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/data/refman/pasoursint/CMSSW_5_3_10_patch1/src/FastSimDataFormats/L1GlobalMuonTrigger/interface/SimpleL1MuGMTCand.h

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00001 #ifndef SIMPLEL1MU_GMT_CAND_H
00002 #define SIMPLEL1MU_GMT_CAND_H
00003 
00004 #include <DataFormats/L1GlobalMuonTrigger/interface/L1MuGMTExtendedCand.h>
00005 
00006 #include "DataFormats/Math/interface/LorentzVector.h"
00007 
00008 class SimTrack;
00009 
00010 namespace HepMC { 
00011   class GenParticle;
00012 }
00013 
00024 class SimpleL1MuGMTCand : public L1MuGMTExtendedCand {
00025 
00026   public:
00027 
00028   typedef math::XYZTLorentzVector LorentzVector;
00029 
00031     SimpleL1MuGMTCand();
00032    
00034     SimpleL1MuGMTCand(const SimpleL1MuGMTCand&);
00035     
00037     SimpleL1MuGMTCand(const SimpleL1MuGMTCand*);
00038     
00040     SimpleL1MuGMTCand(const SimTrack*);
00041 
00043     SimpleL1MuGMTCand(const SimTrack* p,
00044                       unsigned etaIndex, 
00045                       unsigned phiIndex,
00046                       unsigned pTIndex,
00047                       float etaValue,
00048                       float phiValue,
00049                       float pTValue);    
00050 
00052     virtual ~SimpleL1MuGMTCand();
00053 
00055     void reset();
00056 
00058     inline std::string name() const { return m_name; }
00059 
00061     inline unsigned int phi() const { return m_phi; }
00062     
00064     inline unsigned int eta() const { return m_eta; }
00065     
00067     inline unsigned int pt() const { return m_pt; }
00068     
00070     inline int charge() const { return m_charge; }
00071     
00073     inline unsigned int rank() const { return m_rank; }
00074      
00076     inline bool empty() const { return m_empty; }
00077 
00079     inline void enable() { m_empty = false; }
00080 
00082     inline void disable() { m_empty = true; }
00083     
00085     void setPhi(float phi);
00086     
00088     void setEta(float eta);
00089     
00091     void setPt(float pt);
00092     
00094     void setCharge(int charge);
00095     
00097     inline void setRank(unsigned int rank) { m_rank = rank; }
00098     
00100     float smearedPt() const { return m_smearedPt; }
00101     
00103     inline unsigned int linearizedPt(float lsbValue, unsigned maxScale) const { return 0; }
00104 
00106     inline unsigned int quality() const { return m_quality; }
00107 
00108     unsigned int etaRegionIndex() const { return eta(); }
00109 
00110     unsigned int phiRegionIndex() const { return phi(); }
00111 
00112     // set and get the 4-momentum of the original (generator) particle
00113     void setMomentum(LorentzVector m) { myMomentum = m; }
00114     const LorentzVector getMomentum() const { return myMomentum; }
00115 
00117     SimpleL1MuGMTCand& operator=(const SimpleL1MuGMTCand&);
00118 
00120     SimpleL1MuGMTCand* operator=(const SimTrack*);
00121 
00123     bool operator==(const SimpleL1MuGMTCand&) const;
00124     
00126     bool operator!=(const SimpleL1MuGMTCand&) const;
00127 
00129     void print() const;
00130   
00132     friend std::ostream& operator<<(std::ostream&, const SimpleL1MuGMTCand&);
00133 
00135     class Rank : std::binary_function< const SimpleL1MuGMTCand*, const SimpleL1MuGMTCand*, bool> {
00136       public :
00137         bool operator()( const SimpleL1MuGMTCand* first, const SimpleL1MuGMTCand* second ) const {
00138           unsigned int rank_f = (first) ? first->rank(): 0;
00139           unsigned int rank_s = (second) ? second->rank() : 0;
00140           return rank_f > rank_s;
00141         }
00142     };
00143 
00144     static const float ptScale[32];
00145     static const float etaScale[63];
00146     static const float phiScale[144];
00147 
00148   private:
00149 
00150     std::string  m_name;
00151     bool         m_empty;
00152 
00153     unsigned int m_phi;
00154     unsigned int m_eta;
00155     unsigned int m_pt;
00156     int          m_charge;
00157     unsigned int m_quality;
00158     unsigned int m_rank;
00159     float        m_smearedPt;
00160 
00161     LorentzVector myMomentum ;
00162 
00163 };
00164   
00165 #endif