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I have a bunch of enum types in some library header files that I'm using, and I want to have a way of converting enum values to user strings - and vice-versa.

RTTI won't do it for me, because the 'user strings' need to be a bit more readable than the enumerations.

A brute force solution would be a bunch of functions like this, but I feel that's a bit too C-like.

enum MyEnum {VAL1, VAL2,VAL3};

String getStringFromEnum(MyEnum e)
{
  switch e
  {
  case VAL1: return "Value 1";
  case VAL2: return "Value 2";
  case VAL1: return "Value 3";
  default: throw Exception("Bad MyEnum");
  }
}

I have a gut feeling that there's an elegant solution using templates, but I can't quite get my head round it yet.

UPDATE: Thanks for suggestions - I should have made clear that the enums are defined in a third-party library header, so I don't want to have to change the definition of them.

My gut feeling now is to avoid templates and do something like this:

char * MyGetValue(int v, char *tmp); // implementation is trivial

#define ENUM_MAP(type, strings) char * getStringValue(const type &T) \
 { \
 return MyGetValue((int)T, strings); \
 }

; enum eee {AA,BB,CC}; - exists in library header file 
; enum fff {DD,GG,HH}; 

ENUM_MAP(eee,"AA|BB|CC")
ENUM_MAP(fff,"DD|GG|HH")

// To use...

	eee e;
	fff f;
	std::cout<< getStringValue(e);
	std::cout<< getStringValue(f);
share|improve this question

16 Answers 16

If you want the enum names themselves as strings, see this post. Otherwise, a std::map<MyEnum, char const*> will work nicely. (No point in copying your string literals to std::strings in the map)

For extra syntactic sugar, here's how to write a map_init class. The goal is to allow

std::map<MyEnum, const char*> MyMap;
map_init(MyMap)
    (eValue1, "A")
    (eValue2, "B")
    (eValue3, "C")
;

The function template <typename T> map_init(T&) returns a map_init_helper<T>. map_init_helper<T> stores a T&, and defines the trivial map_init_helper& operator()(typename T::key_type const&, typename T::value_type const&). (Returning *this from operator() allows the chaining of operator(), like operator<< on std::ostreams)

template<typename T> struct map_init_helper
{
    T& data;
    map_init_helper(T& d) : data(d) {}
    map_init_helper& operator() (typename T::key_type const& key, typename T::mapped_type const& value)
    {
        data[key] = value;
        return *this;
    }
};

template<typename T> map_init_helper<T> map_init(T& item)
{
    return map_init_helper<T>(item);
}

Since the function and helper class are templated, you can use them for any map, or map-like structure. I.e. it can also add entries to std::unordered_map

If you don't like writing these helpers, boost::assign offers the same functionality out of the box.

share|improve this answer
    
You are right to refer to another question. People should take a look in the "related questions" before posting... –  xtofl Oct 16 '08 at 11:31
    
@xtofl : The "related questions" shown here are totally different to the related questions listed when I posted the question! –  Roddy Oct 16 '08 at 12:15
    
@MSalters, a std::map is a useful way of handling the implementation, but I'm looking for some ways of reducing boilerplate code that could require. –  Roddy Oct 16 '08 at 12:17
    
@MSalters, it would be nice to be able to accept multiple arguments for operator[]. but sadly, one cannot do that. x[a, b] evaluate to x[b] . the (a, b) expression makes use of the comma operator. so it is equivalent to ["A"]["B"]["C"] in your code. you could change it to say [eValue1]["A"][eValu.. –  Johannes Schaub - litb Mar 5 '09 at 2:05
    
the function call operator would be a good candidate too: map_init(MyMap)(eValue1, "A")(eValue2, "B").... then it is equivalent to boost::assign : insert(MyMap)(eValue1, "A")(eValue2, "B")... (boost.org/doc/libs/1_35_0/libs/assign/doc/index.html) –  Johannes Schaub - litb Mar 5 '09 at 2:13

MSalters solution is a good one but basically re-implements boost::assign::map_list_of. If you have boost, you can use it directly:

