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So for a very small formula interpretter someone asked me to code-golf, I wanted to do something like

  val ops = Map("plus" -> + , "minus"-> -, "times"-> *, "div" -> / )

to allow quick conversion between keywords and the functions they describe. Not only did this syntax not parse, but none of the other shorthand syntaxes I tried ( _ + _, _:Int.+_)parsed. Is there a way of doing this as a function shorthand, or am I doomed to writing out the lambdas fully, ruining my golf score.

Edit: The problem in question was integers only. I understand that overloading would make this vastly more difficult otherwise.

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The only way I know would be val ops = Map[String, (Int, Int) => Int]("plus" -> (_ + _), "minus" -> (_ - _)); That doesn't save too many characters though... I'm curious what more experienced/smarter people will suggest. :) –  Patryk Ćwiek Sep 27 '13 at 14:19
@PatrykĆwiek if the OP wants a general aproach for any value, lambda won't help, cause this operations are overloaded –  4lex1v Sep 27 '13 at 14:24
@AlexIv True, it's specialized. I assumed by the _:Int annotation in the question that a simple (Int, Int) => Int will be sufficient. If it's a general question then I'm out of ideas. :) –  Patryk Ćwiek Sep 27 '13 at 14:25
The only way i can think of is a typeclass with defining +, -, *, / as objects with apply method and implicit typeclass –  4lex1v Sep 27 '13 at 14:25
Interesting! In Haskell this would be simply ops "plus" = (+); ops "times" = (*) etc. –  Don Stewart Sep 27 '13 at 14:25

1 Answer 1

up vote 5 down vote accepted

Not sure how your score is impacted by defining an additional function. You could lift the operators, using something like this:

def lift(f:(Int,Int)=>Int) = f
val ops = Map("plus" -> lift(_+_), "minus" -> lift(_-_), "times"-> lift(_*_), "div" -> lift(_/_))

And if you want to shave some chars:

def  ↑(f:(Int,Int)=>Int) = f
val ops = Map("plus" -> ↑(_+_), "minus" -> ↑(_-_), "times"-> ↑(_*_), "div" -> ↑(_/_))

And as om-nom-nom comments, this explicit lifting can be done by the compiler as well by providing the type signature to coerse the lifting:

val ops: Map[String, (Int,Int) => Int] = Map("plus" -> (_+_), "minus" -> (_-_), "times"->(_*_), "div" -> (_/_)) 
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Isn't much better than val ops: Map[String, (Int,Int) => Int] = Map("plus" -> (_+_), "minus" -> {_-_}, "times"-> {_*_}, "div" -> {_/_}) (either () or {} braces) –  om-nom-nom Sep 27 '13 at 16:32
@om-nom-nom yeah, I was driving back home thinking... method lifting is done automatically by the compiler and realized that it only needed the type signature. –  maasg Sep 27 '13 at 17:52

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