Convert higher order function from Python to Haskell

I have the following code:

``````import operator

def stagger(l, w):
if len(l)>=w:
return [tuple(l[0:w])]+stagger(l[1:], w)
return []

def pleat(f, l, w=2):
return map(lambda p: f(*p), stagger(l, w))

if __name__=="__main__":
print pleat(lambda x, y, z: x*y/z, range(3, 13), 3)
print pleat(lambda x: "~%s~"%(x), range(10), 1)
print pleat(lambda a, b, x, y: a+b==x+y, [3, 2, 4, 1, 5, 0, 9, 9, 0], 4)
``````

Important part: Pleat takes any function and any sequence and passes the first handful of elements from that sequence into the received function as parameters.

Is there a way to do this in Haskell or am I dreaming?

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The type signatures below are optional:

```stagger :: [a] -> Int -> [[a]]
stagger l w
| length l >= w  =  take w l : stagger (tail l) w
| otherwise      =  []

pleat :: ([a] -> b) -> [a] -> Int -> [b]
pleat f l w = map f \$ stagger l w

main = do
print \$ pleat (\[x, y] -> x+y) [0..9] 2
print \$ pleat (\[x, y, z] -> x*y/z) [3..12] 3
print \$ pleat (\[x] -> "~" ++ show x ++ "~") [0..9] 1
print \$ pleat (\[a, b, x, y] -> a+b == x+y) [3, 2, 4, 1, 5, 0, 9, 9, 0] 4
```

The idea is that the function is explicit about taking a list of unknown length as an argument, so it is not very type-safe. But it is pretty much a 1-to-1 mapping of the Python code.

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Is there a way to write it so you can pass in (+) instead of (\[x,y] -> x+y) ? –  Legatou Oct 14 '10 at 22:13
@Legatou: no. Except for spelling it differently: `lift2 f [x,y] = f x y`, `print \$ pleat (lift2 (+)) [0..9] 2`. Haskell doesn't do polyvariadic functions (typeclass hackers will tell you otherwise, but then it changes to "doesn't do them well"). There is always a way to state clearly what you mean without them. –  luqui Oct 14 '10 at 22:25
I accept this answer as valid... though depressing. I was kinda hoping I could dynamically assess the parameter count the way I eventually did here: ishpeck.com/4squirrel/pleat.html –  Ishpeck Oct 15 '10 at 3:00
Maybe the word 'dynamic' is a clue that Haskell doesn't do it that way? –  Nathan Sanders Oct 15 '10 at 5:42
@ Legatou Although it is not exactly the same, that function is atleast a subfunction of Prelude.sum. So you can substitute (\[x,y] -> x+y) for sum ... –  HaskellElephant Oct 15 '10 at 15:21