To correctly provide the context for class header resolution, we save
the additional copy of the context right before `withRegularClass`
wrapper call in `LLFirBodyLazyResolver`. Otherwise we would have to
clear the existing context by hand, which is too cumbersome
(if at all possible)
^KTIJ-26024 Fixed
^KTIJ-24832 Fixed
Add a new method `isImplicitReferenceToCompanion` to determine
if the given reference is an implicit reference to a companion object.
The method is needed for the rename refactoring in IJ.
^KTIJ-25863
Otherwise, e.g., if a local type is within an anonymous object, full
class id will include that anonymous object too, resulting in invalid
type signature for PsiType.
^KT-59533 Fixed
There are too many possible error cases when code resolution cannot
properly resolve a call. Since in external mode `Logger.error` calls
lead to visible IDE errors, we want to avoid that
^KT-59093 Fixed
`getReturnTypeForKtDeclaration` is called by UAST on probably compiled declarations.
In order to avoid redundant decompilation + building raw FIR + resolve,
let's delegate to deserialized FIR which is already prepared in stubs
Fixes KTIJ-24810
When `findSourceNonLocalFirDeclaration` is called on non-physical property accessor e.g.,
during completion, then traverse tree should allow drilling into FirProperty;
otherwise, no FIR would be found
In case of broken code e.g., duplicated classes provider would return first class,
though we definitely need some code insight in this case
at least to add navigation fixes, etc.
Similar to this, a file copy is created during completion,
where additional elements might appear and we need to search for them.
Added test cases for duplicated classes.
CompileTimeConstantProvider could receive a reference expression,
whose grandparent is KtTypeReference (seen that in UAST inspection).
FIR would not contain anything explicit for this reference,
FirResolvedTypeRef would be received as the nearest parent.
Of course, in this case, there could be no compile time constant anyway.
To properly resolve qualifier parts in the middle,
we need to resolve the whole qualifier to understand
which parts of the qualifier are package or class qualifiers.
And then we will be able to resolve the qualifier
selected by the user to the proper class, package or callable.
^KT-59189
1. Optimize it by removing a tower data context collection (KT-59189)
2. Rework the behavior, so it simulates the tower resolve by returning the set of symbols only from the first tower level, which is not empty
^KT-59189 fixed
KtResolveExtensions are designed to handle IDE analysis use cases where
source might not be available at analysis time, because that source is
generated by an external source generator, such as an annotation
processor or resource compiler. The sources generated by those external
generators can appear in the analysis scope, and cause issues with
source clash - resolution may find the virtual source from the
KtResolveExtension, the on-disk generated source from the external
generator, or both. This can cause issues, because that on-disk
generated source may be stale, and may not have symbols that will exist
the next time the generator is run (or, conversely, may have symbols
that will disappear on the next build).
To solve this, add a `getShadowedScope(): GlobalSearchScope` to
`KtResolveExtension`. Any files in the module that are included in that
scope will be hidden from resolution, allowing the resolve extension to
cleanly replace those files.
^KT-58834 fixed
It's very slow and leads to performance problems (see KT-58125)
Instead, we do the following:
- For a fully resolved type qualifier, when we want to resolve its part,
we are looking for the corresponding symbol by traversing nested classes
bottom up.
- For an error qualifier, we are trying to resolve the maximum possible
qualifier in the types transformer where all the type scopes are
already available.
^KT-58125 fixed
- `dependency2` is needed to ensure the creation of combined Kotlin
symbol providers. If there is only a single dependency Kotlin symbol
provider, the combined symbol provider won't be created.
then, for compiled code deserialized fir would be used instead of building
decompiled text and consequence building and resolving of raw fir;
type for ktTypeReference from compiled code is called e.g., by UAST inspections
when they check annotations of the called function parameters
Previously, the semantic was more-or-less correct for most of the cases
but some corner one, like `sort` in MutableList didn't work properly.
Namely, `sort` should be marked there in a way to forbid to call it
everywhere beside super-calls.
Also, overriding it should be allowed.
Mostly, the logic was re-written to K2 model from K1-related
JvmBuiltInsCustomizer.
^KT-57694 In progress
^KT-57269 Fixed
This is needed for the cases when a candidate name set is known
to avoid retrieving a set with all possible names when processing the scope.
Similar to KtScope.
^KT-58653
This is needed for the cases when a candidate name set is known
to avoid retrieving a set with all possible names when processing the scope.
^KT-58653 fixed