libcxx/test/support/propagate_value_category.hpp - llvm-project - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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 TEST_SUPPORT_PROPAGATE_VALUE_CATEGORY
 #define TEST_SUPPORT_PROPAGATE_VALUE_CATEGORY

 #include "test_macros.h"
 #include <type_traits>

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

 using UnderlyingVCType = unsigned;
 enum ValueCategory : UnderlyingVCType {
   VC_None = 0,
   VC_LVal = 1 << 0,
   VC_RVal = 1 << 1,
   VC_Const = 1 << 2,
   VC_Volatile = 1 << 3,
   VC_ConstVolatile = VC_Const | VC_Volatile
 };

 inline constexpr ValueCategory operator&(ValueCategory LHS, ValueCategory RHS) {
   return ValueCategory(LHS & (UnderlyingVCType)RHS);
 }

 inline constexpr ValueCategory operator|(ValueCategory LHS, ValueCategory RHS) {
   return ValueCategory(LHS | (UnderlyingVCType)RHS);
 }

 inline constexpr ValueCategory operator^(ValueCategory LHS, ValueCategory RHS) {
   return ValueCategory(LHS ^ (UnderlyingVCType)RHS);
 }

 inline constexpr bool isValidValueCategory(ValueCategory VC) {
   return (VC & (VC_LVal | VC_RVal)) != (VC_LVal | VC_RVal);
 }

 inline constexpr bool hasValueCategory(ValueCategory Arg, ValueCategory Key) {
   return Arg == Key || ((Arg & Key) == Key);
 }

 template <class Tp>
 using UnCVRef =
     typename std::remove_cv<typename std::remove_reference<Tp>::type>::type;

 template <class Tp>
 constexpr ValueCategory getReferenceQuals() {
   return std::is_lvalue_reference<Tp>::value
              ? VC_LVal
              : (std::is_rvalue_reference<Tp>::value ? VC_RVal : VC_None);
 }
 static_assert(getReferenceQuals<int>() == VC_None, "");
 static_assert(getReferenceQuals<int &>() == VC_LVal, "");
 static_assert(getReferenceQuals<int &&>() == VC_RVal, "");

 template <class Tp>
 constexpr ValueCategory getCVQuals() {
   using Vp = typename std::remove_reference<Tp>::type;
   return std::is_const<Vp>::value && std::is_volatile<Vp>::value
              ? VC_ConstVolatile
              : (std::is_const<Vp>::value
                     ? VC_Const
                     : (std::is_volatile<Vp>::value ? VC_Volatile : VC_None));
 }
 static_assert(getCVQuals<int>() == VC_None, "");
 static_assert(getCVQuals<int const>() == VC_Const, "");
 static_assert(getCVQuals<int volatile>() == VC_Volatile, "");
 static_assert(getCVQuals<int const volatile>() == VC_ConstVolatile, "");
 static_assert(getCVQuals<int &>() == VC_None, "");
 static_assert(getCVQuals<int const &>() == VC_Const, "");

 template <class Tp>
 inline constexpr ValueCategory getValueCategory() {
   return getReferenceQuals<Tp>() | getCVQuals<Tp>();
 }
 static_assert(getValueCategory<int>() == VC_None, "");
 static_assert(getValueCategory<int const &>() == (VC_LVal | VC_Const), "");
 static_assert(getValueCategory<int const volatile &&>() ==
                   (VC_RVal | VC_ConstVolatile),
               "");

 template <ValueCategory VC>
 struct ApplyValueCategory {
 private:
   static_assert(isValidValueCategory(VC), "");

   template <bool Pred, class Then, class Else>
   using CondT = typename std::conditional<Pred, Then, Else>::type;

 public:
   template <class Tp, class Vp = UnCVRef<Tp>>
   using ApplyCVQuals = CondT<
       hasValueCategory(VC, VC_ConstVolatile), typename std::add_cv<Vp>::type,
       CondT<hasValueCategory(VC, VC_Const), typename std::add_const<Vp>::type,
             CondT<hasValueCategory(VC, VC_Volatile),
                   typename std::add_volatile<Vp>::type, Tp>>>;

