- `.ll.kt` test data can be added in cases where LL FIR resolution
legally diverges from K2 compiler results.
- Each `.ll.kt` test is prefixed with an `LL_FIR_DIVERGENCE` directive
which must explain why the test may diverge from K2 compiler results.
- `LLFirDivergenceCommentChecker` ensures that each `.ll.kt` file
contains an `LL_FIR_DIVERGENCE` directive.
- `LLFirIdenticalChecker` results in an assertion error if the `.ll.kt`
test and its base test are completely identical, including in their
meta info (but ignoring `LL_FIR_DIVERGENCE`).
- The checker additionally ensures that the base source file and the
`.ll.kt` source file have identical Kotlin source code (ignoring
meta info and `LL_FIR_DIVERGENCE`). This ensures that both tests
test the exact same thing.
- `.ll.kt` files are ignored by select test generators, in addition to
`.fir.kt` files.
Update includes:
- Changing syntax of `OI/`NI` tags from `<!NI;TAG!>` to `<!TAG{NI}!>`
- Fix some incorrect directives
- Change order of diagnostics in some places
- Remove ignored diagnostics from FIR test data (previously `DIAGNOSTICS` didn't work)
- Update FIR dumps in some places and add `FIR_IDENTICAL` if needed
- Replace all JAVAC_SKIP with SKIP_JAVAC directive
This commit introduces several different things, in particular:
- check type arguments in expressions
- new TypeArgumentList node to deal with diagnostic source
- ConeDiagnostic was moved to fir:cones
- ConeIntermediateDiagnostic to use in inference (?) without reporting
- detailed diagnostics on error type
When resolving a class body for a class without a primary constructor
(e.g., an interface), no checks were performed for redeclarations
in the corresponding class header.
Creating & initializing a lexical scope of an appropriate kind will do it.
Note that since class has no primary constructor, only type parameters
could be redeclared (and that's KT-4960).
Private-in-file declarations conflict with public overload-equivalent declarations
in other files in the same package.
Move functions for grouping possible redeclarations to OverloadResolver
(since they are used only there).
Refactor redeclarations / conflicting overloads reporting.
There are several reasons for doing this:
- See org.jetbrains.kotlin.serialization.deserialization.descriptors.DeserializedMemberScope.computeDescriptors,
classifiers are being deserialized in the last turn, so it's necessary to preserve consistent order
- Their priority should be close to classes