// boost/endian/arithmetic.hpp -------------------------------------------------------// // (C) Copyright Darin Adler 2000 // (C) Copyright Beman Dawes 2006, 2009, 2014 // Distributed under the Boost Software License, Version 1.0. // See http://www.boost.org/LICENSE_1_0.txt // See library home page at http://www.boost.org/libs/endian //--------------------------------------------------------------------------------------// // Original design developed by Darin Adler based on classes developed by Mark // Borgerding. Four original class templates were combined into a single endian // class template by Beman Dawes, who also added the unrolled_byte_loops sign // partial specialization to correctly extend the sign when cover integer size // differs from endian representation size. // TODO: When a compiler supporting constexpr becomes available, try possible uses. #ifndef BOOST_ENDIAN_ARITHMETIC_HPP #define BOOST_ENDIAN_ARITHMETIC_HPP #if defined(_MSC_VER) # pragma warning(push) # pragma warning(disable:4365) // conversion ... signed/unsigned mismatch #endif #ifdef BOOST_ENDIAN_LOG # include #endif #if defined(__BORLANDC__) || defined( __CODEGEARC__) # pragma pack(push, 1) #endif #include #include #include #include #define BOOST_ENDIAN_MINIMAL_COVER_OPERATORS #include #undef BOOST_ENDIAN_MINIMAL_COVER_OPERATORS #include #include #include #include #include #include # if CHAR_BIT != 8 # error Platforms with CHAR_BIT != 8 are not supported # endif # ifdef BOOST_NO_CXX11_DEFAULTED_FUNCTIONS # define BOOST_ENDIAN_DEFAULT_CONSTRUCT {} // C++03 # else # define BOOST_ENDIAN_DEFAULT_CONSTRUCT = default; // C++0x # endif # if defined(BOOST_NO_CXX11_DEFAULTED_FUNCTIONS) && defined(BOOST_ENDIAN_FORCE_PODNESS) # define BOOST_ENDIAN_NO_CTORS # endif # ifndef BOOST_ENDIAN_EXPLICIT_CTORS # define BOOST_ENDIAN_EXPLICIT_OPT # else # define BOOST_ENDIAN_EXPLICIT_OPT explicit # endif //---------------------------------- synopsis ----------------------------------------// namespace boost { namespace endian { template class endian_arithmetic; // big endian signed integer aligned types typedef endian_arithmetic big_int8_at; typedef endian_arithmetic big_int16_at; typedef endian_arithmetic big_int32_at; typedef endian_arithmetic big_int64_at; // big endian unsigned integer aligned types typedef endian_arithmetic big_uint8_at; typedef endian_arithmetic big_uint16_at; typedef endian_arithmetic big_uint32_at; typedef endian_arithmetic big_uint64_at; // little endian signed integer aligned types typedef endian_arithmetic little_int8_at; typedef endian_arithmetic little_int16_at; typedef endian_arithmetic little_int32_at; typedef endian_arithmetic little_int64_at; // little endian unsigned integer aligned types typedef endian_arithmetic little_uint8_at; typedef endian_arithmetic little_uint16_at; typedef endian_arithmetic little_uint32_at; typedef endian_arithmetic little_uint64_at; // aligned native endian typedefs are not provided because // types are superior for this use case // big endian signed integer unaligned types typedef endian_arithmetic big_int8_t; typedef endian_arithmetic big_int16_t; typedef endian_arithmetic big_int24_t; typedef endian_arithmetic big_int32_t; typedef endian_arithmetic big_int40_t; typedef endian_arithmetic big_int48_t; typedef endian_arithmetic big_int56_t; typedef endian_arithmetic big_int64_t; // big endian unsigned integer unaligned types typedef endian_arithmetic big_uint8_t; typedef endian_arithmetic big_uint16_t; typedef endian_arithmetic big_uint24_t; typedef endian_arithmetic big_uint32_t; typedef endian_arithmetic big_uint40_t; typedef endian_arithmetic big_uint48_t; typedef endian_arithmetic big_uint56_t; typedef endian_arithmetic big_uint64_t; // little endian signed integer unaligned types typedef