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've been writing a number of functions on arrays in R that are of an image-processing type.

What this means is that the functions operate on:

  • a n by m by 3 array (colour), or
  • an n by m (by 1) array (greyscale).

The thing is, greyscale images are 2-dimensional: dim(ary) is c(n,m). By contrast, colour images are 3-dimensional: dim(ary) is c(n,m,3).

At the moment my functions all have something like (following example is contrived but demonstrates my problem):

f <- function(img)
    if ( length(dim(img)) == 2 )
        return( img[1:10,] )
        return( img[1:10,,] )   # Note the extra comma to select all 3D slices?

That is, I always have to include a check to say "if it's a two-dimensional array then don't put in the extra comma that indicates "everything in the third dimension"".

Is there some way I can get around this? Since a 2-dimensional array is really a 3-dimensional array with dim(ary) = c(n,m,1), it'd be great to use the same subsetting syntax for both.

Is there some way I can tell R "if I add in one too many commas in the indexing, you should assume that is a singleton dimension" ?

(I suppose I could do the reshaping myself via dim(img) <- c(dim(img),1), but that still requires me to check that length(dim(img))==2 and I'd like know if there's away to avoid this check at the start of every function.

share|improve this question
FWIW, there is a lot of support in R for greyscale and RGB images, see ?as.raster in grDevices, also the pixmap, sp, rgdal, raster, and other packages –  mdsumner Feb 15 '12 at 3:51
I know, I'm writing image processing functions that make use of these packages (particularly grid/grDevices/raster/pixmap). –  mathematical.coffee Feb 15 '12 at 5:08

1 Answer 1

One approach would be to put a class on your objects -- either grey or colour -- and then the subscripting function for 'grey' objects can just ignore the last dimension. The [ method for the colour objects need not even exist.

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.