yuzu/externals/vcpkg/packages/boost-endian_x64-windows/include/boost/endian/conversion.hpp

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2022-11-05 18:35:56 +04:00
// boost/endian/conversion.hpp -------------------------------------------------------//
// Copyright Beman Dawes 2010, 2011, 2014
// Distributed under the Boost Software License, Version 1.0.
// http://www.boost.org/LICENSE_1_0.txt
#ifndef BOOST_ENDIAN_CONVERSION_HPP
#define BOOST_ENDIAN_CONVERSION_HPP
#include <boost/endian/detail/endian_reverse.hpp>
#include <boost/endian/detail/endian_load.hpp>
#include <boost/endian/detail/endian_store.hpp>
#include <boost/endian/detail/order.hpp>
#include <boost/type_traits/is_class.hpp>
#include <boost/type_traits/is_array.hpp>
#include <boost/type_traits/integral_constant.hpp>
#include <boost/static_assert.hpp>
#include <boost/cstdint.hpp>
#include <boost/config.hpp>
//------------------------------------- synopsis ---------------------------------------//
namespace boost
{
namespace endian
{
//--------------------------------------------------------------------------------------//
// //
// return-by-value interfaces //
// suggested by Phil Endecott //
// //
// user-defined types (UDTs) //
// //
// All return-by-value conversion function templates are required to be implemented in //
// terms of an unqualified call to "endian_reverse(x)", a function returning the //
// value of x with endianness reversed. This provides a customization point for any //
// UDT that provides a "endian_reverse" free-function meeting the requirements. //
// It must be defined in the same namespace as the UDT itself so that it will be found //
// by argument dependent lookup (ADL). //
// //
//--------------------------------------------------------------------------------------//
// reverse byte order
// requires T to be a non-bool integral type
// in detail/endian_reverse.hpp
//
// template<class T> inline BOOST_CONSTEXPR T endian_reverse( T x ) BOOST_NOEXCEPT;
// reverse byte order unless native endianness is big
template <class EndianReversible >
inline BOOST_CONSTEXPR EndianReversible big_to_native(EndianReversible x) BOOST_NOEXCEPT;
// Returns: x if native endian order is big, otherwise endian_reverse(x)
template <class EndianReversible >
inline BOOST_CONSTEXPR EndianReversible native_to_big(EndianReversible x) BOOST_NOEXCEPT;
// Returns: x if native endian order is big, otherwise endian_reverse(x)
// reverse byte order unless native endianness is little
template <class EndianReversible >
inline BOOST_CONSTEXPR EndianReversible little_to_native(EndianReversible x) BOOST_NOEXCEPT;
// Returns: x if native endian order is little, otherwise endian_reverse(x)
template <class EndianReversible >
inline BOOST_CONSTEXPR EndianReversible native_to_little(EndianReversible x) BOOST_NOEXCEPT;
// Returns: x if native endian order is little, otherwise endian_reverse(x)
// generic conditional reverse byte order
template <BOOST_SCOPED_ENUM(order) From, BOOST_SCOPED_ENUM(order) To,
class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible conditional_reverse(EndianReversible from) BOOST_NOEXCEPT;
// Returns: If From == To have different values, from.
// Otherwise endian_reverse(from).
// Remarks: The From == To test, and as a consequence which form the return takes, is
// is determined at compile time.
// runtime conditional reverse byte order
template <class EndianReversible >
inline BOOST_CONSTEXPR EndianReversible conditional_reverse(EndianReversible from,
BOOST_SCOPED_ENUM(order) from_order, BOOST_SCOPED_ENUM(order) to_order)
BOOST_NOEXCEPT;
// Returns: from_order == to_order ? from : endian_reverse(from).
//------------------------------------------------------------------------------------//
// Q: What happened to bswap, htobe, and the other synonym functions based on names
// popularized by BSD, OS X, and Linux?
// A: Turned out these may be implemented as macros on some systems. Ditto POSIX names
// for such functionality. Since macros would cause endless problems with functions
// of the same names, and these functions are just synonyms anyhow, they have been
// removed.
