Fix .check files #4

hubertp · 2013-02-07T23:20:02Z

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@hubertp

When -feature has not been enabled, we were double counting identical feature warnings that were emitted at the same position. Normal error reporting only reports the first time a warning appears at a position; feature warning counter incrementing should behave the same way. @hubertp: Fixed .check files that were broken in the original commit.

Swathes of important logic are duplicated between `findMember` and `findMembers` after this run of optimization. d905558 Variation #10 to optimze findMember fcb0c01 Attempt #9 to opimize findMember. 71d2ceb Attempt #8 to opimize findMember. 77e5692 Attempty #7 to optimize findMember 275115e Fixing problem that caused fingerprints to fail in reflection. Also fixed test case that failed when moving to findMember e94252e Attemmpt #6 to optimize findMember 73e61b8 Attempt #5 to optimize findMember. 04f0b65 Attempt #4 to optimize findMember 0e3c70f Attempt #3 to optimize findMember 41f4497 Attempt #2 to optimize findMember 1a73aa0 Attempt #1 to optimize findMember This commit updates `findMembers` with the bug fixes that `findMember` has received, and adds flashing warning signs for future maintainers. A followup commit will address the duplication at the root.

When an application of a blackbox macro is used as an extractor in a pattern match, it triggers an unconditional compiler error, preventing customizations of pattern matching implemented with macros.

Exclude them from superclasses in `findMember` and in `OverridingPairs`. The odd logic in `findMember` that considered whether the selector class was owned by the owner of the candidate private symbol dates back to 2007 (bff4268), but does not appear to have any relationship to the spec. Refinement types are still able to inherit private members from all direct parents, as was needed in pos/t2399.scala. More tests are included for this scenario. In short, the logic now: - includes direct parents of refinements, - otherwise, excludes privates after the first class in the base class sequence TODO: Swathes of important logic are duplicated between `findMember` and `findMembers` after this run of optimization. d905558 Variation #10 to optimze findMember fcb0c01 Attempt #9 to opimize findMember. 71d2ceb Attempt #8 to opimize findMember. 77e5692 Attempty #7 to optimize findMember 275115e Fixing problem that caused fingerprints to fail in reflection. Als e94252e Attemmpt #6 to optimize findMember 73e61b8 Attempt #5 to optimize findMember. 04f0b65 Attempt #4 to optimize findMember 0e3c70f Attempt #3 to optimize findMember 41f4497 Attempt #2 to optimize findMember 1a73aa0 Attempt #1 to optimize findMember

Swathes of important logic are duplicated between `findMember` and `findMembers` after they separated on grounds of irreconcilable differences about how fast they should run: d905558 Variation #10 to optimze findMember fcb0c01 Attempt #9 to opimize findMember. 71d2ceb Attempt #8 to opimize findMember. 77e5692 Attempty #7 to optimize findMember 275115e Fixing problem that caused fingerprints to fail in e94252e Attemmpt #6 to optimize findMember 73e61b8 Attempt #5 to optimize findMember. 04f0b65 Attempt #4 to optimize findMember 0e3c70f Attempt #3 to optimize findMember 41f4497 Attempt #2 to optimize findMember 1a73aa0 Attempt #1 to optimize findMember This didn't actually bear fruit, and the intervening years have seen the implementations drift. Now is the time to reunite them under the banner of `FindMemberBase`. Each has a separate subclass to customise the behaviour. This is primarily used by `findMember` to cache member types and to assemble the resulting list of symbols in an low-allocation manner. While there I have introduced some polymorphic calls, the call sites are only bi-morphic, and our typical pattern of compilation involves far more `findMember` calls, so I expect that JIT will keep the virtual call cost to an absolute minimum. Test results have been updated now that `findMembers` correctly excludes constructors and doesn't inherit privates. Coming up next: we can actually fix SI-7475!

Stack overflow with JavaTokenParsers.stringLiteral

must replace old trait accessor symbols by mixed in symbols in the infos of the mixed in symbols ``` trait T { val a: String ; val b: a.type } class C extends T { // a, b synthesized, but the a in b's type, a.type, refers to the original symbol, not the clone in C } ``` symbols occurring in types of synthesized members do not get rebound to other synthesized symbols package <empty>#4 { abstract <defaultparam/trait> trait N#7352 extends scala#22.AnyRef#2378 { <method> <deferred> <mutable> <accessor> <triedcooking> <sub_synth> def N$_setter_$self_$eq#15011(x$1#15012: <empty>#3.this.N#7352): scala#23.this.Unit#2340; <method> <deferred> <mutable> <accessor> <triedcooking> <sub_synth> def N$_setter_$n_$eq#15013(x$1#15014: N#7352.this.self#7442.type): scala#23.this.Unit#2340; <method> def /*N*/$init$scala#7441(): scala#23.this.Unit#2340 = { () }; <method> <deferred> <stable> <accessor> <triedcooking> <sub_synth> def self#7442: <empty>#3.this.N#7352; N#7352.this.N$_setter_$self_$eq#15011(scala#22.Predef#1729.$qmark$qmark$qmark#6917); <method> <deferred> <stable> <accessor> <sub_synth> def n#7443: N#7352.this.self#7442.type; N#7352.this.N$_setter_$n_$eq#15013(N#7352.this.self#7442) }; abstract class M#7353 extends scala#22.AnyRef#2378 { <method> <triedcooking> def <init>#13465(): <empty>#3.this.M#7353 = { M#7353.super.<init>scala#2719(); () }; <method> <deferred> <stable> <accessor> <triedcooking> def self#13466: <empty>#3.this.N#7352; <method> <deferred> <stable> <accessor> def n#13467: M#7353.this.self#13466.type }; class C#7354 extends M#7353 with <empty>#3.this.N#7352 { <method> <stable> <accessor> <triedcooking> def self#15016: <empty>#3.this.N#7352 = C#7354.this.self #15015; <triedcooking> private[this] val self #15015: <empty>#3.this.N#7352 = _; <method> <stable> <accessor> def n#15018: C#7354.this.self#7442.type = C#7354.this.n #15017; <triedcooking> private[this] val n #15017: C#7354.this.self#7442.type = _; <method> <mutable> <accessor> <triedcooking> def N$_setter_$self_$eq#15019(x$1#15021: <empty>#3.this.N#7352): scala#23.this.Unit#2340 = C#7354.this.self #15015 = x$1#15021; <method> <mutable> <accessor> <triedcooking> def N$_setter_$n_$eq#15022(x$1#15025: C#7354.this.self#7442.type): scala#23.this.Unit#2340 = C#7354.this.n #15017 = x$1#15025; <method> def <init>#14997(): <empty>#3.this.C#7354 = { C#7354.super.<init>#13465(); () } } } [running phase pickler on dependent_rebind.scala] [running phase refchecks on dependent_rebind.scala] test/files/trait-defaults/dependent_rebind.scala:16: error: overriding field n#15049 in trait N#7352 of type C#7354.this.self#15016.type; value n #15017 has incompatible type; found : => C#7354.this.self#7442.type (with underlying type => C#7354.this.self#7442.type) required: => N#7352.this.self#7442.type class C extends M with N ^

