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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 smth. 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 what is the most beautiful way to do it. Is it possible at all?

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Take your pick: here, here, here. It's a mess, they're all semi-duplicates. –  rubenvb Feb 11 at 10:25
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13 Answers

up vote 6 down vote accepted

There really is no beautiful way of doing this. Just set up an array of strings indexed by the enum.

If you do a lot of output, you can define an operator<< that takes an enum parameter and does the lookup for you.

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1  
Also you can check at compile time that your array has the expected number of strings in it. –  markh44 Feb 23 '11 at 18:06
    
I know I'm in the vast minority with this, but for programmers like me who don't wish to rely on massive third-party libraries and/or marco-riddled code to resolve shortcomings native to the language, I find this to be the simplest and purest solution for today's standard by far. +1 –  Syndog Feb 13 at 14:31
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The naive solution, of course, is to write a function for each enumeration that performs the conversion to string:

enum OS_type { Linux, Apple, Windows };

inline const char* ToString(OS_type v)
{
    switch (v)
    {
        case Linux:   return "Linux";
        case Apple:   return "Apple";
        case Windows: return "Windows";
        default:      return "[Unknown OS_type]";
    }
}

This, however, is a maintenance disaster. With the help of the Boost.Preprocessor library, which can be used with both C and C++ code, you can easily take advantage of the preprocessor and let it generate this function for you. The generation macro is as follows:

#include <boost/preprocessor.hpp>

#define X_DEFINE_ENUM_WITH_STRING_CONVERSIONS_TOSTRING_CASE(r, data, elem)    \
    case elem : return BOOST_PP_STRINGIZE(elem);

#define DEFINE_ENUM_WITH_STRING_CONVERSIONS(name, enumerators)                \
    enum name {                                                               \
        BOOST_PP_SEQ_ENUM(enumerators)                                        \
    };                                                                        \
                                                                              \
    inline const char* ToString(name v)                                       \
    {                                                                         \
        switch (v)                                                            \
        {                                                                     \
            BOOST_PP_SEQ_FOR_EACH(                                            \
                X_DEFINE_ENUM_WITH_STRING_CONVERSIONS_TOSTRING_CASE,          \
                name,                                                         \
                enumerators                                                   \
            )                                                                 \
            default: return "[Unknown " BOOST_PP_STRINGIZE(name) "]";         \
        }                                                                     \
    }

The first macro (beginning with X_) is used internally by the second. The second macro first generates the enumeration, then generates a ToString function that takes an object of that type and returns the enumerator name as a string (this implementation, for obvious reasons, requires that the enumerators map to unique values).

In C++ you could implement the ToString function as an operator<< overload instead, but I think it's a bit cleaner to require an explicit "ToString" to convert the value to string form.

As a usage example, your OS_type enumeration would be defined as follows:

DEFINE_ENUM_WITH_STRING_CONVERSIONS(OS_type, (Linux)(Apple)(Windows))

While the macro looks at first like it is a lot of work, and the definition of OS_type looks rather foreign, remember that you have to write the macro once, then you can use it for every enumeration. You can add additional functionality to it (e.g., a string-form to enum conversion) without too much trouble, and it completely solves the maintenance problem, since you only have to provide the names once, when you invoke the macro.

The enumeration can then be used as if it were defined normally:

#include <iostream>

int main()
{
    OS_type t = Windows;
    std::cout << ToString(t) << " " << ToString(Apple) << std::endl;
}

The code snippets in this post, beginning with the #include <boost/preprocessor.hpp> line, can be compiled as posted to demonstrate the solution.

This particular solution is for C++ as it uses C++-specific syntax (e.g., no typedef enum) and function overloading, but it would be straightforward to make this work with C as well.

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2  
+1, The implementation machinery is scary but the end interface is hard to beat for elegance. –  deft_code Feb 23 '11 at 18:39
    
Is there a way to do any kind of string manipulation in BOOST_PP_STRINGIZE, like replace "_" with "."? –  User Sep 9 '11 at 1:04
    
@User: No; BOOST_PP_STRINGIZE simply turns a sequence of tokens into a string literal that contains those tokens. You could easily change the function to return a std::string though and transform the string yourself before you return it. –  James McNellis Sep 9 '11 at 2:22
1  
Sweet...! Saves me a ton of maintenance! –  Jörgen Sigvardsson Oct 13 '11 at 13:19
1  
@JamesMcNellis I'd definitely like an example of a code that accomplishes what Mark asked for, would you be so kind as to show us the way? :) –  Omer Raviv Dec 2 '12 at 13:49
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This is the pre processor block

