diff options
Diffstat (limited to 'src/reflect/scala/reflect/internal/tpe')
-rw-r--r-- | src/reflect/scala/reflect/internal/tpe/TypeComparers.scala | 46 | ||||
-rw-r--r-- | src/reflect/scala/reflect/internal/tpe/TypeMaps.scala | 9 |
2 files changed, 27 insertions, 28 deletions
diff --git a/src/reflect/scala/reflect/internal/tpe/TypeComparers.scala b/src/reflect/scala/reflect/internal/tpe/TypeComparers.scala index f9b10c90be..cf274f24bb 100644 --- a/src/reflect/scala/reflect/internal/tpe/TypeComparers.scala +++ b/src/reflect/scala/reflect/internal/tpe/TypeComparers.scala @@ -58,7 +58,7 @@ trait TypeComparers { false private def equalSymsAndPrefixes(sym1: Symbol, pre1: Type, sym2: Symbol, pre2: Type): Boolean = ( - if (sym1 == sym2) + if (sym1 eq sym2) sym1.hasPackageFlag || sym1.owner.hasPackageFlag || phase.erasedTypes || pre1 =:= pre2 else (sym1.name == sym2.name) && isUnifiable(pre1, pre2) @@ -79,7 +79,7 @@ trait TypeComparers { def isDifferentTypeConstructor(tp1: Type, tp2: Type) = !isSameTypeConstructor(tp1, tp2) private def isSameTypeConstructor(tr1: TypeRef, tr2: TypeRef): Boolean = ( - (tr1.sym == tr2.sym) + (tr1.sym eq tr2.sym) && !isDifferentType(tr1.pre, tr2.pre) ) private def isSameTypeConstructor(tp1: Type, tp2: Type): Boolean = ( @@ -222,7 +222,7 @@ trait TypeComparers { case SingleType(pre1, sym1) => tp2 match { case SingleType(pre2, sym2) => equalSymsAndPrefixes(sym1, pre1, sym2, pre2) ; case _ => false } case PolyType(ps1, res1) => tp2 match { case PolyType(ps2, res2) => equalTypeParamsAndResult(ps1, res1, ps2, res2) ; case _ => false } case ExistentialType(qs1, res1) => tp2 match { case ExistentialType(qs2, res2) => equalTypeParamsAndResult(qs1, res1, qs2, res2) ; case _ => false } - case ThisType(sym1) => tp2 match { case ThisType(sym2) => sym1 == sym2 ; case _ => false } + case ThisType(sym1) => tp2 match { case ThisType(sym2) => sym1 eq sym2 ; case _ => false } case ConstantType(c1) => tp2 match { case ConstantType(c2) => c1 == c2 ; case _ => false } case NullaryMethodType(res1) => tp2 match { case NullaryMethodType(res2) => res1 =:= res2 ; case _ => false } case TypeBounds(lo1, hi1) => tp2 match { case TypeBounds(lo2, hi2) => lo1 =:= lo2 && hi1 =:= hi2 ; case _ => false } @@ -344,7 +344,7 @@ trait TypeComparers { // in the same class, and the 'x' in the ThisType has in its override chain // the 'x' in the SuperType, then the types conform. private def isThisAndSuperSubtype(tp1: Type, tp2: Type): Boolean = (tp1, tp2) match { - case (SingleType(ThisType(lpre), v1), SingleType(SuperType(ThisType(rpre), _), v2)) => (lpre == rpre) && (v1.overrideChain contains v2) + case (SingleType(ThisType(lpre), v1), SingleType(SuperType(ThisType(rpre), _), v2)) => (lpre eq rpre) && (v1.overrideChain contains v2) case _ => false } @@ -361,8 +361,8 @@ trait TypeComparers { false } - ( tp1.typeSymbol == NothingClass // @M Nothing is subtype of every well-kinded type - || tp2.typeSymbol == AnyClass // @M Any is supertype of every well-kinded type (@PP: is it? What about continuations plugin?) + ( (tp1.typeSymbol eq NothingClass) // @M Nothing is subtype of every well-kinded type + || (tp2.typeSymbol eq AnyClass) // @M Any is supertype of every well-kinded type (@PP: is it? What about continuations plugin?) || isSub(tp1.normalize, tp2.normalize) && annotationsConform(tp1, tp2) // @M! normalize reduces higher-kinded case to PolyType's ) } @@ -394,7 +394,7 @@ trait TypeComparers { val sym2 = tr2.sym val pre1 = tr1.pre val pre2 = tr2.pre - (((if (sym1 == sym2) phase.erasedTypes || sym1.owner.hasPackageFlag || isSubType(pre1, pre2, depth) + (((if (sym1 eq sym2) phase.erasedTypes || sym1.owner.hasPackageFlag || isSubType(pre1, pre2, depth) else (sym1.name == sym2.name && !sym1.isModuleClass && !sym2.isModuleClass && (isUnifiable(pre1, pre2) || isSameSpecializedSkolem(sym1, sym2, pre1, pre2) || @@ -403,7 +403,9 @@ trait TypeComparers { || sym2.isClass && { val base = tr1 baseType sym2 - (base ne tr1) && isSubType(base, tr2, depth) + // During bootstrap, `base eq NoType` occurs about 2.5 times as often as `base ne NoType`. + // The extra check seems like a worthwhile optimization (about 2.5M useless calls to isSubtype saved during that run). + (base ne tr1) && (base ne NoType) && isSubType(base, tr2, depth) } || thirdTryRef(tr1, tr2)) @@ -463,7 +465,7 @@ trait TypeComparers { case SingletonClass => tp1.isStable || fourthTry case _: ClassSymbol => classOnRight case _: TypeSymbol if sym2.isDeferred => abstractTypeOnRight(tp2.bounds.lo) || fourthTry - case _: TypeSymbol => retry(tp1.normalize, tp2.normalize) + case _: TypeSymbol => retry(normalizePlus(tp1), normalizePlus(tp2)) case _ => fourthTry } } @@ -517,7 +519,7 @@ trait TypeComparers { * - handle typerefs, refined types, and singleton types. */ def fourthTry = { - def retry(lhs: Type, rhs: Type) = isSubType(lhs, rhs, depth) + def retry(lhs: Type, rhs: Type) = ((tp1 ne lhs) || (tp2 ne rhs)) && isSubType(lhs, rhs, depth) def abstractTypeOnLeft(hi: Type) = isDifferentTypeConstructor(tp1, hi) && retry(hi, tp2) tp1 match { @@ -526,22 +528,16 @@ trait TypeComparers { case TypeRef(_, sym2, _) => sym1 isBottomSubClass sym2 case _ => isSingleType(tp2) && retry(tp1, tp2.widen) } - def moduleOnLeft = tp2 match { - case SingleType(pre2, sym2) => equalSymsAndPrefixes(sym1.sourceModule, pre1, sym2, pre2) - case _ => false - } - def classOnLeft = ( - if (isRawType(tp1)) retry(rawToExistential(tp1), tp2) - else if (sym1.isModuleClass) moduleOnLeft - else sym1.isRefinementClass && retry(sym1.info, tp2) - ) + sym1 match { - case NothingClass => true - case NullClass => nullOnLeft - case _: ClassSymbol => classOnLeft - case _: TypeSymbol if sym1.isDeferred => abstractTypeOnLeft(tp1.bounds.hi) - case _: TypeSymbol => retry(tp1.normalize, tp2.normalize) - case _ => false + case NothingClass => true + case NullClass => nullOnLeft + case _: ClassSymbol if isRawType(tp1) => retry(normalizePlus(tp1), normalizePlus(tp2)) + case _: ClassSymbol if sym1.isModuleClass => retry(normalizePlus(tp1), normalizePlus(tp2)) + case _: ClassSymbol if sym1.isRefinementClass => retry(sym1.info, tp2) + case _: TypeSymbol if sym1.isDeferred => abstractTypeOnLeft(tp1.bounds.hi) + case _: TypeSymbol => retry(normalizePlus(tp1), normalizePlus(tp2)) + case _ => false } case RefinedType(parents, _) => parents exists (retry(_, tp2)) case _: SingletonType => retry(tp1.underlying, tp2) diff --git a/src/reflect/scala/reflect/internal/tpe/TypeMaps.scala b/src/reflect/scala/reflect/internal/tpe/TypeMaps.scala index 804360b677..af5128163b 100644 --- a/src/reflect/scala/reflect/internal/tpe/TypeMaps.scala +++ b/src/reflect/scala/reflect/internal/tpe/TypeMaps.scala @@ -449,12 +449,15 @@ private[internal] trait TypeMaps { (pre eq NoType) || (pre eq NoPrefix) || !isPossiblePrefix(clazz) ) - def newAsSeenFromMap(pre: Type, clazz: Symbol): AsSeenFromMap = - new AsSeenFromMap(pre, clazz) + @deprecated("Use new AsSeenFromMap instead", "2.12.0") + final def newAsSeenFromMap(pre: Type, clazz: Symbol): AsSeenFromMap = new AsSeenFromMap(pre, clazz) /** A map to compute the asSeenFrom method. */ - class AsSeenFromMap(seenFromPrefix: Type, seenFromClass: Symbol) extends TypeMap with KeepOnlyTypeConstraints { + class AsSeenFromMap(seenFromPrefix0: Type, seenFromClass: Symbol) extends TypeMap with KeepOnlyTypeConstraints { + private val seenFromPrefix: Type = if (seenFromPrefix0.typeSymbolDirect.hasPackageFlag && !seenFromClass.hasPackageFlag) + seenFromPrefix0.packageObject.typeOfThis + else seenFromPrefix0 // Some example source constructs relevant in asSeenFrom: // // object CaptureThis { |