src/third_party/v8/src/base/flags.h - cobalt - Git at Google

 // Copyright 2014 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_BASE_FLAGS_H_
 #define V8_BASE_FLAGS_H_

 #include <cstddef>

 #include "src/base/compiler-specific.h"

 namespace v8 {
 namespace base {

 // The Flags class provides a type-safe way of storing OR-combinations of enum
 // values. The Flags<T, S> class is a template class, where T is an enum type,
 // and S is the underlying storage type (usually int).
 //
 // The traditional C++ approach for storing OR-combinations of enum values is to
 // use an int or unsigned int variable. The inconvenience with this approach is
 // that there's no type checking at all; any enum value can be OR'd with any
 // other enum value and passed on to a function that takes an int or unsigned
 // int.
 template <typename T, typename S = int>
 class Flags final {
  public:
   using flag_type = T;
   using mask_type = S;

   constexpr Flags() : mask_(0) {}
   constexpr Flags(flag_type flag)  // NOLINT(runtime/explicit)
       : mask_(static_cast<S>(flag)) {}
   constexpr explicit Flags(mask_type mask) : mask_(static_cast<S>(mask)) {}

   constexpr bool operator==(flag_type flag) const {
     return mask_ == static_cast<S>(flag);
   }
   constexpr bool operator!=(flag_type flag) const {
     return mask_ != static_cast<S>(flag);
   }

   Flags& operator&=(const Flags& flags) {
     mask_ &= flags.mask_;
     return *this;
   }
   Flags& operator|=(const Flags& flags) {
     mask_ |= flags.mask_;
     return *this;
   }
   Flags& operator^=(const Flags& flags) {
     mask_ ^= flags.mask_;
     return *this;
   }

   constexpr Flags operator&(const Flags& flags) const {
     return Flags(mask_ & flags.mask_);
   }
   constexpr Flags operator|(const Flags& flags) const {
     return Flags(mask_ | flags.mask_);
   }
   constexpr Flags operator^(const Flags& flags) const {
     return Flags(mask_ ^ flags.mask_);
   }

   Flags& operator&=(flag_type flag) { return operator&=(Flags(flag)); }
   Flags& operator|=(flag_type flag) { return operator|=(Flags(flag)); }
   Flags& operator^=(flag_type flag) { return operator^=(Flags(flag)); }

   constexpr Flags operator&(flag_type flag) const {
     return operator&(Flags(flag));
   }
   constexpr Flags operator|(flag_type flag) const {
     return operator|(Flags(flag));
   }
   constexpr Flags operator^(flag_type flag) const {
     return operator^(Flags(flag));
   }

   constexpr Flags operator~() const { return Flags(~mask_); }

   constexpr operator mask_type() const { return mask_; }
   constexpr bool operator!() const { return !mask_; }

   Flags without(flag_type flag) { return *this & (~Flags(flag)); }

   friend size_t hash_value(const Flags& flags) { return flags.mask_; }

  private:
   mask_type mask_;
 };

 #define DEFINE_OPERATORS_FOR_FLAGS(Type)                                   \
   ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator&( \
       Type::flag_type lhs, Type::flag_type rhs) {                          \
     return Type(lhs) & rhs;                                                \
   }                                                                        \
   ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator&( \
       Type::flag_type lhs, const Type& rhs) {                              \
     return rhs & lhs;                                                      \
   }                                                                        \
   ALLOW_UNUSED_TYPE inline void operator&(Type::flag_type lhs,             \
                                           Type::mask_type rhs) {}          \
   ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator|( \
       Type::flag_type lhs, Type::flag_type rhs) {                          \
     return Type(lhs) | rhs;                                                \
   }                                                                        \
   ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator|( \
       Type::flag_type lhs, const Type& rhs) {                              \
     return rhs | lhs;                                                      \
   }                                                                        \
   ALLOW_UNUSED_TYPE inline void operator|(Type::flag_type lhs,             \
                                           Type::mask_type rhs) {}          \
   ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator^( \
       Type::flag_type lhs, Type::flag_type rhs) {                          \
     return Type(lhs) ^ rhs;                                                \
   }                                                                        \
   ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator^( \
       Type::flag_type lhs, const Type& rhs) {                              \
     return rhs ^ lhs;                                                      \
   }                                                                        \
   ALLOW_UNUSED_TYPE inline void operator^(Type::flag_type lhs,             \
                                           Type::mask_type rhs) {}          \
   ALLOW_UNUSED_TYPE inline constexpr Type operator~(Type::flag_type val) { \
     return ~Type(val);                                                     \
   }

