org.apache.jasper.util.FastRemovalDequeue Maven / Gradle / Ivy
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.jasper.util;
/**
* The FastRemovalDequeue is a Dequeue that supports constant time removal of
* entries. This is achieved by using a doubly linked list and wrapping any object
* added to the collection with an Entry type, that is returned to the consumer.
* When removing an object from the list, the consumer provides this Entry object.
*
* The Entry type is nearly opaque to the consumer of the queue. The only public
* member is the getter for any object displaced when adding a new object to the
* queue. This can be used to destroy that object.
*
* The Entry object contains the links pointing to the neighbours in the doubly
* linked list, so that removal of an Entry does not need to search for it but
* instead can be done in constant time.
*
* The implementation is fully thread-safe.
*
* Invalidation of Entry objects during removal from the list is done
* by setting their "valid" field to false. All public methods which take Entry
* objects as arguments are NOP if the entry is no longer valid.
*
* A typical use of the FastRemovalDequeue is a list of entries in sorted order,
* where the sort position of an object will only switch to first or last.
*
* Whenever the sort position needs to change, the consumer can remove the object
* and reinsert it in front or at the end in constant time.
* So keeping the list sorted is very cheap.
*
* @param The type of elements in the queue
*/
public class FastRemovalDequeue {
/** Maximum size of the queue */
private final int maxSize;
/** First element of the queue. */
protected Entry first;
/** Last element of the queue. */
protected Entry last;
/** Size of the queue */
private int size;
/**
* Initialize empty queue.
*
* @param maxSize The maximum size to which the queue will be allowed to
* grow
*/
public FastRemovalDequeue(int maxSize) {
if (maxSize <=1 ) {
maxSize = 2;
}
this.maxSize = maxSize;
first = null;
last = null;
size = 0;
}
/**
* Retrieve the size of the list.
* This method also needs to be externally synchronized to
* ensure correct publication of changes.
*
* @return the size of the list.
* */
public synchronized int getSize() {
return size;
}
/**
* Adds an object to the start of the list and returns the entry created for
* said object. The entry can later be reused for moving the entry.
*
* @param object the object to prepend to the start of the list.
* @return an entry for use when the object should be moved.
* */
public synchronized Entry push(final T object) {
Entry entry = new Entry(object);
if (size >= maxSize) {
entry.setReplaced(pop());
}
if (first == null) {
first = last = entry;
} else {
first.setPrevious(entry);
entry.setNext(first);
first = entry;
}
size++;
return entry;
}
/**
* Adds an object to the end of the list and returns the entry created for
* said object. The entry can later be reused for moving the entry.
*
* @param object the object to append to the end of the list.
* @return an entry for use when the object should be moved.
* */
public synchronized Entry unpop(final T object) {
Entry entry = new Entry(object);
if (size >= maxSize) {
entry.setReplaced(unpush());
}
if (first == null) {
first = last = entry;
} else {
last.setNext(entry);
entry.setPrevious(last);
last = entry;
}
size++;
return entry;
}
/**
* Removes the first element of the list and returns its content.
*
* @return the content of the first element of the list.
**/
public synchronized T unpush() {
T content = null;
if (first != null) {
Entry element = first;
first = first.getNext();
content = element.getContent();
if (first == null) {
last =null;
} else {
first.setPrevious(null);
}
size--;
element.invalidate();
}
return content;
}
/**
* Removes the last element of the list and returns its content.
*
* @return the content of the last element of the list.
**/
public synchronized T pop() {
T content = null;
if (last != null) {
Entry element = last;
last = last.getPrevious();
content = element.getContent();
if (last == null) {
first = null;
} else {
last.setNext(null);
}
size--;
element.invalidate();
}
return content;
}
/**
* Removes any element of the list and returns its content.
*
* @param element The element to remove
*/
public synchronized void remove(final Entry element) {
if (element == null || !element.getValid()) {
return;
}
Entry next = element.getNext();
Entry prev = element.getPrevious();
if (next != null) {
next.setPrevious(prev);
} else {
last = prev;
}
if (prev != null) {
prev.setNext(next);
} else {
first = next;
}
size--;
element.invalidate();
}
/**
* Moves the element in front.
*
* Could also be implemented as remove() and
* push(), but explicitly coding might be a bit faster.
*
* @param element the entry to move in front.
* */
public synchronized void moveFirst(final Entry element) {
if (element.getValid() &&
element.getPrevious() != null) {
Entry prev = element.getPrevious();
Entry next = element.getNext();
prev.setNext(next);
if (next != null) {
next.setPrevious(prev);
} else {
last = prev;
}
first.setPrevious(element);
element.setNext(first);
element.setPrevious(null);
first = element;
}
}
/**
* Moves the element to the back.
*
* Could also be implemented as remove() and
* unpop(), but explicitly coding might be a bit faster.
*
* @param element the entry to move to the back.
* */
public synchronized void moveLast(final Entry element) {
if (element.getValid() &&
element.getNext() != null) {
Entry next = element.getNext();
Entry prev = element.getPrevious();
next.setPrevious(prev);
if (prev != null) {
prev.setNext(next);
} else {
first = next;
}
last.setNext(element);
element.setPrevious(last);
element.setNext(null);
last = element;
}
}
/**
* Implementation of a doubly linked list entry.
* All implementation details are private.
* For the consumer of the above collection, this
* is simply garbage in, garbage out.
*/
public class Entry {
/** Is this entry still valid? */
private boolean valid = true;
/** The content this entry is valid for. */
private final T content;
/** Optional content that was displaced by this entry */
private T replaced = null;
/** Pointer to next element in queue. */
private Entry next = null;
/** Pointer to previous element in queue. */
private Entry previous = null;
private Entry(T object) {
content = object;
}
private boolean getValid() {
return valid;
}
private void invalidate() {
this.valid = false;
this.previous = null;
this.next = null;
}
public final T getContent() {
return content;
}
public final T getReplaced() {
return replaced;
}
private void setReplaced(final T replaced) {
this.replaced = replaced;
}
public final void clearReplaced() {
this.replaced = null;
}
private Entry getNext() {
return next;
}
private void setNext(final Entry next) {
this.next = next;
}
private Entry getPrevious() {
return previous;
}
private void setPrevious(final Entry previous) {
this.previous = previous;
}
@Override
public String toString() {
return "Entry-" + content.toString();
}
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy