One attempted approach was to use TexturePaint and g.fillRect() to paint the image. This however requires you to create a new TexturePaint and Rectangle2D object each time you paint an image, which isn't ideal - and doesn't help anyway.

When I use g.drawImage(BufferedImage,...), the rotated images appear to be blurred/soft.

I'm familiar with RenderingHints and double-buffering (which is what I'm doing, I think), I just find it difficult to believe that you can't easily and efficiently rotate an image in Java that produces sharp results.

Code for using TexturePaint looks something like this.

Grahics2D g2d = (Graphics2D)g; 
g2d.setPaint(new TexturePaint(bufferedImage, new Rectangle2D.Float(0,0,50,50)));

I'm using AffineTransform to rotate a hand of cards into a fan. What would be the best approach to paint good-looking images quickly?

Here is a screenshot:
Example of blurred rotations
The 9 is crisp but the rest of the cards are definitely not as sharp.

It could be possible that the problem lies in when I create each card image and store it in an array.
Here's how I'm doing it at the moment:

// i from 0 to 52, card codes.
GraphicsEnvironment ge = GraphicsEnvironment.getLocalGraphicsEnvironment();
GraphicsDevice gs = ge.getDefaultScreenDevice();
GraphicsConfiguration gc = gs.getDefaultConfiguration();
BufferedImage img = gc.createCompatibleImage(86, 126, Transparency.TRANSLUCENT);

    Graphics2D g = img.createGraphics();
    g.drawImage(shadow, 0, 0, 86, 126, null);
    g.drawImage(white, 3, 3, 80, 120, null);
    g.drawImage(suit, 3, 3, 80, 120, null);
    g.drawImage(value, 3, 3, 80, 120, null);

    cardImages[i] = img;

private void setRenderingHints(Graphics2D g){
    g.setRenderingHint(KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY);

How should I approach this differently? Thanks.

Example of hand without RenderingHints
Without RenderingHints

Setting AA hints made no difference. Also, setting RenderingHints when creating the images makes no difference either. It's only when they are being rotated with AffineTransform and painted using g.drawImage(...) that they seem to blur.
The image above shows the difference between default (nearest neighbor) and bilinear interpolation.

Here is how I'm currently painting them (much faster than TexturePaint):

// GamePanel.java
private void paintCard(Graphics2D g, int code, int x, int y){
    g.drawImage(imageLoader.getCard(code), x, y, 86, 126, null);

// ImageLoader.java
public BufferedImage getCard(int code){
    return cardImages[code];

All my cards are 80x120 and the shadow .png is 86x126, so as to leave 3px semi-transparent shadow around the card. It's not a realistic shadow I know, but it looks okay.

And so the question becomes... How can you produce sharp paint results when rotating a BufferedImage?

Reference to a previous question also regarding a fanned card hand:
How can you detect a mouse-click event on an Image object in Java?

Bounty-Edit: Okay so after much discussion I made a few test .svg cards to see how SVG Salamander would go about rendering them. Unfortunately, the performance is terrible. My implementation is clean enough, seeing as with double-buffered BufferedImage's the painting was incredibly fast. Which means I have come full circle and I'm back to my original problem.

I'll give the 50 bounty to whoever can give me a solution to get sharp BufferedImage rotations. Suggestions have been to make the images bigger than they need to be and downscale before painting, and to use bicubic interpolation. If these are the only possible solutions, then I really don't know where to go from here and I may just have to deal with the blurred rotations - because both of those impose performance setbacks.

