Resolve callable references taking into account expected callable types.
This affects call resolution procedure (resolve 'foo' in for 'foo(::bar)') similar to the approach used for function literals:
* During "shape arguments" phase of call resolution, callable references are resolved in independent context without expected type. If the callable reference is ambiguous, its shape type is a function placeholder type without parameter types and return type information. Otherwise, it is a reflection type for the resolved function or property. Upper-level call is resolved without taking into account ambiguous callable references.
* During "complete call" phase of call resolution, resolve callable reference arguments to actual descriptors (if possible), and update constraint system for the given call accordingly.
#KT-6982 Fixed
#KT-5780 Fixed
1. ConstantValue
* just holds some value and its type
* implementations for concrete constants
2. CompileTimeConstant
* is only produced by ConstantExpressionEvaluator
* has additional flags (canBeUsedInAnnotation etc)
* has two implementations TypedCompileTimeConstant containing a constant value
and IntegerValueConstant which does not have exact type
* can be converted to ConstantValue
Adjustt usages to use ConstantValue if flags are not needed
Add tests for some uncovered cases
Annotation arguments with default values are rendered as ... if renderDefaultAnnotationArguments is true.
Tests: java retention does not taken into account by Descriptor comparator.
Java retentinon changed to kotlin retention in some tests + one new test with java retention added.
More accurate tests for intentions in byte code (visibility controlled).
Sometimes it's allowed to parse "annotation" unescaped even if other annotations must be escaped.
A set of annotations and their options tests.
A swarm of existing tests fixed (mostly kotlin.annotation.annotation() added to txt-files).
STUB_VERSION increased. Some quick fixes slightly changed.
Reporting the warning on each "::", as ReflectionNotFoundInspection did, is not
correct anymore, because for example name/get/set on properties works perfectly
without kotlin-reflect.jar in the classpath. So instead we report the warning
on calls to functions from reflection interfaces. This is not perfect either
because it's wrong in projects with custom implementations of reflection
interfaces, but this case is so rare that the users can suppress the warning
there anyway
#KT-7176 Fixed
Get rid of all classes except kotlin.reflect.KFunction, which will be used to
represent all kinds of simple functions.
Lots of changes to test data are related to the fact that KFunction is not an
extension function (as opposed to KMemberFunction and KExtensionFunction who
were) and so a member or an extension function reference now requires all
arguments be passed to it in the parentheses, including receivers. This is
probably temporary until we support calling any function both as a free
function and as an extension. In JS, functions and extension functions are not
interchangeable, so tests on this behavior are removed until this is supported
with type inference error for delegated properties
Add the constraints from completer if they don't lead to errors
except errors from upper bounds to improve diagnostics