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Geant4/externals/clhep/include/CLHEP/Random/MixMaxRng.h

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Differences between /externals/clhep/include/CLHEP/Random/MixMaxRng.h (Version 11.3.0) and /externals/clhep/include/CLHEP/Random/MixMaxRng.h (Version 7.1)


  1 //
                                                 1 
  2 // -*- C++ -*-
                                   
  3 //
                                               
  4 // -------------------------------------------    
  5 //                          HEP Random
           
  6 //                       --- MixMaxRng ---
       
  7 //                       class header file
       
  8 // -------------------------------------------    
  9 //
                                               
 10 // This file interfaces the MixMax PseudoRando    
 11 // proposed by:
                                  
 12 //
                                               
 13 // G.K.Savvidy and N.G.Ter-Arutyunian,
           
 14 //   On the Monte Carlo simulation of physical    
 15 //   J.Comput.Phys. 97, 566 (1991);
              
 16 //   Preprint EPI-865-16-86, Yerevan, Jan. 198    
 17 //   http://dx.doi.org/10.1016/0021-9991(91)90    
 18 //
                                               
 19 // K.Savvidy
                                     
 20 //   "The MIXMAX random number generator"
        
 21 //   Comp. Phys. Commun. (2015)
                  
 22 //   http://dx.doi.org/10.1016/j.cpc.2015.06.0    
 23 //
                                               
 24 // K.Savvidy and G.Savvidy
                       
 25 //   "Spectrum and Entropy of C-systems. MIXMA    
 26 //   Chaos, Solitons & Fractals, Volume 91, (2    
 27 //   http://dx.doi.org/10.1016/j.chaos.2016.05    
 28 //
                                               
 29 // ===========================================    
 30 // Implementation by Konstantin Savvidy - Copy    
 31 // July 2023 - Updated class structure upon su    
 32 // September 2023 - fix (re-)initialization fr    
 33 // ===========================================    
 34 
                                                 
 35 #ifndef MixMaxRng_h
                              
 36 #define MixMaxRng_h 1
                            
 37 
                                                 
 38 #include <array>
                                 
 39 #include <cstdint>
                               
 40 #include "CLHEP/Random/RandomEngine.h"
           
 41 
                                                 
 42 namespace CLHEP {
                                
 43     
                                             
 44 /**
                                              
 45   * @author  K.Savvidy
                           
 46   * @ingroup random
                              
 47   */
                                             
 48 
                                                 
 49 using myID_t = std::uint32_t;
                    
 50 using myuint_t = std::uint64_t;
                  
 51 
                                                 
 52 class alignas(128) MixMaxRng : public HepRando    
 53 {
                                                
 54 
                                                 
 55   static const int N = 17;
                       
 56 
                                                 
 57 public:
                                          
 58 
                                                 
 59   MixMaxRng(std::istream& is);
                   
 60   MixMaxRng();
                                   
 61   MixMaxRng(long seed);
                          
 62   ~MixMaxRng();
                                  
 63   // Constructors and destructor.
                
 64 
                                                 
 65   MixMaxRng(const MixMaxRng& rng);
               
 66   MixMaxRng& operator=(const MixMaxRng& rng);
    
 67   // Copy constructor and assignment operator.    
 68 
                                                 
 69   inline double flat()
                           
 70   {
                                              
 71     if (counter >= N) iterate();
                 
 72     return INV_M61*static_cast<double>(V[count    
 73   }
                                              
 74   // Returns a pseudo random number between 0     
 75   // excluding the zero: in (0,1]
                
 76   // smallest number which it will give is app    
 77 
                                                 
 78   void flatArray (const int size, double* vect    
 79   // Fills the array "vect" of specified size     
 80 
                                                 
 81   inline void setSeed(long longSeed, int = 0 /    
 82   {
                                              
 83     seed_spbox(theSeed = longSeed);
              
 84   }
                                              
 85   // Sets the state of the algorithm according    
 86 
                                                 
 87   void setSeeds(const long * seeds, int seedNu    
 88   // Sets the initial state of the engine acco    
 89   // If the size of long is greater on the pla    
 90   // Streams created from seeds differing by a    
 91   // to be independent and non-colliding for a    
 92 
                                                 
 93   void saveStatus( const char filename[] = "Mi    
 94   // Saves the the current engine state in the    
 95 
                                                 
 96   void restoreStatus( const char filename[] =     
 97   // Reads a valid engine state from a given f    
 98   // and restores it.
                            
 99 
                                                 
100   void showStatus() const;
                       
101   // Dumps the engine status on the screen.
      
