- This helps to track down disposables which are never disposed, and
reduces confusion when printing disposables in general (the names will
now be meaningful, instead of endless lists of "newDisposable" and
"TestDisposable").
^KT-64099
- The disposable passed to `getOrCreateApplicationEnvironment` should
not actually be the application environment's disposable, which is
created inside the function. Instead, it should be the project's
disposable, which is used to track how many projects still rely on the
shared application environment.
- This issue wasn't apparent before because there is no visible
consequence when an application isn't disposed after all projects have
been disposed (during tests). However, the solution for KT-63650
relies on application environments being disposed after all projects
are disposed, so that a new application environment with a different
configuration can be created. (Only one shared application environment
may be active at the same time.)
^KT-63650
(reuse anonymous initializers as block wrappers) so the top-level script
elements are all declarations now. Rename the property accordingly (
together with the previous commit).
It makes script more similar to the class and thus simplify e.g.
control flow analysis and resolve code.
same as they were in K1 (see KSerializerDescriptorResolver): internal for
final classes and public for non-final.
Unfortunately, there are no Klib API dumps tests in the compiler, so I tested manually.
#KT-64124 Fixed
It's going to be deprecated in Gradle 8.3
There's currently no way to pass a `org.gradle.api.provider.Provider` to the JavaExec.systemProperty or Test.systemProperty. There's a workaround using `org.gradle.process.CommandLineArgumentProvider`, but I intentionally don't rework these calls as Gradle is going to allow passing providers to configure system properties: https://github.com/gradle/gradle/issues/12247#issuecomment-1568427242
^KTI-1473 In Progress
We cannot use only non-local declarations as anchors due to the same
resolution logic between member declarations of local classes, so we
have to support such cases as well
^KT-63042
`IrGeneratedDeclarationsRegistrar` assumes that all generated functions
are correct from a Kotlin point of view. But `writeSelf` method on JVM
is a static method outside any object/companion object
So to properly calculate containing class for this method we should
generate a dispatch receiver parameter, register the method in metadata,
and then remove the parameter (to make function static)
Separate class allows encapsulating comparison, equality, and structure of version parts.
It also makes more sense from API standpoint than plain `IntArray`.
To make sure that the correct version and flags are preserved during metadata transformation,
they are now stored inside KotlinClassMetadata.
Such change also makes it possible to make write() a member function of KotlinClassMetadata, further simplifying API.
Also, it allows tracking whether readStrict or readLenient was used to read metadata and prohibit writing accordingly.
Also provide transform() method as a shortcut for readStrict+write.
Related to: #KT-59441
In strict mode, an exception will be thrown when inconsistent metadata is encountered. In lenient mode, the reader will attempt to handle the inconsistent metadata by ignoring certain inconsistencies. This is a solution to a problem of reading metadata 'from the future' that is not allowed by default, but desired in certain cases. See updated ReadMe for details.
Also fix problem with Strict Semantics flag.
#KT-57922 Fixed
#KT-59441 Fixed