#include <AlignmentCSCOverlapSelector.h>
Public Types | |
typedef std::vector< const reco::Track * > | Tracks |
Public Member Functions | |
AlignmentCSCOverlapSelector (const edm::ParameterSet &iConfig) | |
constructor | |
Tracks | select (const Tracks &tracks, const edm::Event &iEvent) const |
select tracks | |
~AlignmentCSCOverlapSelector () | |
destructor | |
Private Attributes | |
unsigned int | m_minHitsPerChamber |
int | m_station |
Definition at line 14 of file AlignmentCSCOverlapSelector.h.
typedef std::vector<const reco::Track*> AlignmentCSCOverlapSelector::Tracks |
Definition at line 16 of file AlignmentCSCOverlapSelector.h.
AlignmentCSCOverlapSelector::AlignmentCSCOverlapSelector | ( | const edm::ParameterSet & | iConfig | ) |
constructor
Definition at line 14 of file AlignmentCSCOverlapSelector.cc.
References m_minHitsPerChamber, and m_station.
: m_station(iConfig.getParameter<int>("station")) , m_minHitsPerChamber(iConfig.getParameter<unsigned int>("minHitsPerChamber")) { if (m_station == 0) { edm::LogInfo("AlignmentCSCOverlapSelector") << "Acceptable tracks must have " << m_minHitsPerChamber << " in two chambers on all stations." << std::endl; } else { edm::LogInfo("AlignmentCSCOverlapSelector") << "Acceptable tracks must have " << m_minHitsPerChamber << " in two chambers on station " << m_station << "." << std::endl; } }
AlignmentCSCOverlapSelector::~AlignmentCSCOverlapSelector | ( | ) |
AlignmentCSCOverlapSelector::Tracks AlignmentCSCOverlapSelector::select | ( | const Tracks & | tracks, |
const edm::Event & | iEvent | ||
) | const |
select tracks
Definition at line 35 of file AlignmentCSCOverlapSelector.cc.
References CSCDetId::chamber(), MuonSubdetId::CSC, CSCDetId::endcap(), m_minHitsPerChamber, m_station, DetId::Muon, query::result, relativeConstraints::station, and CSCDetId::station().
Referenced by CSCOverlapConfigSelector::select().
{ Tracks result; for (Tracks::const_iterator track = tracks.begin(); track != tracks.end(); ++track) { unsigned int MEminus4_even = 0; unsigned int MEminus4_odd = 0; unsigned int MEminus3_even = 0; unsigned int MEminus3_odd = 0; unsigned int MEminus2_even = 0; unsigned int MEminus2_odd = 0; unsigned int MEminus1_even = 0; unsigned int MEminus1_odd = 0; unsigned int MEplus1_even = 0; unsigned int MEplus1_odd = 0; unsigned int MEplus2_even = 0; unsigned int MEplus2_odd = 0; unsigned int MEplus3_even = 0; unsigned int MEplus3_odd = 0; unsigned int MEplus4_even = 0; unsigned int MEplus4_odd = 0; for (trackingRecHit_iterator hit = (*track)->recHitsBegin(); hit != (*track)->recHitsEnd(); ++hit) { DetId id = (*hit)->geographicalId(); if (id.det() == DetId::Muon && id.subdetId() == MuonSubdetId::CSC) { CSCDetId cscid(id.rawId()); int station = (cscid.endcap() == 1 ? 1 : -1) * cscid.station(); if (station == -4) { if (cscid.chamber() % 2 == 0) MEminus4_even++; else MEminus4_odd++; } else if (station == -3) { if (cscid.chamber() % 2 == 0) MEminus3_even++; else MEminus3_odd++; } else if (station == -2) { if (cscid.chamber() % 2 == 0) MEminus2_even++; else MEminus2_odd++; } else if (station == -1) { if (cscid.chamber() % 2 == 0) MEminus1_even++; else MEminus1_odd++; } else if (station == 1) { if (cscid.chamber() % 2 == 0) MEplus1_even++; else MEplus1_odd++; } else if (station == 2) { if (cscid.chamber() % 2 == 0) MEplus2_even++; else MEplus2_odd++; } else if (station == 3) { if (cscid.chamber() % 2 == 0) MEplus3_even++; else MEplus3_odd++; } else if (station == 4) { if (cscid.chamber() % 2 == 0) MEplus4_even++; else MEplus4_odd++; } } // end if it's a CSC hit } // end loop over hits if ((m_station == 0 || m_station == -4) && (MEminus4_even >= m_minHitsPerChamber) && (MEminus4_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == -3) && (MEminus3_even >= m_minHitsPerChamber) && (MEminus3_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == -2) && (MEminus2_even >= m_minHitsPerChamber) && (MEminus2_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == -1) && (MEminus1_even >= m_minHitsPerChamber) && (MEminus1_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == 1) && (MEplus1_even >= m_minHitsPerChamber) && (MEplus1_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == 2) && (MEplus2_even >= m_minHitsPerChamber) && (MEplus2_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == 3) && (MEplus3_even >= m_minHitsPerChamber) && (MEplus3_odd >= m_minHitsPerChamber)) result.push_back(*track); else if ((m_station == 0 || m_station == 4) && (MEplus4_even >= m_minHitsPerChamber) && (MEplus4_odd >= m_minHitsPerChamber)) result.push_back(*track); } // end loop over tracks return result; }
unsigned int AlignmentCSCOverlapSelector::m_minHitsPerChamber [private] |
Definition at line 29 of file AlignmentCSCOverlapSelector.h.
Referenced by AlignmentCSCOverlapSelector(), and select().
int AlignmentCSCOverlapSelector::m_station [private] |
Definition at line 28 of file AlignmentCSCOverlapSelector.h.
Referenced by AlignmentCSCOverlapSelector(), and select().