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If I have an array of items:

1, 2, 3, 4, 5, 6, 7, 8

I want to select a range of items and move them to another position in the array. For example:

1, 2, 5, 6, 7, 3, 4, 8

Here the 5, 6, 7 segment has been moved to index 2.

What's the most efficient way of doing this, specifically to limit the number of extra array copies. I have a version working, but it's inefficient and forms a central role in my algorithm which I'm trying to optimise.


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Any copy algorithm would be O(n) - each item inside region that is impacted need to be copied once... Unless you can avoid copying altogether there is not much optimizations you can do. –  Alexei Levenkov May 30 '13 at 22:48
How large is your array? Do you also need to optimize for space? –  Max May 30 '13 at 22:51
Are you sure you need to optimize your current query? Is it unacceptably slow right now and did performance tests show you this is where the slowdown was? The time you are taking trying to figure out how to optimize this section of code could take you longer than the entire time you will save over the lifetime of the software. –  Scott Chamberlain May 30 '13 at 23:05
@Scott. This particular part is repeated over 1,000,000 times per run so I want to optimise it as much as possible. It is certainly the slowest part of the overall operation by far. –  Barguast May 30 '13 at 23:08
What if you used a tree or other linked structure? Just a preliminary thought, but you may be able to move stuff around at lower cost, depending on whether you're taking elements by index or by value. Then again, having to rejuggle tree elements on each move probably wouldn't be very time-efficient, either... –  Kenogu Labz May 30 '13 at 23:11

4 Answers 4

up vote 2 down vote accepted

One approach would be to slice out the items which should move, then shift the existing members:

// T[] source
// int dest
// int start, end
T[] slice = new T[end - start];
Array.Copy(source, start, slice, 0, slice.Length);

if (dest < start)
    // push towards end
    Array.Copy(source, dest, source, dest + slice.Length, start - dest);
    // push towards start
    // who moves where? Assumes dest..dest+count goes left
    Array.Copy(source, end, source, dest, dest - start);

Array.Copy(slice, 0, source, dest, slice.Length);
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After sitting down with a piece of paper and sketching it all out, I eventually ended up with code that pretty much matches this. I think it's probably the best solution. thanks. –  Barguast May 31 '13 at 10:22
It's ~350% faster under load testing :) –  Barguast May 31 '13 at 10:44
I don't know if this would change anything, but if you're using alue types you can look at Buffer.BlockCopy instead of Array.Copy. –  user7116 May 31 '13 at 12:26
If you really want to speed things up, Barguast, it looks to me like you can triple performance yet again over this Array.Copy scheme. You would just need to write the logic to do the shifting yourself, keeping shifted items in temp variables (just one or two would do) and deciding whether you wanted to shift things forward or backward, how you'd want to handle modular/wrap-around situations, etc. Shift methods would make nice extension methods for arrays. –  Iucounu May 31 '13 at 16:24
It looks like performance using direct array access would be about 2-3 times better than calling Array.Copy() three times as in the above sample, depending on the specific implementation. –  Iucounu May 31 '13 at 16:34

Try using a linked list. Since you're moving subsections of a list, it'll be much more memory efficient to move the references on either end of the sublist than to copy each individual item in that same sublist. Overall time-complexity is the same (Θ(n) to traverse a linked list, Θ(n) to copy an array segment), but you'll have better memory-complexity (constant n as opposed to Θ(n)) and fewer issues with continual memory allocation / deallocation.

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I know you have chosen an answer; but this question really got under my skin; to see if it's possible to write it another way.

So I came up with this code:

static int[] MoveSlice(int[] arr, int startIndex, int length, int newIndex)
    var delta = (int)Math.Abs(newIndex - startIndex);

    if (delta >= length)
        for (var i = 0; i < length; i++)
            var swap = arr[startIndex + i];
            arr[startIndex + i] = arr[newIndex + i];
            arr[newIndex + i] = swap;
        var newStart = newIndex + length;

        for (var i = 0; i < delta; i++)
            var swap = arr[newStart + i];
            arr[newStart + i] = arr[newIndex + i];
            arr[newIndex + i] = swap;

        var l = (int)Math.Abs(length - delta);
        arr = MoveSlice(arr, newIndex + delta, l, newIndex);

    return arr;

I did not test the performance yet. But I enjoyed solving it!

Perhaps you need to employ more code to check for possible errors on boundaries and the like.

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This is somewhat similar to my first attempt before I posted this question. It is a deceptively tricky problem! Thanks. –  Barguast Jun 4 '13 at 13:45
If you have used that; was it useful? What about performance? –  Kaveh Shahbazian Jun 5 '13 at 20:33
I only noticed that program spent more time in the method than I liked and wondered what the 'best' way of doing it was. I basically wanting to keep copies and swaps to a minimum. I haven't done a full comparison between my original method and my current one (see sixlettervariables' answer) but the code does run noticeably faster. –  Barguast Jun 6 '13 at 9:24
I expected it to be faster since there is no array copy. But I think - as far as my mind can go - swaps in here are at their minimum. –  Kaveh Shahbazian Jun 6 '13 at 9:30
And remember (IMHO) when you test a method performance: 1 - exclude the first call (because of the things JIT do on first call) 2 - repeat it in a large number (say 100000) and divide whole spent time to 100000. –  Kaveh Shahbazian Jun 6 '13 at 9:33

If you want to avoid making array copies for efficiency's sake, you can avoid them altogether. You can use a minimum of variables for single values to move the items to their new destinations. Such an algorithm is very efficient on memory, and can be efficient also overall, though it obviously can't take advantage of native, efficient array copying.

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