Introduce CtorInitializerKind to describe the kind of an enum, rather
than a bool, to make way for more initializer kinds in the future.
Swift SVN r16525
For BoundGenericType, we check if the generic arguments are Archetype and if the
Archetype appears in the Decl's Archetypes, if yes, we use indices into the
Decl's Archetypes instead of serializing the Archetype.
We add INT32_MAX as the first argument to notify the deserializer that the
arguments are indices into the Decl's Archetypes.
We also add a warning message when the Decl is serialized as a cross reference
and the generic arguments are serialized in this module.
rdar://16536656
Swift SVN r16424
Blocks need to be born on the stack, so we need a way to represent that on-stack storage. @block_storage T will represent the layout of a block that contains storage for a capture of type T.
Swift SVN r16355
We have to work with selectors quite often, so provide an efficient
representation for them. Switch ObjCAttr over to this representation,
which has the nice property that it efficiently represents implicit
@objc attributes with names and allows us to overwrite the Objective-C
name without losing all source information. Addresses
<rdar://problem/16478678>, and sets us up for dealing with selectors
better.
Swift SVN r16327
These bits are orthogonal to each other, so combine them into one, and diagnose attempts to produce a type that's both. Spot-fix a bunch of places this revealed by inspection that we would have crashed in SILGen or IRGen if blocks were be handled.
Swift SVN r16088
... and fix a few other bugs:
* always set the inherited protocols on the ProtocolDecl in the type checker,
so that we can remove a hack in ProtocolDecl::requiresClassSlow();
* diagnose DeclAttributes that are inverted when this is not allowed.
Swift SVN r15992
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
To generalize our serialization logic for more attributes, serialize
each DeclAttribute object in a separate bitcode record.
For simple declaration attributes (no arguments), all of this
serialization logic can be fully automatically generated, and is
done so in this patch. This currently includes @final, but will
expand over time.
To illustrate the plumbing end-to-end, move the serialization logic
for asmnmame over to the new mechanism.
Swift SVN r15933
More importantly, when writing substitution conformances /within the same
module/, use an "incomplete" form of the NormalProtocolConformance layout
that doesn't include any of the substitutions or defaulted definitions.
This avoids a serialization cycle when the witness for a protocol itself
ends up conforming to the protocol.
I couldn't come up with a reduced test cases, but both cases filed by Dave
now work.
<rdar://problem/16468715>
Swift SVN r15912
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
Language features like erasing concrete metatype
values are also left for the future. Still, baby steps.
The singleton ordinary metatype for existential types
is still potentially useful; we allow it to be written
as P.Protocol.
I've been somewhat cavalier in making code accept
AnyMetatypeType instead of a more specific type, and
it's likely that a number of these places can and
should be more restrictive.
When T is an existential type, parse T.Type as an
ExistentialMetatypeType instead of a MetatypeType.
An existential metatype is the formal type
\exists t:P . (t.Type)
whereas the ordinary metatype is the formal type
(\exists t:P . t).Type
which is singleton. Our inability to express that
difference was leading to an ever-increasing cascade
of hacks where information is shadily passed behind
the scenes in order to make various operations with
static members of protocols work correctly.
This patch takes the first step towards fixing that
by splitting out existential metatypes and giving
them a pointer representation. Eventually, we will
need them to be able to carry protocol witness tables
Swift SVN r15716
Via preprocessor goop, Serialization.cpp generates a set of static
functions that can be used to verify if a set of attributes
can be serialized for a particular declaration.
This design forces the author of the attribute to specify up front
whether or not an attribute is supported on a given declaration
kind. We can possibly hoist this into semantic analysis as well.
These N separate functions do conceptually replace a simple
variadic template implementation. I'm fine with alternatives,
but the goal was to provide a way for the author of new
attributes to describe the requirements in one place: Attr.def.
Swift SVN r15470
This representation is inspired by Clang's internal representation.
The current attribute representation, which is basically a union
of "stuff" in DeclAttributes, is not amendable to richer
attributes, such as @availability, that need to be implemented.
In Clang, attributes are modeled with actual objects that
encode both semantic and syntactic information (e.g., source ranges)
that facilitate richer checking, better diagnostics, and better tools.
This change is foundational for implementing @availability, but
also is a better long-term representation. As a migratory path,
it creates some duplications, with AttrKind and DeclAttrKind, the
two which should eventually become the same thing.
As part of this patch, there is some additional parser recovery
(for the new attribute representation) for duplicate attributes.
The parser now parses the entire duplicate attribute, which could
be quite complex, and then issues a diagnostic that the attribute
is a duplicate (and discarding it). This delayed diagnostic
also allows us to present ranges for the duplicate attribute, which
provides a better user experience.
Swift SVN r15365
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
Instead of referencing them by name, serialize a reference to their
storage decl instead, then note which accessor to retrieve.
Uncovered by Chris's override work in r15051...thanks, Chris!
Swift SVN r15063
Previously, we were cloning the default arguments completely, which
meant code duplication (when inheriting within a module) or simply a
failure (when inheriting across modules). Now, we reference the
default arguments where we inherited them, eliminating the
duplication. Part of <rdar://problem/16318855>.
Swift SVN r15062
The driver infers the filename from the module file by replacing the extension,
and passes the explicit path to the swiftdoc file to the frontend. But there
is no option in the driver to control emission of swiftdoc (it is always
emitted, and name is always inferred from the swiftmodule name).
The swiftdoc file consists of a single table that maps USRs to {brief comment,
raw comment}. In order to look up a comment for decl we generate the USR
first. We hope that the performance hit will not be that bad, because most
declarations come from Clang. The advantage of this design is that the
swiftdoc file is not locked to the swiftmodule file, and can be updated,
replaced, and even localized.
Swift SVN r14914
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
Let ArchetypeType nested types and PotentialArchetypes be bound to concrete types in addition to archetypes. Constraints to outer context archetypes still suffer type-checker issues, but constraints to true concrete types should work now.
Swift SVN r14832
Previously, serialization of a single source file only includes decls that
are within the SourceFile context. However, new top-level decls can be
added in order to derive protocol conformances; these decls need to be
serialized /somewhere/. Add the concept of decls "forced" to be serialized
along with the decls within the primary SourceFile context, and then mark
all derived top-level decls as "forced" if they come from a decl in the
primary source file.
Possibly a fix for <rdar://problem/16254101>, which crashes nearby.
Swift SVN r14817
Add __FUNCTION__ to the repertoire of magic source-location-identifying tokens. Inside a function, it gives the function name; inside a property accessor, it gives the property name; inside special members like 'init', 'subscript', and 'deinit', it gives the keyword name, and at top level, it gives the module name. As a bit of future-proofing, stringify the full DeclName, even though we only ever give declarations simple names currently.
Swift SVN r14710
