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I'm trying to do a dotplot with the libraries lattice and latticeExtra in R. However, no proper representation of the values on the vertical y-axis is done. Instead of choosing the actual values of the numeric variable, R plots the rank of the value. That is, there are values [375, 500, 625, 750, ..., 3000] and R plots their ranks [1,2,3,4,...23] and chooses the scale accordingly. Has someone experienced a problem like this? How can I manage the get a proper representation with ticks like (0, 500, 1000, 1500, ...) on the vertical y-scale?

Here the program code so far:

df.dose <- read.table("data.csv", sep=",", header=TRUE)
library(lattice); library(latticeExtra)

useOuterStrips(dotplot(z ~ sample.size | as.factor(effect.size)*as.factor(true.dose),
               groups=as.factor(type), data=df.dose, as.table=TRUE))

(Added from comment below): Also, can error bars be added to the graph? I thought of the following (to be added to the call), but it doesn't seem to work. Is it possible somehow?

up=z+se, lo=z-se, panel.groups=function(x,y,..., up, lo, subscripts){ 
   up <- up[subscripts]
   lo <- lo[subscripts]
   panel.segments(lo, as.numeric(y), up, as.numeric(y), ...)

Here's my data: https://www.dropbox.com/s/egy25cj00rhum40/data.csv

Added: here's the relevant portion of the data using expand.grid and dput:

df.dose <- expand.grid(effect.size=c(-.5, -.625, -0.75),
                       sample.size=c(40L, 60L, 80L),
                       true.dose=c(375L, 500L, 750L, 1125L),
                       type=c("dose", "categ", "FP2", "FP1"))
df.dose$z <- c(875L, 875L, 750L, 750L, 750L, 625L, 625L, 625L, 625L, 875L, 
875L, 750L, 1000L, 1000L, 1000L, 1125L, 1000L, 875L, 1000L, 1000L, 
875L, 1000L, 1000L, 875L, 1125L, 1000L, 1000L, 1250L, 1125L, 
1000L, 1250L, 1250L, 1125L, 1250L, 1000L, 1000L, 500L, 500L, 
500L, 500L, 500L, 500L, 500L, 500L, 500L, 625L, 625L, 625L, 625L, 
625L, 625L, 625L, 625L, 625L, 750L, 750L, 625L, 750L, 750L, 750L, 
750L, 750L, 750L, 875L, 875L, 750L, 750L, 875L, 875L, 875L, 875L, 
875L, 2500L, 1500L, 1125L, 2000L, 1000L, 1750L, 250L, 500L, 500L, 
1250L, 750L, 625L, 875L, 500L, 500L, 875L, 500L, 375L, 1250L, 
875L, 750L, 1000L, 625L, 625L, 875L, 500L, 500L, 1125L, 1000L, 
875L, 1125L, 875L, 625L, 1125L, 1000L, 625L, 2500L, 2125L, 2375L, 
2000L, 750L, 2625L, 250L, 625L, 250L, 875L, 875L, 500L, 625L, 
500L, 625L, 1000L, 500L, 375L, 1000L, 875L, 625L, 875L, 500L, 
500L, 875L, 500L, 500L, 1250L, 1125L, 875L, 1125L, 875L, 750L, 
1250L, 1000L, 625L)
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3 Answers 3

up vote 6 down vote accepted

You need to makez a factor: dotplot(factor(z) ~ ...

Also you probably want some jitter in the plot to prevent overlap; try adding jitter.x=TRUE or jitter.y=TRUE, or both.

Judging by your comment below and looking at the data again, I think you're plotting the dotplot the wrong way. I think you want the lines to be for the sample sizes, not for the z's. If you really want z on the vertical axis, you then need to add horizontal=TRUE. You could also swap what is on the horizontal and vertical axes.

useOuterStrips(dotplot(z ~ factor(sample.size) | 
                  groups=as.factor(type), data=df.dose,  
                  as.table=TRUE, horizontal=FALSE, jitter.x=TRUE))

To add an error bar, it's a little more complicated because you have groups within the panels, so you need to use a panel.groups function; additionally, so that the lines don't overlap, you probably want to jitter them from side to side a little, which is best done in a custom panel function.

df.dose$se <- 200
df.dose$type <- factor(df.dose$type)
df.dose$sample.size <- factor(df.dose$sample.size)

panel.groups.mydotplot <- function(x, y, subscripts, up, lo, 
                                   col=NA, col.line=NA, ...) {
  panel.points(x, y, ...)
  panel.segments(x, lo[subscripts], x, up[subscripts], col=col.line, ...)
panel.mydotplot <- function(x, y, subscripts, groups, ..., jitter=0.1) {
  jitter <- seq(-1,1,len=nlevels(groups))*jitter
  xx <- as.numeric(x) + jitter[as.numeric(groups[subscripts])]
  panel.dotplot(x, y, groups=groups, subscripts=subscripts, pch=NA, ...)
  panel.superpose(xx, y, groups=groups, subscripts=subscripts,  
                  panel.groups=panel.groups.mydotplot, ...)
pp <- dotplot(z ~ sample.size | as.factor(effect.size)*as.factor(true.dose),
              groups=type, data=df.dose, as.table=TRUE, horizontal=FALSE,
              up=df.dose$z + df.dose$se, lo=df.dose$z - df.dose$se,
              panel=panel.mydotplot, auto.key=list(space="right"))