endian_arithmetic little_int8_t; typedef endian_arithmetic little_int16_t; typedef endian_arithmetic little_int24_t; typedef endian_arithmetic little_int32_t; typedef endian_arithmetic little_int40_t; typedef endian_arithmetic little_int48_t; typedef endian_arithmetic little_int56_t; typedef endian_arithmetic little_int64_t; // little endian unsigned integer unaligned types typedef endian_arithmetic little_uint8_t; typedef endian_arithmetic little_uint16_t; typedef endian_arithmetic little_uint24_t; typedef endian_arithmetic little_uint32_t; typedef endian_arithmetic little_uint40_t; typedef endian_arithmetic little_uint48_t; typedef endian_arithmetic little_uint56_t; typedef endian_arithmetic little_uint64_t; # ifdef BOOST_BIG_ENDIAN // native endian signed integer unaligned types typedef big_int8_t native_int8_t; typedef big_int16_t native_int16_t; typedef big_int24_t native_int24_t; typedef big_int32_t native_int32_t; typedef big_int40_t native_int40_t; typedef big_int48_t native_int48_t; typedef big_int56_t native_int56_t; typedef big_int64_t native_int64_t; // native endian unsigned integer unaligned types typedef big_uint8_t native_uint8_t; typedef big_uint16_t native_uint16_t; typedef big_uint24_t native_uint24_t; typedef big_uint32_t native_uint32_t; typedef big_uint40_t native_uint40_t; typedef big_uint48_t native_uint48_t; typedef big_uint56_t native_uint56_t; typedef big_uint64_t native_uint64_t; # else // native endian signed integer unaligned types typedef little_int8_t native_int8_t; typedef little_int16_t native_int16_t; typedef little_int24_t native_int24_t; typedef little_int32_t native_int32_t; typedef little_int40_t native_int40_t; typedef little_int48_t native_int48_t; typedef little_int56_t native_int56_t; typedef little_int64_t native_int64_t; // native endian unsigned integer unaligned types typedef little_uint8_t native_uint8_t; typedef little_uint16_t native_uint16_t; typedef little_uint24_t native_uint24_t; typedef little_uint32_t native_uint32_t; typedef little_uint40_t native_uint40_t; typedef little_uint48_t native_uint48_t; typedef little_uint56_t native_uint56_t; typedef little_uint64_t native_uint64_t; # endif # ifdef BOOST_ENDIAN_DEPRECATED_NAMES typedef order endianness; typedef align alignment; # ifndef BOOST_NO_CXX11_TEMPLATE_ALIASES template using endian = endian_arithmetic; # endif // unaligned big endian signed integer types typedef endian_arithmetic< order::big, int_least8_t, 8 > big8_t; typedef endian_arithmetic< order::big, int_least16_t, 16 > big16_t; typedef endian_arithmetic< order::big, int_least32_t, 24 > big24_t; typedef endian_arithmetic< order::big, int_least32_t, 32 > big32_t; typedef endian_arithmetic< order::big, int_least64_t, 40 > big40_t; typedef endian_arithmetic< order::big, int_least64_t, 48 > big48_t; typedef endian_arithmetic< order::big, int_least64_t, 56 > big56_t; typedef endian_arithmetic< order::big, int_least64_t, 64 > big64_t; // unaligned big endian_arithmetic unsigned integer types typedef endian_arithmetic< order::big, uint_least8_t, 8 > ubig8_t; typedef endian_arithmetic< order::big, uint_least16_t, 16 > ubig16_t; typedef endian_arithmetic< order::big, uint_least32_t, 24 > ubig24_t; typedef endian_arithmetic< order::big, uint_least32_t, 32 > ubig32_t; typedef endian_arithmetic< order::big, uint_least64_t, 40 > ubig40_t; typedef endian_arithmetic< order::big, uint_least64_t, 48 > ubig48_t; typedef endian_arithmetic< order::big, uint_least64_t, 56 > ubig56_t; typedef endian_arithmetic< order::big, uint_least64_t, 64 > ubig64_t; // unaligned little endian_arithmetic signed integer types typedef endian_arithmetic< order::little, int_least8_t, 8 > little8_t; typedef endian_arithmetic< order::little, int_least16_t, 16 > little16_t; typedef