We should pass container for correct logic around CLASS_HEADER_ANNOTATIONS.
Also, such correct containers will be used in the context of KT-63042 to
correctly detect an annotation ownership
^KT-63042
^KT-63842 Fixed
There are still some places in `.fir.kt` where false-positive reports
remained. This is because of IR checker, which will be fixed in next
commit.
^KT-31636
After previous commits IrActualizer runs only there are at least two modules
in backend input. So to check diagnostics from Actualizer all tests
should contain at least two modules
Diagnostics in test `extendExpectedClassWithAbstractMember.kt` were
changed because there is an exception from IrActualizer caused by
errors from frontend (`ABSTRACT_METHOD_NOT_IMPLEMENTED`), which is
swallowed by this kind of tests
Fir2Ir conversion consists of multiple steps with complex logic (like
conversion of each module, actualization, plugins application, constant
evaluation), and to ensure that they all are executed correctly it's
convenient to have the single entry point for all this machinery
This fixes processing of annotations on enum entries.
Before, the check in BodyResolveContext.forAnnotation would set the
tower data mode to CLASS_HEADER_ANNOTATIONS because no containers were
present.
This would lead to some tower data elements like nested classifiers
missing, which would lead to false positive unresolved references.
#KT-63761 Fixed
This commit does two things:
- prioritize type parameter scopes against static scopes in body resolve
(effectively it's a revert of KT-58028 fix)
- consider type parameters as inapplicable callable, so during callable
resolve we can go up the tower and still resolve to static scope
This allows both KT-58028 and KT-63377 to work properly
#KT-63377 Fixed
FirDefaultArgumentsInExpectActualizedByFakeOverrideChecker is an adhoc
checker which can be converted to ExpectActualCheckingCompatibility to
reuse common expect-actual checking infrastructure.
^KT-62913 Fixed
Review: https://jetbrains.team/p/kt/reviews/13094/timeline
Tests that were broken by one of my previous commits are now fixed:
- actualFakeOverride_paramsAreCompatibleViaSharedMethodWithDefaultParams.kt
- inheritedJavaMembers.kt
DEFAULT_ARGUMENTS_IN_EXPECT_ACTUALIZED_BY_FAKE_OVERRIDE diagnostic
disappeared in delegation.fir.kt because only one
AbstractExpectActualChecker incompatibility can be reported at a time
(DEFAULT_ARGUMENTS_IN_EXPECT_ACTUALIZED_BY_FAKE_OVERRIDE is now reported
not by adhoc checker but by common AbstractExpectActualChecker). It
would be nice to report both of them, but it's a separate issue KT-62631
delegation2 test makes sure that
DEFAULT_ARGUMENTS_IN_EXPECT_ACTUALIZED_BY_FAKE_OVERRIDE is reported when
NO_ACTUAL_CLASS_MEMBER_FOR_EXPECTED_CLASS is fixed
^KT-63550 Fixed
Review: https://jetbrains.team/p/kt/reviews/13094/timeline
Now it's required to create a new ScopeSession when searching for expect
members for actuals. If you keep reusing actualScopeSession then members
declared in platform may "slip into" the search results, resulting an
incorrect expect for actual (e.g. it happens in
supertypeIsExpectActual_covariantOverrideOfInjectedFromSuper_transitiveSubstitutionFakeOverride.fir.kt)
I suppose that it always has been a bug that we reused
actualScopeSession because we were mixing actualScopeSession and
expect FirSession (which is a bad idea), but we simply didn't have cases
where this bug could be observed. Now after we started matching
fake-overrides, we have such cases.
But creating a new ScopeSession every time is a suboptimal solution. We
need to design a scope caching KT-63773
This call to isAbstractMethodOfAny was in Fir2IrLazyClass since its
inception in 0622be14a5, and there's no explanation why this was
necessary. Removing it does not seem to break anything, but fixes the
case when IrFakeOverrideRebuilder is enabled and when Java base class
declares an abstract equals/hashCode/toString which is not overridden in
the Kotlin subclass.
#KT-63443 Fixed
move (de)compilation services from static dependencies into DI
This is done for allowing different (de)compile strategies in the future
Merge-request: KT-MR-13213
Merged-by: Artem Olkov <artem.olkov@jetbrains.com>
This is required to have stable resolution order to avoid concurrent
modifications and correct resolution context.
This also fixes KT-63700 as a super call expands only during body
resolution in the case of secondary constructor
^KT-63042
^KT-63700 Fixed
This is required to have stable resolution order to avoid concurrent
modifications and correct resolution context.
E.g., this commit fixes the resolution behavior of delegate field for
ANNOTATION_ARGUMENTS phase – now annotation argument resolves in the
correct scope
^KT-63042
This issue doesn't affect the compiler because delegate field shares
annotation instance with the containing class, so it will be resolved
before field anyway.
In Low Level FIR we didn't notice this issue because we don't have
isResolved checks for type annotations (KT-63681)
^KT-63042
^KT-63681
This is required to have stable resolution order to avoid concurrent
modifications and correct resolution context.
E.g., this commit fixes the resolution behavior of fake override for
ANNOTATION_ARGUMENTS phase – now annotation argument resolves correctly.
We shouldn't do additional checks in the case of fake declaration
because they should be done on the original side
^KT-63042
Previously, this call was required to avoid sharing to have independent
instances with their own resolution cycle. Now we will have stable
order (in the next commit), so it is possible to share instances.
Also, this change makes the logic consistency with Light Tree
^KT-63042
This is required to have stable resolution order to avoid concurrent
modifications.
Another point here – status phase logic for componentN function is
located in the corresponding property resolution
^KT-63042
Previously, this call was required to avoid sharing to have independent
instances with their own resolution cycle. Now we will have stable
order (in the next commit), so it is possible to share instances.
Also, this change makes the logic consistency with Light Tree
^KT-63042
From one side to check how annotation propagation works and from another
side to cover scenarios with lazy resolution from type position as it is
a valid case of usage in Analysis API (KtFirAnnotationListForType)
^KT-63042
- This improves the memory usage of `FileStructureElementDiagnosticList`
by avoiding lots of duplicate empty mutable maps. We can assume that
most diagnostics lists are empty, since code is usually green.
- I tested the memory consumption manually by opening all files in
`org.jetbrains.kotlin.idea.k2.codeinsight.inspections` and waiting for
analysis to finish for each file. With the change, the retained size
of `FileStructureElementDiagnosticList` shrank from 63.39kB to
13.77kB.
It is duplicated because we have two checkers: FIR (for IDE support
in simple cases) and IR ("honest" checker supporting all cases).
Fix this by running FIR checker only in IDE.
FIR checker behavior remains covered by tests in
`LLFirPreresolvedReversedDiagnosticCompilerFE10TestDataTestGenerated`.
^KT-62559 Fixed