Currently, FIR reports errors caused by previous resolution failure. For
example with unresolved `a` and `b` in code `a.b`, both `a` and `b` are
highlighted. FE1.0 only highlights `a` since it's the root cause. This
change applies this heuristics when reporting FirDiagnostics.
Currently if there is an error in a function call, FIR would report the
entire expression if this call is qualified, but *only* the name if it's
not qualified. For example, assume the following two calls are all
contains some errors.
```
a.foo(1,2,3)
^^^^^^^^^^^^
bar(1,2,3)
^^^
```
The entire call of `foo` is reported since it's qualified. But only the
reference `bar` is reported since it's not qualified. This limits the
usage of position strategies because the IDE does not allow position
strategies to go outside of the initially reported PSI element
(org.jetbrains.kotlin.idea.fir.highlighter.KotlinHighLevelDiagnosticHighlightingPass#addDiagnostic).
This change passes both the original error named reference and the
surrounding qualified access expression and defer the decision of which
to use to the reporting logic.
For unresolved reference and checks on `super` keyword, the position
strategy should not highlight the surrounding parentheses. Hence a new
position strategy `REFERENCED_NAME_BY_QUALIFIED` is added.
In addition, this change also has the following side effect
* some diagnostics are no longer reported when there is a syntax error
since the higher level structure does not exist when there is a syntax
error
Combined this and the checker of
SUPERTYPE_INITIALIZED_WITHOUT_PRIMARY_CONSTRUCTOR together.
Also fixed SUPERTYPE_INITIALIZED_WITHOUT_PRIMARY_CONSTRUCTOR incorrectly
repoted as warning instead of error.
Besides adding VALUE_PARAMETER_WITH_NO_TYPE_ANNOTATION,
we remove here NO_TYPE_FOR_TYPE_PARAMETER since it doesn't exist in FE1.0.
The name also doesn't make much sense.
From the usage it looks like it should have been
VALUE_PARAMETER_WITH_NO_TYPE_ANNOTATION instead.
If a type paramter is not reified or nullable, different errors will
be reported by FirGetClassCallChecker.
When determining whether type parameter wrapped in qualified access is a
standalone expression or not, we examine whether the checker context has
other qualified accesses in stack. Class literals (::class) is desugared
to FirGetClassCall, and thus not stacked as qualified access. Since
class literals are a special type of callable reference (a subtype of
qualified access), we should keep track of FirGetClassCall in a similar
way.
Initially I tried adding `mapping` field to `FirArgumentList` but it
seems to be very difficult to make it flexible enough to do what I want.
So instead, I am creating a `FirPartialResolvedArgumentList`, which
seems to be very simple.
The check has already been partially implemented in
org.jetbrains.kotlin.fir.resolve.calls.FirCallArgumentsProcessor. This
change completes the missing piece that determines if a `FirFunction`
has stable parameter names.