boost/math/special_functions/trunc.hpp
// Copyright John Maddock 2007. // Copyright Matt Borland 2023. // Use, modification and distribution are subject to the // Boost Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_MATH_TRUNC_HPP #define BOOST_MATH_TRUNC_HPP #ifdef _MSC_VER #pragma once #endif #include <boost/math/tools/config.hpp> #include <boost/math/tools/type_traits.hpp> #include <boost/math/tools/numeric_limits.hpp> #ifndef BOOST_MATH_HAS_NVRTC #include <type_traits> #include <boost/math/special_functions/math_fwd.hpp> #include <boost/math/ccmath/detail/config.hpp> #include <boost/math/policies/error_handling.hpp> #include <boost/math/special_functions/fpclassify.hpp> #include <boost/math/tools/is_constant_evaluated.hpp> #if !defined(BOOST_MATH_NO_CCMATH) && !defined(BOOST_MATH_NO_CONSTEXPR_DETECTION) #include <boost/math/ccmath/ldexp.hpp> # define BOOST_MATH_HAS_CONSTEXPR_LDEXP #endif namespace boost{ namespace math{ namespace detail{ template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline tools::promote_args_t<T> trunc(const T& v, const Policy& pol, const std::false_type&) { BOOST_MATH_STD_USING using result_type = tools::promote_args_t<T>; if(!(boost::math::isfinite)(v)) { return policies::raise_rounding_error("boost::math::trunc<%1%>(%1%)", nullptr, static_cast<result_type>(v), static_cast<result_type>(v), pol); } return (v >= 0) ? static_cast<result_type>(floor(v)) : static_cast<result_type>(ceil(v)); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline tools::promote_args_t<T> trunc(const T& v, const Policy&, const std::true_type&) { return v; } } // Namespace detail template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline tools::promote_args_t<T> trunc(const T& v, const Policy& pol) { return detail::trunc(v, pol, std::integral_constant<bool, detail::is_integer_for_rounding<T>::value>()); } template <class T> BOOST_MATH_GPU_ENABLED inline tools::promote_args_t<T> trunc(const T& v) { return trunc(v, policies::policy<>()); } #else // Special handling for nvrtc namespace boost { namespace math { namespace detail { template <typename T> BOOST_MATH_GPU_ENABLED double trunc_impl(T x) { return static_cast<double>(x); } BOOST_MATH_GPU_ENABLED inline float trunc_impl(float x) { return ::truncf(x); } BOOST_MATH_GPU_ENABLED inline double trunc_impl(double x) { return ::trunc(x); } } // Namespace detail template <typename T, typename Policy> BOOST_MATH_GPU_ENABLED auto trunc(T x, const Policy&) { return detail::trunc_impl(x); } template <typename T> BOOST_MATH_GPU_ENABLED auto trunc(T x) { return detail::trunc_impl(x); } #endif #ifndef BOOST_MATH_HAS_NVRTC // // The following functions will not compile unless T has an // implicit conversion to the integer types. For user-defined // number types this will likely not be the case. In that case // these functions should either be specialized for the UDT in // question, or else overloads should be placed in the same // namespace as the UDT: these will then be found via argument // dependent lookup. See our concept archetypes for examples. // // Non-standard numeric limits syntax "(std::numeric_limits<int>::max)()" // is to avoid macro substiution from MSVC // https://stackoverflow.com/questions/27442885/syntax-error-with-stdnumeric-limitsmax // template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline int itrunc(const T& v, const Policy& pol) { BOOST_MATH_STD_USING using result_type = tools::promote_args_t<T>; result_type r = boost::math::trunc(v, pol); #if defined(BOOST_MATH_HAS_CONSTEXPR_LDEXP) && !defined(BOOST_MATH_HAS_GPU_SUPPORT) if constexpr (std::is_arithmetic_v<result_type> #ifdef BOOST_MATH_FLOAT128_TYPE && !std::is_same_v<BOOST_MATH_FLOAT128_TYPE, result_type> #endif ) { constexpr result_type max_val = boost::math::ccmath::ldexp(static_cast<result_type>(1), std::numeric_limits<int>::digits); if (r >= max_val || r < -max_val) { return static_cast<int>(boost::math::policies::raise_rounding_error("boost::math::itrunc<%1%>(%1%)", nullptr, v, static_cast<int>(0), pol)); } } else { static const result_type max_val = ldexp(static_cast<result_type>(1), std::numeric_limits<int>::digits); if (r >= max_val || r < -max_val) { return static_cast<int>(boost::math::policies::raise_rounding_error("boost::math::itrunc<%1%>(%1%)", nullptr, v, static_cast<int>(0), pol)); } } #else BOOST_MATH_STATIC_LOCAL_VARIABLE const result_type max_val = ldexp(static_cast<result_type>(1), std::numeric_limits<int>::digits); if (r >= max_val || r < -max_val) { return static_cast<int>(boost::math::policies::raise_rounding_error("boost::math::itrunc<%1%>(%1%)", nullptr, v, static_cast<int>(0), pol)); } #endif return static_cast<int>(r); } template <class T> BOOST_MATH_GPU_ENABLED inline int itrunc(const T& v) { return itrunc(v, policies::policy<>()); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline long ltrunc(const T& v, const Policy& pol) { BOOST_MATH_STD_USING using result_type = tools::promote_args_t<T>; result_type r = boost::math::trunc(v, pol); #if defined(BOOST_MATH_HAS_CONSTEXPR_LDEXP) && !defined(BOOST_MATH_HAS_GPU_SUPPORT) if constexpr (std::is_arithmetic_v<result_type> #ifdef BOOST_MATH_FLOAT128_TYPE && !std::is_same_v<BOOST_MATH_FLOAT128_TYPE, result_type> #endif ) { constexpr result_type max_val = boost::math::ccmath::ldexp(static_cast<result_type>(1), std::numeric_limits<long>::digits); if (r >= max_val || r < -max_val) { return static_cast<long>(boost::math::policies::raise_rounding_error("boost::math::ltrunc<%1%>(%1%)", nullptr, v, static_cast<long>(0), pol)); } } else { static const result_type max_val = ldexp(static_cast<result_type>(1), std::numeric_limits<long>::digits); if (r >= max_val || r < -max_val) { return static_cast<long>(boost::math::policies::raise_rounding_error("boost::math::ltrunc<%1%>(%1%)", nullptr, v, static_cast<long>(0), pol)); } } #else BOOST_MATH_STATIC_LOCAL_VARIABLE const result_type max_val = ldexp(static_cast<result_type>(1), std::numeric_limits<long>::digits); if (r >= max_val || r < -max_val) { return static_cast<long>(boost::math::policies::raise_rounding_error("boost::math::ltrunc<%1%>(%1%)", nullptr, v, static_cast<long>(0), pol)); } #endif return static_cast<long>(r); } template <class T> BOOST_MATH_GPU_ENABLED inline long ltrunc(const T& v) { return ltrunc(v, policies::policy<>()); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline long long lltrunc(const T& v, const Policy& pol) { BOOST_MATH_STD_USING using result_type = tools::promote_args_t<T>; result_type r = boost::math::trunc(v, pol); #if defined(BOOST_MATH_HAS_CONSTEXPR_LDEXP) && !defined(BOOST_MATH_HAS_GPU_SUPPORT) if constexpr (std::is_arithmetic_v<result_type> #ifdef BOOST_MATH_FLOAT128_TYPE && !std::is_same_v<BOOST_MATH_FLOAT128_TYPE, result_type> #endif ) { constexpr result_type max_val = boost::math::ccmath::ldexp(static_cast<result_type>(1), std::numeric_limits<long long>::digits); if (r >= max_val || r < -max_val) { return static_cast<long long>(boost::math::policies::raise_rounding_error("boost::math::lltrunc<%1%>(%1%)", nullptr, v, static_cast<long long>(0), pol)); } } else { static const result_type max_val = ldexp(static_cast<result_type>(1), std::numeric_limits<long long>::digits); if (r >= max_val || r < -max_val) { return static_cast<long long>(boost::math::policies::raise_rounding_error("boost::math::lltrunc<%1%>(%1%)", nullptr, v, static_cast<long