This is the cause for the 'missing dependency supertype: Serializable'
issue: symbols from built-ins will have the additional Serializable
supertype provided by FirJvmDeserializationExtension that shouldn't
be used for non-JVM. In regular modules it is correctly not added by
the non-JVM sessions, leading to difference in supertypes and the error.
KTIJ-27449
K1 reports `ARGUMENT_TYPE_MISMATCH`
and `TOO_MANY_ARGUMENTS` together, and
one way to do it in K2 is to say that
their kinds of inapplicability difference
is not relevant to the user.
Note that K1 doesn't do such filtering,
so this change "makes K2 closer to K1",
but still different.
^KT-62541 Fixed
fixup! [FIR] Show ARGUMENTS_MAPPING_ERROR diagnostics along with INAPPLICABLE
...in `ACTUAL_ANNOTATIONS_NOT_MATCH_EXPECT` diagnostic message.
Unlike in previous commit, this can't be fixed right in
`FirSymbolRenderer`, because `ConeIdRendererForDebugging` renders
differently and a lot of lazy resolve tests rely on that.
^KT-62585
It shouldn't break existing usages, because
1) default `ConeIdRendererForDebugging` renders ClassId in
same way as before the change;
2) I didn't find any usages, which use non-default idRenderer,
but rely on full ClassId be rendered for qualifiers.
^KT-62585
The root cause of the problem is that we visit class annotations more
accurately than in the regular compiler transformer, so we have
a difference: the compiler assumes that annotation processing
of the class is called already inside this class, so it should enable
CLASS_HEADER_ANNOTATIONS mode to not capture extra context.
But we in LL FIR do this out of the class, so such context switching
is redundant and results in cutting out the outer class context
^KT-62587 Fixed
https://youtrack.jetbrains.com/issue/KT-59916/K2-Disappeared-REPEATEDANNOTATION
FirAnnotationChecker does not detect repeated annotation on dynamic type, since FirTypeResolverImpl wrongly did not convert source annotations to attributes of ConeDynamicType.
This MR improves FirTypeResolverImpl to convert attributes of FirDynamicTypeRef to annotations and attach them to ConeDynamicType.
Merge-request: KT-MR-12551
Merged-by: Vladimir Sukharev <Vladimir.Sukharev@jetbrains.com>
It's effectively a breaking change (^KT-62558)
K2 assigns flexible type to all static fields (from Java) and, for example,
`String? becomes String unlike K1. It affects IR signature generating.
That's why signature dump is disabled for some tests.
^KT-57811 Fixed
^KT-61786 Fixed
In Kotlin subclasses of `MutableCollection<Int>`, the method
`remove(Int)` has its argument boxed, so that it wouldn't clash with the
method from `java.util.List`. So `JavaOverrideChecker` should understand
that a Java method `boolean remove(java.lang.Integer)` overrides it,
otherwise platform declaration clash was reported.
The code is adapted from `forceSingleValueParameterBoxing` in K1's
`methodSignatureMapping.kt`.
The test has been moved and adapted from diagnostic to codegen box
tests, to check correct backend execution + runtime.
#KT-62316 Fixed
Unresolved annotation arguments were treated as absent arguments,
which lead to false-positive reports.
Add assert and test for that and fix.
MR: KT-MR-12245
^KT-60671 Fixed
This includes checking of annotatins set on:
- value parameter types
- type parameter bound types
- extension functions receiver types
- function return types
- class super types
Fix in `defaultParams_inheritanceByDelegation_positive.kt`
is needed because of problem in resolution of implicit return types
(KT-62064), which leads to crash in annotation checker, because it
expects resolved return type.
MR: KT-MR-12245
^KT-60671 Fixed