Use the modern spelling for the nullability attributes in the test mock
headers. Currently, this was relying on the predefined macros from
clang to work. However, those are only available on Darwin targets.
This is needed to make the mock environments more portable.
When importing C functions with availability attributes, we don't
properly use that information to decide whether a symbol should be
weak_extern, causing load failures in dylibs that reference these
symbols when deployed to an older OS.
This is a very targeted fix and we need a better architecture for
deciding this.
rdar://problem/26359452
Sema was dutifully tracking conformances that were "used" as part of
type checking, so it could make sure that those conformances got
completed for SILGen to use. However, this information never actually
made it to SILGen, which included its own (more conservative, not
broad enough) heuristics for finding "used" conformances. Teach Sema
to record conformances within the appropriate source file, and have
SILGen reference the conformances when it emits SIL for the source
file.
Implements SE-0055: https://github.com/apple/swift-evolution/blob/master/proposals/0055-optional-unsafe-pointers.md
- Add NULL as an extra inhabitant of Builtin.RawPointer (currently
hardcoded to 0 rather than being target-dependent).
- Import non-object pointers as Optional/IUO when nullable/null_unspecified
(like everything else).
- Change the type checker's *-to-pointer conversions to handle a layer of
optional.
- Use 'AutoreleasingUnsafeMutablePointer<NSError?>?' as the type of error
parameters exported to Objective-C.
- Drop NilLiteralConvertible conformance for all pointer types.
- Update the standard library and then all the tests.
I've decided to leave this commit only updating existing tests; any new
tests will come in the following commits. (That may mean some additional
implementation work to follow.)
The other major piece that's missing here is migration. I'm hoping we get
a lot of that with Swift 1.1's work for optional object references, but
I still need to investigate.
Most of this is in updating the standard library, SDK overlays, and
piles of test cases to use the new names. No surprises here, although
this shows us some potential heuristic tweaks.
There is one substantive compiler change that needs to be factored out
involving synthesizing calls to copyWithZone()/copy(zone:). Aside from
that, there are four failing tests:
Swift :: ClangModules/objc_parse.swift
Swift :: Interpreter/SDK/Foundation_test.swift
Swift :: Interpreter/SDK/archiving_generic_swift_class.swift
Swift :: Interpreter/SDK/objc_currying.swift
due to two independent remaining compiler bugs:
* We're not getting partial ordering between NSCoder's
encode(AnyObject, forKey: String) and NSKeyedArchiver's version of
that method, and
* Dynamic lookup (into AnyObject) doesn't know how to find the new
names. We need the Swift name lookup tables enabled to address this.
This is a simple, trivialy, not-even-half-way-there solution to weak
leaking of Objective-C classes introduced after the deployment
target. It only works for Objective-C classes and C global variables
that Clang consideres to be "weak imported". However, this bare
minimum should be enough to develop an app (by jumping through various
hoops) that uses new functionality when its
available. <rdar://problem/17296490>, which I've restricted in scope
to capture this.
Swift SVN r20956
We were neglecting to include initializers and accessors for vars and subscripts, and we were mingling instance and class methods, causing the ObjC runtime to associate the wrong extended type information with methods. Fixes <rdar://problem/17791953>.
Swift SVN r20513
Instead of hacking together inaccurate metadata only for object-typed properties, make an effort to produce accurate metadata for all types of properties, and accurately capture the "copy", "dynamic", and "weak" semantics of some properties. This is necessary for Core Data to accurately synthesize property accessors for non-object properties; currently it will generate bogus object accessors over properties with non-object type. <rdar://problem/17373368>
This isn't fully accurate, since Clang hides property type encoding behind a 'getObjCEncodingForPropertyDecl' that only accepts an ObjCPropertyDecl. With some refactoring, it should be possible to expose this.
Swift SVN r19567
and check for CF_ENUM/CF_OPTIONS, which NS_ENUM/NS_OPTIONS expand to.
This:
- Simplifies code
- Handles CF_ENUM/CF_OPTIONS enums
- Handles correctly an NS_ENUM/NS_OPTIONS enum that was itself expanded from another macro.
Swift SVN r11542
Whatever kind of Swift decl we cons up for a Clang enum, add it to the externals list so we can pick it up and emit Swift metadata for it in IRGen. Fixes <rdar://problem/15242452>.
Swift SVN r9801
