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Is there a way to ensure that the box around a plot matches the raster extents exactly? In the following there is a gap above and below or to the left and right of the raster depending on the device proportions:

r = raster()
r[]= 1
plot(r, xlim=c(xmin(r), xmax(r)), ylim=c(ymin(r), ymax(r)))

One element of the problem with raster objects is that asp=1 to ensure proper display. The following basic scatterplot has the same issue when asp=1:

plot(c(1:10), c(1:10), asp=1)

Try vectorplot(r) from the rasterVis package to see what I want the axes to look like.


Solutions need to play nice with SpatialPoints overlays, not showing points outside the specified raster limits:


# Raster
r = raster()
r[]= 1

# Spatial points
x = c(-100, 0, 100)
y = c(100, 0, 100)
points = SpatialPoints(data.frame(x,y))

plot(r, xlim=c(xmin(r), xmax(r)), ylim=c(ymin(r), ymax(r)))
plot(points, add=T)
share|improve this question
Good question. I've wondered that that myself, recently, and am glad you thought to ask here. – Josh O'Brien Feb 17 '12 at 20:28
Interestingly, this renders perfectly on my R setup. I use R-2.11 64bit on Win7, and the yellow background completely fills the raster extents. – Martin Feb 22 '12 at 19:58
I'm R-2.13.1 Win7, x64. It fills the raster extent, but not the entire plotted box (the axes are larger than the extent). – Benjamin Feb 22 '12 at 20:32
up vote 11 down vote accepted

You'd probably do best to go with one of the lattice-based functions for plotting spatial raster objects provided by the raster and rasterVis packages. You discovered one of them in vectorplot(), but spplot() or levelplot() better match your needs in this case.

(The base graphics-based plot() method for "RasterLayer" objects just doesn't allow any easy way for you to set axes with the appropriate aspect ratio. For anyone interested, I go into more detail about why that's so in a section at the bottom of the post.)

As an example of the kind of plot that levelplot() produces:


## Create a raster and a SpatialPoints object.
r <- raster()
r[] <- 1:ncell(r)
SP <- spsample(Spatial(bbox=bbox(r)), 10, type="random")

## Then plot them    
levelplot(r, col.regions = rev(terrain.colors(255)), cuts=254, margin=FALSE) +
layer(sp.points(SP, col = "red"))

## Or use this, which produces the same plot.
# spplot(r, scales = list(draw=TRUE), 
#        col.regions = rev(terrain.colors(255)), cuts=254) +
# layer(sp.points(SP, col = "red"))

enter image description here

Either of these methods may still plot some portion of the symbol representing points that fall just outside of the plotted raster. If you want to avoid that possibility, you can just subset your SpatialPoints object to remove any points falling outside of the raster. Here's a simple function that'll do that for you:

## A function to test whether points fall within a raster's extent
inExtent <- function(SP_obj, r_obj) {
    crds <- SP_obj@coord
    ext  <- extent(r_obj)
    crds[,1] >= ext@xmin  &  crds[,1] <= ext@xmax &
    crds[,2] >= ext@ymin  &  crds[,2] <= ext@ymax
## Remove any points in SP that don't fall within the extent of the raster 'r'
SP <- SP[inExtent(SP, r), ]

Additional weedy detail about why it's hard to make plot(r) produce snugly fitting axes

When plot is called on an object of type raster, the raster data is (ultimately) plotted using either rasterImage() or image(). Which path is followed depends on: (a) the type of device being plotted to; and (b) the value of the useRaster argument in the original plot() call.

In either case, the plotting region is set up in a way which produces axes that fill the plotting region, rather than in a way that gives them the appropriate aspect ratio.

Below, I show the chain of functions that's called on the way to this step, as well as the call that ultimately sets up the plotting region. In both cases, there appears to be no simple way to alter both the extent and the aspect ratio of the axes that are plotted.

