Is difference between foldl and foldr just direction of looping? I thought there difference in what they did, not just direction?

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I'm curious what you were reading that confused you. A link might have made the question more clear. Looks like @AndrewC has a quality answer for you though. –  Jamey Sharp Nov 7 '12 at 23:51
You'll also find a very nice answer here stackoverflow.com/questions/3082324/… –  Jerome Nov 8 '12 at 1:45
the difference is that their argument functions have their arguments order respectively flipped: the one fit for `foldl` combines result with list element type; and one for `foldr` combines list element type with result. –  Will Ness Nov 12 '12 at 16:43
@WillNess a difference is that the accumulating functions have flipped types. `foldr f` doesn't have to be `foldl (flip f)` –  AndrewC Nov 13 '12 at 21:42
@AndrewC thank you, that's what I meant, yes. –  Will Ness Nov 14 '12 at 6:51

There's a difference if your function isn't associative (i.e. it matters which way you bracket expressions) so for example,
`foldr (-) 0 [1..10] = -5` but `foldl (-) 0 [1..10] = -55`.
On a small scale, this is because `1-(2-(3-4))` isn't the same as `((1-2)-3)-4`.

Whereas because `(+)` is associative (doesn't matter what order you add subexpressions),
`foldr (+) 0 [1..10] = 55` and `foldl (+) 0 [1..10] = 55`. `(++)` is another associative operation because `xs ++ (ys ++ zs)` gives the same answer as `(xs ++ ys) ++ zs` (although the first one is faster - don't use `foldl (++)`.

Some functions only work one way:
`foldr (:) :: [a] -> [a] -> [a]` but `foldl (:)` is nonsense.

Have a look at Cale Gibbard's diagrams (from the wikipedia article); you can see `f` getting called with genuinely different pairs of data:

Another difference is that because it matches the structure of the list, `foldr` is often more efficient for lazy evaluation, so can be used with an infinite list as long as `f` is non-strict in its second argument (like `(:)` or `(++)`). `foldl` is only rarely the better choice. If you're using `foldl` it's usually worth using `foldl'` because it's strict and stops you building up a long list of intermediate results. (More on this topic in the answers to this question.)

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It's associativity which matters, not commutativity. I could multiply matrices with foldr and foldl and this would give the same result. –  Alexandre C. Nov 7 '12 at 23:55
@AlexandreC. True. Oops. Edited. Thanks. (I used Strings instead of Matrices as the example though as they're more commonly used.) –  AndrewC Nov 8 '12 at 0:03
Another difference, related to the last point, is that `foldl` can never return if given an infinite list, whereas `foldr` will if given a function that is non-strict in its second argument (such as `(:)` or `const`, ...) –  luqui Nov 8 '12 at 2:41
some sidenotes: [1] another way to talk about it is to mention type asymmetry of `(:) :: a->[a]->[a]` or `flip (:) :: [a]->a->[a]` which dictates the only possible order of combination. [2] `scanl` is somewhere "between" foldl and foldr, combining the "looping from the left" with possibility to stop early. –  Will Ness Nov 12 '12 at 17:10
There's a semantic not just syntactic difference, though: `foldr (:) "!" "Hello"` is `"Hello!"` whereas `foldl (flip (:)) "!" "Hello"` is `"olleH!"` –  AndrewC Nov 13 '12 at 21:38