I need to convert a floating-point number with system precision to one with a specified precision (e.g. 3 decimal places) for the printed output. The fprintf function will not suffice for this as it will not correctly round some numbers. All the other solutions I've tried fail in that they all reintroduce undesired precision when I convert back to a float. For example:

```
float xf_round1_f(float input, int prec) {
printf("%f\t",input);
int trunc = round(input * pow(10, prec));
printf("%f\t",(float)trunc);
input=(float)trunc / pow(10, prec);
printf("%f\n",input);
return (input);
}
```

This function prints the input, the truncated integer and the output to each line, and the result looks like this for some numbers supposed to be truncated to 3 decimal places:

49.975002 49975.000000 49.974998

49.980000 49980.000000 49.980000

49.985001 49985.000000 49.985001

49.990002 49990.000000 49.990002

49.995003 49995.000000 49.994999

50.000000 50000.000000 50.000000

You can see that the second step works as intended - even when "trunc" is cast to float for printing - but as soon as I convert it back to a float the precision returns. The 1st and 6th rows illustrate problem cases.

Surely there must be a way of resolving this - even if the 1st row result remained 49.975002 a formatted print would give the desired effect, but in this case there is a real problem.

Any solutions?