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

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Diff markup

Differences between /externals/clhep/include/CLHEP/Random/RandExpZiggurat.h (Version 11.3.0) and /externals/clhep/include/CLHEP/Random/RandExpZiggurat.h (Version 11.0.p1)


  1 /*                                                  1 /*
  2 Code adapted from:                                  2 Code adapted from:
  3 http://www.jstatsoft.org/v05/i08/                   3 http://www.jstatsoft.org/v05/i08/
  4                                                     4 
  5                                                     5 
  6 Original disclaimer:                                6 Original disclaimer:
  7                                                     7 
  8 The ziggurat method for RNOR and REXP               8 The ziggurat method for RNOR and REXP
  9 Combine the code below with the main program i      9 Combine the code below with the main program in which you want
 10 normal or exponential variates.   Then use of      10 normal or exponential variates.   Then use of RNOR in any expression
 11 will provide a standard normal variate with me     11 will provide a standard normal variate with mean zero, variance 1,
 12 while use of REXP in any expression will provi     12 while use of REXP in any expression will provide an exponential variate
 13 with density exp(-x),x>0.                          13 with density exp(-x),x>0.
 14 Before using RNOR or REXP in your main, insert     14 Before using RNOR or REXP in your main, insert a command such as
 15 zigset(86947731 );                                 15 zigset(86947731 );
 16 with your own choice of seed value>0, rather t     16 with your own choice of seed value>0, rather than 86947731.
 17 (If you do not invoke zigset(...) you will get     17 (If you do not invoke zigset(...) you will get all zeros for RNOR and REXP.)
 18 For details of the method, see Marsaglia and T     18 For details of the method, see Marsaglia and Tsang, "The ziggurat method
 19 for generating random variables", Journ. Stati     19 for generating random variables", Journ. Statistical Software.
 20                                                    20 
 21 */                                                 21 */
 22                                                    22 
 23 #ifndef RandExpZiggurat_h                          23 #ifndef RandExpZiggurat_h
 24 #define RandExpZiggurat_h 1                        24 #define RandExpZiggurat_h 1
 25                                                    25 
 26 #include "CLHEP/Random/Random.h"                   26 #include "CLHEP/Random/Random.h"
 27 #include "CLHEP/Utility/memory.h"                  27 #include "CLHEP/Utility/memory.h"
 28 #include "CLHEP/Utility/thread_local.h"            28 #include "CLHEP/Utility/thread_local.h"
 29                                                    29 
 30 namespace CLHEP {                                  30 namespace CLHEP {
 31                                                    31 
 32 /**                                                32 /**
 33  * @author ATLAS                                   33  * @author ATLAS
 34  * @ingroup random                                 34  * @ingroup random
 35  */                                                35  */
 36 class RandExpZiggurat : public HepRandom {         36 class RandExpZiggurat : public HepRandom {
 37                                                    37 
 38 public:                                            38 public:
 39                                                    39 
 40   inline RandExpZiggurat ( HepRandomEngine& an     40   inline RandExpZiggurat ( HepRandomEngine& anEngine, double mean=1.0 );
 41   inline RandExpZiggurat ( HepRandomEngine* an     41   inline RandExpZiggurat ( HepRandomEngine* anEngine, double mean=1.0 );
 42   // These constructors should be used to inst     42   // These constructors should be used to instantiate a RandExpZiggurat
 43   // distribution object defining a local engi     43   // distribution object defining a local engine for it.
 44   // The static generator will be skipped usin     44   // The static generator will be skipped using the non-static methods
 45   // defined below.                                45   // defined below.
 46   // If the engine is passed by pointer the co     46   // If the engine is passed by pointer the corresponding engine object
 47   // will be deleted by the RandExpZiggurat de     47   // will be deleted by the RandExpZiggurat destructor.
 48   // If the engine is passed by reference the      48   // If the engine is passed by reference the corresponding engine object
 49   // will not be deleted by the RandExpZiggura     49   // will not be deleted by the RandExpZiggurat destructor.
