boost_1_45_0/libs/type_traits/test/alignment_of_a2_test.cpp - nest-learning-thermostat/5.0/boost - Git at Google


 #ifdef _MSC_VER
 #pragma pack(2)
 #endif

 //  (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)

 #include "test.hpp"
 #include "check_integral_constant.hpp"
 #ifdef TEST_STD
 #  include <type_traits>
 #else
 #  include <boost/type_traits/alignment_of.hpp>
 #endif

 //
 // Need to defined some member functions for empty_UDT,
 // we don't want to put these in the test.hpp as that
 // causes overly-clever compilers to figure out that they can't throw
 // which in turn breaks other tests.
 //
 empty_UDT::empty_UDT(){}
 empty_UDT::~empty_UDT(){}
 empty_UDT::empty_UDT(const empty_UDT&){}
 empty_UDT& empty_UDT::operator=(const empty_UDT&){ return *this; }
 bool empty_UDT::operator==(const empty_UDT&)const{ return true; }


 //
 // VC++ emits an awful lot of warnings unless we define these:
 #ifdef BOOST_MSVC
 #  pragma warning(disable:4244 4121)
 //
 // What follows here is the test case for issue 1946.
 //
 #include <boost/function.hpp>
 // This kind of packing is set within MSVC 9.0 headers.
 // E.g. std::ostream has it.
 #pragma pack(push,8)

 // The issue is gone if Root has no data members
 struct Root { int a; };
 // The issue is gone if Root is inherited non-virtually
 struct A : virtual public Root {};

 #pragma pack(pop)
 //
 // This class has 8-byte alignment but is 44 bytes in size, which means
 // that elements in an array of this type will not actually be 8 byte
 // aligned.  This appears to be an MSVC bug, and throws off our
 // alignment calculations: causing us to report a non-sensical 12-byte
 // alignment for this type.  This is fixed by using the native __alignof
 // operator.
 //
 class issue1946 :
     public A
 {
 public:
     // The issue is gone if the type is not a boost::function. The signature doesn't matter.
     typedef boost::function0< void > function_type;
     function_type m_function;
 };

 #endif


 template <class T>
 struct align_calc
 {
    char padding;
    T instance;
    static std::ptrdiff_t get()
    {
       static align_calc<T> a;
       return reinterpret_cast<const char*>(&(a.instance)) - reinterpret_cast<const char*>(&(a.padding));
    }
 };

 #define ALIGNOF(x) align_calc< x>::get()

 TT_TEST_BEGIN(alignment_of)

 #ifndef TEST_STD
 // This test is not required to work for non-boost implementations:
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<void>::value, 0);
 #endif
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<char>::value, ALIGNOF(char));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<short>::value, ALIGNOF(short));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int>::value, ALIGNOF(int));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<long>::value, ALIGNOF(long));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<float>::value, ALIGNOF(float));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<double>::value, ALIGNOF(double));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<long double>::value, ALIGNOF(long double));
 #ifdef BOOST_HAS_LONG_LONG
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of< ::boost::long_long_type>::value, ALIGNOF(::boost::long_long_type));
 #endif
 #ifdef BOOST_HAS_MS_INT64
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<__int64>::value, ALIGNOF(__int64));
 #endif
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int[4]>::value, ALIGNOF(int[4]));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int(*)(int)>::value, ALIGNOF(int(*)(int)));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int*>::value, ALIGNOF(int*));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<VB>::value, ALIGNOF(VB));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<VD>::value, ALIGNOF(VD));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<enum_UDT>::value, ALIGNOF(enum_UDT));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<mf2>::value, ALIGNOF(mf2));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<POD_UDT>::value, ALIGNOF(POD_UDT));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<empty_UDT>::value, ALIGNOF(empty_UDT));
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<union_UDT>::value, ALIGNOF(union_UDT));

 #if defined(BOOST_MSVC) && (BOOST_MSVC >= 1400)
 BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<issue1946>::value, ALIGNOF(issue1946));
 #endif

