// _ _ __ _____ // | \ | | / _| / ____|_ _ // | \| | __ _ _ __ ___ ___ ___ | |_ | | _| |_ _| |_ // | . ` |/ _` | '_ ` _ \ / _ \/ _ \| _| | | |_ _|_ _| // | |\ | (_| | | | | | | __/ (_) | | | |____|_| |_| // |_| \_|\__,_|_| |_| |_|\___|\___/|_| \_____| // https://github.com/Neargye/nameof // version 0.10.4 // // Licensed under the MIT License . // SPDX-License-Identifier: MIT // Copyright (c) 2016 - 2024 Daniil Goncharov . // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. #ifndef NEARGYE_NAMEOF_HPP #define NEARGYE_NAMEOF_HPP #define NAMEOF_VERSION_MAJOR 0 #define NAMEOF_VERSION_MINOR 10 #define NAMEOF_VERSION_PATCH 4 #include #include #include #include #include #include #include #include #include #if !defined(NAMEOF_USING_ALIAS_STRING) # include #endif #if !defined(NAMEOF_USING_ALIAS_STRING_VIEW) # include #endif #if __has_include() # include # include #endif #if defined(__clang__) # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wunknown-warning-option" # pragma clang diagnostic ignored "-Wenum-constexpr-conversion" #elif defined(__GNUC__) # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wstringop-overflow" // Missing terminating nul 'enum_name_v'. #elif defined(_MSC_VER) # pragma warning(push) # pragma warning(disable : 26495) // Variable 'cstring::chars_' is uninitialized. # pragma warning(disable : 28020) // Arithmetic overflow: Using operator '-' on a 4 byte value and then casting the result to a 8 byte value. # pragma warning(disable : 26451) // The expression '0<=_Param_(1)&&_Param_(1)<=1-1' is not true at this call. # pragma warning(disable : 4514) // Unreferenced inline function has been removed. #endif // Checks nameof_type compiler compatibility. #if defined(__clang__) && __clang_major__ >= 5 || defined(__GNUC__) && __GNUC__ >= 7 || defined(_MSC_VER) && _MSC_VER >= 1910 # undef NAMEOF_TYPE_SUPPORTED # define NAMEOF_TYPE_SUPPORTED 1 #endif // Checks nameof_type_rtti compiler compatibility. #if defined(__clang__) # if __has_feature(cxx_rtti) # undef NAMEOF_TYPE_RTTI_SUPPORTED # define NAMEOF_TYPE_RTTI_SUPPORTED 1 # endif #elif defined(__GNUC__) # if defined(__GXX_RTTI) # undef NAMEOF_TYPE_RTTI_SUPPORTED # define NAMEOF_TYPE_RTTI_SUPPORTED 1 # endif #elif defined(_MSC_VER) # if defined(_CPPRTTI) # undef NAMEOF_TYPE_RTTI_SUPPORTED # define NAMEOF_TYPE_RTTI_SUPPORTED 1 # endif #endif // Checks nameof_member compiler compatibility. #if defined(__clang__) && __clang_major__ >= 5 || defined(__GNUC__) && __GNUC__ >= 7 || defined(_MSC_VER) && defined(_MSVC_LANG) && _MSVC_LANG >= 202002L # undef NAMEOF_MEMBER_SUPPORTED # define NAMEOF_MEMBER_SUPPORTED 1 #endif // Checks nameof_pointer compiler compatibility. #if defined(__clang__) && __clang_major__ >= 5 || defined(__GNUC__) && __GNUC__ >= 7 || defined(_MSC_VER) && defined(_MSVC_LANG) && _MSVC_LANG >= 202002L # undef NAMEOF_POINTER_SUPPORTED # define NAMEOF_POINTER_SUPPORTED 1 #endif // Checks nameof_enum compiler compatibility. #if defined(__clang__) && __clang_major__ >= 5 || defined(__GNUC__) && __GNUC__ >= 9 || defined(_MSC_VER) && _MSC_VER >= 1910 # undef NAMEOF_ENUM_SUPPORTED # define NAMEOF_ENUM_SUPPORTED 1 #endif // Checks nameof_enum compiler aliases compatibility. #if defined(__clang__) && __clang_major__ >= 5 || defined(__GNUC__) && __GNUC__ >= 9 || defined(_MSC_VER) && _MSC_VER >= 1920 # undef NAMEOF_ENUM_SUPPORTED_ALIASES # define NAMEOF_ENUM_SUPPORTED_ALIASES 1 #endif // Enum value must be greater or equals than NAMEOF_ENUM_RANGE_MIN. By default NAMEOF_ENUM_RANGE_MIN = -128. // If need another min range for all enum types by default, redefine the macro NAMEOF_ENUM_RANGE_MIN. #if !defined(NAMEOF_ENUM_RANGE_MIN) # define NAMEOF_ENUM_RANGE_MIN -128 #endif // Enum value must be less or equals than NAMEOF_ENUM_RANGE_MAX. By default NAMEOF_ENUM_RANGE_MAX = 128. // If need another max range for all enum types by default, redefine the macro NAMEOF_ENUM_RANGE_MAX. #if !defined(NAMEOF_ENUM_RANGE_MAX) # define NAMEOF_ENUM_RANGE_MAX 128 #endif namespace nameof { // If need another string_view type, define the macro NAMEOF_USING_ALIAS_STRING_VIEW. #if defined(NAMEOF_USING_ALIAS_STRING_VIEW) NAMEOF_USING_ALIAS_STRING_VIEW #else using std::string_view; #endif // If need another string type, define the macro NAMEOF_USING_ALIAS_STRING. #if defined(NAMEOF_USING_ALIAS_STRING) NAMEOF_USING_ALIAS_STRING #else using std::string; #endif namespace customize { // Enum value must be in range [NAMEOF_ENUM_RANGE_MIN, NAMEOF_ENUM_RANGE_MAX]. By default NAMEOF_ENUM_RANGE_MIN = -128, NAMEOF_ENUM_RANGE_MAX = 128. // If you need another range for all enum types by default, redefine the macro NAMEOF_ENUM_RANGE_MIN and NAMEOF_ENUM_RANGE_MAX. // If you need another range for specific enum type, add specialization enum_range for necessary enum type. template struct enum_range { static_assert(std::is_enum_v, "nameof::customize::enum_range