src/utils/SkTLogic.h - skia - Git at Google

 /*
  * Copyright 2013 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  *
  *
  * This header provides some of the helpers (std::integral_constant) and
  * type transformations (std::conditional) which will become available with
  * C++11 in the type_traits header.
  *
  * Because we lack constexpr, we cannot mimic
  * std::integral_constant::'constexpr operator T()'.
  * As a result we introduce SkTBool and SkTIf similar to Boost in order to
  * minimize the visual noise of many uses of '::value'.
  */

 #ifndef SkTLogic_DEFINED
 #define SkTLogic_DEFINED

 /** Represents a templated integer constant.
  *  Pre-C++11 version of std::integral_constant.
  */
 template <typename T, T v> struct SkTIntegralConstant {
     static const T value = v;
     typedef T value_type;
     typedef SkTIntegralConstant<T, v> type;
 };

 /** Convenience specialization of SkTIntegralConstant. */
 template <bool b> struct SkTBool : SkTIntegralConstant<bool, b> { };

 /** Pre-C++11 version of std::is_empty<T>. */
 template <typename T>
 class SkTIsEmpty {
     struct Derived : public T { char unused; };
 public:
     static const bool value = sizeof(Derived) == sizeof(char);
 };

 /** Pre-C++11 version of std::true_type. */
 typedef SkTBool<true> SkTrue;

 /** Pre-C++11 version of std::false_type. */
 typedef SkTBool<false> SkFalse;

 /** SkTIf_c::type = (condition) ? T : F;
  *  Pre-C++11 version of std::conditional.
  */
 template <bool condition, typename T, typename F> struct SkTIf_c {
     typedef F type;
 };
 template <typename T, typename F> struct SkTIf_c<true, T, F> {
     typedef T type;
 };

 /** SkTIf::type = (Condition::value) ? T : F; */
 template <typename Condition, typename T, typename F> struct SkTIf {
     typedef typename SkTIf_c<static_cast<bool>(Condition::value), T, F>::type type;
 };

 /** SkTMux::type = (a && b) ? Both : (a) ? A : (b) ? B : Neither; */
 template <typename a, typename b, typename Both, typename A, typename B, typename Neither>
 struct SkTMux {
     typedef typename SkTIf<a, typename SkTIf<b, Both, A>::type,
                               typename SkTIf<b, B, Neither>::type>::type type;
 };

 /** SkTEnableIf_c::type = (condition) ? T : [does not exist]; */
 template <bool condition, class T = void> struct SkTEnableIf_c { };
 template <class T> struct SkTEnableIf_c<true, T> {
     typedef T type;
 };

 /** SkTEnableIf::type = (Condition::value) ? T : [does not exist]; */
 template <class Condition, class T = void> struct SkTEnableIf
     : public SkTEnableIf_c<static_cast<bool>(Condition::value), T> { };

 /** Use as a return type to enable a function only when cond_type::value is true,
  *  like C++14's std::enable_if_t.  E.g.  (N.B. this is a dumb example.)
  *  SK_WHEN(SkTrue, int) f(void* ptr) { return 1; }
  *  SK_WHEN(!SkTrue, int) f(void* ptr) { return 2; }
  */
 #define SK_WHEN(cond_prefix, T) typename SkTEnableIf_c<cond_prefix::value, T>::type

 // See http://en.wikibooks.org/wiki/More_C++_Idioms/Member_Detector
 #define SK_CREATE_MEMBER_DETECTOR(member)                                           \
 template <typename T>                                                               \
 class HasMember_##member {                                                          \
     struct Fallback { int member; };                                                \
     struct Derived : T, Fallback {};                                                \
     template <typename U, U> struct Check;                                          \
     template <typename U> static uint8_t func(Check<int Fallback::*, &U::member>*); \
     template <typename U> static uint16_t func(...);                                \
 public:                                                                             \
     typedef HasMember_##member type;                                                \
     static const bool value = sizeof(func<Derived>(NULL)) == sizeof(uint16_t);      \
 }

 // Same sort of thing as SK_CREATE_MEMBER_DETECTOR, but checks for the existence of a nested type.
 #define SK_CREATE_TYPE_DETECTOR(type)                                   \
 template <typename T>                                                   \
 class HasType_##type {                                                  \
     template <typename U> static uint8_t func(typename U::type*);       \
     template <typename U> static uint16_t func(...);                    \
 public:                                                                 \
     static const bool value = sizeof(func<T>(NULL)) == sizeof(uint8_t); \
 }

