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perf: optimize exposer implementation

master
Dnomd343 4 months ago
parent
commit
42b87c5beb
  1. 160
      src/core_test/utility/exposer.h

160
src/core_test/utility/exposer.h

@ -4,128 +4,106 @@
/// any code. It uses macros to construct a function that returns a reference
/// to the target member variable.
#include <type_traits>
// ----------------------------------------------------------------------------------------- //
namespace exposer {
template <typename T, T Val, typename Tag>
template <typename T, T Val, typename Dummy>
struct Exposer {
constexpr friend T fetch(Tag) { return Val; }
constexpr friend T fetch(Dummy) { return Val; }
};
} // namespace exposer
#define COMBINE_IMPL(x, y) x##y
// ----------------------------------------------------------------------------------------- //
#define HELPER(x) COMBINE_IMPL(Helper_, x)
#define CONCAT(x, y) x##y
#define PROTO(x) COMBINE_IMPL(Proto_, x)
#define UNIQUE_TAG_IMPL(x) CONCAT(Unique_, x)
#define FORCE_ACCESS_VAR_IMPL(Class, Type, Member, Tag) \
struct HELPER(Tag) {}; \
template struct Exposer<Type(Class::*), &Class::Member, HELPER(Tag)>; \
constexpr Type Class::* fetch(HELPER(Tag)); \
constexpr Type Class##_##Member(Class &&c) { \
return c.*fetch(HELPER(Tag){}); \
} \
constexpr Type& Class##_##Member(Class &c) { \
return c.*fetch(HELPER(Tag){}); \
} \
constexpr const Type& Class##_##Member(const Class &c) { \
return c.*fetch(HELPER(Tag){}); \
}
#define UNIQUE_TAG UNIQUE_TAG_IMPL(__COUNTER__)
#define FORCE_ACCESS_CONST_VAR_IMPL(Class, Type, Member, Tag) \
struct HELPER(Tag) {}; \
template struct Exposer<const Type(Class::*), &Class::Member, HELPER(Tag)>; \
constexpr const Type Class::* fetch(HELPER(Tag)); \
constexpr Type Class##_##Member(Class &&c) { \
return c.*fetch(HELPER(Tag){}); \
} \
constexpr const Type& Class##_##Member(Class &c) { \
return c.*fetch(HELPER(Tag){}); \
} \
constexpr const Type& Class##_##Member(const Class &c) { \
return c.*fetch(HELPER(Tag){}); \
}
// ----------------------------------------------------------------------------------------- //
#define FORCE_ACCESS_FUNC_IMPL(Class, Proto, Member, Tag) \
struct HELPER(Tag) {}; \
using PROTO(Tag) = Proto; \
template struct Exposer<PROTO(Tag)(Class::*), &Class::Member, HELPER(Tag)>; \
constexpr PROTO(Tag) Class::* fetch(HELPER(Tag)); \
template <typename C, typename ...Args> \
requires std::is_same_v<std::remove_reference_t<C>, Class> \
constexpr decltype(auto) Class##_##Member(C &&c, Args &&...args) { \
return (std::forward<C>(c).*fetch(HELPER(Tag){}))(std::forward<Args>(args)...); \
#define ACCESS_SVAR_IMPL(Class, Type, Member, Dummy) \
struct Dummy {}; \
template struct Exposer<Type(*), &Class::Member, Dummy>; \
constexpr Type* fetch(Dummy); \
constexpr Type& Class##_##Member() { \
return *fetch(Dummy{}); \
}
#define FORCE_ACCESS_CONST_FUNC_IMPL(Class, Proto, Member, Tag) \
struct HELPER(Tag) {}; \
using PROTO(Tag) = Proto const; \
template struct Exposer<PROTO(Tag)(Class::*), &Class::Member, HELPER(Tag)>; \
constexpr PROTO(Tag) Demo::* fetch(HELPER(Tag)); \
template <typename C, typename ...Args> \
requires std::is_same_v<std::remove_const_t<std::remove_reference_t<C>>, Class> \
constexpr decltype(auto) Class##_##Member(C &&c, Args &&...args) { \
return (std::forward<C>(c).*fetch(HELPER(Tag){}))(std::forward<Args>(args)...); \
#define ACCESS_SFUNC_IMPL(Class, Proto, Member, Dummy, FuncTag) \
struct Dummy {}; \
using FuncTag = Proto; \
template struct Exposer<FuncTag(*), &Class::Member, Dummy>; \
constexpr FuncTag* fetch(Dummy); \
template<typename ...Args> \
constexpr decltype(auto) sfunc(Args &&...args) { \
return fetch(Dummy{})(std::forward<Args>(args)...); \
}
#define FORCE_ACCESS_STATIC_VAR_IMPL(Class, Type, Member, Tag) \
struct HELPER(Tag) {}; \
template struct Exposer<Type(*), &Class::Member, HELPER(Tag)>; \