 50                                                    50 
 51   virtual ~RandExpZiggurat();                      51   virtual ~RandExpZiggurat();
 52   // Destructor                                    52   // Destructor
 53                                                    53 
 54   // Static methods to shoot random values usi     54   // Static methods to shoot random values using the static generator
 55                                                    55 
 56   static float shoot() {return shoot(HepRandom     56   static float shoot() {return shoot(HepRandom::getTheEngine());}
 57   static float shoot( float mean ) {return sho     57   static float shoot( float mean ) {return shoot(HepRandom::getTheEngine(),mean);}
 58                                                    58 
 59   /* ENGINE IS INTRINSIC FLOAT                     59   /* ENGINE IS INTRINSIC FLOAT
 60   static double shoot() {return shoot(HepRando     60   static double shoot() {return shoot(HepRandom::getTheEngine());}
 61   static double shoot( double mean ) {return s     61   static double shoot( double mean ) {return shoot(HepRandom::getTheEngine(),mean);}
 62   */                                               62   */
 63                                                    63 
 64   static void shootArray ( const int size, flo     64   static void shootArray ( const int size, float* vect, float mean=1.0 );
 65   static void shootArray ( const int size, dou     65   static void shootArray ( const int size, double* vect, double mean=1.0 );
 66                                                    66 
 67   //  Static methods to shoot random values us     67   //  Static methods to shoot random values using a given engine
 68   //  by-passing the static generator.             68   //  by-passing the static generator.
 69                                                    69 
 70   static inline float shoot( HepRandomEngine*      70   static inline float shoot( HepRandomEngine* anEngine ) {return ziggurat_REXP(anEngine);}
 71   static inline float shoot( HepRandomEngine*      71   static inline float shoot( HepRandomEngine* anEngine, float mean ) {return shoot(anEngine)*mean;}
 72                                                    72   
 73   /* ENGINE IS INTRINSIC FLOAT                     73   /* ENGINE IS INTRINSIC FLOAT
 74   static inline double shoot( HepRandomEngine*     74   static inline double shoot( HepRandomEngine* anEngine ) {return ziggurat_REXP(anEngine);}
 75                                                    75 
 76   static inline double shoot( HepRandomEngine*     76   static inline double shoot( HepRandomEngine* anEngine, double mean ) {return shoot(anEngine)*mean;}
 77   */                                               77   */
 78                                                    78   
 79   static void shootArray ( HepRandomEngine* an     79   static void shootArray ( HepRandomEngine* anEngine, const int size, float* vect, float mean=1.0 );
 80   static void shootArray ( HepRandomEngine* an     80   static void shootArray ( HepRandomEngine* anEngine, const int size, double* vect, double mean=1.0 );
 81                                                    81 
 82   //  Methods using the localEngine to shoot r     82   //  Methods using the localEngine to shoot random values, by-passing
 83   //  the static generator.                        83   //  the static generator.
 84                                                    84 
 85   inline float fire() {return fire(float(defau     85   inline float fire() {return fire(float(defaultMean));}
 86   inline float fire( float mean ) {return zigg     86   inline float fire( float mean ) {return ziggurat_REXP(localEngine.get())*mean;}
 87                                                    87   
 88   /* ENGINE IS INTRINSIC FLOAT                     88   /* ENGINE IS INTRINSIC FLOAT
 89   inline double fire() {return fire(defaultMea     89   inline double fire() {return fire(defaultMean);}
 90   inline double fire( double mean ) {return zi     90   inline double fire( double mean ) {return ziggurat_REXP(localEngine.get())*mean;}
 91   */                                               91   */
 92                                                    92   
 93   void fireArray ( const int size, float* vect     93   void fireArray ( const int size, float* vect );
 94   void fireArray ( const int size, double* vec     94   void fireArray ( const int size, double* vect );
 95   void fireArray ( const int size, float* vect     95   void fireArray ( const int size, float* vect, float mean );
 96   void fireArray ( const int size, double* vec     96   void fireArray ( const int size, double* vect, double mean );
 97                                                    97   
 98   virtual double operator()();                     98   virtual double operator()();
 99   inline float operator()( float mean ) {retur     99   inline float operator()( float mean ) {return fire( mean );}
100                                                   100 
101   // Save and restore to/from streams             101   // Save and restore to/from streams
102                                                   102   
103   std::ostream & put ( std::ostream & os ) con    103   std::ostream & put ( std::ostream & os ) const;
104   std::istream & get ( std::istream & is );       104   std::istream & get ( std::istream & is );
105                                                   105 
106   std::string name() const;                       106   std::string name() const;
107   HepRandomEngine & engine();                     107   HepRandomEngine & engine();
