package forge.define
import forge.define.Applicative.Applyable
import forge.eval.PathRef
import forge.util.Args
import scala.language.experimental.macros
import scala.reflect.macros.blackbox.Context
abstract class Task[+T] extends Task.Ops[T] with Applyable[T]{
/**
* What other Targets does this Target depend on?
*/
val inputs: Seq[Task[_]]
/**
* Evaluate this target
*/
def evaluate(args: Args): T
/**
* Even if this target's inputs did not change, does it need to re-evaluate
* anyway?
*/
def sideHash: Int = 0
}
class Target[+T](t: Task[T]) extends Task[T] {
val inputs = Seq(t)
def evaluate(args: Args) = args[T](0)
}
class Command[+T](t: Task[T]) extends Task[T] {
val inputs = Seq(t)
def evaluate(args: Args) = args[T](0)
}
object Task extends Applicative.Applyer[Task, Task, Args]{
def underlying[A](v: Task[A]) = v
trait Cacher extends forge.define.Cacher[Task, Target]{
def wrapCached[T](t: Task[T]): Target[T] = new Target(t)
}
class Target0[T](t: T) extends Task[T]{
lazy val t0 = t
val inputs = Nil
def evaluate(args: Args) = t0
}
def apply[T](t: Task[T]): Target[T] = macro Cacher.impl0[Task, T]
def cmd[T](t: T): Command[T] = macro targetCommandImpl[T]
def targetCommandImpl[T: c.WeakTypeTag](c: Context)(t: c.Expr[T]): c.Expr[Command[T]] = {
import c.universe._
c.Expr[Command[T]](
q"new forge.define.Command(${Applicative.impl[Task, T, Args](c)(t).tree})"
)
}
def task[T](t: T): Task[T] = macro Applicative.impl[Task, T, Args]
def apply[T](t: T): Target[T] = macro targetCachedImpl[T]
def targetCachedImpl[T: c.WeakTypeTag](c: Context)(t: c.Expr[T]): c.Expr[Target[T]] = {
c.Expr[Target[T]](
forge.define.Cacher.wrapCached(c)(
Applicative.impl[Task, T, Args](c)(t).tree
)
)
}
abstract class Ops[+T]{ this: Task[T] =>
def map[V](f: T => V) = new Task.Mapped(this, f)
def mapDest[V](f: (T, Args) => V) = new Task.MappedDest(this, f)
def filter(f: T => Boolean) = this
def withFilter(f: T => Boolean) = this
def zip[V](other: Task[V]) = new Task.Zipped(this, other)
}
def traverse[T](source: Seq[Task[T]]) = {
new Traverse[T](source)
}
class Traverse[+T](val inputs: Seq[Task[T]]) extends Task[Seq[T]]{
def evaluate(args: Args) = {
for (i <- 0 until args.length)
yield args(i).asInstanceOf[T]
}
}
class Mapped[+T, +V](source: Task[T], f: T => V) extends Task[V]{
def evaluate(args: Args) = f(args(0))
val inputs = List(source)
}
class MappedDest[+T, +V](source: Task[T], f: (T, Args) => V) extends Task[V]{
def evaluate(args: Args) = f(args(0), args)
val inputs = List(source)
}
class Zipped[+T, +V](source1: Task[T], source2: Task[V]) extends Task[(T, V)]{
def evaluate(args: Args) = (args(0), args(1))
val inputs = List(source1, source2)
}
def path(path: ammonite.ops.Path) = new Path(path)
class Path(path: ammonite.ops.Path) extends Task[PathRef]{
def handle = PathRef(path)
def evaluate(args: Args) = handle
override def sideHash = handle.hashCode()
val inputs = Nil
}
def mapCtx[A, B](t: Task[A])(f: (A, Args) => B) = t.mapDest(f)
def zip() = new Task.Target0(())
def zip[A](a: Task[A]) = a.map(Tuple1(_))
def zip[A, B](a: Task[A], b: Task[B]) = a.zip(b)
def zip[A, B, C](a: Task[A], b: Task[B], c: Task[C]) = new Task[(A, B, C)]{
val inputs = Seq(a, b, c)
def evaluate(args: Args) = (args[A](0), args[B](1), args[C](2))
}
def zip[A, B, C, D](a: Task[A], b: Task[B], c: Task[C], d: Task[D]) = new Task[(A, B, C, D)]{
val inputs = Seq(a, b, c, d)
def evaluate(args: Args) = (args[A](0), args[B](1), args[C](2), args[D](3))
}
def zip[A, B, C, D, E](a: Task[A], b: Task[B], c: Task[C], d: Task[D], e: Task[E]) = new Task[(A, B, C, D, E)]{
val inputs = Seq(a, b, c, d, e)
def evaluate(args: Args) = (args[A](0), args[B](1), args[C](2), args[D](3), args[E](4))
}
def zip[A, B, C, D, E, F](a: Task[A], b: Task[B], c: Task[C], d: Task[D], e: Task[E], f: Task[F]) = new Task[(A, B, C, D, E, F)]{
val inputs = Seq(a, b, c, d, e, f)
def evaluate(args: Args) = (args[A](0), args[B](1), args[C](2), args[D](3), args[E](4), args[F](5))
}
def zip[A, B, C, D, E, F, G](a: Task[A], b: Task[B], c: Task[C], d: Task[D], e: Task[E], f: Task[F], g: Task[G]) = new Task[(A, B, C, D, E, F, G)]{
val inputs = Seq(a, b, c, d, e, f, g)
def evaluate(args: Args) = (args[A](0), args[B](1), args[C](2), args[D](3), args[E](4), args[F](5), args[G](6))
}
}