Adapted from wikipedia & java code, which (honestly) didn't take more than 90s (I timed it):

```
# specify h as whole input degrees (e.g 0-360)
# s = 0.0 - 1 (0 - 100%)
# l = 0.0 - 1, (0 - 100%)
# returns output from R's rgb() functin
hsl_to_rgb <- function(h, s, l) {
h <- h / 360
r <- g <- b <- 0.0
if (s == 0) {
r <- g <- b <- l
} else {
hue_to_rgb <- function(p, q, t) {
if (t < 0) { t <- t + 1.0 }
if (t > 1) { t <- t - 1.0 }
if (t < 1/6) { return(p + (q - p) * 6.0 * t) }
if (t < 1/2) { return(q) }
if (t < 2/3) { return(p + ((q - p) * ((2/3) - t) * 6)) }
return(p)
}
q <- ifelse(l < 0.5, l * (1.0 + s), l + s - (l*s))
p <- 2.0 * l - q
r <- hue_to_rgb(p, q, h + 1/3)
g <- hue_to_rgb(p, q, h)
b <- hue_to_rgb(p, q, h - 1/3)
}
return(rgb(r,g,b))
}
# r, g, b = 0.0 - 1 (0 - 100%)
# returns h/s/l in a vector, h = 0-360 deg, s = 0.0 - 1 (0-100%), l = 0.0 - 1 (0-100%)
rgb_to_hsl <- function(r, g, b) {
val_max <- max(c(r, g, b))
val_min <- min(c(r, g, b))
h <- s <- l <- (val_max + val_min) / 2
if (val_max == val_min){
h <- s <- 0
} else {
d <- val_max - val_min
s <- ifelse(l > 0.5, d / (2 - val_max - val_min), d / (val_max + val_min))
if (val_max == r) { h <- (g - b) / d + (ifelse(g < b, 6, 0)) }
if (val_max == g) { h <- (b - r) / d/ + 2 }
if (val_max == b) { h <- (r - g) / d + 4 }
h <- (h / 6) * 360
}
return(c(h=h, s=s, l=l))
}
```

`RGB2HSL`

in package`colorscience`

is the only existing function for this conversion (Found by`library("sos")`

then`findFn("HSL")`

). – Bryan Hanson Feb 17 '15 at 13:28`HLS`

(from`colorspace`

). There is some permutation in those 3 letters, but the function description is about hue, lightness, and saturation? – bergant Feb 17 '15 at 13:33