# Calculate X,Y pixel position on gradient based on hex color using Javascript

I have a raindow HSV gradient canvas that when you click it, an element is added at that location with its background as the color of the clicked pixel.

What I'd like is to have it work in reverse as well. For example if you had a hex color, I'd like to find that pixel on the canvas and create an element at that position.

My first thought was to somehow use a matrix/quadrant system. My next thought was that since I'm using HSV, I could use my HSV gradient location points to figure out the location. The problem is that my points aren't equidistant from each other which makes it harder. On top of that, I have a white gradient and black gradient covering the main color gradient and I need that to be accounted for.

So my question is, how can I find the position of the color pixel or at least it's closest match by just using a hex code?

Here is my code thus far: http://codepen.io/shelbywhite/pen/EyqPWY?editors=1000

HTML:

``````<div class="container">
<canvas class="colorSpectrum"></canvas>
<div class="circle"></div>
</div>
``````

CSS:

``````.container {
background: grey;
height: 350px;
width: 400px;
}

.circle {
background: transparent;
border: 2px solid #fff;
height: 20px;
margin: -12px;
width: 20px;
position: absolute;
}

.colorSpectrum {
display: block;
height: 100%;
transform: translateZ(0);
width: 100%;
}
``````

Javascript:

``````\$(function() {

var closest = function(num, arr) {
var curr = arr;
var diff = Math.abs(num - curr);

for (var val = 0; val < arr.length; val++) {
var newdiff = Math.abs(num - arr[val]);
if (newdiff < diff) {
diff = newdiff;
curr = arr[val];
}
}

return curr;
};

var container = \$('.container');
var containerWidth = container.width();
var containerHeight = container.height();

var verticalGradientsHeight = Math.round(containerHeight * .34);
var round = function(value, decimals) {
return Number(Math.round(value+'e'+decimals)+'e-'+decimals);
};

// Draws the color spectrum onto the canvas
var drawColorSpectrum = function() {

// Cache canvas element
var canvasElement = \$('.colorSpectrum');

// Cache javascript element
var canvas = canvasElement;

// Get canvas context
var ctx = canvas.getContext('2d');

// Cache page height
var canvasWidth = containerWidth;

// Cache page height
var canvasHeight = containerHeight - 72;

var blackStartYPos = canvasHeight - verticalGradientsHeight;

var blackEndYPos = canvasHeight;

var black = ctx.createLinearGradient(0, blackStartYPos, 0, blackEndYPos);

// Create new instance of image
var img = new Image();

// Cache container
_colorSpectrumContainer = canvasElement.parent();

// Set global var
spectrumCanvas = canvasElement;

// Set width of canvas
canvas.width = canvasWidth;

// Set height of canvas
canvas.height = canvasHeight;

// Draw intial image
ctx.drawImage(this, 0, 0, canvasWidth, canvasHeight);

// Draw white to transparent gradient
ctx.fillStyle = white;

// Draw black to transparent gradient

ctx.fillStyle = black;
}

// Set image source
img.src = "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAMgAAAABCAYAAACbv+HiAAAA0ElEQVR4AYWSh2oDMAwFz6u7//+d2YmXalGBIBM47nnPIIEtmd8FGBTgDbPxDmbn49pX+cZX+Nz4mkZ2SECEAXTCAprlalntBC5whdUJnOfKEy5DjZYtB+o0D3XUMk0tkaZZEn2VuyiJQQQywS/P4c25ucTrfF3ndsoVdjmy3NMiuptR1eHfNcBFM2orW1ZXru00JZiBDrIII5AG5AlloX5TcG6/ywuuv0zAbyL4TWRZmIvU5TNBTjCPIIu5N3YgO7Wxtbot3q4+2LgTyFnZ/QHzBZD1KDpyqQAAAABJRU5ErkJggg==";
};

//
var hexToRgb = function(hex) {

hex = hex.replace('#','');

r = parseInt(hex.substring(0, 2), 16);
g = parseInt(hex.substring(2, 4), 16);
b = parseInt(hex.substring(4, 6), 16);

return [r, g, b];
};

//
