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Is it possible to chain functions in R?

Sample data:

m <- matrix(c(1:10, 11:20), nrow = 10, ncol = 2)

For example, I would like to replace the following statements below:

step1 <- mean(m)
step2 <- sum(step1)
res <- step2


res <- sum(mean(m))

With something like this :

res <- m@mean()@sum()

In some cases, that would clarify my code considerably.

EDIT1 This is a dummy example. I randomly picked 'sum' and 'mean'.

Ben has given a first piece of answer using %@% however, it prevents from using extra arguments within functions :

m %@% function1(arg1, arg2) %@% function2(arg1, arg2)

How can I work around that ?

EDIT2 Adding an example

xts.ts <- xts(rnorm(231),as.Date(13514:13744,origin="1970-01-01"))
plot(na.omit(lag( rollapply(xts.ts, width=rolling.per-1, FUN= function(x){sqrt(var(x))*sqrt(252)}), k=1)), main = "Dummy Example")

This example seems to work fine with Charles solution :

`%@%` <- function(x, f) eval.parent(as.call(append(as.list(substitute(f)), list(x), 1)))
xts.ts %@% rollapply( width = rolling.per-1, FUN= function(x) x%@%var%@%sqrt * sqrt(252) ) %@% lag( k=1) %@% na.omit %@% plot(main = "Dummy Example")

Less important to my case, but woth mentioning, the following statment fails with Charles's solution :

 xts.ts %@% names <- 'ts name' 
share|improve this question
What's wrong with res <- sum(mean(m))? –  Richie Cotton Jul 4 '12 at 14:21
Nothing, but it doesn't make to much sense to take the sum of a length 1 vector (which is what is returned by mean on a matrix). –  Henrik Jul 4 '12 at 14:27
Although it will be going away "soon", there is still a mean.data.frame function that returns a vector. –  BondedDust Jul 4 '12 at 14:38
With a lot of function and arguments, I found it heavy where IMO method chaining may improves readability and reduces the amount of source code. But you're right, nothing wrong with res <- sum(mean(m)) –  Sam Jul 4 '12 at 16:37
FYI this style of programming is called point-free (or sometimes pointless!). There are a few notes on it at github.com/hadley/devtools/wiki/… –  hadley Jul 26 '13 at 15:07

4 Answers 4

up vote 4 down vote accepted

In a similar vein to Ben's answer, but allowing arguments:

`%@%` <- function(x, f) eval.parent(as.call(append(as.list(substitute(f)), list(x), 1)))

x %@% mean %@% sqr # => 6.25
c(1, 2, NA, 3, 4) %@% mean(na.rm=T) %@% sqr # => 6.25
m %@% colMeans() %@% sum() # => 21
share|improve this answer
thanks, that's a great function! –  Sam Jul 5 '12 at 9:35
To get the last one to work you'd need to use either names<- or setNames, eg xts.ts %@% setNames('ts name'), as <- has special handling for lhs function call that won't work here. –  Charles Jul 8 '12 at 23:55
I hadn't seen this before. It's super-clever. I'd be very afraid to use it in production code because of the chances that it would be fragile ... –  Ben Bolker Feb 21 '13 at 20:19
I wouldn't want to use this in code - production or otherwise! Regardless of whether this is a good idea or not, what I like about R is that this kind of thing is possible. I can see how it would look more familiar to someone who is used to the common OO object.verb() instead of R's verb(object). –  Charles Feb 21 '13 at 23:13

Try the functional package:

> library(functional)
> squared <- function(x)x*x
> Compose(sum, squared)(m)
[1] 44100
> squared(sum(m))
[1] 44100


In response to the question in the comments of another response about arguments here is an example of composing with arguments. Curry is also from the functional package:

> addn <- function(n, x) x + n
> Compose(Curry(addn, 1), squared)(10)
[1] 121
> squared(addn(1, 10))
[1] 121


In response to question about debugging, debug works if the function is curried. If its not already curried then wrap it in Curry :

