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Is the -> operator in Clojure (and what is this operator called in Clojure-speak?) equivalent to the pipeline operator |> in F#? If so, why does it need such a complex macro definition, when (|>) is just defined as

let inline (|>) x f = f x

Or if not, does F#'s pipeline operator exist in Clojure, or how would you define such an operator in Clojure?

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4 Answers 4

up vote 24 down vote accepted

No, they are not the same. Clojure doesn't really have a need for |> because all function calls are enclosed in lists, like (+ 1 2): there's no magic you could do to make 1 + 2 work in isolation.1

-> is for reducing nesting and simplifying common patterns. For example:

(-> x (assoc :name "ted") (dissoc :size) (keys))

Expands to

(keys (dissoc (assoc x :name "ted") :size))

The former is often easier to read, because conceptually you're performing a series of operations on x; the former code is "shaped" that way, while the latter needs some mental unraveling to work out.

1 You can write a macro that sorta makes this work. The idea is to wrap your macro around the entire source tree that you want to transform, and let it look for |> symbols; it can then transform the source into the shape you want. Hiredman has made it possible to write code in a very Haskell-looking way, with his functional package.

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I see. Looks like thread operator is useful in Clojure just because the way Clojure syntax works but wouldn't be useful in F#. And vice versa with the pipeline operator. –  Dax Fohl May 26 '11 at 21:51
1  
Clojure in Action lists the name of these macros on page 50 and 51 as the "thread-first" (->) and "thread-last" (->>) macros, though the official documentation doesn't seem to give them actual names. –  Shawn Holmes Jan 2 '12 at 3:29

It is also worth noting that there is a ->> macro which will thread the form as the last argument:

(->> a (+ 5) (let [a 5] ))

The Joy of Clojure, chapter 8.1 talks about this subject a bit.

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It's called the "thread" operator. It's written as a macro as opposed to a normal function for performance reasons and so that it can provide a nice syntax - i.e. it applies the transformation at compile time.

It's somewhat more powerful than the |> operator you describe, as it's intended to pass a value through several functions, where each successive value is "inserted" as the first parameter of the following function calls. Here's a somewhat contrived example:

(-> [1]
     (concat [2 3 4])
     (sum)
     ((fn [x] (+ x 100.0))))
=> 110.0

If you want to define a function exactly like the F# operator you have described, you can do:

(defn |> [x f] (f x))

(|> 3 inc)
=> 4

Not sure how useful that really is, but there you are anyway :-)

Finally, if you want to pass a value through a sequence of functions, you can always do something like the following in clojure:

(defn pipeline [x & fns]
  ((apply comp fns) x))

(pipeline 1 inc inc inc inc)
=> 5
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1  
Why do you say -> is a macro "for performance reasons"? It's a macro because as a function it wouldn't work. –  amalloy Aug 18 '11 at 18:41
1  
You could achieve a similar result with (-> a #(...) #(...) #(...) ...) even if "->" was a function but it would be both slow and somewhat ugly to use :-) –  mikera Aug 18 '11 at 19:07
1  
(-> b (a c) quote) can never evaluate to (quote (a b c)) if it's not a macro, and there are other similar cases. The #(...) case would involve doing all the work that -> already does, manually instead; you'd just be making it into another version of comp. –  amalloy Aug 19 '11 at 1:13
1  
yeah I completely agree, you can't get exactly the same syntax without using a macro. My point was just that you can get the same functionality, albeit with more overhead. Either way I've added the syntactic point into the answer. –  mikera Aug 19 '11 at 10:43

When reading source code (especially when speaking), I always pronounce the -> operator as "thread-first", and the ->> operator as "thread-last".

Keep in mind that there is now an operator as-> which is more flexible than either -> or ->>. The form is:

(as-> val name (form1 arg1 name arg2)...)

The value "val" is evaluated and assigned to the symbol "name", which the user can place in ANY position in the following forms. We can mimic thread-first "->" like so:

user=> (-> :a (vector 1))
[:a 1]
user=> (as-> :a x (vector x 1) )
[:a 1]

We can mimic thread-last "->>" like so:

user=> (->> :a (vector 2))
[2 :a]
user=> (as-> :a x (vector 2 x) )
[2 :a]

Or, we can combine them in a single expression:

user=> (as-> :a x (vector x 1) (vector 2 x))
[2 [:a 1]]
user=> (as-> :a x (vector x 1) (vector 2 x) (vector "first" x "last"))
["first" [2 [:a 1]] "last"]
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