test/support/archetypes.hpp - libcxx - Git at Google

 #ifndef TEST_SUPPORT_ARCHETYPES_HPP
 #define TEST_SUPPORT_ARCHETYPES_HPP

 #include <type_traits>
 #include <cassert>

 #include "test_macros.h"
 #include "test_workarounds.h"

 #if TEST_STD_VER >= 11

 namespace ArchetypeBases {

 template <bool, class T>
 struct DepType : T {};

 struct NullBase {
 #ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
 protected:
 #endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
   NullBase() = default;
   NullBase(NullBase const&) = default;
   NullBase& operator=(NullBase const&) = default;
   NullBase(NullBase &&) = default;
   NullBase& operator=(NullBase &&) = default;
 };

 template <class Derived, bool Explicit = false>
 struct TestBase {
     static int alive;
     static int constructed;
     static int value_constructed;
     static int default_constructed;
     static int copy_constructed;
     static int move_constructed;
     static int assigned;
     static int value_assigned;
     static int copy_assigned;
     static int move_assigned;
     static int destroyed;

     static void reset() {
         assert(alive == 0);
         alive = 0;
         reset_constructors();
     }

     static void reset_constructors() {
       constructed = value_constructed = default_constructed =
         copy_constructed = move_constructed = 0;
       assigned = value_assigned = copy_assigned = move_assigned = destroyed = 0;
     }

     TestBase() noexcept : value(0) {
         ++alive; ++constructed; ++default_constructed;
     }
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit TestBase(int x) noexcept : value(x) {
         ++alive; ++constructed; ++value_constructed;
     }
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     TestBase(int x) noexcept : value(x) {
         ++alive; ++constructed; ++value_constructed;
     }
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit TestBase(int, int y) noexcept : value(y) {
         ++alive; ++constructed; ++value_constructed;
     }
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     TestBase(int, int y) noexcept : value(y) {
         ++alive; ++constructed; ++value_constructed;
     }
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit TestBase(std::initializer_list<int>& il, int = 0) noexcept
       : value(static_cast<int>(il.size())) {
         ++alive; ++constructed; ++value_constructed;
     }
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     explicit TestBase(std::initializer_list<int>& il, int = 0) noexcept : value(static_cast<int>(il.size())) {
         ++alive; ++constructed; ++value_constructed;
     }
     TestBase& operator=(int xvalue) noexcept {
       value = xvalue;
       ++assigned; ++value_assigned;
       return *this;
     }
 #ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
 protected:
 #endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
     ~TestBase() {
       assert(value != -999); assert(alive > 0);
       --alive; ++destroyed; value = -999;
     }
     explicit TestBase(TestBase const& o) noexcept : value(o.value) {
         assert(o.value != -1); assert(o.value != -999);
         ++alive; ++constructed; ++copy_constructed;
     }
     explicit TestBase(TestBase && o) noexcept : value(o.value) {
         assert(o.value != -1); assert(o.value != -999);
         ++alive; ++constructed; ++move_constructed;
         o.value = -1;
     }
     TestBase& operator=(TestBase const& o) noexcept {
       assert(o.value != -1); assert(o.value != -999);
       ++assigned; ++copy_assigned;
       value = o.value;
       return *this;
     }
     TestBase& operator=(TestBase&& o) noexcept {
         assert(o.value != -1); assert(o.value != -999);
         ++assigned; ++move_assigned;
         value = o.value;
         o.value = -1;
         return *this;
     }
 public:
     int value;
 };

 template <class D, bool E> int TestBase<D, E>::alive = 0;
 template <class D, bool E> int TestBase<D, E>::constructed = 0;
 template <class D, bool E> int TestBase<D, E>::value_constructed = 0;
 template <class D, bool E> int TestBase<D, E>::default_constructed = 0;
 template <class D, bool E> int TestBase<D, E>::copy_constructed = 0;
 template <class D, bool E> int TestBase<D, E>::move_constructed = 0;
 template <class D, bool E> int TestBase<D, E>::assigned = 0;
 template <class D, bool E> int TestBase<D, E>::value_assigned = 0;
 template <class D, bool E> int TestBase<D, E>::copy_assigned = 0;
 template <class D, bool E> int TestBase<D, E>::move_assigned = 0;
 template <class D, bool E> int TestBase<D, E>::destroyed = 0;

