Also adds rendering of @Metadata annotations in Kapt3 and Kapt4 tests
(currently disabled for a few tests).
Co-authored-by: Alexander Udalov <alexander.udalov@jetbrains.com>
For implicit invoke operator calls, there are two instances of
`FirResolvedNamedReference`. One of them references `invoke` function
and cannot be used to analyze the property access, and the second one
has `source == null`. Luckily, the parent of the second reference is
`FirPropertyAccessExpression`, which has the correct source
^KT-60957 Fixed
As 'FirCodeFragments' are converted to IR independently of its context,
in some cases duplicate (and not quite correct) symbols for local
classes and functions are created.
Until properly fixed in fir2ir, here we replace such duplicates with
original symbols.
In the old JVM backend, local functions were compiled as JVM classes,
so there were an instance to pass around. Today, they are compiled to
static functions in the containing class/facade, and calls to them
compile natively.
To get to the proper qualified expression, we need to unwrap the outer
`FirVariableAssignment` if we deal with the property access inside of
assignment expressions
^KT-60954 Fixed
Inside `transformDeclarationContent` current tower data context is saved. Previously, stored context could be incomplete, because `dataFlowAnalyzer.enterFunction(function)` wasn't called in all cases.
^KTIJ-26419 Fixed
- `KtResolveExtension`s need to participate in active invalidation,
because LL FIR sessions depend on changes in resolve extension files.
- The resolve extension will simply be able to use the
`KotlinModificationSubscriptionService`, which is part of the Analysis
API surface for **API implementors**, to publish modification events.
When optimizing imports, it does not make any sense to account for
type qualifiers which are not directly present in the code
ATM such implicit type references are present for every
callable declaration call
^KTIJ-24877 Fixed
The API replaces 'KotlinCompilerIde' in the IntelliJ IDEA plugin.
Code moved to Analysis API as its K2 implementation severely depends on
the internal compiler API (FIR).
The API is going to be used in the JVM debugger evaluator, and in
the Bytecode Tool Window.
In this commit, only ordinary Kotlin are supported.
In later commits, there will be also support for 'KtCodeFragment' files,
as well as some test coverage.
We cannot always return null, because in such case some expressions
would become not fully explorable from the types perspective (see
the documentation on the `getCorrespondingTypeIfPossible`)
`FirNamedReference` might appear when resolving method references (like
`foo::bar`), but also when IJ Platform tries to resolve other parts of
the Kotlin PSI, notably a `KtNameReferenceExpression` in a
function call (`bar` in `foo.bar(baz)` expression).
N.B. FE10 implementation does not support returning `null` as a type -
currently it always returns `Unit` type in case it cannot figure out
the actual type. This issue should probably be tackled together with
KT-60166, so that both implementations are more or less aligned
^KT-60341 Fixed
^KT-59077 Fixed
^KTIJ-25745 Fixed
This allows us to properly complete array literals arguments of
annotation calls fixing several false-negative type mismatch errors
as well as enabling the inference of generic type arguments.
#KT-59581 Fixed
#KT-58883 Fixed
Even when the aliased import comes from the same package, it cannot be
removed, because it will break the code
Also, add more tests for the imports coming from the same package
^KTIJ-26276 Fixed