   template <class Tp, class Vp = typename std::remove_reference<Tp>::type>
   using ApplyReferenceQuals =
       CondT<hasValueCategory(VC, VC_LVal),
             typename std::add_lvalue_reference<Vp>::type,
             CondT<hasValueCategory(VC, VC_RVal),
                   typename std::add_rvalue_reference<Vp>::type, Vp>>;

   template <class Tp>
   using Apply = ApplyReferenceQuals<ApplyCVQuals<UnCVRef<Tp>>>;

   template <class Tp, bool Dummy = true,
             typename std::enable_if<Dummy && (VC & VC_LVal), bool>::type = true>
   static Apply<UnCVRef<Tp>> cast(Tp &&t) {
     using ToType = Apply<UnCVRef<Tp>>;
     return static_cast<ToType>(t);
   }

   template <class Tp, bool Dummy = true,
             typename std::enable_if<Dummy && (VC & VC_RVal), bool>::type = true>
   static Apply<UnCVRef<Tp>> cast(Tp &&t) {
     using ToType = Apply<UnCVRef<Tp>>;
     return static_cast<ToType>(std::move(t));
   }

   template <
       class Tp, bool Dummy = true,
       typename std::enable_if<Dummy && ((VC & (VC_LVal | VC_RVal)) == VC_None),
                               bool>::type = true>
   static Apply<UnCVRef<Tp>> cast(Tp &&t) {
     return t;
   }
 };

 template <ValueCategory VC, class Tp>
 using ApplyValueCategoryT = typename ApplyValueCategory<VC>::template Apply<Tp>;

 template <class Tp>
 using PropagateValueCategory = ApplyValueCategory<getValueCategory<Tp>()>;

 template <class Tp, class Up>
 using PropagateValueCategoryT =
     typename ApplyValueCategory<getValueCategory<Tp>()>::template Apply<Up>;

 template <ValueCategory VC, class Tp>
 typename ApplyValueCategory<VC>::template Apply<Tp> ValueCategoryCast(Tp &&t) {
   return ApplyValueCategory<VC>::cast(std::forward<Tp>(t));
 };

 #endif // TEST_SUPPORT_PROPAGATE_VALUE_CATEGORY
	//===----------------------------------------------------------------------===//
	//
	// 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 TEST_SUPPORT_PROPAGATE_VALUE_CATEGORY
	#define TEST_SUPPORT_PROPAGATE_VALUE_CATEGORY

	#include "test_macros.h"
	#include <type_traits>

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

	using UnderlyingVCType = unsigned;
	enum ValueCategory : UnderlyingVCType {
	VC_None = 0,
	VC_LVal = 1 << 0,
	VC_RVal = 1 << 1,
	VC_Const = 1 << 2,
	VC_Volatile = 1 << 3,
	VC_ConstVolatile = VC_Const \| VC_Volatile
	};

	inline constexpr ValueCategory operator&(ValueCategory LHS, ValueCategory RHS) {
	return ValueCategory(LHS & (UnderlyingVCType)RHS);
	}

	inline constexpr ValueCategory operator\|(ValueCategory LHS, ValueCategory RHS) {
	return ValueCategory(LHS \| (UnderlyingVCType)RHS);
	}

	inline constexpr ValueCategory operator^(ValueCategory LHS, ValueCategory RHS) {
	return ValueCategory(LHS ^ (UnderlyingVCType)RHS);
	}

	inline constexpr bool isValidValueCategory(ValueCategory VC) {
	return (VC & (VC_LVal \| VC_RVal)) != (VC_LVal \| VC_RVal);
	}

	inline constexpr bool hasValueCategory(ValueCategory Arg, ValueCategory Key) {
	return Arg == Key \|\| ((Arg & Key) == Key);
	}

	template <class Tp>
	using UnCVRef =
	typename std::remove_cv<typename std::remove_reference<Tp>::type>::type;

	template <class Tp>
	constexpr ValueCategory getReferenceQuals() {
	return std::is_lvalue_reference<Tp>::value
	? VC_LVal
	: (std::is_rvalue_reference<Tp>::value ? VC_RVal : VC_None);
	}
	static_assert(getReferenceQuals<int>() == VC_None, "");
	static_assert(getReferenceQuals<int &>() == VC_LVal, "");
	static_assert(getReferenceQuals<int &&>() == VC_RVal, "");