#include <boost/assign/list_of.hpp>
#include <boost/unordered_map.hpp>
#include <iostream>

using boost::assign::map_list_of;

enum eee { AA,BB,CC };

const boost::unordered_map<eee,const char*> eeeToString = map_list_of
    (AA, "AA")
    (BB, "BB")
    (CC, "CC");

int main()
{
    std::cout << " enum AA = " << eeeToString.at(AA) << std::endl;
    return 0;
}
share|improve this answer
    
How would you use this where eeeToString is a data member of a class? I'm getting "Error: data member initialization is not allowed" –  User Sep 8 '11 at 17:21
    
@User: Class data members are initialized in constructors, usually in the initializer list. –  MSalters May 23 '12 at 12:58

Auto-generate one form from another.

Source:

enum {
  VALUE1, /* value 1 */
  VALUE2, /* value 2 */
};

Generated:

const char* enum2str[] = {
  "value 1", /* VALUE1 */
  "value 2", /* VALUE2 */
};

If enum values are large then a generated form could use unordered_map<> or templates as suggested by Constantin.

Source:

enum State{
  state0 = 0, /* state 0 */
  state1 = 1, /* state 1 */
  state2 = 2, /* state 2 */
  state3 = 4, /* state 3 */

  state16 = 0x10000, /* state 16 */
};

Generated:

template <State n> struct enum2str { static const char * const value; };
template <State n> const char * const enum2str<n>::value = "error";

template <> struct enum2str<state0> { static const char * const value; };
const char * const enum2str<state0>::value = "state 0";

Example:

#include <iostream>

int main()
{
  std::cout << enum2str<state16>::value << std::endl;
  return 0;
}
share|improve this answer
    
While fastest, it isn't as easy as @MSalters. –  kenny Dec 4 '08 at 11:42
2  
It is if you have a bit of perl/python to read a list of strings from a text file and generate a .h file with the static char at compile time. ="Write programs to write programs" –  Martin Beckett Mar 5 '09 at 15:39
    
@mgb: perl/python are not the only options almost any template engine in any language will do (in this case one is generating both forms from a template). –  J.F. Sebastian Mar 5 '09 at 16:23
    
@jf. Yes, the important point was to build static data tables at compile time automatically. I would probably prefer just generating a dumb static array. –  Martin Beckett Mar 5 '09 at 16:46
    
+1 for template solution –  Vanuan Mar 29 '12 at 8:12

I suggest a mix of using X-macros are the best solution and the following template functions:

To borrow off marcinkoziukmyopenidcom and extended

enum Colours {
#   define X(a) a,
#   include "colours.def"
#   undef X
    ColoursCount
};

char const* const colours_str[] = {
#   define X(a) #a,
#   include "colours.def"
#   undef X
    0
};

template <class T> T str2enum( const char* );
template <class T> const char* enum2str( T );

#define STR2ENUM(TYPE,ARRAY) \
template <> \
TYPE str2enum<TYPE>( const char* str ) \
    { \
    for( int i = 0; i < (sizeof(ARRAY)/sizeof(ARRAY[0])); i++ ) \
    	if( !strcmp( ARRAY[i], str ) ) \
    		return TYPE(i); \
    return TYPE(0); \
    }

#define ENUM2STR(TYPE,ARRAY) \
template <> \
const char* enum2str<TYPE>( TYPE v ) \
    { \
    return ARRAY[v]; \
    }

#define ENUMANDSTR(TYPE,ARRAY)\
    STR2ENUM(TYPE,ARRAY) \
    ENUM2STR(TYPE,ARRAY)

ENUMANDSTR(Colours,colours_str)

colour.def

X(Red)
X(Green)
X(Blue)
X(Cyan)
X(Yellow)
X(Magenta)
share|improve this answer

I remember having answered this elsewhere on StackOverflow. Repeating it here. Basically it's a solution based on variadic macros, and is pretty easy to use:

