Sometimes IC raises compilation errors when rebuild succeeds.
This happens because IC uses serialized decriptors
for non-dirty files. Serialized descriptors can be different
from source file descriptors. For example, a source file
may contain an implicit return type or an implicit visibility
for overridden methods, but serialized descriptors always
contain explicit return types & methods' visibilities.
These problems can be solved by expanding a scope of incremental compilation
just after the analysis, but before error reporting & code generation.
In other words, we need to compare descriptors before error reporting and code generation.
If there are new dirty files, current round of IC must be aborted,
next round must be performed with new dirty files.
This commit implements IC scope expansion for JS Klib compiler
#KT-13677
#KT-28233
The new name is generateAndroidTests.
The output of this task is not committed to VCS, so there's no need
to run it when "Generate All Tests" run configuration is executed.
It is no longer needed since JS IR is published in JS artifacts,
and there's no longer separate "-js-ir" artifacts.
Changes in BuildProperties.kt will take effect after the next
kotlin-build-gradle-plugin publishing.
Do not check for occurrences of "this" on the current backend.
I accidentally unified the checking for the two backends
without checking that it worked (used the wrong test suite to
test).
We already have all configurations inside `all` property.
If script doesn't have loaded configuration getting script sdk - ask for configuration explicitly to avoid situations when configuration is already loaded but not yet saved in memory cache
Looks related to KT-35590
^KT-35590
Add visibility modifier to companion field
Const initializer is now getting for const properties only
Fixed tests:
UltraLightClassLoadingTestGenerated.testAnnotations
UltraLightClassLoadingTestGenerated.testInheritance
UltraLightClassLoadingTestGenerated.testProperties
UltraLightClassSanityTestGenerated.IdeRegression.testImplementingMutableSet
UltraLightClassSanityTestGenerated.IdeRegression.testOverridingFinalInternal_extra
UltraLightClassSanityTestGenerated.IdeRegression.testOverridingInternal
UltraLightClassSanityTestGenerated.IdeRegression.testOverridingInternal_extra
UltraLightClassSanityTestGenerated.IdeRegression.testOverridingProtected_extra
UltraLightFacadeClassTestGenerated.testProperties
UltraLightClassLoadingTestGenerated.testObjects
It is easier to introduce a new lowering so the codegen will emit code for the old
tail-call optimizer to understand. Also, this is more flexible and would allow to
optimize cases, which are now feasible with the old optimizer.
Note, that because of bytecode inlining, we cannot replace the old one, but we cannot
emit code, that is simpler for it to optimize.
Since the markers replace ALOAD 0 as continuations, passed to suspend calls, in
JVM_IR we do not need this, since in JVM_IR all inline lambdas are static
functions.
When called by reflection the bit mask will be generated
discounting dispatch/extension receivers. Make sure that the
interpretation of the bit mask is consistent for direct and
reflective calls.
In addition, this also fixes the modifiers on java 8 parameter
metadata for the dispatch and extension receivers for these
inline class methods.
kotlinx.serialization plugin now adds additional function to companions
of generic classes in order to overcome lack of reflection. This
helps retrieving generic serializers from KType.