* UPDATE:* Thanks to all who answered I did what I was assigned to do. This is really a great forum and I was surprised to find so many helpful and friendly-minded people here :)

What I did was to modify the **print** method in the following way:

```
public static void print(ListNode start){
System.out.println("Printing the first 10 elements on the list:");
System.out.print("{");
ListNode previous = start;
ListNode current = start;
for (int i = 0; i<10; i++){
current=current.next;
}
for(ListNode node = start; node != current; node = node.next){
System.out.print(node);
}
System.out.println("}");
System.out.println("Printing the last 10 elements on the list:");
System.out.print("{");
while(current != null){
previous = previous.next;
current = current.next;
}
for(ListNode node = previous; node != current; node = node.next){
System.out.print(node);
}
System.out.println("}");
System.out.println("End of list");
}
```

**END OF UPDATE**

I'm learning Algorithms and Data structures in Java and I need to add a specific display method to an existing exercise Linked List implementation but I don't know how to do it.

So there is a linked list that contains many items (say thousands) and **I need a display method that shows only the first and the last 10 items on the list.**

Can you suggest to me a way to do it?

The Linked list implementation that I need to work on is the following:

```
import java.util.*;
public class Main {
public static class ListNode {
//A linked list node. The data field is represented by the field int data
//The next item is referenced by the reverence value next
int data;
ListNode next;
public ListNode(){
this.data = 0; this.next = null;
}
public ListNode(int data){
this();this.data = data;
}
public ListNode(int data, ListNode next){
this.data = data;this.next = next;
}
public String toString() {
return "[" + this.data + "]";
}
//The linked list is referenced by the first node.
//An empty list is referenced by a null reference.
//That's why all methods for the list are public static -
//(null doesn't have methods)
//Returns the beginning of a list with length "length"and
//elements with random values
public static ListNode generate(int length) {
ListNode start = null;
Random rn = new Random();
for(int i = 0; i < length; i++){
start = new ListNode(rn.nextInt(10000), start);
}
return start;
}
//Displays the list to the console from the specified starting point
public static void print(ListNode start){
System.out.print("{");
for(ListNode node = start; node != null; node = node.next){
System.out.print(node);
}
System.out.println("}");
}
//Counts how many elements there are in the list
public static int length(ListNode L){
int k=0;
for(;L!=null;k++,L=L.next);
return k;
}
//Returns a node with key searchd if found in the list
public static ListNode search(ListNode start, int searchd){
for(ListNode node = start; node != null; node = node.next){
if(node.data == searchd){ return node; }
}
return null;
}
//If a node with the specified key is found in the list L
//a new node with the value keyAfter is inserted after it.
public static void insertAfter(ListNode L, int key, int keyAfter){
while(L!=null && L.data!=key)L=L.next;
if(L!=null){
L.next= new ListNode(keyAfter,L.next);
}
}
//Inserts a node with key "keyBefore" before the node
//with the specified key
public static ListNode insertBefore(ListNode L, int key, int keyBefore){
ListNode p = null, r=L;
while(L!=null && L.data!=key){
p=L;L=L.next;
}
if(p!=null){
p.next= new ListNode(keyBefore,p.next);return r;
}
else{
p=new ListNode(keyBefore,L);return p;
}
}
//Inserts a new element with the specified key in a sorted list
//with ascending values so that the list remains sorted
public static ListNode insertOrd(ListNode L, int key){
ListNode p = null, r=L;
while(L!=null && L.data<key){
p=L;L=L.next;
}
if(p!=null){
p.next= new ListNode(key,p.next);return r;
}
else{
p=new ListNode(key,L);return p;
}
}
//Generates a sorted list with a specified lenght
public static ListNode generateOrd(int length) {
ListNode start = null;
Random rn = new Random();
for(int i = 0; i < length; i++){
start = insertOrd(start,rn.nextInt(10000));
}
return start;
}
//Takes two ordered lists and returns a merged and sorted list
//that combines the elements in the original lists
public static ListNode merge(ListNode a, ListNode b){
if(a==null)return b;
if(b==null)return a;
ListNode r = null;
if(a.data<=b.data){
r=a;a=a.next;
}else{
r=b;b=b.next;
}
ListNode last=r;
while(a!=null && b!=null){
if(a.data<=b.data){
last.next=a;a=a.next;
}else{
last.next=b;b=b.next;
}
last=last.next;
}
if(a!=null)last.next=a;else last.next=b;
return r;
}
//Splits a list evenly and returns the beginning of the 2-nd part
public static ListNode split(ListNode L){
int n=length(L)/2;
ListNode t=L;
for(int i=0;i<n-1;i++,t=t.next);
ListNode secPart = t.next;
t.next=null;
return secPart;
}
//Sorts a list in an ascending order
public static ListNode mrgSort(ListNode L){
if(L==null || L.next==null)return L;
ListNode b = split(L);
L=mrgSort(L); b= mrgSort(b);
return merge(L,b);
}
};//End of class ListNode
public static void main(String[] args){
ListNode a = ListNode.generateOrd(10);
ListNode.print(a);
ListNode b = ListNode.generateOrd(10);
ListNode.print(b);
a=ListNode.merge(a,b);
ListNode.print(a);
b=ListNode.split(a);
ListNode.print(a);
ListNode.print(b);
ListNode c = ListNode.generate(20);
ListNode.print(c);
c = ListNode.mrgSort(c);
ListNode.print(c);
}
}
```