test/support/poisoned_hash_helper.h - third_party/libcxx - Git at Google

 // -*- C++ -*-
 //===----------------------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 #ifndef SUPPORT_POISONED_HASH_HELPER_H
 #define SUPPORT_POISONED_HASH_HELPER_H

 #include <type_traits>
 #include <cassert>

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

 #if TEST_STD_VER < 11
 #error this header may only be used in C++11 or newer
 #endif

 template <class ...Args> struct TypeList;

 // Test that the specified Hash meets the requirements of an enabled hash
 template <class Hash, class Key, class InputKey = Key>
 void test_hash_enabled(InputKey const& key = InputKey{});

 template <class T, class InputKey = T>
 void test_hash_enabled_for_type(InputKey const& key = InputKey{}) {
   return test_hash_enabled<std::hash<T>, T, InputKey>(key);
 }

 // Test that the specified Hash meets the requirements of a disabled hash.
 template <class Hash, class Key>
 void test_hash_disabled();

 template <class T>
 void test_hash_disabled_for_type() {
   return test_hash_disabled<std::hash<T>, T>();
 }

 namespace PoisonedHashDetail {
   enum Enum {};
   enum EnumClass : bool {};
   struct Class {};
 }

 // Each header that declares the template hash provides enabled
 // specializations of hash for nullptr t and all cv-unqualified
 // arithmetic, enumeration, and pointer types.
 using LibraryHashTypes = TypeList<
 #if TEST_STD_VER > 14
       decltype(nullptr),
 #endif
       bool,
       char,
       signed char,
       unsigned char,
       wchar_t,
 #ifndef _LIBCPP_HAS_NO_UNICODE_CHARS
       char16_t,
       char32_t,
 #endif
       short,
       unsigned short,
       int,
       unsigned int,
       long,
       unsigned long,
       long long,
       unsigned long long,
 #ifndef _LIBCPP_HAS_NO_INT128
       __int128_t,
       __uint128_t,
 #endif
       float,
       double,
       long double,
 #if TEST_STD_VER >= 14
       // Enum types
       PoisonedHashDetail::Enum,
       PoisonedHashDetail::EnumClass,
 #endif
       // pointer types
       void*,
       void const*,
       PoisonedHashDetail::Class*
     >;


 // Test that each of the library hash specializations for  arithmetic types,
 // enum types, and pointer types are available and enabled.
 template <class Types = LibraryHashTypes>
 void test_library_hash_specializations_available(Types = Types{});


 namespace PoisonedHashDetail {

 template <class T, class = typename T::foo_bar_baz>
 constexpr bool instantiate(int) { return true; }
 template <class> constexpr bool instantiate(long) { return true; }
 template <class T> constexpr bool instantiate() { return instantiate<T>(0); }

 template <class To>
 struct ConvertibleToSimple {
   operator To() const {
     return To{};
   }
 };

 template <class To>
 struct ConvertibleTo {
   To to{};
   operator To&() & { return to; }
   operator To const&() const & { return to; }
   operator To&&() && { return std::move(to); }
   operator To const&&() const && { return std::move(to); }
 };

 template <class HashExpr,
          class Res = typename std::result_of<HashExpr>::type>
 constexpr bool can_hash(int) {
   return std::is_same<Res, size_t>::value;
 }
 template <class> constexpr bool can_hash(long) { return false; }
 template <class T> constexpr bool can_hash() { return can_hash<T>(0); }

 } // namespace PoisonedHashDetail

 template <class Hash, class Key, class InputKey>
 void test_hash_enabled(InputKey const& key) {
   using namespace PoisonedHashDetail;

   static_assert(std::is_destructible<Hash>::value, "");
   // Enabled hash requirements
   static_assert(std::is_default_constructible<Hash>::value, "");
   static_assert(std::is_copy_constructible<Hash>::value, "");
   static_assert(std::is_move_constructible<Hash>::value, "");
   static_assert(std::is_copy_assignable<Hash>::value, "");
   static_assert(std::is_move_assignable<Hash>::value, "");

