i have just downloaded the latest win32 jpegtran.exe from http://jpegclub.org/jpegtran/ and observed the following:
i have prepared a 24 BPP jpeg test image with 14500 x 10000 pixels.
- compressed size in file system is around 7.5 MB.
- decompressing into memory (with some image viewer) inflates to around 450 MB.
monitoring the jpegtran.exe command line tool's memory consumption during lossless rotation (180) i can see the process consuming up to 900 MB memory!
i would have assumed that such jpeg lossless transformations don't require decoding the image file into memory and instead would just perform some mathematical transformations on the encoded file itself - keeping the memory footprint very low.
so which of the following is true?
- some bug in this particular tool's implementation
- some configuration switch i have missed
- some misunderstanding at my end (i.e. jpeg lossless transformations also need to decode the image into memory?)
- the "mathematical operations" consuming even more memory than "decoding the image into memory"
according to the answer by JasonD the reason seems to be the latter one. so i'll extend my question:
are there any implementations that can do those operations in small chunks (to avoid high memory usage)? or does it always need to be done on the whole and there's no way around it?
i'm not planning to implement my own codec / algorithm. instead i'm asking if there are any implementations out there that meet my requirements. or if there could be in theory, at least.