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We're building an application that handles image uploads. I want users to be able to upload an image at a given size, say 128x128, and then have the server automatically generate other sizes based on that, such as 64x64, 57x57, and 25x25.

Are there libraries that can help me with this?

Edit: I should note that the resizing should take place only on upload. When the new image sizes are rendered in the browser, it should be pulling from cached copies --- not doing the resizing again. In other words, the different sizes should be generated only once, not each time the images are requested.

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5 Answers 5

up vote 2 down vote accepted

I have used ImageIO and ImageInfo libraries for similar functionalities. They are pretty good so far.



I remember having some performance problems with native java libraries while getting image sizes and hence having to use ImageInfo.

Hope this helps.

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Can you speak to the image quality after resize? How many formats do these support (gif, png, jpg)? Does this do the upload and generate only once instead of generate every time an image is requested? –  Joshua Jan 18 '10 at 20:47
@Josh, We used these libraries long time ago, however AFAIR the image quality was good after resize. But that statement is true only if you are basing your "viewing" on a browser. If you want to render these images to different devices, then you may need to do a detailed investigation. These are just libraries that you can use and hence the calls for conversion will be in your code and hence it is upto you to decide. –  Sands Jan 18 '10 at 21:31
Thanks for sharing your experience :) –  Joshua Jan 20 '10 at 15:09

This might be helpful. AFAIK, there are a variety of ways to do this, with varying speed/image quality.

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+1 link to a code example –  stacker Jan 18 '10 at 21:06

From a related source in the Swing tutorial:

 * Resizes an image using a Graphics2D object backed by a BufferedImage.
 * @param srcImg - source image to scale
 * @param w - desired width
 * @param h - desired height
 * @return - the new resized image
private Image getScaledImage(Image srcImg, int w, int h){
    BufferedImage resizedImg = new BufferedImage(w, h, BufferedImage.TYPE_INT_RGB);
    Graphics2D g2 = resizedImg.createGraphics();
    g2.setRenderingHint(RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BILINEAR);
    g2.drawImage(srcImg, 0, 0, w, h, null);
    return resizedImg;
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What about trying to keep the aspect ratio? –  Ascalonian Jan 18 '10 at 21:18

Utility function from from one of our java portal page (coded from example from several forum, I do not claim to be the author)

Hope this help
Guillaume PATRY

 * Convenience method that returns a scaled instance of the
 * provided {@code BufferedImage}.
 * @param img the original image to be scaled
 * @param targetWidth the desired width of the scaled instance,
 *    in pixels
 * @param targetHeight the desired height of the scaled instance,
 *    in pixels
 * @param hint one of the rendering hints that corresponds to
 *    {@code RenderingHints.KEY_INTERPOLATION} (e.g.
 *    {@code RenderingHints.VALUE_INTERPOLATION_BILINEAR},
 *    {@code RenderingHints.VALUE_INTERPOLATION_BICUBIC})
 * @param higherQuality if true, this method will use a multi-step
 *    scaling technique that provides higher quality than the usual
 *    one-step technique (only useful in downscaling cases, where
 *    {@code targetWidth} or {@code targetHeight} is
 *    smaller than the original dimensions, and generally only when
 *    the {@code BILINEAR} hint is specified)
 * @return a scaled version of the original {@code BufferedImage}
 public BufferedImage getScaledInstance(
            BufferedImage img,
            int targetWidth,
            int targetHeight,
            Object hint,
            boolean higherQuality) {
BufferedImage ret = (BufferedImage) img;
int w, h;
if (higherQuality) {
    // Use multi-step technique: start with original size, then
    // scale down in multiple passes with drawImage()
    // until the target size is reached
    w = img.getWidth();
    h = img.getHeight();
} else {  
    // Use one-step technique: scale directly from original
    // size to target size with a single drawImage() call
    w = targetWidth;
    h = targetHeight;

do {
   if (higherQuality) {
      if (w > targetWidth) {
         w /= 2;
         if (w < targetWidth) {
            w = targetWidth;
      } else {
         w = targetWidth;
      if (h > targetHeight) {
         h /= 2;
         if (h < targetHeight) {
        h = targetHeight;
      } else {
         h = targetHeight;
   BufferedImage tmp = null;
   if (img.getType() == 0) {
      tmp = new BufferedImage(w, h, BufferedImage.TYPE_INT_RGB);
   } else {
      tmp = new BufferedImage(w, h, img.getType());
   Graphics2D g2 = tmp.createGraphics();
   g2.setRenderingHint(RenderingHints.KEY_INTERPOLATION, hint);
   g2.drawImage(ret, 0, 0, w, h, null);
   ret = tmp;
} while (w != targetWidth || h != targetHeight);
return ret;


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This was exactly what I wrote imgscalr (Apache 2) to do for this app - so far a few hundred thousand pictures processed from around the world and no corrupted results reported.

When I first started looking into image scaling in Java (for that project) I saw what you probably saw searching here... 200 questions asking the same thing, 50 different ways to do it, 25 of them "wrong" apparently and a whole lot of headache.

I really like solving problems like that, so I sat down and collected all the feedback, all the bug reports, all the tips, all the tricks and all the problems people were running into and compiled them all into a super-simple, 1-class API that just does "everything right" for you.

The simplest API use-case looks like this:

BufferedImage scaledImg = Scalr.resize(img, 150);

but given that you want to do a few different sizes that are all really small, you'll want to use the QUALITY scaling method which employes Chris Campbell's (Java2D team) recommended incremental scaling technique AND apply the pre-defined ConvolveOp to the result to soften the thumbnail a bit because it is so small.


BufferedImage img = ImageIO.read(...); // load image
BufferedImage scaledImg = Scalr.resize(img, Method.QUALITY, 
                                       50, Scalr.OP_ANTIALIAS);

You don't need to provide both the w/h if you don't want to, the image's proportions are always honored and the bounds used as a bounding box to ensure the image at least fits within it (but will never violate the proportions of the image to do so).

If you've ever worked with ConvolveOps to try and soften an image, you know that finding the right kernel that is sharp enough to look good but soft enough to get rid of the jaggies, you know it's a royal PIA -- the one I have predefined in the library is the result of a week of collaboration with a social networking site in Brazil that was using the library to scale profile images and I think we nailed it spot on.

Of course you could just use it as a starting point and provide your own, the Scalr class allows you to pass in any BufferedImageOp that it will apply to the resulting scaled image for you automatically (AND work around the damnable 6-year-old JDK bug that causes that to corrupt images).

The library also does a litany of other "best practices" things under the covers for you, like being sure to flush incremental images as soon as possible to keep memory use down and not trash the VM, always keeps images in the best-supported image types so the software pipeline in Java2D is never used (you may have noticed it when people upload GIFs if you are using hand-code, the end up looking like crap -- imgscalr fixes this) and a few other nicities that fit my requirement for the library of "Just do everything right".

Hope that helps.

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