Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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RandChiSquare.cc
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1// -*- C++ -*-
2//
3// -----------------------------------------------------------------------
4// HEP Random
5// --- RandChiSquare ---
6// class implementation file
7// -----------------------------------------------------------------------
8
9// =======================================================================
10// John Marraffino - Created: 12th May 1998
11// M Fischler - put and get to/from streams 12/10/04
12// M Fischler - put/get to/from streams uses pairs of ulongs when
13// + storing doubles avoid problems with precision
14// 4/14/05
15// =======================================================================
16
20#include <cmath> // for std::log()
21#include <iostream>
22#include <string>
23#include <vector>
24
25namespace CLHEP {
26
27std::string RandChiSquare::name() const {return "RandChiSquare";}
28HepRandomEngine & RandChiSquare::engine() {return *localEngine;}
29
31}
32
33double RandChiSquare::shoot( HepRandomEngine *anEngine, double a ) {
34 return genChiSquare( anEngine, a );
35}
36
37double RandChiSquare::shoot( double a ) {
39 return genChiSquare( anEngine, a );
40}
41
42double RandChiSquare::fire( double a ) {
43 return genChiSquare( localEngine.get(), a );
44}
45
46void RandChiSquare::shootArray( const int size, double* vect,
47 double a ) {
48 for( double* v = vect; v != vect+size; ++v )
49 *v = shoot(a);
50}
51
53 const int size, double* vect,
54 double a )
55{
56 for( double* v = vect; v != vect+size; ++v )
57 *v = shoot(anEngine,a);
58}
59
60void RandChiSquare::fireArray( const int size, double* vect) {
61 for( double* v = vect; v != vect+size; ++v )
62 *v = fire(defaultA);
63}
64
65void RandChiSquare::fireArray( const int size, double* vect,
66 double a ) {
67 for( double* v = vect; v != vect+size; ++v )
68 *v = fire(a);
69}
70
71double RandChiSquare::genChiSquare( HepRandomEngine *anEngine,
72 double a ) {
73/******************************************************************
74 * *
75 * Chi Distribution - Ratio of Uniforms with shift *
76 * *
77 ******************************************************************
78 * *
79 * FUNCTION : - chru samples a random number from the Chi *
80 * distribution with parameter a > 1. *
81 * REFERENCE : - J.F. Monahan (1987): An algorithm for *
82 * generating chi random variables, ACM Trans. *
83 * Math. Software 13, 168-172. *
84 * SUBPROGRAM : - anEngine ... pointer to a (0,1)-Uniform *
85 * engine *
86 * *
87 * Implemented by R. Kremer, 1990 *
88 ******************************************************************/
89
90 static CLHEP_THREAD_LOCAL double a_in = -1.0,b,vm,vp,vd;
91 double u,v,z,zz,r;
92
93// Check for invalid input value
94
95 if( a < 1 ) return (-1.0);
96
97 if (a == 1)
98 {
99 for(;;)
100 {
101 u = anEngine->flat();
102 v = anEngine->flat() * 0.857763884960707;
103 z = v / u;
104 if (z < 0) continue;
105 zz = z * z;
106 r = 2.5 - zz;
107 if (z < 0.0) r = r + zz * z / (3.0 * z);
108 if (u < r * 0.3894003915) return(z*z);
109 if (zz > (1.036961043 / u + 1.4)) continue;
110 if (2 * std::log(u) < (- zz * 0.5 )) return(z*z);
111 }
112 }
113 else
114 {
115 if (a != a_in)
116 {
117 b = std::sqrt(a - 1.0);
118 vm = - 0.6065306597 * (1.0 - 0.25 / (b * b + 1.0));
119 vm = (-b > vm)? -b : vm;
120 vp = 0.6065306597 * (0.7071067812 + b) / (0.5 + b);
121 vd = vp - vm;
122 a_in = a;
123 }
124 for(;;)
125 {
126 u = anEngine->flat();
127 v = anEngine->flat() * vd + vm;
128 z = v / u;
129 if (z < -b) continue;
130 zz = z * z;
131 r = 2.5 - zz;
132 if (z < 0.0) r = r + zz * z / (3.0 * (z + b));
133 if (u < r * 0.3894003915) return((z + b)*(z + b));
134 if (zz > (1.036961043 / u + 1.4)) continue;
135 if (2 * std::log(u) < (std::log(1.0 + z / b) * b * b - zz * 0.5 - z * b)) return((z + b)*(z + b));
136 }
137 }
138}
139
140std::ostream & RandChiSquare::put ( std::ostream & os ) const {
141 int pr=os.precision(20);
142 std::vector<unsigned long> t(2);
143 os << " " << name() << "\n";
144 os << "Uvec" << "\n";
145 t = DoubConv::dto2longs(defaultA);
146 os << defaultA << " " << t[0] << " " << t[1] << "\n";
147 os.precision(pr);
148 return os;
149}
150
151std::istream & RandChiSquare::get ( std::istream & is ) {
152 std::string inName;
153 is >> inName;
154 if (inName != name()) {
155 is.clear(std::ios::badbit | is.rdstate());
156 std::cerr << "Mismatch when expecting to read state of a "
157 << name() << " distribution\n"
158 << "Name found was " << inName
159 << "\nistream is left in the badbit state\n";
160 return is;
161 }
162 if (possibleKeywordInput(is, "Uvec", defaultA)) {
163 std::vector<unsigned long> t(2);
164 is >> defaultA >> t[0] >> t[1]; defaultA = DoubConv::longs2double(t);
165 return is;
166 }
167 // is >> defaultA encompassed by possibleKeywordInput
168 return is;
169}
170
171
172
173} // namespace CLHEP
174
static double longs2double(const std::vector< unsigned long > &v)
Definition: DoubConv.cc:110
static std::vector< unsigned long > dto2longs(double d)
Definition: DoubConv.cc:94
virtual double flat()=0
static HepRandomEngine * getTheEngine()
Definition: Random.cc:268
void fireArray(const int size, double *vect)
std::istream & get(std::istream &is)
static double shoot()
std::string name() const
HepRandomEngine & engine()
static void shootArray(const int size, double *vect, double a=1.0)
std::ostream & put(std::ostream &os) const
Definition: DoubConv.h:17
bool possibleKeywordInput(IS &is, const std::string &key, T &t)
Definition: RandomEngine.h:166
#define CLHEP_THREAD_LOCAL
Definition: thread_local.h:13