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I'm trying to use shapeless to accumulate easily objects in a type safe manner.

The problem is when I want to concat (:::) two HList. I'm encountering a newbie (it seems at least) problem. It misses a Prepend implicit instance in the context.

However, looking into hlist.scala, I can see that generic implicit def are defined in the objects Prepend and PrependAux.

Adding import Prepend and import PrependAux manually didn't change anything (obviously...).

So here the code reduced to the minimum:

enter code here

import shapeless._
import HList._
import Prepend._
import PrependAux._

object test {

  val a:HList = 1 :: 4 :: "A" :: HNil
  val b:HList = "R" :: false :: HNil

  val c:HList = a ::: b   // <<<<<<<<<<< NEEDS A Prepend in the context 


In the console now:

[error]     test.scala:10: could not find implicit value for parameter prepend: shapeless.Prepend[shapeless.HList,shapeless.HList]
[error]     val c:HList = a ::: b   // this needs an implicit Prepend in the current context

What should burn my eyes?



A little update to re-complexify a bit the real problem, because to vulgarization was to strong before.

Here is the kind of thing that I would be able to do:

case class A[L<:HList](a:L) { 
  def doSmth[C <:HList](c:C) = a ::: c 

So I've not the access to the real type, only I know that they are HList s.

share|improve this question
the only answers has been update also. and it still work. The thing that was missing in my solution was, apparently, the scalac option... –  andy petrella Jun 16 '12 at 17:00

1 Answer 1

up vote 8 down vote accepted

The up-casts to HList are the problem here. There's almost nothing you can do with a plain old HList (apart from adding new elements to it).

You can either provide more informative type annotations:

val a: Int :: Int :: String :: HNil = 1 :: 4 :: "A" :: HNil
val b: String :: Boolean :: HNil = "R" :: false :: HNil
val c: Int :: Int :: String :: String :: Boolean :: HNil = a ::: b

Or just let the types be inferred, which is usually much more convenient:

val a = 1 :: 4 :: "A" :: HNil
val b = "R" :: false :: HNil
val c = a ::: b

In response to your comment: you can do what you want if you make sure you've got the evidence you need (note that I've assumed that a: A was a typo for a: L, and that you'll need -Ydependent-method-types for this to work):

case class A[L <: HList](a: L) {
  def doSmth[C <: HList](c: C)(implicit p: Prepend[L, C]) = a ::: c

In general you can just look at the implicits that are necessary for the operations you're using, and then include them on your method.

share|improve this answer
Thx, you're perfectly right (so I validated of course). Actually my example has reduced too much the problem. Because my problem resides in the kind of stuffs (a bit less reduced): case class A[L<:HList](a:A) { def doSmth[C <:HList](c:C) = a ::: c }. What do think ? –  andy petrella Jun 15 '12 at 20:15
@andypetrella: I've edited to address your question. –  Travis Brown Jun 15 '12 at 20:30
You're right for the typo! Sorry about that. Thx for the update (I'll update the question as well). Actually I did it, and probably that I needed the option you talked about to have this working. Thx again, I'll git it a try soon. –  andy petrella Jun 15 '12 at 20:32
It works.. I've put the scalac option, and in some cases defined what is the "shape" of the HList and now works. THX –  andy petrella Jun 16 '12 at 13:55

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