vSMC
vSMC: Scalable Monte Carlo
logistic_distribution.hpp
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2 // vSMC/include/vsmc/rng/logistic_distribution.hpp
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31 
32 #ifndef VSMC_RNG_LOGISTIC_DISTRIBUTION_HPP
33 #define VSMC_RNG_LOGISTIC_DISTRIBUTION_HPP
34 
37 
38 namespace vsmc
39 {
40 
41 namespace internal
42 {
43 
44 template <typename RealType>
45 inline bool logistic_distribution_check_param(RealType, RealType b)
46 {
47  return b > 0;
48 }
49 
50 } // namespace vsmc::internal
51 
54 template <typename RealType>
56 {
58  Logistic, logistic, RealType, result_type, a, 0, result_type, b, 1)
60 
61  public:
62  result_type min VSMC_MNE() const
63  {
64  return -std::numeric_limits<result_type>::max VSMC_MNE();
65  }
66 
67  result_type max VSMC_MNE() const
68  {
69  return std::numeric_limits<result_type>::max VSMC_MNE();
70  }
71 
72  void reset() {}
73 
74  private:
75  template <typename RNGType>
76  result_type generate(RNGType &rng, const param_type &param)
77  {
79  result_type u = runif(rng);
80 
81  return param.a() + param.b() * std::log(u / (1 - u));
82  }
83 }; // class LogisticDistribution
84 
85 namespace internal
86 {
87 
88 template <std::size_t K, typename RealType, typename RNGType>
90  RNGType &rng, std::size_t n, RealType *r, RealType a, RealType b)
91 {
92  RealType s[K];
93  u01_oo_distribution(rng, n, r);
94  sub(n, static_cast<RealType>(1), r, s);
95  div(n, r, s, r);
96  log(n, r, r);
97  fma(n, b, r, a, r);
98 }
99 
100 } // namespace vsmc::internal
101 
104 template <typename RealType, typename RNGType>
106  RNGType &rng, std::size_t n, RealType *r, RealType a, RealType b)
107 {
108  const std::size_t k = 1000;
109  const std::size_t m = n / k;
110  const std::size_t l = n % k;
111  for (std::size_t i = 0; i != m; ++i)
112  internal::logistic_distribution_impl<k>(rng, k, r + i * k, a, b);
113  internal::logistic_distribution_impl<k>(rng, l, r + m * k, a, b);
114 }
115 
116 template <typename RealType, typename RNGType>
117 inline void rng_rand(RNGType &rng, LogisticDistribution<RealType> &dist,
118  std::size_t n, RealType *r)
119 {
120  dist(rng, n, r);
121 }
122 
123 } // namespace vsmc
124 
125 #endif // VSMC_RNG_LOGISTIC_DISTRIBUTION_HPP
Definition: monitor.hpp:49
Standard uniform distribution with open/closed variants.
Definition: common.hpp:512
void logistic_distribution(RNGType &, std::size_t, RealType *, RealType, RealType)
Generating logistic random variates.
bool logistic_distribution_check_param(RealType, RealType b)
void u01_oo_distribution(RNGType &rng, std::size_t n, RealType *r)
Generate standard uniform random variates on open-open interval.
void rng_rand(RNGType &rng, BernoulliDistribution< IntType > &dist, std::size_t n, IntType *r)
#define VSMC_DEFINE_RNG_DISTRIBUTION_OPERATORS
Definition: common.hpp:286
#define VSMC_DEFINE_RNG_DISTRIBUTION_2(Name, name, T, T1, p1, v1, T2, p2, v2)
Definition: common.hpp:159
#define VSMC_MNE
Definition: defines.hpp:38
void div(std::size_t n, const float *a, const float *b, float *y)
Definition: vmath.hpp:128
void sub(std::size_t n, const float *a, const float *b, float *y)
Definition: vmath.hpp:110
void fma(std::size_t n, const T *a, const T *b, const T *c, T *y)
For , compute .
Definition: vmath.hpp:257
void log(std::size_t n, const float *a, float *y)
Definition: vmath.hpp:148
void logistic_distribution_impl(RNGType &rng, std::size_t n, RealType *r, RealType a, RealType b)
Logistic distribution.
Definition: common.hpp:494