163

How to make printf to show the values of variables which are of an enum type? For instance:

typedef enum {Linux, Apple, Windows} OS_type; 
OS_type myOS = Linux;

and what I need is something like

printenum(OS_type, "My OS is %s", myOS);

which must show a string "Linux", not an integer.

I suppose, first I have to create a value-indexed array of strings. But I don't know if that is the most beautiful way to do it. Is it possible at all?

4

34 Answers 34

1
2
0
#pragma once

#include <string>
#include <vector>
#include <sstream>
#include <algorithm>

namespace StringifyEnum
{
static std::string TrimEnumString(const std::string &s)
{
    std::string::const_iterator it = s.begin();
    while (it != s.end() && isspace(*it)) { it++; }
    std::string::const_reverse_iterator rit = s.rbegin();
    while (rit.base() != it && isspace(*rit)) { ++rit; }
    return std::string(it, rit.base());
}

static std::vector<std::string> SplitEnumArgs(const char* szArgs, int     nMax)
{
    std::vector<std::string> enums;
    std::stringstream ss(szArgs);
    std::string strSub;
    int nIdx = 0;
    while (ss.good() && (nIdx < nMax)) {
        getline(ss, strSub, ',');
        enums.push_back(StringifyEnum::TrimEnumString(strSub));
        ++nIdx;
    }
    return std::move(enums);
}    
}

#define DECLARE_ENUM_SEQ(ename, n, ...) \
    enum class ename { __VA_ARGS__ }; \
    const int MAX_NUMBER_OF_##ename(n); \
    static std::vector<std::string> ename##Strings = StringifyEnum::SplitEnumArgs(#__VA_ARGS__, MAX_NUMBER_OF_##ename); \
    inline static std::string ename##ToString(ename e) { \
        return ename##Strings.at((int)e); \
    } \
    inline static ename StringTo##ename(const std::string& en) { \
        const auto it = std::find(ename##Strings.begin(), ename##Strings.end(), en); \
        if (it != ename##Strings.end()) \
            return (ename) std::distance(ename##Strings.begin(), it); \
        throw std::runtime_error("Could not resolve string enum value");     \
    }

This is an elaborated class extended enum version...it does not add any other enum value other than those provided.

Usage: DECLARE_ENUM_SEQ(CameraMode, (3), Fly, FirstPerson, PerspectiveCorrect)

0

There are many other answers to this but I think a better way is to use C++17 features and to use constexpr so that translations are done at compile time. This is type safe and we do not need to mess with macros. See below:

//enum.hpp
#include <array>
#include <string_view>

namespace Enum
{

template <class ENUM_TYPE, size_t SIZE>
constexpr ENUM_TYPE findKey(const char * value, std::array<std::pair<ENUM_TYPE, const char *>, SIZE> map, size_t index = -1)
{
    index = (index == -1) ? map.size() : index;
    return
        (index == 0) ? throw "Value not in map":
        (std::string_view(map[index - 1].second) == value) ? map[index- 1].first:
        findKey(value, map, index - 1);
};

template <class ENUM_TYPE, size_t SIZE>
constexpr const char * findValue(ENUM_TYPE key, std::array<std::pair<ENUM_TYPE, const char *>, SIZE> map, size_t index = -1)
{
    index = (index == -1) ? map.size() : index;
    return
        (index == 0) ? throw "Key not in map":
        (map[index - 1].first == key) ? map[index- 1].second:
        findValue(key, map, index - 1);
};

}

//test_enum.hpp
#include "enum.hpp"

namespace TestEnum
{
    enum class Fields
    {
        Test1,
        Test2,
        Test3,
        //This has to be at the end
        NUMBER_OF_FIELDS
    };

    constexpr std::array<std::pair<Fields, const char *>, (size_t)Fields::NUMBER_OF_FIELDS> GetMap()
    {
        std::array<std::pair<Fields, const char *>, (size_t)Fields::NUMBER_OF_FIELDS> map =
        {
            {
                    {Fields::Test1, "Test1"},
                    {Fields::Test2, "Test2"},
                    {Fields::Test3, "Test3"},
            }
        };
        return map;
    };

    constexpr Fields StringToEnum(const char * value)
    {
        return Enum::findKey(value, GetMap());
    }

    constexpr const char * EnumToString(Fields key)
    {
        return Enum::findValue(key, GetMap());
    }

}

This can then easily be used so that string key errors are detected at compile time:

#include "test_enum.hpp"

int main()
{
    auto constexpr a = TestEnum::StringToEnum("Test2"); //a = TestEnum::Fields::Test2
    auto constexpr b = TestEnum::EnumToString(TestEnum::Fields::Test1); //b = "Test1"
    auto constexpr c = TestEnum::StringToEnum("AnyStringNotInTheMap"); //compile time failure
    return 0;
}

The code is more verbose than some other solutions but we can easily do Enum to String conversion and String to Enum conversion at compile time and detect type errors. With some of the future C++20 features this can probably be simplified a bit more.