requires enum type."); inline static constexpr int min = NAMEOF_ENUM_RANGE_MIN; inline static constexpr int max = NAMEOF_ENUM_RANGE_MAX; static_assert(max > min, "nameof::customize::enum_range requires max > min."); }; static_assert(NAMEOF_ENUM_RANGE_MIN <= 0, "NAMEOF_ENUM_RANGE_MIN must be less or equals than 0."); static_assert(NAMEOF_ENUM_RANGE_MIN > (std::numeric_limits::min)(), "NAMEOF_ENUM_RANGE_MIN must be greater than INT16_MIN."); static_assert(NAMEOF_ENUM_RANGE_MAX > 0, "NAMEOF_ENUM_RANGE_MAX must be greater than 0."); static_assert(NAMEOF_ENUM_RANGE_MAX < (std::numeric_limits::max)(), "NAMEOF_ENUM_RANGE_MAX must be less than INT16_MAX."); static_assert(NAMEOF_ENUM_RANGE_MAX > NAMEOF_ENUM_RANGE_MIN, "NAMEOF_ENUM_RANGE_MAX must be greater than NAMEOF_ENUM_RANGE_MIN."); // If you need custom names for enum, add specialization enum_name for necessary enum type. template constexpr string_view enum_name(E) noexcept { static_assert(std::is_enum_v, "nameof::customize::enum_name requires enum type."); return {}; } // If you need custom name for type, add specialization type_name for necessary type. template constexpr string_view type_name() noexcept { return {}; } // If you need custom name for member, add specialization member_name for necessary type. template constexpr string_view member_name() noexcept { return {}; } // If you need custom name for a pointer, add specialization pointer_name for necessary type. template constexpr string_view pointer_name() noexcept { return {}; } } // namespace nameof::customize template class [[nodiscard]] cstring { public: using value_type = const char; using size_type = std::uint16_t; using difference_type = std::ptrdiff_t; using pointer = const char*; using const_pointer = const char*; using reference = const char&; using const_reference = const char&; using iterator = const char*; using const_iterator = const char*; using reverse_iterator = std::reverse_iterator; using const_reverse_iterator = std::reverse_iterator; constexpr explicit cstring(string_view str) noexcept : cstring{str, std::make_integer_sequence{}} { assert(str.size() > 0 && str.size() == N); } constexpr cstring() = delete; constexpr cstring(const cstring&) = default; constexpr cstring(cstring&&) = default; ~cstring() = default; cstring& operator=(const cstring&) = default; cstring& operator=(cstring&&) = default; [[nodiscard]] constexpr const_pointer data() const noexcept { return chars_; } [[nodiscard]] constexpr size_type size() const noexcept { return N; } [[nodiscard]] constexpr const_iterator begin() const noexcept { return data(); } [[nodiscard]] constexpr const_iterator end() const noexcept { return data() + size(); } [[nodiscard]] constexpr const_iterator cbegin() const noexcept { return begin(); } [[nodiscard]] constexpr const_iterator cend() const noexcept { return end(); } [[nodiscard]] constexpr const_reverse_iterator rbegin() const noexcept { return end(); } [[nodiscard]] constexpr const_reverse_iterator rend() const noexcept { return begin(); } [[nodiscard]] constexpr const_reverse_iterator crbegin() const noexcept { return rbegin(); } [[nodiscard]] constexpr const_reverse_iterator crend() const noexcept { return rend(); } [[nodiscard]] constexpr const_reference operator[](size_type i) const noexcept { return assert(i < size()), chars_[i]; } [[nodiscard]] constexpr const_reference front() const noexcept { return chars_[0]; } [[nodiscard]] constexpr const_reference back() const noexcept { return chars_[N]; } [[nodiscard]] constexpr size_type length() const noexcept { return size(); } [[nodiscard]] constexpr bool empty() const noexcept { return false; } [[nodiscard]] constexpr int compare(string_view str) const noexcept { return string_view{data(), size()}.compare(str); } [[nodiscard]] constexpr const char* c_str() const noexcept { return data(); } [[nodiscard]] string str() const { return {begin(), end()}; } [[nodiscard]] constexpr operator string_view() const noexcept { return {data(), size()}; } [[nodiscard]] constexpr explicit operator const_pointer() const noexcept { return data(); } [[nodiscard]] explicit operator string() const { return {begin(), end()}; } private: template constexpr cstring(string_view str, std::integer_sequence) noexcept : chars_{str[I]..., '\0'} {} char chars_[static_cast(N) + 1]; }; template <> class [[nodiscard]] cstring<0> { public: using value_type = const char; using size_type = std::uint16_t; using difference_type = std::ptrdiff_t; using pointer = const char*; using const_pointer = const char*; using reference = const char&; using const_reference = const char&; using iterator = const char*; using const_iterator = const char*; using reverse_iterator = std::reverse_iterator; using const_reverse_iterator = std::reverse_iterator; constexpr explicit cstring(string_view) noexcept {} constexpr cstring() = default; constexpr cstring(const