package dotty.tools.dotc
package transform
import dotty.tools.dotc.typer.Mode
import scala.collection.mutable
import core._
import Contexts._
import Symbols._
import Decorators._
import NameOps._
import StdNames.nme
import dotty.tools.dotc.transform.TreeTransforms.{TransformerInfo, TreeTransformer, MiniPhaseTransform}
import dotty.tools.dotc.ast.Trees._
import dotty.tools.dotc.ast.{untpd, tpd}
import dotty.tools.dotc.core.Constants.Constant
import dotty.tools.dotc.core.Types.{ExprType, NoType, MethodType}
import dotty.tools.dotc.core.Names.Name
import SymUtils._
import scala.collection.mutable.ListBuffer
import dotty.tools.dotc.core.Denotations.SingleDenotation
import dotty.tools.dotc.core.SymDenotations.SymDenotation
import dotty.tools.dotc.core.DenotTransformers.{SymTransformer, IdentityDenotTransformer, DenotTransformer}
import Erasure.Boxing.adaptToType
class LazyVals extends MiniPhaseTransform with IdentityDenotTransformer {
import LazyVals._
import tpd._
def transformer = new LazyVals
val containerFlags = Flags.Synthetic | Flags.Mutable | Flags.Lazy
val initFlags = Flags.Synthetic | Flags.Method
val containerFlagsMask = Flags.Method | Flags.Lazy | Flags.Accessor | Flags.Module
/** this map contains mutable state of transformation: OffsetDefs to be appended to companion object definitions,
* and number of bits currently used */
class OffsetInfo(var defs: List[Tree], var ord:Int)
val appendOffsetDefs = mutable.Map.empty[Symbol, OffsetInfo]
override def phaseName: String = "LazyVals"
/** List of names of phases that should have finished processing of tree
* before this phase starts processing same tree */
override def runsAfter = Set(classOf[Mixin])
override def transformDefDef(tree: DefDef)(implicit ctx: Context, info: TransformerInfo): Tree = {
if (!(tree.symbol is Flags.Lazy) || tree.symbol.owner.is(Flags.Trait)) tree
else {
val isField = tree.symbol.owner.isClass
if (isField) {
if (tree.symbol.isVolatile || tree.symbol.is(Flags.Module)) transformMemberDefVolatile(tree)
else transformMemberDefNonVolatile(tree)
}
else transformLocalDef(tree)
}
}
/** Append offset fields to companion objects
*/
override def transformTemplate(template: tpd.Template)(implicit ctx: Context, info: TransformerInfo): tpd.Tree = {
val cls = ctx.owner.asClass
appendOffsetDefs.get(cls) match {
case None => template
case Some(data) =>
cpy.Template(template)(body = addInFront(data.defs, template.body))
}
}
private def addInFront(prefix: List[Tree], stats: List[Tree]) = stats match {
case first :: rest if isSuperConstrCall(first) => first :: prefix ::: rest
case _ => prefix ::: stats
}
/** Replace a local lazy val inside a method,
* with a LazyHolder from
* dotty.runtime(eg dotty.runtime.LazyInt)
*/
def transformLocalDef(x: DefDef)(implicit ctx: Context) = {
val valueInitter = x.rhs
val holderName = ctx.freshName(x.name ++ StdNames.nme.LAZY_LOCAL).toTermName
val initName = ctx.freshName(x.name ++ StdNames.nme.LAZY_LOCAL_INIT).toTermName
val tpe = x.tpe.widen.resultType.widen
val holderType =
if (tpe isRef defn.IntClass) "LazyInt"
else if (tpe isRef defn.LongClass) "LazyLong"
else if (tpe isRef defn.BooleanClass) "LazyBoolean"
else if (tpe isRef defn.FloatClass) "LazyFloat"
else if (tpe isRef defn.DoubleClass) "LazyDouble"
else if (tpe isRef defn.ByteClass) "LazyByte"
else if (tpe isRef defn.CharClass) "LazyChar"
else if (tpe isRef defn.ShortClass) "LazyShort"
else "LazyRef"
val holderImpl = ctx.requiredClass("dotty.runtime." + holderType)
val holderSymbol = ctx.newSymbol(x.symbol.owner, holderName, containerFlags, holderImpl.typeRef, coord = x.pos)
