# Creating a 3D histogram with R

How can I create a 3D histogram with R?

For example, I have two variables to be counted for the number of times they fall in a defined two dimensional bin. So I have two variables in the X and Y axis, while the Z axis is the count of the two variables.

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This question would fit better on CrossValidated. I have flagged it for moderator attention. –  Andrie Oct 7 '11 at 8:43
I have to admit that I don't understand the closing. IMHO this question may easily be answered software-related (which I understand to be the topic here): e.g. have a look at package hexbin or ggplot's `stat_bin2d` / `stat_binhex`. You get 2 spatial coordinates which is all your screen or paper can do plus a 3rd, colour-coded dimension. That being said, it may rather be worth closing as duplicate of stackoverflow.com/questions/2405575/… (where, however the 3 dimensions were discussed purely spatially). –  cbeleites Oct 7 '11 at 11:58
By the way: I'd call two variables X and Y and their counts in Z rather a 2d histogram. –  cbeleites Oct 7 '11 at 12:01
@cbeleites: Yes, the question has been reopened (see revisions). If this is a duplicate then we should close it as such. If the other question is missing details, feel free to add an answer over there. –  Bobby Oct 7 '11 at 12:52
Have you considered a heatmap instead? The pheatmap package can make them quite nicely. –  rmccloskey Mar 13 at 20:58

have a look at package hexbin to calculate and display, or e.g. ggplot's `stat_bin2d` / `stat_binhex` for display. You get 2 spatial coordinates which is all your screen or paper can do plus a 3rd, colour-coded dimension.

Note that How does one plot a 3D stacked histogram in R? is quite a duplicate of this question (but the 3rd dimension was discussed spatially there).

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Just curiosity: Was the thread reopened or did I get that wrong? –  cbeleites Oct 7 '11 at 12:21

The rgl package has a function hist3d (not actually in the doc, but you can call it and also see the code).

Though this hist3d is, for me displaying a 2-dimensional histograms (input = x,y) in 3 dimensions.

If that is what you want here is the code (from rgl):

``````> hist3d
function(x,y=NULL,nclass="auto",alpha=1,col="#ff0000",scale=10)
{
save <- par3d(skipRedraw=TRUE)
on.exit(par3d(save))
xy <- xy.coords(x,y)
x <- xy\$x
y <- xy\$y
n<-length(x)
if (nclass == "auto") { nclass<-ceiling(sqrt(nclass.Sturges(x))) }
breaks.x <- seq(min(x),max(x),length=(nclass+1))
breaks.y <- seq(min(y),max(y),length=(nclass+1))
z<-matrix(0,(nclass),(nclass))
for (i in 1:nclass)
{
for (j in 1:nclass)
{
z[i, j] <- (1/n)*sum(x < breaks.x[i+1] & y < breaks.y[j+1] &
x >= breaks.x[i] & y >= breaks.y[j])
binplot.3d(c(breaks.x[i],breaks.x[i+1]),c(breaks.y[j],breaks.y[j+1]),
scale*z[i,j],alpha=alpha,topcol=col)
}
}
}
``````

I built my own hist3d to return 3-dimensional histogram (for example to use on Red Green Blue):

``````my_hist3d <- function(x,y=NULL,z=NULL, nclass="auto",alpha=1,col="#ff0000",scale=10)
{

xyz <- xyz.coords(x,y,z)
x <- xyz\$x
y <- xyz\$y
z <- xyz\$z

n<-length(x)

if (nclass == "auto") { nclass<-ceiling(sqrt(nclass.Sturges(x))) }

breaks.x <- seq(min(x),max(x),length=(nclass+1))
breaks.y <- seq(min(y),max(y),length=(nclass+1))
breaks.z <- seq(min(z),max(z),length=(nclass+1))

h = array(1:(nclass^3), dim=c(nclass,nclass,nclass))

for (i in 1:nclass)
{
for (j in 1:nclass)
{
for (k in 1:nclass)
{
h[i,j,k] <- (1/n)*sum(x < breaks.x[i+1] & y < breaks.y[j+1] & x >= breaks.x[i] & y >= breaks.y[j] & z < breaks.z[k+1] & z >= breaks.z[k])
}
}
}

return(h)
}
``````

The variable returned (h) is a three-dimensional matrix of size nclass^3 (nclass is the number of bins in each dimension).

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You can use the next function based on tucson function to plot a histogram in 3d.

``````my_hist3d <- function(x, y, freq=FALSE, nclass="auto") {
n<-length(x)
if (nclass == "auto") { nclass<-ceiling(sqrt(nclass.Sturges(x))) }
breaks.x <- seq(min(x),max(x),length=(nclass+1))
breaks.y <- seq(min(y),max(y),length=(nclass+1))
h <- NULL
for (i in 1:nclass)
for (j in 1:nclass)
h <- c(h, sum(x <= breaks.x[j+1] & x >= breaks.x[j] & y <= breaks.y[i+1] & y >= breaks.y[i] ) )
if (freq) h <- h / n
xx <- as.factor(round(mean(breaks.x[1:2])+(0:(nclass-1))*diff(breaks.x[1:2]), 1))
yy <- as.factor(round(mean(breaks.y[1:2])+(0:(nclass-1))*diff(breaks.y[1:2]), 1))
res <- cbind(expand.grid(xx,yy), h)
colnames(res) <- c(deparse(substitute(x)),deparse(substitute(y)),'Frequency')
formu <- as.formula(paste("Frequency ~ ", paste(colnames(res)[1:2], collapse= "+")))
cloud(formu, res, panel.3d.cloud=panel.3dbars, col.facet='lightblue',
xbase=1, ybase=1, scales=list(arrows=FALSE, col=1),
par.settings = list(axis.line = list(col = "transparent")))
}

library(latticeExtra)

height <- rbeta(2000, 2, 5)
weight <- rgamma(2000, 10)
my_hist3d(height, weight, nclass=10)
``````
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