klibs provide information about the container source file
in the KlibMetadataProtoBuf extensions for functions,
properties and classes.
This information is deserialized and attached to the
`klibSourceFile` extension (stored in FirDeclarationDataRegistry)
^KT-66271 Fixed
- encapsulate semantic more into helpers
- allow lazy scopes iteration
- simplify reporting code in tower resolver
- fix some inconsistencies and wrong lookups
- remove redundant lookup recordings
- remove lookup scopes for non-star imports
The commit is a refactoring and doesn't change the behaviour of
neither IC nor CRI. Changes in the lookups are mostly due to the
previous obviously wrong lookups (see changed test data).
```kotlin
// FILE: AB.kt
interface A {
val x: Int = 1
}
interface B : A {
// f/o val x: Int
// overrides: A.x
}
// FILE: C.java
public interface C extends B {
// f/o val x: Int
// overrides: (B, A.x)
}
// FILE: D.java
public interface D extends C {
// f/o val x: Int
// overrides: (C, A.x)
}
// FILE: usage.kt
fun test(d: D) {
d.x
}
```
In such test backend will ask for overriddens of lazy property C.x only
after property lowering, which removes property `B.x` and replaces it
with getter `B.<get-x>`. That fact that there is no property anymore
really confuses `SpecialFakeOverrideSymbolsResolver` during computation
of overriddens of `C.x`.
So, to prevent this situation, we can process all source kotlin classes
beforehand, so when any lazy function/property will start computation
of its overriddens, there won't be the need to calculate mapping of
f/o for classes
This problem was found during work on KT-66341, after total signature
computation removal from fir2ir. Previously those fake-overrides just
matched by signature in symbol table
Most of them are passed at all call sites anyway. Having default values
makes it easy to forget to pass some meaningful argument (especially
`LanguageVersionSettingsImpl.DEFAULT` seems scary), and complicates
refactoring.
This extension point allows changing the return type of call
from a declared type to its subtype.
With an idea that such a plugin needs the ability to
control available (extension) properties for this type.
A set of properties should be decided based on the resolved function,
provided arguments, types, and resolved lambdas.
It is not a goal to enable plugins to affect resolution in any way.
Types are not intended to have any structured capabilities
In other words.
The goal was to come up with a way to enable a limited form
of an "extensible records" mechanism through plugins.
- It should give enough value for a practical use.
(more info in the ticket).
- It should have minimal effect on the compilation process
This appears to be an extension point that solves this problem.
^KT-65859 Fixed
Invert the logic of IR/FIR2IR-based generators: change the CLI argument
to -Xuse-fir-fake-override-builder, test directive to
USE_FIR_BASED_FAKE_OVERRIDE_GENERATOR, etc.
The changes in test data caused by using IR fake override builder by
default are in the subsequent commit.
#KT-61514
Code fragment is a class that extends from Any, so technically it can
have fake overrides for equals/hashCode/toString. However, K1 does not
build them, and it's already checked in IR text tests in
`analysis/analysis-api/testData/components/compilerFacility/compilation/codeFragments`,
so don't build them in K2 as well. Also, the code in
`KtFirCompilerFacility.createJvmIrCodegenFactory` looks for a single
function defined in the code fragment.
namely, add them to importing scopes directly and according to the
schema used for other implicit imports, rather than adding them
to the regular script file imports. See KT-65982 for explanation.
#KT-65982 fixed
All existing tests use custom test data for FIR because the diagnostic
text in FIR has to have a dot at the end. Also, the K2 checker doesn't
check usages in imports because there are no "import checkers" in K2
right now, this will need to be fixed later if necessary.
#KT-60797 Fixed
This annotation leads to conflicting overloads error supression,
in case where several function with the same argument types,
but different argument names are inherited from ObjC class.
We need to implement it in both K1 and K2 to make the IDE experience
better.
But the annotation itself wouldn't be available in K1.
^KT-61323
Unfortunately, it's not enough to know direct overriddens
to correctly build fake overrides. This mean, that we need to know
whole overridden tree during the process of building.
It happens automatically for normal classes, but not for lazy classes,
as their overriddens are built separatly.
This commit enforces correct overrddens for lazy classes in hierarhies
at the point, where they should be normally computed.
^KT-65236
To add the file name to the exception message similarly to how it's done
in `PerformByIrFilePhase.invokeSequential`, so that exceptions such as
KT-65277 would be easier to diagnose.
Pass the metadata serializer instance instead. This allows to further
reduce code duplication by introducing the common interface
`KlibSingleFileMetadataSerializer` for abstracting away K1 and K2
representation of a source file, as well as reusing
`Fir2KlibMetadataSerializer` across different backends.
