Otherwise, we have a static initialization loop, leading to null-leaks
Removing default interface method indeed disconnects the loop, as per JVM
Specification, "5.5 Initialization".
See KT-33245 for detailed explanations
^KT-33245 Fixed
Relates to KT-8834, we continue reducing differences between old and new
inference. Note that as for `SamConversionPerArgument`, this feature
is enabled in the compiler and not in the IDE to avoid breaking code
for those users that already enabled new inference in the compiler
Under COMPOSITE mode we don't have a globally known way to create
built-ins, instead, we have to create them on per-module basis.
So, in this commit we:
1. Use builtInsProvider: (ModuleInfo) -> KotlinBuiltIns instead of
precomputed builtIns instance, in order to be able to calculate
builtIns on per-module basis
2. Introduce new entity, called BuiltInsCache, which, roughly
speaking, is a map of form ModuleInfo -> KotlinBuiltIns, to prevent
creation of multiple builtInsInstances
NB. Actually, it's of form BuiltInsCacheKey -> KotlinBuiltIns, because
we shouldn't create new builtIns for each module. Also, currently,
each platform has its own BuiltInsCacheKey implementation, because
parameters by which built-ins are created, are a bit different across
different platforms. Ideally, we should eliminate those differences
and they use one concrete implementation as a key.
As consequence, remove IdePlatformKindTooling.resolverForModule, because
it became more than just field, and it duplicates similar API in
IdePlatformKindResolution anyways
- implement error result
- refactor other result classes
- implement handling in the script evaluation extension - also restores
previous script error reporting functionality
- add possibility to customize result fileds in script and REPL
- refactor result calculation in the backend: cleanup, rename (since
it is not only about REPL now)
If new inference is enabled only for IDE analysis, then this feature
will be disabled to reduce difference between new and old inference,
but if new inference is enabled in the compiler, then this feature
will be enabled too to preserve behavior of new inference for
compilation
#KT-32175 Fixed
#KT-32143 Fixed
#KT-32123 Fixed
#KT-32230 Fixed
Previously, a lot of clients used JvmPlatform as platform-marker,
without thinking about jvmTarget.
For the sake of migration, this commits introduced so-called
UnspecifiedJvmPlatform, which can be used for a time being, but
generally, all usages should be removed in future.
Previously, containers set-up was performed by calls to static functions
like 'createContainerForLazyResolve', which would set-up whole container
from scratch.
This has several issues:
- complicates code re-use and encourages copy-paste of one and the same
set-up logic
- complicates composition of multiplatform containers (because each
set-up method relies on the fact that it should take an empty
container and compose it completely)
The idea of this commit is to split set-up methods into smaller ones,
with finer areas of responsibility, which allows to re-use them
in various scenarios (and, in particularly motivating composition
of multiplatform container)
This is a large commit, which introduces general API for working with
abstraction of Platform.
- Add new abstraction to 'core' - SimplePlatform - which represents
exactly one platform
- Clients are strongly prohibited to create instances of SimplePlatform
by hand, instead, corresponding *Platforms abstraction should be used
(e.g. JvmPlatforms, JsPlatforms, KonanPlatforms)
- Move TargetPlatform to 'core', it represents now a collection of
SimplePlatforms
- Clients are strongly encouraged to use TargetPlatform
(not SimplePlatform) in API, to enforce checks for multiplatform
- Provide a helper-extensions to work with TargetPlatform
(in particular, for getting a specific component platform)
- Remove MultiTargetPlatform in favour of TargetPlatform
- Notably, this commit leaves another widely used duplicated abstraction,
namely, IdePlatform. For the sake sanity, removal of IdePlatform is
extracted in the separate commit.
- refactor script compiler to simplify extending it for repl
- add repl snippet compilation functions to the new scripting compiler
- extract util functions into appropriate files
- extract repl part into separate class
- extract bridge definition and related definitions into separate file
`-Xbuild-file` argument allows the compiler to run without
passing any Kotlin source file in arguments.
We have been using this property in
Kotlin Gradle plugin for a few important cases:
1. incremental compilation (to update caches when there are only removed files);
2. for KAPT (Kotlin sources don't make sense in context
of running APs).
We want to stop using `-Xbuild-file` in Kotlin Gradle plugin,
and avoid breaking the Gradle plugin or IC in other build-systems.
This change adds an argument to explicitly run
the compiler without specifying any Kotlin source file.
In TopDownAnalyzerFacadeForJVM, we now always use the "load built-ins
from module dependencies" behavior that was previously only enabled with
the dedicated CLI argument -Xload-builtins-from-dependencies. However,
sometimes we compile code without kotlin-stdlib in the classpath, and we
don't want everything to crash because some standard type like
kotlin.Unit hasn't been found.
To mitigate this, we add another module at the end of the dependencies
list, namely a "fallback built-ins" module. This module loads all
built-in declarations from the compiler's class loader, as was done by
default previously. This prevents the compiler from crashing if any
built-in declaration is not found, but compiling the code against
built-ins found in the compiler is still discouraged, so we report an
error if anything is resolved to a declaration from this module, via a
new checker MissingBuiltInDeclarationChecker.
Also introduce a new CLI argument -Xsuppress-missing-builtins-error
specifically to suppress this error and to allow compiling code against
compiler's own built-ins.
#KT-19227 Fixed
#KT-28198 Fixed
Dmitry Savvinov