This can be done in different ways:

1 - Brute force: for each element in array1 check that element exists in array2. Note this would require to note the position/index so that duplicates can be handled properly. This requires O(n^2) with much complicated code, don't even think of it at all...

2 - Sort both lists, then check each element to see if they're identical. O(n log n) for sorting and O(n) to check so basically O(n log n), sort can be done in-place if messing up the arrays is not a problem, if not you need to have 2n size memory to copy the sorted list.

3 - Add the items and count from one array to a hashtable, then iterate through the other array, checking that each item is in the hashtable and in that case decrement count if it is not zero otherwise remove it from hashtable. O(n) to create a hashtable, and O(n) to check the other array items in the hashtable, so O(n). This introduces a hashtable with memory at most for n elements.

4 - Best of Best (Among the above): Subtract or take difference of each element in the same index of the two arrays and finally sum up the subtacted values. For eg A1={1,2,3}, A2={3,1,2} the Diff={-2,1,1} now sum-up the Diff = 0 that means they have same set of integers. This approach requires an O(n) with no extra memory. A c# code would look like as follows:

```
public static bool ArrayEqual(int[] list1, int[] list2)
{
if (list1 == null || list2 == null)
{
throw new Exception("Invalid input");
}
if (list1.Length != list2.Length)
{
return false;
}
int diff = 0;
for (int i = 0; i < list1.Length; i++)
{
diff += list1[i] - list2[i];
}
return (diff == 0);
}
```

4 doesn't work at all, it is the worst