Before answering we need to get some definitions and concepts down.
In the context of the referenced article are two concepts of list.
- Immutable list as used in functional languages such as ML.
- Linked list, (mutable list) as used in imperative languages such as C, C++, Java.
Also the way the list are constructed, destroyed and used are different.
While each list must be constructed, immutable list are constructed by only adding new items to the head of the list while linked list can be constructed by adding items anywhere in the list, though typically new items are added to the end of a linked list.
Immutable list are only traversed in only one direction, forward from head to tail, while linked list can be traversed in both forward and backward direction and can even change direction while traversing.
Immutable list are not destroyed via statements in the source code but are automatically destroyed via a garbage collection, while linked list must be destroyed with a destructor statement.
Additionally immutable list are all of the same type, while linked list can hold items of varying types.
Because of the limitations of immutable list, an operation on any item is O(1). For example to add an item to a list is O(1) because it is always added to the head. To use an item in a list is O(1) because it is the current head of the list. How this is accomplished is that when a list is used with in a functional language, the head item is used and the tail of the list is passed on so that the tail of the list being passed on has a new head. i.e. for the list 1,2,3
we use the head of the list 1
, and then pass on the list 2,3
where 2
is the new head. Yes in concept they are two different list but the details of how this is implemented is another question.
What does the author mean when he says "double-links"?
"double-links" is referring to doubly linked list which are list in languages that allow the construction of items in the list to have pointers to both the preceding and succeeding item.
The OP in the comments also ask:
What is it exactly about the single link that makes it faster than the
double link?
As I noted in the earlier section, it is that all operations on list are O(1).