we only check if the loaded module is built from a package interface. This is
not enough as a binary module could just contain exportable decls if built with
experimental-skip-non-exportable-decls, essentially resulting in content equivalent
to interface content. This might be made a default behavior so this PR requires
a module to opt in to allow non-resilient access by a participating client in the
same package.
Since it affects module format, SWIFTMODULE_VERSION_MINOR is updated.
rdar://123651270
isResilient(ModuleDecl, ResilienceExpansion).
isResilient() returns the decl's resilience by definition
and should not be altered whether bypassing optimization
is enabled or not. The overloaded isResilient(ModuleDecl..)
is used for accessing a decl from a client module, which is
the appropriate place to opt in for non-resilience in package.
Resolves rdar://123031292
When determining whether a declaration should be considered unavailable at
runtime, ignore `@available` attributes for application extension platforms but
continue searching for other `@available` attributes that might still make the
declaration unavailable. This ensures corner cases like these are handled:
```
// Dubious, but allowed
@available(macOS, unavailable)
@available(macOSApplicationExtension, unavailable)
public func doublyUnavailableOnMacOSFunc() {}
// Expresses an uncommon, but valid constraint
@available(macCatalyst, unavailable)
@available(iOSApplicationExtension, unavailable)
public func confusingDiamondAvailabilityInheritanceFunc() {}
```
[transferring] Implement transferring result and clean up transferring param support by making transferring a bit on param instead of a ParamSpecifier.
Instead it is a bit on ParamDecl and SILParameterInfo. I preserve the consuming
behavior by making it so that the type checker changes the ParamSpecifier to
ImplicitlyCopyableConsuming if we have a default param specifier and
transferring is set. NOTE: The user can never write ImplicitlyCopyableConsuming.
NOTE: I had to expand the amount of flags that can be stored in ParamDecl so I
stole bits from TypeRepr and added some logic for packing option bits into
TyRepr and DefaultValue.
rdar://121324715
The reason why I am doing this is that I am going to be changing transferring to
not be a true ParamSpecifier. Instead, it is going to be a bit on Param that
changes the default ParamSpecifier used. That being said, I cannot use consuming
for this purpose since consuming today implies no implicit copy semantics, which
we do not want unless the user specifically asks for it by writing consuming.
By default package decls are treated as resilient, similar to public (non-frozen).
This PR adds support to allow direct access to package decls at use site if opted-in.
Requires the loaded module to be a binary module in the same package.
Resolves rdar://121626315
An @_objcImpl extension with no category name *should* implement not only the class’s main @interface, but also any class extension @interfaces. Start making this true by making ObjCInterfaceAndImplementationRequest return all of these decls as the interfaces for such an implementation.
This commit doesn’t actually change Sema or IRGen to process the extra interfaces, so it’s NFC.
This reduces the memory overhead of objcImpl from one word per Decl to one bit per Decl, at the cost of making cache lookups slightly slower (but it will only be consulted once for non-objcImpl decls, which is by far the most common case).
Remove this bit from function decls and closures.
Instead, for closures, infer it from the presence
of a single return or single expression AST node
in the body, which ought to be equivalent, and
automatically takes result builders into
consideration. We can also completely drop this
query from AbstractFunctionDecl, replacing it
instead with a bit on ReturnStmt.