the info-transformed of constructors: - traits receive trait-setters for vals - classes receive fields & accessors for mixed in traits Constructors tree transformer - makes trees for decls added during above info transform - adds mixin super calls to the primary constructor ``` trait OneConcreteVal[T] { var x = 1 // : T = ??? def foo = x } trait OneOtherConcreteVal[T] { var y: T = ??? } class C extends OneConcreteVal[Int] with OneOtherConcreteVal[String] ``` we don't have a field -- only a getter -- so, where will we keep non-getter but-field annotations? mixin only deals with lazy accessors/vals do not used referenced to correlate getter/setter it messes with paramaccessor's usage, and we don't really need it make sure to clone info's, so we don't share symbols for method args this manifests itself as an exception in lambdalift, finding proxies Use NEEDS_TREES for all comms between InfoTransform and tree transform yep, need SYNTHESIZE_IMPL_IN_SUBCLASS distinguish accessors that should be mixed into subclass, and those that simply need to be implemented in tree transform, after info transform added the decl commit 4b4932e Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 6 days ago do assignment to trait fields in AddInterfaces regular class vals get assignments during constructors, as before impl classes get accessors + assignments through trait setters in addinterfaces so that constructors acts on them there, and produced the init method in the required spot (the impl class) bootstrapped compiler needs new partest commit baf568d Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 3 weeks ago produce identical bytecode for constant trait val getters I couldn't bring myself to emit the unused fields that we used to emit for constant vals, even though the getters immediately return the constant, and thus the field goes unused. In the next version, there's no need to synthesize impls for these in subclasses -- the getter can be implemented in the interface. commit b9052da Author: Lukas Rytz <lukas.rytz@gmail.com> Date: 3 weeks ago Fix enclosing method attribute for classes nested in trait fields Trait fields are now created as MethodSymbol (no longer TermSymbol). This symbol shows up in the `originalOwner` chain of a class declared within the field initializer. This promoted the field getter to being the enclosing method of the nested class, which it is not (the EnclosingMethod attribute is a source-level property). commit cf845ab Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 3 weeks ago don't suppress field for unit-typed vals it affects the memory model -- even a write of unit to a field is relevant... commit 337a9dd Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 4 weeks ago unit-typed lazy vals should never receive a field this need was unmasked by test/files/run/t7843-jsr223-service.scala, which no longer printed the output expected from the `0 to 10 foreach` Currently failing tests: - test/files/pos/t6780.scala - test/files/neg/anytrait.scala - test/files/neg/delayed-init-ref.scala - test/files/neg/t562.scala - test/files/neg/t6276.scala - test/files/run/delambdafy_uncurry_byname_inline.scala - test/files/run/delambdafy_uncurry_byname_method.scala - test/files/run/delambdafy_uncurry_inline.scala - test/files/run/delambdafy_uncurry_method.scala - test/files/run/inner-obj-auto.scala - test/files/run/lazy-traits.scala - test/files/run/reify_lazyunit.scala - test/files/run/showraw_mods.scala - test/files/run/t3670.scala - test/files/run/t3980.scala - test/files/run/t4047.scala - test/files/run/t6622.scala - test/files/run/t7406.scala - test/files/run/t7843-jsr223-service.scala - test/files/jvm/innerClassAttribute - test/files/specialized/SI-7343.scala - test/files/specialized/constant_lambda.scala - test/files/specialized/spec-early.scala - test/files/specialized/spec-init.scala - test/files/specialized/spec-matrix-new.scala - test/files/specialized/spec-matrix-old.scala - test/files/presentation/scope-completion-3 commit b1b4e5c Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 4 weeks ago wip: lambdalift fix test/files/trait-defaults/lambdalift.scala works, but still some related tests failing (note that we can't use a bootstrapped compiler yet due to binary incompatibility in partest) commit eae7dac Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 4 weeks ago update check now that trait vals can be concrete, use names not letters note the progression in a concrete trait val now being recognized as such ``` -trait T => true -method $init$ => false -value z1 => true -value z2 => true // z2 is actually concrete! ``` commit 6555c74 Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 4 weeks ago bootstraps again by running info transform once per class... not sure how this ever worked, as separate compilation would transform a trait's info multiple times, resulting in double defs... commit 273cb20 Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 6 weeks ago skip presuper vals in new encoding commit 728e71e Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 6 weeks ago incoherent cyclic references between synthesized members must replace old trait accessor symbols by mixed in symbols in the infos of the mixed in symbols ``` trait T { val a: String ; val b: a.type } class C extends T { // a, b synthesized, but the a in b's type, a.type, refers to the original symbol, not the clone in C } ``` symbols occurring in types of synthesized members do not get rebound to other synthesized symbols package <empty>#4 { abstract <defaultparam/trait> trait N#7352 extends scala#22.AnyRef#2378 { <method> <deferred> <mutable> <accessor> <triedcooking> <sub_synth> def N$_setter_$self_$eq#15011(x$1#15012: <empty>#3.this.N#7352): scala#23.this.Unit#2340; <method> <deferred> <mutable> <accessor> <triedcooking> <sub_synth> def N$_setter_$n_$eq#15013(x$1#15014: N#7352.this.self#7442.type): scala#23.this.Unit#2340; <method> def /*N*/$init$scala#7441(): scala#23.this.Unit#2340 = { () }; <method> <deferred> <stable> <accessor> <triedcooking> <sub_synth> def self#7442: <empty>#3.this.N#7352; N#7352.this.N$_setter_$self_$eq#15011(scala#22.Predef#1729.$qmark$qmark$qmark#6917); <method> <deferred> <stable> <accessor> <sub_synth> def n#7443: N#7352.this.self#7442.type; N#7352.this.N$_setter_$n_$eq#15013(N#7352.this.self#7442) }; abstract class M#7353 extends scala#22.AnyRef#2378 { <method> <triedcooking> def <init>#13465(): <empty>#3.this.M#7353 = { M#7353.super.<init>scala#2719(); () }; <method> <deferred> <stable> <accessor> <triedcooking> def self#13466: <empty>#3.this.N#7352; <method> <deferred> <stable> <accessor> def n#13467: M#7353.this.self#13466.type }; class C#7354 extends M#7353 with <empty>#3.this.N#7352 { <method> <stable> <accessor> <triedcooking> def self#15016: <empty>#3.this.N#7352 = C#7354.this.self #15015; <triedcooking> private[this] val self #15015: <empty>#3.this.N#7352 = _; <method> <stable> <accessor> def n#15018: C#7354.this.self#7442.type = C#7354.this.n #15017; <triedcooking> private[this] val n #15017: C#7354.this.self#7442.type = _; <method> <mutable> <accessor> <triedcooking> def N$_setter_$self_$eq#15019(x$1#15021: <empty>#3.this.N#7352): scala#23.this.Unit#2340 = C#7354.this.self #15015 = x$1#15021; <method> <mutable> <accessor> <triedcooking> def N$_setter_$n_$eq#15022(x$1#15025: C#7354.this.self#7442.type): scala#23.this.Unit#2340 = C#7354.this.n #15017 = x$1#15025; <method> def <init>#14997(): <empty>#3.this.C#7354 = { C#7354.super.<init>#13465(); () } } } [running phase pickler on dependent_rebind.scala] [running phase refchecks on dependent_rebind.scala] test/files/trait-defaults/dependent_rebind.scala:16: error: overriding field n#15049 in trait N#7352 of type C#7354.this.self#15016.type; value n #15017 has incompatible type; found : => C#7354.this.self#7442.type (with underlying type => C#7354.this.self#7442.type) required: => N#7352.this.self#7442.type class C extends M with N ^ pos/t9111-inliner-workaround revealed need for: - override def transformInfo(sym: Symbol, tp: Type): Type = synthFieldsAndAccessors(tp) + override def transformInfo(sym: Symbol, tp: Type): Type = if (!sym.isJavaDefined) synthFieldsAndAccessors(tp) else tp commit b56ca2f Author: Adriaan Moors <adriaan.moors@typesafe.com> Date: 6 weeks ago static forwarders & private[this] val in trait object Properties extends PropertiesTrait trait PropertiesTrait { // the protected member is not emitted as a static member of -- it works when dropping the access modifier // somehow, the module class member is considered deferred in BForwardersGen protected val propFilename: String = / } // [log jvm] No forwarder for 'getter propFilename' from Properties to 'module class Properties': false || m.isDeferred == true || false || false // the following method is missing compared to scalac // public final class Properties { // public static String propFilename() { // return Properties$.MODULE$.propFilename(); // } trait Chars { private[this] val char2uescapeArray = Array[Char]('\', 'u', 0, 0, 0, 0) } object Chars extends Chars // +++ w/reflect/scala/reflect/internal/Chars$.class // - private final [C scala83014char2uescapeArray constant fold in forwarder for backwards compat constant-typed final val in trait should yield impl method bean{setter,getter} delegates to setter/getter (commit 1655d1b)

