import scala.reflect.runtime.universe._
import scala.tools.reflect.Eval

object Test extends App {
  reify {
    /* The syntax tree of a toy language */
    abstract class Term[T]

    /* An integer literal */
    case class Lit(x: Int) extends Term[Int]

    /* Successor of a number */
    case class Succ(t: Term[Int]) extends Term[Int]

    /* Is 't' equal to zero? */
    case class IsZero(t: Term[Int]) extends Term[Boolean]

    /* An 'if' expression. */
    case class If[T](c: Term[Boolean],
                     t1: Term[T],
                     t2: Term[T]) extends Term[T]

    /** A type-safe eval function. The right-hand sides can
     *  make use of the fact that 'T' is a more precise type,
     *  constraint by the pattern type.
     */
    def eval[T](t: Term[T]): T = t match {
      case Lit(n)        => n

      // the right hand side makes use of the fact
      // that T = Int and so it can use '+'
      case Succ(u)       => eval(u) + 1
      case IsZero(u)     => eval(u) == 0
      case If(c, u1, u2) => eval(if (eval(c)) u1 else u2)
    }
    println(
      eval(If(IsZero(Lit(1)), Lit(41), Succ(Lit(41)))))
  }.eval
}