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I have some code that generates image of a pie chart. It's a general purpose class, so any number of slices can be given as input. Now I have problem picking good colors for the slices. Is there some algorithm that is good at that?

Or maybe I should just hand-pick and list fixed colors? But how many. Maybe 10 colors and hope there will not be more than 10 slices ever? Also, which 10 colors to pick?

Colors need to follow some rules:

  • they need to look nice
  • adjacent colors should not be similar (blue next to green is a no-go)
  • pie background color is white, so white is out of option

Some algorithm manipulating with RGB values would be a preferred solution.

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4  
how is blue similar to green? –  peterchen Oct 26 '08 at 1:59
6  
@peterchen - very similar if you're blue-green color blind ;) –  locster Nov 5 '11 at 17:18

7 Answers 7

up vote 11 down vote accepted

I would pre-compile a list of about 20 colors, then start repeating with the 2nd color. This way you won't break your second rule. Also, if someone makes a pie chart with more than 20 slices, they have bigger problems. :)

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This is exactly what the web application I'm currently working on does. Creates 20, then repeats those 20 ten times to create a list of 200. However, I have a pie chart with more than 20 slices, and colors are repeating. Any suggestions? –  Eric Belair Feb 6 '09 at 20:40
2  
If you really need ~200 different colors you might want to consider using the Web-safe palette (or a subset). en.wikipedia.org/wiki/Web_colors –  Bill the Lizard Feb 6 '09 at 21:15
    
Just an implementation of @BilltheLizard's suggestion: if(pie.length % palette.length == 1) { palette.push(palette[1]) }. It seems like rule 2 only breaks when we have a multiple of color length + 1 slices; this just ensures we repeat from the second one in the breaking case (useful when using something like d3's ordinal scales for color choosing). Now we can use just a few colors from a nice (i.e rule 1 satisfying) palette and not worry about breaking rule 2. –  funseiki Jul 13 at 19:41

I solved it as follows:

  1. Choose a base color.
  2. Calculate its hue (baseHue).
  3. Create a color with the same saturation and luminosity, with its hue calculated as:
      hue = baseHue + ((240 / pieces) * piece % 240
    

In C#:

int n = 12;

Color baseColor = System.Drawing.ColorTranslator.FromHtml("#8A56E2");
double baseHue = (new HSLColor(baseColor)).Hue;

List<Color> colors = new List<Color>();
colors.Add(baseColor);

double step = (240.0 / (double)n);

for (int i = 1; i < n; ++i)
{
    HSLColor nextColor = new HSLColor(baseColor);
    nextColor.Hue = (baseHue + step * ((double)i)) % 240.0;
    colors.Add((Color)nextColor);
}

string colors = string.Join(",", colors.Select(e => e.Name.Substring(2)).ToArray());

I used the HSLColor class.

The Google Charts example that uses 12 pieces and a base color of #8A56E2:

Chart Example

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1  
Really nice solution, thanks. Not sure why this isn't the top answer! –  locster Nov 5 '11 at 17:25
2  
In your example, the two upper left colors (10 hours to midnight) look identical on my screen ! –  Brann Dec 21 '11 at 19:14
    
Very nice, thank you ! –  Alex Jun 3 '12 at 12:12
    
Super nice colors! I got a job because of them! Thank you! –  janetsmith Oct 3 '12 at 19:05
    
How does this not completely ignore rule #2, that similar colors should not be adjacent? It makes a nice color wheel, but not so good for a pie chart. –  Geobits Oct 2 '13 at 17:44

If you are looking for some kind of a formula for this, I can't help. I am looking for it myself (from time to time :-).

But, if you just need a good pre-defined palette for your charts, I recommend to take a look at Color Brewer. This is a very handy online tool that helps to define a coloring scheme for all kinds of artefacts that use color to convey qualitative or quantitative information: maps, charts, etc.

Out of three "types" of palettes that this tool can generate - sequential, qualitative, and diverging - you probably need the latter, diverging...

