Perpendicular 3D surfaces in R

I would like to plot intersecting surfaces using the R package rgl. I have a 3D array of data and have no problem plotting surfaces at a constant "z" (array[,,n]). However, I can't figure out how to plot a perpendicular surface (array[n,,]) on the same rgl plot.

Example: I can set up the data using:

``````dat <- list()
lengthout <- 20 # number of data in x, y and z
xrange <- seq(0,10,length.out=lengthout) # sets up dimensions
yrange <- xrange
zrange <- xrange

dat\$x <- xrange # contain data in list
dat\$y <- yrange
dat\$z <- array(rnorm(lengthout^3),dim=c(lengthout,lengthout,lengthout)) # create random data
``````

Then plot multiple flat sections of array[,,n] coloured by value like this:

``````for (n in seq(1,lengthout,4)){
zlim <- range(dat\$z[,,n],na.rm=T) # range of data in slice
zlen <- diff(zlim) + 1 #
colorlut <- rainbow(zlen) # value color lookup table
colmah <- colorlut[dat\$z[,,n] -zlim[1]+1] # assign colors to value at each point
surface3d(dat\$x,dat\$y,array(n,dim=c(lengthout,lengthout)), color=colmah,specular="black",alpha=(1-n/lengthout))
}
``````

Is there a way to rotate the axes of individual surfaces so that I can plot something like this (note constant "x" instead of "z"):

``````zlim <- range(dat\$z[n,,],na.rm=T) # range of data in slice
zlen <- diff(zlim) + 1 #
colorlut <- rainbow(zlen) # value color lookup table
colmah <- colorlut[dat\$z[n,,] -zlim[1]+1] # assign colors to value at each point
surface3d(dat\$x,dat\$y,array(n,dim=c(lengthout,lengthout)), color=colmah,specular="black")
``````

Cheers

-
Solved: Instead of using surface3d(blah), I used rgl.surface( blah, coords=c(3,1,2)) – Mark Sep 12 '13 at 2:57

1 Answer

Solved: Instead of using surface3d(blah), I used rgl.surface( blah, coords=c(3,1,2)):

``````dat <- list()
lengthout <- 20 # number of data in x, y and z
xrange <- seq(0,10,length.out=lengthout) # sets up dimensions
yrange <- xrange
zrange <- xrange

dat\$x <- xrange # contain data in list
dat\$y <- yrange
dat\$z <- array(rnorm(lengthout^3),dim=c(lengthout,lengthout,lengthout)) # create random data

n=1
# Plot constant "z"
zlim <- range(dat\$z[,,n],na.rm=T) # range of data in slice
zlen <- diff(zlim) + 1 #
colorlut <- rainbow(zlen) # value color lookup table
colmah <- colorlut[dat\$z[,,n] -zlim[1]+1] # assign colors to value at each point
rgl.surface(xrange,yrange,array(n,dim=c(lengthout,lengthout)), color=colmah,specular="black",alpha=(1-n/lengthout),coords=c(1,2,3))

# Plot constant "x"
zlim <- range(dat\$z[n,,],na.rm=T) # range of data in slice
zlen <- diff(zlim) + 1 #
colorlut <- rainbow(zlen) # value color lookup table
colmah <- colorlut[dat\$z[n,,] -zlim[1]+1] # assign colors to value at each point
rgl.surface(yrange,zrange,array(n,dim=c(lengthout,lengthout)), color=colmah,specular="black",alpha=(1-n/lengthout),coords=c(3,1,2))

# Plot constant "y"
zlim <- range(dat\$z[,n,],na.rm=T) # range of data in slice
zlen <- diff(zlim) + 1 #
colorlut <- rainbow(zlen) # value color lookup table
colmah <- colorlut[dat\$z[,n,] -zlim[1]+1] # assign colors to value at each point
rgl.surface(xrange,zrange,array(n,dim=c(lengthout,lengthout)), color=colmah,specular="black",alpha=(1-n/lengthout),coords=c(1,3,2))
axes3d()
``````

-