# Categorize a random color into one of the primary colors Windows Phone

I am trying to create a method that accepts a random color value then check which primary colors it's closest to.

I imagine I have to compare its RGB value and see where it falls within the range of those primary colors and then set it as Red, or Yellow or Blue etc.

What is the best way of doing this? Thanks

EDIT This question is marked as duplicate but I checked the other answer of the said duplicate question but it doesn't offer the answer I am after.

using the formula

``````d = sqrt((r2-r1)^2 + (g2-g1)^2 + (b2-b1)^2)
``````

sometimes produce the same value for different colors. For instance take an input color of `R170 : G0 : B255`. The distances from both white `R255 : G255 : B255` and red `R255 : G0 : B0` produce (int)269 using the formula. So which color is closer, red or white? I removed black and white from the list but the problem still occurs for some other colors.

I am comparing with several colors i.e: black, white, red, lime. blue, yellow, cyan. magenta and gray as listed in the RGB color table here rapidtables.com/web/color/RGB_Color.htm

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I would treat it as a vector and find the magnitude from each polar (0,1,0), (1,0,0), (0,0,1), (See Link) –  Sayse Jun 24 at 7:07
(Above should be 255's instead of 1's) –  Sayse Jun 24 at 7:13
good suggestion.. lets see if I can code something along this idea. –  PutraKg Jun 24 at 7:18
I've added in pseudo if it will help –  Sayse Jun 24 at 7:22

I don't have an IDE infront of me but here's my comment in pseudo (Can update later if necessary)

``````var closestColor

Get vector magnitude of( myR + 255, myG, myB)
set closestColor to Red

Get vector magnitude of( myR , myG+ 255, myB)
If(Green is closer than red)
set closestColor to Green

Get vector magnitude of( myR , myG, myB + 255)
If(Blue is closer than closestColor)
set closestColor to Blue

Return closest color
``````

Update

I did a quick linq example with extension

``````    public static double VectorMagnitude(this Color c, Color otherC)
{
return Math.Sqrt(((int)(c.R + otherC.R))^2 +
((int)(c.G + otherC.G))^2 +
((int)(c.B + otherC.B))^2);
}

private static List<Color> Colors()
{
return new List<Color>()
{
Color.Red,
Color.Blue,
Color.FromArgb(0,255,0)
};
}

var l = Colors().OrderBy(x => x.VectorMagnitude(
Color.FromArgb(255, R, G, B))).FirstOrDefault();
``````
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Tested this but I found that since it's based on average distance, two different colors might give similar 'closeness'. For instance input color `R170 : G0 : B255` distance from both white ` R255 : G255 : B255` and red `R 255 : G0 : B0` produce (int)269 using the formula –  PutraKg Jun 24 at 11:33
your not after the distance from white, your after the distance from solid red/blue/green –  Sayse Jun 24 at 11:41
Right. But what if I want to compare to other 'basic' colors as well? My list contains, black, white, red, lime. blue, yellow, cyan. magenta and gray as listed in the RGB color table here rapidtables.com/web/color/RGB_Color.htm –  PutraKg Jun 24 at 11:44
Putra, in your example, it should return closest to blue –  Sayse Jun 24 at 12:13
I think you are right, the problem I was facing was when adding the distance value as dictionary key which sometimes produce similar values. But I wonder what if two colors have the closest distance? Like in my example, what if there are no closest value besides the two? –  PutraKg Jun 24 at 12:30