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 a raster file 'airtemp' and a polygon shapefile 'continents'. I'd like to superimpose the 'continents' on 'airtemp', so the boundary of 'continents' is visible on top of 'airtemp'. I plot the raster file by levelplot (lattice). I read the polygon by readShapeSpatial (maptools) first and then plot.

The problem is levelplot and plot have different scales. Plot tends to have smaller frame. Sorry I don't have a reproducible sample, but I feel this is a rather common issue for geophysicists. I've found a similar question here:

http://r.789695.n4.nabble.com/overlaying-a-levelplot-on-a-map-plot-td2019419.html

but I don't quite understand the solution.

share|improve this question
1  
The answer say , that levelplot is a lattice function, plot is a base one, very hard to mix base and grid graphics. –  agstudy Jul 11 '13 at 2:29

2 Answers 2

You can overlay the shapefile using the +.trellis and layer functions from the latticeExtra package (which is automatically loaded with rasterVis).

library(raster)
library(rasterVis)

Let's build some data to play. You can skip this part if you already have a raster file and a shapefile.

library(maps)
library(mapdata)
library(maptools)

## raster
myRaster <- raster(xmn=-100, xmx=100, ymn=-60, ymx=60)
myRaster <- init(myRaster, runif)

## polygon shapefile
ext <- as.vector(extent(myRaster))

boundaries <- map('worldHires', fill=TRUE,
    xlim=ext[1:2], ylim=ext[3:4],
    plot=FALSE)

## read the map2SpatialPolygons help page for details
IDs <- sapply(strsplit(boundaries$names, ":"), function(x) x[1])
bPols <- map2SpatialPolygons(boundaries, IDs=IDs,
                              proj4string=CRS(projection(myRaster)))

Now you plot the raster file with rasterVis::levelplot, the shapefile with sp::sp.polygons, and the overall graphic is produced with +.trellis and layer.

levelplot(myRaster) + layer(sp.polygons(bPols))

overlay with transparent color

sp.polygons uses a transparent color as default for fill, but you can change it:

levelplot(myRaster) + layer(sp.polygons(bPols, fill='white', alpha=0.3))

overlay with white color

share|improve this answer

As per this discussion, here is one way of doing this: it consists in breaking the SpatialPolygonsDataFrame into one single matrix of polygons coordinates separated by NAs. Then plotting this on the levelplot using panel.polygon.

library(maptools)
a <- matrix(rnorm(360*180),nrow=360,ncol=180) #Some random data (=your airtemp)
b <- readShapeSpatial("110-m_land.shp") #I used here a world map from Natural Earth.

And that's where the fun begins:

lb <- as(b, "SpatialPolygons")
llb <- slot(lb, "polygons")
B <- lapply(llb, slot, "Polygons") #At this point we have a list of SpatialPolygons
coords <- matrix(nrow=0, ncol=2)
for (i in seq_along(B)){
    for (j in seq_along(B[[i]])) {
        crds <- rbind(slot(B[[i]][[j]], "coords"), c(NA, NA)) #the NAs are used to separate the lines
        coords <- rbind(coords, crds)
        }
    }
coords[,1] <- coords[,1]+180 # Because here your levelplot will be ranging from 0 to 360°
coords[,2] <- coords[,2]+90 # and 0 to 180° instead of -180 to 180 and -90 to 90

And then comes the plotting:

levelplot(a, panel=function(...){
                        panel.levelplot(...)
                        panel.polygon(coords)})

The idea in lattice is to define the plotting functions in argument panel(see ?xyplot for a complete explanation on the subject). The function for the levelplot itself is levelplot.

enter image description here

Of course, in your case, it seems way simpler to plot this using base graphics:

image(seq(-180,180,by=1),seq(-90,90,by=1),a)
plot(b, add=TRUE)

enter image description here

share|improve this answer

Your Answer

 
discard

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.