Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm writing a java game and I want to implement a power meter for how hard you are going to shoot something.

I need to write a function that takes a int between 0 - 100, and based on how high that number is, it will return a color between Green (0 on the power scale) and Red (100 on the power scale).

Similar to how volume controls work:
alt text

What operation do I need to do on the Red, Green, and Blue components of a color to generate the colors between Green and Red?

So, I could run say, getColor(80) and it will return an orangish color (its values in R, G, B) or getColor(10) which will return a more Green/Yellow rgb value.

I know I need to increase components of the R, G, B values for a new color, but I don't know specifically what goes up or down as the colors shift from Green-Red.


I ended up using HSV/HSB color space because I liked the gradiant better (no dark browns in the middle).

The function I used was (in java):

public Color getColor(double power)
    double H = power * 0.4; // Hue (note 0.4 = Green, see huge chart below)
    double S = 0.9; // Saturation
    double B = 0.9; // Brightness

    return Color.getHSBColor((float)H, (float)S, (float)B);

Where "power" is a number between 0.0 and 1.0. 0.0 will return a bright red, 1.0 will return a bright green.

Java Hue Chart:
alt text

Thanks everyone for helping me with this!

share|improve this question
I have previously asked the same (extremely similar) question here: http://stackoverflow.com/questions/168838/color-scaling-function –  Tomas Pajonk Dec 4 '08 at 11:03
Should you not invert the power? Assuming red is the highest hit, and you are working between 0.1 and 0.4, the higher the power the lower the H –  Adriaan Davel Nov 20 '12 at 6:40
Are you using OpenGL? As there are ways of setting the points of a triangle to different colours and then blending/gradient between them. You probably get better performance asking the graphics card to do the work for you. Also the code could be simpler / more adaptable (say if you want an aliens power meter to go from green to blue) –  DarcyThomas Jul 29 '13 at 22:59

11 Answers 11

up vote 95 down vote accepted

This should work - just linearly scale the red and green values. Assuming your max red/green/blue value is 255, and n is in range 0 .. 100

R = (255 * n) / 100
G = (255 * (100 - n)) / 100 
B = 0

(Amended for integer maths, tip of the hat to Ferrucio)

Another way to do would be to use a HSV colour model, and cycle the hue from 0 degrees (red) to 120 degrees (green) which whatever saturation and value suited you. This should give a more pleasing gradient.

Here's a demonstration of each technique - top gradient uses RGB, bottom uses HSV:


share|improve this answer
If R, G, B and n are integer types, make sure you re-write those expressions to do the multiplication first or you won't get smooth transitions. i.e. R=(255*n)/100 –  Ferruccio Dec 4 '08 at 11:19
It's much, much better to do this in HSV space. –  DJClayworth Dec 4 '08 at 22:31
@DJClayworth, yea I went with HSV. –  Simucal Jan 14 '09 at 6:59
+1; I was going to ask a new question about how to improve a color algorithm i have for coloring a bar chart in HTML/PHP... SO suggested this question as similar and your answer helped me fix the issue without having to ask the question! Thanks! –  beggs Jul 30 '09 at 3:49
How would you write a function that works with any color value? Say, calculate the color between RGB 20,30,190 and RBG 69,190,10 ? –  Kokodoko Sep 18 '14 at 12:52

Off the top of my head, here is the green-red hue transition in HSV space, translated to RGB:

blue = 0.0
if 0<=power<0.5:        #first, green stays at 100%, red raises to 100%
    green = 1.0
    red = 2 * power
if 0.5<=power<=1:       #then red stays at 100%, green decays
    red = 1.0
    green = 1.0 - 2 * (power-0.5)

The red, green, blue values in the above example are percentages, you'd probably want to multiply them by 255 to get the most used 0-255 range.

share|improve this answer
really awesome, well done –  George Garchagudashvili Mar 10 '14 at 7:03

Linearly interpolating between green and red almost should work, except that in the middle there will be muddy brown color.

The most flexible and best looking solution is to have an image file somewhere that has the exact color ramp you want. And then lookup the pixel value in there. This has the flexibility that you can tweak the gradient to be just right.

If you still want to do it from code, then it's probably best to interpolate between green and yellow colors in the left side, and between yellow and red on the right side. In RGB space, green is (R=0, G=255, B=0), yellow is (R=255, G=255, B=0), red is (R=255, G=0, B=0) - this is assuming each color component goes from 0 to 255.

share|improve this answer
The suggestion here of splitting the spectrum into Red/Yellow and Yellow/Green gives the most pleasing yellow results. –  fig Feb 24 at 15:13

Short Copy'n'Paste answer...

