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.
This decouples simple data (TargetPlatform) from other subsystem-specific
logic (like default imports, built-ins, etc.).
Aside from purely aesthetic improvements, it also makes it easier
to move 'TargetPlatform' into core (see next commits)
Mostly unused imports. Also, in some places,
TargetPlatform/MultiTargetPlatform were just passed around without
actually using (e.g. in deserialization)
There is added a new service named `SubstitutingScopeProvider`, that
provides factory that creates captured types and approximator for them.
In OI they are the same as before commit, for NI they are empty, because
that approximation interferes with NI algorithm
That service is injected into function descriptors and property descriptors
and used for creating `SubstitutingScope` with correct services
Also there is changed time when we approximate captured types in NI
(after all call checkers)
#KT-25290 Fixed
The synthesized arguments caused the size of default value mask off by
one when it is close to the boundary of Int.SIZE, which in turn
resulted in wrong signature at call sites.
Remove "JVM_TARGET: 1.6" directive from box tests and remove tests with
JVM target 1.8. By default, box tests are run with JVM target 1.6, and
there's an additional configuration `codegenTarget8Jvm8Test` that runs
all box tests with JVM target 1.8.
Also, remove box tests with JVM target 1.6. They aren't needed because
even if we manage to generate incorrect bytecode with target 1.6, the
corresponding box tests will catch that
unsigned ranges/progressions.
The tests pass in JVM_IR for signed, but fail for unsigned due to
inlining being broken. We can disable the JVM_IR tests for unsigned,
while keeping them enabled for signed, to get better test coverage in
the interim until inlining is fixed.
Delegated properties now have their $delegate fields recorded in the
metadata (in `ClassCodegen.generateField`). This part of metadata is
used by `KPropertyN.getDelegate` functions, so almost all tests on
getDelegate are now unmuted
The intention of this code was to use the name "kotlin" for the builtins
module, in case we're using builtins loaded from the compiler class
loader (whose module is created in
`KotlinBuiltIns.createBuiltInsModule`). However,
`getBuiltIns().getBuiltInsModule()` may refer not necessarily to the
builtins module, but also to any valid module where the builtins are
visible from, therefore its name would be computed incorrectly. Use the
module name instead to determine if it's a synthetic builtins module
created in `createBuiltInsModule`
Use KotlinBuiltIns.isString instead of equality with
KotlinBuiltIns.string, which is more portable across different module
configurations. Also use isSubtypeOf instead of
DescriptorUtils.isSubclass and thus get rid of an extra error on an
unresolved class in nativeAnnotationCheckers.kt
Move kotlin-stdlib-js project and the sources specific to the current backend to 'stdlib/js-v1' directory,
but leave sources that can be shared with the new IR backend in the common 'stdlib/js' location
with exception for 'stdlib/js/src/generated', which is used exclusively for current backend.
This simplifies sourceset configuration when building stdlib with the new backend.
This fixes Java interop of inline functions, which use coroutines.
However, we cannot transform the state-machine. Thus, we generate
a $$forInline counterpart for suspend functions (similar to inline
suspend functions) and invokeSuspend$$forInline for lambdas if these
coroutines are going to transformed (i.e. are declared inside inline
functions).
During transformation we just skip method with state-machine and
transform the $$forInline counterpart. Of course, if inline site is
inline itself, we generate both state-machine version (which will be
dropped during the next transformation) and $$forInline version.
Consequently, the final version of the coroutines will not have
$$forInline counterpart.
Unfortunately, since CompileKotlinAgainstInlineKotlin tests do not allow
java sources, the tests for the interop are usual box tests.
#KT-30707 Fixed