R 4.1.0 famously introduced the |> ("base pipe") operator and Haskell-like lambda function syntax.

I thought it would be possible to combine the two like this:

c(1, 2, 3) |> \(x) 2 * x

This fails for me with:

Error: function 'function' not supported in RHS call of a pipe

I thus assume this is not valid syntax? This works:

c(1, 2, 3) |> (\(x) 2 * x)()

Is there a more elegant way to chain the pipe and the new lambda functions?

  • This tweet here compiles a list of options how the pipe can be combined with lambda functions: twitter.com/bmwiernik/status/1398611489901121536?s=09
    – nevrome
    Commented May 30, 2021 at 11:00
  • 3
    What is the rationale for this design decision? (i.e., given that the parser can tell that there is a function in the RHS call of a pipe, why doesn't the parser just assume that we would want to apply the function to the left hand side even without parentheses?)
    – bryn
    Commented Jun 24, 2021 at 0:30

3 Answers 3


I think the most elegant way is with curly braces:

c(1, 2, 3) |> {\(x) 2 * x}()

but this works too:

c(1, 2, 3) |> (\(x) 2 * x)()

That's the limitation of native pipe. You just include () after the function name, this is different from magrittr.

# native pipe
foo |> bar()
# magrittr pipe
foo %>% bar

That is to say, \(x) 2*x is equivalent to the old anonymous function syntax function (x) 2*x, but similar to named functions, when used on the RHS of native pipe, you must include ().

  • 3
    I see - I hoped for an even more concise syntax, but I'm sure the limitations are there for a reason.
    – nevrome
    Commented May 21, 2021 at 8:36

Another reasonable approach would be:

c(1, 2, 3) |> sapply(\(x) 2 * x)
  • 1
    this is a bad practice. Most of R functions are vectorized by its nature and you should strive to keep this. In your example you force the execution to be applied by individual elements. So eventually decreasing the perfomance of the lambda function you defined Commented Mar 11 at 19:15
  • I agree in this simple case where vectorization applies, but in other cases individual application could be what you need (I was thinking more generally). But I think the main point here is that all the solutions are "ugly", because the clean syntax is not supported.
    – mrbrich
    Commented Apr 16 at 17:36
  • I don't like how the other options look like, too. This is my preferences and nothing more. But this option is dangerous since it rejects the vectorization paradigm silently. It's especially harmful for the beginners who don't know the difference between scalar and vector functions. Sometimes you have to use scalar functions, but let's be honest, this is a very rare case. Commented Apr 23 at 18:34

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