Manually tested with: ``` % cat sandbox/test.scala package p { object X { def f(i: Int) = ??? ; def f(s: String) = ??? } object Main { val res = X.f(3.14) } } % qscalac -Ytyper-debug sandbox/test.scala |-- p EXPRmode-POLYmode-QUALmode (site: package <root>) | \-> p.type |-- object X BYVALmode-EXPRmode (site: package p) | |-- super EXPRmode-POLYmode-QUALmode (silent: <init> in X) | | |-- this EXPRmode (silent: <init> in X) | | | \-> p.X.type | | \-> p.X.type | |-- def f BYVALmode-EXPRmode (site: object X) | | |-- $qmark$qmark$qmark EXPRmode (site: method f in X) | | | \-> Nothing | | |-- Int TYPEmode (site: value i in X) | | | \-> Int | | |-- Int TYPEmode (site: value i in X) | | | \-> Int | | \-> [def f] (i: Int)Nothing | |-- def f BYVALmode-EXPRmode (site: object X) | | |-- $qmark$qmark$qmark EXPRmode (site: method f in X) | | | \-> Nothing | | |-- String TYPEmode (site: value s in X) | | | [adapt] String is now a TypeTree(String) | | | \-> String | | |-- String TYPEmode (site: value s in X) | | | [adapt] String is now a TypeTree(String) | | | \-> String | | \-> [def f] (s: String)Nothing | \-> [object X] p.X.type |-- object Main BYVALmode-EXPRmode (site: package p) | |-- X.f(3.14) EXPRmode (site: value res in Main) | | |-- X.f BYVALmode-EXPRmode-FUNmode-POLYmode (silent: value res in Main) | | | |-- X EXPRmode-POLYmode-QUALmode (silent: value res in Main) | | | | \-> p.X.type | | | \-> (s: String)Nothing <and> (i: Int)Nothing | | |-- 3.14 BYVALmode-EXPRmode (silent: value res in Main) | | | \-> Double(3.14) | | [search #1] start `<?>`, searching for adaptation to pt=Double => String (silent: value res in Main) implicits disabled | | [search #2] start `<?>`, searching for adaptation to pt=(=> Double) => String (silent: value res in Main) implicits disabled | | [search #3] start `<?>`, searching for adaptation to pt=Double => Int (silent: value res in Main) implicits disabled | | 1 implicits in companion scope | | [search #4] start `<?>`, searching for adaptation to pt=(=> Double) => Int (silent: value res in Main) implicits disabled | | 1 implicits in companion scope | | second try: <error> and 3.14 | | [search #5] start `p.X.type`, searching for adaptation to pt=p.X.type => ?{def f(x$1: ? >: Double(3.14)): ?} (silent: value res in Main) implicits disabled | | [search #6] start `p.X.type`, searching for adaptation to pt=(=> p.X.type) => ?{def f(x$1: ? >: Double(3.14)): ?} (silent: value res in Main) implicits disabled sandbox/test.scala:4: error: overloaded method value f with alternatives: (s: String)Nothing <and> (i: Int)Nothing cannot be applied to (Double) val res = X.f(3.14) ^ ```