#ifndef GENERATE_ENUM_STRINGS
    #define DECL_ENUM_ELEMENT( element ) element
    #define BEGIN_ENUM( ENUM_NAME ) typedef enum tag##ENUM_NAME
    #define END_ENUM( ENUM_NAME ) ENUM_NAME; \
            char* GetString##ENUM_NAME(enum tag##ENUM_NAME index);
#else
    #define DECL_ENUM_ELEMENT( element ) #element
    #define BEGIN_ENUM( ENUM_NAME ) char* gs_##ENUM_NAME [] =
    #define END_ENUM( ENUM_NAME ) ; char* GetString##ENUM_NAME(enum \
            tag##ENUM_NAME index){ return gs_##ENUM_NAME [index]; }
#endif

Enum definition

BEGIN_ENUM(Os_type)
{
    DECL_ENUM_ELEMENT(winblows),
    DECL_ENUM_ELEMENT(hackintosh),
}

Call using

GetStringOs_type(winblows);

Taken from here. How cool is that ? :)

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There is a much cleaner and easier to use solution using the preprocessor. Unfortunately, this question has been (incorrectly) closed, so I am unable to post it. –  James McNellis Feb 23 '11 at 16:37
    
@James McNellis the question has been reopened. –  Cubbi Feb 23 '11 at 17:20
    
@Cubbi: Thanks! I knew if I complained loudly enough about the closure, eventually it would get reopened :-) –  James McNellis Feb 23 '11 at 17:22
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Assuming that your enum is already defined, you can create an array of pairs:

std::pair<QTask::TASK, QString> pairs [] = {
std::pair<OS_type, string>(Linux, "Linux"),
std::pair<OS_type, string>(Windows, "Windows"),
std::pair<OS_type, string>(Apple, "Apple"),
};

Now, you can create a map:

std::map<OS_type, std::string> stdmap(pairs, pairs + sizeof(pairs) / sizeof(pairs[0]));

Now, you can use the map. If your enum is changed, you have to add/remove pair from array pairs[]. I thinkk that it is the most elegant way to obtain a string from enum in C++.

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Use std::map<OS_type, std::string> and populate it with enum as key, and string representation as values, then you can do these:

printf("My OS is %s", enumMap[myOS]);
std::cout << enumMap[myOS] ;
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The problem with C enums is that it's not a type of it's own, like it is in C++. An enum in C is a way to map identifiers to integral values. Just that. That's why an enum value is interchangeable with integer values.

As you guess correctly, a good way is to create a mapping between the enum value and a string. For example:

char * OS_type_label[] = {
    "Linux",
    "Apple",
    "Windows"
};
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I assumed - apparently incorrectly - the programming language is restricted to C. –  Andrew Feb 23 '11 at 16:19
    
you are a bit off, enum are types in C. Integral enumeration type constants are of type int and not of the enum type through which they are defined, is perhaps what you meant to say. But i don't see at all what this has to do with the question. –  Jens Gustedt Feb 23 '11 at 17:57
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Here is my C++ code:

/* 
 * File:   main.cpp
 * Author: y2k1234
 *
 * Created on June 14, 2013, 9:50 AM
 */

#include <cstdlib>
#include <stdio.h>

using namespace std;


#define MESSAGE_LIST(OPERATOR)                          \
                                       OPERATOR(MSG_A), \
                                       OPERATOR(MSG_B), \
                                       OPERATOR(MSG_C)
#define GET_LIST_VALUE_OPERATOR(msg)   ERROR_##msg##_VALUE
#define GET_LIST_SRTING_OPERATOR(msg)  "ERROR_"#msg"_NAME"

enum ErrorMessagesEnum
{
   MESSAGE_LIST(GET_LIST_VALUE_OPERATOR)
};
static const char* ErrorMessagesName[] = 
{
   MESSAGE_LIST(GET_LIST_SRTING_OPERATOR)
};

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

    int totalMessages = sizeof(ErrorMessagesName)/4;

    for (int i = 0; i < totalMessages; i++)
    {
        if (i == ERROR_MSG_A_VALUE)
        {
                printf ("ERROR_MSG_A_VALUE => [%d]=[%s]\n", i, ErrorMessagesName[i]);
        }
        else if (i == ERROR_MSG_B_VALUE)
        {
                printf ("ERROR_MSG_B_VALUE => [%d]=[%s]\n", i, ErrorMessagesName[i]);
        }
        else if (i == ERROR_MSG_C_VALUE)
        {
                printf ("ERROR_MSG_C_VALUE => [%d]=[%s]\n", i, ErrorMessagesName[i]);
        }
        else
        {
                printf ("??? => [%d]=[%s]\n", i, ErrorMessagesName[i]);
        }
    }   

    return 0;
}

Output:

