include/swift/Basic/OptionSet.h - third_party/swift - Git at Google

 //===--- OptionSet.h - Sets of boolean options ------------------*- C++ -*-===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file defines the OptionSet class template.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_BASIC_OPTIONSET_H
 #define SWIFT_BASIC_OPTIONSET_H

 #include "llvm/ADT/None.h"

 #include <type_traits>
 #include <cstdint>

 namespace swift {

 using llvm::None;

 /// The class template \c OptionSet captures a set of options stored as the
 /// bits in an unsigned integral value.
 ///
 /// Each option corresponds to a particular flag value in the provided
 /// enumeration type (\c Flags). The option set provides ways to add options,
 /// remove options, intersect sets, etc., providing a thin type-safe layer
 /// over the underlying unsigned value.
 ///
 /// \tparam Flags An enumeration type that provides the individual flags
 /// for options. Each enumerator should have a power-of-two value, indicating
 /// which bit it is associated with.
 ///
 /// \tparam StorageType The unsigned integral type to use to store the flags
 /// enabled within this option set. This defaults to the unsigned form of the
 /// underlying type of the enumeration.
 template<typename Flags,
          typename StorageType = typename std::make_unsigned<
                                   typename std::underlying_type<Flags>::type
                                  >::type>
 class OptionSet {
   StorageType Storage;

 public:
   /// Create an empty option set.
   OptionSet() : Storage() { }

   /// Create an empty option set.
   OptionSet(llvm::NoneType) : Storage() { }

   /// Create an option set with only the given option set.
   OptionSet(Flags flag) : Storage(static_cast<StorageType>(flag)) { }

   /// Create an option set from raw storage.
   explicit OptionSet(StorageType storage) : Storage(storage) { }

   /// Check whether an option set is non-empty.
   explicit operator bool() const { return Storage != 0; }

   /// Explicitly convert an option set to its underlying storage.
   explicit operator StorageType() const { return Storage; }

   /// Explicitly convert an option set to intptr_t, for use in
   /// llvm::PointerIntPair.
   ///
   /// This member is not present if the underlying type is bigger than
   /// a pointer.
   template <typename T = std::intptr_t>
   explicit operator typename std::enable_if<sizeof(StorageType) <= sizeof(T),
       std::intptr_t>::type () const {
     return static_cast<intptr_t>(Storage);
   }

   /// Retrieve the "raw" representation of this option set.
   StorageType toRaw() const { return Storage; }

   /// Determine whether this option set contains all of the options in the
   /// given set.
   bool contains(OptionSet set) const {
     return !static_cast<bool>(set - *this);
   }

   /// Check if this option set contains the exact same options as the given set.
   bool containsOnly(OptionSet set) {
     return Storage == set.Storage;
   }

   // '==' and '!=' are deliberately not defined because they provide a pitfall
   // where someone might use '==' but really want 'contains'. If you actually
   // want '==' behavior, use 'containsOnly'.

   /// Produce the union of two option sets.
   friend OptionSet operator|(OptionSet lhs, OptionSet rhs) {
     return OptionSet(lhs.Storage | rhs.Storage);
   }

   /// Produce the union of two option sets.
   friend OptionSet &operator|=(OptionSet &lhs, OptionSet rhs) {
     lhs.Storage |= rhs.Storage;
     return lhs;
  }

   /// Produce the intersection of two option sets.
   friend OptionSet operator&(OptionSet lhs, OptionSet rhs) {
     return OptionSet(lhs.Storage & rhs.Storage);
   }

   /// Produce the intersection of two option sets.
   friend OptionSet &operator&=(OptionSet &lhs, OptionSet rhs) {
     lhs.Storage &= rhs.Storage;
     return lhs;
   }

   /// Produce the difference of two option sets.
   friend OptionSet operator-(OptionSet lhs, OptionSet rhs) {
     return OptionSet(lhs.Storage & ~rhs.Storage);
   }

   /// Produce the difference of two option sets.
   friend OptionSet &operator-=(OptionSet &lhs, OptionSet rhs) {
     lhs.Storage &= ~rhs.Storage;
     return lhs;
   }

 private:
   template <typename T>
   static auto _checkResultTypeOperatorOr(T t) -> decltype(t | t) { return T(); }

   static void _checkResultTypeOperatorOr(...) {}

   static_assert(!std::is_same<decltype(_checkResultTypeOperatorOr(Flags())),
                               Flags>::value,
                 "operator| should produce an OptionSet");
 };