//------------------------------------------------------------------------------------//
// //
// reverse in place interfaces //
// //
// user-defined types (UDTs) //
// //
// All reverse in place function templates are required to be implemented in terms //
// of an unqualified call to "endian_reverse_inplace(x)", a function reversing //
// the endianness of x, which is a non-const reference. This provides a //
// customization point for any UDT that provides a "reverse_inplace" free-function //
// meeting the requirements. The free-function must be declared in the same //
// namespace as the UDT itself so that it will be found by argument-dependent //
// lookup (ADL). //
// //
//------------------------------------------------------------------------------------//
// reverse in place
// in detail/endian_reverse.hpp
//
// template <class EndianReversible>
// inline void endian_reverse_inplace(EndianReversible& x) BOOST_NOEXCEPT;
//
// Effects: x = endian_reverse(x)
// reverse in place unless native endianness is big
template <class EndianReversibleInplace>
inline void big_to_native_inplace(EndianReversibleInplace& x) BOOST_NOEXCEPT;
// Effects: none if native byte-order is big, otherwise endian_reverse_inplace(x)
template <class EndianReversibleInplace>
inline void native_to_big_inplace(EndianReversibleInplace& x) BOOST_NOEXCEPT;
// Effects: none if native byte-order is big, otherwise endian_reverse_inplace(x)
// reverse in place unless native endianness is little
template <class EndianReversibleInplace>
inline void little_to_native_inplace(EndianReversibleInplace& x) BOOST_NOEXCEPT;
// Effects: none if native byte-order is little, otherwise endian_reverse_inplace(x);
template <class EndianReversibleInplace>
inline void native_to_little_inplace(EndianReversibleInplace& x) BOOST_NOEXCEPT;
// Effects: none if native byte-order is little, otherwise endian_reverse_inplace(x);
// generic conditional reverse in place
template <BOOST_SCOPED_ENUM(order) From, BOOST_SCOPED_ENUM(order) To,
class EndianReversibleInplace>
inline void conditional_reverse_inplace(EndianReversibleInplace& x) BOOST_NOEXCEPT;
// runtime reverse in place
template <class EndianReversibleInplace>
inline void conditional_reverse_inplace(EndianReversibleInplace& x,
BOOST_SCOPED_ENUM(order) from_order, BOOST_SCOPED_ENUM(order) to_order)
BOOST_NOEXCEPT;
//----------------------------------- end synopsis -------------------------------------//
template <class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible big_to_native( EndianReversible x ) BOOST_NOEXCEPT
{
return boost::endian::conditional_reverse<order::big, order::native>( x );
}
template <class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible native_to_big( EndianReversible x ) BOOST_NOEXCEPT
{
return boost::endian::conditional_reverse<order::native, order::big>( x );
}
template <class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible little_to_native( EndianReversible x ) BOOST_NOEXCEPT
{
return boost::endian::conditional_reverse<order::little, order::native>( x );
}
template <class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible native_to_little( EndianReversible x ) BOOST_NOEXCEPT
{
return boost::endian::conditional_reverse<order::native, order::little>( x );
}
namespace detail
{
template<class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible conditional_reverse_impl( EndianReversible x, boost::true_type ) BOOST_NOEXCEPT
{
return x;
}
template<class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible conditional_reverse_impl( EndianReversible x, boost::false_type ) BOOST_NOEXCEPT
{
return endian_reverse( x );
}
} // namespace detail
// generic conditional reverse
template <BOOST_SCOPED_ENUM(order) From, BOOST_SCOPED_ENUM(order) To, class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible conditional_reverse( EndianReversible x ) BOOST_NOEXCEPT
{
BOOST_STATIC_ASSERT( boost::is_class<EndianReversible>::value || detail::is_endian_reversible<EndianReversible>::value );
return detail::conditional_reverse_impl( x, boost::integral_constant<bool, From == To>() );
}
// runtime conditional reverse
template <class EndianReversible>
inline BOOST_CONSTEXPR EndianReversible conditional_reverse( EndianReversible x,
BOOST_SCOPED_ENUM(order) from_order, BOOST_SCOPED_ENUM(order) to_order ) BOOST_NOEXCEPT
{
BOOST_STATIC_ASSERT( boost::is_class<EndianReversible>::value || detail::is_endian_reversible<EndianReversible>::value );
return from_order == to_order? x: endian_reverse( x );
}
//--------------------------------------------------------------------------------------//
// reverse-in-place implementation //
//--------------------------------------------------------------------------------------//
