In Haskell functions always take one parameter. Multiple parameters are implemented via Currying. That being the case, I can see how a function of two parameters would be defined as "func1" below. It's a function that returns a function (closure) that adds the outer function's single parameter to the returned function's single parameter.
However, although this is how curried functions work, that's not the regular Haskell syntax for defining a two-parameter function. Instead we're taught to define such a function like "func2".
I'd like to know how Haskell understands that func2 should behave the same way as func1. There's nothing about the definition of func2 that suggest to me that it is a function that returns a function. To the contrary it actually looks like a two-parameter function, something we're told doesn't exist!
What's the trick here? Is Haskell just born knowing that we can define multi-parameter functions in this textbook way, and that they work the way we expect anyhow? That is, is this a syntax convention that doesn't seem to be clearly documented (Haskell knows what you mean and will supply the missing function return for you), or is there some other magic at work or something I'm missing?
func1 :: Int -> (Int -> Int)
func1 x = (\y -> x + y)
func2 :: Int -> Int -> Int
func2 x y = x + y
main = do
print (func1 7 9)
print (func2 7 9)
func2
intofunc1
.