Using recursion (which is going to be slow for some values of digits)

```
#include <math.h>
double my_round(double x, unsigned int digits) {
if (digits > 0) {
return my_round(x*10.0, digits-1)/10.0;
}
else {
return round(x);
}
}
```

A method likely to be somewhat faster, but which relies on a single call to the slow `pow`

function:

```
#include <math.h>
double my_round(double x, unsigned int digits) {
double fac = pow(10, digits);
return round(x*fac)/fac;
}
```

An even faster method is to precompute a lookup table with the likely powers and use that instead of `pow`

.

```
#include <math.h>
double fac[]; // population of this is left as an exercise for the reader
double my_round(double x, unsigned int digits) {
return round(x*fac[digits])/fac[digits];
}
```

`sprintf`

. – melpomene Dec 22 '12 at 14:04Voting to re-open. The cited "duplicate" is a special case, requiring rounding to only 2 decimal places. This question asks the more general case of rounding to an arbitrary number of decimal places. – andand Dec 23 '12 at 2:35