enumbra_test.hpp

// THIS FILE WAS GENERATED BY A TOOL: https://github.com/Scaless/enumbra
// It is highly recommended that you not make manual edits to this file,
// as they will be overwritten when the file is re-generated.
// Generated by enumbra v0.2.3

// This is where you would put your code license!

#ifndef ENUMBRA_330E78AF79EDD327_H
#define ENUMBRA_330E78AF79EDD327_H

#include <cstdint>

#if !defined(ENUMBRA_REQUIRED_MACROS_VERSION)
#define ENUMBRA_REQUIRED_MACROS_VERSION 9

// Find out what language version we're using
// 2024-07-04:MSVC Doesn't officially support C++23 yet
#if (__cplusplus >= 202302L)
#define ENUMBRA_CPP_VERSION 23
#elif ((defined(_MSVC_LANG) && _MSVC_LANG >= 202002L)) || (__cplusplus >= 202002L)
#define ENUMBRA_CPP_VERSION 20
#elif ((defined(_MSVC_LANG) && _MSVC_LANG >= 201703L)) || (__cplusplus >= 201703L)
#define ENUMBRA_CPP_VERSION 17
#else
#error Headers generated by enumbra require a compiler that supports C++17 or higher.
#endif

#if defined(__clang__)
#define ENUMBRA_COMPILER_CLANG
#elif defined(__GNUG__)
#define ENUMBRA_COMPILER_GCC
#elif defined(_MSC_VER)
#define ENUMBRA_COMPILER_MSVC
#else
#define ENUMBRA_COMPILER_UNKNOWN
#endif

#else // check existing version supported
#if (ENUMBRA_REQUIRED_MACROS_VERSION + 0) == 0
#error ENUMBRA_REQUIRED_MACROS_VERSION has been defined without a proper version number. Check your build system.
#elif (ENUMBRA_REQUIRED_MACROS_VERSION + 0) < 9
#error An included header was generated using a newer version of enumbra. Regenerate your headers using the same version.
#elif (ENUMBRA_REQUIRED_MACROS_VERSION + 0) > 9
#error An included header was generated using an older version of enumbra. Regenerate your headers using the same version.
#endif // end check existing version supported
#endif // ENUMBRA_REQUIRED_MACROS_VERSION

#ifndef ENUMBRA_NO_OPTIONAL_MACROS
#if !defined(ENUMBRA_OPTIONAL_MACROS_VERSION)
#define ENUMBRA_OPTIONAL_MACROS_VERSION 10

// Bitfield convenience functions
#define ENUMBRA_CLEAR(Field) do { decltype(Field) _field_ = Field; ::enumbra::clear(_field_); (Field) = _field_; } while (0)
#define ENUMBRA_SET(Field, Value) do { decltype(Field) _field_ = Field; ::enumbra::set(_field_, Value); (Field) = _field_; } while (0)
#define ENUMBRA_UNSET(Field, Value) do { decltype(Field) _field_ = Field; ::enumbra::unset(_field_, Value); (Field) = _field_; } while (0)
#define ENUMBRA_TOGGLE(Field, Value) do { decltype(Field) _field_ = Field; ::enumbra::toggle(_field_, Value); (Field) = _field_; } while (0)

// Bit field storage helper
#define ENUMBRA_PACK_UNINITIALIZED(Enum, Name) Enum Name : ::enumbra::bits_required_storage<Enum>()
#define ENUMBRA_INIT(Name, InitValue) Name(::enumbra::default_value<decltype(Name)>())
#define ENUMBRA_INIT_DEFAULT(Name) Name(::enumbra::default_value<decltype(Name)>())

// Iterate flags in a switch
#define ENUMBRA_FLAGS_SWITCH_BEGIN(var) do { for (const auto flag : ::enumbra::flags<decltype(var)>()) { if (::enumbra::has_any(var & flag)) { switch (var & flag)
#define ENUMBRA_FLAGS_SWITCH_END } } } while (0)

#if ENUMBRA_CPP_VERSION >= 20
// Bit field storage helper with type-checked member initialization
#define ENUMBRA_PACK_INIT(Enum, Name, InitValue) Enum Name : ::enumbra::bits_required_storage<Enum>() { InitValue }
// Bit field storage helper with default value initialization
#define ENUMBRA_PACK_INIT_DEFAULT(Enum, Name) Enum Name : ::enumbra::bits_required_storage<Enum>() { ::enumbra::default_value<Enum>() }
#endif

#else // check existing version supported
#if (ENUMBRA_OPTIONAL_MACROS_VERSION + 0) == 0
#error ENUMBRA_OPTIONAL_MACROS_VERSION has been defined without a proper version number. Check your build system.
#elif (ENUMBRA_OPTIONAL_MACROS_VERSION + 0) < 10
#error An included header was generated using a newer version of enumbra. Regenerate your headers using the same version.
#elif (ENUMBRA_OPTIONAL_MACROS_VERSION + 0) > 10
#error An included header was generated using an older version of enumbra. Regenerate your headers using the same version.
#endif // end check existing version supported
#endif // ENUMBRA_OPTIONAL_MACROS_VERSION
#endif

#if !defined(ENUMBRA_BASE_TEMPLATES_VERSION)
#define ENUMBRA_BASE_TEMPLATES_VERSION 31
namespace enumbra {
    namespace detail {
        // Re-Implementation of std:: features to avoid including std headers
        template<bool B, class T, class F>
        struct conditional { using type = T; };
        template<class T, class F>
        struct conditional<false, T, F> { using type = F; };
        template<bool B, class T, class F>
        using conditional_t = typename conditional<B, T, F>::type;

 #if defined(__cpp_lib_is_constant_evaluated)
        // Supported on clang/gcc/MSVC in C++17, even though it's only in the C++20 standard. 
        constexpr bool is_constant_evaluated() noexcept { return __builtin_is_constant_evaluated(); }
#else
        constexpr bool is_constant_evaluated() noexcept { return false; }
#endif

        // Type info
        template<bool is_enumbra, bool is_value_enum, bool is_flags_enum>
        struct type_info {
            static constexpr bool enumbra_type = is_enumbra;
            static constexpr bool enumbra_value_enum = is_value_enum;
            static constexpr bool enumbra_flags_enum = is_flags_enum;
        };

        // Enum info
        template<
            typename underlying_type,
            underlying_type min_v,
            underlying_type max_v,
            underlying_type default_v,
            int count_v,
            bool is_contiguous_v,
            int bits_required_storage_v,
            int bits_required_transmission_v,
            bool has_invalid_sentinel_v,
            underlying_type invalid_sentinel_v
        >
        struct enum_info {
            using underlying_t = underlying_type;
            static constexpr underlying_type min = min_v;
            static constexpr underlying_type max = max_v;
            static constexpr underlying_type default_value = default_v;
            static constexpr int count = count_v;
            static constexpr bool is_contiguous = is_contiguous_v;
            static constexpr int bits_required_storage = bits_required_storage_v;
            static constexpr int bits_required_transmission = bits_required_transmission_v;
            static constexpr bool has_invalid_sentinel = has_invalid_sentinel_v;
            static constexpr underlying_type invalid_sentinel = invalid_sentinel_v;
        };

        // Default template for non-enumbra types
        template<class T>
        struct base_helper : type_info<false, false, false> { };
        template<class T>
        struct enum_helper;

        // Compare strings with sizes only known at runtime
        constexpr bool streq_known_size(const char* a, const char* b, int len) noexcept {
            for(int i = 0; i < len; ++i) { if(a[i] != b[i]) { return false; } }
            return true;
        }
        // Compare strings with sizes known at compile time
        template<int length>
        constexpr bool streq_fixed_size(const char* a, const char* b) noexcept {
            static_assert(length > 0);
            for(int i = 0; i < length; ++i) { if(a[i] != b[i]) { return false; } }
            return true;
        }
        // C-style string length
        constexpr int strlen(const char* a) noexcept {
            if (a == nullptr) { return 0; }
            int count = 0;
            while (a[count] != 0) { count++; }
            return count;
        }
    } // end namespace enumbra::detail

    template<class T>
    constexpr bool is_enumbra_enum = detail::base_helper<T>::enumbra_type;
    template<class T>
    constexpr bool is_enumbra_value_enum = detail::base_helper<T>::enumbra_value_enum;
    template<class T>
    constexpr bool is_enumbra_flags_enum = detail::base_helper<T>::enumbra_flags_enum;

    template<class T>
    constexpr T min() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return static_cast<T>(detail::enum_helper<T>::min);
    }

    template<class T>
    constexpr T max() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return static_cast<T>(detail::enum_helper<T>::max);
    }

    template<class T>
    constexpr T default_value() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return static_cast<T>(detail::enum_helper<T>::default_value);
    }

    template<class T>
    constexpr int count() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return detail::enum_helper<T>::count;
    }

    template<class T>
    constexpr bool is_contiguous() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return detail::enum_helper<T>::is_contiguous;
    }

    template<class T>
    constexpr int bits_required_storage() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return detail::enum_helper<T>::bits_required_storage;
    }
 
    template<class T>
    constexpr int bits_required_transmission() {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return detail::enum_helper<T>::bits_required_transmission;
    }

    template<class T, class underlying_type>
    constexpr T from_integer_unsafe(underlying_type e) noexcept {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return static_cast<T>(e);
    }

    template<class T>
    constexpr auto to_underlying(T e) noexcept {
        static_assert(is_enumbra_enum<T>, "T is not an enumbra enum");
        return static_cast<typename detail::enum_helper<T>::underlying_t>(e);
    }

    namespace detail {
        template<class T>
        struct optional_result_base_bool 
        {
        private:
            using bool_type = 
                detail::conditional_t<sizeof(T) == 1, char,
                detail::conditional_t<sizeof(T) == 2, short,
                detail::conditional_t<sizeof(T) == 4, int,
                detail::conditional_t<sizeof(T) == 8, long long,
                void /* invalid size */>>>>;
        protected:
            bool_type success = 0;
        };
        
        struct optional_result_base_inplace { };
    }

    template<class T, bool use_invalid_sentinel = detail::enum_helper<T>::has_invalid_sentinel>
    struct optional_value : detail::conditional_t<use_invalid_sentinel, detail::optional_result_base_inplace, detail::optional_result_base_bool<T>>
    {
    private:
        T v = static_cast<T>(detail::enum_helper<T>::invalid_sentinel);
    public:
        constexpr optional_value() : v(static_cast<T>(detail::enum_helper<T>::invalid_sentinel)) { }

        constexpr explicit optional_value(T value) : v(value) {
            if constexpr(!use_invalid_sentinel) {
                this->success = 1;
            }
        }

        constexpr explicit operator bool() const noexcept {
            if constexpr (use_invalid_sentinel) {
                return v != static_cast<T>(detail::enum_helper<T>::invalid_sentinel);
            } else {
                return this->success > 0;
            }
        }

        constexpr bool has_value() const { return operator bool(); }
        constexpr T value() const { return v; }
        constexpr T value_or(T default_value) const { return operator bool() ? v : default_value; }
    };

    struct string_view {
        using size_type = detail::conditional_t<sizeof(void*) == 4, int, long long>;

        const char* str = nullptr;
        size_type size = 0;

        constexpr bool empty() const { return size == 0; }
    };

	template<int buf_size>
	struct stack_string {
		static_assert(buf_size > 0, "invalid buf_size");
		static_assert(((buf_size + sizeof(int)) % 16) == 0, "invalid buf_size");

		template<int length>
		constexpr void append(const char* from) {
			for (int i = 0; i < length; ++i) { 
				buffer[data_size+i] = from[i]; 
			}
			data_size += length;
		}

		constexpr void append(char c) {
			buffer[data_size] = c;
			data_size += 1;
		}

		constexpr int size() { return data_size; }
		constexpr bool empty() { return data_size == 0; }
		constexpr string_view sv() { return { &buffer[0], data_size }; }
	private:
		int data_size = 0;
		char buffer[buf_size] = {};
	};

    // Begin Default Templates
    template<class T>
    constexpr optional_value<T> from_string(const char* str, int len) noexcept = delete;

    template<class T>
    constexpr optional_value<T> from_string(const char* str) noexcept = delete;

    template<class T, class underlying_type>
    constexpr optional_value<T> from_integer(underlying_type value) noexcept = delete;

    template<class T>
    constexpr auto& values() noexcept = delete;

    template<class T>
    constexpr auto& flags() noexcept = delete;

    template<class T>
    constexpr bool is_valid(T e) noexcept = delete;

    template<class T>
    constexpr string_view enum_name() noexcept = delete;

    template<class T>
    constexpr string_view enum_name_with_namespace() noexcept = delete;

    template<class T>
    constexpr string_view enum_namespace() noexcept = delete;

    template<class T>
    constexpr void clear(T& value) noexcept = delete;

    template<class T>
    constexpr bool test(T value, T flags) noexcept = delete;

    template<class T>
    constexpr void set(T& value, T flags) noexcept = delete;

    template<class T>
    constexpr void unset(T& value, T flags) noexcept = delete;

    template<class T>
    constexpr void toggle(T& value, T flags) noexcept = delete;

    template<class T>
    constexpr bool has_all(T value) noexcept = delete;

    template<class T>
    constexpr bool has_any(T value) noexcept = delete;

    template<class T>
    constexpr bool has_none(T value) noexcept = delete;

    template<class T>
    constexpr bool has_single(T value) noexcept = delete;

    template<typename Value, typename Func>
    constexpr void flags_switch(Value v, Func&& func) {
        static_assert(::enumbra::is_enumbra_flags_enum<Value>, "Value is not an enumbra flags enum");
        for (const Value flag : ::enumbra::flags<Value>()) {
            if (::enumbra::has_any(v & flag)) {
                func(v & flag);
            }
        }
    }

