SimpleFunctionDescriptorImpl initialization consists of two phases:
ctor + initialize.
When SimpleFunctionDescriptorImpl is created wrapped descriptor
(e.g. ValueParameterDescriptorImpl) is leaked through bindingTrace
with not fully initialized `containingDeclaration` (that is
SimpleFunctionDescriptorImpl).
If PCE happens after this unsafe publication prior to `initialize` then
it will be case with NPE on fully initialized instance reading.
#KT-56364 Fixed
PropertyDescriptorImpl initialization consists of two phases:
ctor + setType.
When PropertyDescriptorImpl is created wrapped descriptor
(e.g. WithDestructuringDeclaration) is leaked through bindingTrace
with not fully initialized `containingDeclaration` (that is
PropertyDescriptorImpl).
If PCE happens after this unsafe publication prior to `setType` then it
will be case with NPE on fully initialized instance reading.
#KT-56388 Fixed
Because SerializationJvmIrIntrinsicSupport does not instantiate annotations yet,
this info could be lost. As a workaround, it is possible to call Companion.serializer()
functions instead of direct serializer instantiation, as they are plugin-generated
and correctly handle annotations.
Note that for some cases (enums & interfaces) this WA is not enough, so additional work
is needed later.
Fixes https://github.com/Kotlin/kotlinx.serialization/issues/2179
Apparently it depended on the ordering of the synthetic `$annotations`
methods generated for properties. And those methods were always
generated at the end of a Java stub by kapt because they lacked PSI
element, and thus `ClassFileToSourceStubConverter.convertClass` could
not compute their source position, and it placed them at the end as all
other synthetic methods.
The solution is to provide PSI element for `$annotations` methods in
JvmDeclarationOrigin. This origin is then collected in kapt in
`OriginCollectingClassBuilderFactory` and used for sorting, as in the
case of the old JVM backend.
#KT-56360 Fixed
make write protection directly in properties
it creates no additional wrapper with the link to the containing class
for ij project, this reduces memory usage for ~15 mb
^KT-56351
Otherwise, decompiled declarations with flexible types in them cannot be
properly resolved by the Analysis API
Examples of such declarations:
```kt
fun foo()/*: ImplicitTypeFromJava! */ = <some call to java code>
var bar/*: ImplicitTypeFromJava! */ = foo()
// set(value: ImplicitTypeFromJava!) { ... }
```
^KTIJ-24192 Fixed