0

Yet another dependency-free standard-compilant preprocessor-based solution, which will generate constexpr to_string founction for a given enum (and doesn't require any code changes for existing enum) is here.

Usage:

#include "generate_to_string.hpp"

enum class test_enum
{
    value1,
    value2
};


GENERATE_TO_STRING(test_enum, value1, value2) // emits warning if not all values are listed

const char* foo(test_enum v)
{
    return to_string(v);
}

A full code taken from the gist to copy&paste:

// workaround for old msvc preprocessor:
// https://stackoverflow.com/questions/5134523/msvc-doesnt-expand-va-args-correctly
#define ETS_EXP(x) x

#define ETS_CASE(e, x)                                                         \
    case e::x:                                                                 \
        return #x;

#define ETS_FE_0(e)
#define ETS_FE_1(e, x) ETS_CASE(e, x)
#define ETS_FE_2(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_1(e, __VA_ARGS__))
#define ETS_FE_3(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_2(e, __VA_ARGS__))
#define ETS_FE_4(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_3(e, __VA_ARGS__))
#define ETS_FE_5(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_4(e, __VA_ARGS__))
#define ETS_FE_6(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_5(e, __VA_ARGS__))
#define ETS_FE_7(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_6(e, __VA_ARGS__))
#define ETS_FE_8(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_7(e, __VA_ARGS__))
#define ETS_FE_9(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_8(e, __VA_ARGS__))
#define ETS_FE_10(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_9(e, __VA_ARGS__))
#define ETS_FE_11(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_10(e, __VA_ARGS__))
#define ETS_FE_12(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_11(e, __VA_ARGS__))
#define ETS_FE_13(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_12(e, __VA_ARGS__))
#define ETS_FE_14(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_13(e, __VA_ARGS__))
#define ETS_FE_15(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_14(e, __VA_ARGS__))
#define ETS_FE_16(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_15(e, __VA_ARGS__))
#define ETS_FE_17(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_16(e, __VA_ARGS__))
#define ETS_FE_18(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_17(e, __VA_ARGS__))
#define ETS_FE_19(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_18(e, __VA_ARGS__))
#define ETS_FE_20(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_19(e, __VA_ARGS__))
#define ETS_FE_21(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_20(e, __VA_ARGS__))
#define ETS_FE_22(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_21(e, __VA_ARGS__))
#define ETS_FE_23(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_22(e, __VA_ARGS__))
#define ETS_FE_24(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_23(e, __VA_ARGS__))
#define ETS_FE_25(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_24(e, __VA_ARGS__))
#define ETS_FE_26(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_25(e, __VA_ARGS__))
#define ETS_FE_27(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_26(e, __VA_ARGS__))
#define ETS_FE_28(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_27(e, __VA_ARGS__))
#define ETS_FE_29(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_28(e, __VA_ARGS__))
#define ETS_FE_30(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_29(e, __VA_ARGS__))
#define ETS_FE_31(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_30(e, __VA_ARGS__))
#define ETS_FE_32(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_31(e, __VA_ARGS__))
#define ETS_FE_33(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_32(e, __VA_ARGS__))
#define ETS_FE_34(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_33(e, __VA_ARGS__))
#define ETS_FE_35(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_34(e, __VA_ARGS__))
#define ETS_FE_36(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_35(e, __VA_ARGS__))
#define ETS_FE_37(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_36(e, __VA_ARGS__))
#define ETS_FE_38(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_37(e, __VA_ARGS__))
#define ETS_FE_39(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_38(e, __VA_ARGS__))
#define ETS_FE_40(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_39(e, __VA_ARGS__))
#define ETS_FE_41(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_40(e, __VA_ARGS__))
#define ETS_FE_42(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_41(e, __VA_ARGS__))
#define ETS_FE_43(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_42(e, __VA_ARGS__))
#define ETS_FE_44(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_43(e, __VA_ARGS__))
#define ETS_FE_45(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_44(e, __VA_ARGS__))
#define ETS_FE_46(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_45(e, __VA_ARGS__))
