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5

Scalaz has various ops e.g. suml, assuming there's a Foldable typeclass instance for Stream.


5

The tuple part exists already; at worst you will need shapeless-scalaz. Your tupleConcatSG is fine (you could use the : Semigroup sugar rather than an explicit implicit), but if you want to be able to use |+| you'll need to make it a Semigroup instance, and available implicitly: implicit def tupleConcatSg[S: Semigroup] = new Semigroup[(S, S)] { def ...


3

Is there any reason why you're not using Validation and NonEmptyList by scalaz? You can easily do something like def f(i: Int) = if (i > 2) i.successNel else "something wrong".failureNel List(1, 2, 3).traverseU(f) // Failure(NonEmptyList(something wrong, something wrong)) List(3, 4, 5).traverseU(f) // Success(List(3, 4, 5)) If you instead want to ...


3

You probably want to convert them both to the same type - you can use .toRightDisjunction on the Option, and you can do the Try thing using scala.util.control.Exception instead: import scala.util.control.Exception._ for { params_ ← params.toRightDisjunction( new Exception("Not enough parameters to initialize a ssh client")) (host, port, user, ...


2

The other replies have nicely illustrated that in general it is not possible to implement a function from a -> m b to m (a -> b) for any monad m. However, there are specific monads where it is quite possible to implement this function. One example is the reader monad: data Reader r a = R { unR :: r -> a } commute :: (a -> Reader r b) -> ...


1

scalaz.std package contains the object option extends OptionInstances with OptionFunctions { object optionSyntax extends scalaz.syntax.std.ToOptionOps with scalaz.syntax.std.ToOptionIdOps } The operations Scalaz add to scala.Option are defined in OptionInstances (the typeclasses) and OptionsFunctions. OptionFunctions contains the following methods: ...


1

Following up to lmm's answer, is this really what I am trying to do? (the types check out, and I switched from Seq to IndexedSeq to make sure we can use ++ properly). def tupleConcatMonoid[M: Monoid] = new Monoid[(M, M)] { def zero: (M,M) = (Monoid[M].zero, Monoid[M].zero) def append(f1: (M, M), f2: (M, M)) = (f1._1 |+| f2._1, f2._1 |+| ...



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