This problem is only relevant when isTypeRefinementEnabled == true (HMPP projects)
Ambiguity accidentally was removed after 471134d
There, for areCallableDescriptorsEquivalent we stopped assuming
as impossible a situation of having identity-different descriptors
in the same containing declaraton that still might be considered equal
So, before 471134d we were comparing
"fun foo(x: String)" with "[substituted] fun foo(x: String)"
and areCallableDescriptorsEquivalent returned false for such case.
Thus, both overrides were left in the resulting set.
After 471134d, those two descriptors
becamed considered as equal thus having a possibility to remove any of them.
The problem is that "areCallableDescriptorsEquivalent" has kind of
unclear contract. Effectively it checks whether two descriptors match
to the same declaration.
But some of the usages expect that it also makes sure that descriptors
have the same substitution (see org.jetbrains.kotlin.resolve.calls.smartcasts.IdentifierInfo.Variable#equals)
So, the straight solution is using original descriptors for the cases
where we need to make sure that descriptors relates to actually different
declarations
^KT-34027 Fixed
Alternative message for errors, caused by unexpected lambda expression arguments on a new line.
Both diagnostic are reported, if multiple lambda expressions were passed to the call.
For other errors trailing lambda diagnostic overrides the original one.
Quickfix for erroneous trailing lambdas on a new line after call.
Fix separates lambda expression from previous call with semicolon.
All trailing lambda arguments become standalone lambda expressions.
This commit doesn't change behaviour of any inference algorithm, it
introduces opportunity to switch constraint system that is used for
overload resolution and fix problematic cases by changing one enum
entry.
Due to fundamental changes, there are cases where a new inference
algorithm reports overload resolution ambiguity errors (#KT-31670,
#KT-31758), which is correct from its point of view. However, this is
a breaking change and to really make it, we should be very confident
and have enough motivation for it, therefore, we don't change behavior
now in order to collect more examples (if there are any). And if we
find a lot of erroneous examples, we'll be able to change the behavior
quite simply
There is added a new service named `SubstitutingScopeProvider`, that
provides factory that creates captured types and approximator for them.
In OI they are the same as before commit, for NI they are empty, because
that approximation interferes with NI algorithm
That service is injected into function descriptors and property descriptors
and used for creating `SubstitutingScope` with correct services
Also there is changed time when we approximate captured types in NI
(after all call checkers)
#KT-25290 Fixed
There is an inconsistency between old and new inference for storing
receivers of resolved calls. In new inference, for captured types,
receiver will be changed and to preserve behavior of the old inference,
we use original one during important checks.
This is more a workaround than a solution and should be revisited.
#KT-31356 Fixed
#KT-29948 Fixed
#KT-31360 Fixed
Expression will be checked against expected type later.
Theoretically, this is not very good, but it aligns with the old
inference, plus it helps avoiding multiple type mismatch diagnostics.
Since we skipped trivial constraint with `Any?` from parameter type of
function `equals`, the compiler thought that there is no proper
constraints (upper bounds do not matter here) and marked resolved
call as a failed one, then diagnostic about missing equals was added
Also, tune `TrivialConstraintTypeInferenceOracle` for `Any?`-like
constraints
#KT-30724 Fixed
Add `IntegerLiteralTypeConstructor` that holds types, that can take
integer literal with given value. It has two supertypes
(`Number` and `Comparable<IntegerLiteralType>`) and have
special rules for subtyping, `intersect` and `commonSuperType`
functions with primitive number:
Example (assuming that ILT holds Int type):
* ILT <: Int
* Int :> ILT
* ILT intersect Int = Int
* commonSuperType(ILT, Int) = Int
#KT-30293 Fixed
#KT-30446 Fixed
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.
Otherwise, when completing all the unsuccessfull candiates,
resolution of each lambda-arguments starts repeatedly for each candidate
that leads to exponential time
NB: Changes in `completeArguments` are necessary because otherwise
nested lambdas will be analyzed twice:
once for the main resolved call, and then for all candidates
that again leads to exponential complexity
#KT-16672 Fixed
#KT-19457 Fixed
receiver type with modifiers or annotations should be surrounded in parentheses on rendering: '(@A R).() -> T'
This also fixes stub builder tests (which check that stubs are consistent with rendered descriptors).
(required for 'suspend' on functional types).
TYPE_REFERENCE element now has MODIFIER_LIST child, which hosts annotations and modifiers for the corresponding type reference.
Annotations and modifiers written before an extension function type are now parsed as annotations and modifiers for the functional type, not the receiver type.
So, '@Ann A.(B) -> C' was '(@Ann A).(B) -> C', and became '@Ann (A.(B) -> C)'.
NB: DSL_SCOPE_VIOLATION testData updated accordingly.
Type projection variance modifiers ('in', 'out') belong to a separate modifier list under corresponding type projection (not under a type reference).
'A<in suspend T>' is 'A<(in (suspend T))>', 'A<suspend in T>' is an error.
In stub builder, create a modifier list node to host annotations and modifiers (none so far; TODO properly serialize/deserialize types with modifiers).