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I'd like to find a way to take an arbitrary color and lighten it a few shades, so that I can programatically create a nice gradient from the one color to a lighter version. The gradient will be used as a background in a UI.

Possibility 1

Obviously I can just split out the RGB values and increase them individually by a certain amount. Is this actually what I want?

Possibility 2

My second thought was to convert the RGB to HSV/HSB/HSL (Hue, Saturation, Value/Brightness/Lightness), increase the brightness a bit, decrease the saturation a bit, and then convert it back to RGB. Will this have the desired effect in general?

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Which programming language? –  Horcrux7 Sep 26 '08 at 20:44
The programming language is of no consequence. –  David Arno Sep 26 '08 at 20:49

18 Answers 18

up vote 34 down vote accepted

I would go for the second option. Generally speaking the RGB space is not really good for doing color manipulation (creating transition from one color to an other, lightening / darkening a color, etc). Below are two sites I've found with a quick search to convert from/to RGB to/from HSL:

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first link is broken –  akira Jan 12 '13 at 7:50
Thanks, I updated it. –  Cd-MaN Jan 21 '13 at 13:15
Second link is broken. –  RenniePet Jan 29 '13 at 19:37
Good replacement link for conversion source code: bobpowell.net/RGBHSB.aspx –  Curtis Yallop Jul 26 '13 at 17:25
Another reference link: social.msdn.microsoft.com/Forums/vstudio/en-US/… –  Curtis Yallop Jul 26 '13 at 17:28

As Wedge said, you want to multiply to make things brighter, but that only works until one of the colors becomes saturated (i.e. hits 255 or greater). At that point, you can just clamp the values to 255, but you'll be subtly changing the hue as you get lighter. To keep the hue, you want to maintain the ratio of (middle-lowest)/(highest-lowest).

Here are two functions in Python. The first implements the naive approach which just clamps the RGB values to 255 if they go over. The second redistributes the excess values to keep the hue intact.

def clamp_rgb(r, g, b):
    return min(255, int(r)), min(255, int(g)), min(255, int(b))

def redistribute_rgb(r, g, b):
    threshold = 255.999
    m = max(r, g, b)
    if m <= threshold:
        return int(r), int(g), int(b)
    total = r + g + b
    if total >= 3 * threshold:
        return int(threshold), int(threshold), int(threshold)
    x = (3 * threshold - total) / (3 * m - total)
    gray = threshold - x * m
    return int(gray + x * r), int(gray + x * g), int(gray + x * b)

I created a gradient starting with the RGB value (224,128,0) and multiplying it by 1.0, 1.1, 1.2, etc. up to 2.0. The upper half is the result using clamp_rgb and the bottom half is the result with redistribute_rgb. I think it's easy to see that redistributing the overflows gives a much better result, without having to leave the RGB color space.

Lightness gradient with clamping (top) and redistribution (bottom)

For comparison, here's the same gradient in the HLS and HSV color spaces, as implemented by Python's colorsys module. Only the L component was modified, and clamping was performed on the resulting RGB values. The results are similar, but require color space conversions for every pixel.

Lightness gradient with HLS (top) and HSV (bottom)

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After upvoting this I realized this is way overkill. All you need to do is alpha blend with white at a certain opacity (i.e. interpolate the color components the same fraction towards 255). –  Andy Jun 8 at 22:50
@Andy take a look at the sample. The first two boxes on the left don't have any white in them, they're fully saturated. It would have been more if I had started with a darker color. –  Mark Ransom Jun 9 at 2:30
Ah, I see, so your code has the same linear discontinuity as the HLS colorspace. I can see how that would make a richer gradient. Since I just wanted to lighten a color for a hover highlight instead of making a gradient, I was expecting a simpler method –  Andy Jun 9 at 2:46
@Andy there's another answer that suggests a linear interpolation with white, I believe that's exactly what you're after. –  Mark Ransom Jun 9 at 3:07
Yes, I was going to add that answer myself until I saw someone else had done it. Cheers! –  Andy Jun 9 at 3:08

In C#:

public static Color Lighten(Color inColor, double inAmount)
  return Color.FromArgb(
    (int) Math.Min(255, inColor.R + 255 * inAmount),
    (int) Math.Min(255, inColor.G + 255 * inAmount),
    (int) Math.Min(255, inColor.B + 255 * inAmount) );

I've used this all over the place.

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Very handy, and simple. Using it in a VB.NET app now. –  Kieran Senior Sep 16 '09 at 11:13

ControlPaint class in System.Windows.Forms namespace has static methods Light and Dark:

public static Color Dark(Color baseColor, float percOfDarkDark);

These methods use private implementation of HLSColor. I wish this struct was public and in System.Drawing.

Alternatively, you can use GetHue, GetSaturation, GetBrightness on Color struct to get HSB components. Unfortunately, I didn't find the reverse conversion.

