Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have data in the form (x, y, z) where x and y are not on a regular grid. I wish to display a 2D colormap of these data, with intensity (say, grey scale) mapped to the z variable. An obvious solution is to interpolate (see below) on a regular grid,

 d <- data.frame(x=runif(1e3, 0, 30), y=runif(1e3, 0, 30), z=runif(1e3, 0, 30))

 ## interpolate xy grid

 d2 <- with(d, interp(x, y, z, xo=seq(0, 30, length = 500),
                      yo=seq(0, 30, length = 500), duplicate="mean"))

 pal1 <- grey(seq(0,1,leng=500))
 with(d2, image(sort(x), sort(y), z, useRaster=TRUE, col = pal1))
 points(d$x, d$y, col=grey(d$z/max(d$z)), bg=grey(d$z/max(d$z)), pch=21)


However, this loses the information of the initial mesh, which is very fine or very rough at certain locations in my actual data. My preference would be for a delaunay tiling with triangles, which accurately displays the actual location and density of the original data points. I present below an example of this using latticeExtra::panel.voronoi.


 ## uses deldir to compute delaunay tiles, SLOW

 levelplot(z~x*y, data=d,
           panel = function(...) panel.voronoi(..., points=FALSE),
           col.regions = colorRampPalette(pal1)(1e3), cut=1e3)


This is fine, but:

  • I'd rather use ggplot2 than lattice

  • It is extremely slow in my real-life example (~1e5 points), and the calculation of the tesselation needs to be re-computed every time I update the graph.

Thus, I started to investigate other means of obtaining the polygons from the tesselation. spatstat seems a good candidate, possibly in conjunction with maptools. The part I'm missing is the link between the original z information and the order of the final polygons.


 W <- ripras(df, shape="rectangle") 
 W <- owin(c(0, 30), c(0, 30)) 

 ## create point pattern 
 X <- as.ppp(d, W=W) 

 ## generate tiles
 Y <- delaunay(X) 


 ## convert to spatial polygons
 Z <- as(Y, "SpatialPolygons") 
 ## polygons are not plotted in the original order
 plot(Z, col=grey(d$z/max(d$z)))

spatial polygons

Suggestions welcome, thanks.

share|improve this question
In the example above I have used Delaunay triangulation and Voronoi diagrams interchangeably -- of course they're not the same thing; what I'm really after is the Delaunay triangulation, I think (so that each triangle has a unique one-to-one correspondence with the original colour description). –  baptiste Apr 10 '11 at 19:34

1 Answer 1

up vote 2 down vote accepted

OK, dumb question. Delaunay triangulation (obviously...) produces more tiles than there are points; dirichlet(), however, produces the correct number of polygons, and in the original order, it's probably what I want.

d <- data.frame(x=runif(1e3, 0, 30), y=runif(1e3, 0, 30))
d$z = (d$x - 15)^2 + (d$y - 15)^2


W <- ripras(df, shape="rectangle") 
W <- owin(c(0, 30), c(0, 30)) 
X <- as.ppp(d, W=W) 
Y <- dirichlet(X) 
Z <- as(Y, "SpatialPolygons") 
plot(Z, col=grey(d$z/max(d$z)))


Further comments/simplifications are always welcome. In particular, I'm still unsure of the way to extract the polygons from this SpatialPolygons class.

Also if there's an easy way to produce the "correct" colors for the associated delaunay tesselation I'd like to hear it.

share|improve this answer
What do you mean by ""correct" colours"? Are you still trying to get the right grey shade attached to the right tile? If so, does the @plotOrder slot of Z help? By that I mean plot(Z, col=grey(d$z/max(d$z))[Z@plotOrder]) –  Gavin Simpson Apr 11 '11 at 7:47
Indeed, I tried this before I realised the real problem was that there are more delaunay tiles than z values. Try the above example with delaunay(), Y <- delaunay(X) Z <- as(Y, "SpatialPolygons") plot(Z, col=grey(d$z/max(d$z))[Z@plotOrder]) tiles get assigned the wrong color. I would need some kind of interpolation between adjacent tiles/points. –  baptiste Apr 11 '11 at 22:05

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.