# this works since addn is curried
Compose(Curry(addn, 1), squared)(10)

# to debug squared put it in a Curry -- so this works:
Compose(Curry(addn, 1), Curry(squared))(10)
share|improve this answer
I thought the gsubfn-package could do something like that, at least the postfix syntax of env@fn? –  BondedDust Jul 4 '12 at 19:37
@DWin, Good point. In gsubfn we could do this: Compose(fn$identity(~ addn(1, x)), squared)(10) . Of course even without gsubfn we could do this: Compose(function(x) addn(1, x), squared)(10) –  G. Grothendieck Jul 4 '12 at 19:44
@G.Grothendieck, it works but I do not think it gives you the usual advantages of fluent interface (en.wikipedia.org/wiki/Fluent_interface) as some other object oriented languages would. Furthermore, I believe it does not make easy to debbug part of a statment. –  Sam Jul 5 '12 at 9:57
@Sam, debug works if function is in a Curry. See EDIT 2 . –  G. Grothendieck Jul 5 '12 at 14:52

Sort of, but I think it's un-idiomatic and maybe fragile/not a good idea. (This is implied, I think, by @RichieCotton's comment above.)

From http://cran.r-project.org/doc/manuals/R-lang.html :

10.3.4 Special operators

R allows user-defined infix operators. These have the form of a string of characters delimited by the ‘%’ character. The string can contain any printable character except ‘%’. The escape sequences for strings do not apply here.

Note that the following operators are predefined

 %% %*% %/% %in% %o% %x%
"%@%" <- function(x,f) {

sqr <- function(x) x^2
x <- 1:4

x %@% mean  ## 2.5
x %@% mean %@% sqr  ## 6.25
x %@% (mean %@% sqr)  ## fails

Given m as defined above -- maybe what you had in mind?

 m %@% colMeans %@% sum  ## 21


  • your example is a bit funny, because mean(x) always returns a scalar (i.e. a length-1 vector), so sum(mean(x)) is always going to be the same as mean(x)
  • the infix operators have to be surrounded by %, so you can't have anything as compact as a single symbol (and %% is taken already).
  • this sort of chaining is non-associative, which worries me -- it seems that the examples above work, so R is (apparently) evaluating left-to-right, but I don't know that that's guaranteed ...

edit: the question now asks how additional arguments can be incorporated. I don't think the syntax suggested (x %@% fun1(arg1) %@% fun2(arg2)) will work without some serious magic. This is the closest I can get at the moment -- creating a wrapper function that creates a modified version of the original function.

F <- function(f,...) {
    function(x) {


pow <- function(x,b=2) { x^b }
sqr <- function(x) x^2
x <- 1:4

x %@% F(mean,na.rm=TRUE)  ## 2.5
x %@% F(mean,na.rm=TRUE) %@% F(pow,3)  ## 16.25

(Note that I have used F as a function here, which may be dicey in some situations because it overwrites the F==FALSE shortcut)

share|improve this answer
Seems to be a work around but it may just do the trick fine! How would you suggest to modify the %@% operator so I can add arguments ? For instance : m %@% function1(arg1, arg2) % function2(arg1, arg2) –  Sam Jul 4 '12 at 17:04
What is with "%@%" <- function(f,...) f(...)? With this all arguments should be passed to f, even named arguments. (note: untested) –  Henrik Jul 4 '12 at 18:08
@Sam, can you give me an specific example of what you want to do and what results it should produce? Your syntax won't work exactly as written because function1(arg1,arg2) is not in general a function. I think @Henrik's idea may not work, because we have to be careful to keep the arguments in the right order ... f should be the second argument in order to get the operation in the correct left-to-right order ... –  Ben Bolker Jul 4 '12 at 18:19
@Henrik I was not able to use your function, there is something I do not understand. –  Sam Jul 5 '12 at 9:16
@Ben : the argument order may be an issue. I will edit my question to add an example. –  Sam Jul 5 '12 at 9:17

I would use the magrittr package. It has a "pipe" operator that takes the result of one function and passes it in as the first argument to the next:

m <- matrix(c(1:10, 11:20), nrow = 10, ncol = 2)

m %>% mean %>% sum

Ceci n'est pas un pipe!

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