    // End Default Templates
} // end namespace enumbra
#else // check existing version supported
#if (ENUMBRA_BASE_TEMPLATES_VERSION + 0) == 0
#error ENUMBRA_BASE_TEMPLATES_VERSION has been defined without a proper version number. Check your build system.
#elif (ENUMBRA_BASE_TEMPLATES_VERSION + 0) < 31
#error An included header was generated using a newer version of enumbra. Regenerate your headers using same version of enumbra.
#elif (ENUMBRA_BASE_TEMPLATES_VERSION + 0) > 31
#error An included header was generated using an older version of enumbra. Regenerate your headers using same version of enumbra.
#endif // check existing version supported
#endif // ENUMBRA_BASE_TEMPLATES_VERSION

namespace enums {
enum class test_string_parse : int64_t {
C = -1,
B = 1,
F = 341,
D = 511,
E = 9223372036854775807,
};
}

template<> struct enumbra::detail::base_helper<::enums::test_string_parse> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::test_string_parse> : enumbra::detail::enum_info<int64_t, -1, 9223372036854775807, -1, 5, false, 64, 64, true, 0> { };

namespace enums::detail::test_string_parse {
constexpr ::enums::test_string_parse values_arr[5] =
{
::enums::test_string_parse::C,
::enums::test_string_parse::B,
::enums::test_string_parse::F,
::enums::test_string_parse::D,
::enums::test_string_parse::E,
};
constexpr const char enum_strings[11] = {
"C\0"
"B\0"
"F\0"
"D\0"
"E\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::test_string_parse>() noexcept
{
return ::enums::detail::test_string_parse::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::test_string_parse> enumbra::from_integer<::enums::test_string_parse>(int64_t v) noexcept { 
for(auto value : values<::enums::test_string_parse>()) {
if(value == static_cast<::enums::test_string_parse>(v)) { return ::enumbra::optional_value<::enums::test_string_parse>(static_cast<::enums::test_string_parse>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::test_string_parse>(::enums::test_string_parse e) noexcept { 
for(auto value : values<::enums::test_string_parse>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::test_string_parse>() noexcept { 
return { "test_string_parse", 17 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::test_string_parse>() noexcept { 
return { "enums::test_string_parse", 24 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::test_string_parse>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::test_string_parse v) noexcept {
switch (v) {
case ::enums::test_string_parse::C: return { &::enums::detail::test_string_parse::enum_strings[0], 1 };
case ::enums::test_string_parse::B: return { &::enums::detail::test_string_parse::enum_strings[2], 1 };
case ::enums::test_string_parse::F: return { &::enums::detail::test_string_parse::enum_strings[4], 1 };
case ::enums::test_string_parse::D: return { &::enums::detail::test_string_parse::enum_strings[6], 1 };
case ::enums::test_string_parse::E: return { &::enums::detail::test_string_parse::enum_strings[8], 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::test_string_parse> enumbra::from_string<::enums::test_string_parse>(const char* str, int len) noexcept {
if(len != 1) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 5;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<1>(::enums::detail::test_string_parse::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::test_string_parse>(::enums::detail::test_string_parse::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::test_string_parse> enumbra::from_string<::enums::test_string_parse>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::test_string_parse>(str, len);
}


namespace enums {
enum class Unsigned64Test : uint64_t {
MIN = 0,
V_UINT16_MAX = 0xFFFF,
V_UINT32_MAX = 0xFFFFFFFF,
MAX = 0xFFFFFFFFFFFFFFFF,
};
}

template<> struct enumbra::detail::base_helper<::enums::Unsigned64Test> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::Unsigned64Test> : enumbra::detail::enum_info<uint64_t, 0, 0xFFFFFFFFFFFFFFFF, 0, 4, false, 64, 64, false, 0> { };

namespace enums::detail::Unsigned64Test {
constexpr ::enums::Unsigned64Test values_arr[4] =
{
::enums::Unsigned64Test::MIN,
::enums::Unsigned64Test::V_UINT16_MAX,
::enums::Unsigned64Test::V_UINT32_MAX,
::enums::Unsigned64Test::MAX,
};
constexpr const char enum_strings[35] = {
"MIN\0"
"MAX\0"
"V_UINT16_MAX\0"
"V_UINT32_MAX\0"
};
constexpr ::enums::Unsigned64Test enum_string_values[4] = {
::enums::Unsigned64Test::MIN,
::enums::Unsigned64Test::MAX,
::enums::Unsigned64Test::V_UINT16_MAX,
::enums::Unsigned64Test::V_UINT32_MAX,
};
}

template<>
constexpr auto& enumbra::values<::enums::Unsigned64Test>() noexcept
{
return ::enums::detail::Unsigned64Test::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::Unsigned64Test> enumbra::from_integer<::enums::Unsigned64Test>(uint64_t v) noexcept { 
for(auto value : values<::enums::Unsigned64Test>()) {
if(value == static_cast<::enums::Unsigned64Test>(v)) { return ::enumbra::optional_value<::enums::Unsigned64Test>(static_cast<::enums::Unsigned64Test>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::Unsigned64Test>(::enums::Unsigned64Test e) noexcept { 
for(auto value : values<::enums::Unsigned64Test>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::Unsigned64Test>() noexcept { 
return { "Unsigned64Test", 14 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::Unsigned64Test>() noexcept { 
return { "enums::Unsigned64Test", 21 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::Unsigned64Test>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::Unsigned64Test v) noexcept {
switch (v) {
case ::enums::Unsigned64Test::MIN: return { &::enums::detail::Unsigned64Test::enum_strings[0], 3 };
case ::enums::Unsigned64Test::MAX: return { &::enums::detail::Unsigned64Test::enum_strings[4], 3 };
case ::enums::Unsigned64Test::V_UINT16_MAX: return { &::enums::detail::Unsigned64Test::enum_strings[8], 12 };
case ::enums::Unsigned64Test::V_UINT32_MAX: return { &::enums::detail::Unsigned64Test::enum_strings[21], 12 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::Unsigned64Test> enumbra::from_string<::enums::Unsigned64Test>(const char* str, int len) noexcept {
int offset_str = 0;
int offset_enum = 0;
int count = 0;
switch(len) {
case 3: offset_str = 0; offset_enum = 0; count = 2; break;
case 12: offset_str = 8; offset_enum = 2; count = 2; break;
default: return {};
}
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_known_size(::enums::detail::Unsigned64Test::enum_strings + offset_str + (i * (len + 1)), str, len)) {
return ::enumbra::optional_value<::enums::Unsigned64Test>(::enums::detail::Unsigned64Test::enum_string_values[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::Unsigned64Test> enumbra::from_string<::enums::Unsigned64Test>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::Unsigned64Test>(str, len);
}


namespace enums {
enum class Signed64Test : int64_t {
MIN = (-9223372036854775807 - 1),
NEG_ONE = -1,
MAX = 9223372036854775807,
};
}

template<> struct enumbra::detail::base_helper<::enums::Signed64Test> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::Signed64Test> : enumbra::detail::enum_info<int64_t, (-9223372036854775807 - 1), 9223372036854775807, (-9223372036854775807 - 1), 3, false, 64, 64, true, 0> { };

namespace enums::detail::Signed64Test {
constexpr ::enums::Signed64Test values_arr[3] =
{
::enums::Signed64Test::MIN,
::enums::Signed64Test::NEG_ONE,
::enums::Signed64Test::MAX,
};
constexpr const char enum_strings[17] = {
"MIN\0"
"MAX\0"
"NEG_ONE\0"
};
constexpr ::enums::Signed64Test enum_string_values[3] = {
::enums::Signed64Test::MIN,
::enums::Signed64Test::MAX,
::enums::Signed64Test::NEG_ONE,
};
}

template<>
constexpr auto& enumbra::values<::enums::Signed64Test>() noexcept
{
return ::enums::detail::Signed64Test::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed64Test> enumbra::from_integer<::enums::Signed64Test>(int64_t v) noexcept { 
for(auto value : values<::enums::Signed64Test>()) {
if(value == static_cast<::enums::Signed64Test>(v)) { return ::enumbra::optional_value<::enums::Signed64Test>(static_cast<::enums::Signed64Test>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::Signed64Test>(::enums::Signed64Test e) noexcept { 
for(auto value : values<::enums::Signed64Test>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::Signed64Test>() noexcept { 
return { "Signed64Test", 12 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::Signed64Test>() noexcept { 
return { "enums::Signed64Test", 19 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::Signed64Test>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::Signed64Test v) noexcept {
switch (v) {
case ::enums::Signed64Test::MIN: return { &::enums::detail::Signed64Test::enum_strings[0], 3 };
case ::enums::Signed64Test::MAX: return { &::enums::detail::Signed64Test::enum_strings[4], 3 };
case ::enums::Signed64Test::NEG_ONE: return { &::enums::detail::Signed64Test::enum_strings[8], 7 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed64Test> enumbra::from_string<::enums::Signed64Test>(const char* str, int len) noexcept {
int offset_str = 0;
int offset_enum = 0;
int count = 0;
switch(len) {
case 3: offset_str = 0; offset_enum = 0; count = 2; break;
case 7: offset_str = 8; offset_enum = 2; count = 1; break;
default: return {};
}
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_known_size(::enums::detail::Signed64Test::enum_strings + offset_str + (i * (len + 1)), str, len)) {
return ::enumbra::optional_value<::enums::Signed64Test>(::enums::detail::Signed64Test::enum_string_values[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed64Test> enumbra::from_string<::enums::Signed64Test>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::Signed64Test>(str, len);
}


namespace enums {
enum class Signed32Test : int32_t {
MIN = (-2147483647 - 1),
NEG_ONE = -1,
MAX = 2147483647,
};
}

template<> struct enumbra::detail::base_helper<::enums::Signed32Test> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::Signed32Test> : enumbra::detail::enum_info<int32_t, (-2147483647 - 1), 2147483647, (-2147483647 - 1), 3, false, 32, 32, true, 0> { };

namespace enums::detail::Signed32Test {
constexpr ::enums::Signed32Test values_arr[3] =
{
::enums::Signed32Test::MIN,
::enums::Signed32Test::NEG_ONE,
::enums::Signed32Test::MAX,
};
constexpr const char enum_strings[17] = {
"MIN\0"
"MAX\0"
"NEG_ONE\0"
};
constexpr ::enums::Signed32Test enum_string_values[3] = {
::enums::Signed32Test::MIN,
::enums::Signed32Test::MAX,
::enums::Signed32Test::NEG_ONE,
};
}

template<>
constexpr auto& enumbra::values<::enums::Signed32Test>() noexcept
{
return ::enums::detail::Signed32Test::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed32Test> enumbra::from_integer<::enums::Signed32Test>(int32_t v) noexcept { 
for(auto value : values<::enums::Signed32Test>()) {
if(value == static_cast<::enums::Signed32Test>(v)) { return ::enumbra::optional_value<::enums::Signed32Test>(static_cast<::enums::Signed32Test>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::Signed32Test>(::enums::Signed32Test e) noexcept { 
for(auto value : values<::enums::Signed32Test>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::Signed32Test>() noexcept { 
return { "Signed32Test", 12 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::Signed32Test>() noexcept { 
return { "enums::Signed32Test", 19 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::Signed32Test>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::Signed32Test v) noexcept {
switch (v) {
case ::enums::Signed32Test::MIN: return { &::enums::detail::Signed32Test::enum_strings[0], 3 };
case ::enums::Signed32Test::MAX: return { &::enums::detail::Signed32Test::enum_strings[4], 3 };
case ::enums::Signed32Test::NEG_ONE: return { &::enums::detail::Signed32Test::enum_strings[8], 7 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed32Test> enumbra::from_string<::enums::Signed32Test>(const char* str, int len) noexcept {
int offset_str = 0;
int offset_enum = 0;
int count = 0;
switch(len) {
case 3: offset_str = 0; offset_enum = 0; count = 2; break;
case 7: offset_str = 8; offset_enum = 2; count = 1; break;
default: return {};
}
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_known_size(::enums::detail::Signed32Test::enum_strings + offset_str + (i * (len + 1)), str, len)) {
return ::enumbra::optional_value<::enums::Signed32Test>(::enums::detail::Signed32Test::enum_string_values[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed32Test> enumbra::from_string<::enums::Signed32Test>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::Signed32Test>(str, len);
}


namespace enums {
enum class Signed16Test : int16_t {
MIN = (-32767 - 1),
NEG_ONE = -1,
MAX = 32767,
};
}

template<> struct enumbra::detail::base_helper<::enums::Signed16Test> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::Signed16Test> : enumbra::detail::enum_info<int16_t, (-32767 - 1), 32767, (-32767 - 1), 3, false, 16, 16, true, 0> { };

