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I was looking for raw image support and found this library (jrawio-1.6.1) which extends imageio to add raw support. It seems to work but awfully slow. I've seen snails that were faster. My code processes Jpegs in seconds and it takes minutes to process a not that much bigger .cr2 file or .nef. I could be wrong but I think it even slowed down the tiff processing. The last tiff file was very big so that could have been the problem too.

Another issue I have with this library is that development seems to have ceased in 2009.

What are my Alternatives? I tried including JAI but some of the libraries where causing the application to crash after exporting to an executable jar.

It seems that the problem is imgScalr because it's the resize and rotation that are slow.

An 11.6MB nef file from a Nikon D300 takes 1 minute 35 seconds to resize to 20% and a minute 38 to rotate the image 90 degrees.

But this make no sense to me because these images are being rotated and resized as bufferedImages not as their original format. Could this be a size issue with imgScalr?

Apparently it has to do with the image color type. If I convert the images to RGB the resize and rotation go fast but the conversion to the RGB takes a long time. I am using ColorConvertOp to do the conversions.

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What was the library you found? – Java Devil Jun 20 '13 at 21:46
@Java Devil sorry it was in the title but the SO wouldn't accept title. I will add it to the question body. – Codeguy007 Jun 20 '13 at 21:53
Really? Works fine for me. Reads 8mg RAW net files very qckly, in fact it takes longer to save the jpeg or png files – MadProgrammer Jun 20 '13 at 21:57
Yeah it looks like the issue is with imgScalr. – Codeguy007 Jun 20 '13 at 23:56

2 Answers 2

It appears that the jrawio library is not the problem. The problem is the color format of the raw image. Scalr works much faster with ARGB or RGB color formats and if you convert the image to ARGB or RGB before modifying the image the modifications will go just as fast as the JPEGs. However the conversion itself takes as long as one of the modifications.

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ImgScalr actually converts the files to RGB before doing the resize, so that is why it takes so long. Just use a different sizing library, because ImgScalr just calls Java2D code. – Bailey S Jun 22 '13 at 14:34
Have you tried supplying a destination image to the ImageReadParam, using a more standard color/pixel format? Have a look at ImageReader.getImageTypes(int) for possible values, and ImageReadParam.setDestination(BufferedImage)/setDestinationType(ImageTypeSpecif‌​ier) to set the actual destination (type). Could potentially make things faster (or just move the time consuming part to the reading...). – haraldK Jun 22 '13 at 18:24
@Bailey what other sizing libraries are available. I know about JAI but what else is out there? – Codeguy007 Jun 22 '13 at 21:44
@haraldK thanks I will look into that. – Codeguy007 Jun 22 '13 at 21:45
Feel free to try this Java port of fzoom/ImageMagick'sresize.c. Not sure how well it performs against ImgScalr, but it creates nice results. – haraldK Jun 22 '13 at 22:38

ImgScalr actually converts the files to RGB before doing the resize, so that is why it takes so long

The selection of image scaling options in Java is somewhat embarrassing to the language.

JAI and the suggested Java 2D apis produce terrible looking downsample results, and I can not recommend them.

If calling native code is an option, and all of your data is in files, then im4java (a library to call the ImageMagick executable) is good. Obviously this a poor solution for working with output from another library.

Otherwise, the technique used by ImgScalr actually works pretty good. In essence it just does the very ugly looking Java2D scaling in steps, where it downsamples to several sizes between the source and desired sizes. The results have acceptable quality. It may be possible to reuse the code in ImgScalr without performing the RGB conversion.

Without knowing more about jrawio (the documentation is non-existent) it is hard to say for certain, but it is very possible that it produces a BufferedImage with a very strange color model which essentially offloads the RAW processing to Java2D. In this case, the actual computationally intensive RAW->RGB conversion could be the actual work. Then, skipping the RGB conversion and dealing with horridly slow image operations could mean doing the work multiple times! Ugly.

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