third_party/boost/type_traits/include/boost/type_traits/type_with_alignment.hpp - platform/external/sdv/vsomeip - Git at Google

 //  (C) Copyright John Maddock 2000.
 //  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).
 //
 //  See http://www.boost.org/libs/type_traits for most recent version including documentation.

 #ifndef BOOST_TT_TYPE_WITH_ALIGNMENT_INCLUDED
 #define BOOST_TT_TYPE_WITH_ALIGNMENT_INCLUDED

 #include <boost/type_traits/alignment_of.hpp>
 #include <boost/type_traits/is_pod.hpp>
 #include <boost/static_assert.hpp>
 #include <boost/config.hpp>
 #include <cstddef> // size_t
 #include <boost/detail/workaround.hpp>

 #ifdef BOOST_MSVC
 #   pragma warning(push)
 #   pragma warning(disable: 4121) // alignment is sensitive to packing
 #endif

 #ifdef _MSC_VER
 #include <boost/type_traits/conditional.hpp>
 #endif

 namespace boost {
 #ifndef BOOST_BORLANDC
    namespace detail{

       union max_align
       {
          char c;
          short s;
          int i;
          long l;
 #ifndef BOOST_NO_LONG_LONG
          boost::long_long_type ll;
 #endif
 #ifdef BOOST_HAS_INT128
          boost::int128_type i128;
 #endif
          float f;
          double d;
          long double ld;
 #ifdef BOOST_HAS_FLOAT128
          __float128 f128;
 #endif
       };

 template <std::size_t Target, bool check> struct long_double_alignment{ typedef long double type; };
 template <std::size_t Target> struct long_double_alignment<Target, false>{ typedef boost::detail::max_align type; };

 template <std::size_t Target, bool check> struct double_alignment{ typedef double type; };
 template <std::size_t Target> struct double_alignment<Target, false>{ typedef typename long_double_alignment<Target, boost::alignment_of<long double>::value >= Target>::type type; };

 #ifndef BOOST_NO_LONG_LONG
 template <std::size_t Target, bool check> struct long_long_alignment{ typedef boost::long_long_type type; };
 template <std::size_t Target> struct long_long_alignment<Target, false>{ typedef typename double_alignment<Target, boost::alignment_of<double>::value >= Target>::type type; };
 #endif

 template <std::size_t Target, bool check> struct long_alignment{ typedef long type; };
 #ifndef BOOST_NO_LONG_LONG
 template <std::size_t Target> struct long_alignment<Target, false>{ typedef typename long_long_alignment<Target, boost::alignment_of<boost::long_long_type>::value >= Target>::type type; };
 #else
 template <std::size_t Target> struct long_alignment<Target, false>{ typedef typename double_alignment<Target, boost::alignment_of<double>::value >= Target>::type type; };
 #endif

 template <std::size_t Target, bool check> struct int_alignment{ typedef int type; };
 template <std::size_t Target> struct int_alignment<Target, false>{ typedef typename long_alignment<Target, boost::alignment_of<long>::value >= Target>::type type; };

 template <std::size_t Target, bool check> struct short_alignment{ typedef short type; };
 template <std::size_t Target> struct short_alignment<Target, false>{ typedef typename int_alignment<Target, boost::alignment_of<int>::value >= Target>::type type; };

 template <std::size_t Target, bool check> struct char_alignment{ typedef char type; };
 template <std::size_t Target> struct char_alignment<Target, false>{ typedef typename short_alignment<Target, boost::alignment_of<short>::value >= Target>::type type; };

 } // namespace detail

 template <std::size_t Align>
 struct type_with_alignment
 {
    typedef typename boost::detail::char_alignment<Align, boost::alignment_of<char>::value >= Align>::type type;
 };

