Difference Between ArrayBlockingQueue and LinkedBlockingQueue

ArrayBlockingQueue and LinkedBlockingQueue in Java Collection are the common implementations of the BlockingQueue interface.

ArrayBlockingQueue: ArrayBlockingQueue is a class in Java that implements the BlockingQueue interface. ArrayBlockingQueue class and its iterator implement all the optional methods of the Collection and Iterator interfaces. ArrayBlockingQueue is a bounded BlockingQueue backed by an array. Here, bounded means the size of the Queue is finite and fixed. Once created, we cannot grow or shrink the size of the Queue. If we try to insert an element into a full Queue then it will result in the operation blocking. Similarly, if we try to take an element from an empty Queue, then also the operation will be blocked. ArrayBlockingQueue stores the elements in the Queue internally in the FIFO (first-in-first-out) order. The element at the head or front of the Queue is the oldest element of all the elements present in this queue. The element at the tail of this queue is the newest element of all the elements of this queue. The new elements are always inserted at the end or tail of the queue and the retrieval operations obtain elements at the head of the queue.

LinkedBlockingQueue: LinkedBlockingQueue is a class in Java that implements the BlockingQueue interface. LinkedBlockingQueue is an optionally-bounded BlockingQueue backed by linked nodes. Here, optionally-bounded means the capacity given to LinkedBlockingQueue is bounded, otherwise, it will be unbounded. The capacity can be given as a parameter to the constructor of LinkedBlockingQueue. The capacity, if unspecified, is equal to Integer.MAX_VALUE. LinkedBlockingQueue class and its iterator implement all the optional methods of the Collection and Iterator interfaces. LinkedBlockingQueue stores the elements in the Queue internally in the FIFO (first-in-first-out) order. The element at the head or front of the Queue is the oldest element of all the elements present in this queue. The element at the tail of this queue is the newest element of all the elements of this queue. The new elements are always inserted at the end or tail of the queue and the retrieval operations obtain elements at the head of the queue. Linked queues typically have higher throughput than array-based queues but less predictable performance in most concurrent applications.

LinkedBlockingQueue Demo

// Java program to demonstrate LinkedBlockingQueue

import java.util.concurrent.LinkedBlockingQueue;

public class LinkedBlockingQueueDemo {

    public static void main(String[] args)
    {
        // define capacity of LinkedBlockingQueue
        int capacity = 15;

        // create object of LinkedBlockingQueue
        LinkedBlockingQueue<Integer> lbq
            = new LinkedBlockingQueue<Integer>(capacity);

        // add numbers
        lbq.add(1);
        lbq.add(2);
        lbq.add(3);

        // print queue
        System.out.println("LinkedBlockingQueue:" + lbq);
    }
}

LinkedBlockingQueue:[1, 2, 3]

ArrayBlockingQueue Demo

// Java program to demonstrate
// ArrayBlockingQueue

import java.util.concurrent.ArrayBlockingQueue;

public class ArrayBlockingQueueDemo {

    public static void main(String[] args)
    {
        // define capacity of ArrayBlockingQueue
        int capacity = 15;

        // create object of ArrayBlockingQueue
        // using ArrayBlockingQueue(int initialCapacity)
        // constructor
        ArrayBlockingQueue<Integer> abq
            = new ArrayBlockingQueue<Integer>(capacity);

        // add numbers
        abq.add(1);
        abq.add(2);
        abq.add(3);

        // print queue
        System.out.println("ArrayBlockingQueue:" + abq);
    }
}

ArrayBlockingQueue:[1, 2, 3]

Difference between ArrayBlockingQueue and LinkedBlockingQueue: