Previously ReflectionTypes.find returned an error class in case a class
is not found in the module dependencies. The problem with this approach
is that each call site should call ErrorUtils.isError on the result and
report an error if needed, in order to stop this type from reaching the
codegen, which can't handle error types.
Now we create a MockClassDescriptor instance instead. It's not an error
class, so it'll be handled correctly in the codegen. Also its scope is
empty and errors are reported on any non-trivial usage (see
MissingDependencyClassChecker), so this approach is not worse than error
classes
#KT-16484 Fixed
The problem was that he number of mask parameters for defaults when
generating methods declaration was being calculated upon resulting signature
(with additional parameters: extension receivers, enum name/ordinal),
while on call-sites the masks number was calculated by the arguments number
in resolved call, i.e. by the number of real value parameters.
And because of the additional synthetic parameters (like enum.ordinal) these
two numbers could be different.
The solution is just to use value parameters number in both places.
Note, that we only count value parameters from the original sourse
declaration, ignoring synthetic ones generated by backend (e.g.
Continuation for suspend functions)
#KT-14565 Fixed
See the issue and the test. The problem was that when generating
call to `foo` method in member scope of `AT<*>` its resulting descriptor
after substitution and approximation was: fun foo(x: Nothing..Array<out Nothing>).
This signature is correct, but when using this parameter type
for generating a vararg argument the assertion is violated that
the type of the argument must be an array
(by default we're using lower flexible bound everywhere)
The solution is using upper bound for flexible types that should
always have a form of Array<out T> for varargs (even for such corner cases)
both for Kotlin and Java declarations.
#KT-14607 Fixed
The problem was that when obtaining char from the wrapper,
codegen used int as expected type that led
to a ClassCastException: java.lang.Character cannot be cast to java.lang.Number
The solution is using coercion to chars, it's still correct,
because of implicit widening coercion in JVM from C to I
#KT-15105 Fixed
LanguageVersionSettings can be read from the configuration. Also, the
configuration may be used for other stuff, not related to language version
settings, soon
The main problem here is that moduleName that is being passed to KPackageImpl
is useless: as can be seen in
ClosureCodegen.generateCallableReferenceDeclarationContainer, the name of the
current module is always written to the class file for a callable reference,
not the name of the module of the referenced declaration. This resulted in
reflection not loading the correct .kotlin_module file and subsequently not
finding the required file facade for a top-level function.
The commit does not fix the issue with the incorrect module name written in the
back-end, but workarounds it. It turns out, reflection can figure out the name
of the module of the referenced declaration itself by parsing the header from
the given java.lang.Class object for a single-file/multi-file package facade
and extract the package_module_name protobuf extension. Similar code was
already there in Member.getKPackage() in ReflectJvmMapping.kt but it did not
support multi-file classes, of which there are a lot in the standard library;
this is now supported
#KT-12630 Fixed
#KT-14731 Fixed
Do not wrap initial continuation for startCoroutine in SafeContinuation
This changes leaves only internal declarations and intrinsics as platform
dependent parts of the coroutine library, the rest parts (public API)
is implemented through them in common module
- Split CoroutinesLibrary into common and JVM parts
- Get rid of startCoroutine duplications
- Make suspendCoroutine implementation to be platform independent