 #if (defined(__GNUC__) || (defined (__SUNPRO_CC) &&  (__SUNPRO_CC >= 0x5130)) || defined(__clang__)) && !defined(BOOST_TT_DISABLE_INTRINSICS)
 namespace tt_align_ns {
 struct __attribute__((__aligned__(2))) a2 {};
 struct __attribute__((__aligned__(4))) a4 {};
 struct __attribute__((__aligned__(8))) a8 {};
 struct __attribute__((__aligned__(16))) a16 {};
 struct __attribute__((__aligned__(32))) a32 {};
 struct __attribute__((__aligned__(64))) a64 {};
 struct __attribute__((__aligned__(128))) a128 {};
 }

 template<> struct type_with_alignment<1>  { public: typedef char type; };
 template<> struct type_with_alignment<2>  { public: typedef tt_align_ns::a2 type; };
 template<> struct type_with_alignment<4>  { public: typedef tt_align_ns::a4 type; };
 template<> struct type_with_alignment<8>  { public: typedef tt_align_ns::a8 type; };
 template<> struct type_with_alignment<16> { public: typedef tt_align_ns::a16 type; };
 template<> struct type_with_alignment<32> { public: typedef tt_align_ns::a32 type; };
 template<> struct type_with_alignment<64> { public: typedef tt_align_ns::a64 type; };
 template<> struct type_with_alignment<128> { public: typedef tt_align_ns::a128 type; };

 template<> struct is_pod< ::boost::tt_align_ns::a2> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a4> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a8> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a16> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a32> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a64> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a128> : public true_type{};

 #endif
 #if (defined(BOOST_MSVC) || (defined(BOOST_INTEL) && defined(_MSC_VER))) && !defined(BOOST_TT_DISABLE_INTRINSICS)
 //
 // MSVC supports types which have alignments greater than the normal
 // maximum: these are used for example in the types __m64 and __m128
 // to provide types with alignment requirements which match the SSE
 // registers.  Therefore we extend type_with_alignment<> to support
 // such types, however, we have to be careful to use a builtin type
 // whenever possible otherwise we break previously working code:
 // see https://lists.boost.org/Archives/boost/2014/03/212391.php
 // for an example and test case.  Thus types like a8 below will
 // be used *only* if the existing implementation can't provide a type
 // with suitable alignment.  This does mean however, that type_with_alignment<>
 // may return a type which cannot be passed through a function call
 // by value (and neither can any type containing such a type like
 // Boost.Optional).  However, this only happens when we have no choice
 // in the matter because no other "ordinary" type is available.
 //
 namespace tt_align_ns {
 struct __declspec(align(8)) a8 {
    char m[8];
    typedef a8 type;
 };
 struct __declspec(align(16)) a16 {
    char m[16];
    typedef a16 type;
 };
 struct __declspec(align(32)) a32 {
    char m[32];
    typedef a32 type;
 };
 struct __declspec(align(64)) a64
 {
    char m[64];
    typedef a64 type;
 };
 struct __declspec(align(128)) a128 {
    char m[128];
    typedef a128 type;
 };
 }

 template<> struct type_with_alignment<8>
 {
    typedef boost::conditional<
       ::boost::alignment_of<boost::detail::max_align>::value < 8,
       tt_align_ns::a8,
       boost::detail::char_alignment<8, false> >::type t1;
 public:
    typedef t1::type type;
 };
 template<> struct type_with_alignment<16>
 {
    typedef boost::conditional<
       ::boost::alignment_of<boost::detail::max_align>::value < 16,
       tt_align_ns::a16,
       boost::detail::char_alignment<16, false> >::type t1;
 public:
    typedef t1::type type;
 };
 template<> struct type_with_alignment<32>
 {
    typedef boost::conditional<
       ::boost::alignment_of<boost::detail::max_align>::value < 32,
       tt_align_ns::a32,
       boost::detail::char_alignment<32, false> >::type t1;
 public:
    typedef t1::type type;
 };
 template<> struct type_with_alignment<64> {
    typedef boost::conditional<
       ::boost::alignment_of<boost::detail::max_align>::value < 64,
       tt_align_ns::a64,
       boost::detail::char_alignment<64, false> >::type t1;
 public:
    typedef t1::type type;
 };
 template<> struct type_with_alignment<128> {
    typedef boost::conditional<
       ::boost::alignment_of<boost::detail::max_align>::value < 128,
       tt_align_ns::a128,
       boost::detail::char_alignment<128, false> >::type t1;
 public:
    typedef t1::type type;
 };

 template<> struct is_pod< ::boost::tt_align_ns::a8> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a16> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a32> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a64> : public true_type{};
 template<> struct is_pod< ::boost::tt_align_ns::a128> : public true_type{};

