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Assume you have two arrays, a and b. a's data is completely hidden from you. The only operation you can perform on a is to swap two elements. b's data is completely exposed and mutable.

The value of b at position i indicates the destination for the value stored in a[i]. That is, if b[3] = 7, we want to move the value in a[3] to be in a[7]. I'm trying to write an algorithm which mutates array a according to the information in array b using only swap operations on a (and preferably linear time and constant space). Just as an example:

if   a  = { a b c d e f }
and  b  = { 1 3 2 0 5 4 }
then a' = { d a c b f e }
(ie, a[i] = a'[b[i]])

I tried a naive approach of iterating through b and merrily doing a.Swap(i, b[i]), all the while whistling, but that turns out to end up writing over itself and moving data that's already in the right place (as you might guess).

Edit: This really must be linear time. It's for a parallel sorting algorithm, so speed is paramount.

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up vote 1 down vote accepted

Solution in Go:

for i := 0; i != len(b); i++ {
    for b[i] != i {
        a.Swap(i, b[i])
        b.Swap(i, b[i])

This may not immediately look O(n), but notice that

  • every a.Swap() puts at least one element of a into its final position
    • once an element is in its final position it never gets swapped again
    • so there are at most n swaps
  • the b[i] != i test is done once for each swap and one extra time for each i
    • so there are at most 2n tests

As you can see, this algorithm is O(n) on time and O(1) on space.

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Actually, it turns out this doesn't work. I tried it on a test case where I knew the ordering was correct and it didn't produce the desired ordering. Sorry. – joshlf Aug 13 '12 at 19:02
This works. – Anschel Schaffer-Cohen Aug 14 '12 at 0:58
Your apology is nonetheless accepted. – Anschel Schaffer-Cohen Aug 14 '12 at 1:00

Arrange the elements of b in ascending order and while swapping the elements of b, swap those in a too. For example, using bubble sort:

for(int i=0;i<b.length;i++){
for(int j=0;j<b.length-i-1;j++){
// swap b[j+1] and b[j]
// swap a[j] and a[j+1]
share|improve this answer
Technically you're right, but I really do need this to be linear. A little bit of background: this is for a parallel sorting algorithm's merge phase, and so it's sort of pointless to do parallel sorting and then finish it off with quadratic bubble sort. – joshlf Aug 13 '12 at 7:53
Also, b's elements are the indices of a, so sorting them would just result in b[i] = i – joshlf Aug 13 '12 at 7:57

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