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How can I optimize Java code for drawing continuously changing graphics based on mouse position to improve performance?

Barbara Streisand
Release: 2024-11-23 09:14:21
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How can I optimize Java code for drawing continuously changing graphics based on mouse position to improve performance?

Java: Drawing Continuously Changing Graphics

In this program, you seek to draw a continuously changing image based on the user's mouse position. You have encountered performance issues and are seeking guidance for optimization. Let's delve into your code and address the challenges:

The Original Code

The initial implementation suffers from performance drawbacks due to several factors:

  1. Inefficient Pixel Fetching: You use robot.getPixelColor(...) to retrieve individual pixels, which is significantly slower than fetching multiple pixels at once.
  2. Redundant Redrawing: The code redraws the entire image even if only a small portion has changed, leading to unnecessary repaint operations.
  3. Incorrect Threading: Updates to the model and view are not synchronized with the Event Dispatch Thread (EDT), which can cause graphical inconsistencies.

Performance Enhancements

To alleviate these issues, consider the following optimizations:

  1. Utilize createScreenCapture for Faster Pixel Fetching: Instead of retrieving individual pixels, use robot.createScreenCapture(...) to fetch all 64 pixels at once, enhancing performance.
  2. Implement Smart Clipping for Efficient Redrawing: Determine the exact region of the image that needs to be redrawn and only repaint that portion, minimizing unnecessary redraw operations.
  3. Ensure EDT Synchronization: Update the model and view in the Event Dispatch Thread (EDT) using SwingUtilities.invokeLater(...) to ensure thread safety and prevent graphical artifacts.

Optimized Code

Here's an example of an optimized version of the code that addresses the performance concerns:

import javax.swing.*;
import java.awt.*;
import java.awt.event.WindowAdapter;
import java.awt.event.WindowEvent;
import java.awt.geom.Ellipse2D;
import java.awt.image.BufferedImage;

public class ZoomPanel extends JPanel {

    private static final int STEP = 40;
    private int iter = 0;
    private long cumulativeTimeTaken = 0;

    public static void main(String[] args) {
        final JFrame frame = new JFrame("Image zoom");

        final ZoomPanel zoomPanel = new ZoomPanel();
        frame.getContentPane().add(zoomPanel);
        final Ticker t = new Ticker(zoomPanel);

        frame.addWindowListener(new WindowAdapter() {
            public void windowClosing(WindowEvent we) {
                t.done();
                frame.dispose();
            }
        });
        t.start();

        frame.setLocation(new Point(640, 0));
        frame.pack();
        frame.setVisible(true);
    }

    private final Color[][] model = new Color[8][8];

    public ZoomPanel() {
        setSize(new Dimension(400, 400));
        setMinimumSize(new Dimension(400, 400));
        setPreferredSize(new Dimension(400, 400));
        setOpaque(true);
    }

    private void setColorAt(int x, int y, Color pixelColor) {
        model[x][y] = pixelColor;
        repaint(40 + x * STEP, 45 + y * STEP, 40 + (x * STEP) - 3, 45 + (y * STEP) - 3);
    }

    private Color getColorAt(int x, int y) {
        return model[x][y];
    }

    public void paintComponent(Graphics g) {
        long start = System.currentTimeMillis();
        if (!SwingUtilities.isEventDispatchThread()) {
            throw new RuntimeException("Repaint attempt is not on event dispatch thread");
        }
        final Graphics2D g2 = (Graphics2D) g;
        g2.setColor(getBackground());
        try {

            for (int x = 0; x < 8; x++) {
                for (int y = 0; y < 8; y++) {
                    g2.setColor(model[x][y]);
                    Ellipse2D e = new Ellipse2D.Double(40 + x * STEP, 45 + y * STEP, STEP - 3, STEP - 3);
                    g2.fill(e);
                    g2.setColor(Color.GRAY);
                    g2.draw(e);
                }
            }

        } catch (Exception e) {
            e.printStackTrace();
        }
        iter++;
        g2.setColor(Color.black);
        long stop = System.currentTimeMillis();
        cumulativeTimeTaken += stop - start;
        StringBuilder sb = new StringBuilder();
        sb.append(iter)
                .append(" frames in ")
                .append((double) (cumulativeTimeTaken) / 1000)
                .append("s.");

        System.out.println(sb);
    }

    private static class Ticker extends Thread {

        private final Robot robot;

        public boolean update = true;
        private final ZoomPanel view;

        public Ticker(ZoomPanel zoomPanel) {
            view = zoomPanel;
            try {
                robot = new Robot();
            } catch (AWTException e) {
                throw new RuntimeException(e);
            }
        }

        public void done() {
            update = false;
        }

        public void run() {
            int runCount = 0;
            while (update) {
                runCount++;
                if (runCount % 100 == 0) {
                    System.out.println("Ran ticker " + runCount + " times");
                }
                final Point p = MouseInfo.getPointerInfo().getLocation();

                Rectangle rect = new Rectangle(p.x - 4, p.y - 4, 8, 8);
                final BufferedImage capture = robot.createScreenCapture(rect);

                for (int x = 0; x < 8; x++) {
                    for (int y = 0; y < 8; y++) {
                        final Color pixelColor = new Color(capture.getRGB(x, y));

                        if (!pixelColor.equals(view.getColorAt(x, y))) {
                            final int finalX = x;
                            final int finalY = y;
                           SwingUtilities.invokeLater(new Runnable() {
                                public void run() {
                                    view.setColorAt(finalX, finalY, pixelColor);
                                }
                            });
                        }
                    }
                }

            }
        }

    }

}
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This optimized code employs createScreenCapture for efficient pixel retrieval, implements smart clipping for selective redraw, and ensures EDT synchronization for thread safety. By addressing these performance bottlenecks, it provides a smoother and more responsive graphical output.

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