#define AWESOME_MAKE_ENUM(name, ...) enum class name { __VA_ARGS__, __COUNT}; \
inline std::ostream& operator<<(std::ostream& os, name value) { \
std::string enumName = #name; \
std::string str = #__VA_ARGS__; \
int len = str.length(); \
std::vector<std::string> strings; \
std::ostringstream temp; \
for(int i = 0; i < len; i ++) { \
if(isspace(str[i])) continue; \
        else if(str[i] == ',') { \
        strings.push_back(temp.str()); \
        temp.str(std::string());\
        } \
        else temp<< str[i]; \
} \
strings.push_back(temp.str()); \
os << enumName << "::" << strings[static_cast<int>(value)]; \
return os;} 

To use it in your code, simply do:

AWESOME_MAKE_ENUM(Animal,
    DOG,
    CAT,
    HORSE
);
auto dog = Animal::DOG;
std::cout<<dog;
share|improve this answer
    
this would only work with c++ 11 –  jamk May 6 at 9:24
    
Just change the enum class declaration to enum to work on pre c++11. –  Debdatta Basu May 6 at 11:41
    
You are right it works (the auto is also only c++11). Nice solution ! It would be perfect if you could also set a value for some enums –  jamk May 7 at 7:26

If you want to get string representations of MyEnum variables, then templates won't cut it. Template can be specialized on integral values known at compile-time.

However, if that's what you want then try:

#include <iostream>

enum MyEnum { VAL1, VAL2 };

template<MyEnum n> struct StrMyEnum {
    static char const* name() { return "Unknown"; }
};

#define STRENUM(val, str) \
  template<> struct StrMyEnum<val> { \
    static char const* name() { return str; }};

STRENUM(VAL1, "Value 1");
STRENUM(VAL2, "Value 2");

int main() {
  std::cout << StrMyEnum<VAL2>::name();
}

This is verbose, but will catch errors like the one you made in question - your case VAL1 is duplicated.

share|improve this answer
    
Actually the method name() is not necessary. See my answer. –  J.F. Sebastian Oct 16 '08 at 10:38

I've required this functionality several times for debugging/analyzing code from others. For this, I've written a Perl script which generates a class with several overloaded toString methods. Each toString method takes an Enum as an argument and returns const char*.

Of course, the script doesn't parse C++ for enums itself, but uses ctags for generating symbol table.

The Perl script is here: http://heinitz-it.de/download/enum2string/enum2string.pl.html

share|improve this answer

Your answers inspired me to write some macros myself. My requirements were the following:

  1. only write each value of the enum once, so there are no double lists to maintain

  2. don't keep the enum values in a separate file that is later #included, so I can write it wherever I want

  3. don't replace the enum itself, I still want to have the enum type defined, but in addition to it I want to be able to map every enum name to the corresponding string (to not affect legacy code)

  4. the searching should be fast, so preferably no switch-case, for those huge enums

This code creates a classic enum with some values. In addition it creates as std::map which maps each enum value to it's name (i.e. map[E_SUNDAY] = "E_SUNDAY", etc.)

Ok, here is the code now:

EnumUtilsImpl.h:

map<int, string> & operator , (map<int, string> & dest, 
                               const pair<int, string> & keyValue) {
    dest[keyValue.first] = keyValue.second; 
    return dest;
}

#define ADD_TO_MAP(name, value) pair<int, string>(name, #name)

EnumUtils.h // this is the file you want to include whenever you need to do this stuff, you will use the macros from it:

#include "EnumUtilsImpl.h"
#define ADD_TO_ENUM(name, value) \
    name value

#define MAKE_ENUM_MAP_GLOBAL(values, mapName) \
    int __makeMap##mapName() {mapName, values(ADD_TO_MAP); return 0;}  \
    int __makeMapTmp##mapName = __makeMap##mapName();

#define MAKE_ENUM_MAP(values, mapName) \
    mapName, values(ADD_TO_MAP);

MyProjectCodeFile.h // this is an example of how to use it to create a custom enum:

