When a case has an @available(currentPlatform, introduced: x.y) attribute, the auto-derived init(rawValue:) will now include a “guard #available(currentPlatform x.y, *) else { return nil }” check to prevent the new case from being returned.
This requires a targeted hack to disable @available(introduced:) checks in auto-derived init(rawValue:) implementations; the availability checker is SourceLoc-based, so it can’t tell that the synthesized `guard` covers the use of the case. I’m not happy about that, but fixing the deeper problem is a much larger task than I can take on in one day.
Parsed declarations would create an untyped 'self' parameter;
synthesized, imported and deserialized declarations would get a
typed one.
In reality the type, if any, depends completely on the properties
of the function in question, so we can just lazily create the
'self' parameter when needed.
If the function already has a type, we give it a type right there;
otherwise, we check if a 'self' was already created when we
compute a function's type and set the type of 'self' then.
- getAsDeclOrDeclExtensionContext -> getAsDecl
This is basically the same as a dyn_cast, so it should use a 'getAs'
name like TypeBase does.
- getAsNominalTypeOrNominalTypeExtensionContext -> getSelfNominalTypeDecl
- getAsClassOrClassExtensionContext -> getSelfClassDecl
- getAsEnumOrEnumExtensionContext -> getSelfEnumDecl
- getAsStructOrStructExtensionContext -> getSelfStructDecl
- getAsProtocolOrProtocolExtensionContext -> getSelfProtocolDecl
- getAsTypeOrTypeExtensionContext -> getSelfTypeDecl (private)
These do /not/ return some form of 'this'; instead, they get the
extended types when 'this' is an extension. They started off life with
'is' names, which makes sense, but changed to this at some point. The
names I went with match up with getSelfInterfaceType and
getSelfTypeInContext, even though strictly speaking they're closer to
what getDeclaredInterfaceType does. But it didn't seem right to claim
that an extension "declares" the ClassDecl here.
- getAsProtocolExtensionContext -> getExtendedProtocolDecl
Like the above, this didn't return the ExtensionDecl; it returned its
extended type.
This entire commit is a mechanical change: find-and-replace, followed
by manual reformatted but no code changes.
Because people put all sorts of nonsense into @objc enums (most
reasonably, "private cases", which represent valid values that are not
API), the Swift-synthesized implementation of 'hash(into:)' needs to
not expect a switch statement to be exhaustive. And since
Swift-defined @objc enums are supposed to behave enough like C-defined
enums, they should at least handle simple method calls with an invalid
raw value, which means that 'rawValue' likewise should not use a
switch.
This patch provides alternate implementations that look like this:
extension ImportedEnum {
public var rawValue: Int {
return unsafeBitCast(self, to: Int.self)
}
public func hash(into hasher: inout Hasher) {
hasher.combine(self.rawValue)
}
}
rdar://problem/41913284
Several different places in the codebase synthesize IntegerLiteralExprs from computed unsigned variables; each one requires several lines of code and does things slightly differently. Write one central helper method to handle this.
Instead of passing around a TypeChecker and three Decls (the nominal type, the
protocol, and the decl declaring the conformance) everywhere, we can just pass
one object.
This should be [NFC].
Small potential perf win...or rather regain, since we apparently used
to do this. It's a bit trickier to say whether we should do the same
for resilient enums, since /in theory/ a later version of the library
might decide to use different raw values.
https://bugs.swift.org/browse/SR-7094
Since 'private' means "limit to the enclosing scope (and extensions
thereof)", putting it on a member means that the member can't be
accessed everywhere the type might show up. That's normally a good
thing, but it's not the desired effect for synthesized members used
for derived conformances, and when it comes to class initializers this
actually violates AST invariants.
rdar://problem/39478298
This is our first statement attribute, made more complicated by the
fact that a 'case'/'default' isn't really a normal statement. I've
chosen /not/ to implement a general statement attribute logic like we
have for types and decls at this time, but I did get the compiler
parsing arbitrary attributes before 'case' and 'default'. As a bonus,
we now treat all cases within functions as being switch-like rather
than enum-like, which is better for recovery when not in a switch.
This has three principal advantages:
- It gives some additional type-safety when working
with known accessors.