namespace enums::detail::Signed16Test {
constexpr ::enums::Signed16Test values_arr[3] =
{
::enums::Signed16Test::MIN,
::enums::Signed16Test::NEG_ONE,
::enums::Signed16Test::MAX,
};
constexpr const char enum_strings[17] = {
"MIN\0"
"MAX\0"
"NEG_ONE\0"
};
constexpr ::enums::Signed16Test enum_string_values[3] = {
::enums::Signed16Test::MIN,
::enums::Signed16Test::MAX,
::enums::Signed16Test::NEG_ONE,
};
}

template<>
constexpr auto& enumbra::values<::enums::Signed16Test>() noexcept
{
return ::enums::detail::Signed16Test::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed16Test> enumbra::from_integer<::enums::Signed16Test>(int16_t v) noexcept { 
for(auto value : values<::enums::Signed16Test>()) {
if(value == static_cast<::enums::Signed16Test>(v)) { return ::enumbra::optional_value<::enums::Signed16Test>(static_cast<::enums::Signed16Test>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::Signed16Test>(::enums::Signed16Test e) noexcept { 
for(auto value : values<::enums::Signed16Test>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::Signed16Test>() noexcept { 
return { "Signed16Test", 12 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::Signed16Test>() noexcept { 
return { "enums::Signed16Test", 19 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::Signed16Test>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::Signed16Test v) noexcept {
switch (v) {
case ::enums::Signed16Test::MIN: return { &::enums::detail::Signed16Test::enum_strings[0], 3 };
case ::enums::Signed16Test::MAX: return { &::enums::detail::Signed16Test::enum_strings[4], 3 };
case ::enums::Signed16Test::NEG_ONE: return { &::enums::detail::Signed16Test::enum_strings[8], 7 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed16Test> enumbra::from_string<::enums::Signed16Test>(const char* str, int len) noexcept {
int offset_str = 0;
int offset_enum = 0;
int count = 0;
switch(len) {
case 3: offset_str = 0; offset_enum = 0; count = 2; break;
case 7: offset_str = 8; offset_enum = 2; count = 1; break;
default: return {};
}
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_known_size(::enums::detail::Signed16Test::enum_strings + offset_str + (i * (len + 1)), str, len)) {
return ::enumbra::optional_value<::enums::Signed16Test>(::enums::detail::Signed16Test::enum_string_values[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed16Test> enumbra::from_string<::enums::Signed16Test>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::Signed16Test>(str, len);
}


namespace enums {
enum class Signed8Test : int8_t {
V_INT_MIN = (-127 - 1),
V_NEG_ONE = -1,
V_INT_MAX = 127,
};
}

template<> struct enumbra::detail::base_helper<::enums::Signed8Test> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::Signed8Test> : enumbra::detail::enum_info<int8_t, (-127 - 1), 127, (-127 - 1), 3, false, 8, 8, true, 0> { };

namespace enums::detail::Signed8Test {
constexpr ::enums::Signed8Test values_arr[3] =
{
::enums::Signed8Test::V_INT_MIN,
::enums::Signed8Test::V_NEG_ONE,
::enums::Signed8Test::V_INT_MAX,
};
constexpr const char enum_strings[31] = {
"V_INT_MIN\0"
"V_NEG_ONE\0"
"V_INT_MAX\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::Signed8Test>() noexcept
{
return ::enums::detail::Signed8Test::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed8Test> enumbra::from_integer<::enums::Signed8Test>(int8_t v) noexcept { 
for(auto value : values<::enums::Signed8Test>()) {
if(value == static_cast<::enums::Signed8Test>(v)) { return ::enumbra::optional_value<::enums::Signed8Test>(static_cast<::enums::Signed8Test>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::Signed8Test>(::enums::Signed8Test e) noexcept { 
for(auto value : values<::enums::Signed8Test>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::Signed8Test>() noexcept { 
return { "Signed8Test", 11 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::Signed8Test>() noexcept { 
return { "enums::Signed8Test", 18 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::Signed8Test>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::Signed8Test v) noexcept {
switch (v) {
case ::enums::Signed8Test::V_INT_MIN: return { &::enums::detail::Signed8Test::enum_strings[0], 9 };
case ::enums::Signed8Test::V_NEG_ONE: return { &::enums::detail::Signed8Test::enum_strings[10], 9 };
case ::enums::Signed8Test::V_INT_MAX: return { &::enums::detail::Signed8Test::enum_strings[20], 9 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed8Test> enumbra::from_string<::enums::Signed8Test>(const char* str, int len) noexcept {
if(len != 9) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 3;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<9>(::enums::detail::Signed8Test::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::Signed8Test>(::enums::detail::Signed8Test::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::Signed8Test> enumbra::from_string<::enums::Signed8Test>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::Signed8Test>(str, len);
}


namespace enums {
enum class test_value : int32_t {
A = 0,
B = 1,
C = 2,
};
}

template<> struct enumbra::detail::base_helper<::enums::test_value> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::test_value> : enumbra::detail::enum_info<int32_t, 0, 2, 0, 3, true, 3, 2, true, -1> { };

namespace enums::detail::test_value {
constexpr ::enums::test_value values_arr[3] =
{
::enums::test_value::A,
::enums::test_value::B,
::enums::test_value::C,
};
constexpr const char enum_strings[7] = {
"A\0"
"B\0"
"C\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::test_value>() noexcept
{
return ::enums::detail::test_value::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::test_value> enumbra::from_integer<::enums::test_value>(int32_t v) noexcept { 
if((0 <= v) && (v <= 2)) { return ::enumbra::optional_value<::enums::test_value>(static_cast<::enums::test_value>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::test_value>(::enums::test_value e) noexcept { 
return (0 <= static_cast<int32_t>(e)) && (static_cast<int32_t>(e) <= 2);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::test_value>() noexcept { 
return { "test_value", 10 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::test_value>() noexcept { 
return { "enums::test_value", 17 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::test_value>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::test_value v) noexcept {
switch (v) {
case ::enums::test_value::A: return { &::enums::detail::test_value::enum_strings[0], 1 };
case ::enums::test_value::B: return { &::enums::detail::test_value::enum_strings[2], 1 };
case ::enums::test_value::C: return { &::enums::detail::test_value::enum_strings[4], 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::test_value> enumbra::from_string<::enums::test_value>(const char* str, int len) noexcept {
if(len != 1) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 3;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<1>(::enums::detail::test_value::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::test_value>(::enums::detail::test_value::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::test_value> enumbra::from_string<::enums::test_value>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::test_value>(str, len);
}


namespace enums {
enum class HexDiagonal : uint8_t {
NORTH = 0,
NORTH_EAST = 1,
SOUTH_EAST = 2,
SOUTH = 3,
SOUTH_WEST = 4,
NORTH_WEST = 5,
};
}

template<> struct enumbra::detail::base_helper<::enums::HexDiagonal> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::HexDiagonal> : enumbra::detail::enum_info<uint8_t, 0, 5, 0, 6, true, 3, 3, true, 255> { };

namespace enums::detail::HexDiagonal {
constexpr ::enums::HexDiagonal values_arr[6] =
{
::enums::HexDiagonal::NORTH,
::enums::HexDiagonal::NORTH_EAST,
::enums::HexDiagonal::SOUTH_EAST,
::enums::HexDiagonal::SOUTH,
::enums::HexDiagonal::SOUTH_WEST,
::enums::HexDiagonal::NORTH_WEST,
};
constexpr const char enum_strings[57] = {
"NORTH\0"
"SOUTH\0"
"NORTH_EAST\0"
"SOUTH_EAST\0"
"SOUTH_WEST\0"
"NORTH_WEST\0"
};
constexpr ::enums::HexDiagonal enum_string_values[6] = {
::enums::HexDiagonal::NORTH,
::enums::HexDiagonal::SOUTH,
::enums::HexDiagonal::NORTH_EAST,
::enums::HexDiagonal::SOUTH_EAST,
::enums::HexDiagonal::SOUTH_WEST,
::enums::HexDiagonal::NORTH_WEST,
};
}

template<>
constexpr auto& enumbra::values<::enums::HexDiagonal>() noexcept
{
return ::enums::detail::HexDiagonal::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::HexDiagonal> enumbra::from_integer<::enums::HexDiagonal>(uint8_t v) noexcept { 
if(v <= 5) { return ::enumbra::optional_value<::enums::HexDiagonal>(static_cast<::enums::HexDiagonal>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::HexDiagonal>(::enums::HexDiagonal e) noexcept { 
return static_cast<uint8_t>(e) <= 5;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::HexDiagonal>() noexcept { 
return { "HexDiagonal", 11 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::HexDiagonal>() noexcept { 
return { "enums::HexDiagonal", 18 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::HexDiagonal>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::HexDiagonal v) noexcept {
switch (v) {
case ::enums::HexDiagonal::NORTH: return { &::enums::detail::HexDiagonal::enum_strings[0], 5 };
case ::enums::HexDiagonal::SOUTH: return { &::enums::detail::HexDiagonal::enum_strings[6], 5 };
case ::enums::HexDiagonal::NORTH_EAST: return { &::enums::detail::HexDiagonal::enum_strings[12], 10 };
case ::enums::HexDiagonal::SOUTH_EAST: return { &::enums::detail::HexDiagonal::enum_strings[23], 10 };
case ::enums::HexDiagonal::SOUTH_WEST: return { &::enums::detail::HexDiagonal::enum_strings[34], 10 };
case ::enums::HexDiagonal::NORTH_WEST: return { &::enums::detail::HexDiagonal::enum_strings[45], 10 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::HexDiagonal> enumbra::from_string<::enums::HexDiagonal>(const char* str, int len) noexcept {
int offset_str = 0;
int offset_enum = 0;
int count = 0;
switch(len) {
case 5: offset_str = 0; offset_enum = 0; count = 2; break;
case 10: offset_str = 12; offset_enum = 2; count = 4; break;
default: return {};
}
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_known_size(::enums::detail::HexDiagonal::enum_strings + offset_str + (i * (len + 1)), str, len)) {
return ::enumbra::optional_value<::enums::HexDiagonal>(::enums::detail::HexDiagonal::enum_string_values[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::HexDiagonal> enumbra::from_string<::enums::HexDiagonal>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::HexDiagonal>(str, len);
}


namespace enums {
enum class NegativeTest1 : int8_t {
A = -2,
B = -1,
C = 0,
D = 1,
};
}

template<> struct enumbra::detail::base_helper<::enums::NegativeTest1> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::NegativeTest1> : enumbra::detail::enum_info<int8_t, -2, 1, -2, 4, true, 2, 2, false, 0> { };

namespace enums::detail::NegativeTest1 {
constexpr ::enums::NegativeTest1 values_arr[4] =
{
::enums::NegativeTest1::A,
::enums::NegativeTest1::B,
::enums::NegativeTest1::C,
::enums::NegativeTest1::D,
};
constexpr const char enum_strings[9] = {
"A\0"
"B\0"
"C\0"
"D\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::NegativeTest1>() noexcept
{
return ::enums::detail::NegativeTest1::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest1> enumbra::from_integer<::enums::NegativeTest1>(int8_t v) noexcept { 
if((-2 <= v) && (v <= 1)) { return ::enumbra::optional_value<::enums::NegativeTest1>(static_cast<::enums::NegativeTest1>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::NegativeTest1>(::enums::NegativeTest1 e) noexcept { 
return (-2 <= static_cast<int8_t>(e)) && (static_cast<int8_t>(e) <= 1);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::NegativeTest1>() noexcept { 
return { "NegativeTest1", 13 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::NegativeTest1>() noexcept { 
return { "enums::NegativeTest1", 20 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::NegativeTest1>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::NegativeTest1 v) noexcept {
switch (v) {
case ::enums::NegativeTest1::A: return { &::enums::detail::NegativeTest1::enum_strings[0], 1 };
case ::enums::NegativeTest1::B: return { &::enums::detail::NegativeTest1::enum_strings[2], 1 };
case ::enums::NegativeTest1::C: return { &::enums::detail::NegativeTest1::enum_strings[4], 1 };
case ::enums::NegativeTest1::D: return { &::enums::detail::NegativeTest1::enum_strings[6], 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest1> enumbra::from_string<::enums::NegativeTest1>(const char* str, int len) noexcept {
if(len != 1) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 4;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<1>(::enums::detail::NegativeTest1::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::NegativeTest1>(::enums::detail::NegativeTest1::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest1> enumbra::from_string<::enums::NegativeTest1>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::NegativeTest1>(str, len);
}


namespace enums {
enum class NegativeTest2 : int8_t {
A = -3,
B = -2,
C = -1,
D = 0,
};
}

template<> struct enumbra::detail::base_helper<::enums::NegativeTest2> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::NegativeTest2> : enumbra::detail::enum_info<int8_t, -3, 0, -3, 4, true, 3, 2, false, 0> { };