cstring&) = default; constexpr cstring(cstring&&) = default; ~cstring() = default; cstring& operator=(const cstring&) = default; cstring& operator=(cstring&&) = default; [[nodiscard]] constexpr const_pointer data() const noexcept { return nullptr; } [[nodiscard]] constexpr size_type size() const noexcept { return 0; } [[nodiscard]] constexpr const_iterator begin() const noexcept { return nullptr; } [[nodiscard]] constexpr const_iterator end() const noexcept { return nullptr; } [[nodiscard]] constexpr const_iterator cbegin() const noexcept { return nullptr; } [[nodiscard]] constexpr const_iterator cend() const noexcept { return nullptr; } [[nodiscard]] constexpr const_reverse_iterator rbegin() const noexcept { return {}; } [[nodiscard]] constexpr const_reverse_iterator rend() const noexcept { return {}; } [[nodiscard]] constexpr const_reverse_iterator crbegin() const noexcept { return {}; } [[nodiscard]] constexpr const_reverse_iterator crend() const noexcept { return {}; } [[nodiscard]] constexpr size_type length() const noexcept { return 0; } [[nodiscard]] constexpr bool empty() const noexcept { return true; } [[nodiscard]] constexpr int compare(string_view str) const noexcept { return string_view{}.compare(str); } [[nodiscard]] constexpr const char* c_str() const noexcept { return nullptr; } [[nodiscard]] string str() const { return {}; } [[nodiscard]] constexpr operator string_view() const noexcept { return {}; } [[nodiscard]] constexpr explicit operator const_pointer() const noexcept { return nullptr; } [[nodiscard]] explicit operator string() const { return {}; } }; template [[nodiscard]] constexpr bool operator==(const cstring& lhs, string_view rhs) noexcept { return lhs.compare(rhs) == 0; } template [[nodiscard]] constexpr bool operator==(string_view lhs, const cstring& rhs) noexcept { return lhs.compare(rhs) == 0; } template [[nodiscard]] constexpr bool operator!=(const cstring& lhs, string_view rhs) noexcept { return lhs.compare(rhs) != 0; } template [[nodiscard]] constexpr bool operator!=(string_view lhs, const cstring& rhs) noexcept { return lhs.compare(rhs) != 0; } template [[nodiscard]] constexpr bool operator>(const cstring& lhs, string_view rhs) noexcept { return lhs.compare(rhs) > 0; } template [[nodiscard]] constexpr bool operator>(string_view lhs, const cstring& rhs) noexcept { return lhs.compare(rhs) > 0; } template [[nodiscard]] constexpr bool operator>=(const cstring& lhs, string_view rhs) noexcept { return lhs.compare(rhs) >= 0; } template [[nodiscard]] constexpr bool operator>=(string_view lhs, const cstring& rhs) noexcept { return lhs.compare(rhs) >= 0; } template [[nodiscard]] constexpr bool operator<(const cstring& lhs, string_view rhs) noexcept { return lhs.compare(rhs) < 0; } template [[nodiscard]] constexpr bool operator<(string_view lhs, const cstring& rhs) noexcept { return lhs.compare(rhs) < 0; } template [[nodiscard]] constexpr bool operator<=(const cstring& lhs, string_view rhs) noexcept { return lhs.compare(rhs) <= 0; } template [[nodiscard]] constexpr bool operator<=(string_view lhs, const cstring& rhs) noexcept { return lhs.compare(rhs) <= 0; } template std::basic_ostream& operator<<(std::basic_ostream& os, const cstring& srt) { for (const auto c : srt) { os.put(c); } return os; } namespace detail { constexpr string_view pretty_name(string_view name, bool remove_suffix = true) noexcept { if (name.size() >= 1 && (name[0] == '"' || name[0] == '\'')) { return {}; // Narrow multibyte string literal. } else if (name.size() >= 2 && name[0] == 'R' && (name[1] == '"' || name[1] == '\'')) { return {}; // Raw string literal. } else if (name.size() >= 2 && name[0] == 'L' && (name[1] == '"' || name[1] == '\'')) { return {}; // Wide string literal. } else if (name.size() >= 2 && name[0] == 'U' && (name[1] == '"' || name[1] == '\'')) { return {}; // UTF-32 encoded string literal. } else if (name.size() >= 2 && name[0] == 'u' && (name[1] == '"' || name[1] == '\'')) { return {}; // UTF-16 encoded string literal. } else if (name.size() >= 3 && name[0] == 'u' && name[1] == '8' && (name[2] == '"' || name[2] == '\'')) { return {}; // UTF-8 encoded string literal. } else if (name.size() >= 1 && (name[0] >= '0' && name[0] <= '9')) { return {}; // Invalid name. } for (std::size_t i = name.size(), h = 0, s = 0; i > 0; --i) { if (name[i - 1] == ')') { ++h; ++s; continue; } else if (name[i - 1] == '(') { --h; ++s; continue; } if (h == 0) { name.remove_suffix(s); break; } else { ++s; continue; } } std::size_t s = 0; for (std::size_t i = name.size(), h = 0; i > 0; --i) { if (name[i - 1] == '>') { ++h; ++s; continue; } else if (name[i - 1] == '<') { --h; ++s; continue; } if (h == 0) { break; } else { ++s; continue; } } for (std::size_t i = name.size() - s; i > 0; --i) { if (!