boost/multiprecision/cpp_int/literals.hpp
/////////////////////////////////////////////////////////////// // Copyright 2013 John Maddock. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at https://www.boost.org/LICENSE_1_0.txt #ifndef BOOST_MP_CPP_INT_LITERALS_HPP #define BOOST_MP_CPP_INT_LITERALS_HPP #include <boost/multiprecision/cpp_int/cpp_int_config.hpp> namespace boost { namespace multiprecision { namespace literals { namespace detail { template <char> struct hex_value; template <> struct hex_value<'0'> { static constexpr limb_type value = 0; }; template <> struct hex_value<'1'> { static constexpr limb_type value = 1; }; template <> struct hex_value<'2'> { static constexpr limb_type value = 2; }; template <> struct hex_value<'3'> { static constexpr limb_type value = 3; }; template <> struct hex_value<'4'> { static constexpr limb_type value = 4; }; template <> struct hex_value<'5'> { static constexpr limb_type value = 5; }; template <> struct hex_value<'6'> { static constexpr limb_type value = 6; }; template <> struct hex_value<'7'> { static constexpr limb_type value = 7; }; template <> struct hex_value<'8'> { static constexpr limb_type value = 8; }; template <> struct hex_value<'9'> { static constexpr limb_type value = 9; }; template <> struct hex_value<'a'> { static constexpr limb_type value = 10; }; template <> struct hex_value<'b'> { static constexpr limb_type value = 11; }; template <> struct hex_value<'c'> { static constexpr limb_type value = 12; }; template <> struct hex_value<'d'> { static constexpr limb_type value = 13; }; template <> struct hex_value<'e'> { static constexpr limb_type value = 14; }; template <> struct hex_value<'f'> { static constexpr limb_type value = 15; }; template <> struct hex_value<'A'> { static constexpr limb_type value = 10; }; template <> struct hex_value<'B'> { static constexpr limb_type value = 11; }; template <> struct hex_value<'C'> { static constexpr limb_type value = 12; }; template <> struct hex_value<'D'> { static constexpr limb_type value = 13; }; template <> struct hex_value<'E'> { static constexpr limb_type value = 14; }; template <> struct hex_value<'F'> { static constexpr limb_type value = 15; }; template <class Pack, limb_type value> struct combine_value_to_pack; template <limb_type first, limb_type... ARGS, limb_type value> struct combine_value_to_pack<value_pack<first, ARGS...>, value> { using type = value_pack<first | value, ARGS...>; }; template <char NextChar, char... CHARS> struct pack_values { static constexpr std::size_t chars_per_limb = sizeof(limb_type) * CHAR_BIT / 4; static constexpr std::size_t shift = ((sizeof...(CHARS)) % chars_per_limb) * 4; static constexpr limb_type value_to_add = shift ? hex_value<NextChar>::value << shift : hex_value<NextChar>::value; using recursive_packed_type = typename pack_values<CHARS...>::type ; using pack_type = typename std::conditional<shift == 0, typename recursive_packed_type::next_type, recursive_packed_type>::type; using type = typename combine_value_to_pack<pack_type, value_to_add>::type; }; template <char NextChar> struct pack_values<NextChar> { static constexpr limb_type value_to_add = hex_value<NextChar>::value; using type = value_pack<value_to_add>; }; template <class T> struct strip_leading_zeros_from_pack; template <limb_type... PACK> struct strip_leading_zeros_from_pack<value_pack<PACK...> > { using type = value_pack<PACK...>; }; template <limb_type... PACK> struct strip_leading_zeros_from_pack<value_pack<0u, PACK...> > { using type = typename strip_leading_zeros_from_pack<value_pack<PACK...> >::type; }; template <limb_type v, class PACK> struct append_value_to_pack; template <limb_type v, limb_type... PACK> struct append_value_to_pack<v, value_pack<PACK...> > { using type = value_pack<PACK..., v>; }; template <class T> struct reverse_value_pack; template <limb_type v, limb_type... VALUES> struct reverse_value_pack<value_pack<v, VALUES...> > { using lead_values = typename reverse_value_pack<value_pack<VALUES...> >::type; using type = typename append_value_to_pack<v, lead_values>::type ; }; template <limb_type v> struct reverse_value_pack<value_pack<v> > { using type = value_pack<v>; }; template <> struct reverse_value_pack<value_pack<> > { using type = value_pack<>; }; template <char l1, char l2, char... STR> struct make_packed_value_from_str { static_assert(l1 == '0', "Multi-precision integer literals must be in hexadecimal notation."); static_assert((l2 == 'X') || (l2 == 'x'), "Multi-precision integer literals must be in hexadecimal notation."); using packed_type = typename pack_values<STR...