#define ETS_FE_47(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_46(e, __VA_ARGS__))
#define ETS_FE_48(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_47(e, __VA_ARGS__))
#define ETS_FE_49(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_48(e, __VA_ARGS__))
#define ETS_FE_50(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_49(e, __VA_ARGS__))
#define ETS_FE_51(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_50(e, __VA_ARGS__))
#define ETS_FE_52(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_51(e, __VA_ARGS__))
#define ETS_FE_53(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_52(e, __VA_ARGS__))
#define ETS_FE_54(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_53(e, __VA_ARGS__))
#define ETS_FE_55(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_54(e, __VA_ARGS__))
#define ETS_FE_56(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_55(e, __VA_ARGS__))
#define ETS_FE_57(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_56(e, __VA_ARGS__))
#define ETS_FE_58(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_57(e, __VA_ARGS__))
#define ETS_FE_59(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_58(e, __VA_ARGS__))
#define ETS_FE_60(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_59(e, __VA_ARGS__))
#define ETS_FE_61(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_60(e, __VA_ARGS__))
#define ETS_FE_62(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_61(e, __VA_ARGS__))
#define ETS_FE_63(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_62(e, __VA_ARGS__))
#define ETS_FE_64(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_63(e, __VA_ARGS__))
#define ETS_FE_65(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_64(e, __VA_ARGS__))
#define ETS_FE_66(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_65(e, __VA_ARGS__))
#define ETS_FE_67(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_66(e, __VA_ARGS__))
#define ETS_FE_68(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_67(e, __VA_ARGS__))
#define ETS_FE_69(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_68(e, __VA_ARGS__))
#define ETS_FE_70(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_69(e, __VA_ARGS__))
#define ETS_FE_71(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_70(e, __VA_ARGS__))
#define ETS_FE_72(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_71(e, __VA_ARGS__))
#define ETS_FE_73(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_72(e, __VA_ARGS__))
#define ETS_FE_74(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_73(e, __VA_ARGS__))
#define ETS_FE_75(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_74(e, __VA_ARGS__))
#define ETS_FE_76(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_75(e, __VA_ARGS__))
#define ETS_FE_77(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_76(e, __VA_ARGS__))
#define ETS_FE_78(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_77(e, __VA_ARGS__))
#define ETS_FE_79(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_78(e, __VA_ARGS__))
#define ETS_FE_80(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_79(e, __VA_ARGS__))
#define ETS_FE_81(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_80(e, __VA_ARGS__))
#define ETS_FE_82(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_81(e, __VA_ARGS__))
#define ETS_FE_83(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_82(e, __VA_ARGS__))
#define ETS_FE_84(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_83(e, __VA_ARGS__))
#define ETS_FE_85(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_84(e, __VA_ARGS__))
#define ETS_FE_86(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_85(e, __VA_ARGS__))
#define ETS_FE_87(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_86(e, __VA_ARGS__))
#define ETS_FE_88(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_87(e, __VA_ARGS__))
#define ETS_FE_89(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_88(e, __VA_ARGS__))
#define ETS_FE_90(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_89(e, __VA_ARGS__))
#define ETS_FE_91(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_90(e, __VA_ARGS__))
#define ETS_FE_92(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_91(e, __VA_ARGS__))
#define ETS_FE_93(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_92(e, __VA_ARGS__))
#define ETS_FE_94(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_93(e, __VA_ARGS__))
#define ETS_FE_95(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_94(e, __VA_ARGS__))
#define ETS_FE_96(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_95(e, __VA_ARGS__))
#define ETS_FE_97(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_96(e, __VA_ARGS__))
#define ETS_FE_98(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_97(e, __VA_ARGS__))
#define ETS_FE_99(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_98(e, __VA_ARGS__))
#define ETS_FE_100(e, x, ...) ETS_CASE(e, x) ETS_EXP(ETS_FE_99(e, __VA_ARGS__))

