There is an example in ?plot3d if you are talking about plotting points in a 3d space and colouring them:
x <- sort(rnorm(1000))
y <- rnorm(1000)
z <- rnorm(1000) + atan2(x,y)
plot3d(x, y, z, col=rainbow(1000))
But if you mean to colour the points by a 4th variable, say a grouping variable, then we can modify the example above to do this by creating a grouping variable
grp <- gl(5, 200) ## 5 groups 200 members each
## now select the colours we want
cols <- 1:5
## Now plot
plot3d(x, y, z, col=cols[grp])
OK, is this more what you want?
X <- 1:10
Y <- 1:10
## Z is now a 100 row object of X,Y combinations
Z <- expand.grid(X = X, Y = Y)
## Add in Z1, which is the 3rd variable
## X,Y,Z1 define the surface, which we colour according to
## 4th variable Z2
Z <- within(Z, {
Z1 <- 1.2 + (1.4 * X) + (-1.9 * Y)
Z2 <- 1.2 + (1.4 * X) - (1.2 * X^2) + (1.9 * Y) + (-1.3 * Y^2)
Z3 <- 1.2 + (1.4 * X) + (-1.9 * Y) + (-X^2) + (-Y^2)})
## show the data
head(Z)
## Set-up the rgl device
with(Z, plot3d(X, Y, Z1, type = "n"))
## Need a scale for Z2 to display as colours
## Here I choose 10 equally spaced colours from a palette
cols <- heat.colors(10)
## Break Z2 into 10 equal regions
cuts <- with(Z, cut(Z2, breaks = 10))
## Add in the surface, colouring by Z2
with(Z, surface3d(1:10,1:10, matrix(Z1, ncol = 10),
color = cols[cuts], back = "fill"))
with(Z, points3d(X, Y, Z1, size = 5)) ## show grid X,Y,Z1
Here's a modification where the plane surface Z1
is curved (Z3
).
## Set-up the rgl device plotting Z3, a curved surface
with(Z, plot3d(X, Y, Z3, type = "n"))
with(Z, surface3d(1:10,1:10, matrix(Z3, ncol = 10),
color = cols[cuts], back = "fill"))
The detail of what I did to get Z2
probably doesn't matter, but I tried to get something like the graph you linked to.
If I've still not got what you want, can you edit your Q with some example data and give us a better idea of what you want?
HTH
raster::plot3D
usesrgl
. I've created the image of the example data here: stackoverflow.com/questions/5220283/… – Roman Luštrik Mar 7 '11 at 17:01