Java Data Structures - Doubly Linked List Other Related Topics

Java - Delete even nodes of the Doubly Linked List



Deleting even nodes of a doubly linked list requires traverse through the list and deleting even nodes one by one. It requires creating two nodes - oddNode and evenNode. If head is not null, make oddNode to first odd node of list and evenNode to first even node of the list. If both are not null, delete the evenNode and adjust links. Move both nodes to next set of odd-even nodes. Repeat the process till any or both nodes become null.

The function deleteEvenNodes is created for this purpose. It is a 4-step process.

void deleteEvenNodes() {
  if(this.head != null) {
  
    //1. if head is not null create nodes -
    //   evenNode and oddNode
    Node oddNode = this.head;
    Node evenNode = this.head.next; 
    Node temp = new Node();

    while(oddNode != null && evenNode != null) {
      
      //2. while oddNode and evenNode are not null
      //   make next of oddNode as next of evenNode 
      //   and free evenNode  
      oddNode.next = evenNode.next;
      evenNode = null;

      //3. and make temp as oddNode and oddNode as 
      //   next of oddNode
      temp = oddNode;
      oddNode = oddNode.next;
      
      //4. Update prev link, oddNode and evenNode
      if(oddNode != null){
        oddNode.prev = temp;
        evenNode = oddNode.next;
      }
    }
  }
}   

The below is a complete program that uses above discussed concept of deleting even nodes of a doubly linked list.

//node structure
class Node {
    int data;
    Node next;
    Node prev;
};

class LinkedList {
  Node head;

  LinkedList(){
    head = null;
  }

  //Add new element at the end of the list
  void push_back(int newElement) {
    Node newNode = new Node();
    newNode.data = newElement;
    newNode.next = null;
    newNode.prev = null; 
    if(head == null) {
      head = newNode;
    } else {
      Node temp = new Node();
      temp = head;
      while(temp.next != null)
        temp = temp.next;
      temp.next = newNode;
      newNode.prev = temp;
    }    
  }
  
  //delete even nodes of the list
  void deleteEvenNodes() {
    if(this.head != null) {
      Node oddNode = this.head;
      Node evenNode = this.head.next; 
      Node temp = new Node();
      while(oddNode != null && evenNode != null) {
        oddNode.next = evenNode.next;
        evenNode = null;

        temp = oddNode;
        oddNode = oddNode.next;
        if(oddNode != null){
          oddNode.prev = temp;
          evenNode = oddNode.next;
        }
      }
    }
  }   

  //display the content of the list
  void PrintList() {
    Node temp = new Node();
    temp = this.head;
    if(temp != null) {
      System.out.print("The list contains: ");
      while(temp != null) {
        System.out.print(temp.data + " ");
        temp = temp.next;
      }
      System.out.println();
    } else {
      System.out.println("The list is empty.");
    }
  }    
};

// test the code 
public class Implementation {
  public static void main(String[] args) {
    LinkedList MyList = new LinkedList();

    //Add five elements in the list.
    MyList.push_back(10);
    MyList.push_back(20);
    MyList.push_back(30);
    MyList.push_back(40);
    MyList.push_back(50);

    //Display the content of the list.
    MyList.PrintList();

    //delete even nodes of the list
    MyList.deleteEvenNodes();
 
    System.out.println("After deleting even nodes.");
    //Display the content of the list.
    MyList.PrintList();
  }
}

The above code will give the following output:

The list contains: 10 20 30 40 50 
After deleting even nodes.
The list contains: 10 30 50