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// 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 <iostream>
#endif
#if defined(__BORLANDC__) || defined( __CODEGEARC__)
# pragma pack(push, 1)
#endif
#include <boost/config.hpp>
#include <boost/predef/detail/endian_compat.h>
#include <boost/endian/conversion.hpp>
#include <boost/endian/buffers.hpp>
#define BOOST_ENDIAN_MINIMAL_COVER_OPERATORS
#include <boost/endian/detail/cover_operators.hpp>
#undef BOOST_ENDIAN_MINIMAL_COVER_OPERATORS
#include <boost/type_traits/is_signed.hpp>
#include <boost/cstdint.hpp>
#include <boost/static_assert.hpp>
#include <boost/core/scoped_enum.hpp>
#include <iosfwd>
#include <climits>
# 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 <BOOST_SCOPED_ENUM(order) Order, class T, std::size_t n_bits,
BOOST_SCOPED_ENUM(align) A = align::no>
class endian_arithmetic;
// big endian signed integer aligned types
typedef endian_arithmetic<order::big, int8_t, 8, align::yes> big_int8_at;
typedef endian_arithmetic<order::big, int16_t, 16, align::yes> big_int16_at;
typedef endian_arithmetic<order::big, int32_t, 32, align::yes> big_int32_at;
typedef endian_arithmetic<order::big, int64_t, 64, align::yes> big_int64_at;
// big endian unsigned integer aligned types
typedef endian_arithmetic<order::big, uint8_t, 8, align::yes> big_uint8_at;
typedef endian_arithmetic<order::big, uint16_t, 16, align::yes> big_uint16_at;
typedef endian_arithmetic<order::big, uint32_t, 32, align::yes> big_uint32_at;
typedef endian_arithmetic<order::big, uint64_t, 64, align::yes> big_uint64_at;
// little endian signed integer aligned types
typedef endian_arithmetic<order::little, int8_t, 8, align::yes> little_int8_at;
typedef endian_arithmetic<order::little, int16_t, 16, align::yes> little_int16_at;
typedef endian_arithmetic<order::little, int32_t, 32, align::yes> little_int32_at;
typedef endian_arithmetic<order::little, int64_t, 64, align::yes> little_int64_at;
// little endian unsigned integer aligned types
typedef endian_arithmetic<order::little, uint8_t, 8, align::yes> little_uint8_at;
typedef endian_arithmetic<order::little, uint16_t, 16, align::yes> little_uint16_at;
typedef endian_arithmetic<order::little, uint32_t, 32, align::yes> little_uint32_at;
typedef endian_arithmetic<order::little, uint64_t, 64, align::yes> little_uint64_at;
// aligned native endian typedefs are not provided because
// <cstdint> types are superior for this use case
// big endian signed integer unaligned types
typedef endian_arithmetic<order::big, int_least8_t, 8> big_int8_t;
typedef endian_arithmetic<order::big, int_least16_t, 16> big_int16_t;
typedef endian_arithmetic<order::big, int_least32_t, 24> big_int24_t;
typedef endian_arithmetic<order::big, int_least32_t, 32> big_int32_t;
typedef endian_arithmetic<order::big, int_least64_t, 40> big_int40_t;
typedef endian_arithmetic<order::big, int_least64_t, 48> big_int48_t;
typedef endian_arithmetic<order::big, int_least64_t, 56> big_int56_t;
typedef endian_arithmetic<order::big, int_least64_t, 64> big_int64_t;
// big endian unsigned integer unaligned types
typedef endian_arithmetic<order::big, uint_least8_t, 8> big_uint8_t;
typedef endian_arithmetic<order::big, uint_least16_t, 16> big_uint16_t;
typedef endian_arithmetic<order::big, uint_least32_t, 24> big_uint24_t;
typedef endian_arithmetic<order::big, uint_least32_t, 32> big_uint32_t;
typedef endian_arithmetic<order::big, uint_least64_t, 40> big_uint40_t;
typedef endian_arithmetic<order::big, uint_least64_t, 48> big_uint48_t;
typedef endian_arithmetic<order::big, uint_least64_t, 56> big_uint56_t;
typedef endian_arithmetic<order::big, uint_least64_t, 64> big_uint64_t;
// little endian signed integer unaligned types
typedef endian_arithmetic<order::little, int_least8_t, 8> little_int8_t;
typedef endian_arithmetic<order::little, int_least16_t, 16> little_int16_t;
typedef endian_arithmetic<order::little, int_least32_t, 24> little_int24_t;
typedef endian_arithmetic<order::little, int_least32_t, 32> little_int32_t;
typedef endian_arithmetic<order::little, int_least64_t, 40> little_int40_t;
typedef endian_arithmetic<order::little, int_least64_t, 48> little_int48_t;
typedef endian_arithmetic<order::little, int_least64_t, 56> little_int56_t;
typedef endian_arithmetic<order::little, int_least64_t, 64> little_int64_t;
// little endian unsigned integer unaligned types
typedef endian_arithmetic<order::little, uint_least8_t, 8> little_uint8_t;
typedef endian_arithmetic<order::little, uint_least16_t, 16> little_uint16_t;
typedef endian_arithmetic<order::little, uint_least32_t, 24> little_uint24_t;
typedef endian_arithmetic<order::little, uint_least32_t, 32> little_uint32_t;
typedef endian_arithmetic<order::little, uint_least64_t, 40> little_uint40_t;
typedef endian_arithmetic<order::little, uint_least64_t, 48> little_uint48_t;
typedef endian_arithmetic<order::little, uint_least64_t, 56> little_uint56_t;
typedef endian_arithmetic<order::little, uint_least64_t, 64> 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 <BOOST_SCOPED_ENUM(order) Order, class T, std::size_t n_bits,
BOOST_SCOPED_ENUM(align) Align = align::no>
using endian = endian_arithmetic<Order, T, n_bits, Align>;
# 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
// <cstdint> 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 <typename T, std::size_t n_bits>
class endian_arithmetic< order::big, T, n_bits, align::no >
: public endian_buffer< order::big, T, n_bits, align::no >,
cover_operators<endian_arithmetic<order::big, 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 << "big, unaligned, " << n_bits << "-bits, construct(" << val << ")\n";
# endif
detail::store_big_endian<T, n_bits/8>(this->m_value, val);
}
# endif
endian_arithmetic& operator=(T val) BOOST_NOEXCEPT
{ detail::store_big_endian<T, n_bits/8>(this->m_value, val); return *this; }
operator value_type() const BOOST_NOEXCEPT { return this->value(); }
};
// unaligned little endian specialization
template <typename T, std::size_t n_bits>
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<T, n_bits/8>(this->m_value, val);
}
# endif
endian_arithmetic& operator=(T val) BOOST_NOEXCEPT
{ detail::store_little_endian<T, n_bits/8>(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 <typename T, std::size_t n_bits>
class endian_arithmetic<order::big, T, n_bits, align::yes>
: public endian_buffer< order::big, T, n_bits, align::yes >,
cover_operators<endian_arithmetic<order::big, T, n_bits, align::yes>, 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 <typename T, std::size_t n_bits>
class endian_arithmetic<order::little, T, n_bits, align::yes>
: public endian_buffer< order::little, T, n_bits, align::yes >,
cover_operators<endian_arithmetic<order::little, T, n_bits, align::yes>, 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