Expand the scope of @objc inference for witnesses to encompass
witnesses that are in a different extension from that of the
conformance, including cases where one or the other is in the nominal
type declaration itself.
Fixes rdar://problem/26892526.
This is a follow-up to the change that allowed one to omit @objc (or
the name in an @objc) when it can be inferred by matching a
requirement. There is no point in suggesting that one add @objc if it
will be inferred anyway, since it's just syntactic noise.
When a particular method/initializer/property/subscript is used to
satisfied a requirement in an @objc protocol, infer both the presence
of @objc and the @objc name so that it matches the requirement. This
eliminates the need to explicitly specify @objc and @objc(foo:bar:) in
most cases. Note that we already did this for overrides, so it's a
generalization of that behavior.
Note that we keep this inference somewhat local, checking only those
protocols that the enclosing context conforms to, to limit
spooky-action-at-a-distance inference. It's possible that we could
lift this restriction later.
Fixes rdar://problem/24049773.
When a non-@objc witness matches an @objc requirement except for
@objc-ness, treat it the same way whether it's an optional requirement
or not, except that it's a warning for the optional case. Should
finish off rdar://problem/25159872.
When an optional requirement of an @objc protocol has a selector that
collides with an entity that has a different *Swift* name but produces
an Objective-C method with the same selector, we have an existing
diagnostic complaining about the conflict. In such cases, make a few
suggestions (with Fix-Its) to improve the experience:
* Change Swift name to match the requirement, adding or modifying the
@objc as appropriate.
* Add "@nonobjc" to silence the diagnostic, explicitly opting out of
matching an @objc requirement.
This is intended to help with migration of Swift 2 code into Swift
3. The Swift 2 code will produce selectors that match Objective-C
methods in the protocol from Swift names that don't match; this helps
fix up those Swift names so that we now match.
Fixes the rest of rdar://problem/25159872. In some sense, it's a
stop-gap for more detailed checking of near-misses for optional
requirements, but it's not clear how wide-reaching such changes would
be.
Simplify and improve the checking of @objc names when matching a
witness to a requirement in the @objc protocol. First, don't use
@objc-ness as part of the initial screening to determine whether a
witness potentially matches an @objc requirement: we will only reject
a potential witness when the potential witness has an explicit
"@nonobjc" attribute on it. Otherwise, the presence of @objc and the
corresponding Objective-C name is checked only after selecting a
candidate. This more closely mirrors what we do for override checking,
where we match based on the Swift names (first) and validate
@objc'ness afterward. It is also a stepping stone to inferring
@objc'ness and @objc names from protocol conformances.
Second, when emitting a diagnostic about a missing or incorrect @objc
annotation, make sure the Fix-It gets the @objc name right: this might
mean adding the Objective-C name along with @objc (e.g.,
"@objc(fooWithString:bar:)"), adding the name to an
unadorned-but-explicit "@objc" attribute, or fixing the name of an
@objc attribute (e.g., "@objc(foo:bar:)" becomes
@objc(fooWithString:bar:)"). Make this diagnostic an error, rather
than a note on a generic "does not conform" diagnostic, so it's much
easier to see the diagnostic and apply the Fix-It.
Third, when emitting the warning about a non-@objc near-match for an
optional @objc requirement, provide two Fix-Its: one that adds the
appropriate @objc annotation (per the paragraph above), and one that
adds @nonobjc to silence the warning.
Part of the QoI improvements for conformances to @objc protocols,
rdar://problem/25159872.
When an optional requirement of an @objc protocol has a selector that
collides with an entity that has a different *Swift* name but produces
an Objective-C method with the same selector, we have an existing
diagnostic complaining about the conflict. In such cases, make a few
suggestions (with Fix-Its) to improve the experience:
* Change Swift name to match the requirement, adding or modifying the
@objc as appropriate.
* Add "@nonobjc" to silence the diagnostic, explicitly opting out of
matching an @objc requirement.
This is intended to help with migration of Swift 2 code into Swift
3. The Swift 2 code will produce selectors that match Objective-C
methods in the protocol from Swift names that don't match; this helps
fix up those Swift names so that we now match.
Fixes the rest of rdar://problem/25159872. In some sense, it's a
stop-gap for more detailed checking of near-misses for optional
requirements, but it's not clear how wide-reaching such changes would
be.