The tool itself is hosted at http://colorbrewer.org (requires Flash player).

You can even download Excel files with RGB definitions of all the palettes.

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Building upon this solution to solve the question's rule #2, the following algorithm swaps colors around the pie's middle-point. The two parameters:

  1. pNbColors is the number of slices in the pie
  2. pNonAdjacentSimilarColor a Boolean to indicate if you want to have Adjacent similar colors or not.

I am using ColorHSL, ColorRGB and ColorUtils (provided below).

public static function ColorArrayGenerator(
    pNbColors:int,
    pNonAdjacentSimilarColor:Boolean = false):Array
{       
    var colors:Array = new Array();
    var baseRGB:ColorRGB = new ColorRGB();
    baseRGB.setRGBFromUint(0x8A56E2);

    var baseHSL:ColorHSL = new ColorHSL();
    rgbToHsl(baseHSL, baseRGB);

    var currentHue:Number = baseHSL.Hue;

    colors.push(baseRGB.getUintFromRGB());

    var step:Number = (360.0 / pNbColors);
    var nextHSL:ColorHSL;
    var nextRGB:ColorRGB;
    var i:int;

    for (i = 1; i < pNbColors; i++)
    {
        currentHue += step;
        if (currentHue > 360)
        {
            currentHue -= 360;
        }

        nextHSL = new ColorHSL(currentHue, baseHSL.Saturation, aseHSL.Luminance);
        nextRGB = new ColorRGB();
        hslToRgb(nextRGB, nextHSL);

        colors.push(nextRGB.getUintFromRGB());
    }

    if (pNonAdjacentSimilarColor == true &&
        pNbColors > 2)
    {
        var holder:uint = 0;
        var j:int;

        for (i = 0, j = pNbColors / 2; i < pNbColors / 2; i += 2, j += 2)
        {
            holder = colors[i];
            colors[i] = colors[j];
            colors[j] = holder;
        }
    }

    return colors;
}

This produces the right-hand side output:

Comparison Image

ColorHSL class:

    final public class ColorHSL
{
    private var _hue:Number;    // 0.0 .. 359.99999

    private var _sat:Number;    // 0.0 .. 100.0

    private var _lum:Number;    // 0.0 .. 100.0

    public function ColorHSL(
        hue:Number = 0,
        sat:Number = 0,
        lum:Number = 0)
    {
        _hue = hue;
        _sat = sat;
        _lum = lum;
    }

    [Bindable]public function get Hue():Number
    {
        return _hue;
    }

    public function set Hue(value:Number):void
    {
        if (value > 360) 
        {
            _hue = value % 360;
        }    // remember, hue is modulo 360
        else if (value < 0)
        {
            _hue = 0;
        }
        else
        {
            _hue = value;
        }
    }

    [Bindable]public function get Saturation():Number
    {
        return _sat;
    }

    public function set Saturation(value:Number):void
    {
        if (value > 100.0)
        {
            _sat = 100.0;
        }
        else if (value < 0)
        {
            _sat = 0;
        }
        else
        {
            _sat = value;
        }
    }

    [Bindable]public function get Luminance():Number
    {
        return _lum;
    }

    public function set Luminance(value:Number):void
    {
        if (value > 100.0)
        {
            _lum = 100.0;
        }
        else if (value < 0)
        {
            _lum = 0;
        }
        else
        {
            _lum = value;
        }
    }
}

ColorRGB class:

    final public class ColorRGB
{
    private var _red:uint;
    private var _grn:uint;
    private var _blu:uint;
    private var _rgb:uint;        // composite form: 0xRRGGBB or #RRGGBB

    public function ColorRGB(red:uint = 0, grn:uint = 0, blu:uint = 0)
    {
        setRGB(red, grn, blu);
    }

    [Bindable]public function get red():uint
    {
        return _red;
    }

    public function set red(value:uint):void
    {
        _red = (value & 0xFF);
        updateRGB();
    }

