Here is another way to do it. This approach does not require creating a second copy of the array, since `Arrays.asList`

merely produces an array-backed *view* of the given array. Another potential advantage is the fact that the signs of the minimum and maximum are preserved. In the example below, the minimum is displayed as 1.333 and the maximum as -9.43.

It is more complex than Stefan's solution, but depending on the situation, it might be right for you.

```
Float numbers[] = {-9.43f, 2.3f, -8.2f, 1.333f};
// Calculate the minimum
Float min = Collections.min(Arrays.asList(numbers),
new Comparator<Float>() {
public int compare(Float o1, Float o2) {
Float result = Math.abs(o1) - Math.abs(o2);
return result > 0 ? 1 : result < 0 ? -1 : 0;
}
}
);
// Calculate the maximum
Float max = Collections.min(Arrays.asList(numbers),
new Comparator<Float>() {
public int compare(Float o1, Float o2) {
Float result = Math.abs(o2) - Math.abs(o1);
return result > 0 ? 1 : result < 0 ? -1 : 0;
}
}
);
System.out.println("Min = " + min);
System.out.println("Max = " + max);
```

Output:

```
Min = 1.333
Max = -9.43
```

**Edit:** In response to "hatchetman82" in the comments, I decided to run a simple benchmark to see how my solution performs compared to Stefan Kendall's. For small arrays of less than ten thousand elements, the two solutions perform almost identically. However, for larger arrays, my solution will usually perform better.

Stefan's approach is perfectly valid, but it uses about twice as much memory as mine, because it must create a copy of the original array in order to store each element's absolute value. As for time complexity, I found that my approach performed anywhere between 4X and 7X faster, mostly due to the time Stefan's approach requires to copy the array. Keep in mind that these benchmarks were performed on a single machine (a MacBook Pro, 4GB, Core2 Duo @ 2.53) and results will vary depending on your computer's and JVM's configurations.

Stefan's approach is certainly more straight forward, and mine can perform better under certain situations. So basically each solution is valid, though one or the other might be preferable depending on the situation.