/data/refman/pasoursint/CMSSW_4_1_8_patch13/src/DataFormats/L1CSCTrackFinder/src/L1Track.cc

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#include "DataFormats/L1CSCTrackFinder/interface/L1Track.h"
#include <iostream>

namespace csc {

  L1Track::L1Track(const csc::L1TrackId& id): m_name("csc::L1Track")
  {
    m_endcap = id.endcap();
    m_sector = id.sector();
    m_lphi = 0;
    m_ptAddress = 0;
    m_empty = true;
    setType(2);
    setPtPacked(0);
    m_rank = 0;
    me1_id = 0;
    me2_id = 0;
    me3_id = 0;
    me4_id = 0;
    mb1_id = 0;
    m_me1Tbin = 0;
    m_me2Tbin = 0;
    m_me3Tbin = 0;
    m_me4Tbin = 0;
    m_mbTbin  = 0;
    m_output_link = 0;
    m_winner = false;
    m_fr=0;
    m_se=true; m_bx0=true; m_bc0=true;
  }

  L1Track::L1Track(const csc::L1Track& rhs) : L1MuRegionalCand(rhs.type_idx(),rhs.phi_packed(),rhs.eta_packed(),
                                                      rhs.pt_packed(),rhs.charge_packed(),
                                                      rhs.charge_valid_packed(),rhs.finehalo_packed(),
                                                      rhs.quality_packed(),rhs.bx()),
                                              m_name(rhs.m_name)
  {
        this->setBx(rhs.bx());
        this->setDataWord(rhs.getDataWord());
        m_name    = rhs.m_name;
        this->setType(rhs.type_idx());
        this->setPhiPacked(rhs.phi_packed());
        this->setEtaPacked(rhs.eta_packed());
        this->setPtPacked(rhs.pt_packed());
        this->setChargePacked(rhs.charge_packed());
        this->setChargeValidPacked(rhs.charge_valid_packed());
        this->setFineHaloPacked(rhs.finehalo_packed());
        this->setQualityPacked(rhs.quality_packed());
    m_empty = rhs.m_empty;
    m_lphi = rhs.m_lphi;
    m_endcap = rhs.m_endcap;
    m_sector = rhs.m_sector;
    m_ptAddress = rhs.m_ptAddress;
    m_rank = rhs.m_rank;
    me1_id = rhs.me1_id;
    me2_id = rhs.me2_id;
    me3_id = rhs.me3_id;
    me4_id = rhs.me4_id;
    mb1_id = rhs.mb1_id;
    m_me1Tbin = rhs.m_me1Tbin;
    m_me2Tbin = rhs.m_me2Tbin;
    m_me3Tbin = rhs.m_me3Tbin;
    m_me4Tbin = rhs.m_me4Tbin;
    m_mbTbin  = rhs.m_mbTbin;
    m_output_link = rhs.m_output_link;
    m_winner = rhs.m_winner;
    m_fr=rhs.m_fr;
    m_se=rhs.m_se;
    m_bx0=rhs.m_bx0;
    m_bc0=rhs.m_bc0;
  }

  L1Track::~L1Track()
  {
  }

  const csc::L1Track& L1Track::operator=(const csc::L1Track& rhs)
  {
    if(this != &rhs)
      {
        m_fr=rhs.m_fr;
        m_se=rhs.m_se;
        m_bx0=rhs.m_bx0;
        m_bc0=rhs.m_bc0;
        m_empty = rhs.m_empty;
        this->setBx(rhs.bx());
        this->setDataWord(rhs.getDataWord());
        m_name    = rhs.m_name;
        m_lphi    = rhs.m_lphi;
        this->setType(rhs.type_idx());
        this->setPhiPacked(rhs.phi_packed());
        this->setEtaPacked(rhs.eta_packed());
        this->setPtPacked(rhs.pt_packed());
        this->setChargePacked(rhs.charge_packed());
        this->setChargeValidPacked(rhs.charge_valid_packed());
        this->setFineHaloPacked(rhs.finehalo_packed());
        this->setQualityPacked(rhs.quality_packed());
        m_endcap = rhs.m_endcap;
        m_sector = rhs.m_sector;
        m_ptAddress = rhs.m_ptAddress;
        m_rank = rhs.m_rank;
        me1_id = rhs.me1_id;
        me2_id = rhs.me2_id;
        me3_id = rhs.me3_id;
        me4_id = rhs.me4_id;
        mb1_id = rhs.mb1_id;
        m_me1Tbin = rhs.m_me1Tbin;
        m_me2Tbin = rhs.m_me2Tbin;
        m_me3Tbin = rhs.m_me3Tbin;
        m_me4Tbin = rhs.m_me4Tbin;
        m_mbTbin  = rhs.m_mbTbin;
        m_output_link = rhs.m_output_link;
        m_winner = rhs.m_winner;
          }
    return *this;
  }

  unsigned L1Track::rank() const
  {
    return m_rank;
  }

  void L1Track::setStationIds(const unsigned& me1, const unsigned& me2,
                              const unsigned& me3, const unsigned& me4,
                              const unsigned& mb1)
  {
    me1_id = me1;
    me2_id = me2;
    me3_id = me3;
    me4_id = me4;
    mb1_id = mb1;
  }

  unsigned L1Track::encodeRank(const unsigned& pt, const unsigned& quality)
  {
    if(pt == 0) return 0;
    return pt | (quality << L1MuRegionalCand::PT_LENGTH);
  }

  void L1Track::decodeRank(const unsigned& rank, unsigned& pt, unsigned& quality)
  {
    if(rank == 0)
      {
        quality = 0;
        pt = 0;
      }
    else
      {
        quality = rank >> L1MuRegionalCand::PT_LENGTH;
        pt = rank & ( (1<<L1MuRegionalCand::PT_LENGTH) - 1);
      }
  }

  bool L1Track::operator>(const csc::L1Track &rhs) const
  {
    return (rank() > rhs.rank());
  }

  bool L1Track::operator<(const csc::L1Track& rhs) const
  {
    return (rank() < rhs.rank());
  }

  bool L1Track::operator>=(const csc::L1Track& rhs) const
  {
    return (rank() >= rhs.rank());
  }

  bool L1Track::operator<=(const csc::L1Track& rhs) const
  {
    return (rank() <= rhs.rank());
  }

  bool L1Track::operator==(const csc::L1Track& rhs) const
  {
    return (rank() == rhs.rank());
  }

  bool L1Track::operator!=(const csc::L1Track& rhs) const
  {
    return (rank() != rhs.rank());
  }

  void L1Track::Print() const
  {
    if (!empty())
      {
        std::cout << "\t  Pt(int): "  << " " << pt_packed()
                  << " Phi(int): " << " " << phi_packed()
                  << " Eta(int): " << " " << eta_packed()
                  << " Quality: "  << " " << quality_packed()
                  << " charge: "   << " " << charge_packed()
                  << " side: "   << " " << endcap()
                  << " bx: "       << " " << BX()
          << " Winner: "   << " " << winner()
                  << std::endl;
      }
    else
      {
        std::cout <<"\t  Empty track!\n";
        std::cout << "\t  Pt(int): "  << " " << "unassigned or zero"
                  << " Phi(int): " << " " << phi_packed()
                  << " Eta(int): " << " " << eta_packed()
                  << " Quality: "  << " " << "unassigned or zero"
                  << " charge: "   << " " << charge_packed()
                  << " side: "   << " " << endcap()
                  << " bx: "       << " " << BX()
          << " Winner: "   << " " << winner()
                  << std::endl;
      }
  }
}