Implémentation de la matrice de file d'attente Java

class Queue { 
    private static int front, rear, capacity; 
    private static int queue[]; 
   
    Queue(int size) { 
        front = rear = 0; 
        capacity = size; 
        queue = new int[capacity]; 
    } 
   
    // insert an element into the queue
    static void queueEnqueue(int item)  { 
        // check if the queue is full
        if (capacity == rear) { 
            System.out.printf("\nQueue is full\n"); 
            return; 
        } 
   
        // insert element at the rear 
        else { 
            queue[rear] = item; 
            rear++; 
        } 
        return; 
    } 
   
    //remove an element from the queue
    static void queueDequeue()  { 
        // check if queue is empty 
        if (front == rear) { 
            System.out.printf("\nQueue is empty\n"); 
            return; 
        } 
   
        // shift elements to the right by one place uptil rear 
        else { 
            for (int i = 0; i < rear - 1; i++) { 
                queue[i] = queue[i + 1]; 
            } 
   
       
      // set queue[rear] to 0
            if (rear < capacity) 
                queue[rear] = 0; 
   
            // decrement rear 
            rear--; 
        } 
        return; 
    } 
   
    // print queue elements 
    static void queueDisplay() 
    { 
        int i; 
        if (front == rear) { 
            System.out.printf("Queue is Empty\n"); 
            return; 
        } 
   
        // traverse front to rear and print elements 
        for (i = front; i < rear; i++) { 
            System.out.printf(" %d = ", queue[i]); 
        } 
        return; 
    } 
   
    // print front of queue 
    static void queueFront() 
    { 
        if (front == rear) { 
            System.out.printf("Queue is Empty\n"); 
            return; 
        } 
        System.out.printf("\nFront Element of the queue: %d", queue[front]); 
        return; 
    } 
} 
 
public class Main {
    public static void main(String[] args) { 
        // Create a queue of capacity 4 
        Queue q = new Queue(4); 
   
        System.out.println("Initial Queue:");
       // print Queue elements 
        q.queueDisplay(); 
   
        // inserting elements in the queue 
        q.queueEnqueue(10); 
        q.queueEnqueue(30); 
        q.queueEnqueue(50); 
        q.queueEnqueue(70); 
   
        // print Queue elements 
        System.out.println("Queue after Enqueue Operation:");
        q.queueDisplay(); 
   
        // print front of the queue 
        q.queueFront(); 
         
        // insert element in the queue 
        q.queueEnqueue(90); 
   
        // print Queue elements 
        q.queueDisplay(); 
   
        q.queueDequeue(); 
        q.queueDequeue(); 
        System.out.printf("\nQueue after two dequeue operations:"); 
   
        // print Queue elements 
        q.queueDisplay(); 
   
        // print front of the queue 
        q.queueFront(); 
    } 
}
Fo Angel