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package forge.define
import forge.util.Args
import scala.annotation.compileTimeOnly
import scala.collection.mutable
import scala.reflect.macros.blackbox.Context
object Applicative {
trait Applyable[T]{
@compileTimeOnly("Target#apply() can only be used with a T{...} block")
def apply(): T = ???
}
trait Applyer[W[_], T[_]]{
def underlying[A](v: W[A]): T[_]
def map[A, B](a: T[A], f: A => B): T[B]
def zipMap[R]()(f: () => R) = map(zip(), (_: Unit) => f())
def zipMap[A, R](a: T[A])(f: A => R) = map(a, f)
def zipMap[A, B, R](a: T[A], b: T[B])(f: (A, B) => R) = map(zip(a, b), f.tupled)
def zipMap[A, B, C, R](a: T[A], b: T[B], c: T[C])
(f: (A, B, C) => R) = map(zip(a, b, c), f.tupled)
def zipMap[A, B, C, D, R](a: T[A], b: T[B], c: T[C], d: T[D])
(f: (A, B, C, D) => R) = map(zip(a, b, c, d), f.tupled)
def zipMap[A, B, C, D, E, R](a: T[A], b: T[B], c: T[C], d: T[D], e: T[E])
(f: (A, B, C, D, E) => R) = map(zip(a, b, c, d, e), f.tupled)
def zipMap[A, B, C, D, E, F, R](a: T[A], b: T[B], c: T[C], d: T[D], e: T[E], f: T[F])
(cb: (A, B, C, D, E, F) => R) = map(zip(a, b, c, d, e, f), cb.tupled)
def zipMap[A, B, C, D, E, F, G, R](a: T[A], b: T[B], c: T[C], d: T[D], e: T[E], f: T[F], g: T[G])
(cb: (A, B, C, D, E, F, G) => R) = map(zip(a, b, c, d, e, f, g), cb.tupled)
def zip(): T[Unit]
def zip[A](a: T[A]): T[Tuple1[A]]
def zip[A, B](a: T[A], b: T[B]): T[(A, B)]
def zip[A, B, C](a: T[A], b: T[B], c: T[C]): T[(A, B, C)]
def zip[A, B, C, D](a: T[A], b: T[B], c: T[C], d: T[D]): T[(A, B, C, D)]
def zip[A, B, C, D, E](a: T[A], b: T[B], c: T[C], d: T[D], e: T[E]): T[(A, B, C, D, E)]
def zip[A, B, C, D, E, F](a: T[A], b: T[B], c: T[C], d: T[D], e: T[E], f: T[F]): T[(A, B, C, D, E, F)]
def zip[A, B, C, D, E, F, G](a: T[A], b: T[B], c: T[C], d: T[D], e: T[E], f: T[F], g: T[G]): T[(A, B, C, D, E, F, G)]
}
def impl[M[_], T: c.WeakTypeTag](c: Context)
(t: c.Expr[T]): c.Expr[M[T]] = {
import c.universe._
def rec(t: Tree): Iterator[c.Tree] = Iterator(t) ++ t.children.flatMap(rec(_))
val bound = collection.mutable.Buffer.empty[(c.Tree, ValDef)]
val targetApplySym = typeOf[Applyable[_]].member(TermName("apply"))
// Derived from @olafurpg's
// https://gist.github.com/olafurpg/596d62f87bf3360a29488b725fbc7608
val defs = rec(t.tree).filter(_.isDef).map(_.symbol).toSet
val transformed = c.internal.typingTransform(t.tree) {
case (t @ q"$fun.apply()", api) if t.symbol == targetApplySym =>
val localDefs = rec(fun).filter(_.isDef).map(_.symbol).toSet
val banned = rec(t).filter(x => defs(x.symbol) && !localDefs(x.symbol))
if (banned.hasNext){
val banned0 = banned.next()
c.abort(
banned0.pos,
"Target#apply() call cannot use `" + banned0.symbol + "` defined within the T{...} block"
)
}
val tempName = c.freshName(TermName("tmp"))
val tempSym = c.internal.newTermSymbol(c.internal.enclosingOwner, tempName)
c.internal.setInfo(tempSym, t.tpe)
val tempIdent = Ident(tempSym)
c.internal.setType(tempIdent, t.tpe)
c.internal.setFlag(tempSym, (1L << 44).asInstanceOf[c.universe.FlagSet])
bound.append((q"${c.prefix}.underlying($fun)", c.internal.valDef(tempSym)))
tempIdent
case (t, api) => api.default(t)
}
val (exprs, bindings) = bound.unzip
val callback = c.typecheck(q"(..$bindings) => $transformed ")
val res = q"${c.prefix}.zipMap(..$exprs){ $callback }"
c.internal.changeOwner(transformed, c.internal.enclosingOwner, callback.symbol)
c.Expr[M[T]](res)
}
}
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