namespace enums::detail::NegativeTest2 {
constexpr ::enums::NegativeTest2 values_arr[4] =
{
::enums::NegativeTest2::A,
::enums::NegativeTest2::B,
::enums::NegativeTest2::C,
::enums::NegativeTest2::D,
};
constexpr const char enum_strings[9] = {
"A\0"
"B\0"
"C\0"
"D\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::NegativeTest2>() noexcept
{
return ::enums::detail::NegativeTest2::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest2> enumbra::from_integer<::enums::NegativeTest2>(int8_t v) noexcept { 
if((-3 <= v) && (v <= 0)) { return ::enumbra::optional_value<::enums::NegativeTest2>(static_cast<::enums::NegativeTest2>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::NegativeTest2>(::enums::NegativeTest2 e) noexcept { 
return (-3 <= static_cast<int8_t>(e)) && (static_cast<int8_t>(e) <= 0);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::NegativeTest2>() noexcept { 
return { "NegativeTest2", 13 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::NegativeTest2>() noexcept { 
return { "enums::NegativeTest2", 20 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::NegativeTest2>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::NegativeTest2 v) noexcept {
switch (v) {
case ::enums::NegativeTest2::A: return { &::enums::detail::NegativeTest2::enum_strings[0], 1 };
case ::enums::NegativeTest2::B: return { &::enums::detail::NegativeTest2::enum_strings[2], 1 };
case ::enums::NegativeTest2::C: return { &::enums::detail::NegativeTest2::enum_strings[4], 1 };
case ::enums::NegativeTest2::D: return { &::enums::detail::NegativeTest2::enum_strings[6], 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest2> enumbra::from_string<::enums::NegativeTest2>(const char* str, int len) noexcept {
if(len != 1) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 4;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<1>(::enums::detail::NegativeTest2::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::NegativeTest2>(::enums::detail::NegativeTest2::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest2> enumbra::from_string<::enums::NegativeTest2>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::NegativeTest2>(str, len);
}


namespace enums {
enum class NegativeTest3 : int8_t {
A = -3,
B = 4,
};
}

template<> struct enumbra::detail::base_helper<::enums::NegativeTest3> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::NegativeTest3> : enumbra::detail::enum_info<int8_t, -3, 4, -3, 2, false, 4, 3, true, 0> { };

namespace enums::detail::NegativeTest3 {
constexpr ::enums::NegativeTest3 values_arr[2] =
{
::enums::NegativeTest3::A,
::enums::NegativeTest3::B,
};
constexpr const char enum_strings[5] = {
"A\0"
"B\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::NegativeTest3>() noexcept
{
return ::enums::detail::NegativeTest3::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest3> enumbra::from_integer<::enums::NegativeTest3>(int8_t v) noexcept { 
for(auto value : values<::enums::NegativeTest3>()) {
if(value == static_cast<::enums::NegativeTest3>(v)) { return ::enumbra::optional_value<::enums::NegativeTest3>(static_cast<::enums::NegativeTest3>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::NegativeTest3>(::enums::NegativeTest3 e) noexcept { 
for(auto value : values<::enums::NegativeTest3>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::NegativeTest3>() noexcept { 
return { "NegativeTest3", 13 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::NegativeTest3>() noexcept { 
return { "enums::NegativeTest3", 20 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::NegativeTest3>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::NegativeTest3 v) noexcept {
switch (v) {
case ::enums::NegativeTest3::A: return { &::enums::detail::NegativeTest3::enum_strings[0], 1 };
case ::enums::NegativeTest3::B: return { &::enums::detail::NegativeTest3::enum_strings[2], 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest3> enumbra::from_string<::enums::NegativeTest3>(const char* str, int len) noexcept {
if(len != 1) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 2;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<1>(::enums::detail::NegativeTest3::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::NegativeTest3>(::enums::detail::NegativeTest3::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest3> enumbra::from_string<::enums::NegativeTest3>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::NegativeTest3>(str, len);
}


namespace enums {
enum class NegativeTest4 : int8_t {
A = -4,
B = 3,
};
}

template<> struct enumbra::detail::base_helper<::enums::NegativeTest4> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::NegativeTest4> : enumbra::detail::enum_info<int8_t, -4, 3, -4, 2, false, 3, 3, true, 0> { };

namespace enums::detail::NegativeTest4 {
constexpr ::enums::NegativeTest4 values_arr[2] =
{
::enums::NegativeTest4::A,
::enums::NegativeTest4::B,
};
constexpr const char enum_strings[5] = {
"A\0"
"B\0"
};
}

template<>
constexpr auto& enumbra::values<::enums::NegativeTest4>() noexcept
{
return ::enums::detail::NegativeTest4::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest4> enumbra::from_integer<::enums::NegativeTest4>(int8_t v) noexcept { 
for(auto value : values<::enums::NegativeTest4>()) {
if(value == static_cast<::enums::NegativeTest4>(v)) { return ::enumbra::optional_value<::enums::NegativeTest4>(static_cast<::enums::NegativeTest4>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::NegativeTest4>(::enums::NegativeTest4 e) noexcept { 
for(auto value : values<::enums::NegativeTest4>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::NegativeTest4>() noexcept { 
return { "NegativeTest4", 13 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::NegativeTest4>() noexcept { 
return { "enums::NegativeTest4", 20 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::NegativeTest4>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::NegativeTest4 v) noexcept {
switch (v) {
case ::enums::NegativeTest4::A: return { &::enums::detail::NegativeTest4::enum_strings[0], 1 };
case ::enums::NegativeTest4::B: return { &::enums::detail::NegativeTest4::enum_strings[2], 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest4> enumbra::from_string<::enums::NegativeTest4>(const char* str, int len) noexcept {
if(len != 1) { return {}; }
constexpr int offset_str = 0;
constexpr int offset_enum = 0;
constexpr int count = 2;
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_fixed_size<1>(::enums::detail::NegativeTest4::enum_strings + offset_str + (i * (len + 1)), str)) {
return ::enumbra::optional_value<::enums::NegativeTest4>(::enums::detail::NegativeTest4::values_arr[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::NegativeTest4> enumbra::from_string<::enums::NegativeTest4>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::NegativeTest4>(str, len);
}


namespace enums {
enum class EmptyTest1Unsigned : uint8_t {
A = 0,
};
}

template<> struct enumbra::detail::base_helper<::enums::EmptyTest1Unsigned> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::EmptyTest1Unsigned> : enumbra::detail::enum_info<uint8_t, 0, 0, 0, 1, true, 1, 0, true, 255> { };

namespace enums::detail::EmptyTest1Unsigned {
constexpr ::enums::EmptyTest1Unsigned values_arr[1] =
{
::enums::EmptyTest1Unsigned::A,
};
}

template<>
constexpr auto& enumbra::values<::enums::EmptyTest1Unsigned>() noexcept
{
return ::enums::detail::EmptyTest1Unsigned::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::EmptyTest1Unsigned> enumbra::from_integer<::enums::EmptyTest1Unsigned>(uint8_t v) noexcept { 
if(0 == v) { return ::enumbra::optional_value<::enums::EmptyTest1Unsigned>(static_cast<::enums::EmptyTest1Unsigned>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::EmptyTest1Unsigned>(::enums::EmptyTest1Unsigned e) noexcept { 
return 0 == static_cast<uint8_t>(e);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::EmptyTest1Unsigned>() noexcept { 
return { "EmptyTest1Unsigned", 18 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::EmptyTest1Unsigned>() noexcept { 
return { "enums::EmptyTest1Unsigned", 25 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::EmptyTest1Unsigned>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::EmptyTest1Unsigned v) noexcept {
switch (v) {
case ::enums::EmptyTest1Unsigned::A: return { "A", 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::EmptyTest1Unsigned> enumbra::from_string<::enums::EmptyTest1Unsigned>(const char* str, int len) noexcept {
if ((len == 1) && ::enumbra::detail::streq_fixed_size<1>("A", str)) {
return ::enumbra::optional_value<::enums::EmptyTest1Unsigned>(::enums::EmptyTest1Unsigned::A);
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::EmptyTest1Unsigned> enumbra::from_string<::enums::EmptyTest1Unsigned>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::EmptyTest1Unsigned>(str, len);
}


namespace enums {
enum class EmptyTest1Signed : int8_t {
A = 0,
};
}

template<> struct enumbra::detail::base_helper<::enums::EmptyTest1Signed> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::EmptyTest1Signed> : enumbra::detail::enum_info<int8_t, 0, 0, 0, 1, true, 1, 0, true, -1> { };

namespace enums::detail::EmptyTest1Signed {
constexpr ::enums::EmptyTest1Signed values_arr[1] =
{
::enums::EmptyTest1Signed::A,
};
}

template<>
constexpr auto& enumbra::values<::enums::EmptyTest1Signed>() noexcept
{
return ::enums::detail::EmptyTest1Signed::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::EmptyTest1Signed> enumbra::from_integer<::enums::EmptyTest1Signed>(int8_t v) noexcept { 
if(0 == v) { return ::enumbra::optional_value<::enums::EmptyTest1Signed>(static_cast<::enums::EmptyTest1Signed>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::EmptyTest1Signed>(::enums::EmptyTest1Signed e) noexcept { 
return 0 == static_cast<int8_t>(e);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::EmptyTest1Signed>() noexcept { 
return { "EmptyTest1Signed", 16 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::EmptyTest1Signed>() noexcept { 
return { "enums::EmptyTest1Signed", 23 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::EmptyTest1Signed>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::EmptyTest1Signed v) noexcept {
switch (v) {
case ::enums::EmptyTest1Signed::A: return { "A", 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::EmptyTest1Signed> enumbra::from_string<::enums::EmptyTest1Signed>(const char* str, int len) noexcept {
if ((len == 1) && ::enumbra::detail::streq_fixed_size<1>("A", str)) {
return ::enumbra::optional_value<::enums::EmptyTest1Signed>(::enums::EmptyTest1Signed::A);
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::EmptyTest1Signed> enumbra::from_string<::enums::EmptyTest1Signed>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::EmptyTest1Signed>(str, len);
}


namespace enums {
enum class SingleTest1Unsigned : uint8_t {
A = 4,
};
}

template<> struct enumbra::detail::base_helper<::enums::SingleTest1Unsigned> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::SingleTest1Unsigned> : enumbra::detail::enum_info<uint8_t, 4, 4, 4, 1, true, 3, 0, true, 0> { };

namespace enums::detail::SingleTest1Unsigned {
constexpr ::enums::SingleTest1Unsigned values_arr[1] =
{
::enums::SingleTest1Unsigned::A,
};
}

template<>
constexpr auto& enumbra::values<::enums::SingleTest1Unsigned>() noexcept
{
return ::enums::detail::SingleTest1Unsigned::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::SingleTest1Unsigned> enumbra::from_integer<::enums::SingleTest1Unsigned>(uint8_t v) noexcept { 
if(4 == v) { return ::enumbra::optional_value<::enums::SingleTest1Unsigned>(static_cast<::enums::SingleTest1Unsigned>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::SingleTest1Unsigned>(::enums::SingleTest1Unsigned e) noexcept { 
return 4 == static_cast<uint8_t>(e);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::SingleTest1Unsigned>() noexcept { 
return { "SingleTest1Unsigned", 19 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::SingleTest1Unsigned>() noexcept { 
return { "enums::SingleTest1Unsigned", 26 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::SingleTest1Unsigned>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::SingleTest1Unsigned v) noexcept {
switch (v) {
case ::enums::SingleTest1Unsigned::A: return { "A", 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::SingleTest1Unsigned> enumbra::from_string<::enums::SingleTest1Unsigned>(const char* str, int len) noexcept {
if ((len == 1) && ::enumbra::detail::streq_fixed_size<1>("A", str)) {
return ::enumbra::optional_value<::enums::SingleTest1Unsigned>(::enums::SingleTest1Unsigned::A);
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::SingleTest1Unsigned> enumbra::from_string<::enums::SingleTest1Unsigned>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::SingleTest1Unsigned>(str, len);
}


namespace enums {
enum class SingleTest1Signed : int8_t {
A = 4,
};
}

template<> struct enumbra::detail::base_helper<::enums::SingleTest1Signed> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::SingleTest1Signed> : enumbra::detail::enum_info<int8_t, 4, 4, 4, 1, true, 4, 0, true, 0> { };

namespace enums::detail::SingleTest1Signed {
constexpr ::enums::SingleTest1Signed values_arr[1] =
{
::enums::SingleTest1Signed::A,
};
}

template<>
constexpr auto& enumbra::values<::enums::SingleTest1Signed>() noexcept
{
return ::enums::detail::SingleTest1Signed::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::SingleTest1Signed> enumbra::from_integer<::enums::SingleTest1Signed>(int8_t v) noexcept { 
if(4 == v) { return ::enumbra::optional_value<::enums::SingleTest1Signed>(static_cast<::enums::SingleTest1Signed>(v)); }
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::SingleTest1Signed>(::enums::SingleTest1Signed e) noexcept { 
return 4 == static_cast<int8_t>(e);
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::SingleTest1Signed>() noexcept { 
return { "SingleTest1Signed", 17 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::SingleTest1Signed>() noexcept { 
return { "enums::SingleTest1Signed", 24 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::SingleTest1Signed>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::SingleTest1Signed v) noexcept {
switch (v) {
case ::enums::SingleTest1Signed::A: return { "A", 1 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::SingleTest1Signed> enumbra::from_string<::enums::SingleTest1Signed>(const char* str, int len) noexcept {
if ((len == 1) && ::enumbra::detail::streq_fixed_size<1>("A", str)) {
return ::enumbra::optional_value<::enums::SingleTest1Signed>(::enums::SingleTest1Signed::A);
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::SingleTest1Signed> enumbra::from_string<::enums::SingleTest1Signed>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::SingleTest1Signed>(str, len);
}


