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For a given function call f, with arguments a, b, and c, that calls function g using functions h and i to build the arguments, I can say:

f(a)(b)(c) = g( h(a)(b)(c), i(a)(b)(c) )

I know that I can create a function such that:

g'(h,i)(a)(b)(c) = g(h(a)(b)(c), i(a)(b)(c))

so that f can be

f = g'(h,i)

and thusly applying f(a)(b)(c) will yield the desired result.

I can brute force this from (where f becomes build):

def build(a: String)(b: String)(c: String) =
  Message(convA(a)(b)(c), convB(a)(b)(c))

to (given that h and i aren't important to be arguments, maybe this is where the disconnect is):

def gDash = {
  a:String => b: String => c: String => Message(convA(a)(b)(c), convB(a)(b)(c))
}

def build = a:String => b:String => c:String => gDash(a,b,c)

but I still have to specify the entire typing for (a,b,c). But I've gone from something that should be more complex and fragile to something simpler, but the implementation is actually a bigger mess! Is there a way to simplify this that doesn't require all this?

If I tupleize the arguments so that:

def gDash = implicit composite:(String,String,String) => Message(convA, convB)

def convA(composite: s) => ...
def convB(composite: s) => ...

def f(a: String)(b: String)(c: String) = gDash((a,b,c))

I'm not sure that's actually better, I feel like I'm missing something.

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1 Answer 1

Methods require you to be explicit with parameters. Tuples can have type aliases assigned to them, which can help with the excess typing:

type S3 = (String, String, String)

And you can go back and forth between functions (A, B) => C and A => B => C with curried and Function.uncurried.

These give you the tools that you need to make more compact representations of your functions. For example, if you want something called build that has form String => String => String => Whatever, you could

val build = ((abc: S3) => Message(convA(abc), convB(abc)).curried

and then if you want to write gDash in place of Message you could do something like

def dash[A,B,C,D,E](g: (A,B) => C)(h: E=>A, i: E=>B): E => C = 
  (e: E) => g(h(e),i(e))

and then uncurry on the way in if you want E to actually be three separate string parameters.

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