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I want to do something like this:

template<int N>
char* foo() {
  // return a compile-time string containing N, equivalent to doing
  // ostringstream ostr; 
  // ostr << N;
  // return ostr.str().c_str();

It seems like the boost MPL library might allow this but I couldn't really figure out how to use it to accomplish this. Is this possible?

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Does it need to be a function like that? You can do it more easily with a pre-processor macro (you'd only lose type-safety). – vanza Jul 15 '11 at 21:39
itoa() function will do the trick. cplusplus.com/reference/clibrary/cstdlib/itoa – Ram Jul 15 '11 at 21:39
Define a compile time string... std::string is a run-time one. You can do semi-runtime magic, but not pure compile-time. Preprocessor is your best best. – user405725 Jul 15 '11 at 21:41
@Ram: The OP wants the conversion during compile time. The itoa function works during run-time. – Thomas Matthews Jul 15 '11 at 21:46
@Thomas Matthews :) Signs I should sleep. Excuse my clumsiness. – Ram Jul 15 '11 at 21:48
up vote 17 down vote accepted

First of all, if usually you know the number at run time, you can as easily build the same string. That is, if you have 12 in your program, you can have also "12".

Preprocessor macros can add also quotes to arguments, so you can write:


This, whenever you write STRINGIFICATOR(2), it will produce "2".

However, it actually can be done without macros (using compile-time metaprogramming). It is not straightforward, so I cannot give the exact code, but I can give you ideas on how to do it:

  1. Write a recursive template using the number to be converted. The template will recurse till the base case, that is, the number is less than 10.
  2. In each iteration, you can have the N%10 digit to be converted into a character as T.E.D. suggests, and using mpl::string to build the compile-time string that appends that character.
  3. You'll end up building a mpl::string, that has a static value() string.

I took the time to implement it as a personal exercise. Not bad at the end:

#include <iostream>
#include <boost/mpl/string.hpp>

using namespace boost;

// Recursive case
template <bool b, unsigned N>
struct int_to_string2
        typedef typename mpl::push_back<
                typename int_to_string2< N < 10, N/10>::type
                                         , mpl::char_<'0' + N%10>
                                         >::type type;

// Base case
template <>
struct int_to_string2<true,0>
        typedef mpl::string<> type;

template <unsigned N>
struct int_to_string
        typedef typename mpl::c_str<typename int_to_string2< N < 10 , N>::type>::type type;

main (void)
        std::cout << int_to_string<1099>::type::value << std::endl;
        return 0;
share|improve this answer
Most Impressive! – Nathan Monteleone Jul 15 '11 at 22:16
Yeah, I was hoping that mpl has this code already written :) – Andrey Jul 15 '11 at 22:22
cool, I was just working on this but didn't know how to concatenate the chars :) – Karoly Horvath Jul 15 '11 at 22:22
@yi_H: mpl provides the type push_front<string_type,char>::type to define a compile-time string that has char prepended to an existing string. – Diego Sevilla Jul 15 '11 at 22:32
OK, updated the answer with the code. – Diego Sevilla Jul 16 '11 at 20:03

Maybe i missed something, but this should be as simple as:

 #define NUM(x) #x

Unfortunately this won't work with non-type template parameters.

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This doesn't work for arbitrary compile time integers, though. NUM(1+1) gives "1+1". – hammar Jul 15 '11 at 22:08
To allow other macros to be used as parameters, I recommend extra indirection: #define _NUM(x) #x followed by #define NUM(x) _NUM(x). – vanza Jul 15 '11 at 22:09
@hammar enums and known constant compile-time values don't work either. eg NUM(foo); where enum { foo = 42 };. The macro will produce "foo" instead of "42". – greatwolf Jun 26 '13 at 2:45

One trick I've seen done in situations where you know for a fact you will never have a number outside the range 0..9 is the following:

return '0' + N;

At first blush this is annoyingly limited. However, I'm surprised how many times this condition holds.

Oh, and I'm aware this returns a char rather than a std::string. This is a feature. string isn't a built in language type, so there's no way to create one at compile time.

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Yeah in this case the integer could be anything. – Andrey Jul 15 '11 at 21:55
This fails the requirement of returning a char * – M.M Jul 4 '14 at 5:07

I know this question is a few years old now, but I wanted a solution using pure C++11, with no boost dependency. So here is some code (with ideas borrowed from this answer to a different question):


/* calculate absolute value */
constexpr int abs_val (int x)
    { return x < 0 ? -x : x; }

/* calculate number of digits needed, including minus sign */
constexpr int num_digits (int x)
    { return x < 0 ? 1 + num_digits (-x) : x < 10 ? 1 : 1 + num_digits (x / 10); }

/* metaprogramming string type: each different string is a unique type */
template<char... args>
struct metastring {
    const char data[sizeof... (args)] = {args...};

/* recursive number-printing template, general case (for three or more digits) */
template<int size, int x, char... args>
struct numeric_builder {
    typedef typename numeric_builder<size - 1, x / 10, '0' + abs_val (x) % 10, args...>::type type;

/* special case for two digits; minus sign is handled here */
template<int x, char... args>
struct numeric_builder<2, x, args...> {
    typedef metastring<x < 0 ? '-' : '0' + x / 10, '0' + abs_val (x) % 10, args...> type;

/* special case for one digit (positive numbers only) */
template<int x, char... args>
struct numeric_builder<1, x, args...> {
    typedef metastring<'0' + x, args...> type;

/* convenience wrapper for numeric_builder */
template<int x>
class numeric_string
    /* generate a unique string type representing this number */
    typedef typename numeric_builder<num_digits (x), x, '\0'>::type type;

    /* declare a static string of that type (instantiated later at file scope) */
    static constexpr type value {};

    /* returns a pointer to the instantiated string */
    static constexpr const char * get ()
        { return value.data; }

/* instantiate numeric_string::value as needed for different numbers */
template<int x>
constexpr typename numeric_string<x>::type numeric_string<x>::value;


#include <stdio.h>

/* exponentiate a number, just for fun */
static constexpr int exponent (int x, int e)
    { return e ? x * exponent (x, e - 1) : 1; }

/* test a few sample numbers */
static constexpr const char * five = numeric_string<5>::get ();
static constexpr const char * one_ten = numeric_string<110>::get ();
static constexpr const char * minus_thirty = numeric_string<-30>::get ();

/* works for any constant integer, including constexpr calculations */
static constexpr const char * eight_cubed = numeric_string<exponent (8, 3)>::get ();

int main (void)
    printf ("five = %s\n", five);
    printf ("one ten = %s\n", one_ten);
    printf ("minus thirty = %s\n", minus_thirty);
    printf ("eight cubed = %s\n", eight_cubed);

    return 0;


five = 5
one ten = 110
minus thirty = -30
eight cubed = 512
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