This test checks that a usage inside an annotation argument is a
signature usage, which may be too restricting but easier to support at
the moment (and the restriction can be lifted in the future)
This results in more diagnostics usually, but allows library authors to
avoid annotating everything in each experimental class with the marker
(only the class needs to be annotated now)
#KT-22759
- Prohibit non-modifier-like calls on kotlin.suspend
- Add warning on modifier-like calls to anything but kotlin.suspend
#KT-22766 In Progress
#KT-22562 In Progress
Fake overrides for abstract members from expected classes should become
non-abstract (final, in fact) in non-abstract expected subclasses
#KT-22031 Fixed
When a parameter has a default argument value both in the expected
annotation and in the actual annotation, they must be equal. This check
has been only implemented for the case when actual annotation is Kotlin
source code, and NOT a Java class coming from an actual typealias. The
latter case would require a bit more work in passing a platform-specific
annotation-value-reading component to ExpectedActualDeclarationChecker,
and is therefore postponed.
For now, Java annotations that are visible through actual type aliases
cannot have default argument values for parameters which already have
default values in the expected annotation declaration
#KT-22703 Fixed
#KT-22704 Open
Also make TypeParameterUpperBounds a "strong" incompatibility, meaning
that non-actual members from platform module are _not_ going to be
matched to the expected members if this incompatibility exists between
them, and therefore NO_ACTUAL_FOR_EXPECT will be reported on the
expected declaration, instead of ACTUAL_MISSING on the platform member.
This is needed because the difference in type parameter upper bounds can
have effect on the function signature on the platform (e.g. on JVM,
Array<T> -> T[], but Array<T> -> Comparable[] if T : Comparable<T>), and
it would be incorrect to report ACTUAL_MISSING on the member that has
nothing to do with the expected declaration that happens to coincide
with it in everything except type parameter bounds
#KT-21864 Fixed
In case the referred type is actually an enum that is not found in
dependencies due to a configuration problem, this usage could be valid.
So we can avoid reporting an error here, to reduce the number of
diagnostics.
Also do not report "default value of annotation parameter must be a
compile-time constant" in the same case for the same reason
- Introduce new language feature 'ReadDeserializedContracts', which
allows to deserialize contracts from metadata.
- Introduce new language feature 'AllowContractsForCustomFunctions',
which allows reading contracts from sources.
- Use new features instead of combination 'CallsInPlaceEffect ||
ReturnsEffect'
- Rename 'CallsInPlaceEffect' -> 'UseCallsInPlaceEffect',
'ReturnsEffect' -> 'UseReturnsEffect'. As names suggest, they control
if it is allowed to use corresponding effect in analysis.
We have to introduce separate 'ReadDeserializedContracts' to enable
contracts only in some modules of the project, because libraries are
read with project-wide settings (see KT-20692).
Consider following case:
fun foo(): Unit = run { "hello" }
Previously, NI would analyze lambda body without expected type, because
it is a type variable 'R' from 'run', which hasn't been fixed yet. This
leads to treating "hello" as lambda-return argument and adding bogus
'String' constraint on 'R', and, consequently, type mismatch.
Now, we peek into current constraint system and check if return-type of
lambda is type variable with upper-Unit constraint (which is exactly
condition for its body to be Unit-coerced). If so, then we provide
expected Unit-type for body explicitly, and the rest will be done
automatically (in particular, in aforementioned example "hello" wouldn't
be treated as lambda return argument).
This commit introduces proper handling of recursion in scopes, which
could occur when some of companion object supertypes are members of
that companion owner:
```
class Container {
open class Base
companion object : Base()
}
```
To resolve `Base`, we have to build member scope for `Container`.
In the member scope of `Container`, we see all classifiers from
companion and his supertypes
So, we have to resolve companion objects supertype, which happens to be
`Base` again - therefore, we encounter recursion here.
Previously, we created `ThrowingLexicalScope` for such recursive calls,
but didn't checked for loop explicitly, which lead to a wide variety of
bugs (see https://jetbrains.quip.com/dc5aABhZoaQY and KT-10532).
To report such cyclic declarations properly, we first change
`ThrowingLexicalScope` to `ErrorLexicalScope` -- the main difference is
that latter doesn't throws ISE when someone tries to resolve type in it,
allowing us to report error instead of crashing with exception.
Then, we add additional fake edge in supertypes graph (from
host-class to companion object) which allows us to piggyback on existing
supertypes loops detection mechanism, and report such cycles for user.
The issue here is that OI infers correct types for (k, v) destructing
declaration, while NI infers errors for them. That happens because NI
resolves iterator() on nullable 'm', but rightfully reports it as
unsuccessful, while OI somehow manages to resolve it to success (and
thus getting nice expected type, allowing destructing declaration to be
resolved in a proper types).
Previously, there was receiver of type Nothing, which could case result
of the call to be inferred to Nothing too. This could case bogus
UNREACHABLE_CODE diagnostics in cases like this:
```
fun <T> id(x: T) = x
fun test() {
id(unresolvedReference) // type of statement is 'Nothing'
// ... everything here is marked as unreachable ...
}
```
This commit changes type of receiver for such calls form Nothing to
ErrorType.
This commits introduces testdata changes, where NI behaviour strictly
improved, after several previous fixes.
For some tests, just WITH_NEW_INFERENCE directive was added. It
indicates, that some of previous commits first introduced error in that
test, and then some other commit fixed it (netting no overall testdata
change). It is preferrably to keep those annotations until we will
migrate to NI completely, to prevent unexpected regressions.
According to KT-21354, this should be a warning in 1.2 and before, and
no warning (with changed semantics) in 1.3 and later.
NB there are some false positives in this check.
#KT-21354 In Progress
#KT-21321 In Progress