2

I would like to define some S4 generics dispatching on the ... argument such that the more specialized methods call the inherited method through callNextMethod(). However, as illustrated by the MWE, this fails with the following error.

# sample function which returns the number of its arguments
f <- function(...) length(list(...))

setGeneric("f")
## [1] "f"

setMethod("f", "character", function(...){ print("character"); callNextMethod() })
## [1] "f"

f(1, 2, 3)
## [1] 3

f("a", "b", "c")
## [1] "character"
## Error in callNextMethod(): a call to callNextMethod() appears in a call to '.Method', but the call does not seem to come from either a generic function or another 'callNextMethod'

This behavior doesn't seem right to me, but maybe I'm missing something here. I would expect the failing callNextMethod() to dispatch to the inherited default method function(...) length(list(...)) effectively returning:

## [1] "character"
## [1] 3

Any thoughts on this?

Update

Additionally, I've found the following difference in behavior between S4 methods dispatching on formal arguments and ones dispatching on .... Consider the following example where switching the signature from x to ... changes the way objects are resolved.

f = function(x, ..., a = b) {
  b = "missing 'a'"
  cat(a)
}

f()
## missing 'a'

f(a = 1)
## 1

setGeneric("f", signature = "x")

f()
## missing 'a'

setGeneric("f", signature = "...")

f()
## Error in cat(a) : object 'b' not found

According to ?dotsMethods the dispatch on ... is implemented differently, but as suggested in the last sentence, this shouldn't cause any differences in behavior compared to regular generics. However, the above findings seem to prove the opposite.

Methods dispatching on “...” were introduced in version 2.8.0 of R. The initial implementation of the corresponding selection and dispatch is in an R function, for flexibility while the new mechanism is being studied. In this implementation, a local version of setGeneric is inserted in the generic function's environment. The local version selects a method according to the criteria above and calls that method, from the environment of the generic function. This is slightly different from the action taken by the C implementation when “...” is not involved. Aside from the extra computing time required, the method is evaluated in a true function call, as opposed to the special context constructed by the C version (which cannot be exactly replicated in R code.) However, situations in which different computational results would be obtained have not been encountered so far, and seem very unlikely.

  • 2
    These issues will be resolved in the first patch release of R 3.4. – Michael Lawrence Apr 20 '17 at 21:45

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