Automatic Differentiation
 
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lognormal_lcdf.hpp
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1#ifndef STAN_MATH_PRIM_PROB_LOGNORMAL_LCDF_HPP
2#define STAN_MATH_PRIM_PROB_LOGNORMAL_LCDF_HPP
3
20#include <cmath>
21
22namespace stan {
23namespace math {
24
25template <typename T_y, typename T_loc, typename T_scale,
27 T_y, T_loc, T_scale>* = nullptr>
29 const T_scale& sigma) {
30 using T_partials_return = partials_return_t<T_y, T_loc, T_scale>;
31 using T_y_ref = ref_type_if_not_constant_t<T_y>;
32 using T_mu_ref = ref_type_if_not_constant_t<T_loc>;
33 using T_sigma_ref = ref_type_if_not_constant_t<T_scale>;
34 static constexpr const char* function = "lognormal_lcdf";
35
36 T_y_ref y_ref = y;
37 T_mu_ref mu_ref = mu;
38 T_sigma_ref sigma_ref = sigma;
39
40 decltype(auto) y_val = to_ref(as_value_column_array_or_scalar(y_ref));
41 decltype(auto) mu_val = to_ref(as_value_column_array_or_scalar(mu_ref));
42 decltype(auto) sigma_val = to_ref(as_value_column_array_or_scalar(sigma_ref));
43
44 check_nonnegative(function, "Random variable", y_val);
45 check_finite(function, "Location parameter", mu_val);
46 check_positive_finite(function, "Scale parameter", sigma_val);
47
48 if (size_zero(y, mu, sigma)) {
49 return 0;
50 }
51
52 auto ops_partials = make_partials_propagator(y_ref, mu_ref, sigma_ref);
53
54 if (sum(promote_scalar<int>(y_val == 0))) {
55 return ops_partials.build(NEGATIVE_INFTY);
56 }
57
58 const auto& log_y = log(y_val);
59 const auto& scaled_diff
60 = to_ref_if<!is_constant_all<T_y, T_loc, T_scale>::value>(
61 (log_y - mu_val) / (sigma_val * SQRT_TWO));
62 const auto& erfc_calc
63 = to_ref_if<!is_constant_all<T_y, T_loc, T_scale>::value>(
64 erfc(-scaled_diff));
65 size_t N = max_size(y, mu, sigma);
66 T_partials_return cdf_log = N * LOG_HALF + sum(log(erfc_calc));
67
69 const auto& exp_m_sq_diff = exp(-scaled_diff * scaled_diff);
70 const auto& rep_deriv = to_ref_if<!is_constant_all<T_y>::value
73 >= 2>(
74 -SQRT_TWO_OVER_SQRT_PI * exp_m_sq_diff / (sigma_val * erfc_calc));
76 partials<0>(ops_partials) = -rep_deriv / y_val;
77 }
79 partials<1>(ops_partials) = rep_deriv;
80 }
82 partials<2>(ops_partials) = rep_deriv * scaled_diff * SQRT_TWO;
83 }
84 }
85 return ops_partials.build(cdf_log);
86}
87
88} // namespace math
89} // namespace stan
90#endif
require_all_not_t< is_nonscalar_prim_or_rev_kernel_expression< std::decay_t< Types > >... > require_all_not_nonscalar_prim_or_rev_kernel_expression_t
Require none of the types satisfy is_nonscalar_prim_or_rev_kernel_expression.
return_type_t< T_y_cl, T_loc_cl, T_scale_cl > lognormal_lcdf(const T_y_cl &y, const T_loc_cl &mu, const T_scale_cl &sigma)
Returns the lognormal log cumulative distribution function for the given location,...
typename return_type< Ts... >::type return_type_t
Convenience type for the return type of the specified template parameters.
static constexpr double LOG_HALF
The natural logarithm of 0.5, .
Definition constants.hpp:92
static constexpr double SQRT_TWO_OVER_SQRT_PI
The square root of 2 divided by the square root of , .
void check_nonnegative(const char *function, const char *name, const T_y &y)
Check if y is non-negative.
bool size_zero(const T &x)
Returns 1 if input is of length 0, returns 0 otherwise.
Definition size_zero.hpp:19
fvar< T > log(const fvar< T > &x)
Definition log.hpp:18
static constexpr double NEGATIVE_INFTY
Negative infinity.
Definition constants.hpp:51
static constexpr double SQRT_TWO
The value of the square root of 2, .
auto as_value_column_array_or_scalar(T &&a)
Extract the value from an object and for eigen vectors and std::vectors convert to an eigen column ar...
ref_type_t< T && > to_ref(T &&a)
This evaluates expensive Eigen expressions.
Definition to_ref.hpp:17
fvar< T > erfc(const fvar< T > &x)
Definition erfc.hpp:16
void check_finite(const char *function, const char *name, const T_y &y)
Return true if all values in y are finite.
auto sum(const std::vector< T > &m)
Return the sum of the entries of the specified standard vector.
Definition sum.hpp:23
int64_t max_size(const T1 &x1, const Ts &... xs)
Calculate the size of the largest input.
Definition max_size.hpp:20
auto make_partials_propagator(Ops &&... ops)
Construct an partials_propagator.
void check_positive_finite(const char *function, const char *name, const T_y &y)
Check if y is positive and finite.
fvar< T > exp(const fvar< T > &x)
Definition exp.hpp:15
typename ref_type_if<!is_constant< T >::value, T >::type ref_type_if_not_constant_t
Definition ref_type.hpp:62
typename partials_return_type< Args... >::type partials_return_t
The lgamma implementation in stan-math is based on either the reentrant safe lgamma_r implementation ...
Extends std::true_type when instantiated with zero or more template parameters, all of which extend t...