val initSymbol = ctx.newSymbol(x.symbol.owner, initName, initFlags, MethodType(Nil, tpe), coord = x.pos)
val result = ref(holderSymbol).select(lazyNme.value)
val flag = ref(holderSymbol).select(lazyNme.initialized)
val initer = valueInitter.changeOwner(x.symbol, initSymbol)
val initBody =
adaptToType(
ref(holderSymbol).select(defn.Object_synchronized).appliedTo(
adaptToType(mkNonThreadSafeDef(result, flag, initer), defn.ObjectType)),
tpe)
val initTree = DefDef(initSymbol, initBody)
val holderTree = ValDef(holderSymbol, New(holderImpl.typeRef, List()))
val methodBody = tpd.If(flag.ensureApplied,
result.ensureApplied,
ref(initSymbol).ensureApplied).ensureConforms(tpe)
val methodTree = DefDef(x.symbol.asTerm, methodBody)
ctx.debuglog(s"found a lazy val ${x.show},\n rewrote with ${holderTree.show}")
Thicket(holderTree, initTree, methodTree)
}
override def transformStats(trees: List[tpd.Tree])(implicit ctx: Context, info: TransformerInfo): List[tpd.Tree] = {
// backend requires field usage to be after field definition
// need to bring containers to start of method
val (holders, stats) =
atGroupEnd { implicit ctx: Context =>
trees.partition {
_.symbol.flags.&~(Flags.Touched) == containerFlags
// Filtering out Flags.Touched is not required currently, as there are no LazyTypes involved here
// but just to be more safe
}
}
holders:::stats
}
/** Create non-threadsafe lazy accessor equivalent to such code
* def methodSymbol() = {
* if (flag) target
* else {
* target = rhs
* flag = true
* target
* }
* }
*/
def mkNonThreadSafeDef(target: Tree, flag: Tree, rhs: Tree)(implicit ctx: Context) = {
val setFlag = flag.becomes(Literal(Constants.Constant(true)))
val setTargets = if (isWildcardArg(rhs)) Nil else target.becomes(rhs) :: Nil
val init = Block(setFlag :: setTargets, target.ensureApplied)
If(flag.ensureApplied, target.ensureApplied, init)
}
/** Create non-threadsafe lazy accessor for not-nullable types equivalent to such code
* def methodSymbol() = {
* if (target eq null) {
* target = rhs
* target
* } else target
* }
*/
def mkDefNonThreadSafeNonNullable(target: Symbol, rhs: Tree)(implicit ctx: Context) = {
val cond = ref(target).select(nme.eq).appliedTo(Literal(Constant(null)))
val exp = ref(target)
val setTarget = exp.becomes(rhs)
val init = Block(List(setTarget), exp)
If(cond, init, exp)
}
def transformMemberDefNonVolatile(x: DefDef)(implicit ctx: Context) = {
val claz = x.symbol.owner.asClass
val tpe = x.tpe.widen.resultType.widen
assert(!(x.mods is Flags.Mutable))
val containerName = ctx.freshName(x.name ++ StdNames.nme.LAZY_LOCAL).toTermName
val containerSymbol = ctx.newSymbol(claz, containerName,
x.symbol.flags &~ containerFlagsMask | containerFlags | Flags.Private,
tpe, coord = x.symbol.coord
).enteredAfter(this)
val containerTree = ValDef(containerSymbol, defaultValue(tpe))
if (x.tpe.isNotNull && tpe <:< defn.ObjectType) { // can use 'null' value instead of flag
val slowPath = DefDef(x.symbol.asTerm, mkDefNonThreadSafeNonNullable(containerSymbol, x.rhs))
Thicket(List(containerTree, slowPath))
}
else {
val flagName = ctx.freshName(x.name ++ StdNames.nme.BITMAP_PREFIX).toTermName
val flagSymbol = ctx.newSymbol(x.symbol.owner, flagName, containerFlags | Flags.Private, defn.BooleanType).enteredAfter(this)
val flag = ValDef(flagSymbol, Literal(Constants.Constant(false)))
val slowPath = DefDef(x.symbol.asTerm, mkNonThreadSafeDef(ref(containerSymbol), ref(flagSymbol), x.rhs))
Thicket(List(containerTree, flag, slowPath))
}
}
/** Create a threadsafe lazy accessor equivalent to such code
*
* def methodSymbol(): Int = {
* val result: Int = 0
* val retry: Boolean = true
* var flag: Long = 0L