ERROR_MSG_A_VALUE => [0]=[ERROR_MSG_A_NAME]

ERROR_MSG_B_VALUE => [1]=[ERROR_MSG_B_NAME]

ERROR_MSG_C_VALUE => [2]=[ERROR_MSG_C_NAME]

RUN SUCCESSFUL (total time: 126ms)
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For C99 there is P99_DECLARE_ENUM in P99 that lets you simply declare enum like this:

P99_DECLARE_ENUM(color, red, green, blue);

and then use color_getname(A) to obtain a string with the color name.

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Here's the Old Skool method (used to be used extensively in gcc) using just the C pre-processor. Useful if you're generating discrete data structures but need to keep the order consistent between them. The entries in mylist.tbl can of course be extended to something much more complex.

test.cpp:

enum {
#undef XX
#define XX(name, ignore) name ,
#include "mylist.tbl"
  LAST_ENUM
};

char * enum_names [] = {
#undef XX
#define XX(name, ignore) #name ,
#include "mylist.tbl"
   "LAST_ENUM"
};

And then mylist.tbl:

/*    A = enum                  */
/*    B = some associated value */
/*     A        B   */
  XX( enum_1 , 100)
  XX( enum_2 , 100 )
  XX( enum_3 , 200 )
  XX( enum_4 , 900 )
  XX( enum_5 , 500 )
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This technique is called x macros! –  Watusimoto Mar 19 at 10:44
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In c++ like this:

enum OS_type{Linux, Apple, Windows};

std::string ToString( const OS_type v )
{
  const std::map< OS_type, std::string > lut =
    boost::assign::map_list_of( Linux, "Linux" )(Apple, "Apple )( Windows,"Windows");
  std::map< OS_type, std::string >::const_iterator it = lut.find( v );
  if ( lut.end() != it )
    return it->second;
  return "NOT FOUND";
}
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Did you try this:

#define stringify( name ) # name

enum enMyErrorValue
  {
  ERROR_INVALIDINPUT = 0,
  ERROR_NULLINPUT,
  ERROR_INPUTTOOMUCH,
  ERROR_IAMBUSY
  };

const char* enMyErrorValueNames[] = 
  {
  stringify( ERROR_INVALIDINPUT ),
  stringify( ERROR_NULLINPUT ),
  stringify( ERROR_INPUTTOOMUCH ),
  stringify( ERROR_IAMBUSY )
  };

void vPrintError( enMyErrorValue enError )
  {
  cout << enMyErrorValueNames[ enError ] << endl;
  }

int main()
  {
  vPrintError((enMyErrorValue)1);
  }

The stringify() macro can be used to turn any text in your code into a string, but only the exact text between the parentheses. There are no variable dereferencing or macro substitutions or any other sort of thing done.

http://www.cplusplus.com/forum/general/2949/

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A little late to the party, but here's my C++11 solution:

namespace std {
    template<> struct hash<enum_one> {
        std::size_t operator()(const enum_one & e) const {
            return static_cast<std::size_t>(e);
        }
    };
    template<> struct hash<enum_two> { //repeat for each enum type
        std::size_t operator()(const enum_two & e) const {
            return static_cast<std::size_t>(e);
        }
    };
}

const std::string & enum_name(const enum_one & e) {
    static const std::unordered_map<enum_one, const std::string> names = {
    #define v_name(n) {enum_one::n, std::string(#n)}
        v_name(value1),
        v_name(value2),
        v_name(value3)
    #undef v_name
    };
    return names.at(e);
}

const std::string & enum_name(const enum_two & e) { //repeat for each enum type
    .................
}
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#include <EnumString.h>

from http://www.codeproject.com/Articles/42035/Enum-to-String-and-Vice-Versa-in-C and after

enum FORM {
    F_NONE = 0,
    F_BOX,
    F_CUBE,
    F_SPHERE,
};

insert

Begin_Enum_String( FORM )
{
    Enum_String( F_NONE );
    Enum_String( F_BOX );
    Enum_String( F_CUBE );
    Enum_String( F_SPHERE );
}
End_Enum_String;

Works fine if values in the enum are not duplicate.

Sample code for converting an enum value to string:

enum FORM f = ...
const std::string& str = EnumString< FORM >::From( f );

Sample code for just the opposite:

assert( EnumString< FORM >::To( f, str ) );
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