curried And uncurried functions

Curried

``````add::Int->Int->Int
``````

Uncurried

``````add1::(Int,Int)->Int
``````

I have several problems regrading Curried and Uncurried function , consider the functions above,

Question 1

in Uncurried function input parameters are as `(Int,Int)` , so is it equalent to a input a tuple ? how can we differentiated that ?

Question 2

What are the pros and cons regarding uncurried and curried functions? When and why should which be used?

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in Uncurried function input parameters are as (Int,Int) , so is it equalent to a input a tuple ? how can we differentiated that ?

It's not only equivalent, but it is a tuple. So `add1` is a function that takes a pair (2-tuple) of Ints and returns an Int.

Whats the pros and congs regarding uncurried and curried functions ? , and where to use them ?

As a rule of thumb, I'd say: Always use curried functions, if you don't have a good reason not to. They have the nice feature that you can partially apply them, e.g. you can write `f = add 1`, where `f` now has the type `f :: Int -> Int` and always adds 1 to its argument.

This has many applications and is very common in Haskell, because it's so convenient. E.g. a function that adds 1 to all elements in a list would simply be `map (add 1)`.

Additionally the syntax is much less noisy.

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Good examples of how you can use this are : "and = foldr (&&) True", "or = foldr (||) False", "sum = foldl (+) 0", "product = foldl (*) 1", "maximum = foldl1 max", "minimum = foldl1 min". –  ysdx Jul 18 '11 at 21:38

I like @bzn's answer, but I wanted to give a few examples of where uncurried functions are useful.

Some libraries make heavy use of tuples of data. One example is Gtk2hs, which uses a tuple `(Int, Int)` for window sizes and certain coordinates. So when I'm working with gtk2hs, I'll often write functions in an uncurried form so I don't have to manually unpack the tuple.

Also remember that a function can only return one result. To return more than one value, all the results need to be packed into a tuple. `uncurry` is then useful to make compositions out of those functions. Here's a simplified example from a project I'm working on:

``````addIndex :: MyData -> (Int, MyData)

normalize' :: Int -> MyData -> [(Int, MyData)]

normalize :: [MyData] -> [(Int, MyData)]
normalize = concatMap (uncurry normalize' . addIndex)
``````

I usually prefer writing functions in a curried form, but here I needed the uncurried version of `normalize'` to compose with `addIndex`.

These are the two situations where I find an uncurried function useful. Fortunately it's easy to convert between the two forms.

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You can also generalize uncurry via TH. –  alternative Jul 9 '11 at 13:20