We started using clang to emit the _OBJC_PROTOCOL_ definition.
But we would use a different name for the proto_list definition than clang.
"OBJC_LABEL_PROTOCOL$" (objc)
|--> OBJC_PROTOCOL
"\01l_OBJC_LABEL_PROTOCOL$_" (swift)
|--> OBJC_PROTOCOL
If an Objective C object also emitted the same protocol definition you could
end up in a situation where both clang's and swift's proto_list definitions
point to the same protocol definition.
Older linkers don't like that.
rdar://108505376
* [Executors][Distributed] custom executors for distributed actor
* harden ordering guarantees of synthesised fields
* the issue was that a non-default actor must implement the is remote check differently
* NonDefaultDistributedActor to complete support and remote flag handling
* invoke nonDefaultDistributedActorInitialize when necessary in SILGen
* refactor inline assertion into method
* cleanup
* [Executors][Distributed] Update module version for NonDefaultDistributedActor
* Minor docs cleanup
* we solved those fixme's
* add mangling test for non-def-dist-actor
- Use the name lookup table instead of adding members from a macro expansion to the parent decl context.
- Require declaration macros to specify introduced names and used the declared names to guide macro expansions lazily.
Add support for freestanding declaration macros.
- Parse `@declaration` attribute.
- Type check and expand `MacroExpansionDecl`.
Known issues:
- Generic macros are not yet handled.
- Expansion does not work when the parent decl context is `BraceStmt`. Need to parse freestanding declaration macro expansions in `BraceStmt` as `MacroExpansionDecl`, and add expanded decls to name lookup.
For spatial locality on startup.
Hide collocating metadata functions in a separate section behind a flag.
The default is not to collocate functions.
rdar://101593202
This reverts commit 3617b7603c, reversing
changes made to 58a519a5c1.
This causes issues for the linker and branches accross sections if
addresses are too far apart.
This reverts commit 1f3e159cfe, reversing
changes made to 103b4a89c2.
Re-applies "IRGen: Co-locate metadata instatiation/completions/accessor
functions in a special section" for MachO only. The original change broke lldb
on aarch64 linux.
rdar://102481054
There are certain protocol method decls types that swift does not import
today.
```
@protocol Incomplete
- (id)getObjectFromVarArgs:(id)first, ...;
@end
```
Furthermore, the old method also emitted duplicate entries for protocols
methods when Swift synthesized methods for diagnosics.
We won't import this method into Swift. So if we emit protocol metadata
from swift delcs we would generate incomplete records.
rdar://60888524
Introduce `MacroExpansionExpr` and `MacroExpansionDecl` and plumb it through. Parse them in roughly the same way we parse `ObjectLiteralExpr`.
The syntax is gated under `-enable-experimental-feature Macros`.
This commit begins to generate correct metadata for @_objcImplementation extensions:
• Swift-specific metadata and symbols are not generated.
• For main-class @_objcImpls, we visit the class to emit metadata, but visit the extension’s members.
• Includes both IR tests and executable tests, including coverage of same-module @objc subclasses, different-module @objc subclasses, and clang subclasses.
The test cases do not yet cover stored properties.
In preparation for moving to llvm's opaque pointer representation
replace getPointerElementType and CreateCall/CreateLoad/Store uses that
dependent on the address operand's pointer element type.
This means an `Address` carries the element type and we use
`FunctionPointer` in more places or read the function type off the
`llvm::Function`.
`PointerType::getElementType` has been removed entirely as part of the
opaque pointers migration. Update to `getPointerElementType` for now
until we've also migrated.
Enable testing makes `internal` types visible from outside the module.
We can no longer treat super classes as resilient.
Follow-up to #41044.
rdar://90489618
Reduces the number of _ContiguousArrayStorage metadata.
In order to support constant time bridging we do need to set the correct
metadata when we bridge to Objective-C. This is so that the type check
succeeds when bridging back from Objective-C to reuse the storage
instance rather than bridging the elements.
To support dynamically setting the `_ContiguousArrayStorage` element
type i needed to add support for optimizing `alloc_ref_dynamic`
throughout the optimizer.
