File	Doc	Category	Size	Date	Package
SortItem.java	API Doc	Example	6314	Sat Sep 12 03:01:00 BST 1998	None

SortItem

• java.lang.Object
  • java.awt.Component
    • java.awt.Container
      • java.awt.Panel
        • java.applet.Applet

Fields Summary
private Thread	kicker The thread that is sorting (or null).
int[]	arr The array that is being sorted.
int	h1 The high water mark.
int	h2 The low water mark.
String	algName The name of the algorithm.
SortAlgorithm	algorithm The sorting algorithm (or null).

Constructors Summary

Methods Summary
public void	init() Initialize the applet. String at = getParameter("alg"); if (at == null) { at = "BubbleSort"; } algName = at + "Algorithm"; scramble(); resize(100, 100);
public boolean	mouseUp(java.awt.Event evt, int x, int y) The user clicked in the applet. Start the clock! startSort(); return true;
public void	paint(java.awt.Graphics g) Paint the array of numbers as a list of horizontal lines of varying lenghts. int a[] = arr; int y = size().height - 1; // Erase old lines g.setColor(getBackground()); for (int i = a.length; --i >= 0; y -= 2) { g.drawLine(arr[i], y, size().width, y); } // Draw new lines g.setColor(Color.black); y = size().height - 1; for (int i = a.length; --i >= 0; y -= 2) { g.drawLine(0, y, arr[i], y); } if (h1 >= 0) { g.setColor(Color.red); y = h1 * 2 + 1; g.drawLine(0, y, size().width, y); } if (h2 >= 0) { g.setColor(Color.blue); y = h2 * 2 + 1; g.drawLine(0, y, size().width, y); }
void	pause() Pause a while. see SortAlgorithm pause(-1, -1);
void	pause(int H1) Pause a while, and draw the high water mark. see SortAlgorithm pause(H1, -1);
void	pause(int H1, int H2) Pause a while, and draw the low&high water marks. see SortAlgorithm h1 = H1; h2 = H2; if (kicker != null) { repaint(); } try {Thread.sleep(20);} catch (InterruptedException e){}
public void	run() Run the sorting algorithm. This method is called by class Thread once the sorting algorithm is started. see java.lang.Thread#run see SortItem#mouseUp try { if (algorithm == null) { algorithm = (SortAlgorithm)Class.forName(algName).newInstance(); algorithm.setParent(this); } algorithm.init(); algorithm.sort(arr); } catch(Exception e) { }
void	scramble() Fill the array with random numbers from 0..n-1. int a[] = new int[size().height / 2]; double f = size().width / (double) a.length; for (int i = a.length; --i >= 0;) { a[i] = (int)(i * f); } for (int i = a.length; --i >= 0;) { int j = (int)(i * Math.random()); int t = a[i]; a[i] = a[j]; a[j] = t; } arr = a;
private synchronized void	startSort() For a Thread to actually do the sorting. This routine makes sure we do not simultaneously start several sorts if the user repeatedly clicks on the sort item. It needs to be synchronoized with the stop() method because they both manipulate the common kicker variable. if (kicker == null || !kicker.isAlive()) { scramble(); repaint(); kicker = new Thread(this); kicker.start(); }
public synchronized void	stop() Stop the applet. Kill any sorting algorithm that is still sorting. if (kicker != null) { try { kicker.stop(); } catch (IllegalThreadStateException e) { // ignore this exception } kicker = null; } if (algorithm != null){ try { algorithm.stop(); } catch (IllegalThreadStateException e) { // ignore this exception } }
public void	update(java.awt.Graphics g) Update without erasing the background. paint(g);