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In fact this is a interview question asked a few days ago.

The interviewer wants me to express the difference between ArrayList and LinkedList, and asked to optimize the insertion operation on ArrayList, in other words, to re-implement add(int index, E element) and of course the complexity of get(int index) operation can be sacrificed.

My answer was to separate the array into k sub-arrays and update a counting array representing the number of elements already in the corresponding sub-array. And the memory of every sub-array is allocated dynamically with an expected initial size. When I need to insert a data into the ArrayList, I can locate a sub-array first, and do the operation within a small array. And if insertions are not too frequent or the indexes are uniform distributed, the time complexity of inserting can be O(log(k) + n/k + k) in average, where log(k) means we should locate the sub-array first with binary searching on the counting array's sum array, n/k is for data movement or even memory re-allocation, and k stands for the updating of the sum array.

I'm sure there are better solutions. I do need some suggestions, thanks!

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1 Answer 1

LinkedList is a linked-list with access\insert\remove requires O(n), linked-lists support sequential access O(n).

ArrayList is an array with insert\remove requires O(2n), but access requires O(1), arrays support random access O(1).

to find a more optimal hybrid structure, you can start with this:

template <T>
public class LinkedArrayList
{
    LinkedList<ArrayList<T>> list;

    public LinkedArrayList ()
    {
        list = new LinkedList<ArrayList<T>> ();
    }

    // ..
}

You'll have to balance segments (arrays) in the list between access complexity, and insert\remove complexity

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