# Transducer's init not called

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])
``````

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, 2018 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. Feb 19, 2018 at 4:00
• A note: I realised today that you mentioned `(f)` while the real question is about calling `(xform)`. May 22, 2018 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? May 22, 2018 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. May 23, 2018 at 5:45