Class MinMaxPriorityQueue<E>
- java.lang.Object
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- java.util.AbstractCollection<E>
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- java.util.AbstractQueue<E>
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- com.google.common.collect.MinMaxPriorityQueue<E>
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- All Implemented Interfaces:
java.lang.Iterable<E>
,java.util.Collection<E>
,java.util.Queue<E>
@Beta public final class MinMaxPriorityQueue<E> extends java.util.AbstractQueue<E>
A double-ended priority queue, which provides constant-time access to both its least element and its greatest element, as determined by the queue's specified comparator. If no comparator is given at construction time, the natural order of elements is used.As a
Queue
it functions exactly as aPriorityQueue
: its head element -- the implicit target of the methodspeek()
,poll()
andAbstractQueue.remove()
-- is defined as the least element in the queue according to the queue's comparator. But unlike a regular priority queue, the methodspeekLast()
,pollLast()
andremoveLast()
are also provided, to act on the greatest element in the queue instead.A min-max priority queue can be configured with a maximum size. If so, each time the size of the queue exceeds that value, the queue automatically removes its greatest element according to its comparator (which might be the element that was just added). This is different from conventional bounded queues, which either block or reject new elements when full.
This implementation is based on the min-max heap developed by Atkinson, et al. Unlike many other double-ended priority queues, it stores elements in a single array, as compact as the traditional heap data structure used in
PriorityQueue
.This class is not thread-safe, and does not accept null elements.
Performance notes:
- The retrieval operations
peek()
,peekFirst()
,peekLast()
,AbstractQueue.element()
, andsize
are constant-time - The enqueing and dequeing operations (
offer(E)
,add(E)
, and all the forms ofpoll()
andAbstractQueue.remove()
) run inO(log n) time
- The
AbstractCollection.remove(Object)
andAbstractCollection.contains(java.lang.Object)
operations require linear (O(n)
) time - If you only access one end of the queue, and don't use a maximum size,
this class is functionally equivalent to
PriorityQueue
, but significantly slower.
- Since:
- 8.0
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Nested Class Summary
Nested Classes Modifier and Type Class Description static class
MinMaxPriorityQueue.Builder<B>
The builder class used in creation of min-max priority queues.
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Method Summary
All Methods Static Methods Instance Methods Concrete Methods Modifier and Type Method Description boolean
add(E element)
Adds the given element to this queue.boolean
addAll(java.util.Collection<? extends E> newElements)
void
clear()
java.util.Comparator<? super E>
comparator()
Returns the comparator used to order the elements in this queue.static <E extends java.lang.Comparable<E>>
MinMaxPriorityQueue<E>create()
Creates a new min-max priority queue with default settings: natural order, no maximum size, no initial contents, and an initial expected size of 11.static <E extends java.lang.Comparable<E>>
MinMaxPriorityQueue<E>create(java.lang.Iterable<? extends E> initialContents)
Creates a new min-max priority queue using natural order, no maximum size, and initially containing the given elements.static MinMaxPriorityQueue.Builder<java.lang.Comparable>
expectedSize(int expectedSize)
Creates and returns a new builder, configured to buildMinMaxPriorityQueue
instances sized appropriately to holdexpectedSize
elements.java.util.Iterator<E>
iterator()
Returns an iterator over the elements contained in this collection, in no particular order.static MinMaxPriorityQueue.Builder<java.lang.Comparable>
maximumSize(int maximumSize)
Creates and returns a new builder, configured to buildMinMaxPriorityQueue
instances that are limited tomaximumSize
elements.boolean
offer(E element)
Adds the given element to this queue.static <B> MinMaxPriorityQueue.Builder<B>
orderedBy(java.util.Comparator<B> comparator)
Creates and returns a new builder, configured to buildMinMaxPriorityQueue
instances that usecomparator
to determine the least and greatest elements.E
peek()
E
peekFirst()
Retrieves, but does not remove, the least element of this queue, or returnsnull
if the queue is empty.E
peekLast()
Retrieves, but does not remove, the greatest element of this queue, or returnsnull
if the queue is empty.E
poll()
E
pollFirst()
Removes and returns the least element of this queue, or returnsnull
if the queue is empty.E
pollLast()
Removes and returns the greatest element of this queue, or returnsnull
if the queue is empty.E
removeFirst()
Removes and returns the least element of this queue.E
removeLast()
Removes and returns the greatest element of this queue.int
size()
java.lang.Object[]
toArray()
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Methods inherited from class java.util.AbstractCollection
contains, containsAll, isEmpty, remove, removeAll, retainAll, toArray, toString
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Methods inherited from class java.lang.Object
equals, getClass, hashCode, notify, notifyAll, wait, wait, wait
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Method Detail
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create
public static <E extends java.lang.Comparable<E>> MinMaxPriorityQueue<E> create()
Creates a new min-max priority queue with default settings: natural order, no maximum size, no initial contents, and an initial expected size of 11.
