[349] | 1 | //--------------------------------------------------------------------------
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| 2 | #ifndef HEPMC_GEN_PARTICLE_H
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| 3 | #define HEPMC_GEN_PARTICLE_H
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| 4 |
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| 5 | //////////////////////////////////////////////////////////////////////////
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| 6 | // Matt.Dobbs@Cern.CH, September 1999, refer to:
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| 7 | // M. Dobbs and J.B. Hansen, "The HepMC C++ Monte Carlo Event Record for
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| 8 | // High Energy Physics", Computer Physics Communications (to be published).
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| 9 | //
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| 10 | // particle within an event coming in/out of a vertex
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| 11 | // particle is the basic building block or unit of the event record
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| 12 | //////////////////////////////////////////////////////////////////////////
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| 13 | //
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| 14 | // example:
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| 15 | // GenParticle* p = new GenParticle( FourVector(1,1,1,3), 11, 1 );
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| 16 | // creates a particle with 4-vector (p,E)=1,1,1,3 - with pdg id 11 (electron)
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| 17 | // and give this particle status =1.
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| 18 | //
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| 19 | // the pointers to end/production vertices can only be set by the
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| 20 | // vertices themselves - thus to set the production vertex for a particle,
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| 21 | // you add the particle to that vertex with GenVertex::add_particle_out()
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| 22 | //
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| 23 | // We decide not to have a separate 4 vector for the momentum
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| 24 | // at decay time (which MC++ includes to allow dE/dX losses etc).
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| 25 | // If you want that, just add a decay vertex with the
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| 26 | // same particle (modified momentum) going out
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| 27 | //
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| 28 |
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| 29 | #include "Flow.h"
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| 30 | #include "Polarization.h"
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| 31 | #include "SimpleVector.h"
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[572] | 32 | #include "IteratorRange.h"
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[349] | 33 | #include <iostream>
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| 34 | #ifdef _WIN32
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| 35 | #define hepmc_uint64_t __int64
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| 36 | #else
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| 37 | #include <stdint.h> // for uint64_t
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| 38 | #define hepmc_uint64_t uint64_t
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| 39 | #endif
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| 40 |
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| 41 | namespace HepMC {
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| 42 |
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| 43 | class GenVertex;
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| 44 | class GenEvent;
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| 45 |
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[572] | 46 | class GenParticleProductionRange;
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| 47 | class ConstGenParticleProductionRange;
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| 48 | class GenParticleEndRange;
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| 49 | class ConstGenParticleEndRange;
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[349] | 50 |
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| 51 | //! The GenParticle class contains information about generated particles
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| 52 |
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| 53 | ///
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| 54 | /// \class GenParticle
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| 55 | /// HepMC::GenParticle
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| 56 | /// contains momentum, generated mass, particle ID, decay status,
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| 57 | /// flow, polarization, pointers to production and decay vertices
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| 58 | /// and a unique barcode identfier.
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| 59 | ///
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| 60 | class GenParticle {
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| 61 |
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| 62 | friend class GenVertex; // so vertex can set decay/production vertexes
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| 63 | friend class GenEvent; // so event can set the barCodes
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| 64 | /// print particle
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| 65 | friend std::ostream& operator<<( std::ostream&, const GenParticle& );
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| 66 |
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| 67 | public:
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| 68 | /// default constructor
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| 69 | GenParticle(void);
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| 70 | /// constructor requires momentum and particle ID
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| 71 | GenParticle( const FourVector& momentum, int pdg_id,
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| 72 | int status = 0, const Flow& itsflow = Flow(),
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| 73 | const Polarization& polar = Polarization(0,0) );
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| 74 | GenParticle( const GenParticle& inparticle ); //!< shallow copy.
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| 75 | virtual ~GenParticle();
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| 76 |
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| 77 | void swap( GenParticle & other); //!< swap
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| 78 | GenParticle& operator=( const GenParticle& inparticle ); //!< shallow.
