Created
August 12, 2016 10:34
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RGB to CIELab color space conversion
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| # RGB to Lab conversion | |
| # Step 1: RGB to XYZ | |
| # http://www.easyrgb.com/index.php?X=MATH&H=02#text2 | |
| # Step 2: XYZ to Lab | |
| # http://www.easyrgb.com/index.php?X=MATH&H=07#text7 | |
| def rgb2lab(inputColor): | |
| num = 0 | |
| RGB = [0, 0, 0] | |
| for value in inputColor: | |
| value = float(value) / 255 | |
| if value > 0.04045: | |
| value = ((value + 0.055) / 1.055) ** 2.4 | |
| else: | |
| value = value / 12.92 | |
| RGB[num] = value * 100 | |
| num = num + 1 | |
| XYZ = [0, 0, 0, ] | |
| X = RGB[0] * 0.4124 + RGB[1] * 0.3576 + RGB[2] * 0.1805 | |
| Y = RGB[0] * 0.2126 + RGB[1] * 0.7152 + RGB[2] * 0.0722 | |
| Z = RGB[0] * 0.0193 + RGB[1] * 0.1192 + RGB[2] * 0.9505 | |
| XYZ[0] = round(X, 4) | |
| XYZ[1] = round(Y, 4) | |
| XYZ[2] = round(Z, 4) | |
| # Observer= 2°, Illuminant= D65 | |
| XYZ[0] = float(XYZ[0]) / 95.047 # ref_X = 95.047 | |
| XYZ[1] = float(XYZ[1]) / 100.0 # ref_Y = 100.000 | |
| XYZ[2] = float(XYZ[2]) / 108.883 # ref_Z = 108.883 | |
| num = 0 | |
| for value in XYZ: | |
| if value > 0.008856: | |
| value = value ** (0.3333333333333333) | |
| else: | |
| value = (7.787 * value) + (16 / 116) | |
| XYZ[num] = value | |
| num = num + 1 | |
| Lab = [0, 0, 0] | |
| L = (116 * XYZ[1]) - 16 | |
| a = 500 * (XYZ[0] - XYZ[1]) | |
| b = 200 * (XYZ[1] - XYZ[2]) | |
| Lab[0] = round(L, 4) | |
| Lab[1] = round(a, 4) | |
| Lab[2] = round(b, 4) | |
| return Lab |
Thanks for that! In case this helps someone, I ported to JS as follow:
function rgb2lab_normalizeRgbChannel(channel) {
channel /= 255;
return 100 * (channel > 0.04045
? Math.pow((channel + 0.055) / 1.055, 2.4)
: channel / 12.92
);
}
function rgb2lab_normalizeXyzChannel(channel) {
return (channel > 0.008856)
? Math.pow(channel, 1/3)
: (7.787 * channel) + (16 / 116);
}
function rgb2lab([r, g, b]) {
r = rgb2lab_normalizeRgbChannel(r);
g = rgb2lab_normalizeRgbChannel(g);
b = rgb2lab_normalizeRgbChannel(b);
let X = r * 0.4124 + g * 0.3576 + b * 0.1805;
let Y = r * 0.2126 + g * 0.7152 + b * 0.0722;
let Z = r * 0.0193 + g * 0.1192 + b * 0.9505;
// Observer= 2°, Illuminant= D65
X = rgb2lab_normalizeXyzChannel(X / 95.0470);
Y = rgb2lab_normalizeXyzChannel(Y / 100.0);
Z = rgb2lab_normalizeXyzChannel(Z / 108.883);
return [
(116 * Y) - 16, // L
500 * (X - Y), // a
200 * (Y - Z), // b
];
}
This is the code written in R.
I added a tiny extension, making the maximum of the RGB color value range variable instead of hard-coding it.
https://gist.github.com/TellAnAx/06ace666a92d0849d6b774de1790cc7a
rgb2lab <- function(inputColor, maxColorValue = 255){
num <- 1
RGB <- c(0, 0, 0)
for(value in inputColor){
value <- value / maxColorValue
if(value > 0.04045){
value <- ((value + 0.055) / 1.055)^2.4
} else{
value <- value / 12.92
}
RGB[num] <- value * 100
num <- num + 1
}
XYZ <- c(0, 0, 0)
X = RGB[1] * 0.4124 + RGB[2] * 0.3576 + RGB[3] * 0.1805
Y = RGB[1] * 0.2126 + RGB[2] * 0.7152 + RGB[3] * 0.0722
Z = RGB[1] * 0.0193 + RGB[2] * 0.1192 + RGB[3] * 0.9505
XYZ[1] = round(X, 4)
XYZ[2] = round(Y, 4)
XYZ[3] = round(Z, 4)
# Observer= 2°, Illuminant= D65
XYZ[1] = XYZ[1] / 95.047 # ref_X = 95.047
XYZ[2] = XYZ[2] / 100.0 # ref_Y = 100.000
XYZ[3] = XYZ[3] / 108.883 # ref_Z = 108.883
num = 1
for(value in XYZ){
if(value > 0.008856){
value = value ** (0.3333333333333333)
} else{
value = (7.787 * value) + (16 / 116)
}
XYZ[num] <- value
num <- num + 1
}
Lab <- c(0, 0, 0)
L = (116 * XYZ[2]) - 16
a = 500 * (XYZ[1] - XYZ[2])
b = 200 * (XYZ[2] - XYZ[3])
Lab[1] = round(L, 4)
Lab[2] = round(a, 4)
Lab[3] = round(b, 4)
return(Lab)
}
someome start a page on http://rosettacode.org/wiki/Rosetta_Code
Anyone have the numpy conversion for this code.. this takes too much time
This is really useful, thanks!
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@JayRizuri feel free to :D Thanks!