enter image description here

share|improve this answer
Dear Aaron, thanks a lot for your reply! Indeed, making the variable "z" a factor was the straightforward solution! Thank you therefore. However, when I try to customized the scales, ".R" shows no scale at all: scales=list(y=list(tick.number=6, relation="same", at=c(0, 500, 1000, 1500, 2000, 2500)), x=list(tick.number=3, relation="same", at=c(40,60,80)) –  Andres Oct 11 '12 at 15:15
I think perhaps you've got the axes backwards. See my edit. –  Aaron Oct 11 '12 at 15:53
Yes, now it looks as it should be. Thanks a lot, this was really helpful! –  Andres Oct 12 '12 at 5:20
Using "lattice", can error bars be added to the graph? I thought of "up=z+se, lo=z-se, panel.groups=function(x,y,..., up, lo, subscripts){ up <- up[subscripts]; lo <- lo[subscripts]; panel.segments(lo, as.numeric(y), up, as.numeric(y), ...)}", but that doesn't seem to work. Is it possible somehow? –  Andres Oct 12 '12 at 6:37
For additional parameters, it doesn't look inside the data, so you have to input them as up=df.dose$z + df.dose$se. Also your segments call will be right only if you've switched the axes; if you're using horizontal=FALSE you need to switch the arguments around appropriately. –  Aaron Oct 12 '12 at 11:47

I'm not sure if I understand the problem and you asked for a lattice solution but I thought it may be helpful to see this done with ggplot2:

ggplot(data=df.dose, aes(x=sample.size, y=as.factor(z), colour=type)) +
    geom_point() + facet_grid(true.dose~effect.size)

Yields: enter image description here

Or we can free the scales with:

ggplot(data=df.dose, aes(x=sample.size, y=as.factor(z), colour=type)) +
    geom_point() + facet_grid(true.dose~effect.size, scales="free")


enter image description here

share|improve this answer
Nice, Tyler. How would you add jitter with ggplot to show the overlapping points? (Or would some other method be preferred in ggplot?) –  Aaron Oct 11 '12 at 14:53
@Aaron you could use something like position=position_jitter(width=.005) inside of geom_point or mess with alpha the transparency (kinda) of the points. I think there may be a better way to set up plotting this all together. Perhaps faceting differently (by type) instead or creating a new variable that merges z and type. –  Tyler Rinker Oct 11 '12 at 14:59
Dear Tyler, thanks for the hint with ggplot. It looks very nice. I haven't thought of a way to do this in ggplot. Anyways, jitter is possible by adding "position=position_jitter(width=5,height=0)" into the brackets of geom_point() –  Andres Oct 11 '12 at 15:25
Using "ggplot2", can error bars be added to the graph? I thought of "geom_segment(aes(x=sample.size, xend=sample.size, y=z-100, yend=z+100))", but that doesn't seem to work with the facet grid. Is it possible somehow? –  Andres Oct 12 '12 at 6:39
For error bars you'd use geom_errorbar (LINK). I'm not really sure what you're after on the second request. Perhaps you want geom_hline (LINK) –  Tyler Rinker Oct 12 '12 at 13:41

You can also use xYplot from the package Hmisc, to achieve solution similar to @Aaron, although it might be a bit tricky to get the same jitter he got:

a <- xYplot(Cbind(z, z-se, z+se) ~ sample.size | as.factor(effect.size) * as.factor(true.dose),
            groups=as.factor(type), data=df.dose, as.table=TRUE, auto.key=list(space="top"))

enter image description here

But is really informative plot? Does it show your data effects well, highlights your comparisons? Does it explore any trends in the data? To better see all the factors you want to plot, I would first make lines connections between your groups, to better see individual effects within different sample.size.

key.variety <- list(space = "top", 
                    text = list(levels(df.dose$type)),
                    points = list(pch = 0:3, col = "black"))
a <- xyplot(z ~ as.factor(sample.size) | as.factor(effect.size)*as.factor(true.dose),
            df.dose, type = "o", as.table=TRUE, groups = type, key = key.variety, 
            lty = 1, pch = 0:3, col.line = "darkgrey", col.symbol = "black")

enter image description here

But there is something hiding there and there is still too much noise because of the density of data. Let's get rid of the effect.size and plot regression line, although it's probably a sin to do with so few data points.

a <- xyplot(z ~ as.factor(sample.size) | as.factor(type)*as.factor(true.dose), 
            data=df.dose, as.table=TRUE, 
            panel = function(x, y){
               panel.xyplot(x, y, jitter.x = T, col=1);
               panel.lmline(x, y, col=1, lwd=1.5);

enter image description here

I know I might have not convinced you, but sometimes it's better to unload a plot from too many factors to get better look at the data. Sometimes it might be more accessible visually if you show the factors separated.

share|improve this answer
Thank you for the tip with the Hmisc-package. I see, there are many ways to accomplish this goal. Thanks a lot! –  Andres Oct 17 '12 at 15:55
+1 Nice example of data exploration by plotting! –  Aaron Oct 17 '12 at 19:17

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