import java.awt.event.ActionEvent; import java.awt.event.ActionListener; import java.awt.Color; import java.awt.Graphics; import javax.swing.*; /** * @author Dung X. Nguyen * @author Stephen B. Wong */ public class SortCtrl { public final static int ArraySize = 20; public final static int TimeSlice = 100; // private SortGUI _frame = new SortGUI (); private JTextArea _txtArea = _frame.getOutputTA(); // cached since called many times. private JPanel _graphCanvas = _frame.getGraphCanvas(); // cached since called many times. private OCInteger[] _gcDataArray = makeArray (); private ACompareSorter _aCSorter; /** * Updates the view every 100 ms. Redraws array graph and redisplays array text. */ private Timer _timer = new Timer (TimeSlice, new ActionListener() { public void actionPerformed (ActionEvent e) { updateViews (); } }); private ILambda _appendCmd = new ILambda() { public Object apply (Object x) { _txtArea.append (""+ ((OCInteger)x).getValue ()+"\n"); return null; // returns "whatever"! Not an issue here. } }; /** * Graphs the whole sorted array as rectangular bars. Uses ArraymapCar to * traverse the sorted and graph one element at a time with another ILambda. */ class GraphBarsCmnd implements ILambda { private Graphics _g; private int _xIdx; private int _maxVal = ArraySize; private int _minVal = 1; private int _maxY = ArraySize / 2; private int _minY = _graphCanvas.getHeight () - _maxY;; private double _m; // slope private double _b; // y-intercept; y = _mx + _b. private ILambda _drawing = new ILambda () { // graphs one element. /** * @param x an OCInteger */ public Object apply (Object x) { int dotSize = 10; _g.setColor (((OCInteger) x).getColor ()); _g.fillRect (dotSize * _xIdx++, (int)(_m * ((OCInteger)x).getValue () + _b), dotSize- 4 , 10 + _minY - (int)(_m * ((OCInteger)x).getValue () + _b)); return x; // or whatever... } }; /** * Graphs the whole array. The slope and y-intercept are computed here * in order to adjust dynamically to the window size. * @param g a Graphics */ public Object apply(Object g) { _g = (Graphics)g; _xIdx = 0; _minY = _graphCanvas.getHeight () - _maxY; _m = ((double)(_maxY - _minY)) / (_maxVal - _minVal); _b = ((double)(_minY * _maxVal - _maxY * _minVal)) / (_maxVal - _minVal); return ArrayMapCar.Singleton.apply (_gcDataArray, _drawing); } }; public SortCtrl() { // load the drawing command into _graphCanvas: ((GraphCanvas)_graphCanvas).setDrawable(new GraphBarsCmnd()); _aCSorter = CInsertionSorter.Singleton; _frame.getInsertionRBtn ().setSelected(true); // Add a bunch of action listeners: _frame.getInsertionRBtn ().addActionListener(new ActionListener() { public void actionPerformed (ActionEvent e) { _aCSorter = CInsertionSorter.Singleton; } }); _frame.getQuickRBtn ().addActionListener(new ActionListener() { public void actionPerformed (ActionEvent e) { _aCSorter = CQuickSorter.Singleton; } }); _frame.getMergeRBtn ().addActionListener(new ActionListener() { public void actionPerformed (ActionEvent e) { _aCSorter = new CMergeSorter (ArraySize); } }); _frame.getSelectionRBtn ().addActionListener(new ActionListener() { public void actionPerformed(ActionEvent e) { _aCSorter = CSelectionSorter.Singleton; } }); _frame.getRandomizeBtn ().addActionListener(new ActionListener() { public void actionPerformed(ActionEvent e) { randomizeBtn_actionPerformed(e); } }); _frame.getSortBtn().addActionListener(new ActionListener() { public void actionPerformed (ActionEvent e) { gSortBtn_actionPerformed (e); } }); _frame.validate (); _frame.setVisible (true); updateViews (); } /** * Redraws array graph and redisplays array text. */ private void updateViews() { _txtArea.setText (""); ArrayMapCar.Singleton.apply (_gcDataArray, _appendCmd); // can be done using ILambda anynonymous class. _graphCanvas.repaint (); } /** * Runs the selected sorting algorithm in a separate thread. */ private void gSortBtn_actionPerformed(ActionEvent e) { setEnabledBtns (false); // all GUI's buttons are disabled. Thread sortThread = new Thread () { public void run () { _aCSorter.init (); new GraphicSorter (_aCSorter).sort (_gcDataArray, 0, _gcDataArray.length - 1); setEnabledBtns (true); // At this point, the sorting is done: let's enable all GUI's buttons. _timer.stop (); updateViews (); } }; _timer.start (); // the timer runs in the main thread. sortThread.start (); // the sorting runs in a different thread. } /** * Randomizes the data array. */ private void randomizeBtn_actionPerformed(ActionEvent e) { for(int i = 0; i < _gcDataArray.length; i++) { int x = (int) (_gcDataArray.length * Math.random()); OCInteger tmp = _gcDataArray[i]; _gcDataArray[i] = _gcDataArray[x]; _gcDataArray[x] = tmp; } updateViews (); } /** * Creates a sorted data array ranging from 0 to ArraySize - 1 with a "middle-of-the-spectrum" * RGB color. */ private OCInteger[] makeArray () { int loColorValue = -16*1024*1024; int hiColorValue = -1; Color normalColor = new SorterColor((loColorValue+hiColorValue)/2, loColorValue, hiColorValue); OCInteger[] temp = new OCInteger[ArraySize]; for (int i=0; i < temp.length; i++) { temp [i] = new OCInteger (i + 1, normalColor); } return temp; } /** * Enables/Disables all GUI's buttons. * @param yes true means enable. */ private void setEnabledBtns (boolean yes) { _frame.getInsertionRBtn ().setEnabled (yes); _frame.getMergeRBtn ().setEnabled (yes); _frame.getQuickRBtn ().setEnabled (yes); _frame.getQuickRBtn ().setEnabled (yes); _frame.getRandomizeBtn ().setEnabled (yes); _frame.getSelectionRBtn ().setEnabled (yes); _frame.getSortBtn ().setEnabled (yes); } public static void main(String[] args) { try { UIManager.setLookAndFeel(UIManager.getSystemLookAndFeelClassName()); } catch(Exception e) { } new SortCtrl(); } }