When using the Python Image Library, does
open() immediately decompress the image file?
I would like to measure the decompression time of compressed images (jpeg, png...), as I read that it's supposed to be a good measure of an image's "complexity" (a blank image will be decompressed quickly, and so will a purely random image, since it will not have been compressed at all, so the most "interesting" images are supposed to have the longest decompression time). So I wrote the following python program:
# complexity.py from PIL import Image from cStringIO import StringIO import time import sys def mesure_complexity(image_path, iterations = 10000): with open(image_path, "rb") as f: data = f.read() data_io = StringIO(data) t1 = time.time() for i in xrange(iterations): data_io.seek(0) Image.open(data_io, "r") t2 = time.time() return t2 - t1 def main(): for filepath in sys.argv[1:]: print filepath, mesure_complexity(filepath) if __name__ == '__main__': main()
It can be used like this:
#python complexity.py blank.jpg blackandwhitelogo.jpg trees.jpg random.jpg blank.jpg 1.66653203964 blackandwhitelogo.jpg 1.33399987221 trees.jpg 1.62251782417 random.jpg 0.967066049576
As you can see, I'm not getting the expected results at all, especially for the blank.jpg file: it should be the one with the lowest "complexity" (quickest decompression time). So either the article I read is utterly wrong (I really doubt it, it was a serious scientific article), or PIL is not doing what I think it's doing. Maybe the actual conversion to a bitmap is done lazily, when it's actually needed? But then why would the
open delays differ? The smallest jpg file is of course the blank image, and the largest is the random image. This really does not make sense.
Note 1: when running the program multiple times, I get roughly the same results: the results are absurd, but stable. ;-)
Note 2: all images have the same size (width x height).
I just tried with png images instead of jpeg, and now everything behaves as expected. Cool! I just sorted about 50 images by complexity, and they do look more and more "complex". I checked the article (BTW, it's an article by Jean-Paul Delahaye in 'Pour la Science', April 2013): the author actually mentions that he used only loss-less compression algorithms. So I guess the answer is that
open does decompress the image, but my program did not work because I should have used images compressed with loss-less algorithms only (png, but not jpeg).