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template<class F , class Tuple , std::size_t... I> |
constexpr auto | stan::math::internal::apply_impl (const F &f, const Tuple &t, std::index_sequence< I... > i) |
| Invoke the functor f with arguments given in t and indexed in the index sequence I. More...
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template<class F , class Tuple > |
constexpr auto | stan::math::internal::apply (const F &f, const Tuple &t) |
| Call the functor f with the tuple of arguments t, like: More...
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template<size_t size> |
void | stan::math::internal::build_y_adj (vari **y_vi, const std::array< int, size > &M, double &y_adj) |
| Store the adjoint in y_vi[0] in y_adj. More...
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template<size_t size> |
void | stan::math::internal::build_y_adj (vari **y_vi, const std::array< int, size > &M, std::vector< double > &y_adj) |
| Store the adjoints from y_vi in y_adj. More...
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template<size_t size, int R, int C> |
void | stan::math::internal::build_y_adj (vari **y_vi, const std::array< int, size > &M, Eigen::Matrix< double, R, C > &y_adj) |
| Store the adjoints from y_vi in y_adj. More...
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template<typename F , typename... Targs> |
auto | stan::math::adj_jac_apply (const Targs &... args) |
| Return the result of applying the function defined by a nullary construction of F to the specified input argument. More...
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