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How to Implement Queue in Java using Array and Generics?

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The queue is a linear data structure that follows the FIFO rule (first in first out). We can implement Queue for not only Integers but also Strings, Float, or Characters. There are 5 primary operations in Queue:

  1. enqueue() adds element x to the front of the queue
  2. dequeue() removes the last element of the queue
  3. front() returns the front element
  4. rear() returns the rear element
  5. empty() returns whether the queue is empty or not

Note: Time complexity is of order 1 for all operations

Implementation:

Example

Java




// Java Program to Implement Queue using Array and Generics
 
// Importing input output classes
import java.io.*;
// Importing all utility classes
import java.util.*;
 
// Class 1
// Helper Class(user defined - generic queue class)
class queue<T> {
    // front and rear variables are initially initiated to
    // -1 pointing to no element that control queue
    int front = -1, rear = -1;
 
    // Creating an object of ArrayList class of T type
    ArrayList<T> A = new ArrayList<>();
 
    // Method 1
    // Returns value of element at front
    T front()
    {
        // If it is not pointing to any element in queue
        if (front == -1)
 
            return null;
 
        // else return the front element
        return A.get(front);
    }
    // Method 2
    // Returns value of element at rear
    T rear()
    {
        // If it is not pointing to any element in queue
        if (rear == -1)
            return null;
        return A.get(rear);
    }
    // Method 3
    // Inserts element at the front of queue
    void enqueue(T X)
    {
        // If queue is empty
        if (this.empty()) {
            front = 0;
            rear = 0;
            A.add(X);
        }
 
        // If queue is not empty
        else {
            front++;
            if (A.size() > front) {
 
                // Mov front pointer to next
                A.set(front, X);
            }
            else
 
                // Add element to the queue
                A.add(X);
        }
    }
    // Method 4
    // Deletes elements from the rear from queue
    void dequeue()
    {
        // if queue doesn't have any elements
        if (this.empty())
 
            // Display message when queue is already empty
            System.out.println("Queue is already empty");
 
        // If queue has only one element
        else if (front == rear) {
 
            // Both are pointing to same element
            front = rear = -1;
        }
 
        // If queue has more than one element
        else {
 
            // Increment the rear
            rear++;
        }
    }
 
    // Method 5
    // Checks whether the queue is empty
    boolean empty()
    {
        // Both are initialized to same value
        // as assigned at declaration means no queue made
        if (front == -1 && rear == -1)
            return true;
        return false;
    }
    // Method 6
    // Print the queue
 
    // @Override
    public String toString()
    {
        if (this.empty())
            return "";
 
        String Ans = "";
 
        for (int i = rear; i < front; i++) {
            Ans += String.valueOf(A.get(i)) + "->";
        }
 
        Ans += String.valueOf(A.get(front));
 
        return Ans;
    }
}
 
// Class 2
// Main class
class GFG {
 
    // Main driver method
    public static void main(String args[])
    {
        // Case 1 : Integer Queue
 
        // Creating object of queue Class (user defined)
        // Declaring object of integer type
        queue<Integer> q1 = new queue<>();
 
        // Pushing elements to the integer object created
        // Custom input integer entries
        q1.enqueue(5);
        q1.enqueue(10);
        q1.enqueue(20);
 
        // Print the queue after inserting integer elements
        System.out.println(
            "q1 after enqueue of 3 elements:\n" + q1);
        q1.dequeue();
        System.out.println("q1 after dequeue :\n" + q1);
 
        // Case 2 : String Queue
 
        // Creating object of queue Class (user defined)
        // Declaring object of string type
        queue<String> q2 = new queue<>();
 
        // Pushing elements to the String object created
        // Custom input string entries
        q2.enqueue("hello");
        q2.enqueue("world");
        q2.enqueue("GFG");
 
        // Print the queue after inserting string elements
        System.out.println(
            "\nq2 after enqueue of 3 elements:\n" + q2);
 
        // Printing front and rear of the above queue
        System.out.println("q2 front = " + q2.front()
                           + ", q2 rear = " + q2.rear());
 
        // Case 3 : Float Queue
 
        // Creating object of queue Class (user defined)
        // Declaring object of float type
        queue<Float> q3 = new queue<>();
 
        // Display message only
        System.out.println(
            "\nCreated new Float type queue q3...");
 
        // Display whether queue is empty or not
        // using the empty() method
        System.out.println(
            "Checking if queue is empty or not :\n"
            + q3.empty());
    }
}


Output

q1 after enqueue of 3 elements:
5->10->20
q1 after dequeue :
10->20

q2 after enqueue of 3 elements:
hello->world->GFG
q2 front = GFG, q2 rear = hello

Created new Float type queue q3...
Checking if queue is empty or not :
true

Time Complexity: O(n) for traversing and rest O(1) for rest other operations
Auxiliary Space: O(1)



Last Updated : 14 Feb, 2023
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