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I was studying Sequences in data structures and had a confusion in vectors and lists. What I know is as follows:
1) vectors are Rank based sequences i.e. we can access the data element stored in a Vector Sequence directly using the rank. ArrayList and Vector Class in Java can be considered as Implementation of vector.
2) lists are Position based sequences and Positions are itself an Abstract Data Type which has one method named element(). We access the data at certain position by calling its element() method.
So, the difference between Rank and Position is that, by rank we get the direct access to the stored element/data but with position we access the element using its method i.e. position abstracts the data stored.

I got the conceptual difference between position and rank but I am unable to visualize the practical implementation of Position. Can anyone explain me how to implement Position based list in Java? How we can abstract data using Position?

P.S. : Don't confuse the term lists and vector as Java Classes. I am talking about lists and vectors as Data Structures Terminologies. The following links might help you in getting the question:
Position ADT and List ADT
Vector ADT
Sequence ADT

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1  
Your question doesn't make sense by the usual definition of 'rank' or 'position', or rather it is manifestly based on false premisses. –  EJP Oct 22 '13 at 8:59
    
Regarding your newly added links, I utterly fail to see the point. What are they? Somebody else's API? You can't just produce some arbitrary link out of the air and (a) claim it is a canonical definition of an abstract datatype or (b) ask why the Java Collections API doesn't agree with it. It's completely nonsensical. I still don't understand what your actual question is. –  EJP Oct 22 '13 at 11:49

3 Answers 3

up vote 3 down vote accepted

I guess you are asking for a Java code implementing Position ADT. I have tried to implement it based on the links you have provided. I have implemented it using a Doubly Linked List. So, here it is:

Make a interface Position:

public interface Position
{
    Object element();
}

Make a class Node implementing Position:

public class Node implements Position
{
    private Object data;
    private Node next;
    private Node prev;

    public Node(Node prev, Object data, Node next)
    {
        this.prev = prev;
        this.data = data;
        this.next = next;
    }

    public Object element()     // Method of interface Position
    {
        return data;
    }

    public void setData(Object data)
    {
        this.data = data;
    }

    public void setNext(Node next)
    {
        this.next = next;
    }

    public void setPrev(Node prev)
    {
        this.prev = prev;
    }

    public Node getNext()
    {
        return next;
    }

    public Node getPrev()
    {
        return prev;
    }

}

In class Node, there is no getter method for data (i.e. getData()) but it has an implementation of Position's abstract method element(), to access the data. Although you can make a getter if you want.

Make a class List implementing the List ADT:

// this is a List ADT implemented using a Doubly Linked List

public class List
{
    private Node first;
    private Node last;
    private int size;

    List()
    {
        first = null;
        last = null;
        size = 0;
    }

    public int getSize()
    {
        return size;
    }

    public boolean isEmpty()
    {
        return (size==0);
    }


// Accessor methods

    public Position first()
    {
        return first;
    }

    public Position last()
    {
        return last;
    }

    public Position before(Position p) throws Exception
    {
        Node n = (Node) p;
        try{
            return n.getPrev();
        }catch(NullPointerException ex)
        {
            throw new Exception("Position Doesn't Exists");
        }
    }

    public Position after(Position p) throws Exception
    {
        Node n = (Node) p;
        try{
            return n.getNext();
        }catch(NullPointerException ex)
        {
            throw new Exception("Position Doesn't Exists");
        }
    }

// Update methods

    public void insertFirst(Object data)
    {
        Node node;
        if(isEmpty())
        {
            Node prev = null;
            Node next = null;
            node  = new Node(prev,data,next);
            first = node;
            last = node;
        }
        else
        {
            Node prev = null;
            Node next = first;
            node  = new Node(prev,data,next);
            first.setPrev(node);
            first = node;
        }
        size++;
    }

    public void insertLast(Object data)
    {
        Node node;
        if(isEmpty())
        {
            Node prev = null;
            Node next = null;
            node  = new Node(prev,data,next);
            first = node;
            last = node;
        }
        else
        {
            Node prev = last;
            Node next = null;
            node  = new Node(prev,data,next);
            last.setNext(node);
            last = node;
        }
        size++;
    }

    public void insertBefore(Position p, Object data) throws Exception
    {
        Node cur = (Node) p;
        Node prev;
        try{
            prev = cur.getPrev();
        }catch(NullPointerException ex)
        {
            throw new Exception("Position Doesn't Exists");
        }
        Node next = cur;
        Node node;
        node  = new Node(prev,data,next);
        next.setPrev(node);
        if(cur!=first)
            prev.setNext(node);
        else
            first=node;
        size++;
    }

    public void insertAfter(Position p, Object data) throws Exception
    {
        Node cur = (Node) p;
        Node prev = cur;
        Node next;
        try{
            next = cur.getNext();
        }catch(NullPointerException ex)
        {
            throw new Exception("Position Doesn't Exists");
        }
        Node node;
        node  = new Node(prev,data,next);
        prev.setNext(node);
        if(cur!=last)
            next.setPrev(node);
        else
            last=node;
        size++;
    }

    public Object remove(Position p) throws Exception
    {
        Node n = (Node) p;