  • useRaster=TRUE

    ## Chain of functions dispatched by `plot(r, useRaster=TRUE)`
    getMethod("plot", c("RasterLayer", "missing"))
    ## Call within .rasterImagePlot() that sets up the plotting region
    plot(NA, NA, xlim = e[1:2], ylim = e[3:4], type = "n",
               , xaxs = "i", yaxs = "i", asp = asp, ...)
    ## Example showing why the above call produces the 'wrong' y-axis limits
    plot(c(-180,180), c(-90,90), 
         xlim = c(-180,180), ylim = c(-90,90), pch = 16,
         asp = 1,
         main = "plot(r, useRaster=TRUE) -> \nincorrect y-axis limits")
  • useRaster=FALSE

    ## Chain of functions dispatched by `plot(r, useRaster=FALSE)`
    getMethod("plot", c("RasterLayer", "missing"))
    ## Call within image.default() that sets up the plotting region
    plot(NA, NA, xlim = xlim, ylim = ylim, type = "n", xaxs = xaxs, 
         yaxs = yaxs, xlab = xlab, ylab = ylab, ...)
    ## Example showing that the above call produces the wrong aspect ratio
    plot(c(-180,180), c(-90,90), 
         xlim = c(-180,180), ylim = c(-90,90), pch = 16,
         main = "plot(r,useRaster=FALSE) -> \nincorrect aspect ratio")
share|improve this answer
Do you ever get striping when displaying raster with levelplot? – Benjamin Feb 23 '12 at 14:33
@Benjamin -- The only time I saw any striping was when I initially uploaded a pdf image of the above plot to SO, and was then viewing the result with my Firefox browser. Viewed with Adobe, the original pdf looks fine. In what formats are you saving the images, and with what are you viewing them? (I ask because this almost certainly likely has more to do with those factors than with anything about levelplot.) – Josh O'Brien Feb 23 '12 at 16:47
Even when displaying on screen I see striping. Saving to png or pdf has same issue. My raster is quite large, maybe it is leaving rows out? – Benjamin Feb 23 '12 at 17:27
@Benjamin -- FYI, I just now added an explanation of why I think there's no easy way to get the desired plot using plot(). I've tried to keep it as short as possible, and so put most of the info needed to track this down into the code blocks. Thanks again for asking this interesting and useful question. – Josh O'Brien Feb 23 '12 at 18:08
@Benjamin -- Depending on how large ncell(r) is, you might want to try setting the maxpixels argument higher than its default value of 1e5 (for levelplot()) or 50000 (for spplot()). Both functions include a preliminary step in which the full set of pixels is subsampled if it's larger than maxpixels. Please let me know if playing around with that setting solves the problem. – Josh O'Brien Feb 23 '12 at 18:12

Man, I got stumped and ended up just turning the foreground color off to plot. Then you can take advantage of the fact that the raster plot method calls fields:::image.plot, which lets you just plot the legend (a second time, this time showing the ink!). This is inelegant, but worked in this case:

    par("fg" = NA)
    plot(r, xlim = c(xmin(r), xmax(r)), ylim = c(ymin(r), ymax(r)), axes = FALSE)
    par(new = TRUE,"fg" = "black")
    plot(r, xlim = c(xmin(r), xmax(r)), ylim = c(ymin(r), ymax(r)), axes = FALSE, legend.only = TRUE)
    axis(1, pos = -90, xpd = TRUE)
    rect(-180,-90,180,90,xpd = TRUE)
    ticks <- (ymin(r):ymax(r))[(ymin(r):ymax(r)) %% 20 == 0]
    segments(xmin(r),ticks,xmin(r)-5,ticks, xpd = TRUE)
        title("sorry, this could probably be done in some more elegant way")

enter image description here

share|improve this answer
Thanks for the answer. Unfortunately, this does not work for me as I need to overlay SpatialPoints objects, which should be masked if located outside the raster extent. – Benjamin Feb 22 '12 at 20:59

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