Added Queues and Priority Queues

This commit is contained in:
Rian Gallagher 2016-11-21 21:52:33 +00:00
parent 816116ee31
commit 185124a7de
2 changed files with 154 additions and 0 deletions

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/*
* A priority queue adds elements into positions based on their priority.
* So the most important elements are placed at the front/on the top.
* In this example I give numbers that are bigger, a higher priority.
* Queues in theory have no fixed size but when using an array implementation it does.
*/
class PriorityQueue{
private int maxSize;
private int[] queueArray;
private int nItems;
public PriorityQueue(int size){ //Constructor
maxSize = size;
queueArray = new int[size];
nItems = 0;
}
public void insert(int value){ //Inserts an element in it's appropriate place
if(nItems == 0){
queueArray[0] = value;
}
else{
int j = nItems;
while(j > 0 && queueArray[j-1] > value){
queueArray[j] = queueArray[j-1];
j--;
}
queueArray[j] = value;
}
nItems++;
}
public int remove(){ //Remove the element from the front of the queue
return queueArray[--nItems];
}
public int peek(){ //Checks what's at the front of the queue
return queueArray[nItems-1];
}
public boolean isEmpty(){ //Returns true is the queue is empty
return(nItems == 0);
}
public boolean isFull(){ //Returns true is the queue is full
return(nItems == maxSize);
}
public int getSize(){ //Returns the number of elements in the queue
return nItems;
}
}
//Example
public class PriorityQueues{
public static void main(String args[]){
PriorityQueue myQueue = new PriorityQueue(4);
myQueue.insert(10);
myQueue.insert(2);
myQueue.insert(5);
myQueue.insert(3);
//[2, 3, 5, 10] Here higher numbers have higher priority, so they are on the top
for(int i = 3; i>=0; i--)
System.out.print(myQueue.remove() + " "); //will print the queue in reverse order [10, 5, 3, 2]
//As you can see, a Priority Queue can be used as a sorting algotithm
}
}

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/*
* A queue data structure functions the same as a real world queue.
* The elements that are added first are the first to be removed.
* New elements are added to the back/rear of the queue.
*/
class Queue{
private int maxSize;
private int[] queueArray;
private int front;
private int rear;
private int nItems;
public Queue(int size){ //Constructor
maxSize = size;
queueArray = new int[size];
front = 0;
rear = -1;
nItems = 0;
}
public boolean insert(int x){ //Inserts an element at the rear of the queue
if(isFull())
return false;
if(rear == maxSize-1) //If the back of the queue is the end of the array wrap around to the front
rear = -1;
rear++;
queueArray[rear] = x;
nItems++;
return true;
}
public int remove(){ //Remove an element from the front of the queue
if(isEmpty()){
System.out.println("Queue is empty");
return -1;
}
int temp = queueArray[front];
front++;
if(front == maxSize) //Dealing with wrap-around again
front = 0;
nItems--;
return temp;
}
public int peekFront(){ //Checks what's at the front of the queue
return queueArray[front];
}
public int peekRear(){ //Checks what's at the rear of the queue
return queueArray[rear];
}
public boolean isEmpty(){ //Returns true is the queue is empty
return(nItems == 0);
}
public boolean isFull(){ //Returns true is the queue is full
return(nItems == maxSize);
}
public int getSize(){ //Returns the number of elements in the queue
return nItems;
}
}
//Example
public class Queues{
public static void main(String args[]){
Queue myQueue = new Queue(4);
myQueue.insert(10);
myQueue.insert(2);
myQueue.insert(5);
myQueue.insert(3);
//[10(front), 2, 5, 3(rear)]
System.out.println(myQueue.isFull()); //Will print true
myQueue.remove(); //Will make 2 the new front, making 10 no longer part of the queue
//[10, 2(front), 5, 3(rear)]
myQueue.insert(7); //Insert 7 at the rear which will be index 0 because of wrap around
// [7(rear), 2(front), 5, 3]
System.out.println(myQueue.peekFront()); //Will print 2
System.out.println(myQueue.peekRear()); //Will print 7
}
}