#ifndef PYTHONIC_NUMPY_FREXP_HPP #define PYTHONIC_NUMPY_FREXP_HPP #include "pythonic/include/numpy/frexp.hpp" #include "pythonic/utils/functor.hpp" #include "pythonic/utils/numpy_conversion.hpp" #include "pythonic/types/traits.hpp" #include "pythonic/types/ndarray.hpp" PYTHONIC_NS_BEGIN namespace numpy { template typename std::enable_if::value, std::tuple>::type frexp(T val) { int exp; T significand = std::frexp(val, &exp); return std::make_tuple(significand, exp); } namespace { template void _frexp(E begin, E end, F significands_iter, G exps_iter, utils::int_<1>) { for (; begin != end; ++begin, ++significands_iter, ++exps_iter) *significands_iter = std::frexp(*begin, exps_iter); } template void _frexp(E begin, E end, F significands_iter, G exps_iter, utils::int_) { for (; begin != end; ++begin, ++significands_iter, ++exps_iter) _frexp((*begin).begin(), (*begin).end(), (*significands_iter).begin(), (*exps_iter).begin(), utils::int_()); } } template typename std::enable_if< !types::is_dtype::value, std::tuple, types::ndarray>>::type frexp(E const &arr) { auto arr_shape = sutils::getshape(arr); types::ndarray significands( arr_shape, builtins::None); types::ndarray exps(arr_shape, builtins::None); _frexp(arr.begin(), arr.end(), significands.begin(), exps.begin(), utils::int_()); return std::make_tuple(significands, exps); } } PYTHONIC_NS_END #endif