#ifndef SPROUT_MATH_LOGB2_HPP #define SPROUT_MATH_LOGB2_HPP #include #include #include #include #include #if SPROUT_FLT_RADIX_IS_2 # include #else # include # include # include # include # include # include #endif namespace sprout { namespace math { namespace detail { #if SPROUT_FLT_RADIX_IS_2 template< typename FloatType, typename sprout::enabler_if::value>::type = sprout::enabler > inline SPROUT_CONSTEXPR FloatType logb2(FloatType x) { return sprout::logb(x); } template< typename IntType, typename sprout::enabler_if::value>::type = sprout::enabler > inline SPROUT_CONSTEXPR double logb2(IntType x) { return sprout::logb(x); } #else template inline SPROUT_CONSTEXPR T logb2_impl_2_neg_lo(T x, T x0, T base, T exp) { return base < 1 ? sprout::math::detail::logb2_impl_2_neg_lo( x, x0 * 2, x / (x0 / 2), exp - 1 ) : exp ; } template inline SPROUT_CONSTEXPR T logb2_impl_2_neg_hi(T x, T x0, T base, T exp) { return !(base < 2) ? sprout::math::detail::logb2_impl_2_neg_hi( x, x0 / 2, x / (x0 * 2), exp + 1 ) : exp ; } template inline SPROUT_CONSTEXPR T logb2_impl_2_pos_lo(T x, T x0, T base, T exp) { return base < 1 ? sprout::math::detail::logb2_impl_2_pos_lo( x, x0 * 2, x / (x0 / 2), exp + 1 ) : exp ; } template inline SPROUT_CONSTEXPR T logb2_impl_2_pos_hi(T x, T x0, T base, T exp) { return !(base < 2) ? sprout::math::detail::logb2_impl_2_pos_hi( x, x0 / 2, x / (x0 * 2), exp - 1 ) : exp ; } template inline SPROUT_CONSTEXPR T logb2_impl_2(T x, T x0, T base, T exp) { return exp < 0 ? base < 1 ? sprout::math::detail::logb2_impl_2_neg_lo( x, x0 * 2, x / (x0 / 2), exp - 1 ) : !(base < 2) ? sprout::math::detail::logb2_impl_2_neg_hi( x, x0 / 2, x / (x0 * 2), exp + 1 ) : exp : base < 1 ? sprout::math::detail::logb2_impl_2_pos_lo( x, x0 * 2, x / (x0 / 2), exp + 1 ) : !(base < 2) ? sprout::math::detail::logb2_impl_2_pos_hi( x, x0 / 2, x / (x0 * 2), exp - 1 ) : exp ; } template inline SPROUT_CONSTEXPR T logb2_impl_1(T x, T x0, T exp) { return sprout::math::detail::logb2_impl_2(x, x0, x / x0, exp); } template inline SPROUT_CONSTEXPR T logb2_impl(T x, T exp) { return sprout::math::detail::logb2_impl_1( x, sprout::detail::pow_n(T(2), sprout::itrunc(exp)), exp ); } template< typename FloatType, typename sprout::enabler_if::value>::type = sprout::enabler > inline SPROUT_CONSTEXPR FloatType logb2(FloatType x) { return x == 0 ? -std::numeric_limits::infinity() : x == std::numeric_limits::infinity() || x == -std::numeric_limits::infinity() ? std::numeric_limits::infinity() : x < 0 ? sprout::math::detail::logb2_impl(-x, sprout::trunc(sprout::log_a(FloatType(2), -x))) : sprout::math::detail::logb2_impl(x, sprout::trunc(sprout::log_a(FloatType(2), x))) ; } template< typename IntType, typename sprout::enabler_if::value>::type = sprout::enabler > inline SPROUT_CONSTEXPR double logb2(IntType x) { return sprout::math::detail::logb2(static_cast(x)); } #endif } // namespace detail using sprout::math::detail::logb2; } // namespace math using sprout::math::logb2; } // namespace sprout #endif // #ifndef SPROUT_MATH_LOGB2_HPP