#include <PositionCalc.h>
Public Member Functions | |
math::XYZPoint | Calculate_Location (const std::vector< std::pair< DetId, float > > &iDetIds, const EcalRecHitCollection *iRecHits, const CaloSubdetectorGeometry *iSubGeom, const CaloSubdetectorGeometry *iESGeom=0) |
const PositionCalc & | operator= (const PositionCalc &rhs) |
PositionCalc (const edm::ParameterSet &par) | |
PositionCalc () | |
Private Attributes | |
const CaloSubdetectorGeometry * | m_esGeom |
bool | m_esMinus |
bool | m_esPlus |
bool | param_LogWeighted_ |
double | param_T0_barl_ |
double | param_T0_endc_ |
double | param_T0_endcPresh_ |
double | param_W0_ |
double | param_X0_ |
Definition at line 25 of file PositionCalc.h.
PositionCalc::PositionCalc | ( | const edm::ParameterSet & | par | ) |
Definition at line 11 of file PositionCalc.cc.
: param_LogWeighted_ ( par.getParameter<bool>("LogWeighted")) , param_T0_barl_ ( par.getParameter<double>("T0_barl")) , param_T0_endc_ ( par.getParameter<double>("T0_endc")) , param_T0_endcPresh_ ( par.getParameter<double>("T0_endcPresh")) , param_W0_ ( par.getParameter<double>("W0")) , param_X0_ ( par.getParameter<double>("X0")) , m_esGeom ( 0 ) , m_esPlus ( false ) , m_esMinus ( false ) { }
PositionCalc::PositionCalc | ( | ) | [inline] |
Definition at line 32 of file PositionCalc.h.
{ };
math::XYZPoint PositionCalc::Calculate_Location | ( | const std::vector< std::pair< DetId, float > > & | iDetIds, |
const EcalRecHitCollection * | iRecHits, | ||
const CaloSubdetectorGeometry * | iSubGeom, | ||
const CaloSubdetectorGeometry * | iESGeom = 0 |
||
) |
Definition at line 40 of file PositionCalc.cc.
References EcalBarrel, jptDQMConfig_cff::eMax, edm::SortedCollection< T, SORT >::end(), relval_parameters_module::energy, edm::SortedCollection< T, SORT >::find(), CaloSubdetectorGeometry::getGeometry(), CaloSubdetectorGeometry::getValidDetIds(), j, funct::log(), LogDebug, m_esGeom, m_esMinus, m_esPlus, max(), n, DetId::null(), param_LogWeighted_, param_T0_barl_, param_T0_endc_, param_T0_endcPresh_, param_W0_, param_X0_, pos, edm::SortedCollection< T, SORT >::size(), DetId::subdetId(), CommonMethods::weight(), and z.
Referenced by HLTAlCaMonPi0::analyze(), HLTAlCa::analyze(), DQMSourcePi0::analyze(), HybridClusterAlgo::e2Et(), HybridClusterAlgo::et25(), PhotonProducer::fillPhotonCollection(), Multi5x5ClusterAlgo::mainSearch(), HybridClusterAlgo::mainSearch(), IslandClusterAlgo::makeCluster(), Multi5x5ClusterAlgo::makeCluster(), and CosmicClusterAlgo::makeCluster().
