In case of inline it should be same descriptor (except of fake override), In general case getter could be synthetic accessor and in such case it's not inline
In old BE we generate `create` for this kind of suspend lambdas, which,
like in simple suspend lambdas is responsible for putting arguments
(including extension receiver) to fields.
But, if number of parameters of suspend lambda (including receiver) >= 1,
there is no need to generate `create`, since `create` is called only by
`createCoroutine` and friends from stdlib, and there is no version of
`createCoroutine` for lambdas with multiple parameters.
Thus, in old BE we generate a redundant method, which affects method
count.
In JVM_BE we decided to 'inline' create into `invoke` for suspend lambdas
with multiple parameters.
Unresolved reference diagnositc was not reported on callable references
returned from if or when expression because of additional block wrapper.
^KT-30953 Fixed
Fix getting kType metadata in cases when corresponding jsClass value
is passed through temporary variable.
This can happen when jsClass expression is not consided trivial by
local variable optimizer. This happens for object declarations from
different modules, for example kotlin.Unit
If there is an existing method that will have its argument types
remapped to boxed types, make sure to reflect that in the IR so
that code will be generated for a boxed value instead of a
primitive value.
Updated test checks, that large unsigned numbers are converted to corresponding
negative signed numbers properly. Using unsinged constants instead of signed
in test allows to remove supressed OI error as well as use test with NI.
FakeCallableDescriptorForObject instance, which is not ConstructorDescriptor,
is checked with call checkers when object's contents are being used.
Checker of missing supertypes should not be run against this fake descriptor.
Object's members belong to separate member scope, so their resolution doesn't
force containing class' supertypes evaluation. I.e. object's methods
may work fine even if some supertypes of containing class are missing.
Vararg parameter in reflection type is interpreted as covariant
array type against array in expected functional type and as
vararg element type otherwise. For instance having function
fun foo(vararg args: Int): Unit { /*...*/ }
reference ::foo can be passed against expected
(Int) -> Unit,
(Int, Int) -> Unit, etc.
In none of such cases type for parameter in foo's reflection type
should be changed to array.
However, against expected type (IntArray) -> Unit args' type
must become IntArray.
^KT-25514 Fixed
* Extract replacement of IrGetField/IrSetField into a separate
file-level lowering (should reduce the amount of work to linear in
the number of classes rather than potentially quadratic)
* Extract static backing field construction into JvmDeclarationFactory
and move that lowering after PropertiesToFields lowering to reduce
code duplication
Check worked incorrectly in case when argument type and expected type are the
same intersection type, which is possible for local variables without explicit
type declaration.
* When referencing the companion itself, they should use the $$INSTANCE
field, not the (null until <clinit> returns) Companion field of the
interface.
* Interface companion init blocks should be made static.
Fun fact: this is not actually validated when loading the class; and
even when compiling a java file against a class file that does this,
only javac 9 has a check (1.8 and before simply crashes with
NullPointerException somewhere deep inside the compiler).