# Matlab rgb2hsv() to give uint8s?

I'm new at working with Matlab and I am trying to get the HSV values of an image, but I need the result to be an uint8. Currently, when I read in an image, I received the following matrix:

``````whos im
Name        Size               Bytes  Class    Attributes

im        120x100x3            36000  uint8
``````

When I use the function rgb2hsv() i get:

``````hsv = rgb2hsv(im);
whos hsv
Name        Size                Bytes  Class     Attributes

hsv       120x100x3            288000  double
``````

Is there any way to either convert this to a matrix of uint8s instead of doubles?

• Converting to `uint8` will have unintended side effects. You will lose precision if you convert to `uint8`. Usually, the hue is represented as an angular measure between 0 and 360 while the saturation and value are represented as floating point values from 0 to 100 or from 0 to 1. The transformation is supposed to give you floating point values. Let me ask you a question instead: Why do you want to convert the result to `uint8`? – rayryeng Feb 25 '16 at 19:01
• I need to use the values as indexes for a separate matrix. It's okay if I lose a bit of precision. – user3709119 Feb 25 '16 at 19:03
• Would you mind explaining what your ultimate application of using the HSV transformation as indices are? It may provide some further insight and I could comment on another method if applicable. – rayryeng Feb 25 '16 at 19:06
• Ok that makes more sense. As such, the quantization of the HSV transformation seems plausible. Thanks very much. Good luck. – rayryeng Feb 25 '16 at 19:14
• FYI, `hsv` is the name of a built-in colormap. You might not want to overwrite it if you're using that color scheme. – horchler Feb 25 '16 at 20:25

To convert the result back to uint8, simply use `hsv = im2uint8(rgb2hsv(im))`. It not only does the data type conversion, but also scales your image to the 0...255 range of an uint8.
When storing an image in double format, only the range 0...1 is used, while storing an image in any integer (or fixed point) format the full range between `intmin` and `intmax` is used. To convert the image back to the original range you have to use `im2uint8` or do it manually, first multiplying by 255 and then converting the data type. I prefer `im2uint8` because it is more robust, e.g. `im2uint8(im2uint8(I))` returns a valid image. The previous is true for all colour spaces I know except HDR images.
• is it safe to scale `hsv` values? Do they "behave" like RGB values? – Shai Feb 25 '16 at 18:59