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| 79 | /// check for equality
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| 80 | bool operator==( const GenParticle& ) const;
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| 81 | /// check for inequality
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| 82 | bool operator!=( const GenParticle& ) const;
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| 83 |
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| 84 | /// dump this particle's full info to ostr
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| 85 | void print( std::ostream& ostr = std::cout ) const;
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| 86 |
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| 87 | operator HepMC::FourVector() const; //!< conversion operator
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| 88 |
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| 89 | ////////////////////
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| 90 | // access methods //
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| 91 | ////////////////////
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| 92 |
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| 93 | /// standard 4 momentum
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| 94 | const FourVector & momentum() const;
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| 95 | /// particle ID
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| 96 | int pdg_id() const;
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| 97 | /// HEPEVT decay status
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| 98 | int status() const;
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| 99 | /// particle flow
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| 100 | const Flow & flow() const;
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| 101 | /// particle flow index
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| 102 | int flow( int code_index ) const;
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| 103 | /// polarization information
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| 104 | const Polarization & polarization() const;
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| 105 | /// pointer to the production vertex
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| 106 | GenVertex* production_vertex() const;
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| 107 | /// pointer to the decay vertex
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| 108 | GenVertex* end_vertex() const;
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| 109 | /// pointer to the event that owns this particle
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| 110 | GenEvent* parent_event() const;
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| 111 |
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| 112 | /// Because of precision issues, the generated mass is not always the
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| 113 | /// same as the mass calculated from the momentum 4 vector.
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| 114 | /// If the generated mass has been set, then generated_mass()
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| 115 | /// returns that value.
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| 116 | /// If the generated mass has not been set, then generated_mass()
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| 117 | /// returns the mass calculated from the momentum 4 vector.
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| 118 | double generated_mass() const; //!< mass as generated
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| 119 |
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| 120 | /// generatedMass() is included for backwards compatibility with CLHEP HepMC
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| 121 | double generatedMass() const { return generated_mass(); }
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| 122 |
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| 123 |
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| 124 | ///
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| 125 | /// The barcode is the particle's reference number, every vertex in the
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[572] | 126 | /// event has a unique barcode. Particle barcodes are positive numbers,
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| 127 | /// vertex barcodes are negative numbers.
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| 128 | ///
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| 129 | /// Please note that the barcodes are intended for internal use within
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| 130 | /// HepMC as a unique identifier for the particles and vertices.
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| 131 | /// Using the barcode to encode extra information is an abuse of
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| 132 | /// the barcode data member and causes confusion among users.
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| 133 | ///
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[349] | 134 | int barcode() const; //!< particle barcode
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[572] | 135 |
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| 136 | /// Convenience method. Returns true if status==1
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| 137 | bool is_undecayed() const;
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| 138 | /// Convenience method. Returns true if status==2
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| 139 | bool has_decayed() const;
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| 140 | /// Convenience method. Returns true if status==4
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| 141 | /// Note that using status 4 for beam particles is a new convention which
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| 142 | /// may not have been implemented by the code originating this GenEvent.
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| 143 | bool is_beam() const;
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[349] | 144 |
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[572] | 145 | /// incoming particle range
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| 146 | GenParticleProductionRange particles_in( IteratorRange range = relatives );
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| 147 | /// incoming particle range
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| 148 | ConstGenParticleProductionRange particles_in( IteratorRange range = relatives ) const;
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| 149 | /// outgoing particle range
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| 150 | GenParticleEndRange particles_out( IteratorRange range = relatives );
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| 151 | /// outgoing particle range
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| 152 | ConstGenParticleEndRange particles_out( IteratorRange range = relatives ) const;
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| 153 |
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[349] | 154 | /////////////////////
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| 155 | // mutator methods //
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| 156 | /////////////////////
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| 157 |
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| 158 | /// In general there is no reason to "suggest_barcode"
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| 159 | bool suggest_barcode( int the_bar_code );
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| 160 |
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| 161 | void set_momentum( const FourVector& vec4 ); //!< set standard 4 momentum
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| 162 | void set_pdg_id( int id ); //!< set particle ID
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| 163 | void set_status( int status = 0 ); //!< set decay status
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| 164 | void set_flow( const Flow& f ); //!< set particle flow
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| 165 | void set_flow( int code_index, int code = 0 ); //!< set particle flow index
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| 166 | /// set polarization
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| 167 | void set_polarization( const Polarization& pol = Polarization(0,0) );
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| 168 | /// If you do not call set_generated_mass(), then
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| 169 | /// generated_mass() will simply return the mass calculated from momentum()
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| 170 | void set_generated_mass( const double & m ); //!< define the actual generated mass