Possible future improvements:
* Use different metadata such that we can disambiguate native Swift
classes during destruction -- allowing native release rather then unknown
release usage.
* Optimize the newly added semantic function
getContiguousArrayStorageType
rdar://86171143
This reverts commit 4323d2fa26, reversing
changes made to 451b902cd5.
This caused linking errors on the swift source compat suite in the
Sourcery project.
rdar://86256970
@objc actors implicitly inherit from the new, hidden
`SwiftNativeNSObject` class that inherits from `NSObject` yet provides
Swift-native reference counting, which is important for the actor
runtime's handling of zombies. However, `SwiftNativeNSObject` is only
available in the Swift runtime in newer OS versions (e.g., macOS
12.0/iOS 15.0), and is available in the back-deployed _Concurrency
library, but there is no stable place to link against for
back-deployed code. Tricky, tricky.
When back-deploying @objc actors, record `NSObject` as the superclass
in the metadata in the binary, because we cannot reference
`SwiftNativeNSObject`. Then, emit a static initializer to
dynamically look up `SwiftNativeNSObject` by name (which will find it
in either the back-deployment library, on older systems, or in the
runtime for newer systems), then swizzle that in as the superclass of
the @objc actor.
Fixes rdar://83919973.
- Witness method calls are done via @llvm.type.checked.load instrinsic call with a type identifier
- Type id of a witness method is the requirement's mangled name
- Witness tables get !type markers that list offsets and type ids of all methods in the wtable
- Added -enable-llvm-wme to enable Witness Method Elimination
- Added IR test and execution test
- Virtual calls are done via a @llvm.type.checked.load instrinsic call with a type identifier
- Type identifier of a vfunc is the base method's mangling
- Type descriptors and class metadata get !type markers that list offsets and type identifiers of all vfuncs
- The -enable-llvm-vfe frontend flag enables VFE
- Two added tests verify the behavior on IR and by executing a program
Otherwise, the runtime needs to be able to adjust the instance size when nonfragile ObjC bases
and/or resilient Swift bases are accounted for. rdar://54089488
Previously, the method table would contain duplicate copies due to the
ProtocolDecl carrying a completionHandler-based version of the method,
as well as the async version of the method.
Fixes rdar://76192003.
For ordinary memory-management reasons, this should only ever
happen when there will be no more uses of the actor outside of the
actor runtime. The actor runtime, meanwhile, doesn't care about
anything except the default-actor control state of the actor. So
we can just allow the rest of the actor to be destructed when it
isn't needed anymore, then destroy the actor state and deallocate
the object when we get around to switching off the executor.
This does assume that the task doesn't do anything which semantically
detects the executor it's on before switching off it, since doing so
might read a bogus executor. However, we should only get an executor
in a zombie state like this when a hop has been removed or reordered,
and detection events should count as inhibiting that and forcing the
true executor to be switched to (and thus detected).
(But maybe lifetime optimization can make this happen? Maybe we
need semantic detection to filter out zombie executors.)
The address of the function to be called when generating code to invoke
the function associated with FunctionPointer which is produced via
direct reference is by definition statically known; it is neither necessary
nor desireable to load this address out of the AsyncFunctionPointer
corresponding to the function.
Here, that spurious additional work is skipped. The approach is to add
a second value to the FunctionPointer struct. For FunctionPointers
whose kind is AsyncFunctionPointer, this value is either null or else
the address of the corresponding function.
rdar://71376092
Previously, AsyncFunctionPointer constants were signed as code. That
was incorrect considering that these constants are in fact data. Here,
that is fixed.
rdar://76118522
This patch softly updates the spelling of actors from `actor class` to
`actor`. We still accept using `actor` as a modifying attribute of
class, but emit a warning and fix-it to make the change.
One of the challenges that makes this messier is that the modifier list
can be in any order. e.g, `public actor class Foo {}` is the same as
`actor public class Foo {}`.
Classes have been updated to include whether they were explicitly
declared as an actor. This change updates the swiftmodule serialization
version number to 0.591. The additional bit only gets set of the class
declaration was declared as an actor, not if the actor was applied as an
attribute. This allows us to correctly emit `actor class` vs `actor`
emitting the code back out.
