# Map value to color scale

I have a list of values which should be plotted to a map with a certain color. The plotting to the map is already done, but I need to figure out a way to map the value `n` to a color that represents its value.

An example and my solution so far is to normalize the values based on the `min` and `max` and then assign them to hex color `0` for the lowest and `255` for the highest. This of course limits my self to the grey scale. Here is the code:

``````\$color = (\$value / \$max) * 255    // (min is zero)
``````

But how to do this if the values should go from blue to red for instance? Is there any common libraries or tools that can solve this? So far I haven't been able to locate any.

-
That's because you're setting the color for EVERY RGB, only set it for the ones that are red and blue. – user1508519 Oct 6 '13 at 16:00
I'd say to set red to `\$color` and blue to `255 - \$color`. – George Marques Oct 6 '13 at 16:06
remyabel: I know. George: That could work, but i'd like to know if there is some more generic way. – Kabahango Oct 6 '13 at 16:15
@Rasmus Look into gradients or color interpolation. – user1508519 Oct 6 '13 at 16:18

There might be libs to do that. However let's get a short warm up into the general principles. In general you have following options:

1. A predefined color index, e.g. `\$coloridx=array(0=>'#FFFFFF',1=>'#FFEE00',...);`
2. Any algorithm, e.g. linear gradient, which is basically an iterations based adaption of all three RGB channels (R = red, G = green, B = blue).
3. A combination of both, which usually puts the result of any complex algorithm to the color index and then goes from there.

If you include algorithms in your considerations you must understand that there is no `true` or `false`. It all depends on what you would like to implement. There might be occasions where it makes sense to render variations of green into `n=0..10` and then have red to black in everything beyond `n>10`. Caps and multipliers help to set accents. Things like that.

One way of implementing a linear gradient would be:

``````function lineargradient(\$ra,\$ga,\$ba,\$rz,\$gz,\$bz,\$iterationnr) {
\$colorindex = array();
for(\$iterationc=1; \$iterationc<=\$iterationnr; \$iterationc++) {
\$iterationdiff = \$iterationnr-\$iterationc;
\$colorindex[] = '#'.
dechex(intval(((\$ra*\$iterationc)+(\$rz*\$iterationdiff))/\$iterationnr)).
dechex(intval(((\$ga*\$iterationc)+(\$gz*\$iterationdiff))/\$iterationnr)).
dechex(intval(((\$ba*\$iterationc)+(\$bz*\$iterationdiff))/\$iterationnr));
}
return \$colorindex;
}

100, 0, 0,   // rgb of the start color
0, 255, 255, // rgb of the end color
);

\$color = \$colorindex[\$value];
``````

I UPDATED the code to add dechex, which feeds back on the comments.

-
Your function returns values in the form `#{num1}{num1}{num1}`, where the numX parts are decimal integer values – which makes them not directly usable as CSS colors (which I assume you tried to achieve by prefixing them with `#`). But that’s easily fixed, if you use sprintf with `%02x` to format the values, so maybe you want to adapt your code in that regard. Apart from that, good answer! +1 – CBroe Oct 7 '13 at 11:45
For anyone trying to make the above work, you want either this: – Adi Oct 30 '15 at 22:31
or this as @CBroe mentioned: – Adi Oct 30 '15 at 22:32
sprintf('%02x',intval(((\$ga*\$iterationc)+(\$gz*\$iterationdiff))/\$iterationnr)) – Adi Oct 30 '15 at 22:33

The other answer was very usefull. I decided to use JS as it reduces server load. The requirements also changed. The bar has to go from Red to white in the middle and then from white to yellow. And if the value is 0 it should be black. Here is my code for anyone who ever encounters a similar situation.

``````var normalize_base = 2*255;
var no_con_color = "black";

var hex = Number(d).toString(16);

hex = "0" + hex;
}

return hex;
}

function normalize(max, min, value)
{
var normalized = (value - min) / (max - min) ;
return Math.floor(normalized * normalize_base);
}

function value2Color(value)
{
if(value <= 0 || value == undefined)
{
return no_con_color;
}
var g = 0;
var b = 0;
var r = 0;
if(value < 255)
{
r = 255;
g = value;
b = value;
} else {
r = (2*255) - value;
g = 255;
b = (2*255) - value;
}

return "#" + decimalToHex(r) + decimalToHex(g) +  decimalToHex(b);
}
``````
-

There is I2UI for this.

``````<div data-i2="color:['#404040','#00FF21']">
<span data-i2="rate:1">A</span>
<span data-i2="rate:2">B</span>
<span data-i2="rate:3">C</span>
<span data-i2="rate:4">D</span>
<span data-i2="rate:5">E</span>
</div>
``````

There is a color range: from "Gray" - to "Green". The span element that has lowest rate value get the "Gray" color, the element with the biggest rate get "Green" color.

Thus, the span that are between edges get the color that has direct ratio to its rate.

Also, call JavaScript i2.emph() after the previous HTML have been loaded.

See demo

-