# How can I write reverse by foldr efficiently in Haskell?

Note that the trivial solution

``````reverse a = foldr (\b c -> c ++ [b] ) [] a
``````

is not very efficient, because of the quadratic growth in complexity. If have tried to use the usual foldl to foldr conversion (blindly), but my attempt

``````foldr (\b g x -> g ((\x old -> x:old) x b)) id list []
``````

did not work as I expected.

-

Try this:

``````reverse bs = foldr (\b g x -> g (b : x)) id bs []
``````

Though it's usually really better to write it using `foldl`:

``````reverse = foldl (flip (:)) []
``````
-
Hi FUZxxl, could you please explain, why and how that works? –  Chris Oct 23 '11 at 7:13
Chris: Let's just say: The accumulator has type [a] -> [a]. It's basically building up a lot of encapsulated lambdas, that add the list's elements to the front of what's passed - []. –  FUZxxl Oct 23 '11 at 7:59
@Chris I personally prefer it in point-free notation, it is more readable (to me) that way: `reverse xs = foldr f id xs [] where f x r = r . (x:)`. So when the result of `foldr f id xs` is finally applied on `[]`, the `f x1 r1` is called, which produces `r1 . (x1:) \$ []` at which point `r1` is forced. In the end the whole chain `id.(xn:). ... .(x2:).(x1:)` is applied to `[]`. This uses the standard Haskell way of encoding the open-ended (aka "difference-") lists as chains of list-producing functions, `:: [a] -> [a]`. Same is used in `Data.Sequence` I believe. –  Will Ness Feb 13 '12 at 9:07

Consider the following:

``````foldr (<>) seed [x1, x2, ... xn] == x1 <> (x2 <> (... <> (xn <> seed)))
``````

Let's just "cut" it into pieces:

``````(x1 <>) (x2 <>) ... (xn <>)  seed
``````

Now we have this bunch of functions, let's compose them:

``````(x1 <>).(x2 <>). ... .(xn <>).id \$ seed
``````

`((.), id)` it's `Endo` monoid, so

``````foldr (<>) seed xs == (appEndo . foldr (mappend.Endo.(<>)) mempty \$ xs) seed
``````

For left fold we need just `Dual` monoid.

``````leftFold (<>) seed xs = (appEndo . getDual . foldr (mappend . Dual . Endo . (<>)) mempty \$ xs) seed
``````

`(<>) = (:)` and `seed = []`

``````reverse' xs = (appEndo . getDual . foldr (mappend . Dual . Endo . (:)) mempty \$ xs) []
``````

Or simple:

``````reverse' xs = (appEndo . foldr (flip mappend . Endo . (:)) mempty \$ xs) []
reverse' xs = (foldr (flip (.) . (:)) id \$ xs) []
reverse' = flip (foldr (flip (.) . (:)) id) []
``````
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``````foldl (\acc x -> x:acc) [] [1,2,3]