 #if TEST_STD_VER > 14
   static_assert(std::is_swappable<Hash>::value, "");
 #elif defined(_LIBCPP_VERSION)
   static_assert(std::__is_swappable<Hash>::value, "");
 #endif

   // Hashable requirements
   static_assert(can_hash<Hash(Key&)>(), "");
   static_assert(can_hash<Hash(Key const&)>(), "");
   static_assert(can_hash<Hash(Key&&)>(), "");
   static_assert(can_hash<Hash const&(Key&)>(), "");
   static_assert(can_hash<Hash const&(Key const&)>(), "");
   static_assert(can_hash<Hash const&(Key&&)>(), "");

   static_assert(can_hash<Hash(ConvertibleToSimple<Key>&)>(), "");
   static_assert(can_hash<Hash(ConvertibleToSimple<Key> const&)>(), "");
   static_assert(can_hash<Hash(ConvertibleToSimple<Key>&&)>(), "");

   static_assert(can_hash<Hash(ConvertibleTo<Key>&)>(), "");
   static_assert(can_hash<Hash(ConvertibleTo<Key> const&)>(), "");
   static_assert(can_hash<Hash(ConvertibleTo<Key> &&)>(), "");
   static_assert(can_hash<Hash(ConvertibleTo<Key> const&&)>(), "");

   const Hash h{};
   assert(h(key) == h(key));

 }

 template <class Hash, class Key>
 void test_hash_disabled() {
   using namespace PoisonedHashDetail;

   // Disabled hash requirements
   static_assert(!std::is_default_constructible<Hash>::value, "");
   static_assert(!std::is_copy_constructible<Hash>::value, "");
   static_assert(!std::is_move_constructible<Hash>::value, "");
   static_assert(!std::is_copy_assignable<Hash>::value, "");
   static_assert(!std::is_move_assignable<Hash>::value, "");

   static_assert(!std::is_function<
       typename std::remove_pointer<
           typename std::remove_reference<Hash>::type
       >::type
     >::value, "");

   // Hashable requirements
   static_assert(!can_hash<Hash(Key&)>(), "");
   static_assert(!can_hash<Hash(Key const&)>(), "");
   static_assert(!can_hash<Hash(Key&&)>(), "");
   static_assert(!can_hash<Hash const&(Key&)>(), "");
   static_assert(!can_hash<Hash const&(Key const&)>(), "");
   static_assert(!can_hash<Hash const&(Key&&)>(), "");

   static_assert(!can_hash<Hash(ConvertibleToSimple<Key>&)>(), "");
   static_assert(!can_hash<Hash(ConvertibleToSimple<Key> const&)>(), "");
   static_assert(!can_hash<Hash(ConvertibleToSimple<Key>&&)>(), "");

   static_assert(!can_hash<Hash(ConvertibleTo<Key>&)>(), "");
   static_assert(!can_hash<Hash(ConvertibleTo<Key> const&)>(), "");
   static_assert(!can_hash<Hash(ConvertibleTo<Key> &&)>(), "");
   static_assert(!can_hash<Hash(ConvertibleTo<Key> const&&)>(), "");
 }


 template <class First, class ...Rest>
 struct TypeList<First, Rest...> {
   template <template <class> class Trait, bool Expect = true>
   static constexpr bool assertTrait() {
     static_assert(Trait<First>::value == Expect, "");
     return TypeList<Rest...>::template assertTrait<Trait, Expect>();
   }

   template <class Trait>
   static void applyTrait() {
     Trait::template apply<First>();
     TypeList<Rest...>::template applyTrait<Trait>();
   }
 };

 template <>
 struct TypeList<> {
   template <template <class> class Trait, bool Expect = true>
   static constexpr bool assertTrait() {
     return true;
   }
   template <class Trait>
   static void applyTrait() {}
 };


 struct TestLibraryTrait {
     template <class Type>
     static void apply() { test_hash_enabled<std::hash<Type>, Type>(); }
 };

 template <class Types>
 void test_library_hash_specializations_available(Types) {
   Types::template applyTrait<TestLibraryTrait >();
 }

