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package scala.reflect.reify
package codegen
trait Symbols {
self: Reifier =>
import mirror._
import definitions._
import treeInfo._
/** Reify a reference to a symbol */
def reifySymRef(sym0: Symbol): Tree = {
assert(sym0 != null, "sym is null")
val sym = sym0.dealias
if (sym == NoSymbol)
mirrorSelect(nme.NoSymbol)
else if (sym == RootPackage)
Select(mirrorSelect(nme.definitions), nme.RootPackage)
else if (sym == RootClass)
Select(mirrorSelect(nme.definitions), nme.RootClass)
else if (sym == EmptyPackage)
Select(mirrorSelect(nme.definitions), nme.EmptyPackage)
else if (sym == EmptyPackageClass)
Select(mirrorSelect(nme.definitions), nme.EmptyPackageClass)
else if (sym.isModuleClass)
Select(reify(sym.sourceModule), nme.moduleClass)
else if (sym.isLocatable) {
// [Eugene] am I doing this right?
// if (sym.isStaticOwner) { // no good for us, because it returns false for packages
if (sym.isStatic && (sym.isClass || sym.isModule)) {
val resolver = if (sym.isType) nme.staticClass else nme.staticModule
mirrorCall(resolver, reify(sym.fullName))
} else {
if (reifyDebug) println("Locatable: %s (%s) owned by %s (%s) at %s".format(sym, sym.accurateKindString, sym.owner, sym.owner.accurateKindString, sym.owner.fullNameString))
val rowner = reify(sym.owner)
val rname = reify(sym.name.toString)
if (sym.isType)
mirrorCall(nme.selectType, rowner, rname)
else if (sym.isMethod && sym.owner.isClass && sym.owner.info.decl(sym.name).isOverloaded) {
val index = sym.owner.info.decl(sym.name).alternatives indexOf sym
assert(index >= 0, sym)
mirrorCall(nme.selectOverloadedMethod, rowner, rname, reify(index))
} else
mirrorCall(nme.selectTerm, rowner, rname)
}
} else {
// todo. make sure that free methods and free local defs work correctly
if (sym.isTerm) reifyFreeTerm(sym, Ident(sym))
else reifyFreeType(sym, Ident(sym))
}
}
def reifyFreeTerm(sym: Symbol, value: Tree): Tree =
locallyReified get sym match {
case Some(reified) =>
reified
case None =>
if (reifyDebug) println("Free term" + (if (sym.isCapturedVariable) " (captured)" else "") + ": " + sym + "(" + sym.accurateKindString + ")")
var name = newTermName(nme.MIRROR_FREE_PREFIX + sym.name)
if (sym.isType) name = name.append(nme.MIRROR_FREE_THIS_SUFFIX)
if (sym.isCapturedVariable) {
assert(value.isInstanceOf[Ident], showRaw(value))
val capturedTpe = capturedVariableType(sym)
val capturedValue = referenceCapturedVariable(sym)
locallyReify(sym, name, mirrorCall(nme.newFreeTerm, reify(sym.name.toString), reify(capturedTpe), capturedValue, reify(sym.flags), reify(origin(sym))))
} else {
locallyReify(sym, name, mirrorCall(nme.newFreeTerm, reify(sym.name.toString), reify(sym.tpe), value, reify(sym.flags), reify(origin(sym))))
}
}
def reifyFreeType(sym: Symbol, value: Tree): Tree =
locallyReified get sym match {
case Some(reified) =>
reified
case None =>
if (reifyDebug) println("Free type: %s (%s)".format(sym, sym.accurateKindString))
var name = newTermName(nme.MIRROR_FREE_PREFIX + sym.name)
val phantomTypeTag = Apply(TypeApply(Select(Ident(nme.MIRROR_SHORT), nme.TypeTag), List(value)), List(Literal(Constant(null)), Literal(Constant(null))))
val flavor = if (sym.isExistential) nme.newFreeExistential else nme.newFreeType
locallyReify(sym, name, mirrorCall(flavor, reify(sym.name.toString), reify(sym.info), phantomTypeTag, reify(sym.flags), reify(origin(sym))))
}
def reifySymDef(sym: Symbol): Tree =
locallyReified get sym match {
case Some(reified) =>
reified
case None =>
if (reifyDebug) println("Sym def: %s (%s)".format(sym, sym.accurateKindString))
