit.first && r <= rlimit.second)
471  idnew = getClosestCell(p);
472 #ifdef EDM_ML_DEBUG
473  edm::LogVerbatim("HGCalGeom") << "neighborz1:: Position " << v << " New Z " << z << ":" << grad << " new position "
474  << p << " r-limit " << rlimit.first << ":" << rlimit.second;
475 #endif
476  }
477  return idnew;
478 }
double waferZ(int layer, bool reco) const
Log< level::Info, true > LogVerbatim
const HGCalTopology & m_topology
int lastLayer(bool reco) const
int firstLayer() const
DetId getClosestCell(const GlobalPoint &r) const override
DecodedDetId decode(const DetId &id) const
const HGCalTopology & topology() const
std::pair< double, double > rangeR(double z, bool reco) const
Definition: DetId.h:17
GlobalPoint getPosition(const DetId &id, bool debug=false) const
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98

◆ neighborZ() [2/2]

DetId HGCalGeometry::neighborZ ( const DetId idin,
const MagneticField bField,
int  charge,
const GlobalVector momentum 
) const

Definition at line 480 of file HGCalGeometry.cc.

References alongMomentum, Calorimetry_cff::bField, Plane::build(), ALCARECOTkAlJpsiMuMu_cff::charge, HGCalTopology::dddConstants(), HGCalTopology::decode(), HGCalDDDConstants::firstLayer(), getClosestCell(), getPosition(), TrajectoryStateOnSurface::globalPosition(), TrajectoryStateOnSurface::isValid(), HGCalDDDConstants::lastLayer(), M_PI, m_topology, AlCaHLTBitMon_ParallelJobs::p, AnalyticalPropagator::propagate(), alignCSCRings::r, HGCalDDDConstants::rangeR(), topology(), findQualityFiles::v, HGCalDDDConstants::waferZ(), z, and PV3DBase< T, PVType, FrameType >::z().

483  {
484  DetId idnew;
486  int lay = ((momentum.z() * id.zSide > 0) ? (id.iLay + 1) : (id.iLay - 1));
487 #ifdef EDM_ML_DEBUG
488  edm::LogVerbatim("HGCalGeom") << "neighborz2:: ID " << id.iLay << ":" << id.iSec1 << ":" << id.iSec2 << ":"
489  << id.iCell1 << ":" << id.iCell2 << " New Layer " << lay << " Range "
490  << m_topology.dddConstants().firstLayer() << ":"
491  << m_topology.dddConstants().lastLayer(true) << " pz " << momentum.z();
492 #endif
493  if ((lay >= m_topology.dddConstants().firstLayer()) && (lay <= m_topology.dddConstants().lastLayer(true)) &&
494  (momentum.z() != 0.0)) {
495  GlobalPoint v = getPosition(idin, false);
496  double z = id.zSide * m_topology.dddConstants().waferZ(lay, true);
497  FreeTrajectoryState fts(v, momentum, charge, bField);
500  TrajectoryStateOnSurface tsos = myAP.propagate(fts, *nPlane);
501  GlobalPoint p;
502  auto rlimit = topology().dddConstants().rangeR(z, true);
503  if (tsos.isValid()) {
504  p = tsos.globalPosition();
505  double r = p.perp();
506  if (r >= rlimit.first && r <= rlimit.second)
507  idnew = getClosestCell(p);
508  }
509 #ifdef EDM_ML_DEBUG
510  edm::LogVerbatim("HGCalGeom") << "neighborz2:: Position " << v << " New Z " << z << ":" << charge << ":"
511  << tsos.isValid() << " new position " << p << " r limits " << rlimit.first << ":"
512  << rlimit.second;
513 #endif
514  }
515  return idnew;
516 }
double waferZ(int layer, bool reco) const
Log< level::Info, true > LogVerbatim
T z() const
Definition: PV3DBase.h:61
const HGCalTopology & m_topology
int lastLayer(bool reco) const
int firstLayer() const
static PlanePointer build(Args &&... args)
Definition: Plane.h:33
DetId getClosestCell(const GlobalPoint &r) const override
GlobalPoint globalPosition() const
DecodedDetId decode(const DetId &id) const
const HGCalTopology & topology() const
#define M_PI
std::pair< double, double > rangeR(double z, bool reco) const
Definition: DetId.h:17
GlobalPoint getPosition(const DetId &id, bool debug=false) const
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98

◆ newCell()

void HGCalGeometry::newCell ( const GlobalPoint f1,
const GlobalPoint f2,
const GlobalPoint f3,
const CCGFloat parm,
const DetId detId 
)
overridevirtual

Implements CaloSubdetectorGeometry.

Definition at line 57 of file HGCalGeometry.cc.