var rgbToHsb = function(r, g, b) {

var rr, gg, bb,
r = r / 255,
g = g / 255,
b = b / 255,
h, s,
v = Math.max(r, g, b),
diff = v - Math.min(r, g, b),
diffc = function(c){
return (v - c) / 6 / diff + 1 / 2;
};

if (diff == 0) {
h = s = 0;
} else {
s = diff / v;
rr = diffc(r);
gg = diffc(g);
bb = diffc(b);

if (r === v) {
h = bb - gg;
}else if (g === v) {
h = (1 / 3) + rr - bb;
}else if (b === v) {
h = (2 / 3) + gg - rr;
}
if (h < 0) {
h += 1;
}else if (h > 1) {
h -= 1;
}
}

return {
h: Math.round(h * 360),
s: Math.round(s * 100),
b: Math.round(v * 100)
};
};

// Find hue in stop range
var findHueInStopRange = function(hue) {

// Array of hue stops with HSV, RGB, and HEX info
var stops = [{
h: 0,
l: 0,
s: 100,
b: 100
}, {
h: 60,
l: 21,
s: 100,
b: 100
}, {
h: 120,
l: 40,
s: 85,
b: 85
}, {
h: 180,
l: 56,
s: 85,
b: 85
}, {
h: 237,
l: 72,
s: 86,
b: 96
}, {
h: 300,
l: 89,
s: 86,
b: 96
}, {
h: 359,
l: 100,
s: 100,
b: 100
}];

// Total number of stops
var stopsLength = stops.length;

// Loop through stops
for (var i = 0; i < stopsLength; i += 1) {

// Temp set
var currentStop = stops[i];

// Temp set
//             var nextStop = stops[i + 1];
var nextStop = (i + 1 > stopsLength - 1) ? currentStop : stops[i + 1];

// Location is a percentage
var huePos;

// Temp set
var xPos = false;

console.log('hue', currentStop.h, '>>', hue, '<<', nextStop.h);
// Find which range of hue stops the current color is
// Hue is between current and next hue stop
if (hue >= currentStop.h && hue <= nextStop.h) {

// hue is current stop
if (hue === currentStop.h) {

// Set as location
huePos = currentStop.l;

// hue is next stop
} else if (hue === nextStop.h) {

// Set as location
huePos = nextStop.l;

// Hue is somewhere between stops
} else {

// Get percentage location between hue stops
var relativeHuePos = (hue - currentStop.h) / (nextStop.h - currentStop.h);

// Normalized to fit custom gradient stop locations
huePos = relativeHuePos * (nextStop.l - currentStop.l) + currentStop.l;
}

// A location was found
if (huePos) {

// Convert from percentage to pixel position
xPos = Math.round(containerWidth * (huePos / 100));

return xPos;

} else {

continue;
}
}
}
};

// Find saturation in stop range
var findSaturationInStopRange = function (saturation) {

// Array of hue stops with HSV, RGB, and HEX info
var stops = [{
l: 0,
s: 0
}, {
l: 0.05,
s: 6
}, {
l: 0.20,
s: 18
}, {
l: 0.38,
s: 35
}, {
l: 0.63,
s: 69
}, {
l: 0.78,
s: 89,
}, {
l: 0.91,
s: 100,
}, {
l: 1,
s: 100,
}];

// Total number of stops
var stopsLength = stops.length;

// Loop through stops
for (var i = 0; i < stopsLength; i += 1) {

// Temp set
var currentStop = stops[i];

// Temp set
var nextStop = (i + 1 > stopsLength - 1) ? currentStop : stops[i + 1];

// Location is a percentage
var satPos;

// Temp set
var yPos = false;

// Convert location to percentage
var currentStopLocation = currentStop.l * 100;

// Convert location to percentage
var nextStopLocation = nextStop.l * 100;

// Find which range of hue stops the current color is
// Hue is between current and next hue stop
if (saturation >= currentStop.s && saturation <= nextStop.s) {

// hue is current stop
if (saturation === currentStop.s) {

// Set as location
satPos = currentStopLocation;

// hue is next stop
} else if (saturation === nextStop.s) {

// Set as location
satPos = nextStopLocation;

// Hue is somewhere between stops
} else {

// Get percentage location between gradient stops
var ratioBetweenSaturation = (saturation - currentStop.s) / (nextStop.s - currentStop.s);

// Normalized to fit custom gradient stop locations
satPos = ratioBetweenSaturation * (nextStopLocation - currentStopLocation) + currentStopLocation;
