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I have the following code for sorting moves in a board game. It looks to me like it can be highly optimized:

    private List<Move> sortMoves(List<Move> moves, int depth)
        List<Move> sorted = new ArrayList<Move>();

        if (moves.size() == 0)
            return sorted;

        List<Move> primary = new ArrayList<Move>();
        List<Move> rest = new ArrayList<Move>();

        for(int i = 0; i < moves.size(); i++)
            if (killers.primary[depth] != null && moves.get(i).equals(killers.primary[depth]))



        return sorted;

Is there a better and more efficient way to the above (ie. intersect the two lists and return a sorted list)?

Note: The goal of the function is to remove the killer moves (primary) found in the moves list and then return a new list with the killer moves first followed with what's list from the original moves list.

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killers is what exactly? Do you have evidence to suggest that your code is suboptimal (and compared to what?) –  Anders R. Bystrup Mar 19 '13 at 14:35
killers is a class that has a public property (called primary) of type: Move[] –  Ivan-Mark Debono Mar 19 '13 at 14:37
So you aren't ordering the whole list? Just splitting it based on some condition that identifies two different "types" within the list? –  The Cat Mar 19 '13 at 14:37
One opt that I see which won't do anything really is getting rid of the primary list and just adding to sorted directly in your for loop. Then just addAll(rest) at the end. –  NG. Mar 19 '13 at 14:38
Another thing - what kind of List is moves. If it's an ArrayList, then you should be ok, but LinkedList.get is not something you want to do a lot of. You could also initialize your result array with a capacity to reduce allocations, but again unless you have evidence, this probably won't improve too much –  NG. Mar 19 '13 at 14:39

2 Answers 2

up vote 1 down vote accepted

If your moves is not too big the current implementation looks ok. Its complexity is O(n). Only con here is the space complexity due to three extra lists viz. primary, rest and sorted.

You can save some space complexity by using Collections.sort(List<T> list, Comparator<? super T> c).

private void sortMoves(final List<Move> moves, final int depth)
    Collections.sort(moves, new Comparator<Move>() {
        public int compare(Move o1, Move o2) {

            if(killers.primary[depth] != null && moves.get(i).equals(killers.primary[depth])) {

                return 0;
            } else {

                return 1;

This doesn't use any extra space but has time complexity of O(nlog(n)). Additionally, its the implementation is concise.

UPDATE: Following is another elegant solution with no extra space complexity and O(n) time complexity.

private void sortMoves(final List<Move> moves, final int depth)

    int i = 0;
    int j = moves.size() - 1;

    while(i < j) {

        while(equalsKillersPrimary(moves.get(i), depth))

        while(!equalsKillersPrimary(moves.get(j), depth))

        swap(moves, i, j);

private boolean equalsKillersPrimary(Move move, int depth) {

    return killers.primary[depth] != null && move.equals(killers.primary[depth]);

I've left out implementation of swap() for brevity. It simply swaps elements on the given indicies.

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To sort list fast try

Collections.sort(List list);


Collections.sort(List list,Comparator c)

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You should complete your answer by providing a Comparator that has same affect as OP intends. –  sgp15 Mar 19 '13 at 14:39
More maintainable but not obviously faster –  Christophe Roussy Mar 19 '13 at 14:46

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