Overlaying histograms with ggplot2 in R

I am new to R and am trying to plot 3 histograms onto the same graph. Everything worked fine, but my problem is that you don't see where 2 histograms overlap - they look rather cut off: Histogram

When I make density plots, it looks perfect: each curve is surrounded by a black frame line, and colours look different where curves overlap: Density Plot

Can someone tell me if something similar can be achieved with the histograms in the 1st picture? This is the code I'm using:

``````lowf0 <-read.csv (....)
lowf0\$utt<-'low f0'
mediumf0\$utt<-'medium f0'
highf0\$utt<-'high f0'
histogram<-rbind(lowf0,mediumf0,highf0)
ggplot(histogram, aes(f0, fill = utt)) + geom_histogram(alpha = 0.2)
``````

Thanks in advance for any useful tips!

• The hyperlinks to the histogram and the density plot are broken – Daghan --- Sep 19 '16 at 14:47

``````ggplot(histogram, aes(f0, fill = utt)) + geom_histogram(alpha = 0.2)
``````

is telling `ggplot` to construct one histogram using all the values in `f0` and then color the bars of this single histogram according to the variable `utt`.

What you want instead is to create three separate histograms, with alpha blending so that they are visible through each other. So you probably want to use three separate calls to `geom_histogram`, where each one gets it's own data frame and fill:

``````ggplot(histogram, aes(f0)) +
geom_histogram(data = lowf0, fill = "red", alpha = 0.2) +
geom_histogram(data = mediumf0, fill = "blue", alpha = 0.2) +
geom_histogram(data = highf0, fill = "green", alpha = 0.2) +
``````

Here's a concrete example with some output:

``````dat <- data.frame(xx = c(runif(100,20,50),runif(100,40,80),runif(100,0,30)),yy = rep(letters[1:3],each = 100))

ggplot(dat,aes(x=xx)) +
geom_histogram(data=subset(dat,yy == 'a'),fill = "red", alpha = 0.2) +
geom_histogram(data=subset(dat,yy == 'b'),fill = "blue", alpha = 0.2) +
geom_histogram(data=subset(dat,yy == 'c'),fill = "green", alpha = 0.2)
``````

which produces something like this:

Edited to fix typos; you wanted fill, not colour.

• This doesn't work when the subset has different size. Any idea how address this? (E.g. use data with 100 points on "a", 50 on "b"). – Jorge Leitão Jul 14 '15 at 7:49
• One downside of this approach is that I had difficulty getting it to display a legend (though this could just be due to my lack of knowledge). The other answer below by @kohske will by default display a legend which can then be modified (along with the specific colors displayed on the histogram) with, e.g. `scale_fill_manual()`. – Michael Ohlrogge Sep 11 '16 at 14:43
• exactly, how can we add legend to this?? – shenglih Feb 13 '17 at 1:17
• @shenglih For a legend, kohske's answer below is better. His answer is also just generally better. – joran Feb 13 '17 at 1:20

Using @joran's sample data,

``````ggplot(dat, aes(x=xx, fill=yy)) + geom_histogram(alpha=0.2, position="identity")
``````

note that the default position of `geom_histogram` is "stack."

docs.ggplot2.org/current/geom_histogram.html

• I think this should be the top answer since it avoids repeating code – kfor Oct 30 '13 at 19:59
• `position = 'identity'` isn't just a more readable answer, it gels more nicely with more complicated plots, such as mixed calls to `aes()` and `aes_string()`. – rensa Apr 4 '16 at 3:41
• This answer will also automatically display a legend to the colors, whereas the answer by @joran won't. The legend can then be modified using, e.g. `scale_fill_manual()`. This function can also be used to modify the colors in the histograms. – Michael Ohlrogge Sep 11 '16 at 14:44
• Also, be sure that the variable used in `fill` is a factor. – hadrienj Mar 24 '17 at 12:50
• Personally I think stackoverflow should list the most upvoted answer first. The "correct answer" only represents one person's opinion. – daknowles Aug 14 '17 at 20:45

While only a few lines are required to plot multiple/overlapping histograms in ggplot2, the results are't always satisfactory. There needs to be proper use of borders and coloring to ensure the eye can differentiate between histograms.

The following functions balance border colors, opacities, and superimposed density plots to enable the viewer to differentiate among distributions.

Single histogram:

``````plot_histogram <- function(df, feature) {
plt <- ggplot(df, aes(x=eval(parse(text=feature)))) +
geom_histogram(aes(y = ..density..), alpha=0.7, fill="#33AADE", color="black") +
geom_density(alpha=0.3, fill="red") +
geom_vline(aes(xintercept=mean(eval(parse(text=feature)))), color="black", linetype="dashed", size=1) +
labs(x=feature, y = "Density")
print(plt)
}
``````

Multiple histogram:

``````plot_multi_histogram <- function(df, feature, label_column) {
plt <- ggplot(df, aes(x=eval(parse(text=feature)), fill=eval(parse(text=label_column)))) +
geom_histogram(alpha=0.7, position="identity", aes(y = ..density..), color="black") +
geom_density(alpha=0.7) +
geom_vline(aes(xintercept=mean(eval(parse(text=feature)))), color="black", linetype="dashed", size=1) +
labs(x=feature, y = "Density")
plt + guides(fill=guide_legend(title=label_column))
}
``````

Usage:

Simply pass your data frame into the above functions along with desired arguments:

``````plot_histogram(iris, 'Sepal.Width')
``````

``````plot_multi_histogram(iris, 'Sepal.Width', 'Species')
``````

The extra parameter in plot_multi_histogram is the name of the column containing the category labels.

We can see this more dramatically by creating a dataframe with many different distribution means:

``````a <-data.frame(n=rnorm(1000, mean = 1), category=rep('A', 1000))
b <-data.frame(n=rnorm(1000, mean = 2), category=rep('B', 1000))
c <-data.frame(n=rnorm(1000, mean = 3), category=rep('C', 1000))
d <-data.frame(n=rnorm(1000, mean = 4), category=rep('D', 1000))
e <-data.frame(n=rnorm(1000, mean = 5), category=rep('E', 1000))
f <-data.frame(n=rnorm(1000, mean = 6), category=rep('F', 1000))
many_distros <- do.call('rbind', list(a,b,c,d,e,f))
``````

Passing data frame in as before (and widening chart using options):

``````options(repr.plot.width = 20, repr.plot.height = 8)
plot_multi_histogram(many_distros, 'n', 'category')
``````

• This is very useful, hopefully gets more attention. – Edward Tyler Dec 25 '18 at 22:23