    [Bindable]public function get grn():uint
    {
        return _grn;
    }

    public function set grn(value:uint):void
    {
        _grn = (value & 0xFF);
        updateRGB();
    }

    [Bindable]public function get blu():uint
    {
        return _blu;
    }

    public function set blu(value:uint):void
    {
        _blu = (value & 0xFF);
        updateRGB();
    }

    [Bindable]public function get rgb():uint
    {
        return _rgb;
    }

    public function set rgb(value:uint):void
    {
        _rgb = value;
        _red = (value >> 16) & 0xFF;
        _grn = (value >>  8) & 0xFF;
        _blu =  value        & 0xFF;
    }

    public function setRGB(red:uint, grn:uint, blu:uint):void
    {
        this.red = red;
        this.grn = grn;
        this.blu = blu;
    }

    public function setRGBFromUint(pValue:uint):void
    {
        setRGB((( pValue >> 16 ) & 0xFF ), ( (pValue >> 8) & 0xFF ), ( pValue & 0xFF ));
    }

    public function getUintFromRGB():uint
    {
        return ( ( red << 16 ) | ( grn << 8 ) | blu );
    }

    private function updateRGB():void
    {
        _rgb = (_red << 16) + (_grn << 8) + blu;
    }
}

ColorUtils class:

final public class ColorUtils
{
    public static function HSV2RGB(hue:Number, sat:Number, val:Number):uint
    {
        var red:Number = 0;
        var grn:Number = 0;
        var blu:Number = 0;
        var i:Number;
        var f:Number;
        var p:Number;
        var q:Number;
        var t:Number;
        hue%=360;
        sat/=100;
        val/=100;
        hue/=60;
        i = Math.floor(hue);
        f = hue-i;
        p = val*(1-sat);
        q = val*(1-(sat*f));
        t = val*(1-(sat*(1-f)));
        if (i==0)
        {
            red=val;
            grn=t;
            blu=p;
        }
        else if (i==1)
        {
            red=q;
            grn=val;
            blu=p;
        }
        else if (i==2)
        {
            red=p;
            grn=val;
            blu=t;
        }
        else if (i==3)
        {
            red=p;
            grn=q;
            blu=val;
        }
        else if (i==4)
        {
            red=t;
            grn=p;
            blu=val;
        }
        else if (i==5)
        {
            red=val;
            grn=p;
            blu=q;
        }
        red = Math.floor(red*255);
        grn = Math.floor(grn*255);
        blu = Math.floor(blu*255);

        return (red<<16) | (grn << 8) | (blu);
    }

    //
    public static function RGB2HSV(pColor:uint):Object
    {
        var red:uint = (pColor >> 16) & 0xff;
        var grn:uint = (pColor >> 8) & 0xff;
        var blu:uint = pColor & 0xff;

        var x:Number;
        var val:Number;
        var f:Number;
        var i:Number;
        var hue:Number;
        var sat:Number;
        red/=255;
        grn/=255;
        blu/=255;
        x = Math.min(Math.min(red, grn), blu);
        val = Math.max(Math.max(red, grn), blu);
        if (x==val){
            return({h:undefined, s:0, v:val*100});
        }
        f = (red == x) ? grn-blu : ((grn == x) ? blu-red : red-grn);
        i = (red == x) ? 3 : ((grn == x) ? 5 : 1);
        hue = Math.floor((i-f/(val-x))*60)%360;
        sat = Math.floor(((val-x)/val)*100);
        val = Math.floor(val*100);
        return({h:hue, s:sat, v:val});
    }

