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?

`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