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):

```
/* IMPLEMENTATION */
/* 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
{
private:
/* 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 {};
public:
/* 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;
/* SAMPLE USAGE */
#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;
}
```

Output:

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

`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 21:41compiletime. The`itoa`

function works during run-time. – Thomas Matthews Jul 15 '11 at 21:46