It seems that given a multi-channel image img I cannot do this:

img *= cv::Scalar(1.5,0.5,2.1);

I'd like to scale each channel by a different float factor.
Is there a simple way to do this?

I could use cv::transform() but that seems like overkill (I also obviously don't want to manually and explicitly iterate on all the pixels).

Any suggestions?

  • What's wrong with iterating over all the pixels? – Bull Aug 9 '17 at 13:08
  • How do you envision scaling each channel without touching all the pixels? That's a bit of a contradiction, isn't it? – Dan Mašek Aug 9 '17 at 13:08
  • Of course all the pixels have to be accessed, but writing the loop manually is verbose, bug-prone and most likely less efficient than a dedicated function that can optimize (and maybe parallelize) access order as most OpenCV functions do. That's what operator overloading is for (though it's missing in this case). – Adi Shavit Aug 9 '17 at 13:10
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    I'd like to evaluate both the split/merge and the answer (and eventually see I'm wrong ;) ). No time for this, though. The answer however is probably what you're looking for – Miki Aug 9 '17 at 13:22
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    @Miki: fwiw my images are ~3Mpx, try it with such large images. Anyway, I accepted the answer below. It sucks that cv::MatExpr/cv::Mat does not overload operators with cv::Scalar types. – Adi Shavit Aug 9 '17 at 13:24

You can use multiply:

cv::Mat3b m = ... ;
cv::multiply(m, cv::Scalar(2, 3, 4), m);

or, as suggested by @AdiShavit:

cv::Mat3b m = ... ;
m = m.mul(cv::Scalar(2, 3, 4));
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    Yes, this works. Just got this suggestion from @berak. Thanks. IIUC, it is essentially the same as using cv::transform(). – Adi Shavit Aug 9 '17 at 13:22
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    For completeness, this also works: img = img.mul(Scalar(2,3,4)); – Adi Shavit Aug 9 '17 at 13:38

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