Stan Math Library  2.14.0
reverse mode automatic differentiation
double_exponential_rng.hpp
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1 #ifndef STAN_MATH_PRIM_SCAL_PROB_DOUBLE_EXPONENTIAL_RNG_HPP
2 #define STAN_MATH_PRIM_SCAL_PROB_DOUBLE_EXPONENTIAL_RNG_HPP
3 
4 #include <boost/random/uniform_01.hpp>
5 #include <boost/random/variate_generator.hpp>
12 
16 
17 namespace stan {
18  namespace math {
19 
20  template <class RNG>
21  inline double
23  double sigma,
24  RNG& rng) {
25  static const char* function("double_exponential_rng");
26 
27  using boost::variate_generator;
28  using boost::random::uniform_01;
29  using std::log;
30  using std::abs;
31 
32  check_finite(function, "Location parameter", mu);
33  check_positive_finite(function, "Scale parameter", sigma);
34 
35  variate_generator<RNG&, uniform_01<> >
36  rng_unit_01(rng, uniform_01<>());
37  double a = 0;
38  double laplaceRN = rng_unit_01();
39  if (0.5 - laplaceRN > 0)
40  a = 1.0;
41  else if (0.5 - laplaceRN < 0)
42  a = -1.0;
43  return mu - sigma * a * log1m(2 * abs(0.5 - laplaceRN));
44  }
45  }
46 }
47 #endif
fvar< T > abs(const fvar< T > &x)
Definition: abs.hpp:15
void check_finite(const char *function, const char *name, const T_y &y)
Check if y is finite.
double double_exponential_rng(double mu, double sigma, RNG &rng)
fvar< T > log(const fvar< T > &x)
Definition: log.hpp:14
void check_positive_finite(const char *function, const char *name, const T_y &y)
Check if y is positive and finite.
fvar< T > log1m(const fvar< T > &x)
Definition: log1m.hpp:13

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