# Why Clojure's reverse function returns a non-lazy sequence?

Why the designers of Clojure's reverse function decided that the returned sequence isn't a lazy one?
Clojure embraces lazy sequences usually.

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Surely it's because by definition, in order to reverse a sequence, you have to know what's at the other end in order to return what will become the first item in the reversed collection.

Hence, the sequence must be finite, and you'd have to evaluate it in order to use what lies at it's end.

Reverse doesn't make sense as an infinite sequence, (although it's fair to say that infinite sequences are not always a prerequisite for laziness).

If you are about to reverse a collection, then you already have it loaded in memory; it doesn't need to be calculated.

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What? You mean your computers only ever run forwards in time?! Ridiculous! (;-)) –  Donal Fellows Nov 20 '11 at 22:35
I got your point but maybe I'm missing something. Yes the sequence should has an end in order to be reverse-able, but why reverse function returns a non-lazy result? –  Chiron Nov 20 '11 at 22:40
@Chiron But have already read all of the end, there is no sense to delay. –  BLUEPIXY Nov 20 '11 at 22:43
From the Joy of Clojure: "The primary advantage of laziness in Clojure is that it prevents the full realization of interim results during a calculation" … "laziness guarantees that sequences won’t be fully realized in memory at any given step". In the case of a reversal, we have no interim results. It's all done in one move with a reduce & conj. –  Scott Lowe Nov 20 '11 at 22:57
>>> e.g. `(reduce conj () '(1 2 3))` => `(3 2 1)` –  Scott Lowe Nov 20 '11 at 23:03
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`rseq` returns a seq that traverse a collection in reverse order. It only works on reversible collections such as vector, sorted-set and sorted-map.

`reverse` will reverse any finite seq but does so at the cost of going through all the items and perpending them to a list. It is implemented as `(reduce conj () coll)`. This is obviously non-lazy.

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This explains "why" in terms of how it's implemented. It doesn't answer why this implementation is chosen, which I think is the real question. –  ivant Nov 25 '11 at 9:04
@ivant This implementation is chosen for its efficiency. You could build a lazy version of reverse which traverses the input seq numerous times up to the [(count-1)th, (count-2)th, (count-3)th, …] item as a lazy seq is consumed. But building a list in one go and returning it makes more sense. For collections that are reversible of course you should use rseq. –  Alexandre Jasmin Aug 19 '12 at 5:09