References HGCalDDDConstants::cellInLayer(), hgcalTBTopologyTester_cfi::cells, CaloSubdetectorGeometry::cornersMgr(), HGCalTopology::dddConstants(), TauDecayModes::dec, HGCalTopology::decode(), hcalRecHitTable_cff::detId, HGCalTopology::detId2denseGeomId(), HGCalTopology::encode(), DeadROC_duringRun::f1, DeadROC_duringRun::f2, getGeometryDetId(), DetId::HGCalHSc, HGCalTopology::isHFNose(), HGCScintillatorDetId::layer(), m_cellVec, m_cellVec2, m_det, m_topology, m_validGeomIds, CaloSubdetectorGeometry::m_validIds, HGCalDDDConstants::numberCellsHexagon(), DetId::rawId(), HGCScintillatorDetId::ring(), HGCScintillatorDetId::setSiPM(), HGCScintillatorDetId::setType(), HGCalTopology::tileTrapezoid(), HGCalDDDConstants::tileType(), findQualityFiles::v, HGCalTopology::valid(), and HGCalTopology::waferHexagon6().

58  {
59  DetId geomId = getGeometryDetId(detId);
60  int cells(0);
62  if (m_topology.waferHexagon6()) {
64 #ifdef EDM_ML_DEBUG
65  edm::LogVerbatim("HGCalGeom") << "NewCell " << HGCalDetId(detId) << " GEOM " << HGCalDetId(geomId);
66 #endif
67  } else if (m_topology.tileTrapezoid()) {
68  cells = 1;
69 #ifdef EDM_ML_DEBUG
70  edm::LogVerbatim("HGCalGeom") << "NewCell " << HGCScintillatorDetId(detId) << " GEOM "
71  << HGCScintillatorDetId(geomId);
72 #endif
73  } else {
74  cells = m_topology.dddConstants().numberCellsHexagon(id.iLay, id.iSec1, id.iSec2, false);
75 #ifdef EDM_ML_DEBUG
76  edm::LogVerbatim("HGCalGeom") << "NewCell " << HGCSiliconDetId(detId) << " GEOM " << HGCSiliconDetId(geomId);
77 #endif
78  }
79  const uint32_t cellIndex(m_topology.detId2denseGeomId(geomId));
80 
81  if (m_det == DetId::HGCalHSc) {
82  m_cellVec2.at(cellIndex) = FlatTrd(cornersMgr(), f1, f2, f3, parm);
83  } else {
84  m_cellVec.at(cellIndex) = FlatHexagon(cornersMgr(), f1, f2, f3, parm);
85  }
86  m_validGeomIds.at(cellIndex) = geomId;
87 
88 #ifdef EDM_ML_DEBUG
89  edm::LogVerbatim("HGCalGeom") << "Store for DetId " << std::hex << detId.rawId() << " GeomId " << geomId.rawId()
90  << std::dec << " Index " << cellIndex << " cells " << cells;
91  unsigned int nOld = m_validIds.size();
92 #endif
93  if (m_topology.waferHexagon6()) {
94  for (int cell = 0; cell < cells; ++cell) {
95  id.iCell1 = cell;
96  DetId idc = m_topology.encode(id);
97  if (m_topology.valid(idc)) {
98  m_validIds.emplace_back(idc);
99 #ifdef EDM_ML_DEBUG
100  edm::LogVerbatim("HGCalGeom") << "Valid Id [" << cell << "] " << HGCalDetId(idc);
101 #endif
102  }
103  }
104  } else if (m_topology.tileTrapezoid()) {
105  DetId idc = m_topology.encode(id);
106  if (m_topology.valid(idc)) {
107  HGCScintillatorDetId hid(idc);
108  std::pair<int, int> typm = m_topology.dddConstants().tileType(hid.layer(), hid.ring(), 0);
109  if (typm.first >= 0) {
110  hid.setType(typm.first);
111  hid.setSiPM(typm.second);
112  idc = static_cast<DetId>(hid);
113  }
114  m_validIds.emplace_back(idc);
115 #ifdef EDM_ML_DEBUG
116  edm::LogVerbatim("HGCalGeom") << "Valid Id [0] " << HGCScintillatorDetId(idc);
117 #endif
118  } else {
119  edm::LogWarning("HGCalGeom") << "Check " << HGCScintillatorDetId(idc) << " from " << HGCScintillatorDetId(detId)
120  << " ERROR ???";
121  }
122  } else {
123 #ifdef EDM_ML_DEBUG
124  unsigned int cellAll(0), cellSelect(0);
125 #endif
126  for (int u = 0; u < 2 * cells; ++u) {
127  for (int v = 0; v < 2 * cells; ++v) {
128  if (((v - u) < cells) && (u - v) <= cells) {
129  id.iCell1 = u;
130  id.iCell2 = v;
131  DetId idc = m_topology.encode(id);
132 #ifdef EDM_ML_DEBUG