On Java Std:

int getTrafficlightColor(double value){
    return java.awt.Color.HSBtoRGB((float)value/3f, 1f, 1f);

On Android:

int getTrafficlightColor(double value){
    return android.graphics.Color.HSVToColor(new float[]{(float)value*120f,1f,1f});

note: value is a number between 0 and 1 indicating the red-to-green condition.

share|improve this answer

I made a small function wich gives you the rgb integer value for a percentage value:

private int getGreenToRedGradientByValue(int currentValue, int maxValue)
    int r = ( (255 * currentValue) / maxValue );
    int g = ( 255 * (maxValue-currentValue) ) / maxValue;
    int b = 0;
    return ((r&0x0ff)<<16)|((g&0x0ff)<<8)|(b&0x0ff);

So if your currentValue is 50 and your maxValue is 100, this function will return the color that you need, so if you loop this function with a percentage value, your color value will go from green to red. Sorry for the bad explanation

share|improve this answer

If you want an green-yellow-red representation like the accepted answer suggests then take a look at this.


function percentToRGB(percent) {
    if (percent === 100) {
        percent = 99
    var r, g, b;

    if (percent < 50) {
        // green to yellow
        r = Math.floor(255 * (percent / 50));
        g = 255;

    } else {
        // yellow to red
        r = 255;
        g = Math.floor(255 * ((50 - percent % 50) / 50));
    b = 0;

    return "rgb(" + r + "," + g + "," + b + ")";

function render(i) {
    var item = "<li style='background-color:" + percentToRGB(i) + "'>" + i + "</li>";

function repeat(fn, times) {
    for (var i = 0; i < times; i++) fn(i);

repeat(render, 100);
li {
<script src="https://ajax.googleapis.com/ajax/libs/jquery/2.1.0/jquery.min.js"></script>

share|improve this answer

You need to linearly interpolate (LERP) the color components. Here's how it's done in general, given a start value v0, an end value v1 and the required ratio (a normalized float between 0.0 and 1.0):

v = v0 + ratio * (v1 - v0)

This gives v0 when ratio is 0.0, v1 when ratio is 1.0, and everything between in the other cases.

You can do this either on the RGB components, or using some other color scheme, like HSV or HLS. The latter two will be more visually pleasing, since they work on hue and brightness compoments that map better to our color perception.

share|improve this answer
import java.awt.Color;

public class ColorUtils {

    public static Color interpolate(Color start, Color end, float p) {
        float[] startHSB = Color.RGBtoHSB(start.getRed(), start.getGreen(), start.getBlue(), null);
        float[] endHSB = Color.RGBtoHSB(end.getRed(), end.getGreen(), end.getBlue(), null);

        float brightness = (startHSB[2] + endHSB[2]) / 2;
        float saturation = (startHSB[1] + endHSB[1]) / 2;

        float hueMax = 0;
        float hueMin = 0;
        if (startHSB[0] > endHSB[0]) {
            hueMax = startHSB[0];
            hueMin = endHSB[0];
        } else {
            hueMin = startHSB[0];
            hueMax = endHSB[0];

        float hue = ((hueMax - hueMin) * p) + hueMin;

        return Color.getHSBColor(hue, saturation, brightness);
share|improve this answer

I'd say you want something in between a line segment in the HSV space (which has a slightly-too-bright yellow in the centre) and a line segment in the RGB space (which has an ugly brown in the centre). I would use this, where power = 0 will give green, power = 50 will give a slightly dull yellow, and power = 100 will give red.

blue = 0;
green = 255 * sqrt( cos ( power * PI / 200 ));
red = 255 * sqrt( sin ( power * PI / 200 )); 
share|improve this answer

In Python 2.7:

import colorsys

def get_rgb_from_hue_spectrum(self, percent, start_hue, end_hue):
    # spectrum is red (0.0), orange, yellow, green, blue, indigo, violet (0.9)
    hue = percent * (end_hue - start_hue) + start_hue
    lightness = 0.5
    saturation = 1
    r, g, b = colorsys.hls_to_rgb(hue, lightness, saturation)
    return r * 255, g * 255, b * 255

# from green to red:
get_rgb_from_hue_spectrum(percent, 0.3, 0.0)

# or red to green:
get_rgb_from_hue_spectrum(percent, 0.0, 0.3)

Percent is of course value / max_value. Or if your scale doesn't begin at 0 then (value - min_value) / (max_value - min_value).

share|improve this answer
Didn't know about colorsys. Nice! –  Fernando Macedo Nov 24 '14 at 21:35

If you need this kind of gradient (actually reversed) in CSS (min version 2.1) you can use HSL, too.

Supposing you are in an AngularJs template and value is a number from 0 to 1 and you want to style an element (background or text color)...

hsl({{ value * 120}}, 50%, 35%)

First value: degrees ( 0 red, 120 green) Second value: saturation (50% is neutral) Third value: lightness (50% neutral)

A nice article here

Theory on Wikipedia here

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.