The following commit message is a squash of several commit messages. - This is the 1st commit message: Add position to stub error messages Stub errors happen when we've started the initialization of a symbol but key information of this symbol is missing (the information cannot be found in any entry of the classpath not sources). When this error happens, we better have a good error message with a position to the place where the stub error came from. This commit goes into this direction by adding a `pos` value to `StubSymbol` and filling it in in all the use sites (especifically `UnPickler`). This commit also changes some tests that test stub errors-related issues. Concretely, `t6440` is using special Partest infrastructure and doens't pretty print the position, while `t5148` which uses the conventional infrastructure does. Hence the difference in the changes for both tests. - This is the commit message #2: Add partest infrastructure to test stub errors `StubErrorMessageTest` is the friend I introduce in this commit to help state stub errors. The strategy to test them is easy and builds upon previous concepts: we reuse `StoreReporterDirectTest` and add some methods that will compile the code and simulate a missing classpath entry by removing the class files from the class directory (the folder where Scalac compiles to). This first iteration allow us to programmatically check that stub errors are emitted under certain conditions. - This is the commit message #3: Improve contents of stub error message This commit does three things: * Keep track of completing symbol while unpickling First, it removes the previous `symbolOnCompletion` definition to be more restrictive/clear and use only positions, since only positions are used to report the error (the rest of the information comes from the context of the `UnPickler`). Second, it adds a new variable called `lazyCompletingSymbol` that is responsible for keeping a reference to the symbol that produces the stub error. This symbol will usually (always?) come from the classpath entries and therefore we don't have its position (that's why we keep track of `symbolOnCompletion` as well). This is the one that we have to explicitly use in the stub error message, the culprit so to speak. Aside from these two changes, this commit modifies the existing tests that are affected by the change in the error message, which is more precise now, and adds new tests for stub errors that happen in complex inner cases and in return type of `MethodType`. * Check that order of initialization is correct With the changes introduced previously to keep track of position of symbols coming from source files, we may ask ourselves: is this going to work always? What happens if two symbols the initialization of two symbols is intermingled and the stub error message gets the wrong position? This commit adds a test case and modifications to the test infrastructure to double check empirically that this does not happen. Usually, this interaction in symbol initialization won't happen because the `UnPickler` will lazily load all the buckets necessary for a symbol to be truly initialized, with the pertinent addresses from which this information has to be deserialized. This ensures that this operation is atomic and no other symbol initialization can happen in the meantime. Even though the previous paragraph is the feeling I got from reading the sources, this commit creates a test to double-check it. My attempt to be better safe than sorry. * Improve contents of the stub error message This commit modifies the format of the previous stub error message by being more precise in its formulation. It follows the structured format: ``` s"""|Symbol '${name.nameKind} ${owner.fullName}.$name' is missing from the classpath. |This symbol is required by '${lazyCompletingSymbol.kindString} ${lazyCompletingSymbol.fullName}'. ``` This format has the advantage that is more readable and explicit on what's happening. First, we report what is missing. Then, why it was required. Hopefully, people working on direct dependencies will find the new message friendlier. Having a good test suite to check the previously added code is important. This commit checks that stub errors happen in presence of well-known and widely used Scala features. These include: * Higher kinded types. * Type definitions. * Inheritance and subclasses. * Typeclasses and implicits. - This is the commit message #4: Use `lastTreeToTyper` to get better positions The previous strategy to get the last user-defined position for knowing what was the root cause (the trigger) of stub errors relied on instrumenting `def info`. This instrumentation, while easy to implement, is inefficient since we register the positions for symbols that are already completed. However, we cannot do it only for uncompleted symbols (!hasCompleteInfo) because the positions won't be correct anymore -- definitions using stub symbols (val b = new B) are for the compiler completed, but their use throws stub errors. This means that if we initialize symbols between a definition and its use, we'll use their positions instead of the position of `b`. To work around this we use `lastTreeToTyper`. We assume that stub errors will be thrown by Typer at soonest. The benefit of this approach is better error messages. The positions used in them are now as concrete as possible since they point to the exact tree that **uses** a symbol, instead of the one that **defines** it. Have a look at `StubErrorComplexInnerClass` for an example. This commit removes the previous infrastructure and replaces it by the new one. It also removes the fields positions from the subclasses of `StubSymbol`s. - This is the commit message #5: Keep track of completing symbols Make sure that cycles don't happen by keeping track of all the symbols that are being completed by `completeInternal`. Stub errors only need the last completing symbols, but the whole stack of symbols may be useful to reporting other error like cyclic initialization issues. I've added this per Jason's suggestion. I've implemented with a list because `remove` in an array buffer is linear. Array was not an option because I would need to resize it myself. I think that even though list is not as efficient memory-wise, it probably doesn't matter since the stack will usually be small. - This is the commit message #6: Remove `isPackage` from `newStubSymbol` Remove `isPackage` since in 2.12.x its value is not used.

@inline

Non local returns aren't eliminated after inlined in 2.11 or 2.12 ``` ⚡ scala Welcome to Scala 2.12.1 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inlune def foo(a: => Any) = if ("".isEmpty) a else "" <console>:11: error: not found: type inlune @inlune def foo(a: => Any) = if ("".isEmpty) a else "" ^ scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #32 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #36 // Field $line4/$read$$iw$$iw$.MODULE$:L$line4/$read$$iw$$iw$; 11: aload_1 12: invokedynamic #59, 0 // InvokeDynamic #0:apply:(Ljava/lang/Object;)Lscala/Function0; 17: invokevirtual #63 // Method $line4/$read$$iw$$iw$.foo:(Lscala/Function0;)Ljava/lang/Object; 20: goto 44 23: astore_2 24: aload_2 25: invokevirtual #66 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 28: aload_1 29: if_acmpne 39 32: aload_2 33: invokevirtual #69 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 36: goto 41 39: aload_2 40: athrow 41: goto 44 44: areturn Exception table: from to target type 8 20 23 Class scala/runtime/NonLocalReturnControl ``` ``` ⚡ ~/scala/2.11.8/bin/scala Welcome to Scala 2.11.8 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #13 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #19 // Field .MODULE$:L; 11: new #21 // class InlineReturn$$anonfun$test$1 14: dup 15: aload_0 16: aload_1 17: invokespecial #24 // Method InlineReturn$$anonfun$test$1."<init>":(LInlineReturn;Ljava/lang/Object;)V 20: invokevirtual #28 // Method .foo:(Lscala/Function0;)Ljava/lang/Object; 23: goto 39 26: astore_2 27: aload_2 28: invokevirtual #31 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 31: aload_1 32: if_acmpne 40 35: aload_2 36: invokevirtual #34 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 39: areturn 40: aload_2 41: athrow Exception table: from to target type 8 26 26 Class scala/runtime/NonLocalReturnControl scala> :quit ```

