// heapSort.java
// demonstrates heap sort
// to run this program: C>java HeapSortApp
import java.io.*;
////////////////////////////////////////////////////////////////
class Node
{
private int iData; // data item (key)
// -------------------------------------------------------------
public Node(int key) // constructor
{ iData = key; }
// -------------------------------------------------------------
public int getKey()
{ return iData; }
// -------------------------------------------------------------
} // end class Node
////////////////////////////////////////////////////////////////
class Heap
{
private Node[] heapArray;
private int maxSize; // size of array
private int currentSize; // number of items in array
// -------------------------------------------------------------
public Heap(int mx) // constructor
{
maxSize = mx;
currentSize = 0;
heapArray = new Node[maxSize];
}
// -------------------------------------------------------------
public Node remove() // delete item with max key
{ // (assumes non-empty list)
Node root = heapArray[0];
heapArray[0] = heapArray[--currentSize];
trickleDown(0);
return root;
} // end remove()
// -------------------------------------------------------------
public void trickleDown(int index)
{
int largerChild;
Node top = heapArray[index]; // save root
while(index < currentSize/2) // not on bottom row
{
int leftChild = 2*index+1;
int rightChild = leftChild+1;
// find larger child
if(rightChild < currentSize && // right ch exists?
heapArray[leftChild].getKey() <
heapArray[rightChild].getKey())
largerChild = rightChild;
else
largerChild = leftChild;
// top >= largerChild?
if(top.getKey() >= heapArray[largerChild].getKey())
break;
// shift child up
heapArray[index] = heapArray[largerChild];
index = largerChild; // go down
} // end while
heapArray[index] = top; // root to index
} // end trickleDown()
// -------------------------------------------------------------
public void displayHeap()
{
int nBlanks = 32;
int itemsPerRow = 1;
int column = 0;
int j = 0; // current item
String dots = "...............................";
System.out.println(dots+dots); // dotted top line while(currentSize > 0) // for each heap item
{
if(column == 0) // first item in row?
for(int k=0; k<nBlanks; k++) // preceding blanks
System.out.print(' ');
// display item
System.out.print(heapArray[j].getKey()); if(++j == currentSize) // done?
break; if(++column==itemsPerRow) // end of row?
{
nBlanks /= 2; // half the blanks
itemsPerRow *= 2; // twice the items
column = 0; // start over on
System.out.println(); // new row
}
else // next item on row
for(int k=0; k<nBlanks*2-2; k++)
System.out.print(' '); // interim blanks
} // end for
System.out.println("\n"+dots+dots); // dotted bottom line
} // end displayHeap()
// -------------------------------------------------------------
public void displayArray()
{
for(int j=0; j<maxSize; j++)
System.out.print(heapArray[j].getKey() + " ");
System.out.println("");
}
// -------------------------------------------------------------
public void insertAt(int index, Node newNode)
{ heapArray[index] = newNode; }
// -------------------------------------------------------------
public void incrementSize()
{ currentSize++; }
// -------------------------------------------------------------
} // end class Heap
////////////////////////////////////////////////////////////////
class HeapSortApp
{
public static void main(String[] args) throws IOException
{
int size, j; System.out.print("Enter number of items: ");
size = getInt();
Heap theHeap = new Heap(size); for(j=0; j<size; j++) // fill array with
{ // random nodes
int random = (int)(java.lang.Math.random()*100);
Node newNode = new Node(random);
theHeap.insertAt(j, newNode);
theHeap.incrementSize();
} System.out.print("Random: ");
theHeap.displayArray(); // display random array for(j=size/2-1; j>=0; j--) // make random array into heap
theHeap.trickleDown(j); System.out.print("Heap: ");
theHeap.displayArray(); // dislay heap array
theHeap.displayHeap(); // display heap for(j=size-1; j>=0; j--) // remove from heap and
{ // store at array end
Node biggestNode = theHeap.remove();
theHeap.insertAt(j, biggestNode);
}
System.out.print("Sorted: ");
theHeap.displayArray(); // display sorted array
} // end main()
// -------------------------------------------------------------
public static String getString() throws IOException
{
InputStreamReader isr = new InputStreamReader(System.in);
BufferedReader br = new BufferedReader(isr);
String s = br.readLine();
return s;
}
//-------------------------------------------------------------
public static int getInt() throws IOException
{
String s = getString();
return Integer.parseInt(s);
}
// -------------------------------------------------------------
} // end class HeapSortApp
////////////////////////////////////////////////////////////////
// demonstrates heap sort
// to run this program: C>java HeapSortApp
import java.io.*;
////////////////////////////////////////////////////////////////
class Node
{
private int iData; // data item (key)
// -------------------------------------------------------------
public Node(int key) // constructor
{ iData = key; }
// -------------------------------------------------------------
public int getKey()
{ return iData; }
// -------------------------------------------------------------
} // end class Node
////////////////////////////////////////////////////////////////
class Heap
{
private Node[] heapArray;
private int maxSize; // size of array
private int currentSize; // number of items in array
// -------------------------------------------------------------
public Heap(int mx) // constructor
{
maxSize = mx;
currentSize = 0;
heapArray = new Node[maxSize];
}
// -------------------------------------------------------------
public Node remove() // delete item with max key
{ // (assumes non-empty list)
Node root = heapArray[0];
heapArray[0] = heapArray[--currentSize];
trickleDown(0);
return root;
} // end remove()
// -------------------------------------------------------------
public void trickleDown(int index)
{
int largerChild;
Node top = heapArray[index]; // save root
while(index < currentSize/2) // not on bottom row
{
int leftChild = 2*index+1;
int rightChild = leftChild+1;
// find larger child
if(rightChild < currentSize && // right ch exists?
