# How to calculate a certain color based on another color?

For example I have a blue color:

`#049cd9` or `rgba(4, 156, 218)`

How can I calculate the correspondent color, which in this case it would be a dark blue color:

`#004ea0` or `rgba(0, 78, 160)`

?

Normally I don't know the 2nd color (that I want to find out), so I want to find a way to get the darker color based on the first color.

Is there a formula or something that I can generate by substracting the two colors somehow?

So I've found HEX to HSL and HSL to HEX functions:

``````function hex_to_hue(\$hexcode)
{
\$redhex  = substr(\$hexcode,0,2);
\$greenhex = substr(\$hexcode,2,2);
\$bluehex = substr(\$hexcode,4,2);

// \$var_r, \$var_g and \$var_b are the three decimal fractions to be input to our RGB-to-HSL conversion routine
\$var_r = (hexdec(\$redhex)) / 255;
\$var_g = (hexdec(\$greenhex)) / 255;
\$var_b = (hexdec(\$bluehex)) / 255;

// Input is \$var_r, \$var_g and \$var_b from above
// Output is HSL equivalent as \$h, \$s and \$l — these are again expressed as fractions of 1, like the input values

\$var_min = min(\$var_r,\$var_g,\$var_b);
\$var_max = max(\$var_r,\$var_g,\$var_b);
\$del_max = \$var_max - \$var_min;

\$l = (\$var_max + \$var_min) / 2;

if (\$del_max == 0) {
\$h = 0;
\$s = 0;
} else {
if (\$l < 0.5) {
\$s = \$del_max / (\$var_max + \$var_min);
} else {
\$s = \$del_max / (2 - \$var_max - \$var_min);
}
;

\$del_r = (((\$var_max - \$var_r) / 6) + (\$del_max / 2)) / \$del_max;
\$del_g = (((\$var_max - \$var_g) / 6) + (\$del_max / 2)) / \$del_max;
\$del_b = (((\$var_max - \$var_b) / 6) + (\$del_max / 2)) / \$del_max;

if (\$var_r == \$var_max) {
\$h = \$del_b - \$del_g;
} else if (\$var_g == \$var_max) {
\$h = (1 / 3) + \$del_r - \$del_b;
} else if (\$var_b == \$var_max) {
\$h = (2 / 3) + \$del_g - \$del_r;
}
;

if (\$h < 0) {
\$h += 1;
}
;

if (\$h > 1) {
\$h -= 1;
}
;
}
;

return array(\$h, \$s, \$l);

/*
// Calculate the opposite hue, \$h2
\$h2 = \$h + 0.5;
if (\$h2 > 1)
{
\$h2 -= 1;
};

return array(\$h2, \$s, \$l);
*/

}

function hue_to_hex(\$hue = array())
{
function hue_2_rgb(\$v1,\$v2,\$vh)
{
if (\$vh < 0) {
\$vh += 1;
}
;

if (\$vh > 1) {
\$vh -= 1;
}
;

if ((6 * \$vh) < 1) {
return(\$v1 + (\$v2 - \$v1) * 6 * \$vh);
}
;

if ((2 * \$vh) < 1) {
return(\$v2);
}
;

if ((3 * \$vh) < 2) {
return(\$v1 + (\$v2 - \$v1) * ((2 / 3 - \$vh) * 6));
}
;

return(\$v1);
}
;

list(\$h2, \$s, \$l) = \$hue;

// Input is HSL value of complementary colour, held in \$h2, \$s, \$l as fractions of 1
// Output is RGB in normal 255 255 255 format, held in \$r, \$g, \$b
// Hue is converted using function hue_2_rgb, shown at the end of this code

if (\$s == 0) {
\$r = \$l * 255;
\$g = \$l * 255;
\$b = \$l * 255;
} else {
if (\$l < 0.5) {
\$var_2 = \$l * (1 + \$s);
} else {
\$var_2 = (\$l + \$s) - (\$s * \$l);
}
;

\$var_1 = 2 * \$l - \$var_2;
\$r = 255 * hue_2_rgb(\$var_1,\$var_2,\$h2 + (1 / 3));
\$g = 255 * hue_2_rgb(\$var_1,\$var_2,\$h2);
\$b = 255 * hue_2_rgb(\$var_1,\$var_2,\$h2 - (1 / 3));
}
;

\$rhex = sprintf("%02X",round(\$r));
\$ghex = sprintf("%02X",round(\$g));
\$bhex = sprintf("%02X",round(\$b));

return \$rhex.\$ghex.\$bhex;
}
``````

They work because I tested them by converting a color back and forth.

But I don't know how can I change the Hue and Luminosity properties just like in Photoshop? The dark color would be H +13 and L -28.

And the hex_to_hsl function above returns float values between 0 and 1...

