src/third_party/mozjs-45/mfbt/TypedEnumBits.h - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
 /* vim: set ts=8 sts=2 et sw=2 tw=80: */
 /* This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 /*
  * MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS allows using a typed enum as bit flags.
  */

 #ifndef mozilla_TypedEnumBits_h
 #define mozilla_TypedEnumBits_h

 #include "mozilla/Attributes.h"
 #include "mozilla/IntegerTypeTraits.h"

 namespace mozilla {

 /*
  * The problem that CastableTypedEnumResult aims to solve is that
  * typed enums are not convertible to bool, and there is no way to make them
  * be, yet user code wants to be able to write
  *
  *   if (myFlags & Flags::SOME_PARTICULAR_FLAG)              (1)
  *
  * There are different approaches to solving this. Most of them require
  * adapting user code. For example, we could implement operator! and have
  * the user write
  *
  *   if (!!(myFlags & Flags::SOME_PARTICULAR_FLAG))          (2)
  *
  * Or we could supply a IsNonZero() or Any() function returning whether
  * an enum value is nonzero, and have the user write
  *
  *   if (Any(Flags & Flags::SOME_PARTICULAR_FLAG))           (3)
  *
  * But instead, we choose to preserve the original user syntax (1) as it
  * is inherently more readable, and to ease porting existing code to typed
  * enums. We achieve this by having operator& and other binary bitwise
  * operators have as return type a class, CastableTypedEnumResult,
  * that wraps a typed enum but adds bool convertibility.
  */
 template<typename E>
 class CastableTypedEnumResult
 {
 private:
   const E mValue;

 public:
   explicit MOZ_CONSTEXPR CastableTypedEnumResult(E aValue)
     : mValue(aValue)
   {}

   MOZ_CONSTEXPR operator E() const { return mValue; }

   template<typename DestinationType>
   MOZ_EXPLICIT_CONVERSION MOZ_CONSTEXPR
   operator DestinationType() const { return DestinationType(mValue); }

   MOZ_CONSTEXPR bool operator !() const { return !bool(mValue); }
 };

 #define MOZ_CASTABLETYPEDENUMRESULT_BINOP(Op, OtherType, ReturnType) \
 template<typename E> \
 MOZ_CONSTEXPR ReturnType \
 operator Op(const OtherType& aE, const CastableTypedEnumResult<E>& aR) \
 { \
   return ReturnType(aE Op OtherType(aR)); \
 } \
 template<typename E> \
 MOZ_CONSTEXPR ReturnType \
 operator Op(const CastableTypedEnumResult<E>& aR, const OtherType& aE) \
 { \
   return ReturnType(OtherType(aR) Op aE); \
 } \
 template<typename E> \
 MOZ_CONSTEXPR ReturnType \
 operator Op(const CastableTypedEnumResult<E>& aR1, \
             const CastableTypedEnumResult<E>& aR2) \
 { \
   return ReturnType(OtherType(aR1) Op OtherType(aR2)); \
 }

 MOZ_CASTABLETYPEDENUMRESULT_BINOP(|, E, CastableTypedEnumResult<E>)
 MOZ_CASTABLETYPEDENUMRESULT_BINOP(&, E, CastableTypedEnumResult<E>)
 MOZ_CASTABLETYPEDENUMRESULT_BINOP(^, E, CastableTypedEnumResult<E>)
 MOZ_CASTABLETYPEDENUMRESULT_BINOP(==, E, bool)
 MOZ_CASTABLETYPEDENUMRESULT_BINOP(!=, E, bool)
 MOZ_CASTABLETYPEDENUMRESULT_BINOP(||, bool, bool)
 MOZ_CASTABLETYPEDENUMRESULT_BINOP(&&, bool, bool)

 template <typename E>
 MOZ_CONSTEXPR CastableTypedEnumResult<E>
 operator ~(const CastableTypedEnumResult<E>& aR)
 {
   return CastableTypedEnumResult<E>(~(E(aR)));
 }

 #define MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(Op) \
 template<typename E> \
 E& \
 operator Op(E& aR1, \
             const CastableTypedEnumResult<E>& aR2) \
 { \
   return aR1 Op E(aR2); \
 }

 MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(&=)
 MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(|=)
 MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(^=)

 #undef MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP

 #undef MOZ_CASTABLETYPEDENUMRESULT_BINOP

 namespace detail {
 template<typename E>
 struct UnsignedIntegerTypeForEnum
   : UnsignedStdintTypeForSize<sizeof(E)>
 {};
 } // namespace detail

 } // namespace mozilla

 #define MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, Op) \
    inline MOZ_CONSTEXPR mozilla::CastableTypedEnumResult<Name> \
    operator Op(Name a, Name b) \
    { \
      typedef mozilla::CastableTypedEnumResult<Name> Result; \
      typedef mozilla::detail::UnsignedIntegerTypeForEnum<Name>::Type U; \
      return Result(Name(U(a) Op U(b))); \
    } \
  \
    inline Name& \
    operator Op##=(Name& a, Name b) \
    { \
      return a = a Op b; \
    }

 /**
  * MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS generates standard bitwise operators
  * for the given enum type. Use this to enable using an enum type as bit-field.
  */
 #define MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(Name) \
    MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, |) \
    MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, &) \
    MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, ^) \
    inline MOZ_CONSTEXPR mozilla::CastableTypedEnumResult<Name> \
    operator~(Name a) \
    { \
      typedef mozilla::CastableTypedEnumResult<Name> Result; \
      typedef mozilla::detail::UnsignedIntegerTypeForEnum<Name>::Type U; \
      return Result(Name(~(U(a)))); \
    }

 #endif // mozilla_TypedEnumBits_h
	/* -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -- */
	/* vim: set ts=8 sts=2 et sw=2 tw=80: */
	/* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	/*
	* MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS allows using a typed enum as bit flags.
	*/

