StacksQueues/Java/LinkedQueue: Difference between revisions
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LinkedQueue is a linked list based queue class implemented in Java. | LinkedQueue is a linked list based queue class implemented in Java. | ||
==Interface== | ==Code== | ||
===Interface=== | |||
This class implements the standard queue methods: | This class implements the standard queue methods: | ||
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* rotate (rotate moves one element from front of queue to rear of queue) | * rotate (rotate moves one element from front of queue to rear of queue) | ||
==Test== | ===Test=== | ||
Here is a test of the LinkedQueue object that shows how it works; this manipulates a queue of integers. | Here is a test of the LinkedQueue object that shows how it works; this manipulates a queue of integers. | ||
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} | } | ||
</pre> | |||
===Implementation=== | |||
<pre> | |||
class LinkedQueue { | |||
Node<E> tail; | |||
int size; | |||
public LinkedQueue() { | |||
size = 0; | |||
}; | |||
public int size() { return size; } | |||
public boolean isEmpty() { return (size==0); } | |||
public String toString() { | |||
StringBuffer sb = new StringBuffer(); | |||
if(isEmpty()) { | |||
return "[ EMPTY QUEUE ]"; | |||
} else { | |||
sb.append("[ "); | |||
Node<E> runner = tail.getNext(); | |||
int k = 0; | |||
while(k<size && runner != null) { | |||
sb.append(runner); | |||
sb.append(" "); | |||
k++; | |||
runner = runner.getNext(); | |||
} | |||
sb.append(" ]"); | |||
return sb.toString(); | |||
} | |||
}; | |||
/** Add item e to the back of the linked list. */ | |||
public void enqueue(E e) { | |||
if(isEmpty()) { | |||
Node<E> newtail = new Node<E>(e); | |||
// everybody point at the new node | |||
tail = newtail; | |||
// tail will link to itself in a 1 item list | |||
tail.setNext(tail); | |||
} else { | |||
Node<E> newtail = new Node<E>(e, tail.getNext()); | |||
// link the new tail | |||
tail.setNext(newtail); | |||
// advance tail pointer | |||
tail = tail.getNext(); | |||
} | |||
size++; | |||
} | |||
/** Remove item e from the front of the linked list. */ | |||
public E dequeue() { | |||
if(isEmpty()) { | |||
throw new Empty(); | |||
} else if(size==1) { | |||
E res = tail.getData(); | |||
tail = null; | |||
size--; | |||
return res; | |||
} else { | |||
// length of list is at least 2 items. | |||
// if length = 2, we will end up linking tail to itself, which is fine. | |||
Node<E> rm = tail.getNext(); | |||
Node<E> newhead = rm.getNext(); | |||
tail.setNext(newhead); | |||
size--; | |||
return rm.getData(); | |||
} | |||
} | |||
/** Rotate the deque by skipping the next item in line and putting it in back. */ | |||
public void rotate() { | |||
if(isEmpty()) { | |||
throw new Empty(); | |||
} | |||
// The whole point of using a circular linked list is to avoid creating | |||
// a new node to do this kind of operation. | |||
// So don't call enqueue(dequeue()) !!! | |||
// | |||
// Simply advance the tail pointer forward by one. | |||
tail = tail.getNext(); | |||
} | |||
} | |||
</pre> | </pre> | ||
Revision as of 05:53, 4 June 2017
Link: https://charlesreid1.com:3000/cs/java/src/master/stacks-queues-deques/queues/LinkedQueue.java
LinkedQueue is a linked list based queue class implemented in Java.
Code
Interface
This class implements the standard queue methods:
- add/enqueue
- remove/dequeue
as well as the convenience methods:
- size
- isEmpty
- rotate (rotate moves one element from front of queue to rear of queue)
Test
Here is a test of the LinkedQueue object that shows how it works; this manipulates a queue of integers.
public static void main(String[] args) {
LinkedQueue<Integer> q = new LinkedQueue<Integer>();
System.out.println(q);
q.enqueue(100);
q.enqueue(100);
q.enqueue(100);
System.out.println(q);
for(int i=0; i<10; i++) {
q.enqueue(i);
}
System.out.println(q);
q.dequeue();
q.dequeue();
q.dequeue();
System.out.println(q);
for(int i=0; i<3; i++) {
q.dequeue();
}
System.out.println(q);
System.out.println("Rotate:");
q.rotate();
System.out.println(q);
q.rotate();
System.out.println(q);
q.rotate();
System.out.println(q);
System.out.println("Size = " + q.size());
}
Implementation
class LinkedQueue {
Node<E> tail;
int size;
public LinkedQueue() {
size = 0;
};
public int size() { return size; }
public boolean isEmpty() { return (size==0); }
public String toString() {
StringBuffer sb = new StringBuffer();
if(isEmpty()) {
return "[ EMPTY QUEUE ]";
} else {
sb.append("[ ");
Node<E> runner = tail.getNext();
int k = 0;
while(k<size && runner != null) {
sb.append(runner);
sb.append(" ");
k++;
runner = runner.getNext();
}
sb.append(" ]");
return sb.toString();
}
};
/** Add item e to the back of the linked list. */
public void enqueue(E e) {
if(isEmpty()) {
Node<E> newtail = new Node<E>(e);
// everybody point at the new node
tail = newtail;
// tail will link to itself in a 1 item list
tail.setNext(tail);
} else {
Node<E> newtail = new Node<E>(e, tail.getNext());
// link the new tail
tail.setNext(newtail);
// advance tail pointer
tail = tail.getNext();
}
size++;
}
/** Remove item e from the front of the linked list. */
public E dequeue() {
if(isEmpty()) {
throw new Empty();
} else if(size==1) {
E res = tail.getData();
tail = null;
size--;
return res;
} else {
// length of list is at least 2 items.
// if length = 2, we will end up linking tail to itself, which is fine.
Node<E> rm = tail.getNext();
Node<E> newhead = rm.getNext();
tail.setNext(newhead);
size--;
return rm.getData();
}
}
/** Rotate the deque by skipping the next item in line and putting it in back. */
public void rotate() {
if(isEmpty()) {
throw new Empty();
}
// The whole point of using a circular linked list is to avoid creating
// a new node to do this kind of operation.
// So don't call enqueue(dequeue()) !!!
//
// Simply advance the tail pointer forward by one.
tail = tail.getNext();
}
}