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I am trying to plot lattice type data with GGPLOT2 and then superimpose a normal distribution over the sample data to illustrate how far off normal the underlying data is. I would like to have the normal dist on top to have the same mean and stdev as the panel.

here's an example:


#make some example data
dd<-data.frame(matrix(rnorm(144, mean=2, sd=2),72,2),c(rep("A",24),rep("B",24),rep("C",24)))
colnames(dd) <- c("x_value", "Predicted_value",  "State_CD")

#This works
pg <- ggplot(dd) + geom_density(aes(x=Predicted_value)) +  facet_wrap(~State_CD)

That all works great and produces a nice three panel graph of the data. How do I add the normal dist on top? It seems I would use stat_function, but this fails:

#this fails
pg <- ggplot(dd) + geom_density(aes(x=Predicted_value)) + stat_function(fun=dnorm) +  facet_wrap(~State_CD)

It appears that the stat_function is not getting along with the facet_wrap feature. How do I get these two to play nicely?


I tried to integrate ideas from two of the answers below and I am still not there:

using a combination of both answers I can hack together this:


#make some example data
dd<-data.frame(matrix(rnorm(108, mean=2, sd=2),36,2),c(rep("A",24),rep("B",24),rep("C",24)))
colnames(dd) <- c("x_value", "Predicted_value",  "State_CD")

DevMeanSt <- ddply(dd, c("State_CD"), function(df)mean(df$Predicted_value)) 
colnames(DevMeanSt) <- c("State_CD", "mean")
DevSdSt <- ddply(dd, c("State_CD"), function(df)sd(df$Predicted_value) )
colnames(DevSdSt) <- c("State_CD", "sd")
DevStatsSt <- merge(DevMeanSt, DevSdSt)

pg <- ggplot(dd, aes(x=Predicted_value))
pg <- pg + geom_density()
pg <- pg + stat_function(fun=dnorm, colour='red', args=list(mean=DevStatsSt$mean, sd=DevStatsSt$sd))
pg <- pg + facet_wrap(~State_CD)

which is really close... except something is wrong with the normal dist plotting:

alt text

what am I doing wrong here?

share|improve this question
In the future, could you please use variable names with either mixed case or underscores, but not both. It's killing me! –  hadley Sep 4 '09 at 12:58
ok ok, that's a good point. :) –  JD Long Sep 4 '09 at 15:10
I moved my "answer" up into the question area. I should have put it there to begin with. My apologies to those who made comments as they didn't transfer. I'll be more thoughtful about how I do that in the future. –  JD Long Sep 4 '09 at 16:03

4 Answers 4

up vote 20 down vote accepted

stat_function is designed to overlay the same function in every panel. (There's no obvious way to match up the parameters of the function with the different panels).

As Ian suggests, the best way is to generate the normal curves yourself, and plot them as a separate dataset (this is where you were going wrong before - merging just doesn't make sense for this example and if you look carefully you'll see that's why you're getting the strange sawtooth pattern).

Here's how I'd go about solving the problem:

dd <- data.frame(
  predicted = rnorm(72, mean = 2, sd = 2),
  state = rep(c("A", "B", "C"), each = 24)

grid <- with(dd, seq(min(predicted), max(predicted), length = 100))
normaldens <- ddply(dd, "state", function(df) {
    predicted = grid,
    density = dnorm(grid, mean(df$predicted), sd(df$predicted))

ggplot(dd, aes(predicted))  + 
  geom_density() + 
  geom_line(aes(y = density), data = normaldens, colour = "red") +
  facet_wrap(~ state)
share|improve this answer
That totally makes sense after you explain it. It wasn't intuitive to me that stat_function was designed for single curves. I just assumed that I was doing it wrong. Thanks for taking the time to give an example, it's fantastically helpful. –  JD Long Sep 4 '09 at 15:13
Is it still the case that stat_function cannot provide a different curve for each panel? It seems one would simply want to pass a named list of functions, and match those names to the categorical variable given to facet_wrap, or else provide the function as an argument in the original data table? –  cboettig Dec 19 '12 at 23:27
@cboettig no and it's unlikely it ever will. A named list wouldn't work for multiple facetting variables. –  hadley Dec 31 '12 at 6:11
@hadley I don't understand the problem. Why can't stat_function just refer to the portion of the data frame plotted in a particular panel for evaluating its arguments? –  jhin Mar 2 at 15:53

I think you need to provide more information. This seems to work:

 pg <- ggplot(dd, aes(Predicted_value)) ## need aesthetics in the ggplot
 pg <- pg + geom_density() 
 ## gotta provide the arguments of the dnorm
 pg <- pg + stat_function(fun=dnorm, colour='red',            
            args=list(mean=mean(dd$Predicted_value), sd=sd(dd$Predicted_value)))
 ## wrap it!
 pg <- pg + facet_wrap(~State_CD)

We are providing the same mean and sd parameter for every panel. Getting panel specific means and standard deviations is left as an exercise to the reader* ;)

'*' In other words, not sure how it can be done...

share|improve this answer

I think your best bet is to draw the line manually with geom_line.

dd<-data.frame(matrix(rnorm(144, mean=2, sd=2),72,2),c(rep("A",24),rep("B",24),rep("C",24)))
colnames(dd) <- c("x_value", "Predicted_value",  "State_CD")
dd$Predicted_value<-dd$Predicted_value*as.numeric(dd$State_CD) #make different by state

##Calculate means and standard deviations by level

##Create evenly spaced evaluation points +/- 3 standard deviations away from the mean
for(i in 1:length(levels(dd$State_CD))){
##Create normal density points

pg <- ggplot(dd, aes(Predicted_value)) 
pg <- pg + geom_density() 
pg <- pg + geom_line(aes(x=vals,y=norm),colour="red") #Add in normal distribution
pg <- pg + facet_wrap(~State_CD,scales="free")
share|improve this answer

If you don't want to generate the normal distribution line-graph "by hand", still use stat_function, and show graphs side-by-side -- then you could consider using the "multiplot" function published on "Cookbook for R" as an alternative to facet_wrap. You can copy the multiplot code to your project from here.

After you copy the code, do the following:

# Some fake data (copied from hadley's answer)
dd <- data.frame(
  predicted = rnorm(72, mean = 2, sd = 2),
  state = rep(c("A", "B", "C"), each = 24)

# Split the data by state, apply a function on each member that converts it into a 
# plot object, and return the result as a vector.
plots <- lapply(split(dd,dd$state),FUN=function(state_slice){ 
  # The code here is the plot code generation. You can do anything you would 
  # normally do for a single plot, such as calling stat_function, and you do this 
  # one slice at a time.
  ggplot(state_slice, aes(predicted)) + 
    geom_density() + 

# Finally, present the plots on 2 columns.
multiplot(plotlist = plots, cols=2)
share|improve this answer

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