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Can create up to eight colour pairs, but only few of these colours are good for printing. Is there a more flexible function that will generate a dark pendant? The darker one should

  • look like the same colour in dark
  • well printable
  • easy to distinguish from the bright one

Is there a colourbrewer tool that can already solve that?

> dark("red")
[1] "FF5555"

I figured out this function, but it can only handle single colours, not a vector. This function would be a nice solution, if it could be "vectorized".

setbrightness <- function(rgbcolour, brightness) {
  ## usage: setbrightness(col2rgb("red", 0.2)
  thiscolour <- rgb2hsv(rgbcolour)
  return(hsv(h=thiscolour[1], s=thiscolour[2], v=brightness))
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Can you say more about what you mean by "a dark pendant"? –  metasequoia Dec 2 '12 at 1:46
Have you looked at colorbrewer.org, where there are some interactive tools for picking colour sets that are (e.g.) "photocopier-safe" (i.e. different brightnesses)? –  Ben Bolker Dec 2 '12 at 17:40
Just updated the answer with requested details. –  Julius Dec 3 '12 at 0:42

1 Answer 1

up vote 9 down vote accepted

Here is a vectorized function that you can use. The idea is to convert RGB to HSV, where V corresponds to brightness and then go back to RGB:

# Every element of r, g, b must be in [0, 255]
# Every element of conv[[3]] must be in [0, 1], 1 is highest brightness
brightness <- function(r, g, b, factor) {
  conv <- as.list(as.data.frame(t(rgb2hsv(r, g, b))))
  conv[[3]] <- pmin(1, conv[[3]] * factor)
  do.call(hsv, conv)

# Reducing brightness by 20%
brightness(55, 100, 150, 0.8)
#[1] "#2C5078"

# Increasing by 20%
brightness(55, 100, 150, 1.2)
#[1] "#4278B4"

brightness(55, 100, 150, c(0.8, 1.2))
#[1] "#2C5078" "#4278B4"

x <- rep(LETTERS[1:2], 5)
qplot(x = x, geom = "bar", fill = x) + 
  scale_fill_manual(values = brightness(55, 100, 150, c(0.5, 1.5)))

enter image description here

See ?rgb2hsv, ?hsv and wiki for more details.

Edit: according to your edit it seems that you prefer using names of colours and direct values of brightness. In that case a vectorized function would look very similarly:

# Usage: brightness("red", c(0.1, 0.3, 0.5, 1))
brightness <- function(rgbcol, v) {
  conv <- as.list(as.data.frame(t(rgb2hsv(col2rgb(rgbcol)))))
  conv[[3]] <- v
  do.call(hsv, conv)

df <- data.frame(a = rlnorm(100), b = 1:10, c = rep(LETTERS[1:10], each = 10))
ggplot(df, aes(x = b, y = a, fill = c)) + geom_area() + theme_bw() +
  scale_fill_manual(values = brightness("red", seq(0.1, 0.7, length = 10)))

enter image description here

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I always use return() what is better with do.call() as you use it? –  Jonas Stein Dec 3 '12 at 18:35
@JonasStein, here do.call() is not a substitute to return(). That would be equally correct to use return(do.call(hsv,conv)). See ?do.call, it is used to call a function (hsv) when arguments are in the list, just as in this case (conv). –  Julius Dec 3 '12 at 18:48

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