133  ++cellAll;
134 #endif
135  if (m_topology.dddConstants().cellInLayer(id.iSec1, id.iSec2, u, v, id.iLay, id.zSide, true)) {
136  m_validIds.emplace_back(idc);
137 #ifdef EDM_ML_DEBUG
138  ++cellSelect;
139  edm::LogVerbatim("HGCalGeom") << "Valid Id [" << u << ", " << v << "] " << HGCSiliconDetId(idc);
140 #endif
141  }
142  }
143  }
144  }
145 #ifdef EDM_ML_DEBUG
146  edm::LogVerbatim("HGCalGeom") << "HGCalGeometry keeps " << cellSelect << " out of " << cellAll << " for wafer "
147  << id.iSec1 << ":" << id.iSec2 << " in "
148  << " layer " << id.iLay;
149 #endif
150  }
151 #ifdef EDM_ML_DEBUG
152  if (m_det == DetId::HGCalHSc) {
153  edm::LogVerbatim("HGCalGeom") << "HGCalGeometry::newCell-> [" << cellIndex << "]"
154  << " front:" << f1.x() << '/' << f1.y() << '/' << f1.z() << " back:" << f2.x() << '/'
155  << f2.y() << '/' << f2.z() << " eta|phi " << m_cellVec2[cellIndex].etaPos() << ":"
156  << m_cellVec2[cellIndex].phiPos();
157  } else {
158  edm::LogVerbatim("HGCalGeom") << "HGCalGeometry::newCell-> [" << cellIndex << "]"
159  << " front:" << f1.x() << '/' << f1.y() << '/' << f1.z() << " back:" << f2.x() << '/'
160  << f2.y() << '/' << f2.z() << " eta|phi " << m_cellVec[cellIndex].etaPos() << ":"
161  << m_cellVec[cellIndex].phiPos();
162  }
163  unsigned int nNew = m_validIds.size();
164  if (m_topology.waferHexagon6()) {
165  edm::LogVerbatim("HGCalGeom") << "ID: " << HGCalDetId(detId) << " with valid DetId from " << nOld << " to " << nNew;
166  } else if (m_topology.tileTrapezoid()) {
167  edm::LogVerbatim("HGCalGeom") << "ID: " << HGCScintillatorDetId(detId) << " with valid DetId from " << nOld
168  << " to " << nNew;
169  } else if (m_topology.isHFNose()) {
170  edm::LogVerbatim("HGCalGeom") << "ID: " << HFNoseDetId(detId) << " with valid DetId from " << nOld << " to "
171  << nNew;
172  } else {
173  edm::LogVerbatim("HGCalGeom") << "ID: " << HGCSiliconDetId(detId) << " with valid DetId from " << nOld << " to "
174  << nNew;
175  }
176  edm::LogVerbatim("HGCalGeom") << "Cell[" << cellIndex << "] " << std::hex << geomId.rawId() << ":"
177  << m_validGeomIds[cellIndex].rawId() << std::dec;
178 #endif
179 }
std::vector< DetId > m_validGeomIds
Log< level::Info, true > LogVerbatim
A base class to handle the particular shape of HGCal volumes.
Definition: FlatTrd.h:19
bool tileTrapezoid() const
bool valid(const DetId &id) const override
Is this a valid cell id.
const HGCalTopology & m_topology
bool waferHexagon6() const
std::vector< DetId > m_validIds
virtual uint32_t detId2denseGeomId(const DetId &id) const
bool cellInLayer(int waferU, int waferV, int cellU, int cellV, int lay, int zside, bool reco) const
A base class to handle the hexagonal shape of HGCal silicon volumes.
Definition: FlatHexagon.h:20
DecodedDetId decode(const DetId &id) const
DetId getGeometryDetId(DetId detId) const
std::pair< int, int > tileType(int layer, int ring, int phi) const
CellVec2 m_cellVec2
bool isHFNose() const
Definition: DetId.h:17
int numberCellsHexagon(int wafer) const
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
CaloCellGeometry::CornersMgr * cornersMgr()
DetId encode(const DecodedDetId &id_) const
DetId::Detector m_det
Log< level::Warning, false > LogWarning
const HGCalDDDConstants & dddConstants() const
Definition: HGCalTopology.h:98
CellVec m_cellVec

◆ present()

bool HGCalGeometry::present ( const DetId id) const
overridevirtual

is this detid present in the geometry?

Reimplemented from CaloSubdetectorGeometry.

