Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am building an R package to display Weibull plots (using graphics::plot) in R. The plot has a log-transformed x-axis and a Weibull-transformed y-axis (for lack of a better description). The two-parameter Weibull distribution can thus be represented as a straight line on this plot.

The logarithmic transformation of the x-axis is as simple as adding the log="x" parameter to plot() or curve(). How can I supply the y-axis transformation in an elegant way, so that all graphics-related plotting will work on my axis-transformed plot? To demonstrate what I need, run the following example code:

## initialisation ##
beta     <- 2;eta <- 1000
ticks    <- c(seq(0.01,0.09,0.01),(1:9)/10,seq(0.91,0.99,0.01))
F0inv    <- function (p) log(qweibull(p, 1, 1))
    # this is the transformation function
F0       <- function (q) exp(-exp(q))
    # this is the inverse of the transformation function
weibull  <- function(x)pweibull(x,beta,eta)
    # the curve of this function represents the weibull distribution 
    # as a straight line on weibull paper
weibull2 <- function(x)F0inv(weibull(x))

First an example of a Weibull distribution with beta=2 and eta=1000 on a regular, untransformed plot:

## untransformed axes ##
curve(weibull ,xlim=c(100,1e4),ylim=c(0.01,0.99))
abline(h=ticks,col="lightgray")

plot1

This plot is useless for Weibull analysis. Here is my currently implemented solution that transforms the data with function F0inv() and modifies the y-axis of the plot. Notice that I have to use F0inv() on all y-axis related data.

## transformed axis with F0inv() ##
curve(weibull2,xlim=c(100,1e4),ylim=F0inv(c(0.01,0.99)),log="x",axes=F)
axis(1);axis(2,at=F0inv(ticks),labels=ticks)
abline(h=F0inv(ticks),col="lightgray")

plot2

This works, but this is not very user-friendly: when the user wants to add annotations, one must always use F0inv():

text(300,F0inv(0.4),"at 40%")

I found that you can achieve a solution to my problem using ggplot2 and scales, but I don't want to change to a graphics package unless absolutely necessary since a lot of other code needs to be rewritten.

## with ggplot2 and scales ##
library(ggplot2)
library(scales)
weibull_trans <- function()trans_new("weibull", F0inv, F0)
qplot(c(100,1e4),xlim=c(100,1e4),ylim=c(0.01,0.99),
    stat="function",geom="line",fun=weibull) + 
    coord_trans(x="log10",y = "weibull") 

plot3

I think that if I could dynamically replace the code for applying the logarithmic transformation with my own, my problem would be solved.

I tried to find more information by Googling "R axis transformation", "R user coordinates", "R axis scaling" without useful results. Almost everything I have found dealt with logarithmic scales.

I tried to look into plot() at how the log="x" parameter works, but the relevant code for plot.window is written in C – not my strongest point at all.

share|improve this question
4  
I will be interested if someone comes up with a better solution, but I think you've covered the relevant ground; I don't think you're going to do better than this -- outside of ggplot2 I don't know of any systems for generic axis transformation. –  Ben Bolker Apr 8 '13 at 12:48
    
Thanks for taking the time to respond. In the mean time, I came to the same conclusion, it looks like I will be forced to use ggplot2. –  user2257135 Apr 27 '13 at 17:50

1 Answer 1

While it doesn't appear to be possible in base graphics, you can make this function do what you want so that you can call it more simply:

F0inv    <- function (p) log(qweibull(p, 1, 1))
## this is the transformation function
F0       <- function (q) exp(-exp(q))

weibullplot <- function(eta, beta,
                        ticks=c(seq(0.01,0.09,0.01),(1:9)/10,seq(0.91,0.99,0.01)),
                        ...) {
  ## the curve of this function represents the weibull distribution 
  ## as a straight line on weibull paper
  weibull2 <- function(x)
    F0inv(pweibull(x, beta, eta))
  curve(weibull2, xlim=c(100, 1e4), ylim=F0inv(c(0.01, 0.99)), log="x", axes=FALSE)
  axis(1);
  axis(2, at=F0inv(ticks), labels=ticks)
  abline(h=F0inv(ticks),col="lightgray")
}

weibullplot(eta=1000, beta=2)
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.