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/**
* Copyright (C) 2012 Typesafe Inc. <http://www.typesafe.com>
*/
package scala.async
import scala.reflect.macros.Context
import scala.collection.mutable.ListBuffer
import scala.concurrent.Future
import AsyncUtils.vprintln
/*
* @author Philipp Haller
*/
final class ExprBuilder[C <: Context, FS <: FutureSystem](override val c: C, val futureSystem: FS)
extends TransformUtils(c) {
builder =>
import c.universe._
import Flag._
import defn._
private[async] object name {
def suffix(string: String) = string + "$async"
def suffixedName(prefix: String) = newTermName(suffix(prefix))
val state = suffixedName("state")
val result = suffixedName("result")
val resume = suffixedName("resume")
val execContext = suffixedName("execContext")
// TODO do we need to freshen any of these?
val x1 = newTermName("x$1")
val tr = newTermName("tr")
val onCompleteHandler = suffixedName("onCompleteHandler")
def fresh(name: TermName) = newTermName(c.fresh("" + name + "$"))
}
private[async] lazy val futureSystemOps = futureSystem.mkOps(c)
private val execContext = futureSystemOps.execContext
private def resetDuplicate(tree: Tree) = c.resetAllAttrs(tree.duplicate)
private def mkResumeApply = Apply(Ident(name.resume), Nil)
private def mkStateTree(nextState: Int): c.Tree =
mkStateTree(c.literal(nextState).tree)
private def mkStateTree(nextState: Tree): c.Tree =
Assign(Ident(name.state), nextState)
private def mkVarDefTree(resultType: Type, resultName: TermName): c.Tree = {
ValDef(Modifiers(Flag.MUTABLE), resultName, TypeTree(resultType), defaultValue(resultType))
}
private def mkHandlerCase(num: Int, rhs: List[c.Tree]): CaseDef =
mkHandlerCase(num, Block(rhs: _*))
private def mkHandlerCase(num: Int, rhs: c.Tree): CaseDef =
CaseDef(c.literal(num).tree, EmptyTree, rhs)
class AsyncState(stats: List[c.Tree], val state: Int, val nextState: Int) {
val body: c.Tree = stats match {
case stat :: Nil => stat
case _ => Block(stats: _*)
}
val varDefs: List[(TermName, Type)] = Nil
def mkHandlerCaseForState(): CaseDef =
mkHandlerCase(state, stats :+ mkStateTree(nextState) :+ mkResumeApply)
def mkOnCompleteHandler(): Option[CaseDef] = {
this match {
case aw: AsyncStateWithAwait =>
val tryGetTree =
Assign(
Ident(aw.resultName),
TypeApply(Select(Select(Ident(name.tr), Try_get), newTermName("asInstanceOf")), List(TypeTree(aw.resultType)))
)
val updateState = mkStateTree(nextState) // or increment?
Some(mkHandlerCase(state, List(tryGetTree, updateState, mkResumeApply)))
case _ =>
None
}
}
def varDefForResult: Option[c.Tree] =
None
def allVarDefs: List[c.Tree] =
varDefForResult.toList ++ varDefs.map(p => mkVarDefTree(p._2, p._1))
override val toString: String =
s"AsyncState #$state, next = $nextState"
}
class AsyncStateWithoutAwait(stats: List[c.Tree], state: Int)
extends AsyncState(stats, state, 0) {
// nextState unused, since encoded in then and else branches
override def mkHandlerCaseForState(): CaseDef =
mkHandlerCase(state, stats)
override val toString: String =
s"AsyncStateWithIf #$state, next = $nextState"
}
abstract class AsyncStateWithAwait(stats: List[c.Tree], state: Int, nextState: Int)
extends AsyncState(stats, state, nextState) {
val awaitable: c.Tree
val resultName: TermName
val resultType: Type
protected def tryType = appliedType(TryClass.toType, List(resultType))
override val toString: String =
s"AsyncStateWithAwait #$state, next = $nextState"
private def mkOnCompleteTree: c.Tree = {
futureSystemOps.onComplete(c.Expr(awaitable), c.Expr(Ident(name.onCompleteHandler)), c.Expr(Ident(name.execContext))).tree
}
override def mkHandlerCaseForState(): CaseDef = {
assert(awaitable != null)
mkHandlerCase(state, stats :+ mkOnCompleteTree)
}
override def varDefForResult: Option[c.Tree] =
Some(mkVarDefTree(resultType, resultName))
}
/*
* Builder for a single state of an async method.