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| 171 |
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| 172 | /// setGeneratedMass() is included for backwards compatibility with CLHEP HepMC
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| 173 | void setGeneratedMass( const double & m )
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| 174 | { return set_generated_mass(m); }
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| 175 |
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| 176 | protected: // for internal use only by friend GenVertex class
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| 177 |
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| 178 | //static unsigned int counter(); //!< temporary for debugging
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| 179 |
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| 180 | /// set production vertex - for internal use only
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| 181 | void set_production_vertex_( GenVertex* productionvertex = 0);
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| 182 | /// set decay vertex - for internal use only
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| 183 | void set_end_vertex_( GenVertex* decayvertex = 0 );
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| 184 | void set_barcode_( int the_bar_code ); //!< for use by GenEvent only
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| 185 |
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| 186 | /// scale the momentum vector and generated mass
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| 187 | /// this method is only for use by GenEvent
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| 188 | void convert_momentum( const double& );
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| 189 |
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| 190 | private:
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| 191 | FourVector m_momentum; // momentum vector
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| 192 | int m_pdg_id; // id according to PDG convention
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| 193 | int m_status; // As defined for HEPEVT
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| 194 | Flow m_flow;
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| 195 | Polarization m_polarization;
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| 196 | GenVertex* m_production_vertex; // null if vacuum or beam
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| 197 | GenVertex* m_end_vertex; // null if not-decayed
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| 198 | int m_barcode; // unique identifier in the event
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| 199 | double m_generated_mass; // mass of this particle when it was generated
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| 200 |
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| 201 | //static unsigned int s_counter;
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| 202 | };
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| 203 |
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| 204 | //////////////
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| 205 | // INLINES //
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| 206 | //////////////
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| 207 |
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| 208 | inline GenParticle::operator HepMC::FourVector() const
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| 209 | { return m_momentum; }
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| 210 |
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| 211 | inline const FourVector & GenParticle::momentum() const
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| 212 | { return m_momentum; }
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| 213 |
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| 214 | inline int GenParticle::pdg_id() const { return m_pdg_id; }
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| 215 |
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| 216 | inline int GenParticle::status() const { return m_status; }
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| 217 |
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| 218 | inline GenVertex* GenParticle::production_vertex() const
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| 219 | { return m_production_vertex; }
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| 220 |
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| 221 | inline GenVertex* GenParticle::end_vertex() const { return m_end_vertex; }
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| 222 |
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| 223 | inline const Flow & GenParticle::flow() const { return m_flow; }
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| 224 |
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| 225 | inline int GenParticle::flow( int code_index ) const
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| 226 | { return m_flow.icode( code_index ); }
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| 227 |
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| 228 | inline const Polarization & GenParticle::polarization() const
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| 229 | { return m_polarization; }
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| 230 |
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| 231 | inline void GenParticle::set_momentum( const FourVector& vec4 )
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| 232 | { m_momentum = vec4; }
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| 233 |
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| 234 | inline void GenParticle::set_pdg_id( int id ) { m_pdg_id = id; }
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| 235 |
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| 236 | inline void GenParticle::set_status( int status ) { m_status = status; }
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| 237 |
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| 238 | inline void GenParticle::set_flow( const Flow& f ) { m_flow = f; }
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| 239 |
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| 240 | inline void GenParticle::set_flow( int code_index, int code )
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| 241 | {
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| 242 | if ( code == 0 ) {
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| 243 | m_flow.set_unique_icode( code_index );
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| 244 | } else {
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| 245 | m_flow.set_icode( code_index, code );
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| 246 | }
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| 247 | }
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| 248 |
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| 249 | inline void GenParticle::set_polarization( const Polarization& polar )
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| 250 | { m_polarization = polar; }
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| 251 |
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| 252 | inline int GenParticle::barcode() const { return m_barcode; }
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| 253 |
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| 254 | inline void GenParticle::set_barcode_( int bc ) { m_barcode = bc; }
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| 255 |
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[572] | 256 | inline bool GenParticle::is_undecayed() const {
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| 257 | return ( m_status==1 ) ? true : false;
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| 258 | }
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| 259 | inline bool GenParticle::has_decayed() const {
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| 260 | return ( m_status==2 ) ? true : false;
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| 261 | }
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| 262 | inline bool GenParticle::is_beam() const {
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| 263 | return ( m_status==4 ) ? true : false;
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| 264 | }
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| 265 |
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[349] | 266 | } // HepMC
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| 267 |
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| 268 | #endif // HEPMC_GEN_PARTICLE_H
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| 269 | //--------------------------------------------------------------------------
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| 270 |
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