 TT_TEST_END

	#ifdef _MSC_VER
	#pragma pack(2)
	#endif

	// (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)

	#include "test.hpp"
	#include "check_integral_constant.hpp"
	#ifdef TEST_STD
	# include <type_traits>
	#else
	# include <boost/type_traits/alignment_of.hpp>
	#endif

	//
	// Need to defined some member functions for empty_UDT,
	// we don't want to put these in the test.hpp as that
	// causes overly-clever compilers to figure out that they can't throw
	// which in turn breaks other tests.
	//
	empty_UDT::empty_UDT(){}
	empty_UDT::~empty_UDT(){}
	empty_UDT::empty_UDT(const empty_UDT&){}
	empty_UDT& empty_UDT::operator=(const empty_UDT&){ return *this; }
	bool empty_UDT::operator==(const empty_UDT&)const{ return true; }


	//
	// VC++ emits an awful lot of warnings unless we define these:
	#ifdef BOOST_MSVC
	# pragma warning(disable:4244 4121)
	//
	// What follows here is the test case for issue 1946.
	//
	#include <boost/function.hpp>
	// This kind of packing is set within MSVC 9.0 headers.
	// E.g. std::ostream has it.
	#pragma pack(push,8)

	// The issue is gone if Root has no data members
	struct Root { int a; };
	// The issue is gone if Root is inherited non-virtually
	struct A : virtual public Root {};

	#pragma pack(pop)
	//
	// This class has 8-byte alignment but is 44 bytes in size, which means
	// that elements in an array of this type will not actually be 8 byte
	// aligned. This appears to be an MSVC bug, and throws off our
	// alignment calculations: causing us to report a non-sensical 12-byte
	// alignment for this type. This is fixed by using the native __alignof
	// operator.
	//
	class issue1946 :
	public A
	{
	public:
	// The issue is gone if the type is not a boost::function. The signature doesn't matter.
	typedef boost::function0< void > function_type;
	function_type m_function;
	};

	#endif


	template <class T>
	struct align_calc
	{
	char padding;
	T instance;
	static std::ptrdiff_t get()
	{
	static align_calc<T> a;
	return reinterpret_cast<const char>(&(a.instance)) - reinterpret_cast<const char>(&(a.padding));
	}
	};

	#define ALIGNOF(x) align_calc< x>::get()

	TT_TEST_BEGIN(alignment_of)

	#ifndef TEST_STD
	// This test is not required to work for non-boost implementations:
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<void>::value, 0);
	#endif
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<char>::value, ALIGNOF(char));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<short>::value, ALIGNOF(short));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int>::value, ALIGNOF(int));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<long>::value, ALIGNOF(long));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<float>::value, ALIGNOF(float));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<double>::value, ALIGNOF(double));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<long double>::value, ALIGNOF(long double));
	#ifdef BOOST_HAS_LONG_LONG
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of< ::boost::long_long_type>::value, ALIGNOF(::boost::long_long_type));
	#endif
	#ifdef BOOST_HAS_MS_INT64
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<__int64>::value, ALIGNOF(__int64));
	#endif
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int[4]>::value, ALIGNOF(int[4]));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int()(int)>::value, ALIGNOF(int()(int)));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<int>::value, ALIGNOF(int));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<VB>::value, ALIGNOF(VB));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<VD>::value, ALIGNOF(VD));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<enum_UDT>::value, ALIGNOF(enum_UDT));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<mf2>::value, ALIGNOF(mf2));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<POD_UDT>::value, ALIGNOF(POD_UDT));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<empty_UDT>::value, ALIGNOF(empty_UDT));
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<union_UDT>::value, ALIGNOF(union_UDT));

	#if defined(BOOST_MSVC) && (BOOST_MSVC >= 1400)
	BOOST_CHECK_INTEGRAL_CONSTANT(::tt::alignment_of<issue1946>::value, ALIGNOF(issue1946));
	#endif

	TT_TEST_END