blob: 6003f3b8df1fcb7fef5241c2447323787292cf25 (
plain) (
tree)
|
|
package forge
import scala.language.experimental.macros
import scala.reflect.macros.blackbox.Context
class Discovered[T](val value: Seq[(Seq[String], T => Target[_])]){
def apply(t: T) = value.map{case (a, b) => (a, b(t)) }
}
object Discovered {
def mapping[T: Discovered](t: T): Map[Target[_], Seq[String]] = {
implicitly[Discovered[T]].apply(t).map(_.swap).toMap
}
implicit def apply[T]: Discovered[T] = macro applyImpl[T]
def applyImpl[T: c.WeakTypeTag](c: Context): c.Expr[Discovered[T]] = {
import c.universe._
val tpe = c.weakTypeTag[T].tpe
def rec(segments: List[String], t: c.Type): Seq[Seq[String]] = for {
m <- t.members.toSeq
if m.isTerm && (m.asTerm.isGetter || m.asTerm.isLazy) || m.isModule
res <- {
val extendedSegments = m.name.toString :: segments
val self =
if (m.typeSignature.resultType <:< c.weakTypeOf[Target[_]]) Seq(extendedSegments)
else Nil
val children = rec(extendedSegments, m.typeSignature)
self ++ children
}
} yield res
val reversedPaths = rec(Nil, tpe)
val result = for(reversedPath <- reversedPaths.toList) yield {
val base = q"${TermName(c.freshName())}"
val segments = reversedPath.reverse.toList
val ident = segments.foldLeft[Tree](base)((prefix, name) =>
q"$prefix.${TermName(name)}"
)
q"($segments, ($base: $tpe) => $ident)"
}
c.Expr[Discovered[T]](q"new _root_.forge.Discovered($result)")
}
}
|