This function had a weird, pre-ProtocolConformanceRef interface that
returned true when the type conformed to the protocol, then had a
separate indirect return value for the concrete conformance (if there
is one). Refactor this API, and the similar
TypeChecker::containsProtocol(), to produce an optional
ProtocolConformanceRef, which is far more idiomatic and easier to
use. Push ProtocolConformanceRef into a few more places. Should be NFC
We don't want the machine calling conventions for closure invocation functions to necessarily be tied to the convention for normal thin functions or methods. NFC yet; for now, 'closure' follows the same behavior as the 'method' convention, but as part of partial_apply simplification it will be a requirement that partial_apply takes a @convention(closure) function and a box and produces a @convention(thick) function from them.
Simplify e.g., ASTContext::getBridgedToObjC(), which no longer needs
the optional return.
Eliminate the now-unused constraint kind for checking bridging to
Objective-C.
Introduce bridging of NSError to ErrorProtocol, so an Objective-C API
expressed via an "NSError *" will be imported using ErrorProtocol in
the Swift. For example, the Objective-C method:
- (void)handleError:(NSError *)error userInteractionPermitted:(BOOL)userInteractionPermitted;
will now be imported as:
func handleError(_ error: ErrorProtocol, userInteractionPermitted: Bool)
This is bullet (3) under the proposed solution of SE-0112. Note that
we made one semantic change here: instead of removing the conformance
of NSError to ErrorProtocol, which caused numerous problems both
theoretical and actual because the model expects that an NSError
conforms to ErrorProtocol without requiring wrapping, we instead limit
the ErrorProtocol -> NSError conversion that would be implied by
bridging. This is defensible in the short term because it also
eliminates the implicit conversion, and aligns with SE-0072, which
eliminates implicit bridging conversions altogether.
When we have an argument expr of type Any that's being emitted as a bridged ObjC object parameter, look through any ErasureExprs and directly bridge the concrete value. This saves us emitting an intermediate 'Any' value in the common case where a value of known concrete type is passed in from Swift.
Eliminate the String/Array/Dictionary/Set special cases, using
_ObjectiveCBridgeable conformances instead.
Note: Clang update required for the test to success.
- isTypeParameter() -- check if this is an archetype or dependent
interface type.
- requiresClass() -- check if this is a class-constrained type
parameter.
The old isOpaque() check has been replaced by
(isTypeParameter() && !requiresClass(moduleDecl)).
This allows us to pass the ModuleDecl on down to
GenericSignature::requiresClass(), enabling the use of
interface types in abstraction patterns.
NFC for now.
These are contexts where we have enough information to bridge /back/
properly; that is, where we can distinguish CBool, ObjCBool, and
DarwinBoolean. In cases where we can't, we keep the three separate;
only CBool is really the same type as Bool.
This also affects current import behavior for ObjCBool, which was previously
incorrectly conflated with CBool in certain cases.
More rdar://problem/19013551
Swift SVN r30051
results when finding bridged types, rather than reinventing
(well, pre-inventing) the same thing elsewhere.
Doing this apparently forces AbstractionPattern to deal
with ObjC protocol methods for the first time, which are
generic and therefore require even the Clang-based
abstraction patterns to propagate generic signatures.
Use this infrastructure to allow foreign error conventions
to suppress the wrapping of nonnull bridged collection results
in a level of optionality. We can't treat nil results as
an empty collection while simultaneously treating them as
an error signal.
Swift SVN r28022
These aren't really orthogonal concerns--you'll never have a @thick @cc(objc_method), or an @objc_block @cc(witness_method)--and we have gross decision trees all over the codebase that try to hopscotch between the subset of combinations that make sense. Stop the madness by eliminating AbstractCC and folding its states into SILFunctionTypeRepresentation. This cleans up a ton of code across the compiler.
I couldn't quite eliminate AbstractCC's information from AST function types, since SIL type lowering transiently created AnyFunctionTypes with AbstractCCs set, even though these never occur at the source level. To accommodate type lowering, allow AnyFunctionType::ExtInfo to carry a SILFunctionTypeRepresentation, and arrange for the overlapping representations to share raw values.
In order to avoid disturbing test output, AST and SILFunctionTypes are still printed and parsed using the existing @thin/@thick/@objc_block and @cc() attributes, which is kind of gross, but lets me stage in the real source-breaking change separately.
Swift SVN r27095
This is necessary for correctly dealing with non-standard
ownership conventions in secondary positions, and it should
also help with non-injective type imports (like BOOL/_Bool).
But right now we aren't doing much with it.
Swift SVN r26954