The following commit message is a squash of several commit messages. - This is the 1st commit message: Add position to stub error messages Stub errors happen when we've started the initialization of a symbol but key information of this symbol is missing (the information cannot be found in any entry of the classpath not sources). When this error happens, we better have a good error message with a position to the place where the stub error came from. This commit goes into this direction by adding a `pos` value to `StubSymbol` and filling it in in all the use sites (especifically `UnPickler`). This commit also changes some tests that test stub errors-related issues. Concretely, `t6440` is using special Partest infrastructure and doens't pretty print the position, while `t5148` which uses the conventional infrastructure does. Hence the difference in the changes for both tests. - This is the commit message #2: Add partest infrastructure to test stub errors `StubErrorMessageTest` is the friend I introduce in this commit to help state stub errors. The strategy to test them is easy and builds upon previous concepts: we reuse `StoreReporterDirectTest` and add some methods that will compile the code and simulate a missing classpath entry by removing the class files from the class directory (the folder where Scalac compiles to). This first iteration allow us to programmatically check that stub errors are emitted under certain conditions. - This is the commit message #3: Improve contents of stub error message This commit does three things: * Keep track of completing symbol while unpickling First, it removes the previous `symbolOnCompletion` definition to be more restrictive/clear and use only positions, since only positions are used to report the error (the rest of the information comes from the context of the `UnPickler`). Second, it adds a new variable called `lazyCompletingSymbol` that is responsible for keeping a reference to the symbol that produces the stub error. This symbol will usually (always?) come from the classpath entries and therefore we don't have its position (that's why we keep track of `symbolOnCompletion` as well). This is the one that we have to explicitly use in the stub error message, the culprit so to speak. Aside from these two changes, this commit modifies the existing tests that are affected by the change in the error message, which is more precise now, and adds new tests for stub errors that happen in complex inner cases and in return type of `MethodType`. * Check that order of initialization is correct With the changes introduced previously to keep track of position of symbols coming from source files, we may ask ourselves: is this going to work always? What happens if two symbols the initialization of two symbols is intermingled and the stub error message gets the wrong position? This commit adds a test case and modifications to the test infrastructure to double check empirically that this does not happen. Usually, this interaction in symbol initialization won't happen because the `UnPickler` will lazily load all the buckets necessary for a symbol to be truly initialized, with the pertinent addresses from which this information has to be deserialized. This ensures that this operation is atomic and no other symbol initialization can happen in the meantime. Even though the previous paragraph is the feeling I got from reading the sources, this commit creates a test to double-check it. My attempt to be better safe than sorry. * Improve contents of the stub error message This commit modifies the format of the previous stub error message by being more precise in its formulation. It follows the structured format: ``` s"""|Symbol '${name.nameKind} ${owner.fullName}.$name' is missing from the classpath. |This symbol is required by '${lazyCompletingSymbol.kindString} ${lazyCompletingSymbol.fullName}'. ``` This format has the advantage that is more readable and explicit on what's happening. First, we report what is missing. Then, why it was required. Hopefully, people working on direct dependencies will find the new message friendlier. Having a good test suite to check the previously added code is important. This commit checks that stub errors happen in presence of well-known and widely used Scala features. These include: * Higher kinded types. * Type definitions. * Inheritance and subclasses. * Typeclasses and implicits. - This is the commit message #4: Use `lastTreeToTyper` to get better positions The previous strategy to get the last user-defined position for knowing what was the root cause (the trigger) of stub errors relied on instrumenting `def info`. This instrumentation, while easy to implement, is inefficient since we register the positions for symbols that are already completed. However, we cannot do it only for uncompleted symbols (!hasCompleteInfo) because the positions won't be correct anymore -- definitions using stub symbols (val b = new B) are for the compiler completed, but their use throws stub errors. This means that if we initialize symbols between a definition and its use, we'll use their positions instead of the position of `b`. To work around this we use `lastTreeToTyper`. We assume that stub errors will be thrown by Typer at soonest. The benefit of this approach is better error messages. The positions used in them are now as concrete as possible since they point to the exact tree that **uses** a symbol, instead of the one that **defines** it. Have a look at `StubErrorComplexInnerClass` for an example. This commit removes the previous infrastructure and replaces it by the new one. It also removes the fields positions from the subclasses of `StubSymbol`s. - This is the commit message #5: Keep track of completing symbols Make sure that cycles don't happen by keeping track of all the symbols that are being completed by `completeInternal`. Stub errors only need the last completing symbols, but the whole stack of symbols may be useful to reporting other error like cyclic initialization issues. I've added this per Jason's suggestion. I've implemented with a list because `remove` in an array buffer is linear. Array was not an option because I would need to resize it myself. I think that even though list is not as efficient memory-wise, it probably doesn't matter since the stack will usually be small. - This is the commit message #6: Remove `isPackage` from `newStubSymbol` Remove `isPackage` since in 2.12.x its value is not used.

