If I have a macro which tranforms
code such as:
(src: a.b.c.TestEntity) =>
{
z.y.TestTable(None)
}
To match the None part of that AST I can use an extractor such as:
object NoneExtractor {
def unapply(t: Tree): Boolean = t match {
case Select(Ident(scala), none) if scala.encoded == "scala" && none.encoded == "None" => true
case _ => false
}
}
As the showRaw
of the None part of the AST looks like:
Select(Ident(scala), None)
Yet if I want to write a unit test of the NoneExtractor
I don't want to compile and rebuild the macros and host the test in the project the macro is compiling. I want to unit test the extractor in the macro's project which suggests runtime reflection is the way to go with:
val t = reify {
(src: a.b.c.TestEntity) =>
{
z.y.TestTable(None)
}
}.tree
Yet the tree is totally different and in the showRaw
of that tree the None looks like:
Ident(scala.None)
This is bad news for writing negative tests and checking the error handling of my macro. You cannot write negative tests for a macro using the macro from another project as the code would not compile (and you cannot debug your negative test with compile errors).
Why are the representations of something as fundamental as None so different between compile time reflection and runtime reflection? Is there a way to create the testable tree fragments within the macro project which is the same AST as would be handed to the macro during compile time reflection?
t.tpe =:= typeOf[None.type]
instead?