template <class EndianReversibleInplace>
inline void big_to_native_inplace( EndianReversibleInplace& x ) BOOST_NOEXCEPT
{
boost::endian::conditional_reverse_inplace<order::big, order::native>( x );
}
template <class EndianReversibleInplace>
inline void native_to_big_inplace( EndianReversibleInplace& x ) BOOST_NOEXCEPT
{
boost::endian::conditional_reverse_inplace<order::native, order::big>( x );
}
template <class EndianReversibleInplace>
inline void little_to_native_inplace( EndianReversibleInplace& x ) BOOST_NOEXCEPT
{
boost::endian::conditional_reverse_inplace<order::little, order::native>( x );
}
template <class EndianReversibleInplace>
inline void native_to_little_inplace( EndianReversibleInplace& x ) BOOST_NOEXCEPT
{
boost::endian::conditional_reverse_inplace<order::native, order::little>( x );
}
namespace detail
{
template<class EndianReversibleInplace>
inline void conditional_reverse_inplace_impl( EndianReversibleInplace&, boost::true_type ) BOOST_NOEXCEPT
{
}
template<class EndianReversibleInplace>
inline void conditional_reverse_inplace_impl( EndianReversibleInplace& x, boost::false_type ) BOOST_NOEXCEPT
{
endian_reverse_inplace( x );
}
} // namespace detail
// generic conditional reverse in place
template <BOOST_SCOPED_ENUM(order) From, BOOST_SCOPED_ENUM(order) To, class EndianReversibleInplace>
inline void conditional_reverse_inplace( EndianReversibleInplace& x ) BOOST_NOEXCEPT
{
BOOST_STATIC_ASSERT(
boost::is_class<EndianReversibleInplace>::value ||
boost::is_array<EndianReversibleInplace>::value ||
detail::is_endian_reversible_inplace<EndianReversibleInplace>::value );
detail::conditional_reverse_inplace_impl( x, boost::integral_constant<bool, From == To>() );
}
// runtime reverse in place
template <class EndianReversibleInplace>
inline void conditional_reverse_inplace( EndianReversibleInplace& x,
BOOST_SCOPED_ENUM(order) from_order, BOOST_SCOPED_ENUM(order) to_order ) BOOST_NOEXCEPT
{
BOOST_STATIC_ASSERT(
boost::is_class<EndianReversibleInplace>::value ||
boost::is_array<EndianReversibleInplace>::value ||
detail::is_endian_reversible_inplace<EndianReversibleInplace>::value );
if( from_order != to_order )
{
endian_reverse_inplace( x );
}
}
// load/store convenience functions
// load 16
inline boost::int16_t load_little_s16( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int16_t, 2, order::little>( p );
}
inline boost::uint16_t load_little_u16( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint16_t, 2, order::little>( p );
}
inline boost::int16_t load_big_s16( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int16_t, 2, order::big>( p );
}
inline boost::uint16_t load_big_u16( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint16_t, 2, order::big>( p );
}
// load 24
inline boost::int32_t load_little_s24( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int32_t, 3, order::little>( p );
}
inline boost::uint32_t load_little_u24( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint32_t, 3, order::little>( p );
}
inline boost::int32_t load_big_s24( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int32_t, 3, order::big>( p );
}
inline boost::uint32_t load_big_u24( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint32_t, 3, order::big>( p );
}
// load 32
inline boost::int32_t load_little_s32( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int32_t, 4, order::little>( p );
}
inline boost::uint32_t load_little_u32( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint32_t, 4, order::little>( p );
}
inline boost::int32_t load_big_s32( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int32_t, 4, order::big>( p );
}
inline boost::uint32_t load_big_u32( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint32_t, 4, order::big>( p );
}
// load 40
inline boost::int64_t load_little_s40( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 5, order::little>( p );
}
inline boost::uint64_t load_little_u40( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 5, order::little>( p );
}
inline boost::int64_t load_big_s40( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 5, order::big>( p );
}
inline boost::uint64_t load_big_u40( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 5, order::big>( p );
}
// load 48
inline boost::int64_t load_little_s48( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 6, order::little>( p );
}
inline boost::uint64_t load_little_u48( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 6, order::little>( p );
}
inline boost::int64_t load_big_s48( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 6, order::big>( p );
}
inline boost::uint64_t load_big_u48( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 6, order::big>( p );