 #endif

 #else

 //
 // Borland specific version, we have this for two reasons:
 // 1) The version above doesn't always compile (with the new test cases for example)
 // 2) Because of Borlands #pragma option we can create types with alignments that are
 //    greater that the largest aligned builtin type.

 namespace tt_align_ns{
 #pragma option push -a16
 struct a2{ short s; };
 struct a4{ int s; };
 struct a8{ double s; };
 struct a16{ long double s; };
 #pragma option pop
 }

 namespace detail {

 typedef ::boost::tt_align_ns::a16 max_align;

 }
 //#if ! BOOST_WORKAROUND(BOOST_CODEGEARC, BOOST_TESTED_AT(0x610))
 template <> struct is_pod< ::boost::tt_align_ns::a2> : public true_type{};
 template <> struct is_pod< ::boost::tt_align_ns::a4> : public true_type{};
 template <> struct is_pod< ::boost::tt_align_ns::a8> : public true_type{};
 template <> struct is_pod< ::boost::tt_align_ns::a16> : public true_type{};
 //#endif

 template <std::size_t N> struct type_with_alignment
 {
    // We should never get to here, but if we do use the maximally
    // aligned type:
    // BOOST_STATIC_ASSERT(0);
    typedef tt_align_ns::a16 type;
 };
 template <> struct type_with_alignment<1>{ typedef char type; };
 template <> struct type_with_alignment<2>{ typedef tt_align_ns::a2 type; };
 template <> struct type_with_alignment<4>{ typedef tt_align_ns::a4 type; };
 template <> struct type_with_alignment<8>{ typedef tt_align_ns::a8 type; };
 template <> struct type_with_alignment<16>{ typedef tt_align_ns::a16 type; };

 #endif

 } // namespace boost

 #ifdef BOOST_MSVC
 #   pragma warning(pop)
 #endif

 #endif // BOOST_TT_TYPE_WITH_ALIGNMENT_INCLUDED
	// (C) Copyright John Maddock 2000.
	// 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).
	//
	// See http://www.boost.org/libs/type_traits for most recent version including documentation.

	#ifndef BOOST_TT_TYPE_WITH_ALIGNMENT_INCLUDED
	#define BOOST_TT_TYPE_WITH_ALIGNMENT_INCLUDED

	#include <boost/type_traits/alignment_of.hpp>
	#include <boost/type_traits/is_pod.hpp>
	#include <boost/static_assert.hpp>
	#include <boost/config.hpp>
	#include <cstddef> // size_t
	#include <boost/detail/workaround.hpp>

	#ifdef BOOST_MSVC
	# pragma warning(push)
	# pragma warning(disable: 4121) // alignment is sensitive to packing
	#endif

	#ifdef _MSC_VER
	#include <boost/type_traits/conditional.hpp>
	#endif

	namespace boost {
	#ifndef BOOST_BORLANDC
	namespace detail{

	union max_align
	{
	char c;
	short s;
	int i;
	long l;
	#ifndef BOOST_NO_LONG_LONG
	boost::long_long_type ll;
	#endif
	#ifdef BOOST_HAS_INT128
	boost::int128_type i128;
	#endif
	float f;
	double d;
	long double ld;
	#ifdef BOOST_HAS_FLOAT128
	__float128 f128;
	#endif
	};

	template <std::size_t Target, bool check> struct long_double_alignment{ typedef long double type; };
	template <std::size_t Target> struct long_double_alignment<Target, false>{ typedef boost::detail::max_align type; };

	template <std::size_t Target, bool check> struct double_alignment{ typedef double type; };
	template <std::size_t Target> struct double_alignment<Target, false>{ typedef typename long_double_alignment<Target, boost::alignment_of<long double>::value >= Target>::type type; };

