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The plotrix package has a function called taylor.diagram that plots two vectors - one representing data and the other model output.

Here is an example:

require(plotrix)
set.seed(10)
data  <- sort(runif(100, 8,12))
model <- sort(rnorm(100, 10, 4))
taylor.diagram(data, model)

And in this example I want to update the plot after improving the model:

model2 <- sort(rnorm(100, 10,2))
taylor.diagram(data, model2, add = TRUE)

To produce this:

enter image description here

How can I add labels such as "Model 1" and "Model 2" to identify these points? (Update: with the label position determined from the model values rather than done post-hoc)

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3 Answers

The same way you label everything in base graphics, using text:

text(1.5,0.5,labels = "Model2")
text(3.5,1,labels = "Model1")

enter image description here

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I was hoping to be able to plot them without advance knowledge of their position –  Abe Mar 1 '13 at 0:07
    
@Abe The documentation for taylor.diagram indicates that it does not return the positions of points (or really any plot information at all) so I don't think you have a lot of options here. –  joran Mar 1 '13 at 0:57
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Here are two approaches

  1. example(taylor.diagram) shows a decent approach to placing a legend in the upper right corner (at 1.5*sd(data), 1.5*sd(data)), but this would require different colors for the two points.

  2. Another option would be to calculate the locations based on the equations from the original Taylor 2001 reference - or copy them from source code to the taylor.diagram function, near

    dy <- 1.1 # text offset coefficient
    sd.f <- sd(model)
    R <- cor(data, model, use = 'pairwise')
    x <- sd.f * R
    y <- sd.f * sin(acos(R)) + dy * sd.f
    text(x, y, "Model")
    

    You would need to calculate these for each model, but only the model input and the label would change. You probably want to keep the offset the same as well.

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A third solution is to create a modified version of the function taylor.diagram that includes a text label. In this case all there is to do is adding a parameter, say text, and after the call to points in the original function (2 lines before the closing braces), the line text(sd.f * R, sd.f * sin(acos(R)), labels=text, pos=3).

taylor.diagram.modified <- function (ref, model, add = FALSE, col = "red", 
                                    pch = 19, pos.cor = TRUE, xlab = "", ylab = "", 
                                    main = "Taylor Diagram", show.gamma = TRUE, 
                                    ngamma = 3, gamma.col = 8, sd.arcs = 0, ref.sd = FALSE, 
                                    grad.corr.lines = c(0.2, 0.4, 0.6, 0.8, 0.9), pcex = 1, 
                                    cex.axis = 1, normalize = FALSE, mar = c(5, 4, 6, 6),
                                    text, ...) #the added parameter
{
    grad.corr.full <- c(0, 0.2, 0.4, 0.6, 0.8, 0.9, 0.95, 0.99,1)
    R <- cor(ref, model, use = "pairwise")
    sd.r <- sd(ref)
    sd.f <- sd(model)
    if (normalize) {

    ... #I didn't copy here the full function because it's quite long: to obtain it
    ... #simply call `taylor.diagram` in the console or `edit(taylor.diagram)`.

            }
            S <- (2 * (1 + R))/(sd.f + (1/sd.f))^2
        }
    }
    points(sd.f * R, sd.f * sin(acos(R)), pch = pch, col = col, 
           cex = pcex)
    text(sd.f * R, sd.f * sin(acos(R)),  #the line to add
         labels=text, cex = pcex, pos=3) #You can change the pos argument to your liking
    invisible(oldpar)
}

Then simply supply a label name in the text argument:

require(plotrix)
set.seed(10)
data  <- sort(runif(100, 8,12))
model <- sort(rnorm(100, 10, 4))
taylor.diagram.modified(data, model, text="Model 1")
model2 <- sort(rnorm(100, 10,2))
taylor.diagram.modified(data, model2, add = TRUE, text="Model 2")

enter image description here

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