}
// load 56
inline boost::int64_t load_little_s56( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 7, order::little>( p );
}
inline boost::uint64_t load_little_u56( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 7, order::little>( p );
}
inline boost::int64_t load_big_s56( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 7, order::big>( p );
}
inline boost::uint64_t load_big_u56( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 7, order::big>( p );
}
// load 64
inline boost::int64_t load_little_s64( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 8, order::little>( p );
}
inline boost::uint64_t load_little_u64( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 8, order::little>( p );
}
inline boost::int64_t load_big_s64( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::int64_t, 8, order::big>( p );
}
inline boost::uint64_t load_big_u64( unsigned char const * p ) BOOST_NOEXCEPT
{
return boost::endian::endian_load<boost::uint64_t, 8, order::big>( p );
}
// store 16
inline void store_little_s16( unsigned char * p, boost::int16_t v )
{
boost::endian::endian_store<boost::int16_t, 2, order::little>( p, v );
}
inline void store_little_u16( unsigned char * p, boost::uint16_t v )
{
boost::endian::endian_store<boost::uint16_t, 2, order::little>( p, v );
}
inline void store_big_s16( unsigned char * p, boost::int16_t v )
{
boost::endian::endian_store<boost::int16_t, 2, order::big>( p, v );
}
inline void store_big_u16( unsigned char * p, boost::uint16_t v )
{
boost::endian::endian_store<boost::uint16_t, 2, order::big>( p, v );
}
// store 24
inline void store_little_s24( unsigned char * p, boost::int32_t v )
{
boost::endian::endian_store<boost::int32_t, 3, order::little>( p, v );
}
inline void store_little_u24( unsigned char * p, boost::uint32_t v )
{
boost::endian::endian_store<boost::uint32_t, 3, order::little>( p, v );
}
inline void store_big_s24( unsigned char * p, boost::int32_t v )
{
boost::endian::endian_store<boost::int32_t, 3, order::big>( p, v );
}
inline void store_big_u24( unsigned char * p, boost::uint32_t v )
{
boost::endian::endian_store<boost::uint32_t, 3, order::big>( p, v );
}
// store 32
inline void store_little_s32( unsigned char * p, boost::int32_t v )
{
boost::endian::endian_store<boost::int32_t, 4, order::little>( p, v );
}
inline void store_little_u32( unsigned char * p, boost::uint32_t v )
{
boost::endian::endian_store<boost::uint32_t, 4, order::little>( p, v );
}
inline void store_big_s32( unsigned char * p, boost::int32_t v )
{
boost::endian::endian_store<boost::int32_t, 4, order::big>( p, v );
}
inline void store_big_u32( unsigned char * p, boost::uint32_t v )
{
boost::endian::endian_store<boost::uint32_t, 4, order::big>( p, v );
}
// store 40
inline void store_little_s40( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 5, order::little>( p, v );
}
inline void store_little_u40( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 5, order::little>( p, v );
}
inline void store_big_s40( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 5, order::big>( p, v );
}
inline void store_big_u40( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 5, order::big>( p, v );
}
// store 48
inline void store_little_s48( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 6, order::little>( p, v );
}
inline void store_little_u48( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 6, order::little>( p, v );
}
inline void store_big_s48( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 6, order::big>( p, v );
}
inline void store_big_u48( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 6, order::big>( p, v );
}
// store 56
inline void store_little_s56( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 7, order::little>( p, v );
}
inline void store_little_u56( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 7, order::little>( p, v );
}
inline void store_big_s56( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 7, order::big>( p, v );
}
inline void store_big_u56( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 7, order::big>( p, v );
}
// store 64
inline void store_little_s64( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 8, order::little>( p, v );
}
inline void store_little_u64( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 8, order::little>( p, v );
}
inline void store_big_s64( unsigned char * p, boost::int64_t v )
{
boost::endian::endian_store<boost::int64_t, 8, order::big>( p, v );
}
inline void store_big_u64( unsigned char * p, boost::uint64_t v )
{
boost::endian::endian_store<boost::uint64_t, 8, order::big>( p, v );
}
} // namespace endian
} // namespace boost
#endif // BOOST_ENDIAN_CONVERSION_HPP