In before, actualizer was copying attributeOwnerId to new
nodes. This leads to attributeOwnerId linked to non-actualized
node. It's unclear what it leads to, so we just stop doing that.
In particular, if attributeOwnerId references another node,
this information would be lost.
^KT-64895
...instead of those computed from a frontend representation
(`symbol.signature`).
This is more robust; besides, we are going to turn off building
signatures from FIR, so `symbol.signature` is going to return null soon.
The error-level enhancement is kept as warning-level and a new
LanguageFeature is introduced to turn the warning into an error.
#KT-63208 Fixed
#KT-63209
This is required for EnhancedTypeForWarningAttribute because scopes
should not be reused between cone types with different values of
this attribute.
#KT-63208
Changed the code in AbstractNativeCExportTest to create the executable
in the same directory as the dynamic library.
This update is to accommodate the lack of rpath on Windows systems.
FileCheck tests force using dev LLVM distribution. It breaks
invocation of LLVM Clang which tries to look for executable in a wrong
directory. Let's keep things simple and always pass dev variant to our
tests.
Previously, if the parent class was in Java code and the subclass in
Kotlin, the opt-in usage error would not be reported for the subclass.
The problem was that the extractClassFromArgument function couldn't get
the class type from Java code. It was looking for a ConeClassLikeType,
but found a ConeFlexibleType instead.
#KT-60258 Fixed
```
abstract class Base
var x: Int
private set
}
class Derived : Base()
```
Without this change, FIR2IR created a symbol for setter of f/o Derived.x,
but IR f/o generator doesn't create a setter in f/o, as this setter is
invisible in Derived
^KT-64742
Now, we detect clashing signatures during serialization to KLIB and
report a compiler error if two or more declarations have the same
`IdSignature`
For example, for the following code:
```kotlin
@Deprecated("", level = DeprecationLevel.HIDDEN)
fun foo(): String = ""
fun foo(): Int = 0
```
the compiler will produce this diagnostic:
```
e: main.kt:1:1 Platform declaration clash: The following declarations
have the same KLIB signature (/foo|foo(){}[0]):
fun foo(): String defined in root package
fun foo(): Int defined in root package
e: main.kt:4:1 Platform declaration clash: The following declarations
have the same KLIB signature (/foo|foo(){}[0]):
fun foo(): String defined in root package
fun foo(): Int defined in root package
```
Note that we report this diagnostic during serialization and not earlier
(e.g., in fir2ir) for more robustness, so ensure that we check
exactly the signatures that will be written to a KLIB.
If we later introduce some annotation for customizing a declaration's
signature (e.g., for preserving binary compatibility), this
diagnostic will continue to work as expected.
^KT-63670 Fixed
To reuse this diagnostic reporter in `serialization.common` for
reporting signature clashes (KT-63670), we must extract it to
the `serializeModuleIntoKlib` method instead of creating it in
`JsKlibCheckers`.
However, because `serialization.common` does not depend on
the `backend.common` module in which
`KtDiagnosticReporterWithImplicitIrBasedContext` is declared,
we have to use the `IrDiagnosticReporter` interface in place of
`KtDiagnosticReporterWithImplicitIrBasedContext`.
Besides, it's better from the architectural point of view:
the users of that diagnostic reporter should not know about its
implementation details.