 #endif // SUPPORT_POISONED_HASH_HELPER_H
	// -- C++ --
	//===----------------------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	#ifndef SUPPORT_POISONED_HASH_HELPER_H
	#define SUPPORT_POISONED_HASH_HELPER_H

	#include <type_traits>
	#include <cassert>

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

	#if TEST_STD_VER < 11
	#error this header may only be used in C++11 or newer
	#endif

	template <class ...Args> struct TypeList;

	// Test that the specified Hash meets the requirements of an enabled hash
	template <class Hash, class Key, class InputKey = Key>
	void test_hash_enabled(InputKey const& key = InputKey{});

	template <class T, class InputKey = T>
	void test_hash_enabled_for_type(InputKey const& key = InputKey{}) {
	return test_hash_enabled<std::hash<T>, T, InputKey>(key);
	}

	// Test that the specified Hash meets the requirements of a disabled hash.
	template <class Hash, class Key>
	void test_hash_disabled();

	template <class T>
	void test_hash_disabled_for_type() {
	return test_hash_disabled<std::hash<T>, T>();
	}

	namespace PoisonedHashDetail {
	enum Enum {};
	enum EnumClass : bool {};
	struct Class {};
	}

	// Each header that declares the template hash provides enabled
	// specializations of hash for nullptr t and all cv-unqualified
	// arithmetic, enumeration, and pointer types.
	using LibraryHashTypes = TypeList<
	#if TEST_STD_VER > 14
	decltype(nullptr),
	#endif
	bool,
	char,
	signed char,
	unsigned char,
	wchar_t,
	#ifndef _LIBCPP_HAS_NO_UNICODE_CHARS
	char16_t,
	char32_t,
	#endif
	short,
	unsigned short,
	int,
	unsigned int,
	long,
	unsigned long,
	long long,
	unsigned long long,
	#ifndef _LIBCPP_HAS_NO_INT128
	__int128_t,
	__uint128_t,
	#endif
	float,
	double,
	long double,
	#if TEST_STD_VER >= 14
	// Enum types
	PoisonedHashDetail::Enum,
	PoisonedHashDetail::EnumClass,
	#endif
	// pointer types
	void*,
	void const*,
	PoisonedHashDetail::Class*
	>;


	// Test that each of the library hash specializations for arithmetic types,
	// enum types, and pointer types are available and enabled.
	template <class Types = LibraryHashTypes>
	void test_library_hash_specializations_available(Types = Types{});


	namespace PoisonedHashDetail {

	template <class T, class = typename T::foo_bar_baz>
	constexpr bool instantiate(int) { return true; }
	template <class> constexpr bool instantiate(long) { return true; }
	template <class T> constexpr bool instantiate() { return instantiate<T>(0); }

	template <class To>
	struct ConvertibleToSimple {
	operator To() const {
	return To{};
	}
	};

	template <class To>
	struct ConvertibleTo {
	To to{};
	operator To&() & { return to; }
	operator To const&() const & { return to; }
	operator To&&() && { return std::move(to); }
	operator To const&&() const && { return std::move(to); }
	};

	template <class HashExpr,
	class Res = typename std::result_of<HashExpr>::type>
	constexpr bool can_hash(int) {
	return std::is_same<Res, size_t>::value;
	}
	template <class> constexpr bool can_hash(long) { return false; }
	template <class T> constexpr bool can_hash() { return can_hash<T>(0); }

	} // namespace PoisonedHashDetail

	template <class Hash, class Key, class InputKey>
	void test_hash_enabled(InputKey const& key) {
	using namespace PoisonedHashDetail;

	static_assert(std::is_destructible<Hash>::value, "");
	// Enabled hash requirements
	static_assert(std::is_default_constructible<Hash>::value, "");
	static_assert(std::is_copy_constructible<Hash>::value, "");
	static_assert(std::is_move_constructible<Hash>::value, "");
	static_assert(std::is_copy_assignable<Hash>::value, "");
	static_assert(std::is_move_assignable<Hash>::value, "");

