5

Consider the following code:

> A <- matrix(1:12, ncol=4)
> colnames(A) <- letters[1:4]
> class(A) <- c("foo", "matrix")

when A is subset, it loses the "foo" class label:

> class(A[1:2,])
[1] "matrix"

The same happens with vectors. Yet, the same doesn't happen with data.frames:

> B <- as.data.frame(A)
class(B) <- c("foo", "data.frame")
> class(B[1:2,])
[1] "foo"        "data.frame"

And usually, applying generic functions to objects preserves the class attribute. Not for matrix/numeric/integer objects. Why? And can this behavior be avoided?

7

data.frames have their own subset method [.data.frame, which takes care of the class for you. I'm not sure why the Primitive doesn't preserve the class, but it's pretty straight-forward to create your own subset method.

`[.foo` <- function(x, i, j, ...) {
  y <- unclass(x)[i,j,...]
  class(y) <- c("foo",class(y))
  y
}
class(A[1:2,])
# [1] "foo"    "matrix"

EDIT:
As others have mentioned, NextMethod should be used here.

`[.foo` <- `[.bar` <- function(x, i, j, ...) {
  y <- NextMethod(.Generic)
  class(y) <- .Class
  y
}
  • Thanks. I thought that adding a method for '[<-' would be an option. I would use the following: '[.foo' <- function(x, i, j, ...) {y <- unclass(x);[i,j,...]; class(y) <- class(x) y} because it works also if class(A) is c("boo","bar", "matrix"). – gappy Sep 23 '11 at 20:58
  • 1
    Better to use NextMethod than unclasssing, which makes a copy – hadley Sep 24 '11 at 12:06

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