Definition at line 190 of file HGCalGeometry.cc.

References hcalRecHitTable_cff::detId, HGCalTopology::detId2denseGeomId(), getGeometryDetId(), getGeometryRawPtr(), and m_topology.

190  {
191  if (detId == DetId())
192  return false;
193  DetId geomId = getGeometryDetId(detId);
194  const uint32_t index(m_topology.detId2denseGeomId(geomId));
195  return (nullptr != getGeometryRawPtr(index));
196 }
const HGCalTopology & m_topology
virtual uint32_t detId2denseGeomId(const DetId &id) const
DetId getGeometryDetId(DetId detId) const
const CaloCellGeometry * getGeometryRawPtr(uint32_t index) const override
Definition: DetId.h:17

◆ producerTag()

static std::string HGCalGeometry::producerTag ( )
inlinestatic

◆ sizeForDenseIndex() [1/2]

unsigned int CaloSubdetectorGeometry::sizeForDenseIndex
protected

Definition at line 256 of file CaloSubdetectorGeometry.cc.

256  {
258 }
uint32_t sizeForDenseIndexing() const

◆ sizeForDenseIndex() [2/2]

unsigned int HGCalGeometry::sizeForDenseIndex ( ) const
protected

Definition at line 649 of file HGCalGeometry.cc.

References m_topology, and HGCalTopology::totalGeomModules().

649 { return m_topology.totalGeomModules(); }
unsigned int totalGeomModules() const
Definition: HGCalTopology.h:93
const HGCalTopology & m_topology

◆ sortDetIds()

void HGCalGeometry::sortDetIds ( void  )

Definition at line 761 of file HGCalGeometry.cc.

References CaloSubdetectorGeometry::m_validIds, and jetUpdater_cfi::sort.

761  {
762  m_validIds.shrink_to_fit();
763  std::sort(m_validIds.begin(), m_validIds.end(), rawIdSort());
764 }
std::vector< DetId > m_validIds

◆ topology()

const HGCalTopology& HGCalGeometry::topology ( ) const
inline

Member Data Documentation

◆ k_fac1

constexpr double HGCalGeometry::k_fac1 = 0.5
staticprivate

Definition at line 135 of file HGCalGeometry.h.

Referenced by get8Corners(), getCorners(), and getNewCorners().

◆ k_fac2

constexpr double HGCalGeometry::k_fac2 = 1.0 / 3.0
staticprivate

Definition at line 136 of file HGCalGeometry.h.

Referenced by get8Corners(), getCorners(), and getNewCorners().

◆ k_half

constexpr double HGCalGeometry::k_half = 0.5
staticprivate

Definition at line 134 of file HGCalGeometry.h.

Referenced by get8Corners(), getCorners(), and getNewCorners().

◆ k_NumberOfParametersPerHex

constexpr unsigned int HGCalGeometry::k_NumberOfParametersPerHex = 3
static

Definition at line 44 of file HGCalGeometry.h.

Referenced by HGCalGeometryLoader::build(), and getSummary().

◆ k_NumberOfParametersPerShape

constexpr unsigned int HGCalGeometry::k_NumberOfParametersPerShape = 3
static

Definition at line 45 of file HGCalGeometry.h.

Referenced by CaloGeometryDBEP< T, U >::produceAligned().

◆ k_NumberOfParametersPerTrd

constexpr unsigned int HGCalGeometry::k_NumberOfParametersPerTrd = 12
static

Definition at line 43 of file HGCalGeometry.h.

Referenced by HGCalGeometryLoader::build(), and getSummary().

◆ k_NumberOfShapes

constexpr unsigned int HGCalGeometry::k_NumberOfShapes = 100
static

◆ k_NumberOfShapesTrd

constexpr unsigned int HGCalGeometry::k_NumberOfShapesTrd = 1000
static

Definition at line 47 of file HGCalGeometry.h.

Referenced by HGCalGeometryLoader::build().

◆ m_cellVec

CellVec HGCalGeometry::m_cellVec
private

◆ m_cellVec2

CellVec2 HGCalGeometry::m_cellVec2
private

◆ m_det

DetId::Detector HGCalGeometry::m_det
private

◆ m_subdet

ForwardSubdetector HGCalGeometry::m_subdet
private

Definition at line 143 of file HGCalGeometry.h.

Referenced by cellElement().

◆ m_topology

const HGCalTopology& HGCalGeometry::m_topology
private

◆ m_validGeomIds

std::vector<DetId> HGCalGeometry::m_validGeomIds
private

◆ twoBysqrt3_

const double HGCalGeometry::twoBysqrt3_
private

Definition at line 144 of file HGCalGeometry.h.

Referenced by getSummary().