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.

The attached script performs equivalence tests on sample variables x, y and z.

equivalence.xyplot() is really handy, although the base lattice graphics are a pain to work with. How can I use ggplot2 to plot these data rather than the base lattice graphics?


For example, using ggplot(plot1) returns the following error:

Error: ggplot2 doesn't know how to deal with data of class trellis

I'm not sure where to begin converting the trellis class of data to ggplot2 format. Any specific advice on converting trellis-based graphics to ggplot2 would be appreciated.


x = c(1,4,3,5,3,7,8,6,7,8,9)
y = c(1,5,4,5,3,6,7,6,7,2,8)
z = c(2,4,3,5,4,7,8,5,6,6,9)
mydata = data.frame(x,y,z)

plot1 = equivalence.xyplot(mydata$x~mydata$y,alpha=0.05, b0.ii=0.25, b1.ii=0.25)
plot2 = equivalence.xyplot(mydata$x~mydata$z,alpha=0.05, b0.ii=0.25, b1.ii=0.25)
plot3 = equivalence.xyplot(mydata$y~mydata$z,alpha=0.05, b0.ii=0.25, b1.ii=0.25)

# Combine plots into one figure
grid.arrange(plot1, plot2, plot3, ncol=2)

enter image description here

share|improve this question
So in essence you have a personal preference for one graphics package over another and are offering a 100 point bounty to whoever does the conversion work for you? Now, where exactly is that a valid programming question within the usual SO realm? –  Dirk Eddelbuettel Jul 14 '13 at 3:53
@Dirk Let's break this question down: 1) reproduceable data? check 2) Clearly defined question relating to R programming? check 3) answerable question? check 4) A real programming problem? check... –  Borealis Jul 14 '13 at 13:32
a ggplot2 question with reproducible code, not answered in several days, should be a hint that something's really wrong. Personally, I wasn't keen to install that equivalence package, find out what exactly is an "equivalence plot", when for all I know you haven't even tried to do it with ggplot2. A few lines, points, and a rectangle -- it doesn't look hard from the purely graphical perspective, frankly, provided you know what you're plotting. Bounties won't make a question more appealing, in fact they're rather useless; if you wanted to bring it back up, a good edit is infinitely better. –  baptiste Jul 14 '13 at 14:17
I am also going to chime in to agree strongly with baptiste, particularly his first sentence. As soon as it became clear that the question included not even an ounce of an attempt on your part, I moved on. One of the close reasons now read: "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results." –  joran Jul 15 '13 at 1:36
@Aaron We're not being critical just for kicks, honest! You have to understand that whatever your intentions, your question basically amounts to: Here's a task specification, will someone please do it for me? This is simply a somewhat more polite version of "I need to do X. Gimme teh codez!", and we can't allow things to devolve into that. –  joran Jul 15 '13 at 4:06

1 Answer 1

up vote 6 down vote accepted

This is not a final solution but a good start . I just go through lattice panel function and replace :

  1. xyplot ----------> geom_point
  2. panel.abline ----------> geom_abline
  3. grid.polygon ----------> geom_polygon
  4. panel.loess ----------> stat_smooth
  5. panel.arrows ----------> geom_errobar

For each geom, I create a data.frame which components are the data passed to the lattice function. For example :

panel.arrows(x.bar, ybar.hat$fit + ybar.hat$se.fit * 
      t.quant, x.bar, ybar.hat$fit - ybar.hat$se.fit * 
      t.quant, col = "darkgrey", length = 0.05, angle = 90, 
      code = 3)

becomes :

dat.arrow <- data.frame(x=x.bar, ymax= ybar.hat$fit + ybar.hat$se.fit * 
             t.quant, ymin= ybar.hat$fit - ybar.hat$se.fit * 
 pl <- pl +  geom_errorbar(data=dat.arrow, aes(x,ymin=ymin,ymax=ymax),
              col = "darkgrey", width = 0.10)

The final result is a new function equivalence.ggplot that take the same parameters as equivalence.xyplot:

equivalence.ggplot <- function(x,y, alpha, b0.ii, b1.ii,
                               b0.absolute = FALSE,add.smooth=FALSE){
  x.bar <- mean(x, na.rm = TRUE)
  min.x <- min(x, na.rm = TRUE)
  max.x <- max(x, na.rm = TRUE)
  the.model <- lm(y ~ x)

  if (b0.absolute) 
    y.poly <- x.bar + b0.ii * c(-1, 1, 1, -1)
  else y.poly <- x.bar * (1 + b0.ii * c(-1, 1, 1, -1))
  dat.poly <- data.frame(x = c(min.x, min.x, max.x, max.x), 
                         y = y.poly)
  dat <- data.frame(x,y)
  p <- function(dat,dat.poly){
    h <- ggplot(dat) +
    geom_polygon(data=dat.poly,aes(x,y),col = "light gray", fill = gray(0.9)) +
    geom_point(aes(x,y)) +
                  aes(x=x,y=y),method="lm", se=FALSE,
                  fullrange =TRUE)+

    if (add.smooth) 
      h <- h +  geom_smooth(aes(x,y),method='loess')
  pl <- p(dat,dat.poly)

  n <- sum(complete.cases(cbind(x, y)))
  ybar.hat <- predict(the.model, newdata = data.frame(x = x.bar), 
                      se = TRUE)
  t.quant <- qt(1 - alpha/2, df.residual(the.model))
  dat.arrow <- data.frame(x=x.bar, ymax= ybar.hat$fit + ybar.hat$se.fit * 
                 t.quant, ymin= ybar.hat$fit - ybar.hat$se.fit * 
  pl <- pl + 
    geom_errorbar(data=dat.arrow, aes(x,ymin=ymin,ymax=ymax),
                  col = "darkgrey", width = 0.10)

  se.slope <- coef(summary(the.model))[2, 2]
  dat.arrow1 <- data.frame(x=x.bar, ymax=  ybar.hat$fit + se.slope * t.quant * 
                             x.bar, ymin=ybar.hat$fit - se.slope * t.quant * 

  pl <- pl + 
    geom_errorbar(data=dat.arrow1, aes(x,ymin=ymin,ymax=ymax),
                  col = "black", width = 0.10)
  addLines <- function(pl,the.model){
  pl <- pl + geom_abline(intercept = coef(summary(the.model))[1, 1], slope = 1 - 
                 b1.ii, col = "darkgrey", lty = 2) + 
    geom_abline(intercept = coef(summary(the.model))[1, 1], slope = 1 + 
                 b1.ii, col = "darkgrey", lty = 2)  
  pl <- addLines(pl,the.model)


Comparing the lattice and the ggplot2 result :

p.gg  <- equivalence.ggplot(mydata$x,mydata$y,alpha=0.05, b0.ii=0.25, b1.ii=0.25)
p.lat <- equivalence.xyplot(mydata$y~mydata$x,alpha=0.05, b0.ii=0.25, b1.ii=0.25)

enter image description here

share|improve this answer
It looks like the points aren't the same either, but I don't know why that would be (but it would explain why the regression lines aren't the same). –  joran Jul 15 '13 at 2:15
@joran thanks! equivalence.xyplot(mydata$y~mydata$x, not equivalence.xyplot(mydata$x~mydata$y,..OP induce me to error...It looks better now –  agstudy Jul 15 '13 at 2:25
This solution clarifies how to convert trellis based graphics to ggplot2 format. Many thanks. –  Borealis Jul 15 '13 at 11:39

Your Answer


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.