I apologise if this is deemed off-topic, though I hope design of a data structure is sufficiently relevant to programming practice to be posted here.
I am learning C and C++, and having already covered arrays and allocation of memory, we began to look at linked lists. The lecturer stated their advantages as mainly being the ability to add/remove nodes without copying the entire structure - I can see that in order to add a node to an array, we need
existing_array_size + node_size of free memory, despite the fact that we will then delete an entire
existing_array_size. Even to delete an entry, we probably want to copy the whole structure out again.
With a linked list, we pay the price of execution time (in traversing potentially
n nodes just to find and delete one) for the benefit of being more efficient with memory.
val of ll0 ptr to ll1 ... val of ll1 ptr to ll2 ... ... val of lln null ptr
All well and good. However, what jumps to my mind (probably due to being completely new to it and not understanding properly, forgive me) is that we waste a lot of memory for
n+1 pointrs (I anticipate bickering about whether this is really a 'waste'.. it's necessary for the method but contains nothing of actual value).
The structure that seemed more obvious to me especially for unordered lists is as follows, take a
ptr to start:
(start) ptr to end val of 0 val of 1 ... val of n (end) null ptr
So far this just seems like an array.. let's delete a value:
(start) ptr to end val of 0 val of 1 ... (deleted0) val of m (= null) ... val of n (end) ptr to deleted0
Now insert a value
(start) ptr to end val of 0 val of 1 ... val of m (= x) ... val of n (end) null ptr
An issue I now see only as I type it out, is what to do if we need to insert with no deletions, or even have to keep multiple pointers to deletions which would extend 'below'
end, we cannot be allowed to overwrite some other item in memory if it is there.
Well in that instance, why not behave like a linked list, with this whole structure as a 'node'? Delete 2 items:
(start) ptr to end val of 0 val of 1 ... val of m (= x) ... (deleted0) val of a (= null) ... (deleted1) val of b (= null) ... val of n (end) ptr to start1 ... ... (start1) ptr to end1 (end1) ptr to deleted0 ptr to deleted1
Okay, so suppose we now have some gaps due to deletion but nothing to insert. Maybe we want to spring clean a bit, it would be reasonably simple to 'shrink' by filling in the
start1 structure from
start2, etc. With spaces in
start(0) I suppose we would have no choice but to copy it out again.
Note here that
end is not the 'end', but rather the end of values, to where we look for pointers to free space inside the structure.
- This has the same advantage over arrays as linked lists in saving us from making a copy on insert/delete.
- 'Free' space inside is not freed to other variables, but we can consider this a cost of the structure, comparable to (but far less in magnitude in all but the worst case* than linked lists)
- Insertion takes just as few instructions as in a linked list.
- Deletion takes one fewer than an ll.
- Size in memory greater than that of array, but lesser than a linked list*.
- Never copied entirely, maximum space required tends to
n, and is also proportional to
*'worst case' is when every other element is deleted, and we essentially have a linked list with all the pointers at the end.
You may not have bothered to read this far before beginning to angrily type:
So what is my question?!
Simple: What is wrong with this idea (unless of course, it/something very similar is used, in which case - what's it called?) - is it simply that it is always clear whether we want speed of insertion/deletion or to save usual space in memory, so this is redundant?
Thanks, and sorry for the long post, I felt it needed several examples to be clear.