I'm trying to write a C program which, given a positive integer n (> 1) detect whether exists numbers x and r so that n = x^r

This is what I did so far:

```
while (c>=d) {
double y = pow(sum, 1.0/d);
if (floor(y) == y) {
out = y;
break;
}
d++;
}
```

In the program above, "c" is the maxium value for the exponent (r) and "d" will start by being equal to 2. Y is the value to be checked and the variable "out" is set to output that value later on. Basically, what the script does, is to check if the square roots of y exists: if not, he tries with the square cube and so on... When he finds it, he store the value of y in "out" so that: y = out^d

My question is, is there any more efficient way to find these values? I found some documentation online, but that's far more complicated than my high-school algebra. How can I implement this in a more efficient way?

Thanks!

`y`

:`floor(16.9999999999999999987643254532423) != 17`

– pmg May 28 '11 at 17:21`floor`

here is definitely wrong. – R.. May 28 '11 at 17:22