# Algorithm to generate RGB graduated colors in PHP

I'm interesting in algorithms to generate 'n' graduated colors between two given colors, that generate smooth transitions between each of them.

I tried letting static two channels, for example R and G, and incremental change B, but sometimes the difference between two colors are harder than the neighbors have.

I want to check different algorithms and analyze their weakness and strenghts.

I wrote this code and it seems logic, but the transitions between some colors are harder than between other (e.g.between 0 and 1 is harder than between 1 and 2):

``````<?php
\$c1 = array(128,175,27); // Color 1
\$c2 = array(255,255,140); // Color 2
\$nc = 5; // Number of colors to display.
\$dc = array((\$c2[0]-\$c1[0])/(\$nc-1),(\$c2[1]-\$c1[1])/(\$nc-1),(\$c2[2]-\$c1[2])/(\$nc-1)); // Step between colors

for (\$i=0;\$i<\$nc;\$i++){
echo '<div style="width:200px;height:50px;background-color:rgb('.round(\$c1[0]+\$dc[0]*\$i).','.round(\$c1[1]+\$dc[1]*\$i).','.round(\$c1[2]+\$dc[2]*\$i).');">'.\$i.'</div>'; // Output
}
?>
``````

Are there a better algorithm to do this?

I bring an example: In the code above I used `\$c1=array(192,5,248);` and `\$c2 = array(142,175,240);` and `\$nc = 10;` and obtained this image:

The RGB values of 0,1,8 and 9 are:

• 0 = 192,5,248
• 1 = 186,24,247
• 8 = 148,156,241
• 9 = 142,175,240

If you look there is a diference between neighbor colors of 6,19,1. But the visually transition between 0 and 1 is softer than the transition between 8 and 9. And for HSV is the same thing. It is something with some colors that do its transition harder or softer.

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So.... what have you tried so far? – Fosco Nov 21 '11 at 16:25
What does "I tried letting static two channels, for example R and G, and incremental change B" mean? Are you keeping R and G the same and only changing B? That would work only if R and G are the same in the source and target colors. – mcrumley Nov 21 '11 at 17:13
Yes @mcrumley, that I did, but then found that is better to split the differences between channels. Please take a look of the code added. – Memochipan Nov 21 '11 at 17:20
Why someone downvote my question? – Memochipan Nov 24 '11 at 17:38

In HSV, generate n colors whose hue changes linearly from the first color to the second color. Convert each HSV value to RGB.

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Could you suggest a way to do that in PHP? Look my example code above? The way that you suggest is better than that? Thanks for your answer. – Memochipan Nov 22 '11 at 13:30
There's nothing PHP-specific about this. It's just simple arithmetic to switch between HSV and RGB. Google is your friend. Or, see stackoverflow.com/q/3597447/21727 – mbeckish Nov 22 '11 at 13:50
I don't see any advantage given two RGB colors, convert to HSV to reconvert again to RGB. I tested what you said but changing V instead of H in steps of 10, and the result is exactly the same that my code above. – Memochipan Nov 23 '11 at 14:56
@Memochipan - The reason for using HSV is that it gives an easy way to step through the colors in ROYGBIV order. Altering R, G, and B simultaneously might work for some pairs of colors, but others would jump around the color spectrum during the transition. – mbeckish Nov 23 '11 at 17:37
@Memochipan - In HSV, you would actually want to simultaneously change H, S, and V to transition from one color to the other. My initial suggestion of only changing hue was based on the assumption that you were only dealing with fully saturated colors. – mbeckish Nov 23 '11 at 17:39

In the following image you can see the output of a piece of code I wrote to compare transitions between two colors using RGB and HSV splitting in equal size steps:

