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 // $Id: G4NuclearLevel.cc 67983 2013-03-13 10:42:03Z gcosmo $

 //

 // -------------------------------------------------------------------

 //      GEANT 4 class file

 //

 //      For information related to this code contact:

 //      CERN, IT Division, ASD group

 //      CERN, Geneva, Switzerland

 //

 //      File name:     G4NuclearLevel

 //

 //      Author:        Maria Grazia Pia (pia@genova.infn.it)

 //

 //      Creation date: 24 October 1998

 //

 //      Modifications:

 //    06 Oct 2010, M. Kelsey (kelsey@slac.stanford.edu)

 //      Add friendship for G4NuclearLevelManager; define private

 //      constructors without vectors.

 //

 //        09 Sep. 2002, Fan Lei  (flei@space.qinetiq.com)

 //              Added IC probability when calculate the channel probabilities in

 //              MakeProbabilities().

 //

 //        21 Nov. 2001, Fan Lei (flei@space.qinetiq.com)

 //              Added K->N+ internal  conversion coefficiencies and their access

 //              functions.

 //

 //        15 April 1999, Alessandro Brunengo (Alessandro.Brunengo@ge.infn.it)

 //              Added half-life, angular momentum, parity, emissioni type

 //              reading from experimental data.

 //

 //        28 October 2010, V.Ivanchenko moved copy constructor to source, cleanup

 //

 // -------------------------------------------------------------------


 #include "G4NuclearLevel.hh"

 #include "globals.hh"


 G4int G4NuclearLevel::Increment(G4int aF)

 {

   static G4ThreadLocal G4int instanceCount = 0;

   instanceCount+=aF;

   return instanceCount;

 }


 G4NuclearLevel::G4NuclearLevel()

   : _energy(0.), _halfLife(0.), _angularMomentum(0.), _nGammas(0) {

   // G4cout << "####### Incrementing "<<Increment(1)<<G4endl;

 }


 G4NuclearLevel::G4NuclearLevel(G4double energy, G4double halfLife,

                    G4double angularMomentum)

   : _energy(energy), _halfLife(halfLife), _angularMomentum(angularMomentum),

     _nGammas(0) {

   // G4cout << "####### Incrementing "<<Increment(1)<<G4endl;

 }


 G4NuclearLevel::G4NuclearLevel(G4double energy, G4double halfLife,

                    G4double angularMomentum,

                    const std::vector<G4double>& eGamma,

                    const std::vector<G4double>& wGamma,

                    const std::vector<G4double>& polarities,

                    const std::vector<G4double>& kCC, const std::vector<G4double>& l1CC,

                    const std::vector<G4double>& l2CC, const std::vector<G4double>& l3CC,

                    const std::vector<G4double>& m1CC, const std::vector<G4double>& m2CC,

                    const std::vector<G4double>& m3CC, const std::vector<G4double>& m4CC,

                    const std::vector<G4double>& m5CC, const std::vector<G4double>& nPlusCC,

                    const std::vector<G4double>& totalCC)


   : _energies(eGamma), _weights(wGamma), _polarities(polarities),

      _kCC(kCC), _l1CC(l1CC), _l2CC(l2CC), _l3CC(l3CC),

     _m1CC(m1CC), _m2CC(m2CC), _m3CC(m3CC), _m4CC(m4CC), _m5CC(m5CC),

     _nPlusCC(nPlusCC), _totalCC(totalCC),

     _energy(energy), _halfLife(halfLife), _angularMomentum(angularMomentum)

 {

   Finalize();

   // G4cout << "####### Incrementing "<<Increment(1)<<G4endl;

 }


 G4NuclearLevel::~G4NuclearLevel()

 {

  // G4cout << "####### Decrementing "<<Increment(-1)<<G4endl;

 }


 G4bool G4NuclearLevel::operator==(const G4NuclearLevel &right) const

 {

   return (this == (G4NuclearLevel *) &right);

 }


 G4bool G4NuclearLevel::operator!=(const G4NuclearLevel &right) const

 {

   return (this != (G4NuclearLevel *) &right);

 }


 G4bool G4NuclearLevel::operator<(const G4NuclearLevel &right) const

 {

   if (_energy < right.Energy()) return true;

   else return false;

 }


 const std::vector<G4double>& G4NuclearLevel::GammaEnergies() const

 {

   return _energies;

 }


 const std::vector<G4double>& G4NuclearLevel::GammaWeights() const

 {

   return _weights;

 }


 const std::vector<G4double>& G4NuclearLevel::GammaProbabilities() const

 {

   return _prob;

 }


 const std::vector<G4double>& G4NuclearLevel::GammaCumulativeProbabilities() const

 {

   return _cumProb;

 }


 const std::vector<G4double>& G4NuclearLevel::GammaPolarities() const

 {

   return _polarities;

 }


 const std::vector<G4double>& G4NuclearLevel::KConvertionProbabilities() const

 {

   return _kCC;

 }


 const std::vector<G4double>& G4NuclearLevel::L1ConvertionProbabilities() const

 {

   return _l1CC;

