#ifndef PYTHONIC_NUMPY_RANDOM_NEGATIVE_BINOMIAL_HPP #define PYTHONIC_NUMPY_RANDOM_NEGATIVE_BINOMIAL_HPP #include "pythonic/include/numpy/random/negative_binomial.hpp" #include "pythonic/include/numpy/random/generator.hpp" #include "pythonic/types/ndarray.hpp" #include "pythonic/types/NoneType.hpp" #include "pythonic/types/tuple.hpp" #include "pythonic/utils/functor.hpp" #include #include PYTHONIC_NS_BEGIN namespace numpy { namespace random { template types::ndarray negative_binomial(double n, double p, pS const &shape) { types::ndarray result{shape, types::none_type()}; std::gamma_distribution distribution_gamma{n, (1 - p) / p}; std::generate(result.fbegin(), result.fend(), [&]() { return std::poisson_distribution{ (distribution_gamma(details::generator))}(details::generator); }); return result; } auto negative_binomial(double n, double p, long size) -> decltype(negative_binomial(n, p, types::array{{size}})) { return negative_binomial(n, p, types::array{{size}}); } double negative_binomial(double n, double p, types::none_type d) { std::gamma_distribution distribution_gamma{n, (1 - p) / p}; return std::poisson_distribution{ (distribution_gamma(details::generator))}(details::generator); } } } PYTHONIC_NS_END #endif