KT-64392
This commit introduces MppChecker kind, which represents the new property
of checkers
- `MppCheckerKind.Common` means that this checker should run from the same
session to which corresponding declaration belongs
- `MppCheckerKind.Platform` means that in case of MPP compilation this
checker should run with session of leaf platform module for sources
of all modules
An example of a platform checker is a checker that checks class scopes
and reports ABSTRACT_NOT_IMPLEMENTED and similar diagnostics. If some
regular class in the common module contains expect supertypes, the
checker should consider the actualization of those supertypes to get
a complete type scope
^KT-58881
After a generation of fake overrides some code may still to refer old
symbols from declaration storage (like computation of overridden
symbols for lazy functions), so we need to remap those symbols using
information from IR f/o generator
Fir2Ir introduces temporary symbols to avoid creating
fake overrides themselves. Further pipeline is not ready to
these symbols. That's why we have introduced separate pass,
that replaces all this symbols with real fake override
symbols, after they are created.
^KT-63645
There are a lot of restrictions between different parts of the pipeline.
1. Fake overrides can't be built before classes are actualized
2. Constants can't be evaluated before callables are actualized
3. Callables can't be actulaized before fake overrides are built
4. Checkers can't run before constants are evaluated
This commit reorders things to make all these restrictions happy.
^KT-63644
- Previously, only callable package name sets were implemented, because
the compiler cannot economically compute classifier package sets for
libraries. This has not changed. However, the K2 IntelliJ plugin and
standalone Analysis API can very easily compute classifier package
sets. Hence, this commit adds support to `FirSymbolNamesProvider` for
such sets.
- Similar to callable package sets, classifier package sets (1) improve
the memory usage of symbol names providers and (2) improve the
performance of `mayHaveTopLevelClassifier`, which is a significant
bottleneck in the IDE.
- In many cases, the package sets for callables and classifiers are the
same. For example, the IDE Kotlin declaration provider computes the
set of packages that contain any classifier and/or callable, for the
following reasons: (1) indexing package names without filtering for
declarations is much faster, (2) computing separate sets is not free
both in time and memory, and (3) the performance impact of having a
more narrow set for callables is expected to be negligible. For this
reason, `FirSymbolNamesProvider.getPackageNames` exists to provide a
shared package set.
- The `hasSpecific*PackageNamesComputation` properties are required to
avoid caching the same package set in cached symbol names providers
twice. Because these properties are constant, they can be checked very
quickly, and no time has to be wasted trying a specific package set
computation to find out whether it's supported.
### IDE Performance Results
Package set construction performance improved in the IDE in multiple
benchmarks. This improves the performance of symbol providers overall,
which has a direct impact on completion, code analysis, and Find Usages.
In a local manual run of the `intellij_commit/setUp` Find Usages
performance test, the total time spent in `getClassLikeSymbolByClassId`
improved from ~18.7s to ~11.2s. Due to parallel resolve, this does not
translate to a wall clock improvement of 7 seconds, but rather of a few
seconds.
Some performance tests improved markedly in warmup, with for example
`toolbox_enterprise/genUuid` Find Usages having an improvement in
`StubBasedFirDeserializedSymbolProvider.getClassLikeSymbolByClassId`
from 2.4s to 0.2s. This has a direct impact on the first-run performance
of the tested Find Usages command.
So far, classifier package sets in the IDE are only implemented for
libraries, and library sessions are cached after the first warmup.
Because the biggest impact of classifier package sets is avoiding
computation of "class names in package" sets, the impact of this
optimization is not accurately reflected in the timings reported by our
performance tests. `toolbox_enterprise/genUuid` above is a good example,
as the warmup timings are great, but after warmup,
`StubBasedFirDeserializedSymbolProvider.getClassLikeSymbolByClassId`
improved only from 150ms to 70ms.
`toolbox_enterprise/genUuid` is another example, as we can confidently
say that the first-run Find Usages performance has improved (which makes
a difference for the user), but it is unclear by how much, as warmup is
not measured in performance tests.
The same optimization for source sessions will be easier to measure, as
source sessions are invalidated after each performance test run. This
commit lays the groundwork for that as well, because source session
support only requires the requisite package set computation in the
IDE declaration provider to be implemented.
^KT-62553 fixed
- Support WASI mode in CLI and test infrastructure
- Add external declaration checker
- Split Fir diagnostic lists into Base, JS and WASI
#KT-56849 Fixed
Fir2Ir conversion consists of multiple steps with complex logic (like
conversion of each module, actualization, plugins application, constant
evaluation), and to ensure that they all are executed correctly it's
convenient to have the single entry point for all this machinery
When flattening a dependency FirSymbolProvider, make sure transitive
dependency FirSymbolProviders are not included. This requires checking
that nested symbol provider sessions match the composite symbol provider
session when they are both source sessions.
^KT-60614 Fixed
Deduplicate Fir2IrExtensions creation and move the
convertToIrAndActualizeForJvm function to 'cli', which allows to remove
the dependency of 'fir.entrypoint' on 'backend.jvm'.
Note that behavior slightly changes in IncrementalFirJvmCompilerRunner:
previously the value of linkViaSignatures was always false, now it is
taken from the compiler configuration, which seems more correct.
- This is more consistent with "top-level callable names in package" and
simplifies the set construction quite a bit, as we can avoid a lot of
`asString` conversions.