 }


 const std::vector<G4double>& G4NuclearLevel::L2ConvertionProbabilities() const

 {

   return _l2CC;

 }


 const std::vector<G4double>& G4NuclearLevel::L3ConvertionProbabilities() const

 {

   return _l3CC;

 }


 const std::vector<G4double>& G4NuclearLevel::M1ConvertionProbabilities() const

 {

   return _m1CC;

 }


 const std::vector<G4double>& G4NuclearLevel::M2ConvertionProbabilities() const

 {

   return _m2CC;

 }


 const std::vector<G4double>& G4NuclearLevel::M3ConvertionProbabilities() const

 {

   return _m3CC;

 }


 const std::vector<G4double>& G4NuclearLevel::M4ConvertionProbabilities() const

 {

   return _m4CC;

 }


 const std::vector<G4double>& G4NuclearLevel::M5ConvertionProbabilities() const

 {

   return _m5CC;

 }


 const std::vector<G4double>& G4NuclearLevel::NPlusConvertionProbabilities() const

 {

   return _nPlusCC;

 }


 const std::vector<G4double>& G4NuclearLevel::TotalConvertionProbabilities() const

 {

   return _totalCC;

 }


 G4double G4NuclearLevel::Energy() const

 {

   return _energy;

 }


 G4double G4NuclearLevel::AngularMomentum() const

 {

   return _angularMomentum;

 }


 G4double G4NuclearLevel::HalfLife() const

 {

   return _halfLife;

 }


 G4int G4NuclearLevel::NumberOfGammas() const

 {

   return _nGammas;

 }


 void G4NuclearLevel::PrintAll() const

 {

   G4cout << "---- Level energy = " << _energy << ", angular momentum = "

      << _angularMomentum << ", half life " << _halfLife

      << ", " << _nGammas << " photons" << G4endl;

   G4int i;

   G4cout << "     Gammas: ";

   for (i=0; i<_nGammas; i++) { G4cout << _energies[i] << " "; }

   G4cout << G4endl << "     Weights: ";

   for (i=0; i<_nGammas; i++) { G4cout << _weights[i] << " "; }

   G4cout << G4endl << "     Relative transition probabilities ";

   for (i=0; i<_nGammas; i++) { G4cout << _prob[i] << " "; }

   G4cout << G4endl << "     Cumulative probabilities: ";

   for (i=0; i<_nGammas; i++) { G4cout << _cumProb[i] << " "; }

   G4cout << G4endl << "     Polarities: ";

   for (i=0; i<_nGammas; i++) { G4cout << _polarities[i] << " "; }

   G4cout << G4endl;


   return;

 }


 void G4NuclearLevel::Finalize() {

   _nGammas = _energies.size();

   MakeProbabilities();

   MakeCumProb();

 }


 void G4NuclearLevel::MakeProbabilities()

 {

   G4double sum = 0.;

   G4int i = 0;

   for (i=0; i<_nGammas; i++) {

     sum += _weights[i]*(1.+_totalCC[i]);

   }


   if (sum <= 0.) _prob.resize(_nGammas, 1./_nGammas);   // Fast fill

   else {

     _prob.reserve(_nGammas);

     for (i=0; i<_nGammas; i++) {

       _prob.push_back(_weights[i]*(1.+_totalCC[i])/sum);

     }

   }

 }


 void G4NuclearLevel::MakeCumProb()

 {

   if (_nGammas <= 0) return;


   _cumProb.reserve(_nGammas);


   G4double sum = _prob[0];

   _cumProb.push_back(sum);


   for (G4int i=1; i<_nGammas; i++) {

     sum += _prob[i];

     _cumProb.push_back(sum);

   }

 }


 G4NuclearLevel& G4NuclearLevel::operator=(const G4NuclearLevel &right)

 {

   if(this != &right)

     {

       _energies = right._energies;

       _weights =right._weights;

       _prob =right._prob;

       _cumProb =right._cumProb;

       _polarities =right._polarities;

       _kCC = right._kCC;

       _l1CC =right._l1CC;

       _l2CC =right._l2CC;

       _l3CC =right._l3CC;

       _m1CC = right._m1CC;

       _m2CC = right._m2CC;

       _m3CC = right._m3CC;

       _m4CC = right._m4CC;

       _m5CC = right._m5CC;

       _nPlusCC = right._nPlusCC;

       _totalCC = right._totalCC;

       _energy = right._energy;

       _halfLife = right._halfLife;

       _angularMomentum = right._angularMomentum;

       _nGammas = right._nGammas;

     }

   return *this;

 }


 G4NuclearLevel::G4NuclearLevel(const G4NuclearLevel &right)

 {

   _energies = right._energies;

   _weights =right._weights;

   _prob =right._prob;

   _cumProb =right._cumProb;

   _polarities =right._polarities;

   _kCC = right._kCC;

   _l1CC =right._l1CC;

   _l2CC =right._l2CC;

   _l3CC =right._l3CC;

   _m1CC = right._m1CC;

   _m2CC = right._m2CC;

   _m3CC = right._m3CC;

   _m4CC = right._m4CC;

   _m5CC = right._m5CC;