}

console.log('ratioBetweenSaturation', ratioBetweenSaturation);
console.log('satPos', satPos);
console.log('saturation', saturation, '>=', currentStop.s, saturation, '<=', nextStop.s);

// A location was found
if (satPos !== false) {

// Convert from percentage to pixel position
yPos = Math.round(verticalGradientsHeight * (satPos / 100));

return yPos;

} else {

continue;
}
}
}
};

// Find brightness in stop range
var findBrightnessInStopRange = function (brightness) {

// Array of hue stops with HSV, RGB, and HEX info
var stops = [{
l: 0,
b: 100
}, {
l: 0.20,
b: 88
}, {
l: 0.28,
b: 69
}, {
l: 0.35,
b: 26
}, {
l: 0.51,
b: 9
}, {
l: 0.83,
b: 4,
}, {
l: 1,
b: 0,
}];

// Total number of stops
var stopsLength = stops.length;

// Loop through stops
for (var i = 0; i < stopsLength; i += 1) {

// Temp set
var currentStop = stops[i];

// Temp set
var nextStop = (i + 1 > stopsLength - 1) ? currentStop : stops[i + 1];

// Location is a percentage
var brightPos;

// Temp set
var yPos = false;

// Convert location to percentage
var currentStopLocation = currentStop.l * 100;

// Convert location to percentage
var nextStopLocation = nextStop.l * 100;

console.log('brightness', brightness, '>=', currentStop.b, brightness, '<=', nextStop.b);

// Find which range of hue stops the current color is
// Hue is between current and next hue stop
if (brightness <= currentStop.b && brightness >= nextStop.b) {

// hue is current stop
if (brightness === currentStop.b) {

// Set as location
brightPos = currentStopLocation;

// hue is next stop
} else if (brightness === nextStop.b) {

// Set as location
brightPos = nextStopLocation;

// Hue is somewhere between stops
} else {

// Get percentage location between gradient stops
var ratioBetweenBrightness = (brightness - currentStop.b) / (nextStop.b - currentStop.b);

// Normalized to fit custom gradient stop locations
brightPos = ratioBetweenBrightness * (nextStopLocation - currentStopLocation) + currentStopLocation;
}

console.log('ratioBetweenBrightness', ratioBetweenBrightness);
console.log('brightPos', brightPos);
console.log('brightness', brightness, '>=', currentStop.b, brightness, '<=', nextStop.b);

// A location was found
if (brightPos !== false) {

// Convert from percentage to pixel position
yPos = Math.round(verticalGradientsHeight * (brightPos / 100));

return yPos;

} else {

continue;
}
}
}
};

// Get coordinates from hue, brightness, saturation
var getColorCoordinates = function (hex) {

// Convert hex to rgb
var rgb = hexToRgb(hex);
console.log('rgb', rgb);
// Convert rgb to hsb
var hsb = rgbToHsb(rgb, rgb, rgb);
console.log('hsb', hsb);

// Set x position to position of hue
var xPos = findHueInStopRange(hsb.h);
var yPos = 0;

//  if 100, get (containerHeight - verticalGradientHeight) + whatever position is set with bottom gradient

//

// Saturation and brightness are both maxed
if (hsb.s === 100 && hsb.b === 100) {

// Set y position at center of container
yPos = containerHeight * 0.5;

} else {
console.log('using nothing', hsb.s, hsb.b);

//
if (hsb.s < 100) {

// Saturation y position (upper quadrant)
yPos = findSaturationInStopRange(hsb.s);
console.log('using saturation', yPos);

} else if (hsb.b < 100) {

// Brightness y position (lower quadrant)
yPos = findBrightnessInStopRange(hsb.b);
console.log('using brightness', yPos);
}
}

return { x: xPos, y: yPos };
}

// Get hue location
var position = false;

// Temp set

drawColorSpectrum();

// Find x position
position = getColorCoordinates(hex); //91ff26

console.log('location', position);

// Draw line
\$('.circle').css({
top: position.y + 'px',
left: position.x + 'px',
background: '#' + hex
});
});
``````