-
What exactly do you mean? What is a "correspondent color"? –  Pointy Nov 4 '11 at 14:05
What defines a corresponding colour? Do you just want to get a darker version of the colour? –  musefan Nov 4 '11 at 14:05
yes, something like that –  Alex Nov 4 '11 at 14:06
You'll need to describe what you want more clearly, or provide a much larger sample set so that we can try to pattern match. –  zzzzBov Nov 4 '11 at 14:07
The simplest form of darkening i can think of is to divide by 2. You'll maintain proportions of rgb, but it will be darker. It wont match the colors you provided though. –  zzzzBov Nov 4 '11 at 14:09

There are formulas that convert an RGB color to HSV (Hue, Saturation and Value). From the HSV you can change any of the HSV components and then convert back to RGB. I've found stuff online and done this before. Let me know if you want more details on the algorithms, I can dig them up for you if you want.

-
How did you get the idea (out of curiosity) that the question is about mapping back and forth between RGB and HSV color spaces? –  Pointy Nov 4 '11 at 14:07
thanks, I could search for that myself, I just want ideas on how to do this :) –  Alex Nov 4 '11 at 14:07
ah I see - convert to HSV, reduce "V", then convert back :-) –  Pointy Nov 4 '11 at 14:09
@Pointy converting to HSV is the only way that I know of that will allow you to take an RGB color and darken or lighten it. –  rogerlsmith Nov 4 '11 at 14:10
The other thing you could do is interpolate on a "straight line" through RGB color space from the starting color back to (0, 0, 0). –  Pointy Nov 4 '11 at 14:11

`#XXXXXX` represent hexa decimal number in colors for RED, GREEN and BLUE, each two characters from left to right if you increase the number it will get light, if decrease the number, it will be darker.

-
Dev, that emphasis wasn't really needed –  Damien Pirsy Nov 4 '11 at 14:09

You need to convert the RGB value to HSL or HSV and then you can decrease the L (luma) or V (value) component as you wish and then convert back to RGB.

see this answer for example code: RGB to HSV in PHP

-
thanks, do you know a function that can reverse this? hsv-to-rgb? –  Alex Nov 4 '11 at 14:23

The easiest way to tinker with how colours are perceived (ie, lighter, darker, brighter, duller, etc) is to convert it to HSL. There are plenty of resources online for converting RGB to HSL and back again in PHP and JavaScript. Google will find you as many implementations as you want. Then to decrease the lightness, reduce the L value (multiply by 0.75 or similar) and convert back to RGB.

-
``````function hex_to_hue(\$hexcode, \$percent) {
\$redhex = substr(\$hexcode, 0, 2);
\$greenhex = substr(\$hexcode, 2, 2);
\$bluehex = substr(\$hexcode, 4, 2);

// \$var_r, \$var_g and \$var_b are the three decimal fractions to be input to our RGB-to-HSL conversion routine
\$var_r = (hexdec(\$redhex)) / 255;
\$var_g = (hexdec(\$greenhex)) / 255;
\$var_b = (hexdec(\$bluehex)) / 255;

// Input is \$var_r, \$var_g and \$var_b from above
// Output is HSL equivalent as \$h, \$s and \$l — these are again expressed as fractions of 1, like the input values

\$var_min = min(\$var_r, \$var_g, \$var_b);
\$var_max = max(\$var_r, \$var_g, \$var_b);
\$del_max = \$var_max - \$var_min;

\$l = (\$var_max + \$var_min) / 2;

if (\$del_max == 0) {
\$h = 0;
\$s = 0;
} else {
if (\$l < 0.5) {
\$s = \$del_max / (\$var_max + \$var_min);
} else {
\$s = \$del_max / (2 - \$var_max - \$var_min);
}
;

\$del_r = (((\$var_max - \$var_r) / 6) + (\$del_max / 2)) / \$del_max;
\$del_g = (((\$var_max - \$var_g) / 6) + (\$del_max / 2)) / \$del_max;
\$del_b = (((\$var_max - \$var_b) / 6) + (\$del_max / 2)) / \$del_max;

if (\$var_r == \$var_max) {
\$h = \$del_b - \$del_g;
} else if (\$var_g == \$var_max) {
\$h = (1 / 3) + \$del_r - \$del_b;
} else if (\$var_b == \$var_max) {
\$h = (2 / 3) + \$del_g - \$del_r;
}
;

if (\$h < 0) {
\$h += 1;
}
;

if (\$h > 1) {
\$h -= 1;
}
;
}
;

//return array(\$h, \$s, \$l);
// Calculate the opposite hue, \$h2
\$h2 = \$h + \$percent;
if (\$h2 > 1) {
\$h2 -= 1;
}

// Calculate the opposite hue, \$s2
\$s2 = \$s + \$percent;
if (\$s2 > 1) {
\$s2 -= 1;
}

// Calculate the opposite hue, \$s2
\$l2 = \$l + \$percent;
if (\$l2 > 1) {
\$l2 -= 1;
}
return array(\$h2, \$s2, \$l2);
}
``````
-