*/
class AsyncStateBuilder(state: Int, private var nameMap: Map[String, c.Name]) {
self =>
/* Statements preceding an await call. */
private val stats = ListBuffer[c.Tree]()
/* Argument of an await call. */
var awaitable: c.Tree = null
/* Result name of an await call. */
var resultName: TermName = null
/* Result type of an await call. */
var resultType: Type = null
var nextState: Int = state + 1
private val varDefs = ListBuffer[(TermName, Type)]()
private val renamer = new Transformer {
override def transform(tree: Tree) = tree match {
case Ident(_) if nameMap.keySet contains tree.symbol.toString =>
Ident(nameMap(tree.symbol.toString))
case _ =>
super.transform(tree)
}
}
def +=(stat: c.Tree): this.type = {
stats += resetDuplicate(renamer.transform(stat))
this
}
//TODO do not ignore `mods`
def addVarDef(mods: Any, name: TermName, tpt: c.Tree, rhs: c.Tree, extNameMap: Map[String, c.Name]): this.type = {
varDefs += (name -> tpt.tpe)
nameMap ++= extNameMap // update name map
this += Assign(Ident(name), rhs)
this
}
def result(): AsyncState =
if (awaitable == null)
new AsyncState(stats.toList, state, nextState) {
override val varDefs = self.varDefs.toList
}
else
new AsyncStateWithAwait(stats.toList, state, nextState) {
val awaitable = self.awaitable
val resultName = self.resultName
val resultType = self.resultType
override val varDefs = self.varDefs.toList
}
/* Result needs to be created as a var at the beginning of the transformed method body, so that
* it is visible in subsequent states of the state machine.
*
* @param awaitArg the argument of await
* @param awaitResultName the name of the variable that the result of await is assigned to
* @param awaitResultType the type of the result of await
*/
def complete(awaitArg: c.Tree, awaitResultName: TermName, awaitResultType: Tree,
extNameMap: Map[String, c.Name], nextState: Int = state + 1): this.type = {
nameMap ++= extNameMap.map { case (k, v) => (k.toString, v) }
val renamed = renamer.transform(awaitArg)
awaitable = resetDuplicate(renamed)
resultName = awaitResultName
resultType = awaitResultType.tpe
this.nextState = nextState
this
}
def complete(nextState: Int): this.type = {
this.nextState = nextState
this
}
def resultWithIf(condTree: c.Tree, thenState: Int, elseState: Int): AsyncState = {
// 1. build changed if-else tree
// 2. insert that tree at the end of the current state
val cond = resetDuplicate(condTree)
this += If(cond,
Block(mkStateTree(thenState), mkResumeApply),
Block(mkStateTree(elseState), mkResumeApply))
new AsyncStateWithoutAwait(stats.toList, state) {
override val varDefs = self.varDefs.toList
}
}
/**
* Build `AsyncState` ending with a match expression.
*
* The cases of the match simply resume at the state of their corresponding right-hand side.
*
* @param scrutTree tree of the scrutinee
* @param cases list of case definitions
* @param stateFirstCase state of the right-hand side of the first case
* @param perCaseBudget maximum number of states per case
* @return an `AsyncState` representing the match expression
*/
def resultWithMatch(scrutTree: c.Tree, cases: List[CaseDef], stateFirstCase: Int, perCasebudget: Int): AsyncState = {
// 1. build list of changed cases
val newCases = for ((cas, num) <- cases.zipWithIndex) yield cas match {
case CaseDef(pat, guard, rhs) => CaseDef(pat, guard, Block(mkStateTree(num * perCasebudget + stateFirstCase), mkResumeApply))
}
// 2. insert changed match tree at the end of the current state
this += Match(resetDuplicate(scrutTree), newCases)
new AsyncStateWithoutAwait(stats.toList, state) {
override val varDefs = self.varDefs.toList
}
}
override def toString: String = {
val statsBeforeAwait = stats.mkString("\n")
s"ASYNC STATE:\n$statsBeforeAwait \nawaitable: $awaitable \nresult name: $resultName"
}
}
/**
* An `AsyncBlockBuilder` builds a `ListBuffer[AsyncState]` based on the expressions of a `Block(stats, expr)` (see `Async.asyncImpl`).
