Colours can be frustrating to get just right in R. The palr package provides simple palette functions with standard colour schemes matched to real data values.
There are three main ways of working with palr palette functions.
pal(n)return n colours from the palette
pal(data)return the right colour for values in
pal(palette = TRUE)return the entire palette, with colours
Here we show examples of the use of palr functions.
oisst data set is a subset the NOAA 1/4° daily Optimum Interpolation Sea Surface Temperature (Reynolds, 2007) obtained from the National Oceanic and Atmospheric Administration (NOAA).
The default plot colours uses a setting provided by the base package, but we have SST data in degrees Celsius so we can use the
sst_pal function to give specific colours for particular temperatures. The full range of the temperatures is shown on the plot legend, even though our data only has values in the range NA, NA.
Because we have the palette colours and data in an absolute palette we can also plot other data correctly to scale.
image_pal() can be used to bake a particular colour scheme into data. This is a bit like the colourvalues package function
colour_values(), which takes raw values and maps them to a colour scale but is modelled on the
image() function. The image function takes a set of colours and a set of
breaks to define the colour scale, andimage_pal()` mirrors its defaults.
##  "#000000" "#000000" "#000000" "#000000" "#00FF00" "#00FF00" "#00FF00" ##  "#00FF00" "#FF0000" "#0000FF"
By using breaks we are able to control the actual scale of the colour mapping, we can provide different data values but still get the same colour for the same value input (if we set up the scale based on the original data we might have the wrong range).
There’s a simpler interface for using absolute colours than specifying every break, by using
zlim. This value is ignored if
breaks is set.
There are analogous worker functions
image_stars() for packages raster and stars, so we can emulate a given plot effect and save it as a data object, this can be easily written out to image format such at GeoTIFF or PNG.
Reynolds, R. W., T. M. Smith, C. Liu, D. B. Chelton, K. S. Casey, and M. G. Schlax, 2007: Daily high-resolution-blended analyses for sea surface temperature. Journal of Climate, 20, 5473–5496.