math/prim_2prob_2gumbel__lcdf_8hpp_source.html

#ifndef STAN_MATH_PRIM_PROB_GUMBEL_LCDF_HPP

#define STAN_MATH_PRIM_PROB_GUMBEL_LCDF_HPP


#include <stan/math/prim/meta.hpp>

#include <stan/math/prim/err.hpp>

#include <stan/math/prim/fun/as_column_vector_or_scalar.hpp>

#include <stan/math/prim/fun/as_array_or_scalar.hpp>

#include <stan/math/prim/fun/as_value_column_array_or_scalar.hpp>

#include <stan/math/prim/fun/exp.hpp>

#include <stan/math/prim/fun/max_size.hpp>

#include <stan/math/prim/fun/size_zero.hpp>

#include <stan/math/prim/fun/to_ref.hpp>

#include <stan/math/prim/fun/value_of.hpp>

#include <stan/math/prim/functor/partials_propagator.hpp>

#include <cmath>


namespace stan {

namespace math {


template <typename T_y, typename T_loc, typename T_scale,

          require_all_not_nonscalar_prim_or_rev_kernel_expression_t<

              T_y, T_loc, T_scale>* = nullptr>

inline return_type_t<T_y, T_loc, T_scale> gumbel_lcdf(const T_y& y,

                                                      const T_loc& mu,

                                                      const T_scale& beta) {

  using T_partials_return = partials_return_t<T_y, T_loc, T_scale>;

  using T_y_ref = ref_type_if_not_constant_t<T_y>;

  using T_mu_ref = ref_type_if_not_constant_t<T_loc>;

  using T_beta_ref = ref_type_if_not_constant_t<T_scale>;

  static constexpr const char* function = "gumbel_lcdf";

  check_consistent_sizes(function, "Random variable", y, "Location parameter",

                         mu, "Scale parameter", beta);

  T_y_ref y_ref = y;

  T_mu_ref mu_ref = mu;

  T_beta_ref beta_ref = beta;


  decltype(auto) y_val = to_ref(as_value_column_array_or_scalar(y_ref));

  decltype(auto) mu_val = to_ref(as_value_column_array_or_scalar(mu_ref));

  decltype(auto) beta_val = to_ref(as_value_column_array_or_scalar(beta_ref));


  check_not_nan(function, "Random variable", y_val);

  check_finite(function, "Location parameter", mu_val);

  check_positive(function, "Scale parameter", beta_val);


  if (size_zero(y, mu, beta)) {

    return 0;

  }


  auto ops_partials = make_partials_propagator(y_ref, mu_ref, beta_ref);


  const auto& scaled_diff = to_ref_if<is_any_autodiff_v<T_y, T_loc, T_scale>>(

      (mu_val - y_val) / beta_val);

  const auto& exp_scaled_diff

      = to_ref_if<is_any_autodiff_v<T_y, T_loc, T_scale>>(exp(scaled_diff));

  T_partials_return cdf_log = -sum(exp_scaled_diff);


  if constexpr (is_any_autodiff_v<T_y, T_loc, T_scale>) {

    const auto& rep_deriv = to_ref_if<

        is_autodiff_v<

            T_loc> + is_autodiff_v<T_scale> + is_autodiff_v<T_y> >= 2>(

        exp_scaled_diff / beta_val);

    if constexpr (is_autodiff_v<T_y>) {

      partials<0>(ops_partials) = rep_deriv;

    }

    if constexpr (is_autodiff_v<T_loc>) {

      partials<1>(ops_partials) = -rep_deriv;

    }

    if constexpr (is_autodiff_v<T_scale>) {

      partials<2>(ops_partials) = rep_deriv * scaled_diff;

    }

  }

  return ops_partials.build(cdf_log);

}


}  // namespace math

}  // namespace stan

#endif

as_value_column_array_or_scalar.hpp

stan::require_all_not_nonscalar_prim_or_rev_kernel_expression_t
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.
Definition is_kernel_expression.hpp:191

stan::math::gumbel_lcdf
return_type_t< T_y_cl, T_loc_cl, T_scale_cl > gumbel_lcdf(const T_y_cl &y, const T_loc_cl &mu, const T_scale_cl &beta)
Returns the Gumbel log complementary cumulative distribution function for the given location,...
Definition gumbel_lcdf.hpp:34

stan::return_type_t
typename return_type< Ts... >::type return_type_t
Convenience type for the return type of the specified template parameters.
Definition return_type.hpp:218

max_size.hpp

stan::math::size_zero
bool size_zero(const T &x)
Returns 1 if input is of length 0, returns 0 otherwise.
Definition size_zero.hpp:19

stan::math::to_ref_if
T to_ref_if(T &&a)
No-op that should be optimized away.
Definition to_ref.hpp:45

stan::math::as_value_column_array_or_scalar
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...
Definition as_value_column_array_or_scalar.hpp:22

stan::math::check_consistent_sizes
void check_consistent_sizes(const char *)
Trivial no input case, this function is a no-op.
Definition check_consistent_sizes.hpp:15

stan::math::check_finite
void check_finite(const char *function, const char *name, const T_y &y)
Return true if all values in y are finite.
Definition check_finite.hpp:28

stan::math::check_not_nan
void check_not_nan(const char *function, const char *name, const T_y &y)
Check if y is not NaN.
Definition check_not_nan.hpp:26

stan::math::sum
auto sum(const std::vector< T > &m)
Return the sum of the entries of the specified standard vector.
Definition sum.hpp:23

stan::math::check_positive
void check_positive(const char *function, const char *name, const T_y &y)
Check if y is positive.
Definition check_positive.hpp:27

stan::math::to_ref
ref_type_t< T && > to_ref(T &&a)
This evaluates expensive Eigen expressions.
Definition to_ref.hpp:18

stan::math::beta
fvar< T > beta(const fvar< T > &x1, const fvar< T > &x2)
Return fvar with the beta function applied to the specified arguments and its gradient.
Definition beta.hpp:51

stan::math::make_partials_propagator
auto make_partials_propagator(Ops &&... ops)
Construct an partials_propagator.
Definition partials_propagator.hpp:119

stan::math::exp
fvar< T > exp(const fvar< T > &x)
Definition exp.hpp:15

stan::ref_type_if_not_constant_t
typename ref_type_if< is_autodiff_v< T >, T >::type ref_type_if_not_constant_t
Definition ref_type.hpp:63

stan::is_autodiff_v
constexpr bool is_autodiff_v
Definition is_autodiff.hpp:60

stan::partials_return_t
typename partials_return_type< Args... >::type partials_return_t
Definition partials_return_type.hpp:44

stan
The lgamma implementation in stan-math is based on either the reentrant safe lgamma_r implementation ...
Definition unit_vector_constrain.hpp:15

err.hpp

as_array_or_scalar.hpp

as_column_vector_or_scalar.hpp

exp.hpp

value_of.hpp

partials_propagator.hpp

meta.hpp

size_zero.hpp

to_ref.hpp