endian_arithmetic< order::little, int_least32_t, 24 > little24_t; typedef endian_arithmetic< order::little, int_least32_t, 32 > little32_t; typedef endian_arithmetic< order::little, int_least64_t, 40 > little40_t; typedef endian_arithmetic< order::little, int_least64_t, 48 > little48_t; typedef endian_arithmetic< order::little, int_least64_t, 56 > little56_t; typedef endian_arithmetic< order::little, int_least64_t, 64 > little64_t; // unaligned little endian_arithmetic unsigned integer types typedef endian_arithmetic< order::little, uint_least8_t, 8 > ulittle8_t; typedef endian_arithmetic< order::little, uint_least16_t, 16 > ulittle16_t; typedef endian_arithmetic< order::little, uint_least32_t, 24 > ulittle24_t; typedef endian_arithmetic< order::little, uint_least32_t, 32 > ulittle32_t; typedef endian_arithmetic< order::little, uint_least64_t, 40 > ulittle40_t; typedef endian_arithmetic< order::little, uint_least64_t, 48 > ulittle48_t; typedef endian_arithmetic< order::little, uint_least64_t, 56 > ulittle56_t; typedef endian_arithmetic< order::little, uint_least64_t, 64 > ulittle64_t; // unaligned native endian_arithmetic signed integer types typedef endian_arithmetic< order::native, int_least8_t, 8 > native8_t; typedef endian_arithmetic< order::native, int_least16_t, 16 > native16_t; typedef endian_arithmetic< order::native, int_least32_t, 24 > native24_t; typedef endian_arithmetic< order::native, int_least32_t, 32 > native32_t; typedef endian_arithmetic< order::native, int_least64_t, 40 > native40_t; typedef endian_arithmetic< order::native, int_least64_t, 48 > native48_t; typedef endian_arithmetic< order::native, int_least64_t, 56 > native56_t; typedef endian_arithmetic< order::native, int_least64_t, 64 > native64_t; // unaligned native endian_arithmetic unsigned integer types typedef endian_arithmetic< order::native, uint_least8_t, 8 > unative8_t; typedef endian_arithmetic< order::native, uint_least16_t, 16 > unative16_t; typedef endian_arithmetic< order::native, uint_least32_t, 24 > unative24_t; typedef endian_arithmetic< order::native, uint_least32_t, 32 > unative32_t; typedef endian_arithmetic< order::native, uint_least64_t, 40 > unative40_t; typedef endian_arithmetic< order::native, uint_least64_t, 48 > unative48_t; typedef endian_arithmetic< order::native, uint_least64_t, 56 > unative56_t; typedef endian_arithmetic< order::native, uint_least64_t, 64 > unative64_t; // aligned native endian_arithmetic typedefs are not provided because // types are superior for this use case typedef endian_arithmetic< order::big, int16_t, 16, align::yes > aligned_big16_t; typedef endian_arithmetic< order::big, uint16_t, 16, align::yes > aligned_ubig16_t; typedef endian_arithmetic< order::little, int16_t, 16, align::yes > aligned_little16_t; typedef endian_arithmetic< order::little, uint16_t, 16, align::yes > aligned_ulittle16_t; typedef endian_arithmetic< order::big, int32_t, 32, align::yes > aligned_big32_t; typedef endian_arithmetic< order::big, uint32_t, 32, align::yes > aligned_ubig32_t; typedef endian_arithmetic< order::little, int32_t, 32, align::yes > aligned_little32_t; typedef endian_arithmetic< order::little, uint32_t, 32, align::yes > aligned_ulittle32_t; typedef endian_arithmetic< order::big, int64_t, 64, align::yes > aligned_big64_t; typedef endian_arithmetic< order::big, uint64_t, 64, align::yes > aligned_ubig64_t; typedef endian_arithmetic< order::little, int64_t, 64, align::yes > aligned_little64_t; typedef endian_arithmetic< order::little, uint64_t, 64, align::yes > aligned_ulittle64_t; # endif //---------------------------------- end synopsis ------------------------------------// // endian class template specializations ---------------------------------------------// // Specializations that represent unaligned