((name[i - 1] >= '0' && name[i - 1] <= '9') || (name[i - 1] >= 'a' && name[i - 1] <= 'z') || (name[i - 1] >= 'A' && name[i - 1] <= 'Z') || (name[i - 1] == '_'))) { name.remove_prefix(i); break; } } if (remove_suffix) { name.remove_suffix(s); } if (name.size() > 0 && ((name[0] >= 'a' && name[0] <= 'z') || (name[0] >= 'A' && name[0] <= 'Z') || (name[0] == '_'))) { return name; } return {}; // Invalid name. } #if defined(__cpp_lib_array_constexpr) && __cpp_lib_array_constexpr >= 201603L # define NAMEOF_ARRAY_CONSTEXPR 1 #else template constexpr std::array, N> to_array(T (&a)[N], std::index_sequence) noexcept { return {{a[I]...}}; } #endif template constexpr bool cmp_less(L lhs, R rhs) noexcept { static_assert(std::is_integral_v && std::is_integral_v, "nameof::detail::cmp_less requires integral type."); if constexpr (std::is_signed_v == std::is_signed_v) { // If same signedness (both signed or both unsigned). return lhs < rhs; } else if constexpr (std::is_same_v) { // bool special case return static_cast(lhs) < rhs; } else if constexpr (std::is_same_v) { // bool special case return lhs < static_cast(rhs); } else if constexpr (std::is_signed_v) { // If 'right' is negative, then result is 'false', otherwise cast & compare. return rhs > 0 && lhs < static_cast>(rhs); } else { // If 'left' is negative, then result is 'true', otherwise cast & compare. return lhs < 0 || static_cast>(lhs) < rhs; } } template constexpr I log2(I value) noexcept { static_assert(std::is_integral_v, "nameof::detail::log2 requires integral type."); if constexpr (std::is_same_v) { // bool special case return assert(false), value; } else { auto ret = I{0}; for (; value > I{1}; value >>= I{1}, ++ret) {} return ret; } } template struct nameof_enum_supported #if defined(NAMEOF_ENUM_SUPPORTED) && NAMEOF_ENUM_SUPPORTED || defined(NAMEOF_ENUM_NO_CHECK_SUPPORT) : std::true_type {}; #else : std::false_type {}; #endif template using enable_if_enum_t = std::enable_if_t>, R>; template inline constexpr bool is_enum_v = std::is_enum_v && std::is_same_v>; template constexpr auto n() noexcept { static_assert(is_enum_v, "nameof::detail::n requires enum type."); if constexpr (nameof_enum_supported::value) { #if defined(__clang__) || defined(__GNUC__) constexpr auto name = pretty_name({__PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 2}); #elif defined(_MSC_VER) constexpr auto name = pretty_name({__FUNCSIG__, sizeof(__FUNCSIG__) - 17}); #else constexpr auto name = string_view{}; #endif return name; } else { return string_view{}; } } template constexpr auto enum_name() noexcept { [[maybe_unused]] constexpr auto custom_name = customize::enum_name(V); if constexpr (custom_name.empty()) { constexpr auto name = n(); return cstring{name}; } else { return cstring{custom_name}; } } template inline constexpr auto enum_name_v = enum_name(); template constexpr bool is_valid() noexcept { #if defined(__clang__) && __clang_major__ >= 16 // https://reviews.llvm.org/D130058, https://reviews.llvm.org/D131307 constexpr E v = __builtin_bit_cast(E, V); #else constexpr E v = static_cast(V); #endif [[maybe_unused]] constexpr auto custom_name = customize::enum_name(v); if constexpr (custom_name.empty()) { return n().size() != 0; } else { return custom_name.size() != 0; } } template > constexpr U ualue(std::size_t i) noexcept { if constexpr (std::is_same_v) { // bool special case static_assert(O == 0, "nameof::detail::ualue requires valid offset."); return static_cast(i); } else if constexpr (IsFlags) { return static_cast(U{1} << static_cast(static_cast(i) + O)); } else { return static_cast(static_cast(i) + O); } } template > constexpr E value(std::size_t i) noexcept { return static_cast(ualue(i)); } template > constexpr int reflected_min() noexcept { if constexpr (IsFlags) { return 0; } else { constexpr auto lhs = customize::enum_range::min; constexpr auto rhs = (std::numeric_limits::min)(); if constexpr (cmp_less(rhs, lhs)) { return lhs; } else { return rhs; } } } template > constexpr int reflected_max() noexcept { if constexpr (IsFlags) { return std::numeric_limits::digits - 1; } else { constexpr auto lhs = customize::enum_range::max; constexpr auto rhs = (std::numeric_limits::max)(); if constexpr (cmp_less(lhs, rhs)) { return lhs; } else { return rhs; } } } #define NAMEOF_FOR_EACH_256(T) \ T( 0)T( 1)T( 2)T( 3)T( 4)T( 5)T( 6)T( 7)T( 8)T( 9)T( 10)T( 11)T( 12)T( 13)T( 14)T( 15)T( 16)T( 17)T( 18)T( 19)T( 20)T( 21)T( 22)T( 23)T( 24)T( 25)T( 26)T( 27)T( 28)T( 29)T( 30)T( 31) \ T( 32)T( 33)T( 34)T( 35)T( 36)T( 37)T( 38)T( 39)T( 40)T( 41)T( 42)T( 43)T( 44)T( 45)T( 46)T( 47)T( 48)T( 49)T( 50)T( 51)T( 52)T( 53)T( 54)T( 55)T( 56)T( 57)T( 58)T( 59)T( 60)T( 61)T( 62)T( 63) \ T( 64)T( 65)T( 66)T( 67)T( 68)T( 69)T( 70)T( 71)T( 72)T( 73)T( 74)T( 75)T( 76)T( 77)T( 78)T( 79)T( 80)T( 81)T( 82)T( 83)T( 84)T( 85)T( 86)T( 87)T( 88)T( 89)T( 90)T( 91)T( 92)T( 93)T( 94)T( 95) \ T( 96)T( 97)T( 98)T( 