The queue data structure uses the First In First Out (FIFO) principle. It is used to hold the object to be processed in order of their arrival; this is very similar to the line of people standing in a queue. As Java provides large support for data structure in the form of the Collection interface, the queue is an interface available in the Collection interface. It extends the Collection interface. It is available in Java.util package and supports all the operations available in the Collection interface, along with some additional extraction, insertion, and inspection operations.
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Syntax:
Interface Queue<E>
The queue is an interface, not a class, so it cannot be instantiated directly. The declaration shows that the queue accepts values as generic similar to collections, and we can pass any object to it. Java has multiple implementations of the Queue interface, which we can use while using the Queues. They are LinkedList and PriorityQueue.
A queue can be declared as below:
Queue< Object > q = new LinkedList<>();
Queue< Object > q = new PriorityQueue<>();
Queue Member Types in Java
Below are all the methods available in the queue:
|
Returns special value | Throws exception | ||||||||||||
Insert | offer(e) | add(e) | ||||||||||||
Remove | poll() | remove() | ||||||||||||
Examine | peek() | element() |
So as explained, two types of methods throw an exception and return a special value. There are three types of operation in this kind of operation: insertion, the second is removal, and the third is retrieval or examination. In the case of the remove operation, an object will be removed from the queue. Still, in the case of examination, the object will be returned without actually removing from the queue.
Given below are the different examples of Queue in Java:
Code:
import java.util.LinkedList; import java.util.Queue; public class QueueOperations { public static void main(String[] args) { Queue<Integer> q = new LinkedList<Integer> (); q.add(5); q.add(2); q.add(1); q.add(4); q.add(3); System.out.println(q); } }
Output:
Note here that the order of insertion is the same with output from left to write.
Code:
import java.util.LinkedList; import java.util.Queue; public class QueueOperations { public static void main(String[] args) { Queue<Integer> q = new LinkedList<Integer> (); q.add(5); q.add(2); q.add(1); q.add(4); q.add(3); System.out.println(q); while (!q.isEmpty()) { System.out.print(q.remove() + " "); } System.out.println(""); System.out.println(q); } }
Output:
Here, we have used the function isEmpty() to check when the queue becomes empty after removing elements. The removal order is the same as per the insertion. After removing all the elements, we printed the queue and obtained an empty bracket at the end.
Code:
import java.util.PriorityQueue; import java.util.Queue; public class QueueOperations { public static void main(String[] args) { Queue<Integer> q = new PriorityQueue<Integer> (); q.add(5); q.add(2); q.add(1); q.add(4); q.add(3); System.out.println(q); while (!q.isEmpty()) { System.out.print(q.remove() + " "); } System.out.println(""); System.out.println(q); } }
Output:
Here, we have used PriorityQueue, which will hold and return the elements depending upon the elements’ natural ordering or upon the comparator, if any passed. Note the insertion order and removal orders are not the same. The removal is based totally on the value of elements.
Code:
import java.util.LinkedList; import java.util.Queue; public class QueueOperations { public static void main(String[] args) { Queue<Integer> q = new LinkedList<Integer> (); q.add(5); q.add(2); q.add(1); q.add(4); q.add(3); System.out.println(q); System.out.println( q.peek() ); System.out.println(q); } }
Output:
Note here that we have used the peek() function, which will return the head of the queue without actually removing it. We printed the queue after performing the peek operation, and you can observe that the head element, which is 5, remains unchanged in the queue.
Code:
import java.util.PriorityQueue; import java.util.Queue; public class QueueOperations { public static void main(String[] args) { Queue<Integer> q = new PriorityQueue<Integer> (); q.add(5); q.add(2); q.add(1); q.add(4); q.add(3); System.out.println(q); System.out.println( q.peek() ); System.out.println(q); } }
Output:
This is similar to the previous example’s LinkedList operation, but note the head element is 1 because it’s a PriorityQueue.
Java utilizes the Queue interface as a means to maintain elements in insertion order. It supports operations like insertion, retrieval, and removal. There are alternative methods available for all the methods. We have seen examples of the most commonly used methods in queue operation.
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