Simplify and improve the checking of @objc names when matching a
witness to a requirement in the @objc protocol. First, don't use
@objc-ness as part of the initial screening to determine whether a
witness potentially matches an @objc requirement: we will only reject
a potential witness when the potential witness has an explicit
"@nonobjc" attribute on it. Otherwise, the presence of @objc and the
corresponding Objective-C name is checked only after selecting a
candidate. This more closely mirrors what we do for override checking,
where we match based on the Swift names (first) and validate
@objc'ness afterward. It is also a stepping stone to inferring
@objc'ness and @objc names from protocol conformances.
Second, when emitting a diagnostic about a missing or incorrect @objc
annotation, make sure the Fix-It gets the @objc name right: this might
mean adding the Objective-C name along with @objc (e.g.,
"@objc(fooWithString:bar:)"), adding the name to an
unadorned-but-explicit "@objc" attribute, or fixing the name of an
@objc attribute (e.g., "@objc(foo:bar:)" becomes
@objc(fooWithString:bar:)"). Make this diagnostic an error, rather
than a note on a generic "does not conform" diagnostic, so it's much
easier to see the diagnostic and apply the Fix-It.
Third, when emitting the warning about a non-@objc near-match for an
optional @objc requirement, provide two Fix-Its: one that adds the
appropriate @objc annotation (per the paragraph above), and one that
adds @nonobjc to silence the warning.
Part of the QoI improvements for conformances to @objc protocols,
rdar://problem/25159872.
Adds an associatedtype keyword to the parser tokens, and accepts either
typealias or associatedtype to create an AssociatedTypeDecl, warning
that the former is deprecated. The ASTPrinter now emits associatedtype
for AssociatedTypeDecls.
Separated AssociatedType from TypeAlias as two different kinds of
CodeCompletionDeclKinds. This part probably doesn’t turn out to be
absolutely necessary currently, but it is nice cleanup from formerly
specifically glomming the two together.
And then many, many changes to tests. The actual new tests for the fixits
is at the end of Generics/associated_types.swift.
This warning previously had no way to be silenced. I don't expect people to
actually use this much, but it seems important for completeness.
Swift SVN r29091
When an optional requirement goes unfulfilled by a conformance, and
there is a non-@objc declaration with that name in the type/extension
declaring conformance, warn that it does not satisfy the optional
requirement. Sadly, this diagnostic is long because there are notes
for the two potential fixes: add @objc to try to conform, or move the
declaration elsewhere to silence the compiler.
Fixes rdar://problem/20219297.
Swift SVN r28908
var/let bindings to _ when they are never used, and use some values that
are only written. This is a testsuite cleanup, NFC. More to come.
Swift SVN r28406
Most tests were using %swift or similar substitutions, which did not
include the target triple and SDK. The driver was defaulting to the
host OS. Thus, we could not run the tests when the standard library was
not built for OS X.
Swift SVN r24504
them to cover all declaration types.
This ensures that we reject attributes on declkinds where they don't make sense. I went so far
as to make the QoI decent when an attribute can only be applied to a single kind of declaration
to make sure the error message says "@IBAction is only valid on 'func' declarations" as well.
This resolves <rdar://problem/17681151> 'dynamic' accepted by the compiler where it shouldn't be
Swift SVN r19982
This only tackles the protocol case (<rdar://problem/17510790>); it
does not yet generalize to an arbitrary "class" requirement on either
existentials or generics.
Swift SVN r19896
attribute is a "modifier" of a decl, not an "attribute" and thus shouldn't
be spelt with an @ sign. Teach the parser to parse "@foo" but reject it with
a nice diagnostic and a fixit if "foo" is a decl modifier.
Move 'dynamic' over to this (since it simplifies some code), and switch the
@optional and @required attributes to be declmodifiers (eliminating their @'s).
Swift SVN r19787
- Change the parser to accept "objc" without an @ sign as a contextual
keyword, including the dance to handle the general parenthesized case.
- Update all comments to refer to "objc" instead of "@objc".
- Update all diagnostics accordingly.
- Update all tests that fail due to the diagnostics change.
- Switch the stdlib to use the new syntax.
This does not switch all tests to use the new syntax, nor does it warn about
the old syntax yet. That will be forthcoming. Also, this needs a bit of
refactoring, which will be coming up.
Swift SVN r19555