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Convert it to RGB and linearly interpolate between the original color and the target color (often white). So, if you want 16 shades between two colors, you do:

for(i = 0; i < 16; i++)
  colors[i].R = start.R + (i * (end.R - start.R)) / 15;
  colors[i].G = start.G + (i * (end.G - start.G)) / 15;
  colors[i].B = start.B + (i * (end.B - start.B)) / 15;
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In most cases only the start and end color are needed since the graphics library of choice probably has built in gradient capabilities. –  Max Schmeling Sep 26 '08 at 21:22

In order to get a lighter or a darker version of a given color you should modify its brightness. You can do this easily even without converting your color to HSL or HSB color. For example to make a color lighter you can use the following code:

float correctionFactor = 0.5f;
float red = (255 - color.R) * correctionFactor + color.R;
float green = (255 - color.G) * correctionFactor + color.G;
float blue = (255 - color.B) * correctionFactor + color.B;
Color lighterColor = Color.FromArgb(color.A, (int)red, (int)green, (int)blue);

If you need more details, read the full story on my blog.

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A very similar question, with useful answers, was asked previously: http://stackoverflow.com/questions/97646/how-do-i-determine-darker-or-lighter-color-variant-of-a-given-color

Short answer: multiply the RGB values by a constant if you just need "good enough", translate to HSV if you require accuracy.

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Upvoted for the reference to the similar question, but I disagree with the RGB advice - go HSV. –  Blair Conrad Sep 26 '08 at 20:55

I've done this both ways -- you get much better results with Possibility 2.

Any simple algorithm you construct for Possibility 1 will probably work well only for a limited range of starting saturations.

You would want to look into Poss 1 if (1) you can restrict the colors and brightnesses used, and (2) you are performing the calculation a lot in a rendering.

Generating the background for a UI won't need very many shading calculations, so I suggest Poss 2.


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I used Andrew's answer and Mark's answer to make this (as of 1/2013 no range input for ff).

function calcLightness(l, r, g, b) {
    var tmp_r = r;
    var tmp_g = g;
    var tmp_b = b;

    tmp_r = (255 - r) * l + r;
    tmp_g = (255 - g) * l + g;
    tmp_b = (255 - b) * l + b;

    if (tmp_r > 255 || tmp_g > 255 || tmp_b > 255) 
        return { r: r, g: g, b: b };
        return { r:parseInt(tmp_r), g:parseInt(tmp_g), b:parseInt(tmp_b) }

enter image description here

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Converting to HS(LVB), increasing the brightness and then converting back to RGB is the only way to reliably lighten the colour without effecting the hue and saturation values (ie to only lighten the colour without changing it in any other way).

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IF you want to produce a gradient fade-out, I would suggest the following optimization: Rather than doing RGB->HSB->RGB for each individual color you should only calculate the target color. Once you know the target RGB, you can simply calculate the intermediate values in RGB space without having to convert back and forth. Whether you calculate a linear transition of use some sort of curve is up to you.

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Method 1: Convert RGB to HSL, adjust HSL, convert back to RGB.

Method 2: Lerp the RGB colour values - http://en.wikipedia.org/wiki/Lerp_(computing)

See my answer to this similar question for a C# implementation of method 2.

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Pretend that you alpha blended to white:

oneMinus = 1.0 - amount
r = amount + oneMinus * r
g = amount + oneMinus * g
b = amount + oneMinus * b

where amount is from 0 to 1, with 0 returning the original color and 1 returning white.

You might want to blend with whatever the background color is if you are lightening to display something disabled:

oneMinus = 1.0 - amount
r = amount * dest_r + oneMinus * r
g = amount * dest_g + oneMinus * g
b = amount * dest_b + oneMinus * b

where (dest_r, dest_g, dest_b) is the color being blended to and amount is from 0 to 1, with zero returning (r, g, b) and 1 returning (dest.r, dest.g, dest.b)

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I think this should be the top answer. Likewise to darken you just alpha blend to black (i.e. multiply components by some amount < 1). –  Andy Jun 8 at 22:51

I didn't find this question until after it became a related question to my original question.

However, using insight from these great answers. I pieced together a nice two-liner function for this:

Programmatically Lighten or Darken a hex color

Its a version of method 1. But with over saturation taken into account. Like Keith said in his answer above; use Lerp to seemly solve the same problem Mark mentioned, but without redistribution. The results of shadeColor2 should be much closer to doing it the right way with HSL, but without the overhead.

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I would have tried number #1 first, but #2 sounds pretty good. Try doing it yourself and see if you're satisfied with the results, it sounds like it'll take you maybe 10 minutes to whip up a test.

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Technically, I don't think either is correct, but I believe you want a variant of option #2. The problem being that taken RGB 990000 and "lightening" it would really just add onto the Red channel (Value, Brightness, Lightness) until you got to FF. After that (solid red), it would be taking down the saturation to go all the way to solid white.

The conversions get annoying, especially since you can't go direct to and from RGB and Lab, but I think you really want to separate the chrominance and luminence values, and just modify the luminence to really achieve what you want.

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You'll find code to convert between color spaces in the color-tools ruby library

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I have a blog post that shows how to do this in Delphi. Its pretty simple because the functions ColorRGBToHSL and ColorHLSToRGB are part of the standard library.

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