    /**
     * Generates an array of pNbColors colors (uint) 
     * The colors are generated to fill a pie chart (meaning that they circle back to the starting color)
     * @param pNbColors The number of colors to generate (ex: Number of slices in the pie chart)
     * @param pNonAdjacentSimilarColor Should the colors stay Adjacent or not ?
     */
    public static function ColorArrayGenerator(
        pNbColors:int,
        pNonAdjacentSimilarColor:Boolean = false):Array
    {
        // Based on http://www.flexspectrum.com/?p=10

        var colors:Array = [];
        var baseRGB:ColorRGB = new ColorRGB();
        baseRGB.setRGBFromUint(0x8A56E2);

        var baseHSL:ColorHSL = new ColorHSL();
        rgbToHsl(baseHSL, baseRGB);

        var currentHue:Number = baseHSL.Hue;

        colors.push(baseRGB.getUintFromRGB());

        var step:Number = (360.0 / pNbColors);
        var nextHSL:ColorHSL;
        var nextRGB:ColorRGB;
        var i:int;

        for (i = 1; i < pNbColors; i++)
        {
            currentHue += step;

            if (currentHue > 360)
            {
                currentHue -= 360;
            }

            nextHSL = new ColorHSL(currentHue, baseHSL.Saturation, baseHSL.Luminance);
            nextRGB = new ColorRGB();
            hslToRgb(nextRGB, nextHSL);

            colors.push(nextRGB.getUintFromRGB());
        }

        if (pNonAdjacentSimilarColor == true &&
            pNbColors > 2)
        {
            var holder:uint = 0;
            var j:int;

            for (i = 0, j = pNbColors / 2; i < pNbColors / 2; i += 2, j += 2)
            {
                holder = colors[i];
                colors[i] = colors[j];
                colors[j] = holder;
            }
        }

        return colors;
    }

    static public function rgbToHsl(hsl:ColorHSL, rgb:ColorRGB):void
    {
        var h:Number = 0;
        var s:Number = 0;
        var l:Number = 0;

        // Normalizes incoming RGB values.
        //
        var dRed:Number = (Number)(rgb.red / 255.0);
        var dGrn:Number = (Number)(rgb.grn / 255.0);
        var dBlu:Number = (Number)(rgb.blu / 255.0);

        var dMax:Number = Math.max(dRed, Math.max(dGrn, dBlu));
        var dMin:Number = Math.min(dRed, Math.min(dGrn, dBlu));

        //-------------------------
        // hue
        //
        if (dMax == dMin)
        {
            h = 0;                 // undefined
        }
        else if (dMax == dRed && dGrn >= dBlu)
        {
            h = 60.0 * (dGrn - dBlu) / (dMax - dMin);
        }
        else if (dMax == dRed && dGrn < dBlu)
        {
            h = 60.0 * (dGrn - dBlu) / (dMax - dMin) + 360.0;
        }
        else if (dMax == dGrn)
        {
            h = 60.0 * (dBlu - dRed) / (dMax-dMin) + 120.0;
        }
        else if (dMax == dBlu)
        {
            h = 60.0 * (dRed - dGrn) / (dMax - dMin) + 240.0;
        }

        //-------------------------
        // luminance
        //
        l = (dMax + dMin) / 2.0;

        //-------------------------
        // saturation
        //
        if (l == 0 || dMax == dMin)
        {
            s = 0;
        }
        else if (0 < l && l <= 0.5)
        {
            s = (dMax - dMin) / (dMax + dMin);
        }
        else if (l>0.5)
        {
            s = (dMax - dMin) / (2 - (dMax + dMin));    //(dMax-dMin > 0)?
        }

        hsl.Hue = h;
        hsl.Luminance = l;
        hsl.Saturation = s;

    } // rgbToHsl

    //---------------------------------------
    // Convert the input RGB values to the corresponding HSL values.
    //
    static public function hslToRgb(rgb:ColorRGB, hsl:ColorHSL):void
    {
        if (hsl.Saturation == 0)
        {
            // Achromatic color case, luminance only.
            //
            var lumScaled:int = (int)(hsl.Luminance * 255.0); 
            rgb.setRGB(lumScaled, lumScaled, lumScaled);
            return;
        }

