# Convert RGB color to the nearest color in palette (web safe color)?

I want to convert a color either in RGB/Hex format to its nearest web-safe color.

Details about a websafe color can be found here: http://en.wikipedia.org/wiki/Web_safe_color

This website(http://www.colortools.net/color_make_web-safe.html) is able to do the way I want to, but I am not sure how to go about it in Python. Can anyone help me out here?

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You know 'web safe' colors aren't really important anymore, right? And weren't all they were cracked up to be in the first place. I bet that Wikipedia link you put here explains that, too. –  Andrew Barber Nov 5 '13 at 6:23
I think the general task is interesting (who cares if the colors are from the "web safe" palette?) - step #1 is to find out: "How to compute the difference (and by what metric?) between two RGB values?" Once such a difference function is defined, this task is easily solved trivially with a map and sort (which is very boring). –  user2864740 Nov 5 '13 at 6:27
Start by color difference to see just how complicated coming up with such a difference function can be! (And this is also very device and color-space dependent.) Anyway, with these new search terms, should be able to explore more. Good luck! –  user2864740 Nov 5 '13 at 6:30
–  user2864740 Nov 5 '13 at 6:34
Unlike other palettes, web safe colors don't need any complex comparison algorithms, because each channel is simply a multiple of 51. So you can take the channels of your own color and just do R = Round( ( R / 255 ) * 5 ) * 51. Fast and simple cross-platform color quantization. So much for being "not really important anymore"! ;-) –  Beejor Mar 12 at 5:42

import scipy.spatial as sp

input_color = (100, 50, 25)
websafe_colors = [(200, 100, 50), ...] # list of web-save colors
tree = sp.KDTree(websafe_colors) # creating k-d tree from web-save colors
ditsance, result = tree.query(input_color) # get Euclidean distance and index of web-save color in tree/list
nearest_color = websafe_colors[result]

Or add loop for several input_colors

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Despite being somewhat of a misnomer, the web safe color palette is indeed quite useful for color quantization. It's simple, fast, flexible, and ubiquitous. It also allows for RGB hex shorthand such as #369 instead of #336699. Here's a walkthrough with some pseudocode.

1. Web safe colors are RGB triplets, with each value being one of the following six: 00, 33, 66, 99, CC, FF. So we can divide the max RGB value 255 by five (one less than the total possible values) to get a multiple value, 51.
2. Normalize the channel value by dividing by 255 (this makes it a value from 0-1 instead of 0-255).
3. Multiply by 5, and round the result to make sure it stays exact.
4. Multiply by 51 to get the final web safe value. All together, this looks something like:

Function WebSafeColor( C as Color ) as Color
Dim R, G, B as Double
R = Round( ( C.Red / 255 ) * 5 ) * 51
G = Round( ( C.Green / 255 ) * 5 ) * 51
B = Round( ( C.Blue / 255 ) * 5 ) * 51
Return RGB( R, G, B )
End Function

No need to go crazy comparing colors or creating huge lookup tables, as others have suggested. :-)

I apologize for not knowing Python, but I stumbled across this question looking for an answer myself. So I hope this helps!

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