Consider the function

f <- function(x, X) mean(c(x,X))

How can I automatically (by manipulation of f()) change the signature of f() such that it can be used with lapply(), i.e., without returning the following obvious error?

lapply(X=list(1), FUN=f, X=1)
Error in lapply(X = list(1), FUN = f, X = 1) : 
  formal argument "X" matched by multiple actual arguments

The approach I used so far is to remove all arguments from f(), assign them into an environment, and evaluatef() in that environment.

integrateArgs <- function (f, args) 
    form <- formals(f)
    if (!is.null(form)) 
        for (i in seq_along(form)) assign(names(form)[i], form[[i]])
    if (!is.null(args)) 
        for (i in seq_along(args)) assign(names(args)[i], args[[i]])
    ff <- function() {
    parent.env(environment(ff)) <- parent.env(environment(f))
    body(ff) <- body(f)
    if (any(names(form) == "...")) 
        formals(ff) <- form[names(form) == "..."]
fnew <- integrateArgs(f, list(x=1, X=4))
lapply(list(fnew), function(x) x())
[1] 2.5

However, that approach leads to the following error if f() is a function from another R package that calls compiled code.

fnew2 <- integrateArgs(dnorm, list(x=1, mean=4))
lapply(list(fnew2), function(x) x())
Error in x() (from #1) : object 'C_dnorm' not found

Are there better solutions?

  • Down voting the question without corresponding comment is not fair and not helpful ;-) – Florian Oct 12 at 3:42
  • 1
    You are writing to call lapply with two parameters named X=. (Did you want one of those to go to little x=?) That just doesn't seem possible given the language definition. If you are not willing to change the signature of f, I don't think there's anything you can do. – MrFlick Oct 12 at 3:55
  • This is obvious, you are right. However this is not what wanted to ask. I updated the question to make it more precise. – Florian Oct 12 at 4:07
  • 1
    You will never be able to type the line lapply(X=list(1), FUN=f, X=1) and have it work because there are two X=. So if that's a requirement, we're stuck. The reason to change f would be so that it doesn't have a parameter named X=. Maybe a bit more clarification and a proper reproducible example would help for testing? – MrFlick Oct 12 at 4:15
  • 1
    It looks like you are trying to create a partial function. That's basically what purrr's partial() function will do. The only catch is that it doesn't like a list of arguments, it wants them as parameters. But you can use to take care of that. integrateArgs <- function(f, args) {, c(list(f), args))} seems to work in this case. – MrFlick Oct 12 at 15:29
up vote 0 down vote accepted

As suggested in a comment by MrFlick, one solution is

integrateArgs <- function(f, args){, c(list(f), args))
fnew2 <- integrateArgs(dnorm, list(x=1, mean=4))
lapply(list(fnew2), function(x) x())
[1] 0.004431848

The following similar approach does not require the package purrr:

integrateArgs <- function(f, args){, ...) {
        eval(call("function", NULL,
                  substitute(f(...))), envir = environment(f))}, 
        c(f = list(f), args))
fnew2 <- integrateArgs(dnorm, list(x=1, mean=4))
lapply(list(fnew2), function(x) x())
[1] 0.004431848

A similar approach is now used in optimParallel version 0.7-4 to execute functions in parallel using parallel::parLapply():

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