1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
|
/*
* Copyright (C) 2012 Typesafe Inc. <http://www.typesafe.com>
*/
package scala.async.internal
import scala.language.higherKinds
import scala.reflect.internal.SymbolTable
/**
* An abstraction over a future system.
*
* Used by the macro implementations in [[scala.async.AsyncBase]] to
* customize the code generation.
*
* The API mirrors that of `scala.concurrent.Future`, see the instance
* [[ScalaConcurrentFutureSystem]] for an example of how
* to implement this.
*/
trait FutureSystem {
/** A container to receive the final value of the computation */
type Prom[A]
/** A (potentially in-progress) computation */
type Fut[A]
/** An execution context, required to create or register an on completion callback on a Future. */
type ExecContext
trait Ops {
val universe: reflect.internal.SymbolTable
import universe._
def Expr[T: WeakTypeTag](tree: Tree): Expr[T] = universe.Expr[T](rootMirror, universe.FixedMirrorTreeCreator(rootMirror, tree))
def promType[A: WeakTypeTag]: Type
def execContextType: Type
/** Create an empty promise */
def createProm[A: WeakTypeTag]: Expr[Prom[A]]
/** Extract a future from the given promise. */
def promiseToFuture[A: WeakTypeTag](prom: Expr[Prom[A]]): Expr[Fut[A]]
/** Construct a future to asynchronously compute the given expression */
def future[A: WeakTypeTag](a: Expr[A])(execContext: Expr[ExecContext]): Expr[Fut[A]]
/** Register an call back to run on completion of the given future */
def onComplete[A, U](future: Expr[Fut[A]], fun: Expr[scala.util.Try[A] => U],
execContext: Expr[ExecContext]): Expr[Unit]
/** Complete a promise with a value */
def completeProm[A](prom: Expr[Prom[A]], value: Expr[scala.util.Try[A]]): Expr[Unit]
def spawn(tree: Tree, execContext: Tree): Tree =
future(Expr[Unit](tree))(Expr[ExecContext](execContext)).tree
}
def mkOps(c: SymbolTable): Ops { val universe: c.type }
}
object ScalaConcurrentFutureSystem extends FutureSystem {
import scala.concurrent._
type Prom[A] = Promise[A]
type Fut[A] = Future[A]
type ExecContext = ExecutionContext
def mkOps(c: SymbolTable): Ops {val universe: c.type} = new Ops {
val universe: c.type = c
import universe._
def promType[A: WeakTypeTag]: Type = weakTypeOf[Promise[A]]
def execContextType: Type = weakTypeOf[ExecutionContext]
def createProm[A: WeakTypeTag]: Expr[Prom[A]] = reify {
Promise[A]()
}
def promiseToFuture[A: WeakTypeTag](prom: Expr[Prom[A]]) = reify {
prom.splice.future
}
def future[A: WeakTypeTag](a: Expr[A])(execContext: Expr[ExecContext]) = reify {
Future(a.splice)(execContext.splice)
}
def onComplete[A, U](future: Expr[Fut[A]], fun: Expr[scala.util.Try[A] => U],
execContext: Expr[ExecContext]): Expr[Unit] = reify {
future.splice.onComplete(fun.splice)(execContext.splice)
}
def completeProm[A](prom: Expr[Prom[A]], value: Expr[scala.util.Try[A]]): Expr[Unit] = reify {
prom.splice.complete(value.splice)
Expr[Unit](Literal(Constant(()))).splice
}
}
}
|