bytes. // Taking an integer type as a parameter provides a nice way to pass both // the size and signness of the desired integer and get the appropriate // corresponding integer type for the interface. // unaligned integer big endian specialization template class endian_arithmetic< order::big, T, n_bits, align::no > : public endian_buffer< order::big, T, n_bits, align::no >, cover_operators, T> { BOOST_STATIC_ASSERT( (n_bits/8)*8 == n_bits ); public: typedef T value_type; # ifndef BOOST_ENDIAN_NO_CTORS endian_arithmetic() BOOST_ENDIAN_DEFAULT_CONSTRUCT BOOST_ENDIAN_EXPLICIT_OPT endian_arithmetic(T val) BOOST_NOEXCEPT { # ifdef BOOST_ENDIAN_LOG if ( endian_log ) std::cout << "big, unaligned, " << n_bits << "-bits, construct(" << val << ")\n"; # endif detail::store_big_endian(this->m_value, val); } # endif endian_arithmetic& operator=(T val) BOOST_NOEXCEPT { detail::store_big_endian(this->m_value, val); return *this; } operator value_type() const BOOST_NOEXCEPT { return this->value(); } }; // unaligned little endian specialization template class endian_arithmetic< order::little, T, n_bits, align::no > : public endian_buffer< order::little, T, n_bits, align::no >, cover_operators< endian_arithmetic< order::little, T, n_bits >, T > { BOOST_STATIC_ASSERT( (n_bits/8)*8 == n_bits ); public: typedef T value_type; # ifndef BOOST_ENDIAN_NO_CTORS endian_arithmetic() BOOST_ENDIAN_DEFAULT_CONSTRUCT BOOST_ENDIAN_EXPLICIT_OPT endian_arithmetic(T val) BOOST_NOEXCEPT { # ifdef BOOST_ENDIAN_LOG if ( endian_log ) std::cout << "little, unaligned, " << n_bits << "-bits, construct(" << val << ")\n"; # endif detail::store_little_endian(this->m_value, val); } # endif endian_arithmetic& operator=(T val) BOOST_NOEXCEPT { detail::store_little_endian(this->m_value, val); return *this; } operator value_type() const BOOST_NOEXCEPT { return this->value(); } }; // align::yes specializations; only n_bits == 16/32/64 supported // aligned big endian specialization template class endian_arithmetic : public endian_buffer< order::big, T, n_bits, align::yes >, cover_operators, T> { BOOST_STATIC_ASSERT( (n_bits/8)*8 == n_bits ); BOOST_STATIC_ASSERT( sizeof(T) == n_bits/8 ); public: typedef T value_type; # ifndef BOOST_ENDIAN_NO_CTORS endian_arithmetic() BOOST_ENDIAN_DEFAULT_CONSTRUCT BOOST_ENDIAN_EXPLICIT_OPT endian_arithmetic(T val) BOOST_NOEXCEPT { # ifdef BOOST_ENDIAN_LOG if ( endian_log ) std::cout << "big, aligned, " << n_bits << "-bits, construct(" << val << ")\n"; # endif this->m_value = ::boost::endian::native_to_big(val); } # endif endian_arithmetic& operator=(T val) BOOST_NOEXCEPT { this->m_value = ::boost::endian::native_to_big(val); return *this; } operator value_type() const BOOST_NOEXCEPT { return this->value(); } }; // aligned little endian specialization template class endian_arithmetic : public endian_buffer< order::little, T, n_bits, align::yes >, cover_operators, T> { BOOST_STATIC_ASSERT( (n_bits/8)*8 == n_bits ); BOOST_STATIC_ASSERT( sizeof(T) == n_bits/8 ); public: typedef T value_type; # ifndef BOOST_ENDIAN_NO_CTORS endian_arithmetic() BOOST_ENDIAN_DEFAULT_CONSTRUCT BOOST_ENDIAN_EXPLICIT_OPT endian_arithmetic(T val) BOOST_NOEXCEPT { # ifdef BOOST_ENDIAN_LOG if ( endian_log ) std::cout << "little, aligned, " << n_bits << "-bits, construct(" << val << ")\n"; # endif this->m_value = ::boost::endian::native_to_little(val); } # endif endian_arithmetic& operator=(T val) BOOST_NOEXCEPT { this->m_value = ::boost::endian::native_to_little(val); return *this; } operator value_type() const BOOST_NOEXCEPT { return this->value(); } }; } // namespace endian } // namespace boost #if defined(__BORLANDC__) || defined( __CODEGEARC__) # pragma pack(pop) #endif #if defined(_MSC_VER) # pragma warning(pop) #endif #endif // BOOST_ENDIAN_ARITHMETIC_HPP