*
* @param stats a list of expressions
* @param expr the last expression of the block
* @param startState the start state
* @param endState the state to continue with
* @param budget the maximum number of states in this block
* @param toRename a `Map` for renaming the given key symbols to the mangled value names
*/
class AsyncBlockBuilder(stats: List[c.Tree], expr: c.Tree, startState: Int, endState: Int,
budget: Int, private var toRename: Map[String, c.Name]) {
val asyncStates = ListBuffer[builder.AsyncState]()
private var stateBuilder = new builder.AsyncStateBuilder(startState, toRename)
// current state builder
private var currState = startState
private var remainingBudget = budget
/* TODO Fall back to CPS plug-in if tree contains an `await` call. */
def checkForUnsupportedAwait(tree: c.Tree) = if (tree exists {
case Apply(fun, _) if fun.symbol == Async_await => true
case _ => false
}) c.abort(tree.pos, "await unsupported in this position") //throw new FallbackToCpsException
def builderForBranch(tree: c.Tree, state: Int, nextState: Int, budget: Int, nameMap: Map[String, c.Name]): AsyncBlockBuilder = {
val (branchStats, branchExpr) = tree match {
case Block(s, e) => (s, e)
case _ => (List(tree), c.literalUnit.tree)
}
new AsyncBlockBuilder(branchStats, branchExpr, state, nextState, budget, nameMap)
}
// populate asyncStates
for (stat <- stats) stat match {
// the val name = await(..) pattern
case ValDef(mods, name, tpt, Apply(fun, args)) if fun.symbol == Async_await =>
val newName = builder.name.fresh(name)
toRename += (stat.symbol.toString -> newName)
asyncStates += stateBuilder.complete(args.head, newName, tpt, toRename).result // complete with await
if (remainingBudget > 0)
remainingBudget -= 1
else
assert(false, "too many invocations of `await` in current method")
currState += 1
stateBuilder = new builder.AsyncStateBuilder(currState, toRename)
case ValDef(mods, name, tpt, rhs) =>
checkForUnsupportedAwait(rhs)
val newName = builder.name.fresh(name)
toRename += (stat.symbol.toString -> newName)
// when adding assignment need to take `toRename` into account
stateBuilder.addVarDef(mods, newName, tpt, rhs, toRename)
case If(cond, thenp, elsep) =>
checkForUnsupportedAwait(cond)
val ifBudget: Int = remainingBudget / 2
remainingBudget -= ifBudget //TODO test if budget > 0
// state that we continue with after if-else: currState + ifBudget
val thenBudget: Int = ifBudget / 2
val elseBudget = ifBudget - thenBudget
asyncStates +=
// the two Int arguments are the start state of the then branch and the else branch, respectively
stateBuilder.resultWithIf(cond, currState + 1, currState + thenBudget)
List((thenp, currState + 1, thenBudget), (elsep, currState + thenBudget, elseBudget)) foreach {
case (tree, state, branchBudget) =>
val builder = builderForBranch(tree, state, currState + ifBudget, branchBudget, toRename)
asyncStates ++= builder.asyncStates
toRename ++= builder.toRename
}
// create new state builder for state `currState + ifBudget`
currState = currState + ifBudget
stateBuilder = new builder.AsyncStateBuilder(currState, toRename)
case Match(scrutinee, cases) =>
checkForUnsupportedAwait(scrutinee)
val matchBudget: Int = remainingBudget / 2
remainingBudget -= matchBudget //TODO test if budget > 0
// state that we continue with after match: currState + matchBudget
val perCaseBudget: Int = matchBudget / cases.size
asyncStates +=