namespace enums {
enum class errc : int32_t {
operation_not_permitted = 1,
no_such_file_or_directory = 2,
no_such_process = 3,
interrupted = 4,
io_error = 5,
no_such_device_or_address = 6,
argument_list_too_long = 7,
executable_format_error = 8,
bad_file_descriptor = 9,
no_child_process = 10,
resource_unavailable_try_again = 11,
not_enough_memory = 12,
permission_denied = 13,
bad_address = 14,
device_or_resource_busy = 16,
file_exists = 17,
cross_device_link = 18,
no_such_device = 19,
not_a_directory = 20,
is_a_directory = 21,
invalid_argument = 22,
too_many_files_open_in_system = 23,
too_many_files_open = 24,
inappropriate_io_control_operation = 25,
file_too_large = 27,
no_space_on_device = 28,
invalid_seek = 29,
read_only_file_system = 30,
too_many_links = 31,
broken_pipe = 32,
argument_out_of_domain = 33,
result_out_of_range = 34,
resource_deadlock_would_occur = 36,
filename_too_long = 38,
no_lock_available = 39,
function_not_supported = 40,
directory_not_empty = 41,
illegal_byte_sequence = 42,
address_in_use = 100,
address_not_available = 101,
address_family_not_supported = 102,
connection_already_in_progress = 103,
bad_message = 104,
operation_canceled = 105,
connection_aborted = 106,
connection_refused = 107,
connection_reset = 108,
destination_address_required = 109,
host_unreachable = 110,
identifier_removed = 111,
operation_in_progress = 112,
already_connected = 113,
too_many_symbolic_link_levels = 114,
message_size = 115,
network_down = 116,
network_reset = 117,
network_unreachable = 118,
no_buffer_space = 119,
no_message_available = 120,
no_link = 121,
no_message = 122,
no_protocol_option = 123,
no_stream_resources = 124,
not_a_stream = 125,
not_connected = 126,
state_not_recoverable = 127,
not_a_socket = 128,
not_supported = 129,
operation_not_supported = 130,
value_too_large = 132,
owner_dead = 133,
protocol_error = 134,
protocol_not_supported = 135,
wrong_protocol_type = 136,
stream_timeout = 137,
timed_out = 138,
text_file_busy = 139,
operation_would_block = 140,
};
}

template<> struct enumbra::detail::base_helper<::enums::errc> : enumbra::detail::type_info<true, true, false> { };
template<> struct enumbra::detail::enum_helper<::enums::errc> : enumbra::detail::enum_info<int32_t, 1, 140, 1, 78, false, 9, 8, true, 0> { };

namespace enums::detail::errc {
constexpr ::enums::errc values_arr[78] =
{
::enums::errc::operation_not_permitted,
::enums::errc::no_such_file_or_directory,
::enums::errc::no_such_process,
::enums::errc::interrupted,
::enums::errc::io_error,
::enums::errc::no_such_device_or_address,
::enums::errc::argument_list_too_long,
::enums::errc::executable_format_error,
::enums::errc::bad_file_descriptor,
::enums::errc::no_child_process,
::enums::errc::resource_unavailable_try_again,
::enums::errc::not_enough_memory,
::enums::errc::permission_denied,
::enums::errc::bad_address,
::enums::errc::device_or_resource_busy,
::enums::errc::file_exists,
::enums::errc::cross_device_link,
::enums::errc::no_such_device,
::enums::errc::not_a_directory,
::enums::errc::is_a_directory,
::enums::errc::invalid_argument,
::enums::errc::too_many_files_open_in_system,
::enums::errc::too_many_files_open,
::enums::errc::inappropriate_io_control_operation,
::enums::errc::file_too_large,
::enums::errc::no_space_on_device,
::enums::errc::invalid_seek,
::enums::errc::read_only_file_system,
::enums::errc::too_many_links,
::enums::errc::broken_pipe,
::enums::errc::argument_out_of_domain,
::enums::errc::result_out_of_range,
::enums::errc::resource_deadlock_would_occur,
::enums::errc::filename_too_long,
::enums::errc::no_lock_available,
::enums::errc::function_not_supported,
::enums::errc::directory_not_empty,
::enums::errc::illegal_byte_sequence,
::enums::errc::address_in_use,
::enums::errc::address_not_available,
::enums::errc::address_family_not_supported,
::enums::errc::connection_already_in_progress,
::enums::errc::bad_message,
::enums::errc::operation_canceled,
::enums::errc::connection_aborted,
::enums::errc::connection_refused,
::enums::errc::connection_reset,
::enums::errc::destination_address_required,
::enums::errc::host_unreachable,
::enums::errc::identifier_removed,
::enums::errc::operation_in_progress,
::enums::errc::already_connected,
::enums::errc::too_many_symbolic_link_levels,
::enums::errc::message_size,
::enums::errc::network_down,
::enums::errc::network_reset,
::enums::errc::network_unreachable,
::enums::errc::no_buffer_space,
::enums::errc::no_message_available,
::enums::errc::no_link,
::enums::errc::no_message,
::enums::errc::no_protocol_option,
::enums::errc::no_stream_resources,
::enums::errc::not_a_stream,
::enums::errc::not_connected,
::enums::errc::state_not_recoverable,
::enums::errc::not_a_socket,
::enums::errc::not_supported,
::enums::errc::operation_not_supported,
::enums::errc::value_too_large,
::enums::errc::owner_dead,
::enums::errc::protocol_error,
::enums::errc::protocol_not_supported,
::enums::errc::wrong_protocol_type,
::enums::errc::stream_timeout,
::enums::errc::timed_out,
::enums::errc::text_file_busy,
::enums::errc::operation_would_block,
};
constexpr const char enum_strings[1469] = {
"no_link\0"
"io_error\0"
"timed_out\0"
"no_message\0"
"owner_dead\0"
"interrupted\0"
"bad_address\0"
"file_exists\0"
"broken_pipe\0"
"bad_message\0"
"invalid_seek\0"
"message_size\0"
"network_down\0"
"not_a_stream\0"
"not_a_socket\0"
"network_reset\0"
"not_connected\0"
"not_supported\0"
"no_such_device\0"
"is_a_directory\0"
"file_too_large\0"
"too_many_links\0"
"address_in_use\0"
"protocol_error\0"
"stream_timeout\0"
"text_file_busy\0"
"no_such_process\0"
"not_a_directory\0"
"no_buffer_space\0"
"value_too_large\0"
"no_child_process\0"
"invalid_argument\0"
"connection_reset\0"
"host_unreachable\0"
"not_enough_memory\0"
"permission_denied\0"
"cross_device_link\0"
"filename_too_long\0"
"no_lock_available\0"
"already_connected\0"
"no_space_on_device\0"
"operation_canceled\0"
"connection_aborted\0"
"connection_refused\0"
"identifier_removed\0"
"no_protocol_option\0"
"bad_file_descriptor\0"
"too_many_files_open\0"
"result_out_of_range\0"
"directory_not_empty\0"
"network_unreachable\0"
"no_stream_resources\0"
"wrong_protocol_type\0"
"no_message_available\0"
"read_only_file_system\0"
"illegal_byte_sequence\0"
"address_not_available\0"
"operation_in_progress\0"
"state_not_recoverable\0"
"operation_would_block\0"
"argument_list_too_long\0"
"argument_out_of_domain\0"
"function_not_supported\0"
"protocol_not_supported\0"
"operation_not_permitted\0"
"executable_format_error\0"
"device_or_resource_busy\0"
"operation_not_supported\0"
"no_such_file_or_directory\0"
"no_such_device_or_address\0"
"address_family_not_supported\0"
"destination_address_required\0"
"too_many_files_open_in_system\0"
"resource_deadlock_would_occur\0"
"too_many_symbolic_link_levels\0"
"resource_unavailable_try_again\0"
"connection_already_in_progress\0"
"inappropriate_io_control_operation\0"
};
constexpr ::enums::errc enum_string_values[78] = {
::enums::errc::no_link,
::enums::errc::io_error,
::enums::errc::timed_out,
::enums::errc::no_message,
::enums::errc::owner_dead,
::enums::errc::interrupted,
::enums::errc::bad_address,
::enums::errc::file_exists,
::enums::errc::broken_pipe,
::enums::errc::bad_message,
::enums::errc::invalid_seek,
::enums::errc::message_size,
::enums::errc::network_down,
::enums::errc::not_a_stream,
::enums::errc::not_a_socket,
::enums::errc::network_reset,
::enums::errc::not_connected,
::enums::errc::not_supported,
::enums::errc::no_such_device,
::enums::errc::is_a_directory,
::enums::errc::file_too_large,
::enums::errc::too_many_links,
::enums::errc::address_in_use,
::enums::errc::protocol_error,
::enums::errc::stream_timeout,
::enums::errc::text_file_busy,
::enums::errc::no_such_process,
::enums::errc::not_a_directory,
::enums::errc::no_buffer_space,
::enums::errc::value_too_large,
::enums::errc::no_child_process,
::enums::errc::invalid_argument,
::enums::errc::connection_reset,
::enums::errc::host_unreachable,
::enums::errc::not_enough_memory,
::enums::errc::permission_denied,
::enums::errc::cross_device_link,
::enums::errc::filename_too_long,
::enums::errc::no_lock_available,
::enums::errc::already_connected,
::enums::errc::no_space_on_device,
::enums::errc::operation_canceled,
::enums::errc::connection_aborted,
::enums::errc::connection_refused,
::enums::errc::identifier_removed,
::enums::errc::no_protocol_option,
::enums::errc::bad_file_descriptor,
::enums::errc::too_many_files_open,
::enums::errc::result_out_of_range,
::enums::errc::directory_not_empty,
::enums::errc::network_unreachable,
::enums::errc::no_stream_resources,
::enums::errc::wrong_protocol_type,
::enums::errc::no_message_available,
::enums::errc::read_only_file_system,
::enums::errc::illegal_byte_sequence,
::enums::errc::address_not_available,
::enums::errc::operation_in_progress,
::enums::errc::state_not_recoverable,
::enums::errc::operation_would_block,
::enums::errc::argument_list_too_long,
::enums::errc::argument_out_of_domain,
::enums::errc::function_not_supported,
::enums::errc::protocol_not_supported,
::enums::errc::operation_not_permitted,
::enums::errc::executable_format_error,
::enums::errc::device_or_resource_busy,
::enums::errc::operation_not_supported,
::enums::errc::no_such_file_or_directory,
::enums::errc::no_such_device_or_address,
::enums::errc::address_family_not_supported,
::enums::errc::destination_address_required,
::enums::errc::too_many_files_open_in_system,
::enums::errc::resource_deadlock_would_occur,
::enums::errc::too_many_symbolic_link_levels,
::enums::errc::resource_unavailable_try_again,
::enums::errc::connection_already_in_progress,
::enums::errc::inappropriate_io_control_operation,
};
}

template<>
constexpr auto& enumbra::values<::enums::errc>() noexcept
{
return ::enums::detail::errc::values_arr;
}

template<>
constexpr ::enumbra::optional_value<::enums::errc> enumbra::from_integer<::enums::errc>(int32_t v) noexcept { 
for(auto value : values<::enums::errc>()) {
if(value == static_cast<::enums::errc>(v)) { return ::enumbra::optional_value<::enums::errc>(static_cast<::enums::errc>(v)); }
}
return {};
}

template<>
constexpr bool ::enumbra::is_valid<::enums::errc>(::enums::errc e) noexcept { 
for(auto value : values<::enums::errc>()) {
if(value == e) { return true; }
}
return false;
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name<::enums::errc>() noexcept { 
return { "errc", 4 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_name_with_namespace<::enums::errc>() noexcept { 
return { "enums::errc", 11 };
}

template<>
constexpr ::enumbra::string_view enumbra::enum_namespace<::enums::errc>() noexcept { 
return { "enums", 5 };
}