	#ifndef BOOST_NO_LONG_LONG
	template <std::size_t Target, bool check> struct long_long_alignment{ typedef boost::long_long_type type; };
	template <std::size_t Target> struct long_long_alignment<Target, false>{ typedef typename double_alignment<Target, boost::alignment_of<double>::value >= Target>::type type; };
	#endif

	template <std::size_t Target, bool check> struct long_alignment{ typedef long type; };
	#ifndef BOOST_NO_LONG_LONG
	template <std::size_t Target> struct long_alignment<Target, false>{ typedef typename long_long_alignment<Target, boost::alignment_of<boost::long_long_type>::value >= Target>::type type; };
	#else
	template <std::size_t Target> struct long_alignment<Target, false>{ typedef typename double_alignment<Target, boost::alignment_of<double>::value >= Target>::type type; };
	#endif

	template <std::size_t Target, bool check> struct int_alignment{ typedef int type; };
	template <std::size_t Target> struct int_alignment<Target, false>{ typedef typename long_alignment<Target, boost::alignment_of<long>::value >= Target>::type type; };

	template <std::size_t Target, bool check> struct short_alignment{ typedef short type; };
	template <std::size_t Target> struct short_alignment<Target, false>{ typedef typename int_alignment<Target, boost::alignment_of<int>::value >= Target>::type type; };

	template <std::size_t Target, bool check> struct char_alignment{ typedef char type; };
	template <std::size_t Target> struct char_alignment<Target, false>{ typedef typename short_alignment<Target, boost::alignment_of<short>::value >= Target>::type type; };

	} // namespace detail

	template <std::size_t Align>
	struct type_with_alignment
	{
	typedef typename boost::detail::char_alignment<Align, boost::alignment_of<char>::value >= Align>::type type;
	};

	#if (defined(__GNUC__) \|\| (defined (__SUNPRO_CC) && (__SUNPRO_CC >= 0x5130)) \|\| defined(__clang__)) && !defined(BOOST_TT_DISABLE_INTRINSICS)
	namespace tt_align_ns {
	struct __attribute__((__aligned__(2))) a2 {};
	struct __attribute__((__aligned__(4))) a4 {};
	struct __attribute__((__aligned__(8))) a8 {};
	struct __attribute__((__aligned__(16))) a16 {};
	struct __attribute__((__aligned__(32))) a32 {};
	struct __attribute__((__aligned__(64))) a64 {};
	struct __attribute__((__aligned__(128))) a128 {};
	}

	template<> struct type_with_alignment<1> { public: typedef char type; };
	template<> struct type_with_alignment<2> { public: typedef tt_align_ns::a2 type; };
	template<> struct type_with_alignment<4> { public: typedef tt_align_ns::a4 type; };
	template<> struct type_with_alignment<8> { public: typedef tt_align_ns::a8 type; };
	template<> struct type_with_alignment<16> { public: typedef tt_align_ns::a16 type; };
	template<> struct type_with_alignment<32> { public: typedef tt_align_ns::a32 type; };
	template<> struct type_with_alignment<64> { public: typedef tt_align_ns::a64 type; };
	template<> struct type_with_alignment<128> { public: typedef tt_align_ns::a128 type; };

	template<> struct is_pod< ::boost::tt_align_ns::a2> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a4> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a8> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a16> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a32> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a64> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a128> : public true_type{};

	#endif
	#if (defined(BOOST_MSVC) \|\| (defined(BOOST_INTEL) && defined(_MSC_VER))) && !defined(BOOST_TT_DISABLE_INTRINSICS)
	//
	// MSVC supports types which have alignments greater than the normal
	// maximum: these are used for example in the types __m64 and __m128
	// to provide types with alignment requirements which match the SSE
	// registers. Therefore we extend type_with_alignment<> to support
	// such types, however, we have to be careful to use a builtin type
	// whenever possible otherwise we break previously working code:
	// see https://lists.boost.org/Archives/boost/2014/03/212391.php
	// for an example and test case. Thus types like a8 below will
	// be used only if the existing implementation can't provide a type
	// with suitable alignment. This does mean however, that type_with_alignment<>
	// may return a type which cannot be passed through a function call
	// by value (and neither can any type containing such a type like
	// Boost.Optional). However, this only happens when we have no choice
	// in the matter because no other "ordinary" type is available.
	//
	namespace tt_align_ns {
	struct __declspec(align(8)) a8 {
	char m[8];
	typedef a8 type;
	};
	struct __declspec(align(16)) a16 {
	char m[16];
	typedef a16 type;
	};
	struct __declspec(align(32)) a32 {
	char m[32];
	typedef a32 type;
	};
	struct __declspec(align(64)) a64
	{
	char m[64];
	typedef a64 type;
	};
	struct __declspec(align(128)) a128 {
	char m[128];
	typedef a128 type;
	};
	}