	#ifndef mozilla_TypedEnumBits_h
	#define mozilla_TypedEnumBits_h

	#include "mozilla/Attributes.h"
	#include "mozilla/IntegerTypeTraits.h"

	namespace mozilla {

	/*
	* The problem that CastableTypedEnumResult aims to solve is that
	* typed enums are not convertible to bool, and there is no way to make them
	* be, yet user code wants to be able to write
	*
	* if (myFlags & Flags::SOME_PARTICULAR_FLAG) (1)
	*
	* There are different approaches to solving this. Most of them require
	* adapting user code. For example, we could implement operator! and have
	* the user write
	*
	* if (!!(myFlags & Flags::SOME_PARTICULAR_FLAG)) (2)
	*
	* Or we could supply a IsNonZero() or Any() function returning whether
	* an enum value is nonzero, and have the user write
	*
	* if (Any(Flags & Flags::SOME_PARTICULAR_FLAG)) (3)
	*
	* But instead, we choose to preserve the original user syntax (1) as it
	* is inherently more readable, and to ease porting existing code to typed
	* enums. We achieve this by having operator& and other binary bitwise
	* operators have as return type a class, CastableTypedEnumResult,
	* that wraps a typed enum but adds bool convertibility.
	*/
	template<typename E>
	class CastableTypedEnumResult
	{
	private:
	const E mValue;

	public:
	explicit MOZ_CONSTEXPR CastableTypedEnumResult(E aValue)
	: mValue(aValue)
	{}

	MOZ_CONSTEXPR operator E() const { return mValue; }

	template<typename DestinationType>
	MOZ_EXPLICIT_CONVERSION MOZ_CONSTEXPR
	operator DestinationType() const { return DestinationType(mValue); }

	MOZ_CONSTEXPR bool operator !() const { return !bool(mValue); }
	};

	#define MOZ_CASTABLETYPEDENUMRESULT_BINOP(Op, OtherType, ReturnType) \
	template<typename E> \
	MOZ_CONSTEXPR ReturnType \
	operator Op(const OtherType& aE, const CastableTypedEnumResult<E>& aR) \
	{ \
	return ReturnType(aE Op OtherType(aR)); \
	} \
	template<typename E> \
	MOZ_CONSTEXPR ReturnType \
	operator Op(const CastableTypedEnumResult<E>& aR, const OtherType& aE) \
	{ \
	return ReturnType(OtherType(aR) Op aE); \
	} \
	template<typename E> \
	MOZ_CONSTEXPR ReturnType \
	operator Op(const CastableTypedEnumResult<E>& aR1, \
	const CastableTypedEnumResult<E>& aR2) \
	{ \
	return ReturnType(OtherType(aR1) Op OtherType(aR2)); \
	}

	MOZ_CASTABLETYPEDENUMRESULT_BINOP(\|, E, CastableTypedEnumResult<E>)
	MOZ_CASTABLETYPEDENUMRESULT_BINOP(&, E, CastableTypedEnumResult<E>)
	MOZ_CASTABLETYPEDENUMRESULT_BINOP(^, E, CastableTypedEnumResult<E>)
	MOZ_CASTABLETYPEDENUMRESULT_BINOP(==, E, bool)
	MOZ_CASTABLETYPEDENUMRESULT_BINOP(!=, E, bool)
	MOZ_CASTABLETYPEDENUMRESULT_BINOP(\|\|, bool, bool)
	MOZ_CASTABLETYPEDENUMRESULT_BINOP(&&, bool, bool)

	template <typename E>
	MOZ_CONSTEXPR CastableTypedEnumResult<E>
	operator ~(const CastableTypedEnumResult<E>& aR)
	{
	return CastableTypedEnumResult<E>(~(E(aR)));
	}

	#define MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(Op) \
	template<typename E> \
	E& \
	operator Op(E& aR1, \
	const CastableTypedEnumResult<E>& aR2) \
	{ \
	return aR1 Op E(aR2); \
	}

	MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(&=)
	MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(\|=)
	MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP(^=)

	#undef MOZ_CASTABLETYPEDENUMRESULT_COMPOUND_ASSIGN_OP

	#undef MOZ_CASTABLETYPEDENUMRESULT_BINOP

	namespace detail {
	template<typename E>
	struct UnsignedIntegerTypeForEnum
	: UnsignedStdintTypeForSize<sizeof(E)>
	{};
	} // namespace detail

	} // namespace mozilla

	#define MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, Op) \
	inline MOZ_CONSTEXPR mozilla::CastableTypedEnumResult<Name> \
	operator Op(Name a, Name b) \
	{ \
	typedef mozilla::CastableTypedEnumResult<Name> Result; \
	typedef mozilla::detail::UnsignedIntegerTypeForEnum<Name>::Type U; \
	return Result(Name(U(a) Op U(b))); \
	} \
	\
	inline Name& \
	operator Op##=(Name& a, Name b) \
	{ \
	return a = a Op b; \
	}

	/**
	* MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS generates standard bitwise operators
	* for the given enum type. Use this to enable using an enum type as bit-field.
	*/
	#define MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(Name) \
	MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, \|) \
	MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, &) \
	MOZ_MAKE_ENUM_CLASS_BINOP_IMPL(Name, ^) \
	inline MOZ_CONSTEXPR mozilla::CastableTypedEnumResult<Name> \
	operator~(Name a) \
	{ \
	typedef mozilla::CastableTypedEnumResult<Name> Result; \
	typedef mozilla::detail::UnsignedIntegerTypeForEnum<Name>::Type U; \
	return Result(Name(~(U(a)))); \
	}

	#endif // mozilla_TypedEnumBits_h