Program Java untuk Melaksanakan struktur data antrian

Dalam contoh ini, kita akan belajar menerapkan struktur data antrian di Java.

Untuk memahami contoh ini, anda harus mempunyai pengetahuan mengenai topik pengaturcaraan Java berikut:

Antaramuka Antrian Java
Generik Java

Contoh 1: Program Java untuk melaksanakan Stack

 public class Queue ( int SIZE = 5; int items() = new int(SIZE); int front, rear; Queue() ( front = -1; rear = -1; ) // check if the queue is full boolean isFull() ( if (front == 0 && rear == SIZE - 1) ( return true; ) return false; ) // check if the queue is empty boolean isEmpty() ( if (front == -1) return true; else return false; ) // insert elements to the queue void enQueue(int element) ( // if queue is full if (isFull()) ( System.out.println("Queue is full"); ) else ( if (front == -1) ( // mark front denote first element of queue front = 0; ) rear++; // insert element at the rear items(rear) = element; System.out.println("Insert " + element); ) ) // delete element from the queue int deQueue() ( int element; // if queue is empty if (isEmpty()) ( System.out.println("Queue is empty"); return (-1); ) else ( // remove element from the front of queue element = items(front); // if the queue has only one element if (front>= rear) ( front = -1; rear = -1; ) else ( // mark next element as the front front++; ) System.out.println( element + " Deleted"); return (element); ) ) // display element of the queue void display() ( int i; if (isEmpty()) ( System.out.println("Empty Queue"); ) else ( // display the front of the queue System.out.println("Front index-> " + front); // display element of the queue System.out.println("Items -> "); for (i = front; i " + rear); ) ) public static void main(String() args) ( // create an object of Queue class Queue q = new Queue(); // try to delete element from the queue // currently queue is empty // so deletion is not possible q.deQueue(); // insert elements to the queue for(int i = 1; i < 6; i ++) ( q.enQueue(i); ) // 6th element can't be added to queue because queue is full q.enQueue(6); q.display(); // deQueue removes element entered first i.e. 1 q.deQueue(); // Now we have just 4 elements q.display(); ) )

Pengeluaran

 Antrian kosong Masukkan 1 Masukkan 2 Masukkan 3 Masukkan 4 Masukkan 5 Antrian penuh Indeks hadapan-> 0 Item -> 1 2 3 4 5 Indeks belakang-> 4 1 Indeks hadapan dihapus-> 1 Item -> 2 3 4 5 Indeks belakang -> 4

Dalam contoh di atas, kami telah menerapkan struktur data antrian di Java.

Untuk mengetahui cara beratur, lawati Struktur Data Antrian.

Contoh 2: Laksanakan stack menggunakan antara muka Queue

Java menyediakan Queueantara muka binaan yang dapat digunakan untuk mengimplementasikan antrian.

 import java.util.Queue; import java.util.LinkedList; class Main ( public static void main(String() args) ( // Creating Queue using the LinkedList class Queue numbers = new LinkedList(); // enqueue // insert element at the rear of the queue numbers.offer(1); numbers.offer(2); numbers.offer(3); System.out.println("Queue: " + numbers); // dequeue // delete element from the front of the queue int removedNumber = numbers.poll(); System.out.println("Removed Element: " + removedNumber); System.out.println("Queue after deletion: " + numbers); ) )

Pengeluaran

 Antrian: (1, 2, 3) Elemen yang Dihapus: 1 Antrian selepas penghapusan: (2, 3)

Dalam contoh di atas, kami telah menggunakan Queueantara muka untuk melaksanakan antrian di Java. Di sini, kami telah menggunakan LinkedListkelas yang menerapkan Queueantara muka.