Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to learn the how to use Priority Queues, and there is one method I do not fully understand and would like some help as to how it works. That method is findMin.

The part I want to understand is why the biggest number ends up in location 0 of the array?

Then, since the list is sorted, its easy to find the smallest number in location [1] of the array. But why?

Here is all the code I am looking at:

public class BinaryHeap<AnyType extends Comparable<? super AnyType>>
{
/**
 * Construct the binary heap.
 */
public BinaryHeap( )
{
    this( DEFAULT_CAPACITY );
}

/**
 * Construct the binary heap.
 * @param capacity the capacity of the binary heap.
 */
public BinaryHeap( int capacity )
{
    currentSize = 0;
    array = (AnyType[]) new Comparable[ capacity + 1 ];
}

/**
 * Construct the binary heap given an array of items.
 */
public BinaryHeap( AnyType [ ] items )
{
        currentSize = items.length;
        array = (AnyType[]) new Comparable[ ( currentSize + 2 ) * 11 / 10 ];

        int i = 1;
        for( AnyType item : items )
            array[ i++ ] = item;
        buildHeap( );
}

/**
 * Insert into the priority queue, maintaining heap order.
 * Duplicates are allowed.
 * @param x the item to insert.
 */
public void insert( AnyType x )
{
    if( currentSize == array.length - 1 )
        enlargeArray( array.length * 2 + 1 );

        // Percolate up
    int hole = ++currentSize;
    for( array[ 0 ] = x; x.compareTo( array[ hole / 2 ] ) < 0; hole /= 2 )
        array[ hole ] = array[ hole / 2 ];
    array[ hole ] = x;
}


private void enlargeArray( int newSize )
{
        AnyType [] old = array;
        array = (AnyType []) new Comparable[ newSize ];
        for( int i = 0; i < old.length; i++ )
            array[ i ] = old[ i ];        
}

/**
 * Find the smallest item in the priority queue.
 * @return the smallest item, or throw an UnderflowException if empty.
 */
public AnyType findMin( )
{
    if( isEmpty( ) )
        return null;
    return array[ 1 ];
}

/**
 * Remove the smallest item from the priority queue.
 * @return the smallest item, or throw an UnderflowException if empty.
 */
public AnyType deleteMin( )
{
    if( isEmpty( ) )
        return null;

    AnyType minItem = findMin( );
    array[ 1 ] = array[ currentSize-- ];
    percolateDown( 1 );

    return minItem;
}

/**
 * Establish heap order property from an arbitrary
 * arrangement of items. Runs in linear time.
 */
private void buildHeap( )
{
    for( int i = currentSize / 2; i > 0; i-- )
        percolateDown( i );
}

/**
 * Test if the priority queue is logically empty.
 * @return true if empty, false otherwise.
 */
public boolean isEmpty( )
{
    return currentSize == 0;
}

/**
 * Make the priority queue logically empty.
 */
public void makeEmpty( )
{
    currentSize = 0;
}

public String toString(int i){
    return array[ i ].toString();
}

private static final int DEFAULT_CAPACITY = 10;

private int currentSize;      // Number of elements in heap
private AnyType [ ] array; // The heap array

/**
 * Internal method to percolate down in the heap.
 * @param hole the index at which the percolate begins.
 */
private void percolateDown( int hole )
{
    int child;
    AnyType tmp = array[ hole ];

    for( ; hole * 2 <= currentSize; hole = child )
    {
        child = hole * 2;
        if( child != currentSize &&
                array[ child + 1 ].compareTo( array[ child ] ) < 0 )
            child++;
        if( array[ child ].compareTo( tmp ) < 0 )
            array[ hole ] = array[ child ];
        else
            break;
    }
    array[ hole ] = tmp;
}

    // Test program
public static void main( String [ ] args )
{

    BinaryHeap<Integer> h = new BinaryHeap<>( );
    for (int i = 0; i < 100 ; i++){
        h.insert(i);
    }
    System.out.println("The Size of the array is " + h.currentSize);
    System.out.println("The smaller number on the array is " + h.findMin());

    System.out.println();

    for (int i = 0; i < 100 ; i++){
        System.out.println("Object in location " + i + " is " + h.toString(i));
    }

}
}

This outputs:

 The Size of the array is 100
 The smaller number on the array is 0

 Object in location 0 is 99
 Object in location 1 is 0
 Object in location 2 is 1 (add 1 to each side and so on...)
share|improve this question

2 Answers 2

up vote 0 down vote accepted

A binary min heap propogates the minimum to the top using a heapify() function. Insertion, deletion, and change key operations can change the minimum value, so the heapify method is called to move the changed nodes to their correct positions in the heap

share|improve this answer

Because you have array [0] = x in the for loop.

share|improve this answer
    
This code is actually from a book, which might indicate the author got it wrong, this is on page 231 from the book "Data Structures and Algorithms in Java" by Mark Allen Weiss. –  Lasse V. Karlsen Nov 5 at 13:09
    
Page 251 in the third edition :) –  Benjamin Lindqvist Nov 5 at 13:12
    
ok, good to know :) I sent an email to the author of the book, linking to this question here and this one here - stackoverflow.com/questions/26757820/… (which you're coming from), hopefully he'll respond with something useful. –  Lasse V. Karlsen Nov 5 at 13:14

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.