99)T(100)T(101)T(102)T(103)T(104)T(105)T(106)T(107)T(108)T(109)T(110)T(111)T(112)T(113)T(114)T(115)T(116)T(117)T(118)T(119)T(120)T(121)T(122)T(123)T(124)T(125)T(126)T(127) \ T(128)T(129)T(130)T(131)T(132)T(133)T(134)T(135)T(136)T(137)T(138)T(139)T(140)T(141)T(142)T(143)T(144)T(145)T(146)T(147)T(148)T(149)T(150)T(151)T(152)T(153)T(154)T(155)T(156)T(157)T(158)T(159) \ T(160)T(161)T(162)T(163)T(164)T(165)T(166)T(167)T(168)T(169)T(170)T(171)T(172)T(173)T(174)T(175)T(176)T(177)T(178)T(179)T(180)T(181)T(182)T(183)T(184)T(185)T(186)T(187)T(188)T(189)T(190)T(191) \ T(192)T(193)T(194)T(195)T(196)T(197)T(198)T(199)T(200)T(201)T(202)T(203)T(204)T(205)T(206)T(207)T(208)T(209)T(210)T(211)T(212)T(213)T(214)T(215)T(216)T(217)T(218)T(219)T(220)T(221)T(222)T(223) \ T(224)T(225)T(226)T(227)T(228)T(229)T(230)T(231)T(232)T(233)T(234)T(235)T(236)T(237)T(238)T(239)T(240)T(241)T(242)T(243)T(244)T(245)T(246)T(247)T(248)T(249)T(250)T(251)T(252)T(253)T(254)T(255) template constexpr void valid_count(bool* valid, std::size_t& count) noexcept { #define NAMEOF_ENUM_V(O) \ if constexpr ((I + O) < Size) { \ if constexpr (is_valid(I + O)>()) { \ valid[I + O] = true; \ ++count; \ } \ } NAMEOF_FOR_EACH_256(NAMEOF_ENUM_V) if constexpr ((I + 256) < Size) { valid_count(valid, count); } #undef NAMEOF_ENUM_V } template struct valid_count_t { std::size_t count = 0; bool valid[N] = {}; }; template constexpr auto valid_count() noexcept { valid_count_t vc; valid_count(vc.valid, vc.count); return vc; } template constexpr auto values() noexcept { constexpr auto vc = valid_count(); if constexpr (vc.count > 0) { #if defined(NAMEOF_ARRAY_CONSTEXPR) std::array values = {}; #else E values[vc.count] = {}; #endif for (std::size_t i = 0, v = 0; v < vc.count; ++i) { if (vc.valid[i]) { values[v++] = value(i); } } #if defined(NAMEOF_ARRAY_CONSTEXPR) return values; #else return to_array(values, std::make_index_sequence{}); #endif } else { return std::array{}; } } template > constexpr auto values() noexcept { constexpr auto min = reflected_min(); constexpr auto max = reflected_max(); constexpr auto range_size = max - min + 1; static_assert(range_size > 0, "nameof::enum_range requires valid size."); static_assert(range_size < (std::numeric_limits::max)(), "nameof::enum_range requires valid size."); return values(); } template inline constexpr auto values_v = values(); template inline constexpr auto count_v = values_v.size(); template > inline constexpr auto min_v = (count_v > 0) ? static_cast(values_v.front()) : U{0}; template > inline constexpr auto max_v = (count_v > 0) ? static_cast(values_v.back()) : U{0}; template constexpr auto names(std::index_sequence) noexcept { constexpr auto names = std::array{{enum_name_v[I]>...}}; return names; } template inline constexpr auto names_v = names(std::make_index_sequence>{}); template > constexpr bool is_sparse() noexcept { if constexpr (count_v == 0) { return false; } else if constexpr (std::is_same_v) { // bool special case return false; } else { constexpr auto max = IsFlags ? log2(max_v) : max_v; constexpr auto min = IsFlags ? log2(min_v) : min_v; constexpr auto range_size = max - min + 1; return range_size != count_v; } } template inline constexpr bool is_sparse_v = is_sparse(); template > constexpr E enum_value(std::size_t i) noexcept { if constexpr (is_sparse_v) { return values_v[i]; } else { constexpr auto min = IsFlags ? log2(min_v) : min_v; return value(i); } } template struct nameof_type_supported #if defined(NAMEOF_TYPE_SUPPORTED) && NAMEOF_TYPE_SUPPORTED || defined(NAMEOF_TYPE_NO_CHECK_SUPPORT) : std::true_type {}; #else : std::false_type {}; #endif template struct nameof_type_rtti_supported #if defined(NAMEOF_TYPE_RTTI_SUPPORTED) && NAMEOF_TYPE_RTTI_SUPPORTED || defined(NAMEOF_TYPE_NO_CHECK_SUPPORT) : std::true_type {}; #else : std::false_type {}; #endif template struct nameof_member_supported #if defined(NAMEOF_MEMBER_SUPPORTED) && NAMEOF_MEMBER_SUPPORTED || defined(NAMEOF_TYPE_NO_CHECK_SUPPORT) : std::true_type {}; #else : std::false_type {}; #endif template struct nameof_pointer_supported #if defined(NAMEOF_POINTER_SUPPORTED) && NAMEOF_POINTER_SUPPORTED || defined(NAMEOF_TYPE_NO_CHECK_SUPPORT) : std::true_type {}; #else : std::false_type {}; #endif #if defined(_MSC_VER) && !defined(__clang__) template struct identity { using type = T; }; #else template using identity = T; #endif template using remove_cvref_t = std::remove_cv_t>; template using enable_if_has_short_name_t = std::enable_if_t && !std::is_pointer_v, R>; template constexpr auto n() noexcept { #if defined(_MSC_VER) && !defined(__clang__) [[maybe_unused]] constexpr auto custom_name = customize::type_name(); #else [[maybe_unused]] constexpr auto custom_name = customize::type_name(); #endif if constexpr (custom_name.empty() && nameof_type_supported::value) { #if defined(__clang__) constexpr string_view name{__PRETTY_FUNCTION__ + 31, sizeof(__PRETTY_FUNCTION__) - 34}; #elif defined(__GNUC__) constexpr string_view name{__PRETTY_FUNCTION__ + 46, sizeof(__PRETTY_FUNCTION__) - 49}; #elif defined(_MSC_VER) constexpr string_view name{__FUNCSIG__ + 63, sizeof(__FUNCSIG__) - 81 - (__FUNCSIG__[sizeof(__FUNCSIG__) - 19] == ' ' ? 