@inline

Non local returns aren't eliminated after inlined in 2.11 or 2.12 ``` ⚡ scala Welcome to Scala 2.12.1 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inlune def foo(a: => Any) = if ("".isEmpty) a else "" <console>:11: error: not found: type inlune @inlune def foo(a: => Any) = if ("".isEmpty) a else "" ^ scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #32 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #36 // Field $line4/$read$$iw$$iw$.MODULE$:L$line4/$read$$iw$$iw$; 11: aload_1 12: invokedynamic #59, 0 // InvokeDynamic #0:apply:(Ljava/lang/Object;)Lscala/Function0; 17: invokevirtual #63 // Method $line4/$read$$iw$$iw$.foo:(Lscala/Function0;)Ljava/lang/Object; 20: goto 44 23: astore_2 24: aload_2 25: invokevirtual #66 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 28: aload_1 29: if_acmpne 39 32: aload_2 33: invokevirtual #69 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 36: goto 41 39: aload_2 40: athrow 41: goto 44 44: areturn Exception table: from to target type 8 20 23 Class scala/runtime/NonLocalReturnControl ``` ``` ⚡ ~/scala/2.11.8/bin/scala Welcome to Scala 2.11.8 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #13 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #19 // Field .MODULE$:L; 11: new #21 // class InlineReturn$$anonfun$test$1 14: dup 15: aload_0 16: aload_1 17: invokespecial #24 // Method InlineReturn$$anonfun$test$1."<init>":(LInlineReturn;Ljava/lang/Object;)V 20: invokevirtual #28 // Method .foo:(Lscala/Function0;)Ljava/lang/Object; 23: goto 39 26: astore_2 27: aload_2 28: invokevirtual #31 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 31: aload_1 32: if_acmpne 40 35: aload_2 36: invokevirtual #34 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 39: areturn 40: aload_2 41: athrow Exception table: from to target type 8 26 26 Class scala/runtime/NonLocalReturnControl scala> :quit ```

@inline

Non local returns aren't eliminated after inlined in 2.11 or 2.12 ``` ⚡ scala Welcome to Scala 2.12.1 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inlune def foo(a: => Any) = if ("".isEmpty) a else "" <console>:11: error: not found: type inlune @inlune def foo(a: => Any) = if ("".isEmpty) a else "" ^ scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #32 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #36 // Field $line4/$read$$iw$$iw$.MODULE$:L$line4/$read$$iw$$iw$; 11: aload_1 12: invokedynamic #59, 0 // InvokeDynamic #0:apply:(Ljava/lang/Object;)Lscala/Function0; 17: invokevirtual #63 // Method $line4/$read$$iw$$iw$.foo:(Lscala/Function0;)Ljava/lang/Object; 20: goto 44 23: astore_2 24: aload_2 25: invokevirtual #66 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 28: aload_1 29: if_acmpne 39 32: aload_2 33: invokevirtual #69 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 36: goto 41 39: aload_2 40: athrow 41: goto 44 44: areturn Exception table: from to target type 8 20 23 Class scala/runtime/NonLocalReturnControl ``` ``` ⚡ ~/scala/2.11.8/bin/scala Welcome to Scala 2.11.8 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #13 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #19 // Field .MODULE$:L; 11: new #21 // class InlineReturn$$anonfun$test$1 14: dup 15: aload_0 16: aload_1 17: invokespecial #24 // Method InlineReturn$$anonfun$test$1."<init>":(LInlineReturn;Ljava/lang/Object;)V 20: invokevirtual #28 // Method .foo:(Lscala/Function0;)Ljava/lang/Object; 23: goto 39 26: astore_2 27: aload_2 28: invokevirtual #31 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 31: aload_1 32: if_acmpne 40 35: aload_2 36: invokevirtual #34 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 39: areturn 40: aload_2 41: athrow Exception table: from to target type 8 26 26 Class scala/runtime/NonLocalReturnControl scala> :quit ```

@inline

Non local returns aren't eliminated after inlined in 2.11 or 2.12 ``` ⚡ scala Welcome to Scala 2.12.1 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inlune def foo(a: => Any) = if ("".isEmpty) a else "" <console>:11: error: not found: type inlune @inlune def foo(a: => Any) = if ("".isEmpty) a else "" ^ scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #32 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #36 // Field $line4/$read$$iw$$iw$.MODULE$:L$line4/$read$$iw$$iw$; 11: aload_1 12: invokedynamic #59, 0 // InvokeDynamic #0:apply:(Ljava/lang/Object;)Lscala/Function0; 17: invokevirtual #63 // Method $line4/$read$$iw$$iw$.foo:(Lscala/Function0;)Ljava/lang/Object; 20: goto 44 23: astore_2 24: aload_2 25: invokevirtual #66 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 28: aload_1 29: if_acmpne 39 32: aload_2 33: invokevirtual #69 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 36: goto 41 39: aload_2 40: athrow 41: goto 44 44: areturn Exception table: from to target type 8 20 23 Class scala/runtime/NonLocalReturnControl ``` ``` ⚡ ~/scala/2.11.8/bin/scala Welcome to Scala 2.11.8 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #13 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #19 // Field .MODULE$:L; 11: new #21 // class InlineReturn$$anonfun$test$1 14: dup 15: aload_0 16: aload_1 17: invokespecial #24 // Method InlineReturn$$anonfun$test$1."<init>":(LInlineReturn;Ljava/lang/Object;)V 20: invokevirtual #28 // Method .foo:(Lscala/Function0;)Ljava/lang/Object; 23: goto 39 26: astore_2 27: aload_2 28: invokevirtual #31 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 31: aload_1 32: if_acmpne 40 35: aload_2 36: invokevirtual #34 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 39: areturn 40: aload_2 41: athrow Exception table: from to target type 8 26 26 Class scala/runtime/NonLocalReturnControl scala> :quit ```

