I am doing image processing in a scientific context. Whenever I need to save an image to the hard drive, I want to be able to reopen it at a later time and get exactly the data that I had before saving it. I exclusively use the PNG format, having always been under the impression that it is a lossless format. Is this always correct, provided I am not using the wrong bit-depth? Should encoder and decoder play no role at all? Specifically, the images I save

  • are present as 2D numpy arrays
  • have integer values from 0 to 255
  • are encoded with the OpenCV imwrite() function, e.g. cv2.imwrite("image.png", array)
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    I do not know of any way that you could could get anything other than "pixel perfect" data in that scenario. – Mark Setchell Dec 19 '17 at 10:42
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    if you are in doubt, load the image again and compute absdiff and test whether any result pixel isn't 0, for some good amount of sample images. – Micka Dec 19 '17 at 10:58
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    My current information is that PNG compression is absolutely never lossy, but the user can screw it up by scramming too many bits per pixel into the format, resulting in loss of color/value range. – smcs Dec 19 '17 at 11:12
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    @percusse To what advantage? AFAIK, there isn't one TIFF format. It seems like you have to look very closely at what you're doing when using it. The english wikipedia page lists over 20 different compression modes, some lossless, some lossy. On a second look, apparently only 5 of those are used frequently. Still, it seems like a very complex format with many versions and degrees of freedom – smcs Dec 19 '17 at 13:55
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    There is no benefit to using TIFF here - it just complicates things and adds dependencies. In fact, I would go the other way and take the simplest possible format, which doesn't support compression - namely one of the NetPBM formats, e.g. PGM for greyscale or PPM for colour - especially as OpenCV can read/write that without any library dependencies. Plus they also support 16-bit if higher colour resolution becomes necessary later... en.wikipedia.org/wiki/Netpbm_format – Mark Setchell Dec 19 '17 at 14:21

PNG is a lossless format by design:

Since PNG's compression is fully lossless--and since it supports up to 48-bit truecolor or 16-bit grayscale--saving, restoring and re-saving an image will not degrade its quality, unlike standard JPEG (even at its highest quality settings).

The encoder and decoder should not matter, in regards of reading the images correctly. (Assuming, of course, they're not buggy).

And unlike TIFF, the PNG specification leaves no room for implementors to pick and choose what features they'll support; the result is that a PNG image saved in one app is readable in any other PNG-supporting application.

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  • Thanks! Encoders seem to vary dramatically in terms of compression rate though, with the standard one being also used by OpenCV performing much wors than others: stackoverflow.com/a/12216875/5522601 – smcs Dec 20 '17 at 12:23

While png is lossless, this does not mean it is uncompressed by default.

I specify compression using the IMWRITE_PNG_COMPRESSION flag. It varies between 0 (no compression) and 9 (maximum compression). So if you want uncompressed png:

cv2.imwrite(filename, data, [cv2.IMWRITE_PNG_COMPRESSION, 0])

The more you compress, the longer it takes to save.

Link to docs

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