 template <bool Explicit = false>
 struct ValueBase {
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit constexpr ValueBase(int x) : value(x) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     constexpr ValueBase(int x) : value(x) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit constexpr ValueBase(int, int y) : value(y) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     constexpr ValueBase(int, int y) : value(y) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit constexpr ValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     constexpr ValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
     TEST_CONSTEXPR_CXX14 ValueBase& operator=(int xvalue) noexcept {
         value = xvalue;
         return *this;
     }
     //~ValueBase() { assert(value != -999); value = -999; }
     int value;
 #ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
 protected:
 #endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
     constexpr static int check_value(int const& val) {
 #if TEST_STD_VER < 14
       return val == -1 || val == 999 ? (TEST_THROW(42), 0) : val;
 #else
       assert(val != -1); assert(val != 999);
       return val;
 #endif
     }
     constexpr static int check_value(int& val, int val_cp = 0) {
 #if TEST_STD_VER < 14
       return val_cp = val, val = -1, (val_cp == -1 || val_cp == 999 ? (TEST_THROW(42), 0) : val_cp);
 #else
       assert(val != -1); assert(val != 999);
       val_cp = val;
       val = -1;
       return val_cp;
 #endif
     }
     constexpr ValueBase() noexcept : value(0) {}
     constexpr ValueBase(ValueBase const& o) noexcept : value(check_value(o.value)) {
     }
     constexpr ValueBase(ValueBase && o) noexcept : value(check_value(o.value)) {
     }
     TEST_CONSTEXPR_CXX14 ValueBase& operator=(ValueBase const& o) noexcept {
         assert(o.value != -1); assert(o.value != -999);
         value = o.value;
         return *this;
     }
     TEST_CONSTEXPR_CXX14 ValueBase& operator=(ValueBase&& o) noexcept {
         assert(o.value != -1); assert(o.value != -999);
         value = o.value;
         o.value = -1;
         return *this;
     }
 };


 template <bool Explicit = false>
 struct TrivialValueBase {
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit constexpr TrivialValueBase(int x) : value(x) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     constexpr TrivialValueBase(int x) : value(x) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit constexpr TrivialValueBase(int, int y) : value(y) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     constexpr TrivialValueBase(int, int y) : value(y) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
     explicit constexpr TrivialValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
     template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
     constexpr TrivialValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
     int value;
 #ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
 protected:
 #endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
     constexpr TrivialValueBase() noexcept : value(0) {}
 };

 }

 //============================================================================//
 // Trivial Implicit Test Types
 namespace ImplicitTypes {
 #include "archetypes.ipp"
 }

 //============================================================================//
 // Trivial Explicit Test Types
 namespace ExplicitTypes {
 #define DEFINE_EXPLICIT explicit
 #include "archetypes.ipp"
 }

 //============================================================================//
 //
 namespace NonConstexprTypes {
 #define DEFINE_CONSTEXPR
 #include "archetypes.ipp"
 }

 //============================================================================//
 // Non-literal implicit test types
 namespace NonLiteralTypes {
 #define DEFINE_ASSIGN_CONSTEXPR
 #define DEFINE_DTOR(Name) ~Name() {}
 #include "archetypes.ipp"
 }

 //============================================================================//
 // Non-throwing implicit test types
 namespace NonThrowingTypes {
 #define DEFINE_NOEXCEPT noexcept
 #include "archetypes.ipp"
 }

 //============================================================================//
 // Non-Trivially Copyable Implicit Test Types
 namespace NonTrivialTypes {
 #define DEFINE_CTOR {}
 #define DEFINE_ASSIGN { return *this; }
 #include "archetypes.ipp"
 }

 //============================================================================//
 // Implicit counting types
 namespace TestTypes {
 #define DEFINE_CONSTEXPR
 #define DEFINE_BASE(Name) ::ArchetypeBases::TestBase<Name>
 #include "archetypes.ipp"

 using TestType = AllCtors;

 // Add equality operators
 template <class Tp>
 constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
   return L.value == R.value;
 }

 template <class Tp>
 constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
   return L.value != R.value;
 }

 }

 //============================================================================//
 // Implicit counting types
 namespace ExplicitTestTypes {
 #define DEFINE_CONSTEXPR
 #define DEFINE_EXPLICIT explicit
 #define DEFINE_BASE(Name) ::ArchetypeBases::TestBase<Name, true>
 #include "archetypes.ipp"

 using TestType = AllCtors;

 // Add equality operators
 template <class Tp>
 constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
   return L.value == R.value;
 }

 template <class Tp>
 constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
   return L.value != R.value;
 }