#define ETS_MATCH_ARGS(                                                        \
    ign0, ign1, ign2, ign3, ign4, ign5, ign6, ign7, ign8, ign9, ign10, ign11,  \
    ign12, ign13, ign14, ign15, ign16, ign17, ign18, ign19, ign20, ign21,      \
    ign22, ign23, ign24, ign25, ign26, ign27, ign28, ign29, ign30, ign31,      \
    ign32, ign33, ign34, ign35, ign36, ign37, ign38, ign39, ign40, ign41,      \
    ign42, ign43, ign44, ign45, ign46, ign47, ign48, ign49, ign50, ign51,      \
    ign52, ign53, ign54, ign55, ign56, ign57, ign58, ign59, ign60, ign61,      \
    ign62, ign63, ign64, ign65, ign66, ign67, ign68, ign69, ign70, ign71,      \
    ign72, ign73, ign74, ign75, ign76, ign77, ign78, ign79, ign80, ign81,      \
    ign82, ign83, ign84, ign85, ign86, ign87, ign88, ign89, ign90, ign91,      \
    ign92, ign93, ign94, ign95, ign96, ign97, ign98, ign99, ign100, name, ...) \
    name

#define ETS_FOR_EACH(e, ...)                                                   \
    ETS_EXP(ETS_MATCH_ARGS(                                                    \
        _0, __VA_ARGS__, ETS_FE_100, ETS_FE_99, ETS_FE_98, ETS_FE_97,          \
        ETS_FE_96, ETS_FE_95, ETS_FE_94, ETS_FE_93, ETS_FE_92, ETS_FE_91,      \
        ETS_FE_90, ETS_FE_89, ETS_FE_88, ETS_FE_87, ETS_FE_86, ETS_FE_85,      \
        ETS_FE_84, ETS_FE_83, ETS_FE_82, ETS_FE_81, ETS_FE_80, ETS_FE_79,      \
        ETS_FE_78, ETS_FE_77, ETS_FE_76, ETS_FE_75, ETS_FE_74, ETS_FE_73,      \
        ETS_FE_72, ETS_FE_71, ETS_FE_70, ETS_FE_69, ETS_FE_68, ETS_FE_67,      \
        ETS_FE_66, ETS_FE_65, ETS_FE_64, ETS_FE_63, ETS_FE_62, ETS_FE_61,      \
        ETS_FE_60, ETS_FE_59, ETS_FE_58, ETS_FE_57, ETS_FE_56, ETS_FE_55,      \
        ETS_FE_54, ETS_FE_53, ETS_FE_52, ETS_FE_51, ETS_FE_50, ETS_FE_49,      \
        ETS_FE_48, ETS_FE_47, ETS_FE_46, ETS_FE_45, ETS_FE_44, ETS_FE_43,      \
        ETS_FE_42, ETS_FE_41, ETS_FE_40, ETS_FE_39, ETS_FE_38, ETS_FE_37,      \
        ETS_FE_36, ETS_FE_35, ETS_FE_34, ETS_FE_33, ETS_FE_32, ETS_FE_31,      \
        ETS_FE_30, ETS_FE_29, ETS_FE_28, ETS_FE_27, ETS_FE_26, ETS_FE_25,      \
        ETS_FE_24, ETS_FE_23, ETS_FE_22, ETS_FE_21, ETS_FE_20, ETS_FE_19,      \
        ETS_FE_18, ETS_FE_17, ETS_FE_16, ETS_FE_15, ETS_FE_14, ETS_FE_13,      \
        ETS_FE_12, ETS_FE_11, ETS_FE_10, ETS_FE_9, ETS_FE_8, ETS_FE_7,         \
        ETS_FE_6, ETS_FE_5, ETS_FE_4, ETS_FE_3, ETS_FE_2, ETS_FE_1,            \
        ETS_FE_0)(e, __VA_ARGS__))

#define GENERATE_TO_STRING(enum_type, ...)                                     \
    constexpr const char* to_string(enum_type val)                             \
    {                                                                          \
        switch (val)                                                           \
        {                                                                      \
            ETS_FOR_EACH(enum_type, __VA_ARGS__)                               \
        }                                                                      \
        return "<unknown>";                                                    \
    }

We hope C++ built-in reflection solution that rule them all will finally get into C++26 (now we know it won't happen as for C++23).

-1

I have added one answer, which was not supporting enumeration values, now added support which supports enumeration value assignment as well. Like in previous solution this one uses minimum define magic.

