127

I often work with ggplot2 that makes gradients nice (click here for an example). I have a need to work in base and I think scales can be used there to create color gradients as well but I'm severely off the mark on how. The basic goal is generate a palette of n colors that ranges from x color to y color. The solution needs to work in base though. This was a starting point but there's no place to input an n.

 scale_colour_gradientn(colours=c("red", "blue"))

I am well aware of:

brewer.pal(8, "Spectral") 

from RColorBrewer. I'm looking more for the approach similar to how ggplot2 handles gradients that says I have these two colors and I want 15 colors along the way. How can I do that?

3
  • 1
    I think you need the scales package; the latest ggplot2 versions depend on this for the underlying code. I.e. you don't need ggplot2 to use scales, you just need the scales package. No idea how the functions in scales works though :-) Nov 12, 2012 at 23:25
  • 1
    Off-topic since you requested base specifically, but I find colourvalues (also on CRAN) particularly convenient for mapping values to a gradient. It's also pretty lightweight (depends on Rcpp). Feb 8, 2019 at 6:45
  • @MichaelChirico Not off topic, what I meant was that I needed to use base plotting because of the package I was using was written in base (I think wordcloud) rather than grid. Maybe post as an answer? Feb 9, 2019 at 3:48

5 Answers 5

206

colorRampPalette could be your friend here:

colfunc <- colorRampPalette(c("black", "white"))
colfunc(10)
# [1] "#000000" "#1C1C1C" "#383838" "#555555" "#717171" "#8D8D8D" "#AAAAAA"
# [8] "#C6C6C6" "#E2E2E2" "#FFFFFF"

And just to show it works:

plot(rep(1,10),col=colfunc(10),pch=19,cex=3)

enter image description here

2
  • 15
    Note that if you're particularly enamoured with a pre-existing palette, e.g. brewer.pal(8, "Spectral"), you can give the resulting vector of colours to colorRampPalette to generate more colours along that ramp. For example: colorRampPalette(brewer.pal(8, "Spectral")).
    – jbaums
    Apr 30, 2014 at 23:15
  • What about the color with the diagonoal lines or shapes in the block ? @thelatemail May 16, 2016 at 8:46
59

Just to expand on the previous answer colorRampPalettecan handle more than two colors.

So for a more expanded "heat map" type look you can....

colfunc<-colorRampPalette(c("red","yellow","springgreen","royalblue"))
plot(rep(1,50),col=(colfunc(50)), pch=19,cex=2)

The resulting image:

enter image description here

3
  • can I also specify the diagonal lines or shapes in the color ? @jsol May 16, 2016 at 8:47
  • I like this palette but there is way too much green and very little yellow. Is there a way to correct this? May 19, 2017 at 10:02
  • 2
    Adding for anyone else who was not expecting to see an option like "springgreen" or "royalblue". All colors available to use can be returned as a list by running: colors().
    – jadki
    Oct 9, 2018 at 20:54
23

Try the following:

color.gradient <- function(x, colors=c("red","yellow","green"), colsteps=100) {
  return( colorRampPalette(colors) (colsteps) [ findInterval(x, seq(min(x),max(x), length.out=colsteps)) ] )
}
x <- c((1:100)^2, (100:1)^2)
plot(x,col=color.gradient(x), pch=19,cex=2)

Colored plot using color.gradient

Edit
Let me try to explain why I think this function is superior to the other suggested solutions.

Let's apply the function suggested by jsol for the exponential data I used for my plot. I try two variations using range and length in the call to colfunc.
Result: It simply does not work as intended.

colfunc <- colorRampPalette(c("red","yellow","springgreen","royalblue"))
x <- c((1:100)^2, (100:1)^2)
plot(x, col=colfunc(range(x)), pch=19,cex=2)
plot(x, col=colfunc(length(x)), pch=19,cex=2)

Colored plot using confunc

1
  • this function should be add as a default in R base!
    – Simon C.
    Apr 2, 2020 at 20:16
8

The above answer is useful but in graphs, it is difficult to distinguish between darker gradients of black. One alternative I found is to use gradients of gray colors as follows

palette(gray.colors(10, 0.9, 0.4))
plot(rep(1,10),col=1:10,pch=19,cex=3))

More info on gray scale here.

Added

When I used the code above for different colours like blue and black, the gradients were not that clear. heat.colors() seems more useful.

This document has more detailed information and options. pdf

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  • 2
    I think this answer is superior for black to white but is not generalizable to colors. Thank you for adding this valuable information. +1 Sep 24, 2014 at 12:52
  • Added a link which provides better options for color gradients and hues which work in both color and B&W.
    – Anusha
    Sep 24, 2014 at 15:40
  • @DavidDelMonte I might be having a saved copy of the file but not the updated link. Not sure where to upload it though.
    – Anusha
    Jan 13, 2015 at 14:25
  • 2
    @DavidDelMonte - web.archive.org/web/20141111182737/http://www.stat.tamu.edu/… check archive.org first always. Jan 28, 2015 at 3:07
1

An alternative approach (not necessarily better than the previous answers!) is to use the viridis package. As explained here, it allows for a variety of color gradients that are based on more than two colors.

The package is pretty easy to use - you just need to replace the ggplot2 scale fill function (e.g., scale_fill_gradient(low = "skyblue", high = "dodgerblue4")) with the equivalent viridis function.

So, change the code for this plot:

ggplot(mtcars, aes(wt*1000, mpg)) +
  geom_point(size = 4, aes(colour = hp)) +
  xlab("Weight (pounds)") + ylab("Miles per gallon (MPG)") + labs(color='Horse power') +
  scale_x_continuous(limits = c(1000, 6000), 
                     breaks = c(seq(1000,6000,1000)), 
                     labels = c("1,000", "2,000", "3,000", "4,000", "5,000", "6,000")) + 
  scale_fill_gradient(low = "skyblue", high = "dodgerblue4") +
  theme_classic()

Which produces:

enter image description here

To this, which uses viridis:

ggplot(mtcars, aes(wt*1000, mpg)) +
  geom_point(size = 4, aes(colour = factor(cyl))) +
  xlab("Weight (pounds)") + ylab("Miles per gallon (MPG)") + labs(color='Number\nof cylinders') +
  scale_x_continuous(limits = c(1000, 6000), 
                     breaks = c(seq(1000,6000,1000)), 
                     labels = c("1,000", "2,000", "3,000", "4,000", "5,000", "6,000")) + 
  scale_color_viridis(discrete = TRUE) +
  theme_classic()

The only difference is in the second to last line: scale_color_viridis(discrete = TRUE).

This is the plot that is produced using viridis:

enter image description here

Hoping someone finds this useful, as its the solution I ended up using after coming to this question.

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