- It makes it significantly easier to test whether a declaration
is an accessor and encourages the use of a common idiom.
- It saves a small amount of memory in both FuncDecl and its
serialized form.
Instead of inlining a series of string comparisons, we call a library function which does the string lookup on a table of static strings.
This reduces the code size of those initializers dramatically.
Performance wise it's slower than before, because the string comparisons are not inlined anymore.
The synthesized declarations should inherit the @_versioned attribute
from the type, just like they inherit access control.
Fixes <rdar://problem/34342955>.
"Accessibility" has a different meaning for app developers, so we've
already deliberately excised it from our diagnostics in favor of terms
like "access control" and "access level". Do the same in the compiler
now that we aren't constantly pulling things into the release branch.
This commit changes the 'Accessibility' enum to be named 'AccessLevel'.
* Use `isSpecificProtocol` instead of `==`
* Synthesize Encodable implementation lazily
* Don’t mark conformances as Used when they don’t need to be
* Avoid creating explicit one-element arrays
* Use lookupDirect instead of walking AST manually
* Produce diagnostic for Decodable classes whose non-Decodable superclass has a failable init
* Filter lazy vars manually since getStoredProperties() does not always do so
* Amend Decodable class diagnostic text
* Check for enum RawType errors only if the type was already validated
* Update unit tests to match changes
Some types and members are synthesized by derived protocol conformances
(e.g. the CodingKeys member type or init(from:)/encode(to:) members
from Decodable/Encodable conformance) — however, they are not visible
in AST lookup if they have not been synthesized.
Exposes a LazyResolver callback for performing member synthesis where
relevant during qualified lookups to synthesize these members on demand
when needed.
In anticipation of future attributes, and perhaps the ability to
declare lvalues with specifiers other than 'let' and 'var', expand
the "isLet" bit into a more general "specifier" field.
With the introduction of special decl names, `Identifier getName()` on
`ValueDecl` will be removed and pushed down to nominal declarations
whose name is guaranteed not to be special. Prepare for this by calling
to `DeclBaseName getBaseName()` instead where appropriate.
A lot of files transitively include Expr.h, because it was
included from SILInstruction.h, SILLocation.h and SILDeclRef.h.
However in reality most of these files don't do anything
with Exprs, especially not anything in IRGen or the SILOptimizer.
Now we're down to 171 files in the frontend which depend on
Expr.h, which is still a lot but much better than before.
- The DeclContext versions of these methods have equivalents
on the DeclContext class; use them instead.
- The GenericEnvironment versions of these methods are now
static methods on the GenericEnvironment class. Note that
these are not made redundant by the instance methods on
GenericEnvironment, since the static methods can also be
called with a null GenericEnvironment, in which case they
just assert that the type is fully concrete.
- Remove some unnecessary #includes of ArchetypeBuilder.h
and GenericEnvironment.h. Now changes to these files
result in a lot less recompilation.
First, ensure all ParamDecls that are synthesized from scratch are given
both a contextual type and an interface type.
For ParamDecls written in source, add a new recordParamType() method to
GenericTypeResolver. This calls setType() or setInterfaceType() as
appropriate.
Interestingly enough a handful of diagnostics in the test suite have
improved. I'm not sure why, but I'll take it.
The ParamDecl::createUnboundSelf() method is now only used in the parser,
and no longer sets the type of the self parameter to the unbound generic
type. This was wrong anyway, since the type was always being overwritten.
This allows us to remove DeclContext::getSelfTypeOfContext().
Also, ensure that FuncDecl::getBodyResultTypeLoc() always has an interface
type for synthesized declarations, eliminating a mapTypeOutOfContext()
call when computing the function interface type in configureInterfaceType().
Finally, clean up the logic for resolving the DynamicSelfType. We now
get the interface or contextual type of 'Self' via the resolver, instead
of always getting the contextual type and patching it up inside
configureInterfaceType().
After recent changes, this asserts on all decls that are not VarDecls,
so we can just enforce that statically now. Interestingly, this turns
up some dead code which would have asserted immediately if called.
Also, replace AnyFunctionRef::getType() with
AnyFunctionRef::getInterfaceType(), since the old
AnyFunctionRef::getType() would just assert when called on
a Decl.
