diff options
Diffstat (limited to 'test/files/jvm/innerClassAttribute')
-rw-r--r-- | test/files/jvm/innerClassAttribute/Classes_1.scala | 38 | ||||
-rw-r--r-- | test/files/jvm/innerClassAttribute/Test.scala | 78 |
2 files changed, 112 insertions, 4 deletions
diff --git a/test/files/jvm/innerClassAttribute/Classes_1.scala b/test/files/jvm/innerClassAttribute/Classes_1.scala index 9c3ea7f013..a2ade70c18 100644 --- a/test/files/jvm/innerClassAttribute/Classes_1.scala +++ b/test/files/jvm/innerClassAttribute/Classes_1.scala @@ -185,3 +185,41 @@ trait A24 extends A24Base { override object Conc extends A24Sym } } + +class SI_9105 { + // the EnclosingMethod attributes depend on the delambdafy strategy (inline vs method) + + // outerClass-inline enclMeth-inline outerClass-method enclMeth-method + val fun = () => { + class A // closure null (*) SI_9105 null + def m: Object = { class B; new B } // closure m$1 SI_9105 m$1 + val f: Object = { class C; new C } // closure null (*) SI_9105 null + } + def met = () => { + class D // closure null (*) SI_9105 met + def m: Object = { class E; new E } // closure m$1 SI_9105 m$1 + val f: Object = { class F; new F } // closure null (*) SI_9105 met + } + + // (*) the originalOwner chain of A (similar for D) is: SI_9105.fun.$anonfun-value.A + // we can get to the anonfun-class (created by uncurry), but not to the apply method. + // + // for C and F, the originalOwner chain is fun.$anonfun-value.f.C. at later phases, the rawowner of f is + // an apply$sp method of the closure class. we could use that as enclosing method, but it would be unsystematic + // (A / D don't have an encl meth either), and also strange to use the $sp, which is a compilation artifact. + // So using `null` looks more like the situation in the source code: C / F are nested classes of the anon-fun, and + // there's no method in between. + + def byName[T](op: => T) = 0 + + val bnV = byName { + class G // closure null (*) SI_9105 null + def m: Object = { class H; new H } // closure m$1 SI_9105 m$1 + val f: Object = { class I; new I } // closure null (*) SI_9105 null + } + def bnM = byName { + class J // closure null (*) SI_9105 bnM + def m: Object = { class K; new K } // closure m$1 SI_9105 m$1 + val f: Object = { class L; new L } // closure null (*) SI_9105 bnM + } +} diff --git a/test/files/jvm/innerClassAttribute/Test.scala b/test/files/jvm/innerClassAttribute/Test.scala index 3820048cb4..30dc412ff7 100644 --- a/test/files/jvm/innerClassAttribute/Test.scala +++ b/test/files/jvm/innerClassAttribute/Test.scala @@ -16,6 +16,8 @@ object Test extends BytecodeTest { loadClassNode(className).innerClasses.asScala.toList.sortBy(_.name) } + def ownInnerClassNode(n: String) = innerClassNodes(n).filter(_.name == n).head + final case class EnclosingMethod(name: String, descriptor: String, outerClass: String) def enclosingMethod(className: String) = { val n = loadClassNode(className) @@ -256,10 +258,10 @@ object Test extends BytecodeTest { printInnerClassNodes("A20") - val fun1 = lambdaClass("A20$$anonfun$4", "A20$lambda$1") - val fun2 = lambdaClass("A20$$anonfun$4$$anonfun$apply$1", "A20$lambda$$$nestedInAnonfun$5$1") - val fun3 = lambdaClass("A20$$anonfun$4$$anonfun$apply$3", "A20$lambda$$$nestedInAnonfun$5$2") - val fun4 = lambdaClass("A20$$anonfun$4$$anonfun$apply$3$$anonfun$apply$2", "A20$lambda$$$nestedInAnonfun$7$1") + val fun1 = lambdaClass("A20$$anonfun$6", "A20$lambda$1") + val fun2 = lambdaClass("A20$$anonfun$6$$anonfun$apply$1", "A20$lambda$$$nestedInAnonfun$5$1") + val fun3 = lambdaClass("A20$$anonfun$6$$anonfun$apply$3", "A20$lambda$$$nestedInAnonfun$5$2") + val fun4 = lambdaClass("A20$$anonfun$6$$anonfun$apply$3$$anonfun$apply$2", "A20$lambda$$$nestedInAnonfun$7$1") println("fun1: attribute for itself and the two child closures `() => ()` and `() => () => 1`") printInnerClassNodes(fun1) @@ -324,6 +326,73 @@ object Test extends BytecodeTest { assertMember(defsApiImpl, "A24Base", "DefinitionsApi$class", flags = Flags.ACC_PUBLIC | Flags.ACC_ABSTRACT) } + def testSI_9105() { + val isDelambdafyMethod = classpath.findClass("SI_9105$lambda$1").isDefined + if (isDelambdafyMethod) { + assertEnclosingMethod ("SI_9105$A$2" , "SI_9105", null , null) + assertEnclosingMethod ("SI_9105$B$5" , "SI_9105", "m$1", "()Ljava/lang/Object;") + assertEnclosingMethod ("SI_9105$C$1" , "SI_9105", null , null) + assertEnclosingMethod ("SI_9105$D$1" , "SI_9105", "met", "()Lscala/Function0;") + assertEnclosingMethod ("SI_9105$E$1" , "SI_9105", "m$3", "()Ljava/lang/Object;") + assertEnclosingMethod ("SI_9105$F$1" , "SI_9105", "met", "()Lscala/Function0;") + assertNoEnclosingMethod("SI_9105$lambda$$met$1") + assertNoEnclosingMethod("SI_9105$lambda$1") + assertNoEnclosingMethod("SI_9105") + + assertLocal(innerClassNodes("SI_9105$A$2").head, "SI_9105$A$2", "A$2") + assertLocal(innerClassNodes("SI_9105$B$5").head, "SI_9105$B$5", "B$5") + assertLocal(innerClassNodes("SI_9105$C$1").head, "SI_9105$C$1", "C$1") + assertLocal(innerClassNodes("SI_9105$D$1").head, "SI_9105$D$1", "D$1") + assertLocal(innerClassNodes("SI_9105$E$1").head, "SI_9105$E$1", "E$1") + assertLocal(innerClassNodes("SI_9105$F$1").head, "SI_9105$F$1", "F$1") + + // by-name + assertEnclosingMethod("SI_9105$G$1", "SI_9105", null , null) + assertEnclosingMethod("SI_9105$H$1", "SI_9105", "m$2", "()Ljava/lang/Object;") + assertEnclosingMethod("SI_9105$I$1", "SI_9105", null , null) + assertEnclosingMethod("SI_9105$J$1", "SI_9105", "bnM", "()I") + assertEnclosingMethod("SI_9105$K$2", "SI_9105", "m$4", "()Ljava/lang/Object;") + assertEnclosingMethod("SI_9105$L$1", "SI_9105", "bnM", "()I") + + assert(innerClassNodes("SI_9105$lambda$$met$1").isEmpty) + assert(innerClassNodes("SI_9105$lambda$1").isEmpty) + assert(innerClassNodes("SI_9105").length == 12) // the 12 local classes + } else { + // comment in innerClassAttribute/Classes_1.scala explains the difference between A / C and D / F. + assertEnclosingMethod ("SI_9105$$anonfun$4$A$2" , "SI_9105$$anonfun$4" , null , null) + assertEnclosingMethod ("SI_9105$$anonfun$4$B$5" , "SI_9105$$anonfun$4" , "m$1" , "()Ljava/lang/Object;") + assertEnclosingMethod ("SI_9105$$anonfun$4$C$1" , "SI_9105$$anonfun$4" , null , null) + assertEnclosingMethod ("SI_9105$$anonfun$met$1$D$1", "SI_9105$$anonfun$met$1", null , null) + assertEnclosingMethod ("SI_9105$$anonfun$met$1$E$1", "SI_9105$$anonfun$met$1", "m$3" , "()Ljava/lang/Object;") + assertEnclosingMethod ("SI_9105$$anonfun$met$1$F$1", "SI_9105$$anonfun$met$1", null , null) + assertEnclosingMethod ("SI_9105$$anonfun$4" , "SI_9105" , null , null) + assertEnclosingMethod ("SI_9105$$anonfun$met$1" , "SI_9105" , "met" , "()Lscala/Function0;") + assertNoEnclosingMethod("SI_9105") + + assertLocal(ownInnerClassNode("SI_9105$$anonfun$4$A$2"), "SI_9105$$anonfun$4$A$2" , "A$2") + assertLocal(ownInnerClassNode("SI_9105$$anonfun$4$B$5"), "SI_9105$$anonfun$4$B$5" , "B$5") + assertLocal(ownInnerClassNode("SI_9105$$anonfun$4$C$1"), "SI_9105$$anonfun$4$C$1" , "C$1") + assertLocal(ownInnerClassNode("SI_9105$$anonfun$met$1$D$1"), "SI_9105$$anonfun$met$1$D$1", "D$1") + assertLocal(ownInnerClassNode("SI_9105$$anonfun$met$1$E$1"), "SI_9105$$anonfun$met$1$E$1", "E$1") + assertLocal(ownInnerClassNode("SI_9105$$anonfun$met$1$F$1"), "SI_9105$$anonfun$met$1$F$1", "F$1") + + // by-name + assertEnclosingMethod("SI_9105$$anonfun$5$G$1", "SI_9105$$anonfun$5", null, null) + assertEnclosingMethod("SI_9105$$anonfun$5$H$1", "SI_9105$$anonfun$5", "m$2", "()Ljava/lang/Object;") + assertEnclosingMethod("SI_9105$$anonfun$5$I$1", "SI_9105$$anonfun$5", null, null) + assertEnclosingMethod("SI_9105$$anonfun$bnM$1$J$1", "SI_9105$$anonfun$bnM$1", null, null) + assertEnclosingMethod("SI_9105$$anonfun$bnM$1$K$2", "SI_9105$$anonfun$bnM$1", "m$4", "()Ljava/lang/Object;") + assertEnclosingMethod("SI_9105$$anonfun$bnM$1$L$1", "SI_9105$$anonfun$bnM$1", null, null) + + assertAnonymous(ownInnerClassNode("SI_9105$$anonfun$4"), "SI_9105$$anonfun$4") + assertAnonymous(ownInnerClassNode("SI_9105$$anonfun$met$1"), "SI_9105$$anonfun$met$1") + + assert(innerClassNodes("SI_9105$$anonfun$4").length == 4) // itself and three of the local classes + assert(innerClassNodes("SI_9105$$anonfun$met$1").length == 4) // itself and three of the local classes + assert(innerClassNodes("SI_9105").length == 4) // the four anon funs + } + } + def show(): Unit = { testA1() testA2() @@ -347,5 +416,6 @@ object Test extends BytecodeTest { testA22() testA23() testA24() + testSI_9105() } } |