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create
public static <E extends java.lang.Comparable<E>> MinMaxPriorityQueue<E> create(java.lang.Iterable<? extends E> initialContents)
Creates a new min-max priority queue using natural order, no maximum size, and initially containing the given elements.
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orderedBy
public static <B> MinMaxPriorityQueue.Builder<B> orderedBy(java.util.Comparator<B> comparator)
Creates and returns a new builder, configured to buildMinMaxPriorityQueue
instances that usecomparator
to determine the least and greatest elements.
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expectedSize
public static MinMaxPriorityQueue.Builder<java.lang.Comparable> expectedSize(int expectedSize)
Creates and returns a new builder, configured to buildMinMaxPriorityQueue
instances sized appropriately to holdexpectedSize
elements.
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maximumSize
public static MinMaxPriorityQueue.Builder<java.lang.Comparable> maximumSize(int maximumSize)
Creates and returns a new builder, configured to buildMinMaxPriorityQueue
instances that are limited tomaximumSize
elements. Each time a queue grows beyond this bound, it immediately removes its greatest element (according to its comparator), which might be the element that was just added.
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size
public int size()
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add
public boolean add(E element)
Adds the given element to this queue. If this queue has a maximum size, after addingelement
the queue will automatically evict its greatest element (according to its comparator), which may beelement
itself.
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addAll
public boolean addAll(java.util.Collection<? extends E> newElements)
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offer
public boolean offer(E element)
Adds the given element to this queue. If this queue has a maximum size, after addingelement
the queue will automatically evict its greatest element (according to its comparator), which may beelement
itself.
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poll
public E poll()
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peek
public E peek()
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pollFirst
public E pollFirst()
Removes and returns the least element of this queue, or returnsnull
if the queue is empty.
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removeFirst
public E removeFirst()
Removes and returns the least element of this queue.- Throws:
java.util.NoSuchElementException
- if the queue is empty
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peekFirst
public E peekFirst()
Retrieves, but does not remove, the least element of this queue, or returnsnull
if the queue is empty.
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pollLast
public E pollLast()
Removes and returns the greatest element of this queue, or returnsnull
if the queue is empty.
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removeLast
public E removeLast()
Removes and returns the greatest element of this queue.- Throws:
java.util.NoSuchElementException
- if the queue is empty
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peekLast
public E peekLast()
Retrieves, but does not remove, the greatest element of this queue, or returnsnull
if the queue is empty.
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iterator
public java.util.Iterator<E> iterator()
Returns an iterator over the elements contained in this collection, in no particular order.The iterator is fail-fast: If the MinMaxPriorityQueue is modified at any time after the iterator is created, in any way except through the iterator's own remove method, the iterator will generally throw a
ConcurrentModificationException
. Thus, in the face of concurrent modification, the iterator fails quickly and cleanly, rather than risking arbitrary, non-deterministic behavior at an undetermined time in the future.Note that the fail-fast behavior of an iterator cannot be guaranteed as it is, generally speaking, impossible to make any hard guarantees in the presence of unsynchronized concurrent modification. Fail-fast iterators throw
ConcurrentModificationException
on a best-effort basis. Therefore, it would be wrong to write a program that depended on this exception for its correctness: the fail-fast behavior of iterators should be used only to detect bugs.
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clear
public void clear()
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toArray
public java.lang.Object[] toArray()
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comparator
public java.util.Comparator<? super E> comparator()
Returns the comparator used to order the elements in this queue. Obeys the general contract ofPriorityQueue.comparator
, but returnsOrdering.natural()
instead ofnull
to indicate natural ordering.
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