update: add unnamed-namespace wrapper

4 months ago · cc85dad16a
4 changed files with 64 additions and 38 deletions
--- a/src/core_test/cases/cases_helper.h
+++ b/src/core_test/cases/cases_helper.h
@ -31,8 +31,8 @@ protected:
 };
 /// Forcibly modify private variables to reset state.
-FORCE_ACCESS_VAR(AllCases, bool, available_)
+EXPOSE_VAR(AllCases, bool, available_)
-FORCE_ACCESS_VAR(BasicRanges, bool, available_)
+EXPOSE_VAR(BasicRanges, bool, available_)
 /// Test fixture macro with custom test suite name.
 #define TEST_FF(test_suite_name, test_name)                        \
--- a/src/core_test/codec/short_code.cc
+++ b/src/core_test/codec/short_code.cc
@ -21,8 +21,8 @@ using klotski::codec::SHORT_CODE_LIMIT;
 static const auto TEST_THREAD_NUM = 256;
 /// Forcibly modify private variables to reset state.
-FORCE_ACCESS_VAR(AllCases, bool, available_)
+EXPOSE_VAR(AllCases, bool, available_)
-FORCE_ACCESS_VAR(BasicRanges, bool, available_)
+EXPOSE_VAR(BasicRanges, bool, available_)
 /// Reset basic ranges build state, note it is thread-unsafe.
 void basic_ranges_reset() {
--- a/src/core_test/ffi/all_cases.cc
+++ b/src/core_test/ffi/all_cases.cc
@ -16,8 +16,8 @@ using klotski::cases::ALL_CASES_NUM;
 static constexpr std::string_view ALL_CASES_MD5 = "3888e9fab8d3cbb50908b12b147cfb23";
 /// Forcibly modify private variables to reset state.
-FORCE_ACCESS_VAR(AllCases, bool, available_)
+EXPOSE_VAR(AllCases, bool, available_)
-FORCE_ACCESS_VAR(BasicRanges, bool, available_)
+EXPOSE_VAR(BasicRanges, bool, available_)
 /// Reset basic ranges build state, note it is thread-unsafe.
 void basic_ranges_reset() {
--- a/src/core_test/utility/exposer.h
+++ b/src/core_test/utility/exposer.h
@ -1,13 +1,36 @@
 #pragma once
-/// The exposer can forcibly access private members of a class without changing
+/// The Exposer can forcibly access private members of a class without changing
-/// any code. It uses macros to construct a function that returns a reference
+/// any code, and in most scenarios, it has zero over-cost. This exposer using
-/// to the target member variable.
+/// macros to construct function that return a reference of target variable or
 /// calling target member function.
 /// It supports member variables, member functions and their const versions, as
 /// well as static variables and functions. They are provided via the `EXPOSE_`
 /// macro, A few examples are as follows.
 ///   + EXPOSE_VAR(Demo, int, val)
 ///   + EXPOSE_CONST_VAR(Demo, int, cval)
 ///
 ///   + EXPOSE_FUNC(Demo, int(const std::string &), func)
 ///   + EXPOSE_CONST_FUNC(Demo, int(const std::string &), cfunc)
 ///
 ///   + EXPOSE_STATIC_VAR(Demo, int, sval)
 ///   + EXPOSE_STATIC_VAR(Demo, const int, scval)
 ///
 ///   + EXPOSE_STATIC_FUNC(Demo, int(std::string_view), sfunc)
 /// The advantage of Exposer is that it can directly access the private members
 /// without changing any content or compilation parameters. However, this is a
 /// hack solution and should not be used in formal code, but only in test code.
 /// Another simpler but less compatible way is to add the `-fno-access-control`
 /// compilation parameter.