	#if TEST_STD_VER > 14
	static_assert(std::is_swappable<Hash>::value, "");
	#elif defined(_LIBCPP_VERSION)
	static_assert(std::__is_swappable<Hash>::value, "");
	#endif

	// Hashable requirements
	static_assert(can_hash<Hash(Key&)>(), "");
	static_assert(can_hash<Hash(Key const&)>(), "");
	static_assert(can_hash<Hash(Key&&)>(), "");
	static_assert(can_hash<Hash const&(Key&)>(), "");
	static_assert(can_hash<Hash const&(Key const&)>(), "");
	static_assert(can_hash<Hash const&(Key&&)>(), "");

	static_assert(can_hash<Hash(ConvertibleToSimple<Key>&)>(), "");
	static_assert(can_hash<Hash(ConvertibleToSimple<Key> const&)>(), "");
	static_assert(can_hash<Hash(ConvertibleToSimple<Key>&&)>(), "");

	static_assert(can_hash<Hash(ConvertibleTo<Key>&)>(), "");
	static_assert(can_hash<Hash(ConvertibleTo<Key> const&)>(), "");
	static_assert(can_hash<Hash(ConvertibleTo<Key> &&)>(), "");
	static_assert(can_hash<Hash(ConvertibleTo<Key> const&&)>(), "");

	const Hash h{};
	assert(h(key) == h(key));

	}

	template <class Hash, class Key>
	void test_hash_disabled() {
	using namespace PoisonedHashDetail;

	// Disabled hash requirements
	static_assert(!std::is_default_constructible<Hash>::value, "");
	static_assert(!std::is_copy_constructible<Hash>::value, "");
	static_assert(!std::is_move_constructible<Hash>::value, "");
	static_assert(!std::is_copy_assignable<Hash>::value, "");
	static_assert(!std::is_move_assignable<Hash>::value, "");

	static_assert(!std::is_function<
	typename std::remove_pointer<
	typename std::remove_reference<Hash>::type
	>::type
	>::value, "");

	// Hashable requirements
	static_assert(!can_hash<Hash(Key&)>(), "");
	static_assert(!can_hash<Hash(Key const&)>(), "");
	static_assert(!can_hash<Hash(Key&&)>(), "");
	static_assert(!can_hash<Hash const&(Key&)>(), "");
	static_assert(!can_hash<Hash const&(Key const&)>(), "");
	static_assert(!can_hash<Hash const&(Key&&)>(), "");

	static_assert(!can_hash<Hash(ConvertibleToSimple<Key>&)>(), "");
	static_assert(!can_hash<Hash(ConvertibleToSimple<Key> const&)>(), "");
	static_assert(!can_hash<Hash(ConvertibleToSimple<Key>&&)>(), "");

	static_assert(!can_hash<Hash(ConvertibleTo<Key>&)>(), "");
	static_assert(!can_hash<Hash(ConvertibleTo<Key> const&)>(), "");
	static_assert(!can_hash<Hash(ConvertibleTo<Key> &&)>(), "");
	static_assert(!can_hash<Hash(ConvertibleTo<Key> const&&)>(), "");
	}


	template <class First, class ...Rest>
	struct TypeList<First, Rest...> {
	template <template <class> class Trait, bool Expect = true>
	static constexpr bool assertTrait() {
	static_assert(Trait<First>::value == Expect, "");
	return TypeList<Rest...>::template assertTrait<Trait, Expect>();
	}

	template <class Trait>
	static void applyTrait() {
	Trait::template apply<First>();
	TypeList<Rest...>::template applyTrait<Trait>();
	}
	};

	template <>
	struct TypeList<> {
	template <template <class> class Trait, bool Expect = true>
	static constexpr bool assertTrait() {
	return true;
	}
	template <class Trait>
	static void applyTrait() {}
	};


	struct TestLibraryTrait {
	template <class Type>
	static void apply() { test_hash_enabled<std::hash<Type>, Type>(); }
	};

	template <class Types>
	void test_library_hash_specializations_available(Types) {
	Types::template applyTrait<TestLibraryTrait >();
	}

	#endif // SUPPORT_POISONED_HASH_HELPER_H