1 : 0)}; #else constexpr auto name = string_view{}; #endif return cstring{name}; } else { return cstring{custom_name}; } } template inline constexpr auto type_name_v = n(); #if __has_include() template string nameof_type_rtti(const char* tn) { static_assert(nameof_type_rtti_supported::value, "nameof::nameof_type_rtti unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); const auto dmg = abi::__cxa_demangle(tn, nullptr, nullptr, nullptr); const auto name = string{dmg}; free(dmg); assert(!name.empty() && "Type does not have a name."); return name; } template string nameof_full_type_rtti(const char* tn) { static_assert(nameof_type_rtti_supported::value, "nameof::nameof_type_rtti unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); const auto dmg = abi::__cxa_demangle(tn, nullptr, nullptr, nullptr); auto name = string{dmg}; free(dmg); assert(!name.empty() && "Type does not have a name."); if constexpr (std::is_const_v>) { name = string{"const "}.append(name); } if constexpr (std::is_volatile_v>) { name = string{"volatile "}.append(name); } if constexpr (std::is_lvalue_reference_v) { name.append(1, '&'); } if constexpr (std::is_rvalue_reference_v) { name.append("&&"); } return name; } template = 0> string nameof_short_type_rtti(const char* tn) { static_assert(nameof_type_rtti_supported::value, "nameof::nameof_type_rtti unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); const auto dmg = abi::__cxa_demangle(tn, nullptr, nullptr, nullptr); const auto pname = pretty_name(dmg); const auto name = string{pname.data(), pname.size()}; free(dmg); assert(!name.empty() && "Type does not have a short name."); return name; } #else template string nameof_type_rtti(const char* tn) { static_assert(nameof_type_rtti_supported::value, "nameof::nameof_type_rtti unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); const auto name = string_view{tn}; assert(!name.empty() && "Type does not have a name."); return {name.data(), name.size()}; } template string nameof_full_type_rtti(const char* tn) { static_assert(nameof_type_rtti_supported::value, "nameof::nameof_type_rtti unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); auto name = string{tn}; assert(!name.empty() && "Type does not have a name."); if constexpr (std::is_const_v>) { name = string{"const "}.append(name); } if constexpr (std::is_volatile_v>) { name = string{"volatile "}.append(name); } if constexpr (std::is_lvalue_reference_v) { name.append(1, '&'); } if constexpr (std::is_rvalue_reference_v) { name.append("&&"); } return name; } template = 0> string nameof_short_type_rtti(const char* tn) { static_assert(nameof_type_rtti_supported::value, "nameof::nameof_type_rtti unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); const auto name = pretty_name(tn); assert(!name.empty() && "Type does not have a short name."); return {name.data(), name.size()}; } #endif template constexpr auto n() noexcept { [[maybe_unused]] constexpr auto custom_name = customize::member_name(); if constexpr (custom_name.empty() && nameof_member_supported::value) { #if defined(__clang__) || defined(__GNUC__) constexpr auto name = pretty_name({__PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 2}); #elif defined(_MSC_VER) && defined(_MSVC_LANG) && _MSVC_LANG >= 202002L constexpr auto name = pretty_name({__FUNCSIG__, sizeof(__FUNCSIG__) - 18 + std::is_member_function_pointer_v}); #else constexpr auto name = string_view{}; #endif return cstring{name}; } else { return cstring{custom_name}; } } #if defined(__clang__) || defined(__GNUC__) template inline constexpr auto member_name_v = n(); #elif defined(_MSC_VER) && defined(_MSVC_LANG) && _MSVC_LANG >= 202002L template From get_base_type(Type From::*); template extern T nonexist_object; template struct Store { T v; }; template Store(T) -> Store; template consteval auto get_member_name() noexcept { if constexpr (std::is_member_function_pointer_v) { return n(); } else { constexpr bool is_defined = sizeof(decltype(get_base_type(V))) != 0; static_assert(is_defined, "nameof::nameof_member member name can use only if the struct is already fully defined. Please use NAMEOF macro, or separate definition and declaration."); if constexpr (is_defined) { return n.