Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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RandGeneral.h
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1// -*- C++ -*-
2//
3// -----------------------------------------------------------------------
4// HEP Random
5// --- RandGeneral ---
6// class header file
7// -----------------------------------------------------------------------
8
9// Class defining methods for shooting generally distributed random values,
10// given a user-defined probability distribution function.
11
12// =======================================================================
13// S.Magni & G.Pieri - Created: 29 April 1998
14// G.Cosmo - Added constructor using default engine from the
15// static generator: 20 Aug 1998
16// S.Magni & G.Pieri - Added linear interpolation: 24 March 1999
17// M. Fischler - Added private methods that simplify the implementaion
18// prepareTables(), useFlatDistribution(), mapRandom()
19// - Added private variable oneOverNbins.
20// - Made the warning about shoot() not being static a tad
21// more prominent. 14 May 1999
22// M Fischler - put and get to/from streams 12/15/04
23// =======================================================================
24
25#ifndef RandGeneral_h
26#define RandGeneral_h 1
27
28#include "CLHEP/Random/Random.h"
30#include <vector>
31
32namespace CLHEP {
33
34/**
35 * @author
36 * @ingroup random
37 */
38class RandGeneral : public HepRandom {
39
40public:
41
42 RandGeneral ( const double* aProbFunc,
43 int theProbSize,
44 int IntType=0 );
45 RandGeneral ( HepRandomEngine& anEngine,
46 const double* aProbFunc,
47 int theProbSize,
48 int IntType=0 );
49 RandGeneral ( HepRandomEngine* anEngine,
50 const double* aProbFunc,
51 int theProbSize,
52 int IntType=0 );
53 // These constructors should be used to instantiate a RandGeneral
54 // distribution object defining a local engine for it.
55 // The static generator will be skipped by using the non-static methods
56 // defined below. In case no engine is specified in the constructor, the
57 // default engine used by the static generator is applied.
58 // If the engine is passed by pointer the corresponding engine object
59 // will be deleted by the RandGeneral destructor.
60 // If the engine is passed by reference the corresponding engine object
61 // will not be deleted by the RandGeneral destructor.
62 // The probability distribution function (Pdf) must be provided by the user
63 // as an array of positive real number. The array size must also be
64 // provided. The Pdf doesn't need to be normalized to 1.
65 // if IntType = 0 ( default value ) a uniform random number is
66 // generated using the engine. The uniform number is then transformed
67 // to the user's distribution using the cumulative probability
68 // distribution constructed from his histogram. The cumulative
69 // distribution is inverted using a binary search for the nearest
70 // bin boundary and a linear interpolation within the
71 // bin. RandGeneral therefore generates a constant density within
72 // each bin.
73 // if IntType = 1 no interpolation is performed and the result is a
74 // discrete distribution.
75
76 virtual ~RandGeneral();
77 // Destructor
78
79 // Methods to shoot random values using the static generator
80 // N.B.: The methods are NOT static since they use nonstatic members
81 // theIntegralPdf & nBins
82
83 /////////////////////
84 // //
85 // BIG RED WARNING //
86 // //
87 /////////////////////
88 //
89 // The above N.B. is telling users that the shoot() methods in this
90 // class are NOT STATIC. You cannot do
91 // double x = RandGeneral::shoot();
92 // It would not make sense to provide a static shoot -- what would
93 // the default probability function look like?
94
95 inline double shoot();
96
97 inline void shootArray ( const int size, double* vect);
98
99 // Methods to shoot random values using a given engine
100 // by-passing the static generator.
101
102 double shoot( HepRandomEngine* anEngine );
103
104 void shootArray ( HepRandomEngine* anEngine, const int size,
105 double* vect );
106
107 // Methods using the localEngine to shoot random values, by-passing
108 // the static generator.
109
110 double fire();
111
112 void fireArray ( const int size, double* vect);
113
114 double operator()();
115
116 // Save and restore to/from streams
117
118 std::ostream & put ( std::ostream & os ) const;
119 std::istream & get ( std::istream & is );
120
121 std::string name() const;
123
124 static std::string distributionName() {return "RandGeneral";}
125 // Provides the name of this distribution class
126
127
128private:
129
130 std::shared_ptr<HepRandomEngine> localEngine;
131 std::vector<double> theIntegralPdf;
132 int nBins;
133 double oneOverNbins;
134 int InterpolationType;
135
136 // Private methods to factor out replicated implementation sections
137 void prepareTable(const double* aProbFunc);
138 void useFlatDistribution();
139 double mapRandom(double rand) const;
140
141};
142
143} // namespace CLHEP
144
145#include "CLHEP/Random/RandGeneral.icc"
146
147#endif
double shoot(HepRandomEngine *anEngine)
std::istream & get(std::istream &is)
Definition: RandGeneral.cc:266
virtual ~RandGeneral()
Definition: RandGeneral.cc:174
std::ostream & put(std::ostream &os) const
Definition: RandGeneral.cc:249
static std::string distributionName()
Definition: RandGeneral.h:124
void fireArray(const int size, double *vect)
Definition: RandGeneral.cc:240
std::string name() const
Definition: RandGeneral.cc:58
HepRandomEngine & engine()
Definition: RandGeneral.cc:59
void shootArray(const int size, double *vect)
Definition: DoubConv.h:17