@inline

Non local returns aren't eliminated after inlined in 2.11 or 2.12 ``` ⚡ scala Welcome to Scala 2.12.1 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inlune def foo(a: => Any) = if ("".isEmpty) a else "" <console>:11: error: not found: type inlune @inlune def foo(a: => Any) = if ("".isEmpty) a else "" ^ scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #32 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #36 // Field $line4/$read$$iw$$iw$.MODULE$:L$line4/$read$$iw$$iw$; 11: aload_1 12: invokedynamic #59, 0 // InvokeDynamic #0:apply:(Ljava/lang/Object;)Lscala/Function0; 17: invokevirtual #63 // Method $line4/$read$$iw$$iw$.foo:(Lscala/Function0;)Ljava/lang/Object; 20: goto 44 23: astore_2 24: aload_2 25: invokevirtual #66 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 28: aload_1 29: if_acmpne 39 32: aload_2 33: invokevirtual #69 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 36: goto 41 39: aload_2 40: athrow 41: goto 44 44: areturn Exception table: from to target type 8 20 23 Class scala/runtime/NonLocalReturnControl ``` ``` ⚡ ~/scala/2.11.8/bin/scala Welcome to Scala 2.11.8 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_112). Type in expressions for evaluation. Or try :help. scala> @inline def foo(a: => Any) = if ("".isEmpty) a else "" foo: (a: => Any)Any scala> class InlineReturn { def test: Any = foo(return "") } defined class InlineReturn scala> :javap -c InlineReturn#test public java.lang.Object test(); Code: 0: new #4 // class java/lang/Object 3: dup 4: invokespecial #13 // Method java/lang/Object."<init>":()V 7: astore_1 8: getstatic #19 // Field .MODULE$:L; 11: new #21 // class InlineReturn$$anonfun$test$1 14: dup 15: aload_0 16: aload_1 17: invokespecial #24 // Method InlineReturn$$anonfun$test$1."<init>":(LInlineReturn;Ljava/lang/Object;)V 20: invokevirtual #28 // Method .foo:(Lscala/Function0;)Ljava/lang/Object; 23: goto 39 26: astore_2 27: aload_2 28: invokevirtual #31 // Method scala/runtime/NonLocalReturnControl.key:()Ljava/lang/Object; 31: aload_1 32: if_acmpne 40 35: aload_2 36: invokevirtual #34 // Method scala/runtime/NonLocalReturnControl.value:()Ljava/lang/Object; 39: areturn 40: aload_2 41: athrow Exception table: from to target type 8 26 26 Class scala/runtime/NonLocalReturnControl scala> :quit ```