 }

 //============================================================================//
 // Implicit value types
 namespace ConstexprTestTypes {
 #define DEFINE_BASE(Name) ::ArchetypeBases::ValueBase<>
 #include "archetypes.ipp"

 using TestType = AllCtors;

 // Add equality operators
 template <class Tp>
 constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
   return L.value == R.value;
 }

 template <class Tp>
 constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
   return L.value != R.value;
 }

 } // end namespace ConstexprTestTypes


 //============================================================================//
 //
 namespace ExplicitConstexprTestTypes {
 #define DEFINE_EXPLICIT explicit
 #define DEFINE_BASE(Name) ::ArchetypeBases::ValueBase<true>
 #include "archetypes.ipp"

 using TestType = AllCtors;

 // Add equality operators
 template <class Tp>
 constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
   return L.value == R.value;
 }

 template <class Tp>
 constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
   return L.value != R.value;
 }

 } // end namespace ExplicitConstexprTestTypes


 //============================================================================//
 //
 namespace TrivialTestTypes {
 #define DEFINE_BASE(Name) ::ArchetypeBases::TrivialValueBase<false>
 #include "archetypes.ipp"

 using TestType = AllCtors;

 // Add equality operators
 template <class Tp>
 constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
   return L.value == R.value;
 }

 template <class Tp>
 constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
   return L.value != R.value;
 }

 } // end namespace TrivialTestTypes

 //============================================================================//
 //
 namespace ExplicitTrivialTestTypes {
 #define DEFINE_EXPLICIT explicit
 #define DEFINE_BASE(Name) ::ArchetypeBases::TrivialValueBase<true>
 #include "archetypes.ipp"

 using TestType = AllCtors;

 // Add equality operators
 template <class Tp>
 constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
   return L.value == R.value;
 }

 template <class Tp>
 constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
   return L.value != R.value;
 }

 } // end namespace ExplicitTrivialTestTypes

 #endif // TEST_STD_VER >= 11

 #endif // TEST_SUPPORT_ARCHETYPES_HPP
	#ifndef TEST_SUPPORT_ARCHETYPES_HPP
	#define TEST_SUPPORT_ARCHETYPES_HPP

	#include <type_traits>
	#include <cassert>

	#include "test_macros.h"
	#include "test_workarounds.h"

	#if TEST_STD_VER >= 11

	namespace ArchetypeBases {

	template <bool, class T>
	struct DepType : T {};

	struct NullBase {
	#ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	protected:
	#endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	NullBase() = default;
	NullBase(NullBase const&) = default;
	NullBase& operator=(NullBase const&) = default;
	NullBase(NullBase &&) = default;
	NullBase& operator=(NullBase &&) = default;
	};

	template <class Derived, bool Explicit = false>
	struct TestBase {
	static int alive;
	static int constructed;
	static int value_constructed;
	static int default_constructed;
	static int copy_constructed;
	static int move_constructed;
	static int assigned;
	static int value_assigned;
	static int copy_assigned;
	static int move_assigned;
	static int destroyed;

	static void reset() {
	assert(alive == 0);
	alive = 0;
	reset_constructors();
	}

	static void reset_constructors() {
	constructed = value_constructed = default_constructed =
	copy_constructed = move_constructed = 0;
	assigned = value_assigned = copy_assigned = move_assigned = destroyed = 0;
	}

	TestBase() noexcept : value(0) {
	++alive; ++constructed; ++default_constructed;
	}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit TestBase(int x) noexcept : value(x) {
	++alive; ++constructed; ++value_constructed;
	}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	TestBase(int x) noexcept : value(x) {
	++alive; ++constructed; ++value_constructed;
	}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit TestBase(int, int y) noexcept : value(y) {
	++alive; ++constructed; ++value_constructed;
	}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	TestBase(int, int y) noexcept : value(y) {
	++alive; ++constructed; ++value_constructed;
	}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit TestBase(std::initializer_list<int>& il, int = 0) noexcept
	: value(static_cast<int>(il.size())) {
	++alive; ++constructed; ++value_constructed;
	}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	explicit TestBase(std::initializer_list<int>& il, int = 0) noexcept : value(static_cast<int>(il.size())) {
	++alive; ++constructed; ++value_constructed;
	}
	TestBase& operator=(int xvalue) noexcept {
	value = xvalue;
	++assigned; ++value_assigned;
	return *this;
	}
	#ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	protected:
	#endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	~TestBase() {
	assert(value != -999); assert(alive > 0);
	--alive; ++destroyed; value = -999;
	}
	explicit TestBase(TestBase const& o) noexcept : value(o.value) {
	assert(o.value != -1); assert(o.value != -999);
	++alive; ++constructed; ++copy_constructed;
	}
	explicit TestBase(TestBase && o) noexcept : value(o.value) {
	assert(o.value != -1); assert(o.value != -999);
	++alive; ++constructed; ++move_constructed;
	o.value = -1;
	}
	TestBase& operator=(TestBase const& o) noexcept {
	assert(o.value != -1); assert(o.value != -999);
	++assigned; ++copy_assigned;
	value = o.value;
	return *this;
	}
	TestBase& operator=(TestBase&& o) noexcept {
	assert(o.value != -1); assert(o.value != -999);
	++assigned; ++move_assigned;
	value = o.value;
	o.value = -1;
	return *this;
	}
	public:
	int value;
	};

