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Asked By
rustyStriker
As the title suggests, I’m looking for a way to use the hsv values of a color instead of the rgb values, I tried to look for some answers and came across a couple of functions that didn’t work very well for me.
if anyone got a working converters and could share them with me it would be lovely.
if anyone got a working converters and could share them with me it would be lovely.
If you’re a command-line fan, pastel should work well for you
I need HSV to RGB conversion for a project of mine, so I wrote a quick dirty function. It’s not a whole converter suite or anything, but I thought I’d share it in case it saves somebody some work.
I’ve included an example where you get the usual color wheel if you put the shader on a square.
shader_type canvas_item;
const float PI = 3.14159265358979323846;
vec4 hsv_to_rgb(float h, float s, float v, float a){
//based on
//https://stackoverflow.com/questions/51203917/math-behind-hsv-to-rgb-conversion-of-colors
// So it needs values from 0 to 1
float r;
float g;
float b;
float i = floor(h*6.0);
float f = h*6.0 -i;
float p = v*(1.0-s);
float q = v*(1.0-f*s);
float t = v* (1.0-(1.0-f)*s);
int cond = int(i)%6;
if (cond == 0){
r = v; g = t; b = p;
}
else if (cond == 1){
r = q; g = v; b = p;
}
else if (cond == 2){
r = p; g = v; b = t;
}
else if (cond == 3){
r = p; g = q; b = v;
}
else if (cond == 4){
r = t; g = p; b = v;
}
else if (cond == 5){
r = v; g = p; b = q;
}
else {
// THIS SHOULD NEVER HAPPEN
r = 0.0; g = 0.0; b = 0.0;
}
return vec4(r,g,b,a);
return vec4(0.5,1.0,0.0,1.0);
}
float atan2(float x, float y){
if (x > 0.0){
return atan(y/x);
}
else if (x < 0.0){
if (y >= 0.0){
return atan(y/x) + PI;
}
else {
return atan(y/x) - PI;
}
}
else { // This is x=0
if(y > 0.0){
return PI/2.0;
}
else {
// This includes the actually undefined x=y=0 case
return -PI/2.0;
}
}
}
vec2 cartesian_to_polar(vec2 XY){
float r = length(XY);
float phi = (atan2(XY[0],XY[1]) + PI)/(2.0*PI);
// We shift the atan2 to the [0,2pi] range and then normalize
return vec2(r,phi);
}
void fragment(){
// Center coordinates
vec2 XY = 2.0*UV - 1.0;
vec2 RPhi = cartesian_to_polar(XY);
float r = RPhi[0];
float phi = RPhi[1];
COLOR = hsv_to_rgb(phi,r/sqrt(2.0),1.0,1.0);
}
edit: (We need to normalize r, so I added r/sqrt(2.0) because otherwise r is not between 0 and 1)