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I've been experimenting with MacroParadise (here and here), as well a few other newer features. Today while using TypeTags, I came to the realization that I can now do something like this to enforce type equality.

def typeEq[A: TypeTag, B: TypeTag]: Boolean = {
    implicitly[TypeTag[A]].tpe =:= implicitly[TypeTag[B]].tpe

I then remembered that TypeTag implicits are compiler generated, and I had the idea that I may be able write a macro enabling more concise TypeTag usage like this:

def foo[A](xs: List[A]): String = xs match {
  case y :: ys if typeEq[A, String] => y
  case y :: ys if typeEq[A, Int]    => y.toString 

I've only written a handful of macros in Lisp, and am stumbling around attempting to use the macro library. This lead me to several attempts, but they all end up expanding to something like Int =:= Int which doesn't work, or something like typeA =:= typeB where both are free(which also doesn't work).

This lead me to two questions: 1) Is this possible to do without the Context Bounds on foo(like written above)? 2) How do I correctly splice the Types obtained by the implicits into the result expression?

It seems to me that macros and implicits should allow me to fetch the WeakTypeTag implicit and use its tpe member for splicing, since they both occur at compile time.

share|improve this question

You can already enforce type equality by using the type =:=[From,To]:

def bar[A,B](a:A,b:B)(implicit ev: A =:= B)= (a,b)

res0: (Int, Int) = (1,2)


error: could not find implicit value for parameter ev: =:=[Int,java.lang.String]


Sorry, got your question a little wrong, I guess. Your example almost works, but the compiler can't know, what A is, so it can't find an evidence of TypeTag[A]. If you add the context bound to the method definition it will work:

def foo[A : TypeTag](xs: List[A]) = xs match {
  case _ if typeEq[A, String] => "yay"
  case _ => "noes"

scala> foo(List(2))
res0: String = noes

scala> foo(List(""))
res1: String = yay


For your example you actually don't need TypeTags at all, you can just use pattern matching, as you only use the first element:

def foo[A](xs: List[A]): String = xs match {
  case (y: String) :: _ => y
  case y :: _ => y.toString

scala> foo(List(1,2,3))
res6: String = 1

scala> foo(List("foo"))
res7: String = foo

But be aware, thath the pattern mathcing is non-exhaustive, because it does not handle Nil.

share|improve this answer
This is fine for asserting equality on just two types, but the =:= type witness is not usable in the body due to erasure. A call foo[Int] and foo[String] are identical at runtime, you need a mechanism for recovering the erased information (i.e. TypeTags). I'm interested in having a concise way of stating type equality between the two types, regardless of erasure. If you replace typeEq[ty1, ty2] with ty1 =:= ty2 the above example will not compile. It is also worth noting that =:= is actually a method on scala.runtime.reflect.Type not the class =:=, that is used for an implicit witness. – jroesch Feb 21 '13 at 9:32
updated my post – drexin Feb 21 '13 at 9:51
Thanks, that does solve my example (albeit a contrived one). I'm more interested in the macro writing part. I'm was still having trouble splicing the types correctly. This is more important for a case where the A may not be the same as the type of xs.head or with other structures. – jroesch Feb 21 '13 at 20:46
Can you please give such an example? – drexin Feb 21 '13 at 20:48

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