I'm a bit surprised by R's behaviour in a very specific case. Let's say I define a function square that returns the square of its argument, like this:

square <- function(x) { return(x^2) }

I want to call this function within another function, and I also want to display its name when I do that. I can do that using deparse(substitute()). However, consider the following examples:

ds1 <- function(x) {

# [1] "square"

This is the expected output, so all is fine. However, if I pass the function wrapped in a list and process it using a for loop, the following happens:

ds2 <- function(x) {
  for (y in x) {

# [1] "function (x) "   "{"               "    return(x^2)" "}"  

Can anybody explain to me why this occurs and how I could prevent it from happening?


As soon as you use x inside your function, it is evaluated, so it "stops being an (unevaluated) expression" and "starts being its resulting values (evaluated expression)". To prevent this, you must capture x by substitute before you use it for the first time.

The result of substitute is an object which you can query as if it was a list. So you can use

x <- substitute(x)

and then x[[1]] (the function name) and x[[2]] and following (the arguments of the function)

So this works:

ds2 <- function(x) {
    x <- substitute(x)
    # you can do `x[[1]]` but you can't use the expression object x in a
    # for loop. So you have to turn it into a list first
    for (y in as.list(x)[-1]) {
## [1] "square"
## [1] "sum"
  • 1
    Amazing, thanks. Apparently, the technical term for this is a 'promise object'. While x is a promise, its elements (when assigned to y) are not promises anymore and therefore substitute returns a different value. – A. Stam Dec 20 '17 at 12:16

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