** UPDATE **

I'm actually trying to do this in HSV not HSL. I don't have preference other than I used photoshop to generate a smooth gradient.

Also, I have added a new example with what I have created. One of the up-voted answers below hints at how to accomplish what I'm trying to do, but so far I haven't been able to successfully do it.

Updated code will be at this link, I've also updated the code above: http://codepen.io/shelbywhite/pen/EyqPWY?editors=1000

To get the location you need the HSL values

``````// global
var RGB = [0,0,0]; // holds the RGB values 0-255
var LSH = [0,0,0]; // holds the LSH values (note H is normalised to 0-255)
var rgbToLSH = function(){
var r = RGB/255;
var g = RGB/255;
var b = RGB/255;
var min = Math.min(r,g,b);
var max = Math.max(r,g,b);
var lum = (min+max)/2;
if(lum > 0.5){
var sat = (max-min)/(max+min);
}else{
var sat = (max-min)/(2-max-min);
}
if(r >= b && r >= g){
var hue = (g-b)/(max-min);
}else
if(b >= b && b >= g){
var hue = 4.0 + (r-g)/(max-min);
}else{
var hue = 2.0 + (b-r)/(max-min);
}
hue *= 60;
if(hue < 0) hue += 360;
hue = (hue/360);
lum = Math.min(1,Math.max(0,lum));
sat = Math.min(1,Math.max(0,sat));
hue = Math.min(1,Math.max(0,hue));
LSH = lum*255;
LSH = sat*255;
LSH = hue*255;

}
``````

Hue will give the position on the x axis and Saturation will give you y from top to midway and Lightness will give you y axis position from midway to the bottom (going by your example);

• Thanks for the help here. Converting from RGB to HSL is easy enough, but plotting the color on the color spectrum is really where the problem lies. Mainly because I am using a custom HSL gradient where not every color is 60 degrees from the other. Would you mind expanding more with your answer? – stwhite Aug 26 '16 at 19:03
• @stWhite The gradients used for canvas are linear. So keep an array with Hues and the matching gradient stop `st = [{h:0,s:0},{h:60,s:0.2},...` (saving space h= hue s=stop)The when you get a Hue find the array items the hue is between `if( h>= st[i].h && h<= st[i+1].h){` then find the position `pos =(h-st[i].h)/(st[i+1].h-st[i].h)` then to gradient space `g = pos * (st[i+1].s-st[i].s) +st[i].s` now g is normalised for the gradient. Thus to get `xpos = gradientWidth * g` . Same for lum – Blindman67 Aug 26 '16 at 19:28
• @stwhite That is the expected behaviour. From black, grays,to white there is no hue, returning a Hue would give the wrong result, if Hue is NaN then the colour is gray,black, or white. All other values have colour. – Blindman67 Aug 26 '16 at 20:50
• I've experimented with what you suggested, but so far haven't come up with the solution... codepen.io/shelbywhite/pen/EyqPWY?editors=0010 – stwhite Aug 27 '16 at 3:48
• So far the problem with this answer is that it doesn't have a solution for colors that are typed in that are not visible in the spectrum. – stwhite Sep 16 '16 at 18:18

You could iterate over the entire `ImageData` and compare both colors.

``````var findPixelByHex = function(imageData, hex) {
var d = imageData.data
var w = imageData.width
var h = imageData.height

for (var y = 0; y < h; ++y) {
for (var x = 0; x < w; ++x) {
var i = (y * w + x) * 4
if (hex === rgbToHex(d[i], d[i + 1], d[i + 2])) {
setColorAtPixel(x, y, hex)
}
}
}
}
``````

Note that this is pretty slow and not the best idea.

• I could see this being pretty slow. I wonder if converting HEX to RGB to HSL, grabbing the hue, and then seeing which of the 6 HSL hue ranges it's closest to, then looking within equidistant from each side of the range would be faster... also what is this line doing? `var i = (y * w + x) * 4` – stwhite Aug 26 '16 at 19:22
• Oops nevermind, I understand what that line is doing. – stwhite Aug 26 '16 at 19:42