        Object data = n.element();
        if(isEmpty())
        {
            throw new Exception("List is Empty");
        }
        else
        {
            Node prev,next;
            if(n==first && n==last)
            {
                first = null;
                last = null;
            }
            else if(n==first)
            {
                prev = null;
                next = n.getNext();
                next.setPrev(prev);
                first = next;
            }
            else if(n==last)
            {
                prev = n.getPrev();
                next = null;
                prev.setNext(next);
                last = prev;
            }
            else
            {
                prev = n.getPrev();
                next = n.getNext();
                prev.setNext(next);
                next.setPrev(prev);             
            }   
            size--;
        }
        return data;
    }

}

This class returns a Node object in a Position reference when needed.(Actually Position is nothing but a Node.) By this implementation all the methods can be executed in Constant Time i.e. O(c), where c is a constant.

Now, the last class to test List :

class TestList
{
    public static void main(String... arg)
    {
        List list = new List();

        System.out.println("Size : " + list.getSize());
        System.out.println("First Element : "+list.first());

        try{

            list.insertFirst(100);
            list.insertLast(200);
            Position p = list.first();
            //list.insertBefore(list.before(p),50);                 // Position Doesn't Exists
            //list.insertAfter(list.after(list.before(p)),150);     // Position Doesn't Exists
            list.insertBefore(p,50);
            list.insertAfter(list.last(),250);
            list.insertAfter(list.after(list.first()),150);
            list.insertFirst(10);
            System.out.println("Size : " + list.getSize());
            System.out.println("First Element : "+list.first().element());
            System.out.println("Last Element : "+list.last().element());
            System.out.println("First Element Removed : " + list.remove(list.first()));
            System.out.println("Size : " + list.getSize());

            int len = list.getSize();

            for(int i=0; i<len;i++)
            {
                System.out.println((i+1) + " : " + list.remove(list.last()));
            }

        }catch(Exception e)
        {
            e.printStackTrace();
        }   
    }
}

Hope this answers your question.

PS: This is not an Standard implementation. I have just tried to answer the question. Corrections are welcome.

share|improve this answer
    
This is what I was looking for. –  naive Oct 22 '13 at 14:37

1) Vector and ArrayList are implementation of List.
2) Vector is synchronized. ArrayList is unsynchronized.
3) You can access the elements by index from the Vector and ArrayList.

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I don't see how any of this answers the question(s). He doesn't appear to be talking about specific Java classes. –  EJP Oct 22 '13 at 9:03
    
@EJP I answered the implementation of Vector and ArrayList in java. I am not explained Computer Science Terminology. –  Prabhakaran Oct 22 '13 at 9:16
    
I agree. That's the problem. He is asking about Data Structures as far as I can see, with all that waffle about rank- and position-based, which you haven't addressed in the slightest. –  EJP Oct 22 '13 at 9:22
    
@EJP Then he should remove Java tag. –  Prabhakaran Oct 22 '13 at 9:23
    
I agree again. But an answer about synchronized and index doesn't address a question about 'rank-/position-based'. –  EJP Oct 22 '13 at 9:24

1) Vectors are Rank based sequences i.e. we can access the data element stored in a Vector Sequence directly using the rank.

No. Vectors are what I would call 'position-based sequences'. I would consider e.g. a PriorityQueue to be a 'rank-based sequence'. Not a vector, or Vector (see below).

ArrayList Class in Java can be considered as Implementation of Vector.

Can be considered as implementation of 'vector'. So can Vector. Using capitals for the abstract concepts just confuses them with actual classes.

2) Lists are Position based sequences

No. Lists are sequences, period.

Positions are itself an Abstract Data Type which has one method named element().

I don't begin to understand this statement. I'm not aware of any abstract Java datatype that 'has one method named element().'

We access the data at certain position by calling its element() method.

No, in a list we access the current, *previous,* and next elements.

So, the difference between Rank and Position is that, by rank we get the direct access to the stored element/data but with position we access the element using its method i.e. position abstracts the data stored.

This doesn't make any sense to me either.

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1  
I guess I couldn't convey my question well OR my concepts about Rank and Position are not clear. If vectors are Position Based then why in its Java implementation (i.e. Class ArrayList and Vector) there are no such methods like next() or prev() (Position Based methods). But, there are methods like get(index) or add(index, element) (Rank Based Methods). –  naive Oct 22 '13 at 9:54
    
please refer the link in question to get the notion of Position ADT, I am talking about. –  naive Oct 22 '13 at 10:52
    
Being position-based doesn't oblige a class to have next() and previous() methods. The classes you mention both have iterators which provide both. I don't see that this discussion is getting anywhere. –  EJP Oct 22 '13 at 11:50

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