namespace enumbra {
constexpr ::enumbra::string_view to_string(const ::enums::errc v) noexcept {
switch (v) {
case ::enums::errc::no_link: return { &::enums::detail::errc::enum_strings[0], 7 };
case ::enums::errc::io_error: return { &::enums::detail::errc::enum_strings[8], 8 };
case ::enums::errc::timed_out: return { &::enums::detail::errc::enum_strings[17], 9 };
case ::enums::errc::no_message: return { &::enums::detail::errc::enum_strings[27], 10 };
case ::enums::errc::owner_dead: return { &::enums::detail::errc::enum_strings[38], 10 };
case ::enums::errc::interrupted: return { &::enums::detail::errc::enum_strings[49], 11 };
case ::enums::errc::bad_address: return { &::enums::detail::errc::enum_strings[61], 11 };
case ::enums::errc::file_exists: return { &::enums::detail::errc::enum_strings[73], 11 };
case ::enums::errc::broken_pipe: return { &::enums::detail::errc::enum_strings[85], 11 };
case ::enums::errc::bad_message: return { &::enums::detail::errc::enum_strings[97], 11 };
case ::enums::errc::invalid_seek: return { &::enums::detail::errc::enum_strings[109], 12 };
case ::enums::errc::message_size: return { &::enums::detail::errc::enum_strings[122], 12 };
case ::enums::errc::network_down: return { &::enums::detail::errc::enum_strings[135], 12 };
case ::enums::errc::not_a_stream: return { &::enums::detail::errc::enum_strings[148], 12 };
case ::enums::errc::not_a_socket: return { &::enums::detail::errc::enum_strings[161], 12 };
case ::enums::errc::network_reset: return { &::enums::detail::errc::enum_strings[174], 13 };
case ::enums::errc::not_connected: return { &::enums::detail::errc::enum_strings[188], 13 };
case ::enums::errc::not_supported: return { &::enums::detail::errc::enum_strings[202], 13 };
case ::enums::errc::no_such_device: return { &::enums::detail::errc::enum_strings[216], 14 };
case ::enums::errc::is_a_directory: return { &::enums::detail::errc::enum_strings[231], 14 };
case ::enums::errc::file_too_large: return { &::enums::detail::errc::enum_strings[246], 14 };
case ::enums::errc::too_many_links: return { &::enums::detail::errc::enum_strings[261], 14 };
case ::enums::errc::address_in_use: return { &::enums::detail::errc::enum_strings[276], 14 };
case ::enums::errc::protocol_error: return { &::enums::detail::errc::enum_strings[291], 14 };
case ::enums::errc::stream_timeout: return { &::enums::detail::errc::enum_strings[306], 14 };
case ::enums::errc::text_file_busy: return { &::enums::detail::errc::enum_strings[321], 14 };
case ::enums::errc::no_such_process: return { &::enums::detail::errc::enum_strings[336], 15 };
case ::enums::errc::not_a_directory: return { &::enums::detail::errc::enum_strings[352], 15 };
case ::enums::errc::no_buffer_space: return { &::enums::detail::errc::enum_strings[368], 15 };
case ::enums::errc::value_too_large: return { &::enums::detail::errc::enum_strings[384], 15 };
case ::enums::errc::no_child_process: return { &::enums::detail::errc::enum_strings[400], 16 };
case ::enums::errc::invalid_argument: return { &::enums::detail::errc::enum_strings[417], 16 };
case ::enums::errc::connection_reset: return { &::enums::detail::errc::enum_strings[434], 16 };
case ::enums::errc::host_unreachable: return { &::enums::detail::errc::enum_strings[451], 16 };
case ::enums::errc::not_enough_memory: return { &::enums::detail::errc::enum_strings[468], 17 };
case ::enums::errc::permission_denied: return { &::enums::detail::errc::enum_strings[486], 17 };
case ::enums::errc::cross_device_link: return { &::enums::detail::errc::enum_strings[504], 17 };
case ::enums::errc::filename_too_long: return { &::enums::detail::errc::enum_strings[522], 17 };
case ::enums::errc::no_lock_available: return { &::enums::detail::errc::enum_strings[540], 17 };
case ::enums::errc::already_connected: return { &::enums::detail::errc::enum_strings[558], 17 };
case ::enums::errc::no_space_on_device: return { &::enums::detail::errc::enum_strings[576], 18 };
case ::enums::errc::operation_canceled: return { &::enums::detail::errc::enum_strings[595], 18 };
case ::enums::errc::connection_aborted: return { &::enums::detail::errc::enum_strings[614], 18 };
case ::enums::errc::connection_refused: return { &::enums::detail::errc::enum_strings[633], 18 };
case ::enums::errc::identifier_removed: return { &::enums::detail::errc::enum_strings[652], 18 };
case ::enums::errc::no_protocol_option: return { &::enums::detail::errc::enum_strings[671], 18 };
case ::enums::errc::bad_file_descriptor: return { &::enums::detail::errc::enum_strings[690], 19 };
case ::enums::errc::too_many_files_open: return { &::enums::detail::errc::enum_strings[710], 19 };
case ::enums::errc::result_out_of_range: return { &::enums::detail::errc::enum_strings[730], 19 };
case ::enums::errc::directory_not_empty: return { &::enums::detail::errc::enum_strings[750], 19 };
case ::enums::errc::network_unreachable: return { &::enums::detail::errc::enum_strings[770], 19 };
case ::enums::errc::no_stream_resources: return { &::enums::detail::errc::enum_strings[790], 19 };
case ::enums::errc::wrong_protocol_type: return { &::enums::detail::errc::enum_strings[810], 19 };
case ::enums::errc::no_message_available: return { &::enums::detail::errc::enum_strings[830], 20 };
case ::enums::errc::read_only_file_system: return { &::enums::detail::errc::enum_strings[851], 21 };
case ::enums::errc::illegal_byte_sequence: return { &::enums::detail::errc::enum_strings[873], 21 };
case ::enums::errc::address_not_available: return { &::enums::detail::errc::enum_strings[895], 21 };
case ::enums::errc::operation_in_progress: return { &::enums::detail::errc::enum_strings[917], 21 };
case ::enums::errc::state_not_recoverable: return { &::enums::detail::errc::enum_strings[939], 21 };
case ::enums::errc::operation_would_block: return { &::enums::detail::errc::enum_strings[961], 21 };
case ::enums::errc::argument_list_too_long: return { &::enums::detail::errc::enum_strings[983], 22 };
case ::enums::errc::argument_out_of_domain: return { &::enums::detail::errc::enum_strings[1006], 22 };
case ::enums::errc::function_not_supported: return { &::enums::detail::errc::enum_strings[1029], 22 };
case ::enums::errc::protocol_not_supported: return { &::enums::detail::errc::enum_strings[1052], 22 };
case ::enums::errc::operation_not_permitted: return { &::enums::detail::errc::enum_strings[1075], 23 };
case ::enums::errc::executable_format_error: return { &::enums::detail::errc::enum_strings[1099], 23 };
case ::enums::errc::device_or_resource_busy: return { &::enums::detail::errc::enum_strings[1123], 23 };
case ::enums::errc::operation_not_supported: return { &::enums::detail::errc::enum_strings[1147], 23 };
case ::enums::errc::no_such_file_or_directory: return { &::enums::detail::errc::enum_strings[1171], 25 };
case ::enums::errc::no_such_device_or_address: return { &::enums::detail::errc::enum_strings[1197], 25 };
case ::enums::errc::address_family_not_supported: return { &::enums::detail::errc::enum_strings[1223], 28 };
case ::enums::errc::destination_address_required: return { &::enums::detail::errc::enum_strings[1252], 28 };
case ::enums::errc::too_many_files_open_in_system: return { &::enums::detail::errc::enum_strings[1281], 29 };
case ::enums::errc::resource_deadlock_would_occur: return { &::enums::detail::errc::enum_strings[1311], 29 };
case ::enums::errc::too_many_symbolic_link_levels: return { &::enums::detail::errc::enum_strings[1341], 29 };
case ::enums::errc::resource_unavailable_try_again: return { &::enums::detail::errc::enum_strings[1371], 30 };
case ::enums::errc::connection_already_in_progress: return { &::enums::detail::errc::enum_strings[1402], 30 };
case ::enums::errc::inappropriate_io_control_operation: return { &::enums::detail::errc::enum_strings[1433], 34 };
}
return { nullptr, 0 };
}
}

template<>
constexpr ::enumbra::optional_value<::enums::errc> enumbra::from_string<::enums::errc>(const char* str, int len) noexcept {
int offset_str = 0;
int offset_enum = 0;
int count = 0;
switch(len) {
case 7: offset_str = 0; offset_enum = 0; count = 1; break;
case 8: offset_str = 8; offset_enum = 1; count = 1; break;
case 9: offset_str = 17; offset_enum = 2; count = 1; break;
case 10: offset_str = 27; offset_enum = 3; count = 2; break;
case 11: offset_str = 49; offset_enum = 5; count = 5; break;
case 12: offset_str = 109; offset_enum = 10; count = 5; break;
case 13: offset_str = 174; offset_enum = 15; count = 3; break;
case 14: offset_str = 216; offset_enum = 18; count = 8; break;
case 15: offset_str = 336; offset_enum = 26; count = 4; break;
case 16: offset_str = 400; offset_enum = 30; count = 4; break;
case 17: offset_str = 468; offset_enum = 34; count = 6; break;
case 18: offset_str = 576; offset_enum = 40; count = 6; break;
case 19: offset_str = 690; offset_enum = 46; count = 7; break;
case 20: offset_str = 830; offset_enum = 53; count = 1; break;
case 21: offset_str = 851; offset_enum = 54; count = 6; break;
case 22: offset_str = 983; offset_enum = 60; count = 4; break;
case 23: offset_str = 1075; offset_enum = 64; count = 4; break;
case 25: offset_str = 1171; offset_enum = 68; count = 2; break;
case 28: offset_str = 1223; offset_enum = 70; count = 2; break;
case 29: offset_str = 1281; offset_enum = 72; count = 3; break;
case 30: offset_str = 1371; offset_enum = 75; count = 2; break;
case 34: offset_str = 1433; offset_enum = 77; count = 1; break;
default: return {};
}
for (int i = 0; i < count; i++) {
if (::enumbra::detail::streq_known_size(::enums::detail::errc::enum_strings + offset_str + (i * (len + 1)), str, len)) {
return ::enumbra::optional_value<::enums::errc>(::enums::detail::errc::enum_string_values[offset_enum + i]);
}
}
return {};
}

template<>
constexpr ::enumbra::optional_value<::enums::errc> enumbra::from_string<::enums::errc>(const char* str) noexcept {
const int len = ::enumbra::detail::strlen(str);
return ::enumbra::from_string<::enums::errc>(str, len);
}



namespace enums {
enum class test_flags : uint32_t {
B = 1,
C = 2,
};

namespace detail::test_flags {
constexpr ::enums::test_flags flags_arr[2] =
{
::enums::test_flags::B,
::enums::test_flags::C,
};
}

} // namespace enums

namespace enumbra {
template<>
constexpr auto& flags<::enums::test_flags>() noexcept
{
return ::enums::detail::test_flags::flags_arr;
}

template<>
constexpr bool is_valid<::enums::test_flags>(::enums::test_flags e) noexcept { 
return (static_cast<uint32_t>(e) | static_cast<uint32_t>(0x3)) == static_cast<uint32_t>(0x3);
}

template<> constexpr void clear(::enums::test_flags& value) noexcept { value = static_cast<::enums::test_flags>(0); }
template<> constexpr bool test(::enums::test_flags value, ::enums::test_flags flags) noexcept { return (static_cast<uint32_t>(flags) & static_cast<uint32_t>(value)) == static_cast<uint32_t>(flags); }
template<> constexpr void set(::enums::test_flags& value, ::enums::test_flags flags) noexcept { value = static_cast<::enums::test_flags>(static_cast<uint32_t>(value) | static_cast<uint32_t>(flags)); }
template<> constexpr void unset(::enums::test_flags& value, ::enums::test_flags flags) noexcept { value = static_cast<::enums::test_flags>(static_cast<uint32_t>(value) & (~static_cast<uint32_t>(flags))); }
template<> constexpr void toggle(::enums::test_flags& value, ::enums::test_flags flags) noexcept { value = static_cast<::enums::test_flags>(static_cast<uint32_t>(value) ^ static_cast<uint32_t>(flags)); }
template<> constexpr bool has_all(::enums::test_flags value) noexcept { return (static_cast<uint32_t>(value) & static_cast<uint32_t>(0x3)) == static_cast<uint32_t>(0x3); }
template<> constexpr bool has_any(::enums::test_flags value) noexcept { return (static_cast<uint32_t>(value) & static_cast<uint32_t>(0x3)) > 0; }
template<> constexpr bool has_none(::enums::test_flags value) noexcept { return (static_cast<uint32_t>(value) & static_cast<uint32_t>(0x3)) == 0; }
template<> constexpr bool has_single(::enums::test_flags value) noexcept { uint32_t n = static_cast<uint32_t>(static_cast<uint32_t>(value) & 0x3); return n && !(n & (n - 1)); }