>::type ; using stripped_type = typename strip_leading_zeros_from_pack<packed_type>::type; using type = typename reverse_value_pack<stripped_type>::type ; }; template <class Pack, class B> struct make_backend_from_pack { static constexpr Pack p = {}; static constexpr B value = p; }; #if !defined(__cpp_inline_variables) template <class Pack, class B> constexpr B make_backend_from_pack<Pack, B>::value; #endif template <unsigned Digits> struct signed_cpp_int_literal_result_type { static constexpr unsigned bits = Digits * 4; using backend_type = boost::multiprecision::backends::cpp_int_backend<bits, bits, signed_magnitude, unchecked, void>; using number_type = number<backend_type, et_off> ; }; template <unsigned Digits> struct unsigned_cpp_int_literal_result_type { static constexpr unsigned bits = Digits * 4; using backend_type = boost::multiprecision::backends::cpp_int_backend<bits, bits, unsigned_magnitude, unchecked, void>; using number_type = number<backend_type, et_off> ; }; } // namespace detail template <char... STR> constexpr typename boost::multiprecision::literals::detail::signed_cpp_int_literal_result_type<static_cast<unsigned>((sizeof...(STR)) - 2u)>::number_type operator"" _cppi() { using pt = typename boost::multiprecision::literals::detail::make_packed_value_from_str<STR...>::type; return boost::multiprecision::literals::detail::make_backend_from_pack<pt, typename boost::multiprecision::literals::detail::signed_cpp_int_literal_result_type<static_cast<unsigned>((sizeof...(STR)) - 2u)>::backend_type>::value; } template <char... STR> constexpr typename boost::multiprecision::literals::detail::unsigned_cpp_int_literal_result_type<static_cast<unsigned>((sizeof...(STR)) - 2u)>::number_type operator"" _cppui() { using pt = typename boost::multiprecision::literals::detail::make_packed_value_from_str<STR...>::type; return boost::multiprecision::literals::detail::make_backend_from_pack<pt, typename boost::multiprecision::literals::detail::unsigned_cpp_int_literal_result_type<static_cast<unsigned>((sizeof...(STR)) - 2u)>::backend_type>::value; } #define BOOST_MP_DEFINE_SIZED_CPP_INT_LITERAL(Bits) \ template <char... STR> \ constexpr boost::multiprecision::number<boost::multiprecision::backends::cpp_int_backend<Bits, Bits, boost::multiprecision::signed_magnitude, boost::multiprecision::unchecked, void> > operator"" BOOST_JOIN(_cppi, Bits)() \ { \ using pt = typename boost::multiprecision::literals::detail::make_packed_value_from_str<STR...>::type; \ return boost::multiprecision::literals::detail::make_backend_from_pack< \ pt, \ boost::multiprecision::backends::cpp_int_backend<Bits, Bits, boost::multiprecision::signed_magnitude, boost::multiprecision::unchecked, void> >::value; \ } \ template <char... STR> \ constexpr boost::multiprecision::number<boost::multiprecision::backends::cpp_int_backend<Bits, Bits, boost::multiprecision::unsigned_magnitude, boost::multiprecision::unchecked, void> > operator"" BOOST_JOIN(_cppui, Bits)() \ { \ using pt = typename boost::multiprecision::literals::detail::make_packed_value_from_str<STR...>::type; \ return boost::multiprecision::literals::detail::make_backend_from_pack< \ pt, \ boost::multiprecision::backends::cpp_int_backend<Bits, Bits, boost::multiprecision::unsigned_magnitude, boost::multiprecision::unchecked, void> >::value; \ } BOOST_MP_DEFINE_SIZED_CPP_INT_LITERAL(128) BOOST_MP_DEFINE_SIZED_CPP_INT_LITERAL(256) BOOST_MP_DEFINE_SIZED_CPP_INT_LITERAL(512) BOOST_MP_DEFINE_SIZED_CPP_INT_LITERAL(1024) } // namespace literals // // Overload unary minus operator for constexpr use: // template <std::size_t MinBits, cpp_int_check_type Checked> constexpr number<cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>, et_off> operator-(const number<cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>, et_off>& a) { return cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>(a.backend(), boost::multiprecision::literals::detail::make_negate_tag()); } template <std::size_t MinBits, cpp_int_check_type Checked> constexpr number<cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>, et_off> operator-(number<cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>, et_off>&& a) { return cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>(static_cast<const number<cpp_int_backend<MinBits, MinBits, signed_magnitude, Checked, void>, et_off>&>(a).backend(), boost::multiprecision::literals::detail::make_negate_tag()); } }} // namespace boost::multiprecision #endif // BOOST_MP_CPP_INT_CORE_HPP