if assertions mode is not LEGACY.
This is done since assertions can be disabled (in both compile time and
runtime) and thus, the data flow info is not reliable anymore.
#KT-24529: Fixed
This commits adds a new annotation OptionalExpectation to the standard
library, which is experimental. To enable its usage, either pass
'-Xuse-experimental=kotlin.ExperimentalMultiplatform' as a compiler
argument, or '-Xuse-experimental=kotlin.Experimental' and also annotate
each usage with `@UseExperimental(ExperimentalMultiplatform::class)`
#KT-18882 Fixed
'fun CharSequence.iterator()' is an extension function, so one can
overload it with custom implementation.
Other "predefined" containers such as arrays and ranges have member
'fun iterator()', so these containers are not affected.
Check that 'iterator' call corresponds to an extension function
'iterator' defined in package 'kotlin.text' with a receiver of type
'kotlin.CharSequence'.
#KT-24156 Fixed
Previously, assert was just a regular function and its argument used to
be computed on each call (even if assertions are disabled on JVM).
This change adds support for 3 new behaviours of assert:
* always-enable (independently from -ea on JVM)
* always-disable (independently from -ea JVM)
* runtime/jvm (compile the calls like javac generates assert-operator)
* legacy (leave current eager semantics) - this already existed
Default behaviour is legacy for now.
The behavior is changed based on -Xassertions flag.
#KT-7540: Fixed
Arguments are passed in form '-XXLanguage:+LanguageFeatureName' for enabling
LanguageFeature.LanguageFeatureName, and '-XXLanguage:-LanguageFeatureName'
for disabling.
Note that they do override other settings, including 'language-version'
or extra ('-X') args.
This fixes LoadBuiltInsTest which failed because UnsafeVariance was
rendered in the lazy resolve result, but was not in the deserialized
result (because it has SOURCE retention)
In this mode, instead of analyzing files and generating bytecode for
them, compiler just saves imports of each file in JSON map of form
'<path to file> -> [<import1>, <import2>, ...]'
It is needed for some external tools, notably for Google3 toolchain.
They are hardcoded to avoid having dependency from android.jar on
our annotations' jar with UnderMigration.
Even while it could be a compile-only dependency we need to make sure
that annotated types are read properly without RecentlyNonNull/RecentlyNullable
in the classpath
#KT-24278 Fixed
Experimental and UseExperimental can only be used as annotations or
qualifiers (to allow "Experimental.Level.*"); experimental markers can
only be used as annotations or qualifiers, or as left-hand side of a
::class literal in arguments to UseExperimental/WasExperimental.
This is needed because we're not yet sure of the design of this feature
and would like to retain the possibility to drop these declarations
(Experimental, UseExperimental) altogether. If they were going to be
used as types, it would be problematic because we can't simply delete
something from stdlib, should deprecate it first. With this change,
these declarations can only be used if the user has opted into using the
experimental API somehow (for example, with
`-Xuse-experimental=kotlin.Experimental`), so we won't stop conforming
to our deprecation policy if we decide to remove these declarations in
the future
Usages of declarations annotated with WasExperimental are allowed even
if the API version requirement is not satisfied, provided that the
opt-in to all mentioned markers is given. This is needed for smooth
graduation of API in kotlin-stdlib
Since we're not yet sure of the design of Experimental/UseExperimental,
we're making them "experimental" themselves in some sense, in that the
user is required to provide the magic argument
"-Xuse-experimental=kotlin.Experimental" to be allowed to use either
Experimental or UseExperimental. This is more convenient than the
previous approach of "-language-version 1.3
-Xskip-metadata-version-check" because it's simpler and does not cause
pre-release binaries to be produced
See https://github.com/Kotlin/KEEP/issues/95#issuecomment-383889404
Drop Experimental.changesMayBreak, Experimental.Impact, the concept of
signature/body usage, same module exemption. Make the majority of tests
single-module because there is now no difference in the checker between
usages from the same module or from another module
so ".kt" and ".java" files are not considered as scripts and quickly
filtered out, and for the other files the the checks are implemented
using sequences, mechanisms provided to supply script definitions
lazily, and script discovery is implemented using this mechanisms.
Unlike ordinary lambdas, suspend lambdas do the computation in
doResume(Ljava/lang/Object;Ljava/lang/Throwable;)Ljava/lang/Object;
method. As you can see, there are no decomposed parameters. As a result,
they used not to be generated.
To fix the issue, I add decomposed parameters to value parameters while
generating local variables table.
In addition, when generating suspend lambda for inline, the codegen
does not take this kind of parameters into account. This is also fixed.
#KT-18576: Fixed
Kotlinc source’s file DescriptorUtils.kt demonstarted non-deterministic
insertion of checkExpressionValueIsNotNull for value returned by
CallableDescriptor::getOriginal(). It was difficult to reproduce
this behavior on ф smaller example, but I added a test which was
failing once in 5-10 times while I was testing manually.
I believe this bug is close to KT-23704.
This PR addresses non-determinism to a degree when I can run 120
Compilations with './gradlew dist' and get same classes in all
jars in 'dist'.
NOTE that thew fact that insertion of checkExpressionValueIsNotNull may
depend on order of the types seems suspicios. This CL only addresses
non-determinism part, but I believe it’s worth looking into this more
from semantics point of view.
`countDefaultParameters` uses `hasDefaultValue` to compute the number of
parameters which have default values, which handles actual parameters
(who have default values in the expected declaration) correctly. Thus,
`getRemainingParameters` should use it as well to determine the list of
parameters to be skipped in each generated overload
#KT-23910 Fixed
Introduce COMMON_COROUTINES_TEST directive.
Every test with this directive is run twice: one time with
language version 1.2 and kotlin.coroutines.experimental package
and the other time with language version 1.3 and kotlin.coroutines
package. Each run is a separate method: with suffixes _1_2 and _1_3
respectively.
However, since codegen of release coroutines is not supported in JS
backend, we generate only one method: with suffix _1_2.
#KT-23362
Also, fix the value of "hasAnnotations" flag to reflect if there are any
_non-source_ annotations on a declaration.
Unfortunately, after this change
IncrementalJsCompilerRunnerTestGenerated$PureKotlin.testAnnotations
starts to fail because of the following problem. The problem is that
annotations on property accessors are not serialized yet on JS (see
KT-14529), yet property proto message has setterFlags field which has
the hasAnnotations flag. Upon the full rebuild of the code in that test,
we correctly write hasAnnotations = true, but annotations themselves are
not serialized. After an incremental build, we deserialize property
setter descriptor, observe its Annotations object which happens to be an
instance of NonEmptyDeserializedAnnotationsWithPossibleTargets. Now,
because annotations itself are not serialized, that Annotations object
has no annotations, yet its isEmpty always returns false (see the code).
Everything worked correctly before the change because in
DescriptorSerializer.hasAnnotations, we used Annotations.isEmpty and the
result was the same in the full rebuild and in the incremental scenario.
But now we're actually loading annotations, to determine their
retention, and that's why the setterFlags are becoming different here
and the test fails
#KT-23360 Fixed