5

I am writing a custom transducer as an exercise, but I am surprised to see that its 0-arity init function is not called.

Why?

Is it related to which aggregation function I am using? If yes, which ones would call the init function and why others are not?

(defn inc-xf [xf]
  "inc-xf should be equivalent to (map inc)"
  (fn
    ;; init
    ([]
     (println "init") ;; <- this is not called (???)
     (xf))

    ;; step
    ([result input]
     (println "step" result input)
     (xf result (inc input)))

    ;; completion
    ([result]
     (println "completion" result)
     (xf result))))

(transduce inc-xf
           +
           100
           [5 5 5])
5

If you look at the implementation of transduce you can see what happens.

(defn transduce
  ;; To get the init value, (f) is used instead of ((xform f))
  ([xform f coll] (transduce xform f (f) coll))
  ([xform f init coll]
   ,,,))

Why, however, is more difficult to answer.

Transducers implementing the zero arity is part of the requirements for a transducer, but it is never actually used in any transducing context in clojure.core. On the mailing list there's been a post asking the same question as you and proposal of an implementation of transduce that actually uses the init arity. The jira ticket was declined, however, with the explanation:

Rich asked me to decline the ticket because the init arity of the xform should not be involved in the reducing function accumulation. - Alex Miller

Why, then, is the init arity part of the contract for a transducer if it's not used anywhere? ¯\_(ツ)_/¯

  • I suppose one benefit of having transducers provide a (pass-through) init arity is to enable transforming reducing functions directly, for example (r/fold (inc-xf +) coll) … In any case many reducing functions have a 0-arity that provides some initial ‘identity’ value (+, conj) and a transducer must provide that same arity if it is to fulfil its general purpose of ‘transforming one reducing function to another’. – glts Feb 18 '18 at 20:55
  • Thank you for all this additional information. IMHO, for the implementor of a transducer, it is hard to do anything useful in the init 0-arity while not knowing for sure if it is going to be called. And if the transducer knows that information from the context, it is not fully decoupled. – Vincent Cantin Feb 19 '18 at 4:00
  • A note: I realised today that you mentioned (f) while the real question is about calling (xform). – Vincent Cantin May 22 '18 at 1:22
  • @Vincent I'm not sure what you mean. I am referring to the fact that (f) is called in the current implementation, while I (and you judging by the question) would expect ((xform f)) to be called. Could you elaborate? – madstap May 22 '18 at 17:28
  • Sure. (xform f) and (f) have different purposes, (xform something) is meant to be called at the end of the transducing process. The question was about why the 0-arity (xform) was not called. – Vincent Cantin May 23 '18 at 5:45

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