long>(0), pol)); } } #else BOOST_MATH_STATIC_LOCAL_VARIABLE const result_type max_val = ldexp(static_cast<result_type>(1), std::numeric_limits<long long>::digits); if (r >= max_val || r < -max_val) { return static_cast<long long>(boost::math::policies::raise_rounding_error("boost::math::lltrunc<%1%>(%1%)", nullptr, v, static_cast<long long>(0), pol)); } #endif return static_cast<long long>(r); } template <class T> BOOST_MATH_GPU_ENABLED inline long long lltrunc(const T& v) { return lltrunc(v, policies::policy<>()); } #else // Reduced impl specifically for NVRTC platform namespace detail { template <typename TargetType, typename T> BOOST_MATH_GPU_ENABLED TargetType integer_trunc_impl(T v) { double r = boost::math::trunc(v); const double max_val = ldexp(1.0, boost::math::numeric_limits<TargetType>::digits); if (r >= max_val || r < -max_val) { r = 0; } return static_cast<TargetType>(r); } } // Namespace detail template <typename T> BOOST_MATH_GPU_ENABLED int itrunc(T v) { return detail::integer_trunc_impl<int>(v); } template <typename T, typename Policy> BOOST_MATH_GPU_ENABLED int itrunc(T v, const Policy&) { return detail::integer_trunc_impl<int>(v); } template <typename T> BOOST_MATH_GPU_ENABLED long ltrunc(T v) { return detail::integer_trunc_impl<long>(v); } template <typename T, typename Policy> BOOST_MATH_GPU_ENABLED long ltrunc(T v, const Policy&) { return detail::integer_trunc_impl<long>(v); } template <typename T> BOOST_MATH_GPU_ENABLED long long lltrunc(T v) { return detail::integer_trunc_impl<long long>(v); } template <typename T, typename Policy> BOOST_MATH_GPU_ENABLED long long lltrunc(T v, const Policy&) { return detail::integer_trunc_impl<long long>(v); } #endif // BOOST_MATH_HAS_NVRTC template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline boost::math::enable_if_t<boost::math::is_constructible_v<int, T>, int> iconvert(const T& v, const Policy&) { return static_cast<int>(v); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline boost::math::enable_if_t<!boost::math::is_constructible_v<int, T>, int> iconvert(const T& v, const Policy& pol) { using boost::math::itrunc; return itrunc(v, pol); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline boost::math::enable_if_t<boost::math::is_constructible_v<long, T>, long> lconvert(const T& v, const Policy&) { return static_cast<long>(v); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline boost::math::enable_if_t<!boost::math::is_constructible_v<long, T>, long> lconvert(const T& v, const Policy& pol) { using boost::math::ltrunc; return ltrunc(v, pol); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline boost::math::enable_if_t<boost::math::is_constructible_v<long long, T>, long long> llconvert(const T& v, const Policy&) { return static_cast<long long>(v); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED inline typename boost::math::enable_if_t<!boost::math::is_constructible_v<long long, T>, long long> llconvert(const T& v, const Policy& pol) { using boost::math::lltrunc; return lltrunc(v, pol); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED [[deprecated("Use llconvert")]] inline boost::math::enable_if_t<boost::math::is_constructible_v<long long, T>, long long> llconvertert(const T& v, const Policy&) { return static_cast<long long>(v); } template <class T, class Policy> BOOST_MATH_GPU_ENABLED [[deprecated("Use llconvert")]] inline typename boost::math::enable_if_t<!boost::math::is_constructible_v<long long, T>, long long> llconvertert(const T& v, const Policy& pol) { using boost::math::lltrunc; return lltrunc(v, pol); } }} // namespaces #endif // BOOST_MATH_TRUNC_HPP