Formatting names into strings repeatedly, and using those for semantic
analysis, is generally considered poor form. Additionally, use the
camelCase utilities to perform the string manipulation we need, and
cache results on the ObjCAttr so we don't repeatedly do string
manipulation.
Swift SVN r16334
This allows us to consistently print the AST, no matter if it was just parsed
or deserialized.
Note that we still serialize the isObjC bit from Decl, because it can be set or
cleared by the typechecker. It is possible to have isObjC=true when there is
not attribute (the ObjC'ness was inferred), and it is possible that
isObjC=false while there is an attribute (when the attribute does not pass the
semantic check). While we can represent the former with an implicit attribute,
the latter is harder to represent (maybe with an invalid bit on the attribute?)
Swift SVN r15935
Provide a fine-grained classification of declarations that can be used
in diagnostics instead of ad hoc %select operations. For now, only cut
over the "overriding a final <whatever>" diagnostic.
Swift SVN r15932
This requires some careful handling since the base of an ArrayRef and the
lazy loading "context data" both have no free bits, but it now works.
(It's essentially a TwoPointerUnion type, just specialized for a particular
pair of two-pointer types.)
No functionality change, except that NominalTypeDecl and ExtensionDecl
are two words smaller.
Swift SVN r15910
This is missing almost all semantic analysis and is missing various
optimization opportunities (e.g. final methods that are not overrides
don't need vtable entries), but this is enough to devirtualize class
stuff, which is important for our performance efforts. I'll add this
to release notes when it is more fully fleshed out.
Swift SVN r15885
...then use this functionality for derived conformances for RawRepresentable.
No functionality change because these bodies are always forced right now.
Swift SVN r15828
Swift will use the basename + argument names formulation for
names. Update the DeclName interfaces, printing, and __FUNCTION__ to
use the method syntax.
We'll still need to rework the "x.foo:bar:wibble:" syntax; that will
come (significantly) later.
Swift SVN r15763
Centralize the logic for figuring out what name to use for a class or
protocol in the Objective-C runtime. When the flag is enabled (it's
still disabled by default), use mangled names for all Swift-defined
classes, including those that are @objc. Note that the naming is
determined in the AST, because we're also going to use this logic when
printing an Objective-C header for Clang's consumption. The mangled
names will always start with _Tt, so they're easy to recognize and
demangle in various tools or, eventually, in the Objective-C runtime.
The new test (test/IRGen/objc_mangling.sil) is the only test of this
behavior at the moment. The other test changes are due to the
centralized logic tweaking the names of internal constants (_DATA_*,
_CATEGORY_*, etc.).
This is the majority of <rdar://problem/15506580>.
Swift SVN r15588
This significantly reduces the amount of overhead incurred when naively importing large external modules without referencing many of its members, which should directly improve response times in the playground. For example, the repro code attached to rdar://problem/16387393 imports Foundation but references none of its members, and with these changes its total compilation time is almost 2.5x faster.
Swift SVN r15479
contains, instead of being a stored bit set up by the parser. Observed properties
have storage... unless they are overriding, and this avoids having to maintain
this bit.
This fixes:
<rdar://problem/16382967> Overriding observing properties have no storage, so shouldn't prevent initializer synth
Swift SVN r15301
This provides support for observing properties to @override base properties,
observing what happens to them. Note that it still isn't possible to override
a stored property at all, so this only works when overriding a computed property.
Swift SVN r15280
As part of the nominal type descriptor for a struct or class, build a function that lazily generates the vector of type metadata for the fields of the nominal type given an instantiation of the type's metadata. To cache this for nongeneric types, produce a global variable we can stash the result in, or for generic types, reserve some space in the metadata template so that generic metadata instantiation naturally provides a space for every instance of the type.
Reapplying now that the missing Float80 builtin metadata is available.
Swift SVN r15260
As part of the nominal type descriptor for a struct or class, build a function that lazily generates the vector of type metadata for the fields of the nominal type given an instantiation of the type's metadata. To cache this for nongeneric types, produce a global variable we can stash the result in, or for generic types, reserve some space in the metadata template so that generic metadata instantiation naturally provides a space for every instance of the type.
Swift SVN r15256
Parse function declarations with the form
func murder inRoom(room: Int) weapon(Int) {}
where the function name ("murder") is separated from the parameter
names. This is the same style used in initializers, i.e.,
init withCString(cstr: CString) encoding(Encoding)
Swift SVN r15140
If a subclass defines no subobject initializers and all of its stored
properties have initial values, "inherit" all of the subobject
initializers of its superclass by creating a new initializer with the
same signature that overrides (and chains to) the corresponding
subobject initializer of its parent. Do this instead of blindly
creating a default initializer.
Note that we aren't yet doing this for generic initializers. That will
be a separate step.
Swift SVN r14995
1. Do not call getInterfaceType() on a decl if it isn't already set, since
this will cause it to be lazily computed, and it would be nice for the
ASTDumper to not side-effect our AST.
2. Print the interface type of a decl if present, even if the type is not.
Surprisingly to me, we compute the interface type a lot sooner than the type
for a decl in some cases.
Swift SVN r14951
To parse GenericParamList in SILParser, we try to share code with TypeChecker.
We add handleSILGenericParams in Subsystems.h in order for SILParser to call
TypeChecker's handling of GenericParamList (this is motivated by the example of
SILParser calling performTypeLocChecking). handleSILGenericParams calls
checkGenericParamList and finalizeGenericParamList.
A Builder field (ArchetypeBuilder*) is added to GenericParamList so we can add
the same-type requirements to GenericSignature in getAsCanonicalGenericSignature
by checking SameTypeRequirements of the builder.
resolvePotentialArchetypeToType is moved from a static helper function in
TypeCheckGeneric.cpp to a public helper function in ArchetypeBuilder.cpp.
When constructing the same-type requirements in getAsCanonicalGenericSignature,
we will call it to convert from PotentialArchetype to a dependent type.
rdar://16238241
Swift SVN r14922
In Sema, give derived '==' definitions the module's DerivedFileUnit as their decl context instead of the more general Module, and give it a backreference to the nominal type for which it was derived.
In SILGen, visit the derived global decls associated with Clang-imported enums, and give them shared linkage. Part of fixing <rdar://problem/16264703>.
Swift SVN r14875
When a subclass does not implement a designated initializer of its
superclass, introduce a stub initializer that simply traps. Such stubs
cannot be invoked directly using Swift syntax, but can be invoked
through the Objective-C runtime and from Objective-C code. Catch such
errors rather than allowing them to violate the memory safety of the
language.
Note that we're currently using cond_fail to trap; this will be
improved in the future,
Swift SVN r14839
The standard library likes to have default definitions for associated types,
which is good. Often the /choice/ of default type, however, is a type that
(indirectly) conforms to the very protocol containing the associated type.
Rather than try to make sure everything is present all at once, just delay
the deserialization of the default definition until it's actually requested.
This does swell the size of AssociatedTypeDecl by two words. I've filed
<rdar://problem/16266669> to remind myself to try to reduce this.
Part of <rdar://problem/16257259>
Swift SVN r14809
