3

I am currently writing a method for an S4 class and I would like to get the call to the method as if it was a function and using match.call().

Here my minimal example of what I am doing:

setClass(
  Class = "AClass",
  representation = representation(
    name = "character"
  )
)

setGeneric("meth1", function(object, ...) {
  standardGeneric("meth1")
})

setMethod(
  f = "meth1",
  signature = "AClass",
  definition = function(object, method, ..., warnings = TRUE) {
    # ...
    print(match.call())

    return(NA)
})

With this definition I see:

> meth1(new("AClass"), method = "MClust")
.local(object = object, method = "MClust")
[1] NA
> meth1(new("AClass"), method = Mclust)
.local(object = object, method = ..1)
[1] NA

The questions are:

  1. Why when assigning a function to the argument 'method' the content got from match.call() for this argument is ..1 insetad fo "Mclust"?

  2. Why the 'function's name' got from match.call() is .local instead of meth1?

  3. How can I get "Mclust" from the variable method being in the function?

2
  • Can you clarify what you mean by question 3? Do you want to interpret the MClust symbol as a character? In other words, you want to allow your users to type in a MClust without having to quote it?
    – BrodieG
    Jan 13, 2015 at 16:30
  • In fact, you answered all the questions. What I want is to get the string "MClust" assigned to method.
    – carlesh
    Jan 13, 2015 at 16:34

1 Answer 1

2

There are some issues with how match.call works when there are ... involved and multiple layers of function calls. This is related to match.call searching through the lexical stack to find the ... to substitute, instead of the dynamic stack. I wrote a package to try to correct these issues:

devtools::install_github("brodieg/matchcall")  # <-- the package in question
library(matchcall)
setMethod(
  f = "meth1",
  signature = "AClass",
  definition = function(object, method, ..., warnings = TRUE) {
    # ...
    print(match.call())
    print(match_call())
    print(match_call(2))
    return(NA)
  })
meth1(new("AClass"), method = Mclust)

Produces:

.local(object = object, method = ..1)               # match.call
.local(object = object, method = Mclust)            # match_call(), my package
meth1(object = new("AClass"), method = Mclust)      # match_call(2), my package offset
[1] NA

So, to answer question 2, the reason you get .local is because there is a sequence of calls that eventually lead to the evaluation of the function you have defined, and that S4 stores that function as .local.

The answer to question 1 is complicated, but you can look at the details in the vignette included with my package. Note that internally in C code ... arguments have names ..1, ..2, etc (from R Internals):

Recall that the evaluation frame for a function initially contains the name=value pairs from the matched call, and hence this will be true for ... as well. The value of ... is a (special) pairlist whose elements are referred to by the special symbols ..1, ..2, … which have the DDVAL bit set: when one of these is encountered it is looked up (via ddfindVar) in the value of the ... symbol in the evaluation frame.

Re question 3, I don't understand it. Do you want to be able to put in an unquoted variable as the argument "method", and then interpret that as a character?

Note the package is currently only on github, but you may be able to use sys.calls to meet your needs. For example, if we run print(sys.calls()) within your method, we get:

[[1]]
meth1(new("AClass"), method = Mclust)

[[2]]
meth1(new("AClass"), method = Mclust)

[[3]]
.local(object, ...)

You can potentially work directly with that, but this will only work well provided that you fully specify argument names in the call (i.e. if someone does meth1(x, "blah"), you won't get the method= part of it in sys.calls. If you have multiple arguments or partially specified arguments (e.g. meth=X) then you'll have to do more work to match stuff (and that's exactly what match_call does).

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