// the two Int arguments are the start state of the first case and the per-case state budget, respectively
stateBuilder.resultWithMatch(scrutinee, cases, currState + 1, perCaseBudget)
for ((cas, num) <- cases.zipWithIndex) {
val (casStats, casExpr) = cas match {
case CaseDef(_, _, Block(s, e)) => (s, e)
case CaseDef(_, _, rhs) => (List(rhs), c.literalUnit.tree)
}
val builder = new AsyncBlockBuilder(casStats, casExpr, currState + (num * perCaseBudget) + 1, currState + matchBudget, perCaseBudget, toRename)
asyncStates ++= builder.asyncStates
toRename ++= builder.toRename
}
// create new state builder for state `currState + matchBudget`
currState = currState + matchBudget
stateBuilder = new builder.AsyncStateBuilder(currState, toRename)
case ClassDef(_, name, _, _) =>
// do not allow local class definitions, because of SI-5467 (specific to case classes, though)
c.error(stat.pos, s"Local class ${name.decoded} illegal within `async` block")
case ModuleDef(_, name, _) =>
// local object definitions lead to spurious type errors (because of resetAllAttrs?)
c.error(stat.pos, s"Local object ${name.decoded} illegal within `async` block")
case _ =>
checkForUnsupportedAwait(stat)
stateBuilder += stat
}
// complete last state builder (representing the expressions after the last await)
stateBuilder += expr
val lastState = stateBuilder.complete(endState).result
asyncStates += lastState
def mkCombinedHandlerCases[T](): List[CaseDef] = {
val caseForLastState: CaseDef = {
val lastState = asyncStates.last
val lastStateBody = c.Expr[T](lastState.body)
val rhs = futureSystemOps.completeProm(c.Expr[futureSystem.Prom[T]](Ident(name.result)), reify(scala.util.Success(lastStateBody.splice)))
mkHandlerCase(lastState.state, rhs.tree)
}
asyncStates.toList match {
case s :: Nil =>
List(caseForLastState)
case _ =>
val initCases = for (state <- asyncStates.toList.init) yield state.mkHandlerCaseForState()
initCases :+ caseForLastState
}
}
}
/** `termSym( (_: Foo).bar(null: A, null: B)` will return the symbol of `bar`, after overload resolution. */
private def methodSym(apply: c.Expr[Any]): Symbol = {
val tree2: Tree = c.typeCheck(apply.tree) // TODO why is this needed?
tree2.collect {
case s: SymTree if s.symbol.isMethod => s.symbol
}.headOption.getOrElse(sys.error(s"Unable to find a method symbol in ${apply.tree}"))
}
private[async] object defn {
def mkList_apply[A](args: List[Expr[A]]): Expr[List[A]] = {
c.Expr(Apply(Ident(definitions.List_apply), args.map(_.tree)))
}
def mkList_contains[A](self: Expr[List[A]])(elem: Expr[Any]) = reify(self.splice.contains(elem.splice))
def mkFunction_apply[A, B](self: Expr[Function1[A, B]])(arg: Expr[A]) = reify {
self.splice.apply(arg.splice)
}
def mkInt_+(self: Expr[Int])(other: Expr[Int]) = reify {
self.splice + other.splice
}
def mkAny_==(self: Expr[Any])(other: Expr[Any]) = reify {
self.splice == other.splice
}
def mkTry_get[A](self: Expr[util.Try[A]]) = reify {
self.splice.get
}
val Try_get = methodSym(reify((null: scala.util.Try[Any]).get))
val TryClass = c.mirror.staticClass("scala.util.Try")
val TryAnyType = appliedType(TryClass.toType, List(definitions.AnyTpe))
val NonFatalClass = c.mirror.staticModule("scala.util.control.NonFatal")
val Async_await = {
val asyncMod = c.mirror.staticModule("scala.async.Async")
val tpe = asyncMod.moduleClass.asType.toType
tpe.member(c.universe.newTermName("await"))
}
}
}
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