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I have asked this question before, but I wanted to rephrase/clarify some points and expand upon it. I have a piece of code which transforms a BufferedImage using an AffineTransform.

op = new AffineTransformOp(atx, interactive ? interpolationInteractive : interpolationNormal);
displayImage = op.filter(displayImage, null);

This code works fine, however it causes a memory accumulation. Specifically, every time this piece of code is called more memory is stored up. I have tried the other form of filter as well.

op = new AffineTransformOp(atx, interactive ? interpolationInteractive : interpolationNormal);
displayImage2 = op.createCompatibleDestImage(displayImage, displayImage.getColorModel());
op.filter(displayImage, displayImage2);

However, this is much much slower than the first version. I want the speed of the first version with the memory usage of the second.

  1. How can I clean up after the first version? Specifically, where are the intermediate BufferedImages stored, and how can I delete them?
  2. Why is the second version slower than the first? What can I do to speed it up?

Thanks for your help!!!

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    Are you actually getting OutOfMemoryErrors? If not, then it's just a matter of when the GC collects the objects, not an actual memory leak. – Michael Myers Dec 3 '09 at 17:48
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How are you getting displayImage and what ColorModel is it using?

If it is an IndexColorModel, that may explain a lot.

The first code fragment will return a BufferedImage using a DirectColorModel. That will require 4 bytes per pixel vs typically 1-byte per pixel for an indexed image. That 1:4 expansion could be causing your out of memory condition.

The second code fragment makes a BufferedImage with the same model as the source. When that is an IndexColorModel and the interpolation is not NEAREST_NEIGHBOR, the filter() call will create a temporary BufferedImage with a DirectColorModel. It will use that as the destination of the filter operation, then requantize the temporary buffer and draw it into your displayImage2. So, twice as many bitblits.

If you're only doing a single transform, I'd say go with the second form.

If you're doing multiple operations, allocate a pair of BufferedImages with a DirectColorModel. large enough to hold your biggest image. Draw you source image into one of them and perform your filters back and forth between them. Then when you're finished, use a ColorConvertOp to requantize back to an indexed image. That way you only need to color convert once instead of on each filter call.

  • I think I'll try your second suggestion first, can you tell me how to use ColorConvertOp to convert from a direct to an indexed color model? – Jon Dec 3 '09 at 21:47
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    ColorConvertOp work just like AffineTransformOp, but you need to call filter(src, dst) passing dst as an existing BufferedImage of the desired color model. – Devon_C_Miller Dec 3 '09 at 21:59
  • OK, but how do you use the constructor from the ColorConvertOp. I did the following ColorModel indexColorModel = displayImage.getColorModel(); displayImage = op.filter(displayImage, null); ColorConvertOp colorOp = new ColorConvertOp(indexColorModel.getColorSpace(), displayImage.getColorModel().getColorSpace(), null); displayImage = colorOp.filter(displayImage, null); And when I run this it just hangs on the filter line, never returning. – Jon Dec 3 '09 at 22:06
  • I'm sorry, I mistyped one of the lines of code above, it should actually read ColorModel indexColorModel = displayImage.getColorModel(); displayImage = op.filter(displayImage, null); ColorConvertOp colorOp = new ColorConvertOp(displayImage.getColorModel().getColorSpace(), indexColorModel.getColorSpace(), null); displayImage = colorOp.filter(displayImage, null); I mixed up the order of the parameters in the ColorConvertOp constructor, but it is still incredibly slow. – Jon Dec 3 '09 at 22:11
  • I've always used the simple "hints only" constructor: ColorConvertOp colorOp = ColorConvertOp (null); Then pass in a BI with the desired color space for the destination. – Devon_C_Miller Dec 7 '09 at 15:17
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I agree with the comment that unless you're getting OutOfMemoryErrors, then this is a normal thing and the GC will collect the images whenever it sees fit. Here's a silly test I did sometimes when I had a concern: put that into loop in a main function and watch the memory usage in a profiler (it should make a zig-zag-like pattern or something) but not always be able to complete successfully.

  • I am getting out of memory issues. I was able to slow it down by running System.finalization and System.gc when the memory got too high (I have a thread which tracks memory management). – Jon Dec 3 '09 at 21:41
  • If you have it working now, then that's fine, although it's concerning to me that you have a thread tracking memory management - it's like you're trying to re-create Java's memory management and it won't be as good anyways. This will sound silly, but are you not allocating enough space on the heap? When I was using a lot of image tranforms, I had to allocate 512 or 1024, I think, before it was a comfortable user experience. You can also set many parameters related to memory and the GC in the JVM - try here: java.sun.com/docs/hotspot/gc5.0/gc_tuning_5.html – Amber Shah Dec 10 '09 at 17:51

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