	template <class D, bool E> int TestBase<D, E>::alive = 0;
	template <class D, bool E> int TestBase<D, E>::constructed = 0;
	template <class D, bool E> int TestBase<D, E>::value_constructed = 0;
	template <class D, bool E> int TestBase<D, E>::default_constructed = 0;
	template <class D, bool E> int TestBase<D, E>::copy_constructed = 0;
	template <class D, bool E> int TestBase<D, E>::move_constructed = 0;
	template <class D, bool E> int TestBase<D, E>::assigned = 0;
	template <class D, bool E> int TestBase<D, E>::value_assigned = 0;
	template <class D, bool E> int TestBase<D, E>::copy_assigned = 0;
	template <class D, bool E> int TestBase<D, E>::move_assigned = 0;
	template <class D, bool E> int TestBase<D, E>::destroyed = 0;

	template <bool Explicit = false>
	struct ValueBase {
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit constexpr ValueBase(int x) : value(x) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	constexpr ValueBase(int x) : value(x) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit constexpr ValueBase(int, int y) : value(y) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	constexpr ValueBase(int, int y) : value(y) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit constexpr ValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	constexpr ValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
	TEST_CONSTEXPR_CXX14 ValueBase& operator=(int xvalue) noexcept {
	value = xvalue;
	return *this;
	}
	//~ValueBase() { assert(value != -999); value = -999; }
	int value;
	#ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	protected:
	#endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	constexpr static int check_value(int const& val) {
	#if TEST_STD_VER < 14
	return val == -1 \|\| val == 999 ? (TEST_THROW(42), 0) : val;
	#else
	assert(val != -1); assert(val != 999);
	return val;
	#endif
	}
	constexpr static int check_value(int& val, int val_cp = 0) {
	#if TEST_STD_VER < 14
	return val_cp = val, val = -1, (val_cp == -1 \|\| val_cp == 999 ? (TEST_THROW(42), 0) : val_cp);
	#else
	assert(val != -1); assert(val != 999);
	val_cp = val;
	val = -1;
	return val_cp;
	#endif
	}
	constexpr ValueBase() noexcept : value(0) {}
	constexpr ValueBase(ValueBase const& o) noexcept : value(check_value(o.value)) {
	}
	constexpr ValueBase(ValueBase && o) noexcept : value(check_value(o.value)) {
	}
	TEST_CONSTEXPR_CXX14 ValueBase& operator=(ValueBase const& o) noexcept {
	assert(o.value != -1); assert(o.value != -999);
	value = o.value;
	return *this;
	}
	TEST_CONSTEXPR_CXX14 ValueBase& operator=(ValueBase&& o) noexcept {
	assert(o.value != -1); assert(o.value != -999);
	value = o.value;
	o.value = -1;
	return *this;
	}
	};


	template <bool Explicit = false>
	struct TrivialValueBase {
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit constexpr TrivialValueBase(int x) : value(x) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	constexpr TrivialValueBase(int x) : value(x) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit constexpr TrivialValueBase(int, int y) : value(y) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	constexpr TrivialValueBase(int, int y) : value(y) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && Explicit, bool>::type = true>
	explicit constexpr TrivialValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
	template <bool Dummy = true, typename std::enable_if<Dummy && !Explicit, bool>::type = true>
	constexpr TrivialValueBase(std::initializer_list<int>& il, int = 0) : value(static_cast<int>(il.size())) {}
	int value;
	#ifndef TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	protected:
	#endif // !TEST_WORKAROUND_C1XX_BROKEN_ZA_CTOR_CHECK
	constexpr TrivialValueBase() noexcept : value(0) {}
	};

