Well, i don't understand your question really.. why you can't just use the normal iterator?
I will say to you how to create a basic iterator, to let you understand how things works in basic then adapt your solution:
Suppose we need to iterate over a List<T> and you want to create an helper class to do it.
You need two private fields
- The list to iterate
- The pointers to the last item
and 3 methods + 1 constructor
- hasNext() -> Boolean, returns true if there are more items to iterate
- next() -> Return the next element in the list
- reset() -> Reset the interal pointer
- constructor -> Just takes as argument the list to iterate
How will look the fields?
private final List<T> list; // The list where this call will iterate
private int pointer; // The pointer to the next iterable item
As said in the description, the constructor will take the reference to the list so it will just be
public ListIterator(List<T> list)
this.list = list;
pointer = 0;
save the reference and set pointer to 0 (start).
Let's talk about the methods:
hasNext should check if our current pointer has reached the size of the list.
So it will just be
(pointer != list.size())
public boolean hasNext()
return (pointer != list.size());
Will be true if more items are avaitable, false otherwise.
next return the next item if any. Could be simplified by using our hasNext method so it will be
public T next()
throw new NoSuchElementException("no field");
Things to notice:
- T is the return because our list is type T
- list.get(pointer++) we first get the item from the list in position
pointer then we add 1 to the pointer
The reset method is just a
pointer = 0.
public void reset()
pointer = 0;
How to use it?
Like other iterators, create a new object of type ListIterator and pass the list to iterate.
List<String> test = new ArrayList<String>();
ListIterator<String> iterator = new ListIterator<String>(test);