#include "EnumUtils.h*

#define MyEnumValues(ADD) \
    ADD(val1, ), \
    ADD(val2, ), \
    ADD(val3, = 100), \
    ADD(val4, )

enum MyEnum {
    MyEnumValues(ADD_TO_ENUM)
};

map<int, string> MyEnumStrings;
// this is how you initialize it outside any function
MAKE_ENUM_MAP_GLOBAL(MyEnumValues, MyEnumStrings); 

void MyInitializationMethod()
{ 
    // or you can initialize it inside one of your functions/methods
    MAKE_ENUM_MAP(MyEnumValues, MyEnumStrings); 
}

Cheers.

share|improve this answer
    
didn t test it but it looks good –  jamk Feb 27 at 9:43

I just wanted to show this possible elegant solution using macros. This doesn t solve the problem but I think it is a good way to rethik about the problem.

#define MY_LIST(X) X(value1), X(value2), X(value3)

enum eMyEnum
    {
    MY_LIST(PLAIN)
    };

const char *szMyEnum[] =
    {
    MY_LIST(STRINGY)
    };


int main(int argc, char *argv[])
{

std::cout << szMyEnum[value1] << value1 <<" " <<  szMyEnum[value2] << value2 << std::endl;

return 0;
}

---- EDIT ----

After some internet research and some own experements I came to the following solution:

//this is the enum definition
#define COLOR_LIST(X) \
  X( RED    ,=21)      \
  X( GREEN  )      \
  X( BLUE   )      \
  X( PURPLE , =242)      \
  X( ORANGE )      \
  X( YELLOW )

//these are the macros
#define enumfunc(enums,value) enums,
#define enumfunc2(enums,value) enums value,
#define ENUM2SWITCHCASE(enums) case(enums): return #enums;

#define AUTOENUM(enumname,listname) enum enumname{listname(enumfunc2)};
#define ENUM2STRTABLE(funname,listname) char* funname(int val) {switch(val) {listname(ENUM2SWITCHCASE) default: return "undef";}}
#define ENUM2STRUCTINFO(spacename,listname) namespace spacename { int values[] = {listname(enumfunc)};int N = sizeof(values)/sizeof(int);ENUM2STRTABLE(enum2str,listname)};

//here the enum and the string enum map table are generated
AUTOENUM(testenum,COLOR_LIST)
ENUM2STRTABLE(testfunenum,COLOR_LIST)
ENUM2STRUCTINFO(colorinfo,COLOR_LIST)//colorinfo structur {int values[]; int N; char * enum2str(int);}

//debug macros
#define str(a) #a
#define xstr(a) str(a)


int main( int argc, char** argv )
{
testenum x = YELLOW;
std::cout << testfunenum(GREEN) << "   " << testfunenum(PURPLE) << PURPLE << "  " << testfunenum(x);

for (int i=0;i< colorinfo::N;i++)
std::cout << std::endl << colorinfo::values[i] <<  "  "<< colorinfo::enum2str(colorinfo::values[i]);

  return EXIT_SUCCESS;
}

I just wanted to post it maybe someone could find this solution useful. There is no need of templates classes no need of c++11 and no need of boost so this could also be used for simple C.

---- EDIT2 ----

the information table can produce some problems when using more than 2 enums (compiler problem). The following workaround worked:

#define ENUM2STRUCTINFO(spacename,listname) namespace spacename { int spacename##_##values[] = {listname(enumfunc)};int spacename##_##N = sizeof(spacename##_##values)/sizeof(int);ENUM2STRTABLE(spacename##_##enum2str,listname)};
share|improve this answer

in the header:

enum EFooOptions
 {
FooOptionsA = 0, EFooOptionsMin = 0,
FooOptionsB,
FooOptionsC,
FooOptionsD 
EFooOptionsMax
};
extern const wchar* FOO_OPTIONS[EFooOptionsMax];

in the .cpp file:

const wchar* FOO_OPTIONS[] = {
    L"One",
    L"Two",
    L"Three",
    L"Four"
};

