Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I've been working on a rather complicated chart in R. I have a wireframe with a surface and points distributed in X,Y,Z space all over (e.g. under the surface and over it).

The problem is that the points that plot don't "look" like they are underneath the surface.

I am trying to figure out how best to visualize this chart to make the points look under the surface. Some sample code for the wireframe & cloud come from here: R-List Posting

The code in an example:

surf <-
expand.grid(x = seq(-pi, pi, length = 50),
            y = seq(-pi, pi, length = 50))

surf$z <-
with(surf, {
    d <- 3 * sqrt(x^2 + y^2)
    exp(-0.02 * d^2) * sin(d)

g <- surf

pts <-   data.frame(x =rbind(2,2,2), y=rbind(-2,-2,-2), z=rbind(.5,0,-.5))

wireframe(z ~ x * y, g, aspect = c(1, .5),
      scales = list(arrows = FALSE),
      pts = pts,
      panel.3d.wireframe =
      function(x, y, z,
               xlim, ylim, zlim,
               xlim.scaled, ylim.scaled, zlim.scaled,
               ...) {
          panel.3dwire(x = x, y = y, z = z,
                       xlim = xlim,
                       ylim = ylim,
                       zlim = zlim,
                       xlim.scaled = xlim.scaled,
                       ylim.scaled = ylim.scaled,
                       zlim.scaled = zlim.scaled,
          xx <-
              xlim.scaled[1] + diff(xlim.scaled) *
                  (pts$x - xlim[1]) / diff(xlim)
          yy <-
              ylim.scaled[1] + diff(ylim.scaled) *
                  (pts$y - ylim[1]) / diff(ylim)
          zz <-
              zlim.scaled[1] + diff(zlim.scaled) *
                  (pts$z - zlim[1]) / diff(zlim)
          panel.3dscatter(x = xx,
                          y = yy,
                          z = zz,
                          xlim = xlim,
                          ylim = ylim,
                          zlim = zlim,
                          xlim.scaled = xlim.scaled,
                          ylim.scaled = ylim.scaled,
                          zlim.scaled = zlim.scaled,

Screen Capture

Looking at my example, the points in pts are in actually in vertical line where X,Y =(2,-2) and the z goes from .5 to -.5.

However, to my eye the third point doesn't look like it is under the surface, to it looks like it is at coordinates(2,-3,0).

Is this just my eye mis-interpreting this ?

Does anyone have a suggestion on how to make my points look more "3D" ? Perhaps muting the color of the point to make it look "under the surface" by using some sort of transparency on the surface ?

I tried making the colors of the points different (red for over the surface, blue for under the surface) but that does not really help the graph much.

share|improve this question
this would be much more straightforward using the rgl package, which has full support for transparency, lighting, and construction of a scene where objects are known to be 'in front of' or 'behind' particular surfaces – Ben Bolker Dec 22 '11 at 18:21
How would I convert my code above to use rgl ? I've not used it before .. – user918967 Dec 22 '11 at 18:24
Hi Ben, I am totally confused by rgl. Frankly I am not sure where to start. Could you give me some pointers on moving to rgl ? Thanks ! – user918967 Dec 22 '11 at 19:29
I dont know if its viable, but how about changing the size depending on the distance to some point that represents the viewer. – Marco Dec 22 '11 at 19:55
If you don't want to play w/ rgl then either trying Marco's idea about perspective or consider drawing the points "under" with a lighter value or a transparency. R supports hex transparency codes via color=#xxyyzzaa, where the first three hex pairs are RGB and the last is the transparency (00= invisible, ff= full color). – Carl Witthoft Dec 22 '11 at 20:12
up vote 4 down vote accepted

This might get you started:

sfun <- function(x,y) {
  d <- 3 * sqrt(x^2 + y^2)
  exp(-0.02 * d^2) * sin(d)

cc <- curve3d(sfun(x,y),xlim=c(-pi,pi),ylim=c(-pi,pi),n=c(50,50),

colvec <- colorRampPalette(c("pink","white","lightblue"))(100)
pts <-   data.frame(x=c(2,2,2), y=c(-2,-2,-2), z=c(.5,0,-.5))

enter image description here

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.