assert(!sym.isLocatable, sym) // if this assertion fires, then tough type reification needs to be rethought
sym.owner.ownersIterator find (!_.isLocatable) foreach reifySymDef
var name = newTermName(nme.MIRROR_SYMDEF_PREFIX + sym.name)
locallyReify(sym, name, Apply(Select(reify(sym.owner), nme.newNestedSymbol), List(reify(sym.name), reify(sym.pos), reify(sym.flags), reify(sym.isClass))))
}
// todo. very brittle abstraction, needs encapsulation
import scala.collection.mutable._
private val localReifications = ArrayBuffer[Tree]()
private val locallyReified = Map[Symbol, Tree]()
private var filledIn = false
def symbolTable: List[Tree] = { fillInSymbolTable(); localReifications.toList }
def symbolTable_=(newSymbolTable: List[Tree]): Unit = {
localReifications.clear()
locallyReified.clear()
filledIn = false
newSymbolTable foreach {
case entry =>
val att = entry.attachmentOpt[ReifyAttachment]
att match {
case Some(ReifyAttachment(sym)) =>
// don't duplicate reified symbols when merging inlined reifee
if (!(locallyReified contains sym)) {
val ValDef(_, name, _, _) = entry
localReifications += entry
locallyReified(sym) = Ident(name)
}
case other =>
// do nothing => symbol table fill-ins will be repopulated later
}
}
}
private def localName(name0: TermName): TermName = {
var name = name0.toString
name = name.replace(".type", "$type")
name = name.replace(" ", "$")
val fresh = typer.context.unit.fresh
newTermName(fresh.newName(name))
}
private def locallyReify(sym: Symbol, name0: TermName, reificode: => Tree): Tree = {
val reified = reificode
val name = localName(name0)
// todo. tried to declare a private class here to carry an attachment, but it's path-dependent
// so got troubles with exchanging free variables between nested and enclosing quasiquotes
// attaching just Symbol isn't good either, so we need to think of a principled solution
val local = ValDef(NoMods, name, TypeTree(), reified) withAttachment ReifyAttachment(sym)
localReifications += local
filledIn = false
locallyReified(sym) = Ident(name)
locallyReified(sym)
}
/** Sets type signatures and annotations for locally reified symbols */
private def fillInSymbolTable() = {
if (!filledIn) {
val fillIns = new ArrayBuffer[Tree]
var i = 0
while (i < localReifications.length) {
// fillInSymbol might create new locallyReified symbols, that's why this is done iteratively
val reified = localReifications(i)
val att = reified.attachmentOpt[ReifyAttachment]
att match {
case Some(ReifyAttachment(sym)) => fillIns += fillInSymbol(sym)
case other => // do nothing
}
i += 1
}
filledIn = true
localReifications ++= fillIns.toList
}
}
/** Generate code to add type and annotation info to a reified symbol */
private def fillInSymbol(sym: Symbol): Tree = {
if (reifyDebug) println("Filling in: %s (%s)".format(sym, sym.accurateKindString))
val isFree = locallyReified(sym) match { case Ident(name) => name startsWith nme.MIRROR_FREE_PREFIX }
if (isFree) {
if (sym.annotations.isEmpty) EmptyTree
else Apply(Select(locallyReified(sym), nme.setAnnotations), List(reify(sym.annotations)))
} else {
import scala.reflect.internal.Flags._
if (sym hasFlag LOCKED) {
// [Eugene] better to have a symbol without a type signature, than to crash with a CyclicReference
EmptyTree
} else {
val rset = Apply(Select(locallyReified(sym), nme.setTypeSignature), List(reify(sym.info)))
if (sym.annotations.isEmpty) rset
else Apply(Select(rset, nme.setAnnotations), List(reify(sym.annotations)))
}
}
}
}
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