The problem (which skjaidev's answer doesn't solve) is that `247.32`

cannot be represented exactly in binary floating-point. The actual stored value is likely to be:

```
247.31999999999999317878973670303821563720703125
```

So you can't just discard the integer part, multiply by 100, and convert to `int`

, because the conversion *truncates*.

The `round()`

function, declared in `<math.h>`

, rounds a `double`

value to the nearest integer -- though the result is still of type `double`

.

```
double a = 247.32;
a -= trunc(a); /* a == 0.32 -- approximately */
a *= 100.0; /* a == 32.0 -- approximately */
a = round(a); /* a == 32.0 -- exactly */
printf ("%d\n", (int)a);
```

Or, putting the computation into a single line:

```
double a = 247.32;
printf("%d\n", (int)round(100.0 * (a - trunc(a))));
```

Actually, this is probably a cleaner way to do it:

```
double a = 247.32;
printf("%d\n", (int)round(100.0 * fmod(a, 1.0)));
```

`.`

then substring 2 character after it. I don't know C syntax well enough to actually write you an answer for this however. :) – Taz Feb 20 '13 at 0:55