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In the followup of the discussion on stackexchange I tried to implement the following plot

Cumming Finch Plot from

Cumming, G., & Finch, S. (2005). [Inference by Eye: Confidence Intervals and How to Read Pictures of Data][5]. American Psychologist, 60(2), 170–180. doi:10.1037/0003-066X.60.2.170

I share some people's dislike of double axis, but I think this is a fair use.

Below my partial attempt, the second axis is still missing. I am looking for more elegant alternatives, intelligent variations are welcome.

library(lattice)
library(latticeExtra)
d = data.frame(what=c("A","B","Difference"), 
               mean=c(75,105,30),
               lower=c(50,80,-3),
               upper = c(100,130,63))

# Convert Differences to left scale
d1 = d
d1[d1$what=="Difference",-1] = d1[d1$what=="Difference",-1]+d1[d1=="A","mean"]

segplot(what~lower+upper,centers=mean,data=d1,horizontal=FALSE,draw.bands=FALSE,
        lwd=3,cex=3,ylim=c(0,NA),pch=c(16,16,17),
        panel = function (x,y,z,...){
          centers = list(...)$centers
          panel.segplot(x,y,z,...)
          panel.abline(h=centers[1:2],lty=3)
        } )
## How to add the right scale, close to the last bar?

enter image description here

1
  • In your code, I think you need to load the latticeExtra package to get the segplot() function.
    – smillig
    Jun 4, 2013 at 11:48

4 Answers 4

5
par(mar=c(3,5,3,5))
plot(NA, xlim=c(.5,3.5), ylim=c(0, max(d$upper[1:2])), bty="l", xaxt="n", xlab="",ylab="Mean")
points(d$mean[1:2], pch=19)
segments(1,d$mean[1],5,d$mean[1],lty=2)
segments(2,d$mean[2],5,d$mean[2],lty=2)
axis(1, 1:3, d$what)
segments(1:2,d$lower[1:2],1:2,d$upper[1:2])
axis(4, seq((d$mean[1]-30),(d$mean[1]+50),by=10), seq(-30,50,by=10), las=1)
points(3,d$mean[1]+d$mean[3],pch=17, cex=1.5)
segments(3,d$lower[3]+d$lower[2],3,d$lower[3]+d$upper[2], lwd=2)
mtext("Difference", side=4, at=d$mean[1], line=3)

enter image description here

4
  • Base graphics lovers abound. This looks really good. Probably the dashed lines should go as in the original plot (mine is wrong), and I would shift the second axis a bit more to the right. Jun 4, 2013 at 9:41
  • Horizontal lines are easy to kill, and if you want the axis moved slightly, I would just change the upper limit of xlim in plot, which should leave everything else the same.
    – Thomas
    Jun 4, 2013 at 9:48
  • This is as close to the original as one could come. However, I am still thinking of ways to make evident at first sight that one is difference, the other absolute. Maybe better position the second axis left to the difference bar? Jun 4, 2013 at 10:00
  • I think I would offset the difference bar slightly (position it at 3.5 instead of 3) and set its lwd=2. You might also consider setting either the left or right axis to gray to highlight one or the other.
    – Thomas
    Jun 4, 2013 at 10:52
3

As a starting point another base R solution with Hmisc:

library(Hmisc)

with(d1,
     errbar(as.integer(what),mean,upper,lower,xlim=c(0,4),xaxt="n",xlab="",ylim=c(0,150))
     )
points(3,d1[d1$what=="Difference","mean"],pch=15)
axis(1,at=1:3,labels=d1$what)
atics <- seq(floor(d[d$what=="Difference","lower"]/10)*10,ceiling(d[d$what=="Difference","upper"]/10)*10,by=10)
axis(4,at=atics+d1[d1=="A","mean"],labels=atics,pos=3.5)

enter image description here

1
  • The presence of 0 on the extra axis is important. Jun 4, 2013 at 9:52
3

I would also go with base graph, as it includes the possibility to actually have two y-axis, see the answer here:

