Previously, type substitution, which is critical for matching generic
header/impl members with each other, was only performed when
checkImplementationHasHeaderDeclaration was called for impl class
(areCompatibleClassifiers creates the correct substitutor). This was
done in areCompatibleClassifiers: a substitutor which maps type
parameters of the header class to type parameters of the impl class was
created.
Now we create the same substitutor when
checkImplementationHasHeaderDeclaration is called for an impl member of
an impl class as well, manually.
#KT-15230 Fixed
Similarly to getFirstClassifierDiscriminateHeaders, we select the first
non-header class if possible, otherwise we select just the first class.
This makes sure that a reference will never be resolved to a header
class if the corresponding impl class is present.
Note that overall the issue may not be fixed yet, because there are
other scopes where header classes are not yet discriminated
(LazyImportScope, DeserializedMemberScope). However, at this point I
cannot reproduce this problem with these other scopes
#KT-15521 Fixed
Compile the platform-specific code two times: once with the common file
first and the platform file second, and once with the platform file
first and the common file second in the compilation arguments. This is
needed because some issues in the compiler are only reproducible in one
of these two scenarios
Currently this is achieved with several hacks:
- Postpone computation of argument type info when there is no candidate resolver. We have to do this, because we don't have expected type and therefore we could write wrong information to trace
- Presume that for annotation calls there is only one candidate resolver and then resolve arguments with expected type (see `getArgumentTypeInfo`), otherwise because of quadratic complexity of the algorithm resolve would be slow
Avoid temporary file rename if the current name doesn't conflict
with other files in the target directory.
Improve protection against exceptions during the refactoring
which may prevent final rename
The light analysis test data is not needed anymore cause the light analysis result is now automatically checked against the one from the full analysis.
allows to compile only parts of the source files, denoted by top-level
"sections" (function with lambda param calls), but preserving original
file line/column numbers for easier diagnostics. Allow e.g. to compile
gradle "buildscript" section without preprocessing original file in
advance. See tests for examples.