108                                                   108 
109   static std::string distributionName() {retur    109   static std::string distributionName() {return "RandExpZiggurat";}  
110   // Provides the name of this distribution cl    110   // Provides the name of this distribution class
111                                                   111   
112   static bool ziggurat_init();                    112   static bool ziggurat_init();
113 protected:                                        113 protected:
114   //////////////////////////                      114   //////////////////////////
115   // Ziggurat Original code:                      115   // Ziggurat Original code:
116   //////////////////////////                      116   //////////////////////////
117   //static unsigned long jz,jsr=123456789;        117   //static unsigned long jz,jsr=123456789;
118   //                                              118   //
119   //#define SHR3 (jz=jsr, jsr^=(jsr<<13), jsr^    119   //#define SHR3 (jz=jsr, jsr^=(jsr<<13), jsr^=(jsr>>17), jsr^=(jsr<<5),jz+jsr)
120   //#define UNI (.5 + (signed) SHR3*.2328306e-    120   //#define UNI (.5 + (signed) SHR3*.2328306e-9)
121   //#define IUNI SHR3                             121   //#define IUNI SHR3
122   //                                              122   //
123   //static long hz;                               123   //static long hz;
124   //static unsigned long iz, kn[128], ke[256];    124   //static unsigned long iz, kn[128], ke[256];
125   //static float wn[128],fn[128], we[256],fe[2    125   //static float wn[128],fn[128], we[256],fe[256];
126   //                                              126   //
127   //#define RNOR (hz=SHR3, iz=hz&127, (fabs(hz    127   //#define RNOR (hz=SHR3, iz=hz&127, (fabs(hz)<kn[iz])? hz*wn[iz] : nfix())
128   //#define REXP (jz=SHR3, iz=jz&255, (    jz     128   //#define REXP (jz=SHR3, iz=jz&255, (    jz <ke[iz])? jz*we[iz] : efix())
129                                                   129 
130   static CLHEP_THREAD_LOCAL unsigned long kn[1    130   static CLHEP_THREAD_LOCAL unsigned long kn[128], ke[256];
131   static CLHEP_THREAD_LOCAL float wn[128],fn[1    131   static CLHEP_THREAD_LOCAL float wn[128],fn[128], we[256],fe[256];
132                                                   132 
133   static CLHEP_THREAD_LOCAL bool ziggurat_is_i    133   static CLHEP_THREAD_LOCAL bool ziggurat_is_init;
134                                                   134 
135   static inline unsigned long ziggurat_SHR3(He    135   static inline unsigned long ziggurat_SHR3(HepRandomEngine* anEngine) {return (unsigned int)(*anEngine);}
136   static inline float ziggurat_UNI(HepRandomEn    136   static inline float ziggurat_UNI(HepRandomEngine* anEngine) {return float(anEngine->flat());}
137   static inline float ziggurat_REXP(HepRandomE    137   static inline float ziggurat_REXP(HepRandomEngine* anEngine) {
138     if(!ziggurat_is_init) ziggurat_init();        138     if(!ziggurat_is_init) ziggurat_init();
139     unsigned long jz=ziggurat_SHR3(anEngine);     139     unsigned long jz=ziggurat_SHR3(anEngine);
140     unsigned long iz=jz&255;                      140     unsigned long iz=jz&255;
141     return (jz<ke[iz]) ? jz*we[iz] : ziggurat_    141     return (jz<ke[iz]) ? jz*we[iz] : ziggurat_efix(jz,anEngine);
142   }                                               142   }
143   static float ziggurat_efix(unsigned long jz,    143   static float ziggurat_efix(unsigned long jz,HepRandomEngine* anEngine);
144                                                   144 
145 private:                                          145 private:
146                                                   146 
147   // Private copy constructor. Defining it her    147   // Private copy constructor. Defining it here disallows use.
148   RandExpZiggurat(const RandExpZiggurat& d);      148   RandExpZiggurat(const RandExpZiggurat& d);
149                                                   149 
150   std::shared_ptr<HepRandomEngine> localEngine    150   std::shared_ptr<HepRandomEngine> localEngine;
151   double defaultMean;                             151   double defaultMean;
152 };                                                152 };
153                                                   153 
154 }  // namespace CLHEP                             154 }  // namespace CLHEP
155                                                   155 
156 namespace CLHEP {                                 156 namespace CLHEP {
157                                                   157 
158 inline RandExpZiggurat::RandExpZiggurat(HepRan    158 inline RandExpZiggurat::RandExpZiggurat(HepRandomEngine & anEngine, double mean ) : localEngine(&anEngine, do_nothing_deleter()), defaultMean(mean) 
159 {                                                 159 {
160 }                                                 160 }
161                                                   161 
162 inline RandExpZiggurat::RandExpZiggurat(HepRan    162 inline RandExpZiggurat::RandExpZiggurat(HepRandomEngine * anEngine, double mean ) : localEngine(anEngine), defaultMean(mean) 
163 {                                                 163 {
164 }                                                 164 }
165                                                   165 
166 }  // namespace CLHEP                             166 }  // namespace CLHEP
167                                                   167 
168 #endif                                            168 #endif
169                                                   169