 } // end namespace swift

 #endif // SWIFT_BASIC_OPTIONSET_H
	//===--- OptionSet.h - Sets of boolean options ------------------- C++ --===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the OptionSet class template.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_BASIC_OPTIONSET_H
	#define SWIFT_BASIC_OPTIONSET_H

	#include "llvm/ADT/None.h"

	#include <type_traits>
	#include <cstdint>

	namespace swift {

	using llvm::None;

	/// The class template \c OptionSet captures a set of options stored as the
	/// bits in an unsigned integral value.
	///
	/// Each option corresponds to a particular flag value in the provided
	/// enumeration type (\c Flags). The option set provides ways to add options,
	/// remove options, intersect sets, etc., providing a thin type-safe layer
	/// over the underlying unsigned value.
	///
	/// \tparam Flags An enumeration type that provides the individual flags
	/// for options. Each enumerator should have a power-of-two value, indicating
	/// which bit it is associated with.
	///
	/// \tparam StorageType The unsigned integral type to use to store the flags
	/// enabled within this option set. This defaults to the unsigned form of the
	/// underlying type of the enumeration.
	template<typename Flags,
	typename StorageType = typename std::make_unsigned<
	typename std::underlying_type<Flags>::type
	>::type>
	class OptionSet {
	StorageType Storage;

	public:
	/// Create an empty option set.
	OptionSet() : Storage() { }

	/// Create an empty option set.
	OptionSet(llvm::NoneType) : Storage() { }

	/// Create an option set with only the given option set.
	OptionSet(Flags flag) : Storage(static_cast<StorageType>(flag)) { }

	/// Create an option set from raw storage.
	explicit OptionSet(StorageType storage) : Storage(storage) { }

	/// Check whether an option set is non-empty.
	explicit operator bool() const { return Storage != 0; }

	/// Explicitly convert an option set to its underlying storage.
	explicit operator StorageType() const { return Storage; }

	/// Explicitly convert an option set to intptr_t, for use in
	/// llvm::PointerIntPair.
	///
	/// This member is not present if the underlying type is bigger than
	/// a pointer.
	template <typename T = std::intptr_t>
	explicit operator typename std::enable_if<sizeof(StorageType) <= sizeof(T),
	std::intptr_t>::type () const {
	return static_cast<intptr_t>(Storage);
	}

	/// Retrieve the "raw" representation of this option set.
	StorageType toRaw() const { return Storage; }

	/// Determine whether this option set contains all of the options in the
	/// given set.
	bool contains(OptionSet set) const {
	return !static_cast<bool>(set - *this);
	}

	/// Check if this option set contains the exact same options as the given set.
	bool containsOnly(OptionSet set) {
	return Storage == set.Storage;
	}

	// '==' and '!=' are deliberately not defined because they provide a pitfall
	// where someone might use '==' but really want 'contains'. If you actually
	// want '==' behavior, use 'containsOnly'.

	/// Produce the union of two option sets.
	friend OptionSet operator\|(OptionSet lhs, OptionSet rhs) {
	return OptionSet(lhs.Storage \| rhs.Storage);
	}

	/// Produce the union of two option sets.
	friend OptionSet &operator\|=(OptionSet &lhs, OptionSet rhs) {
	lhs.Storage \|= rhs.Storage;
	return lhs;
	}

	/// Produce the intersection of two option sets.
	friend OptionSet operator&(OptionSet lhs, OptionSet rhs) {
	return OptionSet(lhs.Storage & rhs.Storage);
	}

	/// Produce the intersection of two option sets.
	friend OptionSet &operator&=(OptionSet &lhs, OptionSet rhs) {
	lhs.Storage &= rhs.Storage;
	return lhs;
	}

	/// Produce the difference of two option sets.
	friend OptionSet operator-(OptionSet lhs, OptionSet rhs) {
	return OptionSet(lhs.Storage & ~rhs.Storage);
	}

	/// Produce the difference of two option sets.
	friend OptionSet &operator-=(OptionSet &lhs, OptionSet rhs) {
	lhs.Storage &= ~rhs.Storage;
	return lhs;
	}

	private:
	template <typename T>
	static auto _checkResultTypeOperatorOr(T t) -> decltype(t \| t) { return T(); }

	static void _checkResultTypeOperatorOr(...) {}

	static_assert(!std::is_same<decltype(_checkResultTypeOperatorOr(Flags())),
	Flags>::value,
	"operator\| should produce an OptionSet");
	};

	} // end namespace swift

	#endif // SWIFT_BASIC_OPTIONSET_H