algorithm/Java
1
0
Fork 0
mirror of https://github.com/TheAlgorithms/Java.git synced 2025-07-12 22:56:11 +08:00
Code Issues Packages Projects Releases Wiki Activity

Merge pull request #693 from ulvimardaliyev/specific-position

Browse Source 
modification for specific position of inserted values
This commit is contained in:
Libin Yang
2019-01-27 09:47:19 +08:00
committed by GitHub
parent 6cc1414a2a f348e1832b
commit 20cebce230
1 changed files with 106 additions and 108 deletions
Download Patch File Download Diff File Expand all files Collapse all files

214
DataStructures/Lists/SinglyLinkedList.java
View File

@ -1,151 +1,149 @@
/** /**
* This class implements a SinglyLinked List. This is done * This class implements a SinglyLinked List. This is done
* using SinglyLinkedList class and a LinkForLinkedList Class. * using SinglyLinkedList class and a LinkForLinkedList Class.
* * <p>
* A linked list is similar to an array, it hold values. * A linked list is similar to an array, it hold values.
* However, links in a linked list do not have indexes. With * However, links in a linked list do not have indexes. With
* a linked list you do not need to predetermine it's size as * a linked list you do not need to predetermine it's size as
* it grows and shrinks as it is edited. This is an example of * it grows and shrinks as it is edited. This is an example of
* a singly linked list. Elements can only be added/removed * a singly linked list. Elements can only be added/removed
* at the head/front of the list. * at the head/front of the list.
*
* @author Unknown
* *
* @author yanglbme
*/ */
class SinglyLinkedList{ class SinglyLinkedList {
/**Head refered to the front of the list */ /**
private Node head; * Head refer to the front of the list
*/
private Node head;
/** /**
* Constructor of SinglyLinkedList * Count of nodes
*/ */
public SinglyLinkedList(){ private int count;
head = null;
}
/** /**
* This method inserts an element at the head * This method inserts an element at the head
* *
* @param x Element to be added * @param x Element to be added
*/ */
public void insertHead(int x){ public void insertHead(int x) {
Node newNode = new Node(x); //Create a new link with a value attached to it Node newNode = new Node(x);
newNode.next = head; //Set the new link to point to the current head newNode.next = head;
head = newNode; //Now set the new link to be the head head = newNode;
} ++count;
}
/**
/**
* Inserts a new node at a specified position * Inserts a new node at a specified position
* @param head head node of the linked list *
* @param data data to be stored in a new node * @param data data to be stored in a new node
* @param position position at which a new node is to be inserted * @param position position at which a new node is to be inserted
* @return reference of the head of the linked list
*/ */
Node InsertNth(Node head, int data, int position) { public void insertNth(int data, int position) {
if (position < 0 || position > count) {
Node newNode = new Node(); throw new RuntimeException("position less than zero or position more than the count of list");
newNode.data = data; }
Node node = new Node(data);
if (position == 0) { Node dummy = new Node(-1);
newNode.next = head; dummy.next = head;
return newNode; Node cur = dummy;
for (int i = 0; i < position; ++i) {
cur = cur.next;
}
node.next = cur.next;
cur.next = node;
++count;
}
/**
* This method deletes an element at the head
*
* @return The element deleted
*/
public Node deleteHead() {
if (isEmpty()) {
throw new RuntimeException("The list is empty!");
} }
Node current = head; Node temp = head;
head = head.next;
--count;
return temp;
}
while (--position > 0) { /**
* Checks if the list is empty
*
* @return true is list is empty
*/
public boolean isEmpty() {
return count == 0;
}
/**
* Prints contents of the list
*/
public void display() {
Node current = head;
while (current != null) {
System.out.print(current.value + " ");
current = current.next; current = current.next;
} }
System.out.println();
newNode.next = current.next;
current.next = newNode;
return head;
} }
/**
* This method deletes an element at the head
*
* @return The element deleted
*/
public Node deleteHead(){
Node temp = head;
head = head.next; //Make the second element in the list the new head, the Java garbage collector will later remove the old head
return temp;
}
/** /**
* Checks if the list is empty * Main method
* *
* @return true is list is empty * @param args Command line arguments
*/ */
public boolean isEmpty(){ public static void main(String args[]) {
return(head == null); SinglyLinkedList myList = new SinglyLinkedList();
}
/** assert myList.isEmpty();
* Prints contents of the list
*/
public void display(){
Node current = head;
while(current!=null){
System.out.print(current.getValue()+" ");
current = current.next;
}
System.out.println();
}
/**
* Main method
*
* @param args Command line arguments
*/
public static void main(String args[]){
SinglyLinkedList myList = new SinglyLinkedList();
System.out.println(myList.isEmpty()); //Will print true myList.insertHead(5);
myList.insertHead(7);
myList.insertHead(10);
myList.insertHead(5); myList.display(); // 10 -> 7 -> 5
myList.insertHead(7);
myList.insertHead(10);
myList.display(); // 10(head) --> 7 --> 5 myList.deleteHead();
myList.deleteHead(); myList.display(); // 7 -> 5
myList.display(); // 7(head) --> 5 myList.insertNth(11, 2);
}
myList.display(); // 7 -> 5 -> 11
}
} }
/** /**
* This class is the nodes of the SinglyLinked List. * This class is the nodes of the SinglyLinked List.
* They consist of a value and a pointer to the node * They consist of a value and a pointer to the node
* after them. * after them.
*
* @author Unknown
* *
* @author yanglbme
*/ */
class Node{ class Node {
/** The value of the node */ /**
public int value; * The value of the node
/** Point to the next node */ */
public Node next; //This is what the link will point to int value;
/** /**
* Constructor * Point to the next node
* */
* @param valuein Value to be put in the node Node next;
*/
public Node(int valuein){
value = valuein;
}
/**
* Returns value of the node
*/
public int getValue(){
return value;
}
/**
* Constructor
*
* @param value Value to be put in the node
*/
Node(int value) {
this.value = value;
}
} }