	template <class Tp>
	constexpr ValueCategory getCVQuals() {
	using Vp = typename std::remove_reference<Tp>::type;
	return std::is_const<Vp>::value && std::is_volatile<Vp>::value
	? VC_ConstVolatile
	: (std::is_const<Vp>::value
	? VC_Const
	: (std::is_volatile<Vp>::value ? VC_Volatile : VC_None));
	}
	static_assert(getCVQuals<int>() == VC_None, "");
	static_assert(getCVQuals<int const>() == VC_Const, "");
	static_assert(getCVQuals<int volatile>() == VC_Volatile, "");
	static_assert(getCVQuals<int const volatile>() == VC_ConstVolatile, "");
	static_assert(getCVQuals<int &>() == VC_None, "");
	static_assert(getCVQuals<int const &>() == VC_Const, "");

	template <class Tp>
	inline constexpr ValueCategory getValueCategory() {
	return getReferenceQuals<Tp>() \| getCVQuals<Tp>();
	}
	static_assert(getValueCategory<int>() == VC_None, "");
	static_assert(getValueCategory<int const &>() == (VC_LVal \| VC_Const), "");
	static_assert(getValueCategory<int const volatile &&>() ==
	(VC_RVal \| VC_ConstVolatile),
	"");

	template <ValueCategory VC>
	struct ApplyValueCategory {
	private:
	static_assert(isValidValueCategory(VC), "");

	template <bool Pred, class Then, class Else>
	using CondT = typename std::conditional<Pred, Then, Else>::type;

	public:
	template <class Tp, class Vp = UnCVRef<Tp>>
	using ApplyCVQuals = CondT<
	hasValueCategory(VC, VC_ConstVolatile), typename std::add_cv<Vp>::type,
	CondT<hasValueCategory(VC, VC_Const), typename std::add_const<Vp>::type,
	CondT<hasValueCategory(VC, VC_Volatile),
	typename std::add_volatile<Vp>::type, Tp>>>;

	template <class Tp, class Vp = typename std::remove_reference<Tp>::type>
	using ApplyReferenceQuals =
	CondT<hasValueCategory(VC, VC_LVal),
	typename std::add_lvalue_reference<Vp>::type,
	CondT<hasValueCategory(VC, VC_RVal),
	typename std::add_rvalue_reference<Vp>::type, Vp>>;

	template <class Tp>
	using Apply = ApplyReferenceQuals<ApplyCVQuals<UnCVRef<Tp>>>;

	template <class Tp, bool Dummy = true,
	typename std::enable_if<Dummy && (VC & VC_LVal), bool>::type = true>
	static Apply<UnCVRef<Tp>> cast(Tp &&t) {
	using ToType = Apply<UnCVRef<Tp>>;
	return static_cast<ToType>(t);
	}

	template <class Tp, bool Dummy = true,
	typename std::enable_if<Dummy && (VC & VC_RVal), bool>::type = true>
	static Apply<UnCVRef<Tp>> cast(Tp &&t) {
	using ToType = Apply<UnCVRef<Tp>>;
	return static_cast<ToType>(std::move(t));
	}

	template <
	class Tp, bool Dummy = true,
	typename std::enable_if<Dummy && ((VC & (VC_LVal \| VC_RVal)) == VC_None),
	bool>::type = true>
	static Apply<UnCVRef<Tp>> cast(Tp &&t) {
	return t;
	}
	};

	template <ValueCategory VC, class Tp>
	using ApplyValueCategoryT = typename ApplyValueCategory<VC>::template Apply<Tp>;

	template <class Tp>
	using PropagateValueCategory = ApplyValueCategory<getValueCategory<Tp>()>;

	template <class Tp, class Up>
	using PropagateValueCategoryT =
	typename ApplyValueCategory<getValueCategory<Tp>()>::template Apply<Up>;

	template <ValueCategory VC, class Tp>
	typename ApplyValueCategory<VC>::template Apply<Tp> ValueCategoryCast(Tp &&t) {
	return ApplyValueCategory<VC>::cast(std::forward<Tp>(t));
	};

	#endif // TEST_SUPPORT_PROPAGATE_VALUE_CATEGORY