Caveat: Don't handle bad array index. :) But you can easily add a function to verify the enum before getting the string from the array.

share|improve this answer
    
Indeed a very non-DRY-SPOT solution. –  xtofl Oct 16 '08 at 11:28
    
now that you mention DRY. the .h and .cpp file automatomagically generated from some other input file. I'd love to see better solutions (that don't resort to unnecessary complexity) –  moogs Oct 16 '08 at 11:35

I'd be tempted to have a map m - and embedd this into the enum.

setup with m[MyEnum.VAL1] = "Value 1";

and all is done.

share|improve this answer

I recently had the same issue with a vendor library (Fincad). Fortunately, the vendor provided xml doucumentation for all the enums. I ended up generating a map for each enum type and providing a lookup function for each enum. This technique also allows you to intercept a lookup outside the range of the enum.

I'm sure swig could do something similar for you, but I'm happy to provide the code generation utils which are written in ruby.

Here is a sample of the code:

std::map<std::string, switches::FCSW2::type> init_FCSW2_map() {
        std::map<std::string, switches::FCSW2::type> ans;
        ans["Act365Fixed"] = FCSW2::Act365Fixed;
        ans["actual/365 (fixed)"] = FCSW2::Act365Fixed;
        ans["Act360"] = FCSW2::Act360;
        ans["actual/360"] = FCSW2::Act360;
        ans["Act365Act"] = FCSW2::Act365Act;
        ans["actual/365 (actual)"] = FCSW2::Act365Act;
        ans["ISDA30360"] = FCSW2::ISDA30360;
        ans["30/360 (ISDA)"] = FCSW2::ISDA30360;
        ans["ISMA30E360"] = FCSW2::ISMA30E360;
        ans["30E/360 (30/360 ISMA)"] = FCSW2::ISMA30E360;
        return ans;
}
switches::FCSW2::type FCSW2_lookup(const char* fincad_switch) {
        static std::map<std::string, switches::FCSW2::type> switch_map = init_FCSW2_map();
        std::map<std::string, switches::FCSW2::type>::iterator it = switch_map.find(fincad_switch);
        if(it != switch_map.end()) {
                return it->second;
        } else {
                throw FCSwitchLookupError("Bad Match: FCSW2");
        }
}

Seems like you want to go the other way (enum to string, rather than string to enum), but this should be trivial to reverse.

-Whit

share|improve this answer
1  
a) Does anyone else find this absolutely unreadable? A few typedefs and using declarations would vastly improve readability. b) local static declarations are not threadsafe. c) use const string& instead of char*, d) what about including the value that couldn't be found in the exception thrown? –  Alastair Dec 4 '08 at 11:28

See if the following syntax suits you:

// WeekEnd enumeration
enum WeekEnd
{
    Sunday = 1,
    Saturday = 7
};

// String support for WeekEnd
Begin_Enum_String( WeekEnd )
{
    Enum_String( Sunday );
    Enum_String( Saturday );
}
End_Enum_String;

// Convert from WeekEnd to string
const std::string &str = EnumString<WeekEnd>::From( Saturday );
// str should now be "Saturday"

// Convert from string to WeekEnd
WeekEnd w;
EnumString<WeekEnd>::To( w, "Sunday" );
// w should now be Sunday

If it does, then you might want to check out this article:
http://www.gamedev.net/reference/snippets/features/cppstringizing/

share|improve this answer
#define stringify( name ) # name

enum MyEnum {
    ENUMVAL1
};
...stuff...

stringify(EnumName::ENUMVAL1);  // Returns MyEnum::ENUMVAL1

Further discussion on this method

Preprocessor directive tricks for newcomers

share|improve this answer
1  
Well of course, but that's totally pointless. I might as well write "EnumName::ENUMVAL1" as a literal string. And MyEnum foo(ENUMVAL1); stringify(foo); is going to give nothing but disappointment... –  Roddy Nov 2 '12 at 12:58

Here is an attempt to get << and >> stream operators on enum automatically with an one line macro command only...