 }  // namespace base
 }  // namespace v8

 #endif  // V8_BASE_FLAGS_H_
	// Copyright 2014 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_BASE_FLAGS_H_
	#define V8_BASE_FLAGS_H_

	#include <cstddef>

	#include "src/base/compiler-specific.h"

	namespace v8 {
	namespace base {

	// The Flags class provides a type-safe way of storing OR-combinations of enum
	// values. The Flags<T, S> class is a template class, where T is an enum type,
	// and S is the underlying storage type (usually int).
	//
	// The traditional C++ approach for storing OR-combinations of enum values is to
	// use an int or unsigned int variable. The inconvenience with this approach is
	// that there's no type checking at all; any enum value can be OR'd with any
	// other enum value and passed on to a function that takes an int or unsigned
	// int.
	template <typename T, typename S = int>
	class Flags final {
	public:
	using flag_type = T;
	using mask_type = S;

	constexpr Flags() : mask_(0) {}
	constexpr Flags(flag_type flag) // NOLINT(runtime/explicit)
	: mask_(static_cast<S>(flag)) {}
	constexpr explicit Flags(mask_type mask) : mask_(static_cast<S>(mask)) {}

	constexpr bool operator==(flag_type flag) const {
	return mask_ == static_cast<S>(flag);
	}
	constexpr bool operator!=(flag_type flag) const {
	return mask_ != static_cast<S>(flag);
	}

	Flags& operator&=(const Flags& flags) {
	mask_ &= flags.mask_;
	return *this;
	}
	Flags& operator\|=(const Flags& flags) {
	mask_ \|= flags.mask_;
	return *this;
	}
	Flags& operator^=(const Flags& flags) {
	mask_ ^= flags.mask_;
	return *this;
	}

	constexpr Flags operator&(const Flags& flags) const {
	return Flags(mask_ & flags.mask_);
	}
	constexpr Flags operator\|(const Flags& flags) const {
	return Flags(mask_ \| flags.mask_);
	}
	constexpr Flags operator^(const Flags& flags) const {
	return Flags(mask_ ^ flags.mask_);
	}

	Flags& operator&=(flag_type flag) { return operator&=(Flags(flag)); }
	Flags& operator\|=(flag_type flag) { return operator\|=(Flags(flag)); }
	Flags& operator^=(flag_type flag) { return operator^=(Flags(flag)); }

	constexpr Flags operator&(flag_type flag) const {
	return operator&(Flags(flag));
	}
	constexpr Flags operator\|(flag_type flag) const {
	return operator\|(Flags(flag));
	}
	constexpr Flags operator^(flag_type flag) const {
	return operator^(Flags(flag));
	}

	constexpr Flags operator~() const { return Flags(~mask_); }

	constexpr operator mask_type() const { return mask_; }
	constexpr bool operator!() const { return !mask_; }

	Flags without(flag_type flag) { return *this & (~Flags(flag)); }

	friend size_t hash_value(const Flags& flags) { return flags.mask_; }

	private:
	mask_type mask_;
	};

	#define DEFINE_OPERATORS_FOR_FLAGS(Type) \
	ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator&( \
	Type::flag_type lhs, Type::flag_type rhs) { \
	return Type(lhs) & rhs; \
	} \
	ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator&( \
	Type::flag_type lhs, const Type& rhs) { \
	return rhs & lhs; \
	} \
	ALLOW_UNUSED_TYPE inline void operator&(Type::flag_type lhs, \
	Type::mask_type rhs) {} \
	ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator\|( \
	Type::flag_type lhs, Type::flag_type rhs) { \
	return Type(lhs) \| rhs; \
	} \
	ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator\|( \
	Type::flag_type lhs, const Type& rhs) { \
	return rhs \| lhs; \
	} \
	ALLOW_UNUSED_TYPE inline void operator\|(Type::flag_type lhs, \
	Type::mask_type rhs) {} \
	ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator^( \
	Type::flag_type lhs, Type::flag_type rhs) { \
	return Type(lhs) ^ rhs; \
	} \
	ALLOW_UNUSED_TYPE V8_WARN_UNUSED_RESULT inline constexpr Type operator^( \
	Type::flag_type lhs, const Type& rhs) { \
	return rhs ^ lhs; \
	} \
	ALLOW_UNUSED_TYPE inline void operator^(Type::flag_type lhs, \
	Type::mask_type rhs) {} \
	ALLOW_UNUSED_TYPE inline constexpr Type operator~(Type::flag_type val) { \
	return ~Type(val); \
	}

	} // namespace base
	} // namespace v8

	#endif // V8_BASE_FLAGS_H_