I'm trying to solve the following problem

Write a method split that rearranges the elements of a list so that all of the negative values appear before all of the non-negatives. For example, suppose a variable list stores the following sequence of values:

``````[8, 7, -4, 19, 0, 43, -8, -7, 2]
``````

The call of list.split(); should rearrange the list to put the negatives first. One possible arrangement would be the following:

``````[-4, -8, -7, 8, 7, 19, 0, 43, 2]
``````

But it matters only that the negatives appear before the non-negatives. So this is only one possible solution. Another legal solution would be to rearrange the values this way:

``````[-7, -8, -4, 2, 43, 0, 19, 7, 8]
``````

You are not allowed to swap data fields or to create any new nodes to solve this problem; you must rearrange the list by rearranging the links of the list. You also may not use auxiliary structures like arrays, ArrayLists, stacks, queues, etc, to solve this problem.

I'm really clueless as how to solve this problem. One approach which I'm thinking of is to identify nodes with negative data and add it to the head, but I'm unable to figure out how to code this approach. Here is my list class.

``````public class LinkedList {

// The Linked List's Node structure
static class Node {
private Node next;
private int data;

Node(int data) {
this.data = data;
next = null;
}

public int getData() {
return data;
}

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

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

public Node getNext() {
return next;
}

}

private int size;

}

public int getSize() {
return size;
}

}

size = 0;
}
}
``````

Any hints/suggestion for tackling this problem?

As suggested by @nishu I have come up with the following solution. It works.

``````public Node delete(int data) {

Node del = null;
Node nxt = tmp.getNext();
tmp2.setNext(null);
del = tmp2;
} else if (isLast(data)) {
while (true) {
if (tmp.getNext().getNext() == null) {
del = tmp.getNext();
tmp.setNext(null);
break;
}
tmp = tmp.getNext();
}
} else {
while (tmp != null && tmp.getNext() != null) {
if (tmp.getNext().getData() == data) {
Node prev = tmp;
del = tmp.getNext();
Node nextOfToBeDeleted = tmp.getNext().getNext();
prev.setNext(nextOfToBeDeleted);
break;
}
tmp = tmp.getNext();
}
}
return del;
}

}

public void split() {

Node del = null;
while (tmp != null) {
if (tmp.getData() < 0) {
Node nxt = tmp.getNext();
del = delete(tmp.getData());
while (tmp != nxt) {
tmp = tmp.getNext();
}
} else {
tmp = tmp.getNext();
}

}
}

public boolean isLast(int data) {
boolean last = false;
while (true) {
if (tmp.getData() == data && tmp.getNext() != null) {
last = false;
break;
} else if (tmp.getNext() == null && tmp.getData() == data) {
last = true;
break;
}
tmp = tmp.getNext();
}
return last;
}
``````
-
You already have a reasonable idea, what difficulties are you facing with its implementation? – Zong Zheng Li Nov 11 '13 at 15:03
To add to the head, you put your current `head` in a temp var, add the new `head`, then set that new `head`'s `next` to the temp var. – CodeChimp Nov 11 '13 at 15:15
By the way, your class does not correctly implement the `getSize()` function (which, BTW, should actually be named just `size()`). Also, you really ought to make the list class generic. – AJMansfield Nov 11 '13 at 15:41

Follow the procedure to go further :

1. create methods : insert and delete. insert - it will insert data at the beginning. delete - it will search for the value passed and delete the first occurrence of item in the list and returns the node that was deleted.

2. Start traversing the linked list. Whenever you find a negative node, delete it from existing linked list and call insert method on the node returned by delete function.

-
Your suggestion worked. I have updated the question with my implementation, – Nishant Nov 11 '13 at 19:11
Also have a look over the implementation by AJMansfield. It is a clean way to do with this approach. – anon Nov 12 '13 at 6:31

``````static Node<T> implements Iterable<Node<T>> {
private Node<T> next;
private T data;

public T getData() {return data;}
public void setData(int data) {this.data = data;}

public Node getNext() {return next;}
public void setNext(Node<T> next) {this.next = next;}
}
``````

The `NodeIterator` can then be

``````NodeIterator<E extends Node<T>, L extends LinkedList<T>> implements Iterator<E>{
E last, current; L parent;
public NodeIterator(E node, L parent){this.current = node; this.parent = parent;}
@Override public boolean hasNext(){return current.getNext() != null}
@Override public E next(){last = current; current = current.getNext(); return last;}
@Override public void remove(){last.setNext(current = current.getNext()); parent.size--;}
}
``````

Now that you have this, you can write the method for moving the list:

``````public class LinkedList<E> {

private int size;

size++;
}

public void split(Predicate<E> condition){
Iterator<Node<E>> it = nodeIterator();
while(it.hasNext()){
Node<E> node = it.next();
if(condition.test(node.getData())){
it.remove();
}
}
}

public Iterator<Node<E>> nodeIterator() {
}
}
``````

Invoke like this:

``````LinkedList<Integer> list = new LinkedList<>();
// [... add stuff to list ...]
list.split((Integer i) -> i < 0);
``````

EDIT: fixed the code so it will correctly update the list's size when the iterator's remove function is called. (Still works only with nodes that are contained in one list, though. If two list instances incorporate the same nodes, and one of their shared nodes is removed, only one will have its size updated.)

-
BTW, in case you don't recognize the syntax, I am using a lambda expression in the last code block (introduced in Java 8). – AJMansfield Nov 11 '13 at 15:54
I also use diamond operators `<>`, which are only in Java 7 or later. – AJMansfield Nov 11 '13 at 16:05
This looks a clean way to do it. What is this Predicate class that you used? – anon Nov 12 '13 at 6:29
@nisu its in the `java.util.function` package; its a functional interface for something that takes one parameter of type `E` and returns a `boolean`. – AJMansfield Nov 12 '13 at 15:04
@nishu I used the predicate class as a way to allow the list to be split up based on other attributes, rather than just the required 'negative' split. (In particular, I used it so the class could remain generic, instead of having to create a specialized class that could only handle `int`s.) – AJMansfield Nov 12 '13 at 15:06