Definitions:

#include <string>
#include <iostream>
#include <stdexcept>
#include <algorithm>
#include <iterator>
#include <sstream>
#include <vector>

#define MAKE_STRING(str, ...) #str, MAKE_STRING1_(__VA_ARGS__)
#define MAKE_STRING1_(str, ...) #str, MAKE_STRING2_(__VA_ARGS__)
#define MAKE_STRING2_(str, ...) #str, MAKE_STRING3_(__VA_ARGS__)
#define MAKE_STRING3_(str, ...) #str, MAKE_STRING4_(__VA_ARGS__)
#define MAKE_STRING4_(str, ...) #str, MAKE_STRING5_(__VA_ARGS__)
#define MAKE_STRING5_(str, ...) #str, MAKE_STRING6_(__VA_ARGS__)
#define MAKE_STRING6_(str, ...) #str, MAKE_STRING7_(__VA_ARGS__)
#define MAKE_STRING7_(str, ...) #str, MAKE_STRING8_(__VA_ARGS__)
#define MAKE_STRING8_(str, ...) #str, MAKE_STRING9_(__VA_ARGS__)
#define MAKE_STRING9_(str, ...) #str, MAKE_STRING10_(__VA_ARGS__)
#define MAKE_STRING10_(str) #str

#define MAKE_ENUM(name, ...) MAKE_ENUM_(, name, __VA_ARGS__)
#define MAKE_CLASS_ENUM(name, ...) MAKE_ENUM_(friend, name, __VA_ARGS__)

#define MAKE_ENUM_(attribute, name, ...) name { __VA_ARGS__ }; \
    attribute std::istream& operator>>(std::istream& is, name& e) { \
        const char* name##Str[] = { MAKE_STRING(__VA_ARGS__) }; \
        std::string str; \
        std::istream& r = is >> str; \
        const size_t len = sizeof(name##Str)/sizeof(name##Str[0]); \
        const std::vector<std::string> enumStr(name##Str, name##Str + len); \
        const std::vector<std::string>::const_iterator it = std::find(enumStr.begin(), enumStr.end(), str); \
        if (it != enumStr.end())\
            e = name(it - enumStr.begin()); \
        else \
            throw std::runtime_error("Value \"" + str + "\" is not part of enum "#name); \
        return r; \
    }; \
    attribute std::ostream& operator<<(std::ostream& os, const name& e) { \
        const char* name##Str[] = { MAKE_STRING(__VA_ARGS__) }; \
        return (os << name##Str[e]); \
    }

Usage:

// Declare global enum
enum MAKE_ENUM(Test3, Item13, Item23, Item33, Itdsdgem43);

class Essai {
public:
    // Declare enum inside class
    enum MAKE_CLASS_ENUM(Test, Item1, Item2, Item3, Itdsdgem4);

};

int main() {
    std::cout << Essai::Item1 << std::endl;

    Essai::Test ddd = Essai::Item1;
    std::cout << ddd << std::endl;

    std::istringstream strm("Item2");
    strm >> ddd;

    std::cout << (int) ddd << std::endl;
    std::cout << ddd << std::endl;
}

Not sure about the limitations of this scheme though... comments are welcome!

share|improve this answer
typedef enum {
    ERR_CODE_OK = 0,
    ERR_CODE_SNAP,

    ERR_CODE_NUM
} ERR_CODE;

const char* g_err_msg[ERR_CODE_NUM] = {
    /* ERR_CODE_OK   */ "OK",
    /* ERR_CODE_SNAP */ "Oh, snap!",
};

Above is my simple solution. One benefit of it is the 'NUM' which controls the size of the message array, it also prevents out of boundary access (if you use it wisely).

You can also define a function to get the string:

const char* get_err_msg(ERR_CODE code) {
    return g_err_msg[code];
}

Further to my solution, I then found the following one quite interesting. It generally solved the sync problem of the above one.

Slides here: http://www.slideshare.net/arunksaha/touchless-enum-tostring-28684724

Code here: https://github.com/arunksaha/enum_to_string

share|improve this answer

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