* while retry do {
* flag = dotty.runtime.LazyVals.get(this, $claz.$OFFSET)
* dotty.runtime.LazyVals.STATE(flag, 0) match {
* case 0 =>
* if dotty.runtime.LazyVals.CAS(this, $claz.$OFFSET, flag, 1, $ord) {
* try {result = rhs} catch {
* case x: Throwable =>
* dotty.runtime.LazyVals.setFlag(this, $claz.$OFFSET, 0, $ord)
* throw x
* }
* $target = result
* dotty.runtime.LazyVals.setFlag(this, $claz.$OFFSET, 3, $ord)
* retry = false
* }
* case 1 =>
* dotty.runtime.LazyVals.wait4Notification(this, $claz.$OFFSET, flag, $ord)
* case 2 =>
* dotty.runtime.LazyVals.wait4Notification(this, $claz.$OFFSET, flag, $ord)
* case 3 =>
* retry = false
* result = $target
* }
* }
* result
* }
*/
def mkThreadSafeDef(methodSymbol: TermSymbol, claz: ClassSymbol, ord: Int, target: Symbol, rhs: Tree, tp: Types.Type, offset: Tree, getFlag: Tree, stateMask: Tree, casFlag: Tree, setFlagState: Tree, waitOnLock: Tree)(implicit ctx: Context) = {
val initState = Literal(Constants.Constant(0))
val computeState = Literal(Constants.Constant(1))
val notifyState = Literal(Constants.Constant(2))
val computedState = Literal(Constants.Constant(3))
val flagSymbol = ctx.newSymbol(methodSymbol, lazyNme.flag, containerFlags, defn.LongType)
val flagDef = ValDef(flagSymbol, Literal(Constant(0L)))
val thiz = This(claz)(ctx.fresh.setOwner(claz))
val resultSymbol = ctx.newSymbol(methodSymbol, lazyNme.result, containerFlags, tp)
val resultDef = ValDef(resultSymbol, defaultValue(tp))
val retrySymbol = ctx.newSymbol(methodSymbol, lazyNme.retry, containerFlags, defn.BooleanType)
val retryDef = ValDef(retrySymbol, Literal(Constants.Constant(true)))
val whileCond = ref(retrySymbol)
val compute = {
val handlerSymbol = ctx.newSymbol(methodSymbol, nme.ANON_FUN, Flags.Synthetic,
MethodType(List(nme.x_1), List(defn.ThrowableType), defn.IntType))
val caseSymbol = ctx.newSymbol(methodSymbol, nme.DEFAULT_EXCEPTION_NAME, Flags.Synthetic, defn.ThrowableType)
val complete = setFlagState.appliedTo(thiz, offset, initState, Literal(Constant(ord)))
val handler = CaseDef(Bind(caseSymbol, ref(caseSymbol)), EmptyTree,
Block(List(complete), Throw(ref(caseSymbol))
))
val compute = ref(resultSymbol).becomes(rhs)
val tr = Try(compute, List(handler), EmptyTree)
val assign = ref(target).becomes(ref(resultSymbol))
val noRetry = ref(retrySymbol).becomes(Literal(Constants.Constant(false)))
val body = If(casFlag.appliedTo(thiz, offset, ref(flagSymbol), computeState, Literal(Constant(ord))),
Block(tr :: assign :: complete :: noRetry :: Nil, Literal(Constant(()))),
Literal(Constant(())))
CaseDef(initState, EmptyTree, body)
}
val waitFirst = {
val wait = waitOnLock.appliedTo(thiz, offset, ref(flagSymbol), Literal(Constant(ord)))
CaseDef(computeState, EmptyTree, wait)
}
val waitSecond = {
val wait = waitOnLock.appliedTo(thiz, offset, ref(flagSymbol), Literal(Constant(ord)))
CaseDef(notifyState, EmptyTree, wait)
}
val computed = {
val noRetry = ref(retrySymbol).becomes(Literal(Constants.Constant(false)))
val result = ref(resultSymbol).becomes(ref(target))
val body = Block(noRetry :: result :: Nil, Literal(Constant(())))
CaseDef(computedState, EmptyTree, body)
}
val default = CaseDef(Underscore(defn.LongType), EmptyTree, Literal(Constant(())))
val cases = Match(stateMask.appliedTo(ref(flagSymbol), Literal(Constant(ord))),
List(compute, waitFirst, waitSecond, computed, default)) //todo: annotate with @switch
val whileBody = List(ref(flagSymbol).becomes(getFlag.appliedTo(thiz, offset)), cases)
val cycle = WhileDo(methodSymbol, whileCond, whileBody)
DefDef(methodSymbol, Block(resultDef :: retryDef :: flagDef :: cycle :: Nil, ref(resultSymbol)))