Here is header file:

#pragma once
#include <string>
#include <map>
#include <regex>

template <class Enum>
class EnumReflect
{
public:
    static const char* getEnums() { return ""; }
};

//
//  Just a container for each enumeration type.
//
template <class Enum>
class EnumReflectBase
{
public:
    static std::map<std::string, int> enum2int;
    static std::map<int, std::string> int2enum;

    static void EnsureEnumMapReady( const char* enumsInfo )
    {
        if (*enumsInfo == 0 || enum2int.size() != 0 )
            return;

        // Should be called once per each enumeration.
        std::string senumsInfo(enumsInfo);
        std::regex re("^([a-zA-Z_][a-zA-Z0-9_]+) *=? *([^,]*)(,|$) *");     // C++ identifier to optional " = <value>"
        std::smatch sm;
        int value = 0;

        for (; regex_search(senumsInfo, sm, re); senumsInfo = sm.suffix(), value++)
        {
            string enumName = sm[1].str();
            string enumValue = sm[2].str();

            if (enumValue.length() != 0)
                value = atoi(enumValue.c_str());

            enum2int[enumName] = value;
            int2enum[value] = enumName;
        }
    }
};

template <class Enum>
std::map<std::string, int> EnumReflectBase<Enum>::enum2int;

template <class Enum>
std::map<int, std::string> EnumReflectBase<Enum>::int2enum;


#define DECLARE_ENUM(name, ...)                                         \
    enum name { __VA_ARGS__ };                                          \
    template <>                                                         \
    class EnumReflect<##name>: public EnumReflectBase<##name> {         \
    public:                                                             \
        static const char* getEnums() { return #__VA_ARGS__; }          \
    };




/*
    Basic usage:

    Declare enumeration:

DECLARE_ENUM( enumName,

    enumValue1,
    enumValue2,
    enumValue3 = 5,

    // comment
    enumValue4
);

    Conversion logic:

    From enumeration to string:

        printf( EnumToString(enumValue3).c_str() );

    From string to enumeration:

       enumName value;

       if( !StringToEnum("enumValue4", value) )
            printf("Conversion failed...");
*/

//
//  Converts enumeration to string, if not found - empty string is returned.
//
template <class T>
std::string EnumToString(T t)
{
    EnumReflect<T>::EnsureEnumMapReady(EnumReflect<T>::getEnums());
    auto& int2enum = EnumReflect<T>::int2enum;
    auto it = int2enum.find(t);

    if (it == int2enum.end())
        return "";

    return it->second;
}

//
//  Converts string to enumeration, if not found - false is returned.
//
template <class T>
bool StringToEnum(const char* enumName, T& t)
{
    EnumReflect<T>::EnsureEnumMapReady(EnumReflect<T>::getEnums());
    auto& enum2int = EnumReflect<T>::enum2int;
    auto it = enum2int.find(enumName);

    if (it == enum2int.end())
        return false;

    t = (T) it->second;
    return true;
}

And here is example test application:

DECLARE_ENUM(TestEnum,
    ValueOne,
    ValueTwo,
    ValueThree = 5,
    ValueFour = 7
);

DECLARE_ENUM(TestEnum2,
    ValueOne2 = -1,
    ValueTwo2,
    ValueThree2 = -4,
    ValueFour2
);

void main(void)
{
    string sName1 = EnumToString(ValueOne);
    string sName2 = EnumToString(ValueTwo);
    string sName3 = EnumToString(ValueThree);
    string sName4 = EnumToString(ValueFour);

    TestEnum t1, t2, t3, t4, t5 = ValueOne;
    bool b1 = StringToEnum(sName1.c_str(), t1);
    bool b2 = StringToEnum(sName2.c_str(), t2);
    bool b3 = StringToEnum(sName3.c_str(), t3);
    bool b4 = StringToEnum(sName4.c_str(), t4);
    bool b5 = StringToEnum("Unknown", t5);

    string sName2_1 = EnumToString(ValueOne2);
    string sName2_2 = EnumToString(ValueTwo2);
    string sName2_3 = EnumToString(ValueThree2);
    string sName2_4 = EnumToString(ValueFour2);

    TestEnum2 t2_1, t2_2, t2_3, t2_4, t2_5 = ValueOne2;
    bool b2_1 = StringToEnum(sName2_1.c_str(), t2_1);
    bool b2_2 = StringToEnum(sName2_2.c_str(), t2_2);
    bool b2_3 = StringToEnum(sName2_3.c_str(), t2_3);
    bool b2_4 = StringToEnum(sName2_4.c_str(), t2_4);
    bool b2_5 = StringToEnum("Unknown", t2_5);

Updated version of same header file will be kept here:

https://github.com/tapika/cppreflect/blob/master/cppreflect/enumreflect.h

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