	}

	//============================================================================//
	// Trivial Implicit Test Types
	namespace ImplicitTypes {
	#include "archetypes.ipp"
	}

	//============================================================================//
	// Trivial Explicit Test Types
	namespace ExplicitTypes {
	#define DEFINE_EXPLICIT explicit
	#include "archetypes.ipp"
	}

	//============================================================================//
	//
	namespace NonConstexprTypes {
	#define DEFINE_CONSTEXPR
	#include "archetypes.ipp"
	}

	//============================================================================//
	// Non-literal implicit test types
	namespace NonLiteralTypes {
	#define DEFINE_ASSIGN_CONSTEXPR
	#define DEFINE_DTOR(Name) ~Name() {}
	#include "archetypes.ipp"
	}

	//============================================================================//
	// Non-throwing implicit test types
	namespace NonThrowingTypes {
	#define DEFINE_NOEXCEPT noexcept
	#include "archetypes.ipp"
	}

	//============================================================================//
	// Non-Trivially Copyable Implicit Test Types
	namespace NonTrivialTypes {
	#define DEFINE_CTOR {}
	#define DEFINE_ASSIGN { return *this; }
	#include "archetypes.ipp"
	}

	//============================================================================//
	// Implicit counting types
	namespace TestTypes {
	#define DEFINE_CONSTEXPR
	#define DEFINE_BASE(Name) ::ArchetypeBases::TestBase<Name>
	#include "archetypes.ipp"

	using TestType = AllCtors;

	// Add equality operators
	template <class Tp>
	constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
	return L.value == R.value;
	}

	template <class Tp>
	constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
	return L.value != R.value;
	}

	}

	//============================================================================//
	// Implicit counting types
	namespace ExplicitTestTypes {
	#define DEFINE_CONSTEXPR
	#define DEFINE_EXPLICIT explicit
	#define DEFINE_BASE(Name) ::ArchetypeBases::TestBase<Name, true>
	#include "archetypes.ipp"

	using TestType = AllCtors;

	// Add equality operators
	template <class Tp>
	constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
	return L.value == R.value;
	}

	template <class Tp>
	constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
	return L.value != R.value;
	}

	}

	//============================================================================//
	// Implicit value types
	namespace ConstexprTestTypes {
	#define DEFINE_BASE(Name) ::ArchetypeBases::ValueBase<>
	#include "archetypes.ipp"

	using TestType = AllCtors;

	// Add equality operators
	template <class Tp>
	constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
	return L.value == R.value;
	}

	template <class Tp>
	constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
	return L.value != R.value;
	}

	} // end namespace ConstexprTestTypes


	//============================================================================//
	//
	namespace ExplicitConstexprTestTypes {
	#define DEFINE_EXPLICIT explicit
	#define DEFINE_BASE(Name) ::ArchetypeBases::ValueBase<true>
	#include "archetypes.ipp"

	using TestType = AllCtors;

	// Add equality operators
	template <class Tp>
	constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
	return L.value == R.value;
	}

	template <class Tp>
	constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
	return L.value != R.value;
	}

	} // end namespace ExplicitConstexprTestTypes


	//============================================================================//
	//
	namespace TrivialTestTypes {
	#define DEFINE_BASE(Name) ::ArchetypeBases::TrivialValueBase<false>
	#include "archetypes.ipp"

	using TestType = AllCtors;

	// Add equality operators
	template <class Tp>
	constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
	return L.value == R.value;
	}

	template <class Tp>
	constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
	return L.value != R.value;
	}

	} // end namespace TrivialTestTypes

	//============================================================================//
	//
	namespace ExplicitTrivialTestTypes {
	#define DEFINE_EXPLICIT explicit
	#define DEFINE_BASE(Name) ::ArchetypeBases::TrivialValueBase<true>
	#include "archetypes.ipp"

	using TestType = AllCtors;

	// Add equality operators
	template <class Tp>
	constexpr bool operator==(Tp const& L, Tp const& R) noexcept {
	return L.value == R.value;
	}

	template <class Tp>
	constexpr bool operator!=(Tp const& L, Tp const& R) noexcept {
	return L.value != R.value;
	}

	} // end namespace ExplicitTrivialTestTypes

	#endif // TEST_STD_VER >= 11

	#endif // TEST_SUPPORT_ARCHETYPES_HPP