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package dotty.tools.dotc.transform
import dotty.tools.dotc.ast.{Trees, tpd}
import dotty.tools.dotc.core.Annotations.Annotation
import dotty.tools.dotc.core.Contexts.Context
import dotty.tools.dotc.core.DenotTransformers.{InfoTransformer, SymTransformer}
import dotty.tools.dotc.core.SymDenotations.SymDenotation
import dotty.tools.dotc.core.Decorators._
import dotty.tools.dotc.core.NameOps._
import dotty.tools.dotc.core.{Flags, Names}
import dotty.tools.dotc.core.Names.Name
import dotty.tools.dotc.core.Symbols._
import dotty.tools.dotc.core.Types.MethodType
import dotty.tools.dotc.transform.TreeTransforms.{MiniPhaseTransform, TransformerInfo}
/** Move static methods from companion to the class itself */
class MoveStatics extends MiniPhaseTransform with SymTransformer { thisTransformer =>
import tpd._
override def phaseName = "moveStatic"
def transformSym(sym: SymDenotation)(implicit ctx: Context): SymDenotation = {
if (sym.hasAnnotation(defn.ScalaStaticAnnot) && sym.owner.is(Flags.Module) && sym.owner.companionClass.exists) {
sym.owner.asClass.delete(sym.symbol)
sym.owner.companionClass.asClass.enter(sym.symbol)
val flags = if (sym.is(Flags.Method)) sym.flags else sym.flags | Flags.Mutable
sym.copySymDenotation(owner = sym.owner.companionClass, initFlags = flags)
}
else sym
}
override def transformStats(trees: List[Tree])(implicit ctx: Context, info: TransformerInfo): List[Tree] = {
if (ctx.owner.is(Flags.Package)) {
val (classes, others) = trees.partition(x => x.isInstanceOf[TypeDef] && x.symbol.isClass)
val pairs = classes.groupBy(_.symbol.name.stripModuleClassSuffix).asInstanceOf[Map[Name, List[TypeDef]]]
def rebuild(orig: TypeDef, newBody: List[Tree]): Tree = {
if (orig eq null) return EmptyTree
val staticFields = newBody.filter(x => x.isInstanceOf[ValDef] && x.symbol.hasAnnotation(defn.ScalaStaticAnnot)).asInstanceOf[List[ValDef]]
val newBodyWithStaticConstr =
if (staticFields.nonEmpty) {
/* do NOT put Flags.JavaStatic here. It breaks .enclosingClass */
val staticCostructor = ctx.newSymbol(orig.symbol, Names.STATIC_CONSTRUCTOR, Flags.Synthetic | Flags.Method | Flags.Private, MethodType(Nil, defn.UnitType))
staticCostructor.addAnnotation(Annotation(defn.ScalaStaticAnnot))
staticCostructor.entered
val staticAssigns = staticFields.map(x => Assign(ref(x.symbol), x.rhs.changeOwner(x.symbol, staticCostructor)))
tpd.DefDef(staticCostructor, Block(staticAssigns, tpd.unitLiteral)) :: newBody
} else newBody
val oldTemplate = orig.rhs.asInstanceOf[Template]
cpy.TypeDef(orig)(rhs = cpy.Template(orig.rhs)(oldTemplate.constr, oldTemplate.parents, oldTemplate.self, newBodyWithStaticConstr))
}
def move(module: TypeDef, companion: TypeDef): List[Tree] = {
if (!module.symbol.is(Flags.Module)) move(companion, module)
else {
val allMembers =
(if(companion ne null) {companion.rhs.asInstanceOf[Template].body} else Nil) ++
module.rhs.asInstanceOf[Template].body
val (newModuleBody, newCompanionBody) = allMembers.partition(x => {assert(x.symbol.exists); x.symbol.owner == module.symbol})
Trees.flatten(rebuild(companion, newCompanionBody) :: rebuild(module, newModuleBody) :: Nil)
}
}
val newPairs =
for ((name, classes) <- pairs)
yield
if (classes.tail.isEmpty)
if (classes.head.symbol.is(Flags.Module)) move(classes.head, null)
else List(rebuild(classes.head, classes.head.rhs.asInstanceOf[Template].body))
else move(classes.head, classes.tail.head)
Trees.flatten(newPairs.toList.flatten ++ others)
} else trees
}
}
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