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 library(akima) 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.
library(latticeExtra) ## uses deldir to compute delaunay tiles, SLOW levelplot(z~x*y, data=d, panel = function(...) panel.voronoi(..., points=FALSE), interpolate=TRUE, 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.
library(spatstat) W <- ripras(df, shape="rectangle") W <- owin(c(0, 30), c(0, 30)) ## create point pattern X <- as.ppp(d, W=W) plot(X) ## generate tiles Y <- delaunay(X) plot(Y) library(maptools) ## 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)))
Suggestions welcome, thanks.