You're looking for the EXOR of the two sets. I think this is simpler than it looks, due to the arrays being pre-sorted. Pseudo-code

- compare the first element from each array
- if unequal, add the larger one to the unique set
- else remove both elements
- if you've reached the end of one array, add all the elements remaining in the other array to the unique set

which is a greedy O(n) solution. Here's an implementation, lightly tested :D

```
/**
* Returns the sorted EXOR of two sorted int arrays (descending). Uses
* arrays, index management, and System.arraycopy.
* @author paislee
*/
int[] arrExor(int[] a1, int[] a2) {
// eventual result, intermediate (oversized) result
int[] exor, exor_builder = new int[a1.length + a2.length];
int exor_i = 0; // the growing size of exor set
int a1_i = 0, a2_i = 0; // input indices
int a1_curr, a2_curr; // elements we're comparing
// chew both input arrays, greedily populating exor_builder
while (a1_i < a1.length && a2_i < a2.length) {
a1_curr = a1[a1_i];
a2_curr = a2[a2_i];
if (a1_curr != a2_curr) {
if (a1_curr > a2_curr)
exor_builder[exor_i++] = a1[a1_i++];
else
exor_builder[exor_i++] = a2[a2_i++];
} else {
a1_i++;
a2_i++;
}
}
// copy remainder into exor_builder
int[] left = null; // alias for the unfinished input
int left_i = 0, left_sz = 0; // index alias, # elements left
if (a1_i < a1.length) {
left = a1;
left_i = a1_i;
} else {
left = a2;
left_i = a2_i;
}
left_sz = left.length - left_i;
System.arraycopy(left, left_i, exor_builder, exor_i, left_sz);
exor_i += left_sz;
// shrinkwrap and deliver
exor = new int[exor_i];
System.arraycopy(exor_builder, 0, exor, 0, exor_i);
return exor;
}
```