constexpr Type* fetch(HELPER(Tag)); \
constexpr Type& Class##_##Member() { \
return *fetch(HELPER(Tag){}); \
#define ACCESS_VAR_IMPL(Class, Type, ConstType, Member, Dummy) \
struct Dummy {}; \
template struct Exposer<Type(Class::*), &Class::Member, Dummy>; \
constexpr Type Class::* fetch(Dummy); \
constexpr Type Class##_##Member(Class &&c) { \
return c.*fetch(Dummy{}); \
} \
constexpr Type& Class##_##Member(Class &c) { \
return c.*fetch(Dummy{}); \
} \
constexpr ConstType& Class##_##Member(const Class &c) { \
return c.*fetch(Dummy{}); \
}
#define FORCE_ACCESS_STATIC_CONST_VAR_IMPL(Class, Type, Member, Tag) \
struct HELPER(Tag) {}; \
template struct Exposer<const Type(*), &Class::Member, HELPER(Tag)>; \
constexpr const Type* fetch(HELPER(Tag)); \
constexpr const Type& Class##_##Member() { \
return *fetch(HELPER(Tag){}); \
#define ACCESS_FUNC_IMPL(Class, Proto, Member, Dummy, FuncTag) \
struct Dummy {}; \
using FuncTag = Proto; \
template struct Exposer<FuncTag(Class::*), &Class::Member, Dummy>; \
constexpr FuncTag Class::* fetch(Dummy); \
template <typename C, typename ...Args> \
requires std::is_same_v<std::decay_t<C>, Class> \
constexpr decltype(auto) Class##_##Member(C &&c, Args &&...args) { \
return (std::forward<C>(c).*fetch(Dummy{}))(std::forward<Args>(args)...); \
}
#define FORCE_ACCESS_STATIC_FUNC_IMPL(Class, Proto, Member, Tag) \
struct HELPER(Tag) {}; \
using PROTO(Tag) = Proto; \
template struct Exposer<PROTO(Tag)(*), &Class::Member, HELPER(Tag)>; \
constexpr PROTO(Tag)* fetch(HELPER(Tag)); \
template<typename ...Args> \
constexpr decltype(auto) sfunc(Args &&...args) { \
return fetch(HELPER(Tag){})(std::forward<Args>(args)...); \
}
// ----------------------------------------------------------------------------------------- //
#define FORCE_ACCESS_VAR(Class, Type, Member) \
namespace exposer { \
FORCE_ACCESS_VAR_IMPL(Class, Type, Member, __COUNTER__) \
#define EXPOSE_STATIC_VAR(Class, Type, Member) \
namespace exposer { \
ACCESS_SVAR_IMPL(Class, Type, Member, UNIQUE_TAG) \
}
#define FORCE_ACCESS_CONST_VAR(Class, Type, Member) \
namespace exposer { \
FORCE_ACCESS_CONST_VAR_IMPL(Class, Type, Member, __COUNTER__) \
#define EXPOSE_STATIC_FUNC(Class, Proto, Member) \
namespace exposer { \
ACCESS_SFUNC_IMPL(Class, Proto, Member, UNIQUE_TAG, UNIQUE_TAG) \
}
#define FORCE_ACCESS_FUNC(Class, Proto, Member) \
namespace exposer { \
FORCE_ACCESS_FUNC_IMPL(Class, Proto, Member, __COUNTER__) \
}
// ----------------------------------------------------------------------------------------- //
#define FORCE_ACCESS_CONST_FUNC(Class, Proto, Member) \
namespace exposer { \
FORCE_ACCESS_CONST_FUNC_IMPL(Class, Proto, Member, __COUNTER__) \
#define EXPOSE_VAR(Class, Type, Member) \
namespace exposer { \
ACCESS_VAR_IMPL(Class, Type, const Type, Member, UNIQUE_TAG) \
}
#define FORCE_ACCESS_STATIC_VAR(Class, Type, Member) \
#define EXPOSE_FUNC(Class, Proto, Member) \
namespace exposer { \
FORCE_ACCESS_STATIC_VAR_IMPL(Class, Type, Member, __COUNTER__) \
ACCESS_FUNC_IMPL(Class, Proto, Member, UNIQUE_TAG, UNIQUE_TAG) \
}
#define FORCE_ACCESS_STATIC_CONST_VAR(Class, Type, Member) \
namespace exposer { \
FORCE_ACCESS_STATIC_CONST_VAR_IMPL(Class, Type, Member, __COUNTER__) \
// ----------------------------------------------------------------------------------------- //
#define EXPOSE_CONST_VAR(Class, Type, Member) \
namespace exposer { \
ACCESS_VAR_IMPL(Class, const Type, const Type, Member, UNIQUE_TAG) \
}
#define FORCE_ACCESS_STATIC_FUNC(Class, Proto, Member) \
namespace exposer { \
FORCE_ACCESS_STATIC_FUNC_IMPL(Class, Proto, Member, __COUNTER__) \
#define EXPOSE_CONST_FUNC(Class, Proto, Member) \
namespace exposer { \
ACCESS_FUNC_IMPL(Class, Proto const, Member, UNIQUE_TAG, UNIQUE_TAG) \
}
// ----------------------------------------------------------------------------------------- //

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