15

Is there a way to write pipelined functions in R where the result of one function passes immediately into the next? I'm coming from F# and really appreciated this ability but have not found how to do it in R. It should be simple but I can't find how. In F# it would look something like this:

let complexFunction x =
     x |> square 
     |> add 5 
     |> toString

In this case the input would be squared, then have 5 added to it and then converted to a string. I'm wanting to be able to do something similar in R but don't know how. I've searched for how to do something like this but have not come across anything. I'm wanting this for importing data because I typically have to import it and then filter. Right now I do this in multiple steps and would really like to be able to do something the way you would in F# with pipelines.

7

We can use Compose from the functional package to create our own binary operator that does something similar to what you want

# Define our helper functions
square <- function(x){x^2}
add5 <- function(x){x + 5}

# functional contains Compose
library(functional)

# Define our binary operator
"%|>%" <- Compose

# Create our complexFunction by 'piping' our functions
complexFunction <- square %|>% add5 %|>% as.character
complexFunction(1:5)
#[1] "6"  "9"  "14" "21" "30"


# previously had this until flodel pointed out
# that the above was sufficient
#"%|>%" <- function(fun1, fun2){ Compose(fun1, fun2) }

I guess we could technically do this without requiring the functional package - but it feels so right using Compose for this task.

"%|>%" <- function(fun1, fun2){
    function(x){fun2(fun1(x))}
}
complexFunction <- square %|>% add5 %|>% as.character
complexFunction(1:5)
#[1] "6"  "9"  "14" "21" "30"
  • Can we get rid of the two %% symbls in %|>% ? They look ugly and cumbersome. Or is there any pecularity for the %% in R? I can't find explanation in the documentation. – Nick May 14 '15 at 3:10
  • 1
    They're required. I don't know where it's mentioned in the documentation on how to go about defining these things but it's there somewhere. User defined binary infix operators will always have the form %something% – Dason May 14 '15 at 3:27
8

Here is a functional programming approach using Reduce. It is in fact an example from ?Reduce

square <- function(x) x^2
add_5 <- function(x)  x+5
x <- 1:5
## Iterative function application:
Funcall <- function(f, ...) f(...)

Reduce(Funcall, list(as.character, add_5, square,x), right = TRUE)
## [1] "6"  "9"  "14" "21" "30"

Or even more simply using the functional package and Compose

This is nice as it will create the function for you

library(functional)
do_stuff <-   Compose(square,add_5,as.character )
do_stuff(1:5)
##  [1] "6"  "9"  "14" "21" "30"

I note that I would not consider either of these approaches idiomatically R ish (if that is even a phrase)

5

I think that you might just want to write a function to do the steps you desire.

complexFunction <- function(x) {
    as.character(x^2 + 5)
}

Then just call complexFunction(x).


Edit to show what R is doing internally (@mnel) -- The way R parses the and evaluates as.character(x^2 + 5) does what you want

You can use codetools to investigate what R to see how the values are being passed to eachother

flattenAssignment(quote(as.character(x^2+5)))
[[1]]
[[1]][[1]]
x

[[1]][[2]]
`*tmp*`^2

[[1]][[3]]
`*tmp*` + 5


[[2]]
[[2]][[1]]
`as.character<-`(`*tmp*`, value = `*tmpv*`)

[[2]][[2]]
`+<-`(`*tmp*`, 5, value = `*tmpv*`)

[[2]][[3]]
`^<-`(x, 2, value = `*tmpv*`)

Or you can get the Lisp style representation to see how it is parsed (and the results passed)

showTree(quote(as.character(x^2+5)))
(as.character (+ (^ x 2) 5))
1

Since this question was asked, the magrittr pipe has become enormously popular in R. So your example would be:

library (magrittr)

fx <- function (x) {
     x %>%
     `^` (2) %>%
     `+` (5)  %>%
     as.character ()
     }

Note that the backquote notation is because I'm literally using R's built-in functions and I need to specially quote them to use them in this manner. More normally-named functions (like exp or if I'd created a helper function add) wouldn't need backquotes and would appear more like your example.

Note also that %>% passes the incoming value as the first argument to the next function automatically, though you can change this. Note also that an R function returns the last value calculated so I don't need to return or assign the calculation in order to return it.

This is a lot like the nice special operators defined by other answers, but it uses a particular function that's widely used in R now.

  • magrittr also provides aliases for commonly used functions, allowing you to pipe add instead of quoting + in backticks. See ?magrittr::extract for the full list. – Empiromancer Apr 13 '18 at 16:35
0

This works for R pretty similar in F#:

"%|>%" <- function(x, fun){
    if(is.function(x)) {
      function(...) fun(x(...))
    } else {
      fun(x)
    }
}

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.