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The shades
package allows colours to be manipulated
easily in R. Properties such as brightness and saturation can be quickly
queried, changed or varied, and perceptually uniform colour gradients
can be constructed. It plays nicely with the pipe operator from the popular
magrittr
package, and fits naturally into that
paradigm. It can also be used with ggplot2
scales.
The package is available on CRAN. You can also
install the current development version from GitHub using devtools
:
# install.packages("devtools")
::install_github("jonclayden/shades") devtools
Feedback on the package or suggestions are welcome, either by filing an issue or by email.
Colours are represented in R using CSS-style hex
strings, but there is also a dictionary of predefined named colours
such as "red"
and "blue"
. Either of these may
be passed to most graphics functions, but creating variations on a
particular colour can be awkward.
The shades
package defines a simple class,
shade
, which uses exactly this same convention and is
entirely compatible with built-in colours, but it also stores
information about the coordinates of the colours in a particular colour space.
library(shades)
<- shade("red")
red print(unclass(red))
## [1] "red"
## attr(,"space")
## [1] "sRGB"
## attr(,"coords")
## R G B
## [1,] 1 0 0
From here, the package switches between colour spaces as required, allowing various kinds of colour manipulation to be performed straightforwardly. For example, letâs find the saturation level of a few built-in colours.
saturation(c("papayawhip","lavenderblush","olivedrab"))
## [1] 0.1647100 0.0588200 0.7535287
Now letâs consider a colour gradient stepping through two different colour spaces, which we might want to use as a palette or colour scale.
swatch(gradient(c("red","blue"), 5))
swatch(gradient(c("red","blue"), 5, space="Lab"))
Here, we are using the swatch
function to visualise a
set of colours as a series of squares. Notice the more uniform
appearance of the gradient when it traverses through the Lab colour
space.
Similarly, we can create a set of new colours by changing the
brightness and saturation levels of some base colours, and make the code
more readable by using the magrittr
pipe
operator.
library(shades); library(magrittr)
c("red","blue") %>% brightness(0.6) %>% saturation(seq(0,1,0.25)) %>% swatch
This operation takes the original two colours, reduces their
brightness to 60%, assigns a whole series of saturation levels to the
result, and then passes it to swatch
for visualisation.
Notice that the pipeline is combinative (like the base function
outer
), returning each combination of parameters in a
multidimensional array. The final shades are arranged in two rows by
swatch
, for convenience.
Note that NA
can be used as a pass-through value:
"cornflowerblue" %>% saturation(c(NA,seq(0,1,0.25))) %>% swatch
Any of these gradients can be directly passed to a standard graphical
function, to be used as a colour scale. However, when choosing a colour
scale, it is helpful to bear in mind that some viewers may have a colour
vision deficiency (colour blindness), making it harder for them to
distinguish certain colours and therefore to see a continuous scale. The
dichromat
function can be used to simulate this.
rev(grDevices::rainbow(9)) %>% dichromat %>% swatch
gradient("viridis",9) %>% dichromat %>% swatch
Here we are using the built-in âviridisâ colour map, developed for Pythonâs
matplotlib
, which was specifically designed to appear
continuous under as many conditions as possible. When shown with
simulated red-blindness, the default for dichromat
, it is
clearly much more interpretable than a typical rainbow palette generated
by Râs built-in graphics functions.
The package also supports colour mixing, either additively (as with light) or subtractively (as with paint). For example, consider additive mixtures of the three primary RGB colours.
c("red", addmix("red","green"), "green", addmix("green","blue"), "blue") %>% swatch
Similarly, we can subtractively combine the three secondary colours.
c("cyan", submix("cyan","magenta"), "magenta", submix("magenta","yellow"), "yellow") %>% swatch
A âlight mixtureâ infix operator, %.)%
, and a âpaint
mixtureâ infix operator, %_/%
, are also available.
"red" %.)% "green") == "yellow"
(## [1] TRUE
"cyan" %_/% "magenta") == "blue"
(## [1] TRUE
Finally, you can calculate perceptual distances to a reference colour, as in
distance(c("red","green","blue"), "red")
## [1] 0.00000 86.52385 53.07649
The shades
package can be used with the popular ggplot2
graphics library in different ways, with different levels of
integration. Firstly, gradients from this package can be used as
ggplot2
colour scales through the manual scale functions;
for example,
library(shades); library(ggplot2)
$cyl<- factor(mtcars$cyl)
mtcarsggplot(mtcars, aes(cyl,mpg,fill=cyl)) + geom_boxplot() + scale_fill_manual(values=gradient("viridis",3))
This does not require the two packages to know anything about each
other, and is flexible and powerful, but it doesnât easily allow
existing ggplot2
scales to be modified using the colour
manipulation functions from shades
. As of
shades
version 1.3.0, it is also possible to call the
packageâs colour property functions directly on palette functions and
scales, so that (for example), we can darken all colours in an existing
scale slightly:
ggplot(mtcars, aes(cyl,mpg,fill=cyl)) + geom_boxplot() + scale_fill_brewer(type="qual")
ggplot(mtcars, aes(cyl,mpg,fill=cyl)) + geom_boxplot() + lightness(scale_fill_brewer(type="qual"), delta(-20))
Notice here that we have chosen to use the delta()
function, which is available in all colour property functions, to
request a relative reduction of 20 to the original lightness of
each colour in the scale. We could also have given a literal value to
fix the lightness of all colours to a certain level.
The shades
package aims to bring together a range of
colour manipulation tools and make them easy to use. However, there are
several other packages available that can do similar things, sometimes
in slightly different ways. These include
grDevices
package, which is shipped with R and used
as the basis for shades
;colorspace
package, which provides formal colour classes and transformations
between spaces;munsell
,
which interprets colours in Munsell notation and does some colour
manipulation;viridis
and RColorBrewer
,
which provide the colour scales from matplotlib
and
ColorBrewer;dichromat
,
which provides another implementation of the dichromat
function (a duplication which I didnât discover until after writing this
packageâs version!); andcolorblindr
,
which provides alternative tools for simulating colour blindness in
figures.This package was also partly influenced by Colors.jl, a colour manipulation package for Julia.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.