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Working through Learn You a Haskell For Great Good, in the chapter on higher-order functions the author walks through an implementation of a few different library functions. When coming to the definition of filter' (a reimplementation of the standard library function filter), I thought that the obvious thing was this:

filter' f xs = [x | x <- xs, f x]

But the author gives the following longer, recursive definition:

filter' _ [] = []  
filter' p (x:xs)   
    | p x       = x : filter' p xs  
    | otherwise = filter' p xs

Both definitions do the same thing. Is there any reason for this? Is the recursive definition somehow more performant? Is it more idiomatic for Haskell? Something else?

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filter' can also be written in terms of the higher-order function foldr as in filter' p = foldr (\x ys -> if p x then x : ys else ys) [], although that would be a better example of a use of a higher order function than how to build one "from scratch". – hammar Jul 9 '11 at 18:00
See Haskell 2010 > Expressions > List Comprehensions if you are interested in how they desugar. – Dan Burton Jul 10 '11 at 2:29
up vote 11 down vote accepted

It's probably because the list comprehension is just syntactic sugar, which in principle is translated to the recursive form.

If the authors point is to illustrate how the function is implemented, using a list comprehension shortcut doesn't really do that - it shows an alternative way to express the solution, but not really a functional implementation.

In short, it's showing how to implement from a fairly minimal set of basic building blocks.

This is a guess, though - I haven't read that tutorial myself.

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List comprehension is pretty much sugar for a map and a filter in one operation; Although it may use concatMap in the backend. Generally using something of higher abstraction to implement something of lower abstraction is cheating.

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You can't implement list comprehensions in terms of just map and filter, you really need concatMap. – augustss Jul 9 '11 at 18:05
@augustss Why do you think I mentioned specifically that it uses concatMap? And what I was getting at is that filter is basically part of concatMap. – alternative Jul 9 '11 at 18:07
"may use" didn't sound like "must use". :) – augustss Jul 9 '11 at 18:12
@augustss Of course it doesn't have to use, you could reimplement the whole thing. – alternative Jul 9 '11 at 18:15
I think augustss's point here is that concatMap fully subsumes map and filter, as well as doing things that they can't, and that any reimplementation for creating list comprehensions will necessarily be equivalent to concatMap. – C. A. McCann Jul 9 '11 at 19:09

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