*V)}>(); } else { return ""; } } } template inline constexpr auto member_name_v = get_member_name(); #else template inline constexpr auto member_name_v = cstring<0>{}; #endif template struct is_same : std::false_type {}; template struct is_same : std::true_type {}; template constexpr bool is_nullptr_v = is_same>(nullptr)>::value; template constexpr auto p() noexcept { [[maybe_unused]] constexpr auto custom_name = customize::pointer_name().empty() && is_nullptr_v ? "nullptr" : customize::pointer_name(); if constexpr (custom_name.empty() && nameof_pointer_supported::value) { #if defined(__clang__) constexpr auto name = pretty_name({__PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 2}); #elif defined(__GNUC__) constexpr bool has_parenthesis = __PRETTY_FUNCTION__[sizeof(__PRETTY_FUNCTION__) - 3] == ')'; constexpr auto name = pretty_name({__PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 2 - has_parenthesis}); #elif defined(_MSC_VER) && defined(_MSVC_LANG) && _MSVC_LANG >= 202002L constexpr auto name = pretty_name({__FUNCSIG__, sizeof(__FUNCSIG__) - 17}); #else constexpr auto name = string_view{}; #endif return cstring{name}; } else { return cstring{custom_name}; } } template inline constexpr auto pointer_name_v = p(); } // namespace nameof::detail // Checks is nameof_type supported compiler. inline constexpr bool is_nameof_type_supported = detail::nameof_type_supported::value; // Checks is nameof_type_rtti supported compiler. inline constexpr bool is_nameof_type_rtti_supported = detail::nameof_type_rtti_supported::value; // Checks is nameof_member supported compiler. inline constexpr bool is_nameof_member_supported = detail::nameof_member_supported::value; // Checks is nameof_pointer supported compiler. inline constexpr bool is_nameof_pointer_supported = detail::nameof_pointer_supported::value; // Checks is nameof_enum supported compiler. inline constexpr bool is_nameof_enum_supported = detail::nameof_enum_supported::value; // Obtains name of enum variable. template [[nodiscard]] constexpr auto nameof_enum(E value) noexcept -> detail::enable_if_enum_t { using D = std::decay_t; using U = std::underlying_type_t; static_assert(detail::nameof_enum_supported::value, "nameof::nameof_enum unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); static_assert(detail::count_v > 0, "nameof::nameof_enum requires enum implementation and valid max and min."); if constexpr (detail::is_sparse_v) { for (std::size_t i = 0; i < detail::count_v; ++i) { if (detail::enum_value(i) == value) { return detail::names_v[i]; } } } else { const auto v = static_cast(value); if (v >= detail::min_v && v <= detail::max_v) { return detail::names_v[static_cast(v - detail::min_v)]; } } return {}; // Value out of range. } // Obtains name of enum variable or default value if enum variable out of range. template [[nodiscard]] auto nameof_enum_or(E value, string_view default_value) -> detail::enable_if_enum_t { using D = std::decay_t; static_assert(detail::nameof_enum_supported::value, "nameof::nameof_enum_or unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); static_assert(detail::count_v > 0, "nameof::nameof_enum_or requires enum implementation and valid max and min."); if (auto v = nameof_enum(value); !v.empty()) { return string{v.data(), v.size()}; } return string{default_value.data(), default_value.size()}; } // Obtains name of enum-flags variable. template [[nodiscard]] auto nameof_enum_flag(E value, char sep = '|') -> detail::enable_if_enum_t { using D = std::decay_t; using U = std::underlying_type_t; static_assert(detail::nameof_enum_supported::value, "nameof::nameof_enum_flag unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); static_assert(detail::count_v > 0, "nameof::nameof_enum_flag requires enum-flags implementation."); string name; auto check_value = U{0}; for (std::size_t i = 0; i < detail::count_v; ++i) { if (const auto v = static_cast(detail::enum_value(i)); (static_cast(value) & v) != 0) { if (const auto n = detail::names_v[i]; !n.empty()) { check_value |= v; if (!name.empty()) { name.append(1, sep); } name.append(n.data(), n.size()); } else { return {}; // Value out of range. } } } if (check_value != 0 && check_value == static_cast(value)) { return name; } return {}; // Invalid value or out of range. } // Obtains name of static storage enum variable. // This version is much lighter on the compile times and is not restricted to the enum_range limitation. template = 0> [[nodiscard]] constexpr auto nameof_enum() noexcept { using D = std::decay_t; static_assert(std::is_enum_v, "nameof::nameof_enum requires member enum type."); static_assert(detail::nameof_enum_supported::value, "nameof::nameof_enum unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); return detail::enum_name_v; } // Obtains name of type, reference and cv-qualifiers are ignored. template [[nodiscard]] constexpr string_view nameof_type() noexcept { using U = detail::identity>; static_assert(detail::nameof_type_supported::value, "nameof::nameof_type unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); return detail::type_name_v; } // Obtains full name of type, with reference and cv-qualifiers. template [[nodiscard]] constexpr string_view nameof_full_type() noexcept { using U = detail::identity; static_assert(detail::nameof_type_supported::value, "nameof::nameof_type unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); return detail::type_name_v; } // Obtains short name of type. template = 0> [[nodiscard]] constexpr auto nameof_short_type() noexcept { using U = detail::identity>; static_assert(detail::nameof_type_supported::value, "nameof::nameof_type unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); static_assert(!std::is_array_v && !std::is_pointer_v, "nameof::nameof_member requires non array and non pointer type."); constexpr string_view name = detail::pretty_name(detail::type_name_v); static_assert(!name.empty(), "Type does not have a short name."); return cstring{name}; } // Obtains name of member. template , int> = 0> [[nodiscard]] constexpr auto nameof_member() noexcept { using U = decltype(V); static_assert(std::is_member_pointer_v, "nameof::nameof_member requires member pointer type."); static_assert(detail::nameof_member_supported::value, "nameof::nameof_member unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); return detail::member_name_v; } // Obtains name of a function, a global or class static variable. template , int> = 0> [[nodiscard]] constexpr auto nameof_pointer() noexcept { using U = decltype(V); static_assert(std::is_pointer_v, "nameof::nameof_pointer requires pointer type."); static_assert(detail::nameof_pointer_supported::value, "nameof::nameof_pointer unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility)."); return detail::pointer_name_v; } } // namespace nameof // Obtains name of variable, function, macro. #define NAMEOF(...) []() constexpr noexcept { \ ::std::void_t(); \ constexpr auto _name = ::nameof::detail::pretty_name(#__VA_ARGS__); \ static_assert(!_name.empty(), "Expression does not have a name."); \ constexpr auto _size = _name.size(); \ constexpr auto _nameof = ::nameof::cstring<_size>{_name}; \ return _nameof; }() // Obtains full name of variable, function, macro. #define NAMEOF_FULL(...) []() constexpr noexcept { \ ::std::void_t(); \ constexpr auto _name = ::nameof::detail::pretty_name(#__VA_ARGS__, false); \ static_assert(!_name.empty(), "Expression does not have a name."); \ constexpr auto _size = _name.size(); \ constexpr auto _nameof_full = ::nameof::cstring<_size>{_name}; \ return _nameof_full; }() // Obtains raw name of variable, function, macro. #define NAMEOF_RAW(...) []() constexpr noexcept { \ ::std::void_t(); \ constexpr auto _name = ::nameof::string_view{#__VA_ARGS__}; \ static_assert(!_name.empty(), "Expression does not have a name."); \ constexpr auto _size = _name.size(); \ constexpr auto _nameof_raw = ::nameof::cstring<_size>{_name}; \ return _nameof_raw; }() // Obtains name of enum variable. #define NAMEOF_ENUM(...) ::nameof::nameof_enum<::std::decay_t>(__VA_ARGS__) // Obtains name of enum variable or default value if enum variable out of range. #define NAMEOF_ENUM_OR(...) ::nameof::nameof_enum_or(__VA_ARGS__) // Obtains name of static storage enum variable. // This version is much lighter on the compile times and is not restricted to the enum_range limitation. #define NAMEOF_ENUM_CONST(...) ::nameof::nameof_enum<__VA_ARGS__>() // Obtains name of enum-flags variable. #define NAMEOF_ENUM_FLAG(...) ::nameof::nameof_enum_flag<::std::decay_t>(__VA_ARGS__) // Obtains type name, reference and cv-qualifiers are ignored. #define NAMEOF_TYPE(...) ::nameof::nameof_type<__VA_ARGS__>() // Obtains full type name, with reference and cv-qualifiers. #define NAMEOF_FULL_TYPE(...) ::nameof::nameof_full_type<__VA_ARGS__>() // Obtains short type name. #define NAMEOF_SHORT_TYPE(...) ::nameof::nameof_short_type<__VA_ARGS__>() // Obtains type name of expression, reference and cv-qualifiers are ignored. #define NAMEOF_TYPE_EXPR(...) ::nameof::nameof_type() // Obtains full type name of expression, with reference and cv-qualifiers. #define NAMEOF_FULL_TYPE_EXPR(...) ::nameof::nameof_full_type() // Obtains short type name of expression. #define NAMEOF_SHORT_TYPE_EXPR(...) ::nameof::nameof_short_type() // Obtains type name, with reference and cv-qualifiers, using RTTI. #define NAMEOF_TYPE_RTTI(...) ::nameof::detail::nameof_type_rtti<::std::void_t>(typeid(__VA_ARGS__).name()) // Obtains full type name, using RTTI. #define NAMEOF_FULL_TYPE_RTTI(...) ::nameof::detail::nameof_full_type_rtti(typeid(__VA_ARGS__).name()) // Obtains short type name, using RTTI. #define NAMEOF_SHORT_TYPE_RTTI(...) ::nameof::detail::nameof_short_type_rtti(typeid(__VA_ARGS__).name()) // Obtains name of member. #define NAMEOF_MEMBER(...) ::nameof::nameof_member<__VA_ARGS__>() // Obtains name of a function, a global or class static variable. #define NAMEOF_POINTER(...) ::nameof::nameof_pointer<__VA_ARGS__>() #if defined(__clang__) # pragma clang diagnostic pop #elif defined(__GNUC__) # pragma GCC diagnostic pop #elif defined(_MSC_VER) # pragma warning(pop) #endif #endif // NEARGYE_NAMEOF_HPP