I can finish my game if I can find a way to do this well. Thanks to everyone. :)

  • 1
    I don't see where you're setting the RenderingHints.
    – Moonbeam
    Commented Jul 17, 2011 at 13:32
  • @Moonbeam: RenderingHints won't help with images, but rather only with shapes that we draw. If you look at the API, it states: "The ANTIALIASING hint controls whether or not the geometry rendering methods of a Graphics2D object will attempt to reduce aliasing artifacts along the edges of shapes." So he is right not to even try to use them here. Commented Jul 17, 2011 at 13:38
  • 2
    @Rudi: what if you keep bigger in memory images, and downscale after rotating just before visualization?
    – guido
    Commented Jul 17, 2011 at 14:37
  • 1
    @paranoid-android rotating an image by an arbitrary angle means destroying data; the bigger the image the less data you lose, so it could be the only option if you cannot afford switching to vector graphics
    – guido
    Commented Jul 27, 2011 at 14:03
  • 1
    @paranoid-android as i only gave an hint and no implementation, it's better if you answer yourself with some sample code and accept that. Note i didn't suggest upscaling (it's lossy), only to keep bigger images and scale down just before visualization
    – guido
    Commented Jul 28, 2011 at 6:49

3 Answers 3


When you rotate a rasterized image (such as a BufferedImage), you lose data. The best solution is to save your images larger than you'll need them, and downscale on the fly when you paint them. I've found that 1.5x the size you need is a good starting point.

Then, when you're painting the image, resize on the fly:

g.drawImage(bufferedImage, x, y, desiredWidth, desiredHeight, observer);

Rotations using bilinear interpolation is recommended.

Credit for suggestion goes to guido.


This advice is probably a little late in your design, but may be worth mentioning.

Rasterized images is probably the wrong technology to use if a lot of rotations and animations are a part of your UI; especially with complicated images with lots of curves. Just wait until you try and scale your canvass. I might suggest looking at a vector based graphical library. They will render the sorts of effects you want with less potential for artifacts.


  • Thanks for pointing that out. I'll consider that approach next time. In actual fact my game is scalable and all the widths and heights and positions are relative to the panel size. I have checked them and the cards are being drawn at the right size. In the example above I just hardcoded the sizes so as to fit 1280x720, the default panel size. Commented Jul 18, 2011 at 1:45
  • 2
    @paranoid: I think I've seen public domain SVG image playing cards somewhere, so there are appropriate images already available for you. Let me see if I can find them again. Edit: here are some: svg-cards Commented Jul 18, 2011 at 2:29
  • @Hovercraft Full Of Eels: Due to the lack of support/solid answers, I'm going to redesign my deck of cards at paths and export to SVG files, then use Batik to transcode/render. If this approach works well, I will accept your suggestion as the answer. Give me a few days. Commented Jul 19, 2011 at 1:28
  • @paranoid: it's not my suggestion but mbarnes, but regardless, yes, accept it if it works. Best of luck! Commented Jul 19, 2011 at 2:40
  • @mbarnes I'm finding Batik quite tricky to use. I may ask a new question regarding its use. Commented Jul 19, 2011 at 12:53

Setting the interpolation type, as well as anti-aliasing value, in an AffineTransformOp may offer some improvement. Type TYPE_BICUBIC, while slower, is typically the best quality; an example is outlined here. Note that you can supply multiple RenderingHints. Another pitfall arises from failing to apply the hints each time the image is rendered. You may also need to adjust the transparency of the background, as suggested here. Finally, consider creating an sscce that includes one of your actual images.

  • I'll create an sscce today, because AffineTransformOp didn't seem to do anything differently - assuming I used it right. Where and how do I post/share the sscce? Thanks. Commented Jul 18, 2011 at 1:52
  • You can edit your question, paste the code, select it, click the {} icon, and save the edited question. There's an icon for images, too. As the behavior of RenderingHints is suggestive in nature, your host OS and Java platform versions may be relevant.
    – trashgod
    Commented Jul 18, 2011 at 3:44
  • Ah hopefully what I did isn't too far off? See edits. Thanks. Commented Jul 18, 2011 at 6:55
  • I posted a screenshot here. I see a clear benefit to anti-aliasing or bicubic interpolation, although platforms may vary.
    – trashgod
    Commented Jul 18, 2011 at 20:50
  • Thanks for that. I can see a slight improvement as well with bicubic, but the rendering is so slow that it's really not worth it. What I might do is consider making the image files larger and downscale before a paint them. Commented Jul 18, 2011 at 22:48

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