# How many arguments takes the foldr function of Haskell?

I am new to Haskell and I am reading the book "Real World Haskell". In the Chapter 4 of the book the author asks as an exercise to rewrite the groupBy function using fold. One of the readers of the book (Octavian Voicu ) gave the following solution:

``````
theCoolGroupBy :: (a -> a -> Bool) -> [a] -> [[a]]
theCoolGroupBy eq xs = tail \$ foldr step (\_ -> [[]]) xs \$ (\_ -> False)
where step x acc = \p -> if p x then rest p else []:rest (eq x)
where rest q = let y:ys = acc q in (x:y):ys
``````

My question is simple: I know that foldr takes 3 arguments: a function, an initial value and a list. But in the second line of the code foldr takes 4 arguments. Why this happens? Thank you.

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## 4 Answers

Scott's answer is correct, the result of the `foldr` is a function, so this is why it seems that `foldr` takes 4 arguments. The `foldr` functions does take 3 arguments (function, base, list):

``````*Main> :type foldr
foldr :: (a -> b -> b) -> b -> [a] -> b
``````

I'll just give here an example that is less complex:

``````inc :: Int -> (Int -> Int)
inc v = \x -> x + v

test = inc 2 40  -- output of test is 42
``````

In the above code, `inc` takes one argument, `v`, and returns a function that increments its argument by `v`.

As we can see below, the return type of `inc 2` is a function, so its argument can simply be added at the end:

``````*Main> :type inc
inc :: Int -> Int -> Int
*Main> :type inc 2
inc 2 :: Int -> Int
*Main> :type inc 2 40
inc 2 40 :: Int
``````

Parentheses could be used to emphasize that the return value is a function, but functionally it is identical to the above code:

``````*Main> (inc 2) 40
42
``````

PS: I'm the author of the original comment :)

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All functions in Haskell take just one argument. When we have a function with type `a -> b -> c`, it is just a shorter way to write `a -> (b -> c)`, i.e. a function, which takes one argument and produces a function which takes another argument. See Currying for more information.

In this case, see the @sepp2k's answer. `foldr` produces a function and it needs another ("the 4th") argument.

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In this situation, I think it is best to look at the type signature of `foldr`:

``````foldr :: (a -> b -> b) -> b -> [a] -> b
``````

and to match that to the expression we have (with added parenthesis for clarity):

``````(foldr step (\_ -> [[]]) xs) (\_ -> False)
``````

The second argument of `foldr` is the same type as its result. In this case the second argument is a function. In this case, this means that the `foldr` expression with 3 arguments will be a function.

What you see to be the 4th argument of the foldr function could also be thought of as the 1st argument of the foldr result!

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In this case `foldr` is used to build up a function. `(\_ -> False)` is the argument to that function.

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