	template<> struct type_with_alignment<8>
	{
	typedef boost::conditional<
	::boost::alignment_of<boost::detail::max_align>::value < 8,
	tt_align_ns::a8,
	boost::detail::char_alignment<8, false> >::type t1;
	public:
	typedef t1::type type;
	};
	template<> struct type_with_alignment<16>
	{
	typedef boost::conditional<
	::boost::alignment_of<boost::detail::max_align>::value < 16,
	tt_align_ns::a16,
	boost::detail::char_alignment<16, false> >::type t1;
	public:
	typedef t1::type type;
	};
	template<> struct type_with_alignment<32>
	{
	typedef boost::conditional<
	::boost::alignment_of<boost::detail::max_align>::value < 32,
	tt_align_ns::a32,
	boost::detail::char_alignment<32, false> >::type t1;
	public:
	typedef t1::type type;
	};
	template<> struct type_with_alignment<64> {
	typedef boost::conditional<
	::boost::alignment_of<boost::detail::max_align>::value < 64,
	tt_align_ns::a64,
	boost::detail::char_alignment<64, false> >::type t1;
	public:
	typedef t1::type type;
	};
	template<> struct type_with_alignment<128> {
	typedef boost::conditional<
	::boost::alignment_of<boost::detail::max_align>::value < 128,
	tt_align_ns::a128,
	boost::detail::char_alignment<128, false> >::type t1;
	public:
	typedef t1::type type;
	};

	template<> struct is_pod< ::boost::tt_align_ns::a8> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a16> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a32> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a64> : public true_type{};
	template<> struct is_pod< ::boost::tt_align_ns::a128> : public true_type{};

	#endif

	#else

	//
	// Borland specific version, we have this for two reasons:
	// 1) The version above doesn't always compile (with the new test cases for example)
	// 2) Because of Borlands #pragma option we can create types with alignments that are
	// greater that the largest aligned builtin type.

	namespace tt_align_ns{
	#pragma option push -a16
	struct a2{ short s; };
	struct a4{ int s; };
	struct a8{ double s; };
	struct a16{ long double s; };
	#pragma option pop
	}

	namespace detail {

	typedef ::boost::tt_align_ns::a16 max_align;

	}
	//#if ! BOOST_WORKAROUND(BOOST_CODEGEARC, BOOST_TESTED_AT(0x610))
	template <> struct is_pod< ::boost::tt_align_ns::a2> : public true_type{};
	template <> struct is_pod< ::boost::tt_align_ns::a4> : public true_type{};
	template <> struct is_pod< ::boost::tt_align_ns::a8> : public true_type{};
	template <> struct is_pod< ::boost::tt_align_ns::a16> : public true_type{};
	//#endif

	template <std::size_t N> struct type_with_alignment
	{
	// We should never get to here, but if we do use the maximally
	// aligned type:
	// BOOST_STATIC_ASSERT(0);
	typedef tt_align_ns::a16 type;
	};
	template <> struct type_with_alignment<1>{ typedef char type; };
	template <> struct type_with_alignment<2>{ typedef tt_align_ns::a2 type; };
	template <> struct type_with_alignment<4>{ typedef tt_align_ns::a4 type; };
	template <> struct type_with_alignment<8>{ typedef tt_align_ns::a8 type; };
	template <> struct type_with_alignment<16>{ typedef tt_align_ns::a16 type; };

	#endif

	} // namespace boost

	#ifdef BOOST_MSVC
	# pragma warning(pop)
	#endif

	#endif // BOOST_TT_TYPE_WITH_ALIGNMENT_INCLUDED