# How to Desaturate a Color?

I might not be using the correct color terminology but I want to basically be able to scale colors similar to the picture attached. I have been searching for saturation to do this, as it appears the right version is just a must less saturated version of the left.

I was trying this (which I found) but it is not looking correct at all:

``````Public Shared Function GetDesaturatedColor(color As Color) As Color
Const kValue As Double = 0.01R

Dim greyLevel = (color.R * 0.299R) + _
(color.G * 0.587R) + _
(color.B * 0.144R)

Dim r = greyLevel * kValue + (color.R) * (1 - kValue)
Dim g = greyLevel * kValue + (color.G) * (1 - kValue)
Dim b = greyLevel * kValue + (color.B) * (1 - kValue)

' ColorUtils.ToByte converts the double value
' to a byte safely
Return color.FromArgb(255, _
ColorUtils.ToByte(r), _
ColorUtils.ToByte(g), _
ColorUtils.ToByte(b))
End Function
``````

Does anyone know of some algorithm that can do this?

• Search here for RGB to HSL and you will find many posts on the topic. – Brad Nov 11 '12 at 2:18

As @Brad mentioned in the comments to your post, your first step is to convert the colours from RGB to either HSL or HSV. From there, reducing the saturation is trivial - just subtract or divide the saturation by a value to reduce it.

After that, convert your HSL/HSV color back into RGB and it's ready for use.

How to change RGB color to HSV? has a good example of how to do this, as does Manipulating colors in .net.

For those that want to avoid converting everything to HSL/HSV and back, this works reasonably well (if not correctly depending on what one thinks the "correct" desaturated image is):

``````f = 0.2; // desaturate by 20%
L = 0.3*r + 0.6*g + 0.1*b;
new_r = r + f * (L - r);
new_g = g + f * (L - g);
new_b = b + f * (L - b);
``````
• Worked like a charm – CatalinBerta Sep 16 '15 at 15:50
• Whats the explanation for this algorithm? Is there a name for it? Trying to learn image processing atm. – kosinix Jun 8 '16 at 6:30
• This is converting r,g,b to grayscale using the common assumption that green, red and blue correspond to the Luma of an image decreasing proportions respectively. So `L` is a grayscale image and then `f` is just linearly interpolating between the input RGB image and that grayscale image. – Alec Jacobson May 10 '17 at 22:48

It appears by experiment that just reducing saturation is not enough to get the result shown in the picture. I used the colors from OP's question in the code shown below. If you just reduce saturation, here is what you get:

If you also reduce alpha/opacity of the new color, you can achieve a better result:

I am assuming if you play with parameters, you should be able to get a perfect match. Try changing `alpha` for `reducedSaturation2` (currently =40) and `GetSaturation` divider (currently =1.3)

Here is my code sample:

``````Public Function HSVToColor(ByVal H As Double, ByVal S As Double, ByVal V As Double) As Color
Dim Hi As Integer = (H / 60) Mod 6
Dim f As Double = H / 60 Mod 1
Dim p As Integer = V * (1 - S) * 255
Dim q As Integer = V * (1 - f * S) * 255
Dim t As Integer = V * (1 - (1 - f) * S) * 255
Select Case Hi
Case 0 : Return Color.FromArgb(V * 255, t, p)
Case 1 : Return Color.FromArgb(q, V * 255, p)
Case 2 : Return Color.FromArgb(p, V * 255, t)
Case 3 : Return Color.FromArgb(p, V * 255, q)
Case 4 : Return Color.FromArgb(t, p, V * 255)
Case 5 : Return Color.FromArgb(V * 255, q, p)
End Select
End Function

Private Sub Button1_Click(sender As System.Object, e As System.EventArgs) Handles Button1.Click
Dim normalSaturation As Color = Color.FromArgb(255, 216, 53, 45)
Me.CreateGraphics.FillRectangle(New SolidBrush(normalSaturation), 100, 0, 100, 100)
Dim reducedSaturation As Color = HSVToColor(normalSaturation.GetHue, normalSaturation.GetSaturation / 1.3, normalSaturation.GetBrightness)
Dim reducedSaturation2 As Color = Color.FromArgb(40, reducedSaturation)
Me.CreateGraphics.FillRectangle(New SolidBrush(reducedSaturation2), 0, 0, 100, 100)
End Sub
``````
• I noticed this as well. The way I tried to solve it was decrease the saturation and up the brightness (value). I was able to get something decently similar to my picture. I will try out yours though, thanks. – test Nov 11 '12 at 4:07
• @reedparkes: I tried playing with brigthness - the problem is at some it gets high enough (=255), so you cannot up it anymore. This is where alpha can help. Actually, you could probably use all three to achieve desired result. – Neolisk Nov 11 '12 at 13:14

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