heapArray[leftChild].getKey() <
heapArray[rightChild].getKey())
largerChild = rightChild;
else
largerChild = leftChild;
// top >= largerChild?
if(top.getKey() >= heapArray[largerChild].getKey())
break;
// shift child up
heapArray[index] = heapArray[largerChild];
index = largerChild; // go down
} // end while
heapArray[index] = top; // root to index
} // end trickleDown()
// -------------------------------------------------------------
public void displayHeap()
{
int nBlanks = 32;
int itemsPerRow = 1;
int column = 0;
int j = 0; // current item
String dots = "...............................";
System.out.println(dots+dots); // dotted top line while(currentSize > 0) // for each heap item
{
if(column == 0) // first item in row?
for(int k=0; k<nBlanks; k++) // preceding blanks
System.out.print(' ');
// display item
System.out.print(heapArray[j].getKey()); if(++j == currentSize) // done?
break; if(++column==itemsPerRow) // end of row?
{
nBlanks /= 2; // half the blanks
itemsPerRow *= 2; // twice the items
column = 0; // start over on
System.out.println(); // new row
}
else // next item on row
for(int k=0; k<nBlanks*2-2; k++)
System.out.print(' '); // interim blanks
} // end for
System.out.println("\n"+dots+dots); // dotted bottom line
} // end displayHeap()
// -------------------------------------------------------------
public void displayArray()
{
for(int j=0; j<maxSize; j++)
System.out.print(heapArray[j].getKey() + " ");
System.out.println("");
}
// -------------------------------------------------------------
public void insertAt(int index, Node newNode)
{ heapArray[index] = newNode; }
// -------------------------------------------------------------
public void incrementSize()
{ currentSize++; }
// -------------------------------------------------------------
} // end class Heap
////////////////////////////////////////////////////////////////
class HeapSortApp
{
public static void main(String[] args) throws IOException
{
int size, j; System.out.print("Enter number of items: ");
size = getInt();
Heap theHeap = new Heap(size); for(j=0; j<size; j++) // fill array with
{ // random nodes
int random = (int)(java.lang.Math.random()*100);
Node newNode = new Node(random);
theHeap.insertAt(j, newNode);
theHeap.incrementSize();
} System.out.print("Random: ");
theHeap.displayArray(); // display random array for(j=size/2-1; j>=0; j--) // make random array into heap
theHeap.trickleDown(j); System.out.print("Heap: ");
theHeap.displayArray(); // dislay heap array
theHeap.displayHeap(); // display heap for(j=size-1; j>=0; j--) // remove from heap and
{ // store at array end
Node biggestNode = theHeap.remove();
theHeap.insertAt(j, biggestNode);
}
System.out.print("Sorted: ");
theHeap.displayArray(); // display sorted array
} // end main()
// -------------------------------------------------------------
public static String getString() throws IOException
{
InputStreamReader isr = new InputStreamReader(System.in);
BufferedReader br = new BufferedReader(isr);
String s = br.readLine();
return s;
}
//-------------------------------------------------------------
public static int getInt() throws IOException
{
String s = getString();
return Integer.parseInt(s);
}
// -------------------------------------------------------------
} // end class HeapSortApp
////////////////////////////////////////////////////////////////
课够乱的,头晕
用JAVA实现的堆? 应该不难啊 楼主仔细看看吧