I found the transitions using HSV are afected by Hue and depend of the distance between colors. If you choose two colors with the same hue is interesting to see that HSV transitions are more clear than in RGB, because you are only playing with saturation and value (black) and no adding colors like in RGB.

``````<?php
// Configuration.
\$nc = 6; // Number of colors.
\$w = 300; // Width of divs.
\$a = 50; // Height of divs.

// Colors
/* In RGB */
\$c1 = array(rand(0,255),rand(0,255),rand(0,255));
\$c2 = array(rand(0,255),rand(0,255),rand(0,255));
//\$c1 = array(128,175,27); // Color 1: Whit these colors is not change.
//\$c2 = array(255,255,140); // Color 2: Whit these colors is not change.
// \$c1 = array(0,0,0); // Color 1: White.
// \$c2 = array(255,255,255); // Color 2: Black.
/* In HSV */
\$h3 = array(rand(0,360),rand(0,100),rand(0,100));
\$h4 = array(rand(0,360),rand(0,100),rand(0,100));
//\$h3 = array(145,50,50); // Color 3: To see the influence of Hue.
//\$h4 = array(145,0,100); // Color 4: To see the influence of Hue.

// HTML
\$html .= '<div style="margin:auto;width:'.(\$w*2).'px;">';
// RGB to RGB split
\$html .= customHTML(\$w,\$a,\$c,'RGB->RGBs');
// RGB to HSV split
\$h1 = RGBtoHSV(\$c1);
\$h2 = RGBtoHSV(\$c2);
\$html .= customHTML(\$w,\$a,\$h,'RGB->HSVs');
// HSV to HSV split
\$html .= customHTML(\$w,\$a,\$h,'HSV->HSVs');
// HSV to RGB split
\$c3 = HSVtoRGB(\$h3);
\$c4 = HSVtoRGB(\$h4);
\$html .= customHTML(\$w,\$a,\$c,'HSV->RGBs');
// Output
\$html .= '</div>';
echo \$html;

// Dados dos colores RGB (0-255,0-255,0-255) y un número de colores deseados, regresa un array con todos los colores de la gradación.
\$c = array();
\$dc = array((\$c2[0]-\$c1[0])/(\$nc-1),(\$c2[1]-\$c1[1])/(\$nc-1),(\$c2[2]-\$c1[2])/(\$nc-1));
for (\$i=0;\$i<\$nc;\$i++){
\$c[\$i][0]= round(\$c1[0]+\$dc[0]*\$i);
\$c[\$i][1]= round(\$c1[1]+\$dc[1]*\$i);
\$c[\$i][2]= round(\$c1[2]+\$dc[2]*\$i);
}
return \$c;
}
// Dados dos colores HSV (0-360,0-100,0-100) y un número de colores deseados, regresa un array con todos los colores de la gradación en RGB.    (Hay un detalle con esta función y es que la transición se podría hacer por el lado contrario del círculo cromático)
\$h = array();
\$dh = array((\$h2[0]-\$h1[0])/(\$nc-1),(\$h2[1]-\$h1[1])/(\$nc-1),(\$h2[2]-\$h1[2])/(\$nc-1));
for (\$i=0;\$i<\$nc;\$i++){
\$h[\$i][0]= \$h1[0]+\$dh[0]*\$i;
\$h[\$i][1]= \$h1[1]+\$dh[1]*\$i;
\$h[\$i][2]= \$h1[2]+\$dh[2]*\$i;
\$h[\$i] = HSVtoRGB(\$h[\$i]);
}
return \$h;
}

/* FUNCIONES DE CONVERSIÓN. */
// Convierte a HSV (0-360,0-100,0-100) colores en RGB (0-255,0-255,0-255).
function RGBtoHSV(array \$rgb) {

\$f = 0.00000001; // Factor de corrección para evitar la división por cero.

list(\$R,\$G,\$B) = \$rgb;

\$R = \$R==0?\$f:\$R/255;
\$G = \$G==0?\$f:\$G/255;
\$B = \$B==0?\$f:\$B/255;

\$V = max(\$R,\$G,\$B);
\$X = min(\$R,\$G,\$B);
\$S = (\$V-\$X)/\$V;

\$V_X = \$V-\$X==0?\$f:\$V-\$X;

\$r = (\$V-\$R)/(\$V_X);
\$g = (\$V-\$G)/(\$V_X);
\$b = (\$V-\$B)/(\$V_X);

if (\$R == \$V)
\$H = \$G==\$X?(5+\$b):(1-\$g);
elseif (\$G == \$V)
\$H = \$B==\$X?(1+\$r):(3-\$b);
else
\$H = \$R==\$X?(3+\$g):(5-\$r);

\$H /= 6;

\$H = round(\$H*360);
\$S = round(\$S*100);
\$V = round(\$V*100);

return array(\$H, \$S, \$V);
}

// Convierte a RGB (0-255,0-255,0-255) colores en HSV (0-360,0-100,0-100).
function HSVtoRGB(array \$hsv) {
list(\$H,\$S,\$V) = \$hsv;

\$H = \$H/360;
\$S = \$S/100;
\$V = \$V/100;

//1
\$H *= 6;
//2
\$I = floor(\$H);
\$F = \$H - \$I;
//3
\$M = \$V * (1 - \$S);
\$N = \$V * (1 - \$S * \$F);
\$K = \$V * (1 - \$S * (1 - \$F));
//4
switch (\$I) {
case 0:
list(\$R,\$G,\$B) = array(\$V,\$K,\$M);
break;
case 1:
list(\$R,\$G,\$B) = array(\$N,\$V,\$M);
break;
case 2:
list(\$R,\$G,\$B) = array(\$M,\$V,\$K);
break;
case 3:
list(\$R,\$G,\$B) = array(\$M,\$N,\$V);
break;
case 4:
list(\$R,\$G,\$B) = array(\$K,\$M,\$V);
break;
case 5:
case 6: //for when \$H=1 is given
list(\$R,\$G,\$B) = array(\$V,\$M,\$N);
break;
}

\$R = round(\$R*255);
\$G = round(\$G*255);
\$B = round(\$B*255);

return array(\$R, \$G, \$B);
}

// Función con un HTML de muestra para la visualización de colores, podría ser cualquier otro.