102 
                                                 
103   inline operator double() { return flat(); }
    
104   // Returns same as flat()
                      
105 
                                                 
106   inline operator float() { return float( flat    
107   // less precise flat, faster if possible
       
108 
                                                 
109   inline operator unsigned int() { return stat    
110   // 32-bit flat. clhep_get_next() returns a 6    
111   // the lower 61 bits are random and upper 3     
112 
                                                 
113   virtual std::ostream & put (std::ostream & o    
114   virtual std::istream & get (std::istream & i    
115   static  std::string beginTag ( );
              
116   virtual std::istream & getState ( std::istre    
117 
                                                 
118   std::string name() const { return "MixMaxRng    
119   static std::string engineName();
               
120 
                                                 
121   std::vector<unsigned long> put () const;
       
122   bool get (const std::vector<unsigned long> &    
123   bool getState (const std::vector<unsigned lo    
124 
                                                 
125 private:
                                         
126 
                                                 
127   static constexpr long long int SPECIAL   = 0    
128   static constexpr long long int SPECIALMUL= 3    
129   static constexpr int BITS=61;
                  
130   static constexpr myuint_t M61=23058430092136    
131   static constexpr double INV_M61=0.4336808689    
132   static constexpr unsigned int VECTOR_STATE_S    
133 
                                                 
134   inline myuint_t MIXMAX_MOD_MERSENNE(myuint_t    
135   {
                                              
136     return ((((k)) & M61) + (((k)) >> BITS) );    
137   }
                                              
138 
                                                 
139   static constexpr int rng_get_N();
              
140   void seed_uniquestream( myID_t clusterID, my    
141   void seed_spbox(myuint_t seed);
                
142   void print_state() const;
                      
143   myuint_t precalc();
                            
144   myuint_t get_next();
                           
145   
                                               
146   MixMaxRng Branch();
                            
147   void BranchInplace(int id);
                    
148 
                                                 
149   MixMaxRng(myID_t clusterID, myID_t machineID    
150   inline void seed64(myuint_t seedval)   // se    
151   {
                                              
152     seed_uniquestream( 0, 0, (myID_t)(seedval>    
153   }
                                              
154 
                                                 
155   inline void iterate()
                          
156   {
                                              
157     myuint_t  tempP, tempV;
                      
158     V[0] = ( tempV = sumtot );
                   
159     myuint_t insumtot = V[0], ovflow = 0; // w    
160     tempP = 0;                            // w    
161     myuint_t tempPO;
                             
162     tempPO = MULWU(tempP); tempP = modadd(temp    
163     tempPO = MULWU(tempP); tempP = modadd(temp    
164     tempPO = MULWU(tempP); tempP = modadd(temp    
165     tempPO = MULWU(tempP); tempP = modadd(temp    
166     tempPO = MULWU(tempP); tempP = modadd(temp    
167     tempPO = MULWU(tempP); tempP = modadd(temp    
168     tempPO = MULWU(tempP); tempP = modadd(temp    
169     tempPO = MULWU(tempP); tempP = modadd(temp    
170     tempPO = MULWU(tempP); tempP = modadd(temp    
171     tempPO = MULWU(tempP); tempP = modadd(temp    
172     tempPO = MULWU(tempP); tempP = modadd(temp    
173     tempPO = MULWU(tempP); tempP = modadd(temp    
174     tempPO = MULWU(tempP); tempP = modadd(temp    
175     tempPO = MULWU(tempP); tempP = modadd(temp    
176     tempPO = MULWU(tempP); tempP = modadd(temp    
177     tempPO = MULWU(tempP); tempP = modadd(temp    
178     sumtot = MIXMAX_MOD_MERSENNE(MIXMAX_MOD_ME    
179 
                                                 
180     counter=1;
                                   
181   }
                                              
182 
                                                 
183   void state_init();
                             
184   inline myuint_t MULWU (myuint_t k)
             
185   {
                                              
186     return (( (k)<<(SPECIALMUL) & M61) ^ ( (k)    
187   }
                                              
188   myuint_t iterate_raw_vec(myuint_t* Y, myuint    
189   myuint_t apply_bigskip(myuint_t* Vout, myuin    
190   inline myuint_t modadd(myuint_t xfoo, myuint    
191   {
                                              
192     return MIXMAX_MOD_MERSENNE(xfoo+xbar);
       
193   }
                                              
194 
                                                 
195 #if defined(__x86_64__)
                          
196   myuint_t mod128(__uint128_t s);
                
197   myuint_t fmodmulM61(myuint_t cum, myuint_t a    
198 #else // on all other platforms, including 32-    
199   myuint_t fmodmulM61(myuint_t cum, myuint_t s    
200 #endif
                                           
201 
                                                 
202   // Engine state
                                
203 
                                                 
204   myuint_t V[N] = {0};
                           
205   myuint_t sumtot = 0;
                           
206   int counter = N;
                               
207 };
                                               
208 
                                                 
209 }  // namespace CLHEP
                            
210 
                                                 
211 #endif
                                           
212