Say I have a function for subsetting (this is just a minimal example):

f <- function(x, ind = seq(length(x))) {

(Note: one could use only seq(x) instead of seq(length(x)), but I don't find it very clear.)

So, if

x <- 1:5
ind <- c(2, 4)
ind2 <- which(x > 5) # integer(0)

I have the following results:

[1] 1 2 3 4 5
f(x, ind)
[1] 2 4
f(x, -ind)
[1] 1 3 5
f(x, ind2)
f(x, -ind2)

For the last result, we would have wanted to get all x, but this is a common cause of error (as mentionned in the book Advanced R).

So, if I want to make a function for removing indices, I use:

f2 <- function(x, ind.rm) {
  f(x, ind = `if`(length(ind.rm) > 0, -ind.rm, seq(length(x))))

Then I get what I wanted:

f2(x, ind)
[1] 1 3 5
f2(x, ind2)
[1] 1 2 3 4 5

My question is: Can I do something cleaner and that doesn't need passing seq(length(x)) explicitly in f2 but using directly the default value of f's parameter ind when ind.rm is integer(0)?

  • 1
    Best practice would be not to use `if` like it was a function. – Hong Ooi Oct 14 '16 at 12:16
  • @HongOoi Yet, it is. – F. Privé Aug 9 '17 at 22:32
  • ind = if(length(ind.rm) > 0) -ind.rm else seq(length(x)) – Hong Ooi Aug 10 '17 at 23:50

If you anticipate having "empty" negative indices a lot, you can get a performance improvement for these cases if you can avoid the indexing used by x[seq(x)] as opposed to just x. In other words, if you are able to combine f and f2 into something like:

new_f <- function(x, ind.rm){
  if(length(ind.rm)) x[-ind.rm] else x

There will be a huge speedup in the case of empty negative indices.

n <- 1000000L
x <- 1:n
ind <- seq(0L,n,2L)
ind2 <- which(x>n+1) # integer(0)

  f2(x, ind),
  new_f(x, ind),
  f2(x, ind2),
  new_f(x, ind2)
all.equal(f2(x, ind), new_f(x, ind)) # TRUE - same result at about same speed
all.equal(f2(x, ind2), new_f(x, ind2)) # TRUE - same result at much faster speed

Unit: nanoseconds
           expr     min        lq        mean  median       uq      max neval
     f2(x, ind) 6223596 7377396.5 11039152.47 9317005 10271521 50434514   100
  new_f(x, ind) 6190239 7398993.0 11129271.17 9239386 10202882 59717093   100
    f2(x, ind2) 6823589 7992571.5 11267034.52 9217149 10568524 63417978   100
 new_f(x, ind2)     428    1283.5     5414.74    6843     7271    14969   100
|improve this answer|||||
  • This is good to know. I usually care a lot about performance. In this particular case, this is not something that I will call a lot of times. So 11ms is good for me. As in my comment to John's answer, I need this behaviour on 2 or 3 parameters, so using typical if-then-else statements would produce complex code. – F. Privé Oct 13 '16 at 19:54

What you have isn't bad, but if you want to avoid passing the default value of a default argument you could restructure like this:

f2 <- function(x, ind.rm) {
    `if`(length(ind.rm) > 0, f(x,-ind.rm), f(x))

which is slightly shorter than what you have.

On Edit

Based on the comments, it seems you want to be able to pass a function nothing (rather than simply not pass at all), so that it uses the default value. You can do so by writing a function which is set up to receive nothing, also known as NULL. You can rewrite your f as:

f <- function(x, ind = NULL) {
    if(is.null(ind)){ind <- seq(length(x))}

NULL functions as a flag which tells the receiving function to use a default value for the parameter, although that default value must be set in the body of the function.

Now f2 can be rewritten as

f2 <- function(x, ind.rm) {
    f(x, ind = `if`(length(ind.rm) > 0, -ind.rm, NULL))

This is slightly more readable than what you have, but at the cost of making the original function slightly longer.

|improve this answer|||||
  • could you explain the use of if with backticks here? Is this the same as ifelse? ?ifelse notes that: Further note that if(test) yes else no is much more efficient and often much preferable to ifelse(test, yes, no) whenever test is a simple true/false result, i.e., when length(test) == 1. – C8H10N4O2 Oct 13 '16 at 18:22
  • That is the syntax for R's if function (similar to ? : in C). The back-ticks are to distinguish it from the control-flow use of the keyword if). I actually don't use this version, but saw no reason to change OP's usage here. You are correct that it is like ifelse. – John Coleman Oct 13 '16 at 18:26
  • R's "ordinary" ifis itself a function. The backticks evidently denote a non-standard way of invoking this function. I suspect that under the hood if(test) yes else no is in some sense syntactic sugar for the back-ticked version. – John Coleman Oct 13 '16 at 18:38
  • @C8H10N4O2 As I used the if to get a value and pass this value as a parameter, I prefered using the backticks so that it is written as a function. In John's answer, using if-then-else is fine. ifelse is not really as if-then-else, and I usually try to not use it. Just check the result of ifelse(0 > 1, NULL, 1:5) to see what I mean. – F. Privé Oct 13 '16 at 19:18
  • @Coleman Your answer is good for the problem I presented. I wanted the minimal example to be as simple as possible, I should have been more precise. Actually, I subset on matrix-like objects so that I would have 4 cases (because I have indices for rows and columns), and 8 cases if I want the same behaviour on a third parameter. I would like something that say, parameter1 = if(cond1) then value1 else default_value_of_param and the same thing for parameter2 or any other parameters.. – F. Privé Oct 13 '16 at 19:23

To implement "parameter1 = if(cond1) then value1 else default_value_of_param1", I used formals to get default parameters as a call:

f <- function(x, ind.row = seq_len(nrow(x)), ind.col = seq_len(ncol(x))) {
  x[ind.row, ind.col]

f2 <- function(x, ind.row.rm = integer(0), ind.col.rm = integer(0)) {
  f.args <- formals(f)
    ind.row = `if`(length(ind.row.rm) > 0, -ind.row.rm, eval(f.args$ind.row)),
    ind.col = `if`(length(ind.col.rm) > 0, -ind.col.rm, eval(f.args$ind.col)))


> x <- matrix(1:6, 2)

> f2(x, 1:2)
     [,1] [,2] [,3]

> f2(x, , 1:2)
[1] 5 6

> f2(x, 1, 2)
[1] 2 6

> f2(x, , 1)
     [,1] [,2]
[1,]    3    5
[2,]    4    6

> f2(x, 1, )
[1] 2 4 6

> f2(x)
     [,1] [,2] [,3]
[1,]    1    3    5
[2,]    2    4    6
|improve this answer|||||

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.