An interview question I encountered involves the implementation of the Gap Buffer data structure. In particular, I'm talking about a data structure that is essentially a LinkedList where each Node is a (fairly small) char array. This is ideal for text editing because you can insert more characters at any point, allocating new arrays if there is no room where you are looking.
Implementing the Gap Buffer itself is no big deal since it looks exactly like a LinkedList, and implementing methods like
Remove are algorithmically straightforward. Simply insert the new character in the node corresponding to the position if there is room, allocating a new node if more room is needed.
The most difficult question was an efficient implementation of a
Trim method with the postcondition that when
Trim is run, all the non-whitespace elements in the Gap Buffer will be "compacted" towards the beginning, that is, all the elements move as far forward as they can and spaces are trimmed out.
The naive method would be to simply iterate through every array element one by one, moving it to the next free space until all the elements have been iterated, and then deleting all the empty nodes at the end of the list. However, this is less than ideal:
If during iteration we approach an array that is empty, we should immediately remove that array from the list, thus joining the 2 arrays around it. On the other hand, if we approach an array that is completely full, we should skip over the array since it is already compacted.
Are these two cases the only cases we need to consider when it comes to efficiency? Are there any other potential improvements? And what would the fully efficient
Trim look like algorithmically?