{ math::XYZPoint returnValue ( 0, 0, 0 ) ; // Throw an error if the cluster was not initialized properly if( 0 == iRecHits || 0 == iSubGeom ) { throw(std::runtime_error("\n\nPositionCalc::Calculate_Location called uninitialized or wrong initialization.\n\n")); } if( 0 != iDetIds.size() && 0 != iRecHits->size() ) { typedef std::vector<DetId> DetIdVec ; DetIdVec detIds ; detIds.reserve( iDetIds.size() ) ; double eTot ( 0 ) ; double eMax ( 0 ) ; DetId maxId ; // Check that DetIds are nonzero EcalRecHitCollection::const_iterator endRecHits ( iRecHits->end() ) ; for( std::vector< std::pair<DetId, float> >::const_iterator n ( iDetIds.begin() ) ; n != iDetIds.end() ; ++n ) { const DetId dId ( (*n).first ) ; if( !dId.null() ) { EcalRecHitCollection::const_iterator iHit ( iRecHits->find( dId ) ) ; if( iHit != endRecHits ) { detIds.push_back( dId ); const double energy ( iHit->energy() ) ; if( 0 < energy ) // only save positive energies { if( eMax < energy ) { eMax = energy ; maxId = dId ; } eTot += energy ; } } } } if( 0 >= eTot ) { LogDebug("ZeroClusterEnergy") << "cluster with 0 energy: " << eTot << ", returning (0,0,0)"; } else { // first time or when es geom changes set flags if( 0 != iESGeom && m_esGeom != iESGeom ) { m_esGeom = iESGeom ; for( uint32_t ic ( 0 ) ; ( ic != m_esGeom->getValidDetIds().size() ) && ( (!m_esPlus) || (!m_esMinus) ) ; ++ic ) { const double z ( m_esGeom->getGeometry( m_esGeom->getValidDetIds()[ic] )->getPosition().z() ) ; m_esPlus = m_esPlus || ( 0 < z ) ; m_esMinus = m_esMinus || ( 0 > z ) ; } } //Select the correct value of the T0 parameter depending on subdetector const CaloCellGeometry* center_cell ( iSubGeom->getGeometry( maxId ) ) ; const double ctreta (center_cell->getPosition().eta()); // for barrel, use barrel T0; // for endcap: if preshower present && in preshower fiducial, // use preshower T0 // else use endcap only T0 const double preshowerStartEta = 1.653; const int subdet = maxId.subdetId(); const double T0 ( subdet == EcalBarrel ? param_T0_barl_ : ( ( ( preshowerStartEta < fabs( ctreta ) ) && ( ( ( 0 < ctreta ) && m_esPlus ) || ( ( 0 > ctreta ) && m_esMinus ) ) ) ? param_T0_endcPresh_ : param_T0_endc_ ) ) ; // Calculate shower depth const float maxDepth ( param_X0_ * ( T0 + log( eTot ) ) ) ; const float maxToFront ( center_cell->getPosition().mag() ) ; // to front face // Loop over hits and get weights double total_weight = 0; double xw ( 0 ) ; double yw ( 0 ) ; double zw ( 0 ) ; for( DetIdVec::const_iterator j ( detIds.begin() ) ; j != detIds.end() ; ++j ) { const DetId dId ( *j ) ; EcalRecHitCollection::const_iterator iR ( iRecHits->find( dId ) ) ; const double e_j ( iR->energy() ) ; double weight = 0; if ( param_LogWeighted_ ) { if ( e_j > 0 ) { weight = std::max( 0., param_W0_ + log(e_j/eTot) ); } else { weight = 0; } } else { weight = e_j/eTot; } const CaloCellGeometry* cell ( iSubGeom->getGeometry( dId ) ) ; const float depth ( maxDepth + maxToFront - cell->getPosition().mag() ) ; const GlobalPoint pos ( dynamic_cast<const TruncatedPyramid*>( cell )->getPosition( depth ) ); xw += weight*pos.x() ; yw += weight*pos.y() ; zw += weight*pos.z() ; total_weight += weight ; } returnValue = math::XYZPoint( xw/total_weight, yw/total_weight, zw/total_weight ) ; } } return returnValue ; }
const PositionCalc & PositionCalc::operator= | ( | const PositionCalc & | rhs | ) |
Definition at line 24 of file PositionCalc.cc.
References m_esGeom, m_esMinus, m_esPlus, param_LogWeighted_, param_T0_barl_, param_T0_endc_, param_T0_endcPresh_, param_W0_, and param_X0_.
{ param_LogWeighted_ = rhs.param_LogWeighted_; param_T0_barl_ = rhs.param_T0_barl_; param_T0_endc_ = rhs.param_T0_endc_; param_T0_endcPresh_ = rhs.param_T0_endcPresh_; param_W0_ = rhs.param_W0_; param_X0_ = rhs.param_X0_; m_esGeom = rhs.m_esGeom ; m_esPlus = rhs.m_esPlus ; m_esMinus = rhs.m_esMinus ; return *this; }
const CaloSubdetectorGeometry* PositionCalc::m_esGeom [private] |
Definition at line 53 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
bool PositionCalc::m_esMinus [private] |
Definition at line 55 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
bool PositionCalc::m_esPlus [private] |
Definition at line 54 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
bool PositionCalc::param_LogWeighted_ [private] |
Definition at line 46 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
double PositionCalc::param_T0_barl_ [private] |
Definition at line 47 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
double PositionCalc::param_T0_endc_ [private] |
Definition at line 48 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
double PositionCalc::param_T0_endcPresh_ [private] |
Definition at line 49 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
double PositionCalc::param_W0_ [private] |
Definition at line 50 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().
double PositionCalc::param_X0_ [private] |
Definition at line 51 of file PositionCalc.h.
Referenced by Calculate_Location(), and operator=().