} // namespace enumbra

template<> struct enumbra::detail::base_helper<::enums::test_flags> : enumbra::detail::type_info<true, false, true> { };
template<> struct enumbra::detail::enum_helper<::enums::test_flags> : enumbra::detail::enum_info<uint32_t, 0, 3, 0, 2, true, 2, 2, false, 0> { };

namespace enums {
constexpr ::enums::test_flags operator~(const ::enums::test_flags a) noexcept { return static_cast<::enums::test_flags>(~static_cast<uint32_t>(a)); }
constexpr ::enums::test_flags operator|(const ::enums::test_flags a, const ::enums::test_flags b) noexcept { return static_cast<::enums::test_flags>(static_cast<uint32_t>(a) | static_cast<uint32_t>(b)); }
constexpr ::enums::test_flags operator&(const ::enums::test_flags a, const ::enums::test_flags b) noexcept { return static_cast<::enums::test_flags>(static_cast<uint32_t>(a) & static_cast<uint32_t>(b)); }
constexpr ::enums::test_flags operator^(const ::enums::test_flags a, const ::enums::test_flags b) noexcept { return static_cast<::enums::test_flags>(static_cast<uint32_t>(a) ^ static_cast<uint32_t>(b)); }
constexpr ::enums::test_flags& operator|=(::enums::test_flags& a, const ::enums::test_flags b) noexcept { return a = a | b; }
constexpr ::enums::test_flags& operator&=(::enums::test_flags& a, const ::enums::test_flags b) noexcept { return a = a & b; }
constexpr ::enums::test_flags& operator^=(::enums::test_flags& a, const ::enums::test_flags b) noexcept { return a = a ^ b; }
} // namespace enums

namespace enumbra {

constexpr ::enumbra::stack_string<12> to_string(const ::enums::test_flags v) noexcept {
::enumbra::stack_string<12> output;
if (static_cast<uint32_t>(v & ::enums::test_flags::B) > 0) {
output.append<1>("B");
}
if (static_cast<uint32_t>(v & ::enums::test_flags::C) > 0) {
if (!output.empty()) { output.append('|'); }
output.append<1>("C");
}
return output;
}

template<>
constexpr ::enumbra::optional_value<::enums::test_flags> from_string<::enums::test_flags>(const char* str, int len) noexcept {
if (len < 0) { return {}; } // Invalid size
const char* start = str;
const char* end = start;
::enums::test_flags output = {};
for (int i = 0; i < len; ++i) {
if (str[i] == '\0') { return {}; } // Invalid: null in string
end++;
if ((i == (len - 1)) || (*end == '|')) {
const auto check_len = end - start;
if (check_len == 1) {
if (::enumbra::detail::streq_fixed_size<1>(start, "B")) { output |= ::enums::test_flags::B; }
else if (::enumbra::detail::streq_fixed_size<1>(start, "C")) { output |= ::enums::test_flags::C; }
else { return {}; }
}
else { return {}; }
start = end + 1;
}
}
return ::enumbra::optional_value<::enums::test_flags>(output);
}

template<>
constexpr ::enumbra::optional_value<::enums::test_flags> from_string<::enums::test_flags>(const char* str) noexcept {
    const int len = ::enumbra::detail::strlen(str);
    return ::enumbra::from_string<::enums::test_flags>(str, len);
}
} // namespace enumbra

namespace enums {
enum class test_nodefault : uint16_t {
B = 1,
C = 2,
};

namespace detail::test_nodefault {
constexpr ::enums::test_nodefault flags_arr[2] =
{
::enums::test_nodefault::B,
::enums::test_nodefault::C,
};
}

} // namespace enums

namespace enumbra {
template<>
constexpr auto& flags<::enums::test_nodefault>() noexcept
{
return ::enums::detail::test_nodefault::flags_arr;
}

template<>
constexpr bool is_valid<::enums::test_nodefault>(::enums::test_nodefault e) noexcept { 
return (static_cast<uint16_t>(e) | static_cast<uint16_t>(0x3)) == static_cast<uint16_t>(0x3);
}

template<> constexpr void clear(::enums::test_nodefault& value) noexcept { value = static_cast<::enums::test_nodefault>(0); }
template<> constexpr bool test(::enums::test_nodefault value, ::enums::test_nodefault flags) noexcept { return (static_cast<uint16_t>(flags) & static_cast<uint16_t>(value)) == static_cast<uint16_t>(flags); }
template<> constexpr void set(::enums::test_nodefault& value, ::enums::test_nodefault flags) noexcept { value = static_cast<::enums::test_nodefault>(static_cast<uint16_t>(value) | static_cast<uint16_t>(flags)); }
template<> constexpr void unset(::enums::test_nodefault& value, ::enums::test_nodefault flags) noexcept { value = static_cast<::enums::test_nodefault>(static_cast<uint16_t>(value) & (~static_cast<uint16_t>(flags))); }
template<> constexpr void toggle(::enums::test_nodefault& value, ::enums::test_nodefault flags) noexcept { value = static_cast<::enums::test_nodefault>(static_cast<uint16_t>(value) ^ static_cast<uint16_t>(flags)); }
template<> constexpr bool has_all(::enums::test_nodefault value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x3)) == static_cast<uint16_t>(0x3); }
template<> constexpr bool has_any(::enums::test_nodefault value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x3)) > 0; }
template<> constexpr bool has_none(::enums::test_nodefault value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x3)) == 0; }
template<> constexpr bool has_single(::enums::test_nodefault value) noexcept { uint16_t n = static_cast<uint16_t>(static_cast<uint16_t>(value) & 0x3); return n && !(n & (n - 1)); }

} // namespace enumbra

template<> struct enumbra::detail::base_helper<::enums::test_nodefault> : enumbra::detail::type_info<true, false, true> { };
template<> struct enumbra::detail::enum_helper<::enums::test_nodefault> : enumbra::detail::enum_info<uint16_t, 0, 3, 0, 2, true, 2, 2, false, 0> { };

namespace enums {
constexpr ::enums::test_nodefault operator~(const ::enums::test_nodefault a) noexcept { return static_cast<::enums::test_nodefault>(~static_cast<uint16_t>(a)); }
constexpr ::enums::test_nodefault operator|(const ::enums::test_nodefault a, const ::enums::test_nodefault b) noexcept { return static_cast<::enums::test_nodefault>(static_cast<uint16_t>(a) | static_cast<uint16_t>(b)); }
constexpr ::enums::test_nodefault operator&(const ::enums::test_nodefault a, const ::enums::test_nodefault b) noexcept { return static_cast<::enums::test_nodefault>(static_cast<uint16_t>(a) & static_cast<uint16_t>(b)); }
constexpr ::enums::test_nodefault operator^(const ::enums::test_nodefault a, const ::enums::test_nodefault b) noexcept { return static_cast<::enums::test_nodefault>(static_cast<uint16_t>(a) ^ static_cast<uint16_t>(b)); }
constexpr ::enums::test_nodefault& operator|=(::enums::test_nodefault& a, const ::enums::test_nodefault b) noexcept { return a = a | b; }
constexpr ::enums::test_nodefault& operator&=(::enums::test_nodefault& a, const ::enums::test_nodefault b) noexcept { return a = a & b; }
constexpr ::enums::test_nodefault& operator^=(::enums::test_nodefault& a, const ::enums::test_nodefault b) noexcept { return a = a ^ b; }
} // namespace enums

namespace enumbra {

constexpr ::enumbra::stack_string<12> to_string(const ::enums::test_nodefault v) noexcept {
::enumbra::stack_string<12> output;
if (static_cast<uint16_t>(v & ::enums::test_nodefault::B) > 0) {
output.append<1>("B");
}
if (static_cast<uint16_t>(v & ::enums::test_nodefault::C) > 0) {
if (!output.empty()) { output.append('|'); }
output.append<1>("C");
}
return output;
}

template<>
constexpr ::enumbra::optional_value<::enums::test_nodefault> from_string<::enums::test_nodefault>(const char* str, int len) noexcept {
if (len < 0) { return {}; } // Invalid size
const char* start = str;
const char* end = start;
::enums::test_nodefault output = {};
for (int i = 0; i < len; ++i) {
if (str[i] == '\0') { return {}; } // Invalid: null in string
end++;
if ((i == (len - 1)) || (*end == '|')) {
const auto check_len = end - start;
if (check_len == 1) {
if (::enumbra::detail::streq_fixed_size<1>(start, "B")) { output |= ::enums::test_nodefault::B; }
else if (::enumbra::detail::streq_fixed_size<1>(start, "C")) { output |= ::enums::test_nodefault::C; }
else { return {}; }
}
else { return {}; }
start = end + 1;
}
}
return ::enumbra::optional_value<::enums::test_nodefault>(output);
}

template<>
constexpr ::enumbra::optional_value<::enums::test_nodefault> from_string<::enums::test_nodefault>(const char* str) noexcept {
    const int len = ::enumbra::detail::strlen(str);
    return ::enumbra::from_string<::enums::test_nodefault>(str, len);
}
} // namespace enumbra

namespace enums {
enum class TestSparseFlags : uint16_t {
B = 1,
C = 4,
D = 16,
};

namespace detail::TestSparseFlags {
constexpr ::enums::TestSparseFlags flags_arr[3] =
{
::enums::TestSparseFlags::B,
::enums::TestSparseFlags::C,
::enums::TestSparseFlags::D,
};
}

} // namespace enums

namespace enumbra {
template<>
constexpr auto& flags<::enums::TestSparseFlags>() noexcept
{
return ::enums::detail::TestSparseFlags::flags_arr;
}

template<>
constexpr bool is_valid<::enums::TestSparseFlags>(::enums::TestSparseFlags e) noexcept { 
return (static_cast<uint16_t>(e) | static_cast<uint16_t>(0x15)) == static_cast<uint16_t>(0x15);
}

template<> constexpr void clear(::enums::TestSparseFlags& value) noexcept { value = static_cast<::enums::TestSparseFlags>(0); }
template<> constexpr bool test(::enums::TestSparseFlags value, ::enums::TestSparseFlags flags) noexcept { return (static_cast<uint16_t>(flags) & static_cast<uint16_t>(value)) == static_cast<uint16_t>(flags); }
template<> constexpr void set(::enums::TestSparseFlags& value, ::enums::TestSparseFlags flags) noexcept { value = static_cast<::enums::TestSparseFlags>(static_cast<uint16_t>(value) | static_cast<uint16_t>(flags)); }
template<> constexpr void unset(::enums::TestSparseFlags& value, ::enums::TestSparseFlags flags) noexcept { value = static_cast<::enums::TestSparseFlags>(static_cast<uint16_t>(value) & (~static_cast<uint16_t>(flags))); }
template<> constexpr void toggle(::enums::TestSparseFlags& value, ::enums::TestSparseFlags flags) noexcept { value = static_cast<::enums::TestSparseFlags>(static_cast<uint16_t>(value) ^ static_cast<uint16_t>(flags)); }
template<> constexpr bool has_all(::enums::TestSparseFlags value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x15)) == static_cast<uint16_t>(0x15); }
template<> constexpr bool has_any(::enums::TestSparseFlags value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x15)) > 0; }
template<> constexpr bool has_none(::enums::TestSparseFlags value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x15)) == 0; }
template<> constexpr bool has_single(::enums::TestSparseFlags value) noexcept { uint16_t n = static_cast<uint16_t>(static_cast<uint16_t>(value) & 0x15); return n && !(n & (n - 1)); }

} // namespace enumbra

template<> struct enumbra::detail::base_helper<::enums::TestSparseFlags> : enumbra::detail::type_info<true, false, true> { };
template<> struct enumbra::detail::enum_helper<::enums::TestSparseFlags> : enumbra::detail::enum_info<uint16_t, 0, 21, 0, 3, false, 5, 5, false, 0> { };

namespace enums {
constexpr ::enums::TestSparseFlags operator~(const ::enums::TestSparseFlags a) noexcept { return static_cast<::enums::TestSparseFlags>(~static_cast<uint16_t>(a)); }
constexpr ::enums::TestSparseFlags operator|(const ::enums::TestSparseFlags a, const ::enums::TestSparseFlags b) noexcept { return static_cast<::enums::TestSparseFlags>(static_cast<uint16_t>(a) | static_cast<uint16_t>(b)); }
constexpr ::enums::TestSparseFlags operator&(const ::enums::TestSparseFlags a, const ::enums::TestSparseFlags b) noexcept { return static_cast<::enums::TestSparseFlags>(static_cast<uint16_t>(a) & static_cast<uint16_t>(b)); }
constexpr ::enums::TestSparseFlags operator^(const ::enums::TestSparseFlags a, const ::enums::TestSparseFlags b) noexcept { return static_cast<::enums::TestSparseFlags>(static_cast<uint16_t>(a) ^ static_cast<uint16_t>(b)); }
constexpr ::enums::TestSparseFlags& operator|=(::enums::TestSparseFlags& a, const ::enums::TestSparseFlags b) noexcept { return a = a | b; }
constexpr ::enums::TestSparseFlags& operator&=(::enums::TestSparseFlags& a, const ::enums::TestSparseFlags b) noexcept { return a = a & b; }
constexpr ::enums::TestSparseFlags& operator^=(::enums::TestSparseFlags& a, const ::enums::TestSparseFlags b) noexcept { return a = a ^ b; }
} // namespace enums

namespace enumbra {

constexpr ::enumbra::stack_string<12> to_string(const ::enums::TestSparseFlags v) noexcept {
::enumbra::stack_string<12> output;
if (static_cast<uint16_t>(v & ::enums::TestSparseFlags::B) > 0) {
output.append<1>("B");
}
if (static_cast<uint16_t>(v & ::enums::TestSparseFlags::C) > 0) {
if (!output.empty()) { output.append('|'); }
output.append<1>("C");
}
if (static_cast<uint16_t>(v & ::enums::TestSparseFlags::D) > 0) {
if (!output.empty()) { output.append('|'); }
output.append<1>("D");
}
return output;
}

template<>
constexpr ::enumbra::optional_value<::enums::TestSparseFlags> from_string<::enums::TestSparseFlags>(const char* str, int len) noexcept {
if (len < 0) { return {}; } // Invalid size
const char* start = str;
const char* end = start;
::enums::TestSparseFlags output = {};
for (int i = 0; i < len; ++i) {
if (str[i] == '\0') { return {}; } // Invalid: null in string
end++;
if ((i == (len - 1)) || (*end == '|')) {
const auto check_len = end - start;
if (check_len == 1) {
if (::enumbra::detail::streq_fixed_size<1>(start, "B")) { output |= ::enums::TestSparseFlags::B; }
else if (::enumbra::detail::streq_fixed_size<1>(start, "C")) { output |= ::enums::TestSparseFlags::C; }
else if (::enumbra::detail::streq_fixed_size<1>(start, "D")) { output |= ::enums::TestSparseFlags::D; }
else { return {}; }
}
else { return {}; }
start = end + 1;
}
}
return ::enumbra::optional_value<::enums::TestSparseFlags>(output);
}

template<>
constexpr ::enumbra::optional_value<::enums::TestSparseFlags> from_string<::enums::TestSparseFlags>(const char* str) noexcept {
    const int len = ::enumbra::detail::strlen(str);
    return ::enumbra::from_string<::enums::TestSparseFlags>(str, len);
}
} // namespace enumbra

namespace enums {
enum class TestSingleFlag : uint16_t {
C = 4,
};

namespace detail::TestSingleFlag {
constexpr ::enums::TestSingleFlag flags_arr[1] =
{
::enums::TestSingleFlag::C,
};
}