 #endif
	/*
	* Copyright 2013 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*
	*
	* This header provides some of the helpers (std::integral_constant) and
	* type transformations (std::conditional) which will become available with
	* C++11 in the type_traits header.
	*
	* Because we lack constexpr, we cannot mimic
	* std::integral_constant::'constexpr operator T()'.
	* As a result we introduce SkTBool and SkTIf similar to Boost in order to
	* minimize the visual noise of many uses of '::value'.
	*/

	#ifndef SkTLogic_DEFINED
	#define SkTLogic_DEFINED

	/** Represents a templated integer constant.
	* Pre-C++11 version of std::integral_constant.
	*/
	template <typename T, T v> struct SkTIntegralConstant {
	static const T value = v;
	typedef T value_type;
	typedef SkTIntegralConstant<T, v> type;
	};

	/** Convenience specialization of SkTIntegralConstant. */
	template <bool b> struct SkTBool : SkTIntegralConstant<bool, b> { };

	/** Pre-C++11 version of std::is_empty<T>. */
	template <typename T>
	class SkTIsEmpty {
	struct Derived : public T { char unused; };
	public:
	static const bool value = sizeof(Derived) == sizeof(char);
	};

	/** Pre-C++11 version of std::true_type. */
	typedef SkTBool<true> SkTrue;

	/** Pre-C++11 version of std::false_type. */
	typedef SkTBool<false> SkFalse;

	/** SkTIf_c::type = (condition) ? T : F;
	* Pre-C++11 version of std::conditional.
	*/
	template <bool condition, typename T, typename F> struct SkTIf_c {
	typedef F type;
	};
	template <typename T, typename F> struct SkTIf_c<true, T, F> {
	typedef T type;
	};

	/** SkTIf::type = (Condition::value) ? T : F; */
	template <typename Condition, typename T, typename F> struct SkTIf {
	typedef typename SkTIf_c<static_cast<bool>(Condition::value), T, F>::type type;
	};

	/** SkTMux::type = (a && b) ? Both : (a) ? A : (b) ? B : Neither; */
	template <typename a, typename b, typename Both, typename A, typename B, typename Neither>
	struct SkTMux {
	typedef typename SkTIf<a, typename SkTIf<b, Both, A>::type,
	typename SkTIf<b, B, Neither>::type>::type type;
	};

	/** SkTEnableIf_c::type = (condition) ? T : [does not exist]; */
	template <bool condition, class T = void> struct SkTEnableIf_c { };
	template <class T> struct SkTEnableIf_c<true, T> {
	typedef T type;
	};

	/** SkTEnableIf::type = (Condition::value) ? T : [does not exist]; */
	template <class Condition, class T = void> struct SkTEnableIf
	: public SkTEnableIf_c<static_cast<bool>(Condition::value), T> { };

	/** Use as a return type to enable a function only when cond_type::value is true,
	* like C++14's std::enable_if_t. E.g. (N.B. this is a dumb example.)
	* SK_WHEN(SkTrue, int) f(void* ptr) { return 1; }
	* SK_WHEN(!SkTrue, int) f(void* ptr) { return 2; }
	*/
	#define SK_WHEN(cond_prefix, T) typename SkTEnableIf_c<cond_prefix::value, T>::type

	// See http://en.wikibooks.org/wiki/More_C++_Idioms/Member_Detector
	#define SK_CREATE_MEMBER_DETECTOR(member) \
	template <typename T> \
	class HasMember_##member { \
	struct Fallback { int member; }; \
	struct Derived : T, Fallback {}; \
	template <typename U, U> struct Check; \
	template <typename U> static uint8_t func(Check<int Fallback::, &U::member>); \
	template <typename U> static uint16_t func(...); \
	public: \
	typedef HasMember_##member type; \
	static const bool value = sizeof(func<Derived>(NULL)) == sizeof(uint16_t); \
	}

	// Same sort of thing as SK_CREATE_MEMBER_DETECTOR, but checks for the existence of a nested type.
	#define SK_CREATE_TYPE_DETECTOR(type) \
	template <typename T> \
	class HasType_##type { \
	template <typename U> static uint8_t func(typename U::type*); \
	template <typename U> static uint16_t func(...); \
	public: \
	static const bool value = sizeof(func<T>(NULL)) == sizeof(uint8_t); \
	}

	#endif