Here is my soultion that uses only d:

xlim <- c(0.5, 3.5)

plot(1:2, d[d$what %in% LETTERS[1:2], "mean"], xlim = xlim, ylim = c(0, 140), 
    xlab = "", ylab = "", xaxt = "n", bty = "l", yaxs = "i")
lines(c(1,1), d[1, 3:4])
lines(c(2,2), d[2, 3:4])

par(new = TRUE)
plot(3, d[d$what == "Difference", "mean"], ylim = c(-80, 130), xlim = xlim, 
    yaxt = "n", xaxt = "n", xlab = "", ylab = "", bty = "n")
lines(c(3,3), d[3, 3:4])
Axis(x = c(-20, 60), at = c(-20, 0, 20, 40, 60), side = 4)
axis(1, at = c(1:3), labels = c("A", "B", "Difference"))

Which gives:
enter image description here

To make it clearer that the difference is something different, you can increase the distance from the other two points:

xlim <- c(0.5, 4)
plot(1:2, d[d$what %in% LETTERS[1:2], "mean"], xlim = xlim, ylim = c(0, 140), 
    xlab = "", ylab = "", xaxt = "n", bty = "l", yaxs = "i")
lines(c(1,1), d[1, 3:4])
lines(c(2,2), d[2, 3:4])

par(new = TRUE)
plot(3.5, d[d$what == "Difference", "mean"], ylim = c(-80, 130), xlim = xlim, 
    yaxt = "n", xaxt = "n", xlab = "", ylab = "", bty = "n")
lines(c(3.5,3.5), d[3, 3:4])
Axis(x = c(-20, 60), at = c(-20, 0, 20, 40, 60), side = 4)
axis(1, at = c(1,2,3.5), labels = c("A", "B", "Difference"))
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  • Thanks for the pointer to that paper. I will report back on stackexchange after I found a good solution. Jun 4, 2013 at 9:47
  • You probably need to play around with the positioning of the second y-axis (done via the second ylim argument). And I am always glad to help with pointers to literature I liked.
    – Henrik
    Jun 4, 2013 at 9:51
  • I am not sure if your solution (axis on box) or the original one is better. I like the L-form of the graphics in the paper with the unorthodox positioning of the axis; it is a pointer that there is something special. @Thomas comes closest. Jun 4, 2013 at 9:55
  • In base R everything is possible! The changes are the use of the bty arguments to plot and the call to the Axis function (with captial A) instead of axis.
    – Henrik
    Jun 4, 2013 at 10:08
1

I think you can do that also with base R, what about:

d = data.frame(what=c("A","B","Difference"), 
               mean=c(75,105,30),
               lower=c(50,80,-3),
               upper = c(100,130,63))

plot(-1,-1,xlim=c(1,3),ylim=c(0,140),xaxt="n")

lines(c(1,1),c(d[1,3],d[1,4]))
points(rep(1,3),d[1,2:4],pch=4)

lines(c(1.5,1.5),c(d[2,3],d[2,4]))
points(rep(1.5,3),d[2,2:4],pch=4)

lines(c(2,2),c(d[3,3],d[3,4]))
points(rep(2,3),d[3,2:4],pch=4)

lines(c(1.5,2.2),c(d[2,2],d[2,2]),lty="dotted")

axis(1, at=c(1,1.5,2), labels=c("A","B","Difference"))
axis(4,at=c(40,80,120),labels=c(-1,0,1),pos=2.2)

I simplified some things and didn't wrote it as function, but I think the idea is clear and could easily be extended to a function.

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  • Yes, base plot is fine, and it is easy to use a second axis with it. I am a bit latticish, because I hope to be able to used it with panels. Jun 4, 2013 at 9:38
  • The difference is placed incorrectly, but it could be easily changed by using my derived d1 data set instead of d Jun 4, 2013 at 9:40
  • Uh, maybe I picked the wrong items from d, I thought to write lines that symbolize the idea, hence I haven't checked if the output makes sense, as I thought when it suits you, you have to adjust it anyway. And sorry to ask, but what do you mean by "use it with panels"? I haven't used lattice so far, so I am a bit confused what is the advantage of it. Jun 4, 2013 at 9:47
  • "With panels" (or "with facets" in ggplot): Automatically arrange multiple similar plots with headers in a grid. It's the best feature of lattice and ggplot, so try it! Jun 4, 2013 at 10:03

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