In O(n), pseudo-code:

```
def sort (src):
# Create an empty array, and set pointer to its start.
def dest as array[sizeof src]
pto = 0
# For every possible value.
for val in 0, 1, 2:
# Check every position in the source.
for pfrom ranges from 0 to sizeof(src):
# And transfer if matching (includes update of dest pointer).
if src[pfrom] is val:
dest[pto] = val
pto = pto + 1
# Return the new array (or transfer it back to the source if desired).
return dest
```

This is basically iterating over the source list three times, adding the elements if they match the value desired on this pass. But it's still O(n).

The equivalent Java code would be:

```
class Test {
public static int [] mySort (int [] src) {
int [] dest = new int[src.length];
int pto = 0;
for (int val = 0; val < 3; val++)
for (int pfrom = 0; pfrom < src.length; pfrom++)
if (src[pfrom] == val)
dest[pto++] = val;
return dest;
}
public static void main(String args[]) {
int [] arr1 = {2, 0, 1, 2, 1, 2, 1, 0, 2, 0};
int [] arr2 = mySort (arr1);
for (int i = 0; i < arr2.length; i++)
System.out.println ("Array[" + i + "] = " + arr2[i]);
}
}
```

which outputs:

```
Array[0] = 0
Array[1] = 0
Array[2] = 0
Array[3] = 1
Array[4] = 1
Array[5] = 1
Array[6] = 2
Array[7] = 2
Array[8] = 2
Array[9] = 2
```

But seriously, if a potential employer gave me this question, I'd state straight out that I could answer the question if they wish, but that the *correct* answer is to just use `Array.sort`

. Then if, and *only* if, there is a performance problem with that method and the specific data sets, you could investigate a faster way.

And that faster way would almost certainly involve counting, despite what the requirements were. You don't hamstring your developers with arbitrary limitations. Requirements should specify *what* is required, not *how.*

If you answered this question to me in this way, I'd hire you on the spot.