        // Chromatic case...
        //
        var dQ:Number = (hsl.Luminance < 0.5) ? (hsl.Luminance * (1.0 + hsl.Saturation)): ((hsl.Luminance + hsl.Saturation) - (hsl.Luminance * hsl.Saturation));
        var dP:Number = (2.0 * hsl.Luminance) - dQ;

        var dHueAng:Number = hsl.Hue / 360.0;

        var dFactor:Number = 1.0 / 3.0;

        var adT:Array = [];

        adT[0] = dHueAng + dFactor;                // Tr
        adT[1] = dHueAng;                        // Tg
        adT[2] = dHueAng - dFactor;                // Tb

        for (var i:int = 0; i < 3; i++)
        {
            if (adT[i] < 0)
            {
                adT[i] += 1.0;
            }

            if (adT[i] > 1)
            {
                adT[i] -= 1.0;
            }

            if ((adT[i] * 6) < 1)
            {
                adT[i] = dP + ((dQ - dP) * 6.0 * adT[i]);
            }
            else if ((adT[i] * 2.0) < 1)        // (1.0 / 6.0) <= adT[i] && adT[i] < 0.5
            {
                adT[i] = dQ;
            }
            else if ((adT[i] * 3.0) < 2)        // 0.5 <= adT[i] && adT[i] < (2.0 / 3.0)
            {
                adT[i] = dP + (dQ-dP) * ((2.0/3.0) - adT[i]) * 6.0;
            }
            else
            {
                adT[i] = dP;
            }
        }

        rgb.setRGB(adT[0] * 255.0, adT[1] * 255.0, adT[2] * 255.0);

    } // hslToRgb

    //---------------------------------------
    // Adjust the luminance value by the specified factor.
    //
    static public function adjustRgbLuminance(rgb:ColorRGB, factor:Number):void
    {
        var hsl:ColorHSL = new ColorHSL();

        rgbToHsl(hsl, rgb);

        hsl.Luminance *= factor;

        if (hsl.Luminance < 0.0)
        {
            hsl.Luminance = 0.0;
        }

        if (hsl.Luminance > 1.0)
        {
            hsl.Luminance = 1.0;
        }

        hslToRgb(rgb, hsl);
    }

    //---------------------------------------
    //
    static public function uintTo2DigitHex(value:uint):String
    {
        var str:String = value.toString(16).toUpperCase();

        if (1 == str.length)
        {
            str = "0" + str;
        }

        return str;
    }

    //---------------------------------------
    //
    static public function uintTo6DigitHex(value:uint):String
    {
        var str:String = value.toString(16).toUpperCase();

        if (1 == str.length)    {return "00000" + str;}
        if (2 == str.length)    {return "0000" + str;}
        if (3 == str.length)    {return "000" + str;}
        if (4 == str.length)    {return "00" + str;}
        if (5 == str.length)    {return "0" + str;}

        return str;
    }
}
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This 1985 paper by "ROSS E. ROLEY, CAPT" gives an algorithm for maximizing color seperation for an arbitrary set of colors (complete with code in FORTRAN).

(Color seperation appears to be an important visualization issue for military forces to prevent blue-on-blue incidents.)

However if you want to stick to a set of 20 colors, a quick and simple solution would be to pick the vertices of a dodecahedron and convert the (x,y,z) co-ordinates (suitably scaled) to (r,g,b).

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There is a generator here. It is intended for web design, but the colours would look great on a pie chart, too.

You could either pre-compile a list of nice colours, or examine the logic behind the generator and do something similar yourself.

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1  
Some explanation of the generator or its algorithm would be nice, as the meat of this post is hidden behind the link at the moment, and links have a nasty habit of dying. –  Mike Precup 19 hours ago

I found this pseudocode formula that might help. You could start with a set to seed it.

Colour Difference Formula

The following is the formula suggested by the W3C to determine the difference between two colours.

(maximum (Red value 1, Red value 2) - minimum (Red value 1, Red value 2)) + (maximum (Green value 1, Green value 2) - minimum (Green value 1, Green value 2)) + (maximum (Blue value 1, Blue value 2) - minimum (Blue value 1, Blue value 2))

The difference between the background colour and the foreground colour should be greater than 500.

Here is the source

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