}
def transformMemberDefVolatile(x: DefDef)(implicit ctx: Context) = {
assert(!(x.mods is Flags.Mutable))
val tpe = x.tpe.widen.resultType.widen
val claz = x.symbol.owner.asClass
val thizClass = Literal(Constant(claz.info))
val companion = claz.companionModule
val helperModule = ctx.requiredModule("dotty.runtime.LazyVals")
val getOffset = Select(ref(helperModule), lazyNme.RLazyVals.getOffset)
var offsetSymbol: TermSymbol = null
var flag: Tree = EmptyTree
var ord = 0
// compute or create appropriate offsetSymol, bitmap and bits used by current ValDef
appendOffsetDefs.get(companion.moduleClass) match {
case Some(info) =>
val flagsPerLong = 64 / dotty.runtime.LazyVals.BITS_PER_LAZY_VAL
info.ord += 1
ord = info.ord % flagsPerLong
val id = info.ord / flagsPerLong
if (ord != 0) { // there are unused bits in already existing flag
offsetSymbol = companion.moduleClass.info.decl((StdNames.nme.LAZY_FIELD_OFFSET + id.toString).toTermName)
.suchThat(sym => (sym is Flags.Synthetic) && sym.isTerm)
.symbol.asTerm
} else { // need to create a new flag
offsetSymbol = ctx.newSymbol(companion.moduleClass, (StdNames.nme.LAZY_FIELD_OFFSET + id.toString).toTermName, Flags.Synthetic, defn.LongType).enteredAfter(this)
val flagName = (StdNames.nme.BITMAP_PREFIX + id.toString).toTermName
val flagSymbol = ctx.newSymbol(claz, flagName, containerFlags, defn.LongType).enteredAfter(this)
flag = ValDef(flagSymbol, Literal(Constants.Constant(0L)))
val offsetTree = ValDef(offsetSymbol, getOffset.appliedTo(thizClass, Literal(Constant(flagName.toString))))
info.defs = offsetTree :: info.defs
}
case None =>
offsetSymbol = ctx.newSymbol(companion.moduleClass, (StdNames.nme.LAZY_FIELD_OFFSET + "0").toTermName, Flags.Synthetic, defn.LongType).enteredAfter(this)
val flagName = (StdNames.nme.BITMAP_PREFIX + "0").toTermName
val flagSymbol = ctx.newSymbol(claz, flagName, containerFlags, defn.LongType).enteredAfter(this)
flag = ValDef(flagSymbol, Literal(Constants.Constant(0L)))
val offsetTree = ValDef(offsetSymbol, getOffset.appliedTo(thizClass, Literal(Constant(flagName.toString))))
appendOffsetDefs += (companion.moduleClass -> new OffsetInfo(List(offsetTree), ord))
}
val containerName = ctx.freshName(x.name ++ StdNames.nme.LAZY_LOCAL).toTermName
val containerSymbol = ctx.newSymbol(claz, containerName, (x.mods &~ containerFlagsMask | containerFlags).flags, tpe, coord = x.symbol.coord).enteredAfter(this)
val containerTree = ValDef(containerSymbol, defaultValue(tpe))
val offset = ref(companion).ensureApplied.select(offsetSymbol)
val getFlag = Select(ref(helperModule), lazyNme.RLazyVals.get)
val setFlag = Select(ref(helperModule), lazyNme.RLazyVals.setFlag)
val wait = Select(ref(helperModule), lazyNme.RLazyVals.wait4Notification)
val state = Select(ref(helperModule), lazyNme.RLazyVals.state)
val cas = Select(ref(helperModule), lazyNme.RLazyVals.cas)
val accessor = mkThreadSafeDef(x.symbol.asTerm, claz, ord, containerSymbol, x.rhs, tpe, offset, getFlag, state, cas, setFlag, wait)
if (flag eq EmptyTree)
Thicket(List(containerTree, accessor))
else Thicket(List(containerTree, flag, accessor))
}
}
object LazyVals {
object lazyNme {
object RLazyVals {
import dotty.runtime.LazyVals._
val get = Names.get.toTermName
val setFlag = Names.setFlag.toTermName
val wait4Notification = Names.wait4Notification.toTermName
val state = Names.state.toTermName
val cas = Names.cas.toTermName
val getOffset = Names.getOffset.toTermName
}
val flag = "flag".toTermName
val result = "result".toTermName
val value = "value".toTermName
val initialized = "initialized".toTermName
val retry = "retry".toTermName
}
}