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Queue is a collection for holding elements prior to processing. Besides
basic Collection operations, queues provide additional insertion,
removal, and inspection operations. The Queue interface follows.
public interface Queue<E> extends Collection<E> {
E element();
boolean offer(E e);
E peek();
E poll();
E remove();
}
Queue method exists in two forms: (1) one throws an exception if the operation fails, and (2) the other returns a special value if the operation fails (either null
or false, depending on the operation). The regular structure of the
interface is illustrated in
the following table.
| Throws exception | Returns special value | |
| Insert | add(e) |
offer(e) |
| Remove | remove() |
poll() |
| Examine | element() |
peek() |
remove or poll. In a FIFO queue, all new elements are inserted at the tail of the queue. Other kinds of queues may use different placement rules. Every Queue implementation must specify its ordering properties.
It is possible for a Queue implementation to restrict the number of elements that it holds; such queues are known as bounded. Some Queue implementations in java.util.concurrent are bounded, but the implementations in java.util are not.
The add method, which Queue inherits from
Collection, inserts an element unless it would violate the
queue's capacity restrictions, in which case it throws
IllegalStateException. The offer method,
which is intended solely for use on bounded queues,
differs from add only in that it indicates failure to insert an element by returning false.
The remove and poll methods both remove and return
the head of the queue. Exactly which element gets removed is a function of
the queue's ordering policy. The remove and poll
methods differ in their behavior only when the queue is empty. Under these
circumstances, remove throws NoSuchElementException,
while poll returns null.
The element and peek methods return, but do not remove, the head of the queue. They differ from one another in precisely the same fashion as remove and poll: If the queue is empty, element throws NoSuchElementException, while
peek returns null.
Queue implementations generally do not allow insertion of null elements. The LinkedList implementation, which was retrofitted to implement Queue, is an exception. For historical reasons, it permits null elements, but you should refrain from taking advantage of this, because null is used as a special return value by the poll and peek methods.
Queue implementations generally do not define element-based versions of the
equals and hashCode methods but instead inherit the
identity-based versions from Object.
The Queue interface does not define the blocking queue methods,
which are common in concurrent programming. These methods, which wait for
elements to appear or for space to become available, are defined in the interface
java.util.concurrent.BlockingQueue, which extends Queue.
In the following example program, a queue is used to implement a countdown timer. The queue is preloaded with all the integer values from a number specified on the command line to zero, in descending order. Then, the values are removed from the queue and printed at one-second intervals. The program is artificial in that it would be more natural to do the same thing without using a queue, but it illustrates the use of a queue to store elements prior to subsequent processing.
import java.util.*;
public class Countdown {
public static void main(String[] args)
throws InterruptedException {
int time = Integer.parseInt(args[0]);
Queue<Integer> queue = new LinkedList<Integer>();
for (int i = time; i >= 0; i--)
queue.add(i);
while (!queue.isEmpty()) {
System.out.println(queue.remove());
Thread.sleep(1000);
}
}
}
sort method provided in
Collections, but it illustrates the behavior of priority queues.
static <E> List<E> heapSort(Collection<E> c) {
Queue<E> queue = new PriorityQueue<E>(c);
List<E> result = new ArrayList<E>();
while (!queue.isEmpty())
result.add(queue.remove());
return result;
}
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