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Forgive me if this question is a duplicate; I'm having trouble finding anything because I don't know the right words to search. So, with implicit def, I can do things like this:

type CharsetMap = Map[Charset, Byte]

implicit def seqtup2CharsetMap(input: Seq[(String, Int)]): CharsetMap = {
  Map.empty  // placeholder
}

def somef(a: Int, b:Int, p: CharsetMap) = p
somef(1, 3, Seq(("hey", 2), ("there", 9)))

which lets me call somef with a Seq[(String, Int)] object as a parameter. The problem is that I have something like this...

def somef2(p: (CharsetMap) => Int) = p

and this does not work:

val p = (a: Seq[(String, Int)]) => 19
somef2(p)

How can I do this without doing an implicit def specifically for (Seq[(String, Int)]) => Int?

share|improve this question
    
Any reason that your p function cannot take a Charset parameter, while you plug in Seq[(String, Int)] value when invoking it? –  Kane Dec 7 '12 at 4:07
    
@Kane, maybe not, but I think so. So the context is that I'm using Playframework's Scalaforms DSL and I'm trying to convert an HTML form input into a CharsetMap by using seq and tuple. I think maybe I could write something similar to seq that returns a Map instead of a Seq, but I was hoping that I could just do it with implicit def. –  Chad Dec 7 '12 at 4:16

1 Answer 1

up vote 2 down vote accepted

It looks like you want to implicitly convert some function A => B to a function that goes from C => B. You can do that with this generic implicit:

implicit def f2InputConverter[A, B, C](f: A => B)(implicit i: C => A): C => B = (c: C) => f(i(c))

Once you have that in scope, in your particular case, you'll need an implicit function which is the inverse of the one that you've defined in the question:

implicit def charsetMap2Seqtup(input: CharsetMap): Seq[(String, Int)] = {
  Nil  // placeholder
}

and then you should be able to call somef2 with p

share|improve this answer
    
Oh my god, super cool! –  Kane Dec 7 '12 at 4:32
    
For some reason, my ABCs went the other way. Just to show alt syntax, implicit def fg[A,B,C](f: Function1[B,C])(implicit cv: Function1[A,B]): Function1[A,C] = cv andThen f –  som-snytt Dec 7 '12 at 4:39
    
That is quite nicer. I'm probably wrong, but I think this pattern is just a Functor. Basically given an A => B the functor lifts it into F[A] => F[B]. F, in this case, would be Function2[_, T] . What I can't get my head around is why, for that F, we need a B => A to get an F[A] => F[B]. –  rjsvaljean Dec 7 '12 at 5:02
    
Wow, that's pretty insane. So I simplified it in my question, but for my actual use case somef2 actually takes a function with 8 parameters. I was hoping to find a flexible solution that wouldn't require changing as parameters grew/shrank, maybe I'll just take a different approach than implicit defs. –  Chad Dec 7 '12 at 6:52
    
Here's the necessary def when the function in question takes 8 parameters: implicit def f2InputConverter[A, B, C, D, E, F, G, H, I, J](fun: (A,D,E, F, G, H, I, J) => B)(implicit imp: C => A): (C,D,E, F, G, H, I, J) => B = (c: C, d:D, e:E, f:F, g:G, h:H, i:I, j:J) => fun(imp(c),d,e,f,g,h,i,j) this has the major caveat that it only works when the parameter you're converting is the 1st parameter. –  Chad Dec 7 '12 at 7:39

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