   _nPlusCC = right._nPlusCC;

   _totalCC = right._totalCC;

   _energy = right._energy;

   _halfLife = right._halfLife;

   _angularMomentum = right._angularMomentum;

   _nGammas = right._nGammas;

 }


G4NuclearLevel::L2ConvertionProbabilities
const std::vector< G4double > & L2ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:166

G4NuclearLevel::operator<
G4bool operator<(const G4NuclearLevel &right) const
Definition: G4NuclearLevel.cc:122

G4NuclearLevel::NPlusConvertionProbabilities
const std::vector< G4double > & NPlusConvertionProbabilities() const
Definition: G4NuclearLevel.cc:201

right
Definition: F04UserTrackInformation.hh:37

G4NuclearLevel::M1ConvertionProbabilities
const std::vector< G4double > & M1ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:176

G4NuclearLevel::HalfLife
G4double HalfLife() const
Definition: G4NuclearLevel.cc:221

G4NuclearLevel::M4ConvertionProbabilities
const std::vector< G4double > & M4ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:191

G4NuclearLevel::NumberOfGammas
G4int NumberOfGammas() const
Definition: G4NuclearLevel.cc:226

G4NuclearLevel::G4NuclearLevel
G4NuclearLevel(G4double energy, G4double halfLife, G4double angularMomentum, const std::vector< G4double > &eGamma, const std::vector< G4double > &wGamma, const std::vector< G4double > &polarities, const std::vector< G4double > &kCC, const std::vector< G4double > &l1CC, const std::vector< G4double > &l2CC, const std::vector< G4double > &l3CC, const std::vector< G4double > &m1CC, const std::vector< G4double > &m2CC, const std::vector< G4double > &m3CC, const std::vector< G4double > &m4CC, const std::vector< G4double > &m5CC, const std::vector< G4double > &nPlusCC, const std::vector< G4double > &totalCC)
Definition: G4NuclearLevel.cc:84

G4NuclearLevel::Energy
G4double Energy() const
Definition: G4NuclearLevel.cc:211

G4NuclearLevel::M2ConvertionProbabilities
const std::vector< G4double > & M2ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:181

G4NuclearLevel::~G4NuclearLevel
~G4NuclearLevel()
Definition: G4NuclearLevel.cc:106

G4NuclearLevel::KConvertionProbabilities
const std::vector< G4double > & KConvertionProbabilities() const
Definition: G4NuclearLevel.cc:156

G4NuclearLevel::L1ConvertionProbabilities
const std::vector< G4double > & L1ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:161

G4ThreadLocal
#define G4ThreadLocal
Definition: tls.hh:52

G4int
int G4int
Definition: G4Types.hh:78

G4NuclearLevel::M5ConvertionProbabilities
const std::vector< G4double > & M5ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:196

G4NuclearLevel::GammaEnergies
const std::vector< G4double > & GammaEnergies() const
Definition: G4NuclearLevel.cc:128

energy
double precision function energy(A, Z)
Definition: dpm25nuc6.f:4106

G4cout
G4GLOB_DLL std::ostream G4cout

G4NuclearLevel::PrintAll
void PrintAll() const
Definition: G4NuclearLevel.cc:232

G4NuclearLevel
Definition: G4NuclearLevel.hh:65

G4NuclearLevel::operator==
G4bool operator==(const G4NuclearLevel &right) const
Definition: G4NuclearLevel.cc:111

G4bool
bool G4bool
Definition: G4Types.hh:79

G4NuclearLevel::L3ConvertionProbabilities
const std::vector< G4double > & L3ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:171

G4NuclearLevel::M3ConvertionProbabilities
const std::vector< G4double > & M3ConvertionProbabilities() const
Definition: G4NuclearLevel.cc:186

G4NuclearLevel::AngularMomentum
G4double AngularMomentum() const
Definition: G4NuclearLevel.cc:216

globals.hh

G4NuclearLevel::GammaWeights
const std::vector< G4double > & GammaWeights() const
Definition: G4NuclearLevel.cc:133

G4endl
#define G4endl
Definition: G4ios.hh:61

G4NuclearLevel::TotalConvertionProbabilities
const std::vector< G4double > & TotalConvertionProbabilities() const
Definition: G4NuclearLevel.cc:206

G4NuclearLevel::GammaProbabilities
const std::vector< G4double > & GammaProbabilities() const
Definition: G4NuclearLevel.cc:139

G4double
double G4double
Definition: G4Types.hh:76

G4NuclearLevel.hh

G4NuclearLevel::GammaCumulativeProbabilities
const std::vector< G4double > & GammaCumulativeProbabilities() const
Definition: G4NuclearLevel.cc:145

G4NuclearLevel::operator!=
G4bool operator!=(const G4NuclearLevel &right) const
Definition: G4NuclearLevel.cc:117

G4NuclearLevel::GammaPolarities
const std::vector< G4double > & GammaPolarities() const
Definition: G4NuclearLevel.cc:151

G4NuclearLevel::operator=
G4NuclearLevel & operator=(const G4NuclearLevel &right)
Definition: G4NuclearLevel.cc:294