You can do this by hiding the values in the real array. By this way you can do this in both O(1) space and O(n) time.

Basically, you traverse through your indices array first, store the value of the indice array in the correct position. Now this can be done in the algorithm of your choice. For me, I would simply store the number's trailing bits from the Most Significant bit position. Do this in one traversal. Now the base array would be messed up.

During the second traversal store all the upper half bits to lower half.

The obvious disadvantage of this technique is that the stored integer
value can hold as much as half the bits. Meaning if you are dealing
with 4 byte integer, the values can only be of 2 bytes. However instead of using up half the array as show in the code below, it can be enhanced by using a better algorithm where you hide the value in the index array. Here you will require the max bits reserved in worst case would be the length of the array rather than constant 16 in the previous case. It will perform worst than the former when the length exceeds 2 power 16.

```
import java.util.Arrays;
class MyClass {
public static void main(String[] args) {
MyClass myClass = new MyClass();
int[] orig_array = {8, 6, 7, 5, 3, 0, 9};
int[] indices = {3, 6, 2, 4, 0, 1, 5};
myClass.meth(orig_array, indices);
}
public void meth(int[] orig_array, int[] indices){
for(int i=0;i<orig_array.length;i++)
orig_array[i] += orig_array[indices[i]] + orig_array[indices[i]] << 15 ;
for(int i=0;i<orig_array.length;i++)
orig_array[i] = orig_array[i] >> 16;
System.out.print(Arrays.toString(orig_array));
}
}
```

`2*n`

elements, isn't it already in`O(n)`

space? So you don't increase space complexity by utilizing a third array to simplify things. – corsiKa Sep 9 '11 at 20:40additionalspace is allowed. Equivalently, the algorithm should bein place. – Jiri Kriz Sep 9 '11 at 23:13