} // namespace enums

namespace enumbra {
template<>
constexpr auto& flags<::enums::TestSingleFlag>() noexcept
{
return ::enums::detail::TestSingleFlag::flags_arr;
}

template<>
constexpr bool is_valid<::enums::TestSingleFlag>(::enums::TestSingleFlag e) noexcept { 
return (static_cast<uint16_t>(e) | static_cast<uint16_t>(0x4)) == static_cast<uint16_t>(0x4);
}

template<> constexpr void clear(::enums::TestSingleFlag& value) noexcept { value = static_cast<::enums::TestSingleFlag>(0); }
template<> constexpr bool test(::enums::TestSingleFlag value, ::enums::TestSingleFlag flags) noexcept { return (static_cast<uint16_t>(flags) & static_cast<uint16_t>(value)) == static_cast<uint16_t>(flags); }
template<> constexpr void set(::enums::TestSingleFlag& value, ::enums::TestSingleFlag flags) noexcept { value = static_cast<::enums::TestSingleFlag>(static_cast<uint16_t>(value) | static_cast<uint16_t>(flags)); }
template<> constexpr void unset(::enums::TestSingleFlag& value, ::enums::TestSingleFlag flags) noexcept { value = static_cast<::enums::TestSingleFlag>(static_cast<uint16_t>(value) & (~static_cast<uint16_t>(flags))); }
template<> constexpr void toggle(::enums::TestSingleFlag& value, ::enums::TestSingleFlag flags) noexcept { value = static_cast<::enums::TestSingleFlag>(static_cast<uint16_t>(value) ^ static_cast<uint16_t>(flags)); }
template<> constexpr bool has_all(::enums::TestSingleFlag value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x4)) == static_cast<uint16_t>(0x4); }
template<> constexpr bool has_any(::enums::TestSingleFlag value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x4)) > 0; }
template<> constexpr bool has_none(::enums::TestSingleFlag value) noexcept { return (static_cast<uint16_t>(value) & static_cast<uint16_t>(0x4)) == 0; }
template<> constexpr bool has_single(::enums::TestSingleFlag value) noexcept { uint16_t n = static_cast<uint16_t>(static_cast<uint16_t>(value) & 0x4); return n && !(n & (n - 1)); }

} // namespace enumbra

template<> struct enumbra::detail::base_helper<::enums::TestSingleFlag> : enumbra::detail::type_info<true, false, true> { };
template<> struct enumbra::detail::enum_helper<::enums::TestSingleFlag> : enumbra::detail::enum_info<uint16_t, 0, 4, 0, 1, true, 3, 3, false, 0> { };

namespace enums {
constexpr ::enums::TestSingleFlag operator~(const ::enums::TestSingleFlag a) noexcept { return static_cast<::enums::TestSingleFlag>(~static_cast<uint16_t>(a)); }
constexpr ::enums::TestSingleFlag operator|(const ::enums::TestSingleFlag a, const ::enums::TestSingleFlag b) noexcept { return static_cast<::enums::TestSingleFlag>(static_cast<uint16_t>(a) | static_cast<uint16_t>(b)); }
constexpr ::enums::TestSingleFlag operator&(const ::enums::TestSingleFlag a, const ::enums::TestSingleFlag b) noexcept { return static_cast<::enums::TestSingleFlag>(static_cast<uint16_t>(a) & static_cast<uint16_t>(b)); }
constexpr ::enums::TestSingleFlag operator^(const ::enums::TestSingleFlag a, const ::enums::TestSingleFlag b) noexcept { return static_cast<::enums::TestSingleFlag>(static_cast<uint16_t>(a) ^ static_cast<uint16_t>(b)); }
constexpr ::enums::TestSingleFlag& operator|=(::enums::TestSingleFlag& a, const ::enums::TestSingleFlag b) noexcept { return a = a | b; }
constexpr ::enums::TestSingleFlag& operator&=(::enums::TestSingleFlag& a, const ::enums::TestSingleFlag b) noexcept { return a = a & b; }
constexpr ::enums::TestSingleFlag& operator^=(::enums::TestSingleFlag& a, const ::enums::TestSingleFlag b) noexcept { return a = a ^ b; }
} // namespace enums

namespace enumbra {

constexpr ::enumbra::stack_string<12> to_string(const ::enums::TestSingleFlag v) noexcept {
::enumbra::stack_string<12> output;
if (static_cast<uint16_t>(v & ::enums::TestSingleFlag::C) > 0) {
output.append<1>("C");
}
return output;
}

template<>
constexpr ::enumbra::optional_value<::enums::TestSingleFlag> from_string<::enums::TestSingleFlag>(const char* str, int len) noexcept {
if (len < 0) { return {}; } // Invalid size
const char* start = str;
const char* end = start;
::enums::TestSingleFlag output = {};
for (int i = 0; i < len; ++i) {
if (str[i] == '\0') { return {}; } // Invalid: null in string
end++;
if ((i == (len - 1)) || (*end == '|')) {
const auto check_len = end - start;
if (check_len == 1) {
if (::enumbra::detail::streq_fixed_size<1>(start, "C")) { output |= ::enums::TestSingleFlag::C; }
else { return {}; }
}
else { return {}; }
start = end + 1;
}
}
return ::enumbra::optional_value<::enums::TestSingleFlag>(output);
}

template<>
constexpr ::enumbra::optional_value<::enums::TestSingleFlag> from_string<::enums::TestSingleFlag>(const char* str) noexcept {
    const int len = ::enumbra::detail::strlen(str);
    return ::enumbra::from_string<::enums::TestSingleFlag>(str, len);
}
} // namespace enumbra

namespace enums {
enum class Blorp : uint32_t {
big = 1,
bigger = 2,
biggest = 4,
};

namespace detail::Blorp {
constexpr ::enums::Blorp flags_arr[3] =
{
::enums::Blorp::big,
::enums::Blorp::bigger,
::enums::Blorp::biggest,
};
}

} // namespace enums

namespace enumbra {
template<>
constexpr auto& flags<::enums::Blorp>() noexcept
{
return ::enums::detail::Blorp::flags_arr;
}

template<>
constexpr bool is_valid<::enums::Blorp>(::enums::Blorp e) noexcept { 
return (static_cast<uint32_t>(e) | static_cast<uint32_t>(0x7)) == static_cast<uint32_t>(0x7);
}

template<> constexpr void clear(::enums::Blorp& value) noexcept { value = static_cast<::enums::Blorp>(0); }
template<> constexpr bool test(::enums::Blorp value, ::enums::Blorp flags) noexcept { return (static_cast<uint32_t>(flags) & static_cast<uint32_t>(value)) == static_cast<uint32_t>(flags); }
template<> constexpr void set(::enums::Blorp& value, ::enums::Blorp flags) noexcept { value = static_cast<::enums::Blorp>(static_cast<uint32_t>(value) | static_cast<uint32_t>(flags)); }
template<> constexpr void unset(::enums::Blorp& value, ::enums::Blorp flags) noexcept { value = static_cast<::enums::Blorp>(static_cast<uint32_t>(value) & (~static_cast<uint32_t>(flags))); }
template<> constexpr void toggle(::enums::Blorp& value, ::enums::Blorp flags) noexcept { value = static_cast<::enums::Blorp>(static_cast<uint32_t>(value) ^ static_cast<uint32_t>(flags)); }
template<> constexpr bool has_all(::enums::Blorp value) noexcept { return (static_cast<uint32_t>(value) & static_cast<uint32_t>(0x7)) == static_cast<uint32_t>(0x7); }
template<> constexpr bool has_any(::enums::Blorp value) noexcept { return (static_cast<uint32_t>(value) & static_cast<uint32_t>(0x7)) > 0; }
template<> constexpr bool has_none(::enums::Blorp value) noexcept { return (static_cast<uint32_t>(value) & static_cast<uint32_t>(0x7)) == 0; }
template<> constexpr bool has_single(::enums::Blorp value) noexcept { uint32_t n = static_cast<uint32_t>(static_cast<uint32_t>(value) & 0x7); return n && !(n & (n - 1)); }

} // namespace enumbra

template<> struct enumbra::detail::base_helper<::enums::Blorp> : enumbra::detail::type_info<true, false, true> { };
template<> struct enumbra::detail::enum_helper<::enums::Blorp> : enumbra::detail::enum_info<uint32_t, 0, 7, 0, 3, true, 3, 3, false, 0> { };

namespace enums {
constexpr ::enums::Blorp operator~(const ::enums::Blorp a) noexcept { return static_cast<::enums::Blorp>(~static_cast<uint32_t>(a)); }
constexpr ::enums::Blorp operator|(const ::enums::Blorp a, const ::enums::Blorp b) noexcept { return static_cast<::enums::Blorp>(static_cast<uint32_t>(a) | static_cast<uint32_t>(b)); }
constexpr ::enums::Blorp operator&(const ::enums::Blorp a, const ::enums::Blorp b) noexcept { return static_cast<::enums::Blorp>(static_cast<uint32_t>(a) & static_cast<uint32_t>(b)); }
constexpr ::enums::Blorp operator^(const ::enums::Blorp a, const ::enums::Blorp b) noexcept { return static_cast<::enums::Blorp>(static_cast<uint32_t>(a) ^ static_cast<uint32_t>(b)); }
constexpr ::enums::Blorp& operator|=(::enums::Blorp& a, const ::enums::Blorp b) noexcept { return a = a | b; }
constexpr ::enums::Blorp& operator&=(::enums::Blorp& a, const ::enums::Blorp b) noexcept { return a = a & b; }
constexpr ::enums::Blorp& operator^=(::enums::Blorp& a, const ::enums::Blorp b) noexcept { return a = a ^ b; }
} // namespace enums

namespace enumbra {

constexpr ::enumbra::stack_string<28> to_string(const ::enums::Blorp v) noexcept {
::enumbra::stack_string<28> output;
if (static_cast<uint32_t>(v & ::enums::Blorp::big) > 0) {
output.append<3>("big");
}
if (static_cast<uint32_t>(v & ::enums::Blorp::bigger) > 0) {
if (!output.empty()) { output.append('|'); }
output.append<6>("bigger");
}
if (static_cast<uint32_t>(v & ::enums::Blorp::biggest) > 0) {
if (!output.empty()) { output.append('|'); }
output.append<7>("biggest");
}
return output;
}

template<>
constexpr ::enumbra::optional_value<::enums::Blorp> from_string<::enums::Blorp>(const char* str, int len) noexcept {
if (len < 0) { return {}; } // Invalid size
const char* start = str;
const char* end = start;
::enums::Blorp output = {};
for (int i = 0; i < len; ++i) {
if (str[i] == '\0') { return {}; } // Invalid: null in string
end++;
if ((i == (len - 1)) || (*end == '|')) {
const auto check_len = end - start;
if (check_len == 3) {
if (::enumbra::detail::streq_fixed_size<3>(start, "big")) { output |= ::enums::Blorp::big; }
else { return {}; }
}
else if (check_len == 6) {
if (::enumbra::detail::streq_fixed_size<6>(start, "bigger")) { output |= ::enums::Blorp::bigger; }
else { return {}; }
}
else if (check_len == 7) {
if (::enumbra::detail::streq_fixed_size<7>(start, "biggest")) { output |= ::enums::Blorp::biggest; }
else { return {}; }
}
else { return {}; }
start = end + 1;
}
}
return ::enumbra::optional_value<::enums::Blorp>(output);
}

template<>
constexpr ::enumbra::optional_value<::enums::Blorp> from_string<::enums::Blorp>(const char* str) noexcept {
    const int len = ::enumbra::detail::strlen(str);
    return ::enumbra::from_string<::enums::Blorp>(str, len);
}
} // namespace enumbra

#endif // ENUMBRA_330E78AF79EDD327_H