 #include <type_traits>
 // ----------------------------------------------------------------------------------------- //
 namespace {
 namespace exposer {
 template <typename T, T Val, typename Dummy>
@ -16,6 +39,7 @@ struct Exposer {
 };
 } // namespace exposer
 } // namespace
 // ----------------------------------------------------------------------------------------- //
@ -25,27 +49,38 @@ struct Exposer {
 #define UNIQUE_TAG UNIQUE_TAG_IMPL(__COUNTER__)
 #define NS_EXPOSER_START \
    namespace {          \
    namespace exposer {  \
 #define NS_EXPOSER_END }}
 // ----------------------------------------------------------------------------------------- //
 #define ACCESS_SVAR_IMPL(Class, Type, Member, Dummy)         \
    NS_EXPOSER_START                                         \
    struct Dummy {};                                         \
    template struct Exposer<Type(*), &Class::Member, Dummy>; \
    constexpr Type* fetch(Dummy);                            \
    constexpr Type& Class##_##Member() {                     \
        return *fetch(Dummy{});                              \
-    }
+    }                                                        \
    NS_EXPOSER_END
 #define ACCESS_SFUNC_IMPL(Class, Proto, Member, Dummy, FuncTag) \
    NS_EXPOSER_START                                            \
    struct Dummy {};                                            \
    using FuncTag = Proto;                                      \
    template struct Exposer<FuncTag(*), &Class::Member, Dummy>; \
    constexpr FuncTag* fetch(Dummy);                            \
-    template<typename ...Args>                                  \
+    template <typename ...Args>                                 \
    constexpr decltype(auto) sfunc(Args &&...args) {            \
        return fetch(Dummy{})(std::forward<Args>(args)...);     \
-    }
+    }                                                           \
    NS_EXPOSER_END
 #define ACCESS_VAR_IMPL(Class, Type, ConstType, Member, Dummy)      \
    NS_EXPOSER_START                                                \
    struct Dummy {};                                                \
    template struct Exposer<Type(Class::*), &Class::Member, Dummy>; \
    constexpr Type Class::* fetch(Dummy);                           \
@ -57,9 +92,11 @@ struct Exposer {
    }                                                               \
    constexpr ConstType& Class##_##Member(const Class &c) {         \
        return c.*fetch(Dummy{});                                   \
-    }
+    }                                                               \
    NS_EXPOSER_END
 #define ACCESS_FUNC_IMPL(Class, Proto, Member, Dummy, FuncTag)                    \
    NS_EXPOSER_START                                                              \
    struct Dummy {};                                                              \
    using FuncTag = Proto;                                                        \
    template struct Exposer<FuncTag(Class::*), &Class::Member, Dummy>;            \
@ -68,42 +105,31 @@ struct Exposer {
    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)...); \
-    }
+    }                                                                             \
    NS_EXPOSER_END
 // ----------------------------------------------------------------------------------------- //
-#define EXPOSE_STATIC_VAR(Class, Type, Member)            \
+#define EXPOSE_STATIC_VAR(Class, Type, Member) \
-    namespace exposer {                                   \
+    ACCESS_SVAR_IMPL(Class, Type, Member, UNIQUE_TAG)
        ACCESS_SVAR_IMPL(Class, Type, Member, UNIQUE_TAG) \
    }
-#define EXPOSE_STATIC_FUNC(Class, Proto, Member)                        \
+#define EXPOSE_STATIC_FUNC(Class, Proto, Member) \
-    namespace exposer {                                                 \
+    ACCESS_SFUNC_IMPL(Class, Proto, Member, UNIQUE_TAG, UNIQUE_TAG)
        ACCESS_SFUNC_IMPL(Class, Proto, Member, UNIQUE_TAG, UNIQUE_TAG) \
    }
 // ----------------------------------------------------------------------------------------- //
-#define EXPOSE_VAR(Class, Type, Member)                              \
+#define EXPOSE_VAR(Class, Type, Member) \
-    namespace exposer {                                              \
+    ACCESS_VAR_IMPL(Class, Type, const Type, Member, UNIQUE_TAG)
        ACCESS_VAR_IMPL(Class, Type, const Type, Member, UNIQUE_TAG) \
    }
-#define EXPOSE_FUNC(Class, Proto, Member)                              \
+#define EXPOSE_FUNC(Class, Proto, Member) \
-    namespace exposer {                                                \
+    ACCESS_FUNC_IMPL(Class, Proto, Member, UNIQUE_TAG, UNIQUE_TAG)
        ACCESS_FUNC_IMPL(Class, Proto, Member, UNIQUE_TAG, UNIQUE_TAG) \
    }
 // ----------------------------------------------------------------------------------------- //
-#define EXPOSE_CONST_VAR(Class, Type, Member)                              \
+#define EXPOSE_CONST_VAR(Class, Type, Member) \
-    namespace exposer {                                                    \
+    ACCESS_VAR_IMPL(Class, const Type, const Type, Member, UNIQUE_TAG)
        ACCESS_VAR_IMPL(Class, const Type, const Type, Member, UNIQUE_TAG) \
    }
-#define EXPOSE_CONST_FUNC(Class, Proto, Member)                              \
+#define EXPOSE_CONST_FUNC(Class, Proto, Member) \
-    namespace exposer {                                                      \
+    ACCESS_FUNC_IMPL(Class, Proto const, Member, UNIQUE_TAG, UNIQUE_TAG)
        ACCESS_FUNC_IMPL(Class, Proto const, Member, UNIQUE_TAG, UNIQUE_TAG) \
    }
 // ----------------------------------------------------------------------------------------- //