add a basic Travis build

``` /Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/bin/java -Xmx1G -Xss1M "-javaagent:/Users/jz/Library/Application Support/JetBrains/Toolbox/apps/IDEA-U/ch-0/183.2407.10/IntelliJ IDEA 2018.3 EAP.app/Contents/lib/idea_rt.jar=60195:/Users/jz/Library/Application Support/JetBrains/Toolbox/apps/IDEA-U/ch-0/183.2407.10/IntelliJ IDEA 2018.3 EAP.app/Contents/bin" -Dfile.encoding=UTF-8 -classpath /Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/charsets.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/deploy.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/cldrdata.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/dnsns.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/jaccess.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/jfxrt.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/localedata.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/nashorn.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/sunec.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/sunjce_provider.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/sunpkcs11.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/ext/zipfs.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/javaws.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/jce.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/jfr.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/jfxswt.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/jsse.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/management-agent.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/plugin.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/resources.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/jre/lib/rt.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/ant-javafx.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/dt.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/javafx-mx.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/jconsole.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/packager.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/sa-jdi.jar:/Library/Java/JavaVirtualMachines/jdk1.8.0_162.jdk/Contents/Home/lib/tools.jar:/Users/jz/code/scala/build/quick/classes/compiler:/Users/jz/code/scala/build/quick/classes/library:/Users/jz/code/scala/build/quick/classes/reflect:/Users/jz/.ivy2/cache/org.apache.ant/ant/jars/ant-1.9.4.jar:/Users/jz/.ivy2/cache/org.apache.ant/ant-launcher/jars/ant-launcher-1.9.4.jar:/Users/jz/.ivy2/cache/org.scala-lang.modules/scala-asm/bundles/scala-asm-6.2.0-scala-2.jar:/Users/jz/.ivy2/cache/org.scala-lang.modules/scala-xml_2.12/bundles/scala-xml_2.12-1.0.6.jar:/Users/jz/.ivy2/cache/jline/jline/jars/jline-2.14.6.jar scala.tools.nsc.PipelineMain /code/scala-2.12.x/target/compiler/compile.args /code/scala-2.12.x/target/interactive/compile.args /code/scala-2.12.x/target/library/compile.args /code/scala-2.12.x/target/partest-extras/compile.args /code/scala-2.12.x/target/reflect/compile.args /code/scala-2.12.x/target/repl-jline/compile.args /code/scala-2.12.x/target/repl/compile.args /code/scala-2.12.x/target/scaladoc/compile.args /code/scala-2.12.x/target/scalap/compile.args Round #1: /code/scala-2.12.x/target/library/compile.args warning: there were 37 deprecation warnings (since 2.10.0) warning: there were 24 deprecation warnings (since 2.11.0) warning: there were 46 deprecation warnings (since 2.12.0) warning: there were 107 deprecation warnings in total; re-run with -deprecation for details four warnings found Round #2: /code/scala-2.12.x/target/reflect/compile.args warning: there was one deprecation warning warning: there were three deprecation warnings (since 2.10.0) warning: there were four deprecation warnings (since 2.10.1) warning: there were 17 deprecation warnings (since 2.11.0) warning: there were 15 deprecation warnings (since 2.12.0) warning: there were 40 deprecation warnings in total; re-run with -deprecation for details warning: there were four unchecked warnings; re-run with -unchecked for details 7 warnings found Round #3: /code/scala-2.12.x/target/compiler/compile.args warning: there were two deprecation warnings warning: there were 12 deprecation warnings (since 2.10.0) warning: there were 55 deprecation warnings (since 2.11.0) warning: there were three deprecation warnings (since 2.11.2) warning: there were 26 deprecation warnings (since 2.12.0) warning: there was one deprecation warning (since 2.12.4) warning: there was one deprecation warning (since 2.12.5) warning: there were three deprecation warnings (since 2.12.7) warning: there were 103 deprecation warnings in total; re-run with -deprecation for details warning: there were 31 unchecked warnings; re-run with -unchecked for details warning: there were 6 feature warnings; re-run with -feature for details Round #4: /code/scala-2.12.x/target/interactive/compile.args 11 warnings found warning: there were four deprecation warnings (since 2.11.0) Round #4: /code/scala-2.12.x/target/scaladoc/compile.args warning: there was one deprecation warning (since 2.12.0) warning: there were 5 deprecation warnings in total; re-run with -deprecation for details warning: there were two unchecked warnings; re-run with -unchecked for details four warnings found Round #4: /code/scala-2.12.x/target/scalap/compile.args warning: there were two deprecation warnings (since 2.12.0); re-run with -deprecation for details warning: there were two unchecked warnings; re-run with -unchecked for details two warnings found warning: there was one deprecation warning (since 2.12.0); re-run with -deprecation for details Round #5: /code/scala-2.12.x/target/repl/compile.args one warning found warning: there were 10 deprecation warnings (since 2.11.0) Round #6: /code/scala-2.12.x/target/repl-jline/compile.args warning: there were three deprecation warnings (since 2.12.0) warning: there was one deprecation warning (since 2.9.0) warning: there were 14 deprecation warnings in total; re-run with -deprecation for details four warnings found Round #7: /code/scala-2.12.x/target/partest-extras/compile.args ```

@retronym

* origin/2.10.x: SI-6089 pt2: _ is tailpos in `_ || _` and `_ && _` Linked the PR policy in the README file. Scaladoc: Removing forgotten debugging info address "this would catch all throwables" warnings SI-1832 consistent symbols in casedef's pattern&body SIP-14 - Fix critical Java compatibility issue in scala.concurrent.Await Removes redundant outers Use `findMember` to lookup the static field in the host class. update docs for (partial) fun synth in uncurry SI-5999 a real fix to the packageless problem evicts calls to reify from our codebase an improvement based on Adriaan's comment SI-6031 customizable budget for patmat analyses SI-5739 address @retronym's feedback, more docs SI-5999 staticXXX is now friendly to packageless SI-5949 updates documentation of staticClass SI-5999 removes the macro context mirror more meaningful name for a missing hook method SI-5999 deploys a new starr SI-5999 removes Context.reify improves docs of scala.reflect.api.Mirrors SI-5984 improves error reporting in JavaMirrors SI-4897 derive expected value from single type Switch to 1.6 target for all javac invocations. Clean ups in impl.Future Critical bugfixes/leak fixes/API corrections + ScalaDoc for SIP-14 Print the stack trace. Deprecate all JVM 1.5 targets and make 1.6 default. Shield from InterruptedException in partest. Scaladoc: Adressed @hubertp's comment on scala#925 SI-5784 Scaladoc: Type templates Scaladoc: Groups Better debugging output in GenASM. Updated list of targets allowed in Ant's scalac. WIP add private/lazy checks and a few tests. Removes Float.Epsilon and Double.Epsilon SI-5939 resident compilation of sources in empty package Scaladoc: Typers change SI-6104 support This pattern Make field strict and private. Implement @static annotation on singleton object fields. Fixed SI-6092. Fixed leaky annotations, and relaxed the conditions under which a try-catch is lifted out to an inner method. Fix SI-5937. SI-6089 better tail position analysis for matches SI-5695 removes Context.enclosingApplication SI-5892 allow implicit views in annotation args SI-5739 store sub-patterns in local vals changes error message generated by compiler SI-5856 enables use of $this in string interpolation SI-5895 fixes FieldMirrors SI-5784 Scaladoc: {Abstract,Alias} type templates test case closes SI-6047 Fix for SI-5385. SI-6086 magic symbols strike back Scaladoc: Refactoring the entities SI-5533 Skip scaladoc packages from documentation Scaladoc: updated type class descriptions Scaladoc: Reducing the memory footprint 2 Scaladoc: Reducing the memory footprint SI-3695 SI-4224 SI-4497 SI-5079 scaladoc links SI-4887 Link existentials in scaladoc Scaladoc minor fix: Typos in diagrams SI-4360 Adds prefixes to scaladoc Scaladoc: workaround for untypical Map usecases SI-4324 Scaladoc case class argument currying SI-5558 Package object members indexing SI-5965 Scaladoc crash Scaladoc: Inherited templates in diagrams SI-3314 SI-4888 Scaladoc: Relative type prefixes SI-5235 Correct usecase variable expansion Variation #10 to optimze findMember Attempt #9 to opimize findMember. Attempt #8 to opimize findMember. Attempty #7 to optimize findMember Fixing problem that caused fingerprints to fail in reflection. Also fixed test case that failed when moving to findMembers. Avoids similar problems in the future by renaming nme.ANYNAME Attemmpt #6 to optimize findMember Attempt #5 to optimize findMember. Attempt #4 to optimize findMember Attempt #3 to optimize findMember Attempt #2 to optimize findMember Attempt #1 to optimize findMember Conflicts: test/files/run/existentials-in-compiler.scala

First of all, GIL should only apply to runtime reflection, because noone is going to run toolboxes in multiple threads: a) that's impossible, b/c the compiler isn't thread safe, b) ToolBox api prevents that. Secondly, the only things in symbols which require synchronization are: 1) info/validTo (completers aren't thread-safe), 2) rawInfo and its dependencies (it shares a mutable field with info) 3) non-trivial caches like in typeAsMemberOfLock If you think about it, other things like sourceModule or associatedFile don't need synchronization, because they are either set up when a symbol is created or cloned or when it's completed. We can say that symbols can be in four possible states: 1) being created, 2) created, but not yet initialized, 3) initializing, 4) initialized. single thread. #2 and #4 don't need synchronization either, because the only mutation symbols in runtime reflection can undergo is init. #3 is dangerous and needs protection.

broke out findMembers as a separate operation to streamline the code. findMember itself still needs to be optimized.

2.11.x

When an application of a blackbox macro is used as an extractor in a pattern match, it triggers an unconditional compiler error, preventing customizations of pattern matching implemented with macros.

Topic/sbt build

hubertp closed this Feb 8, 2013

retronym pushed a commit that referenced this pull request May 7, 2014

Merge pull request #4 from pwagland/AllowLongStrings

3a1df25

Stack overflow with JavaTokenParsers.stringLiteral

retronym pushed a commit that referenced this pull request Mar 27, 2018

Merge pull request #4 from SethTisue/add-travis

75c20ad

add a basic Travis build

retronym pushed a commit that referenced this pull request Jun 24, 2019

Attempt #4 to optimize findMember

f58e721

broke out findMembers as a separate operation to streamline the code. findMember itself still needs to be optimized.

retronym pushed a commit that referenced this pull request Jun 24, 2019

Merge pull request #4 from scala/2.11.x

394b0c5

2.11.x

retronym pushed a commit that referenced this pull request Mar 24, 2020

Merge pull request #4 from phaller/topic/sbt-build

ddb42b9

Topic/sbt build

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Fix .check files #4

Fix .check files #4

hubertp commented Feb 7, 2013

Fix .check files #4

Fix .check files #4

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hubertp commented Feb 7, 2013