the current SIL module, unless the AST sees them first.
This turns out to be important when we deserialize generic
reabstraction thunks, which have shared linkage so get serialized
again in the current SIL module.
There are some fundamental inconsistencies in the way parameter type
decls are handled, but we need a quick workaround to unblock progress
on the stdlib.
Fixes
<rdar://problem/16807985> Building Foundation overlay crashes in stdlib deserialization in r17377
Swift SVN r18173
This hardcodes the list of platforms into unique identifiers, which
has tradeoffs to using strings. The reality is that various
logic in the compiler needs to be present to identify a given
platform, so hardcoding this list for now is ok. We can evaluate
in the future.
This change is motivated by some needed cleanup, supporting
App Extensions @availability, and unifying build configurations
with the platform names for @availability.
As part of this change, it introduces some slightly better
parser recovery for bad @availability attributes.
Moreover, the 'macosx' platform is renamed to 'osx'. We will need
to handle this mapping in the Clang Importer, but this is the
right thing to do.
Swift SVN r17767
When a module built with -autolink-force-load is imported, add a reference
to a special symbol in the corresponding library so that ld is forced to
link it.
This means the library will be linked into the final binary even if no other
symbols are used (which happens for some of our overlays that just add
category methods to Objective-C classes).
Second part of <rdar://problem/16829587>
Swift SVN r17751
We used to just use FileContext at deserialization time. That causes
multiple NormalProtocolConformances with the same protocol and type,
but from different modules. And we will have issues at IRGen.
With this commit, we serialize the parent module and deserialize the parent
module, and we are not going to have multiple NormalProtocolConformances with
the same protocol and type.
rdar://16809311
Swift SVN r17675
This allows a loaded swiftmodule to refer to decls that come from a header
imported by the module itself. There's an unfortunate sharing of the
namespace here with any /other/ headers loaded by /other/ modules (including
the module currently being compiled), but that shouldn't be too much of an
issue in practice -- the declarations would need to be compatible anyway if
you were doing the same thing in Objective-C.
More of <rdar://problem/16702101>. This is possibly the end of the compiler
work, but I'd like to add more tests to make sure everything is working.
Swift SVN r17639
This doesn't handle cross-references to decls /loaded/ from the header
just yet, so all that's testable right now is whether the header's imports
are visible from the secondary target (after being imported in response
to loading the serialized module).
More of <rdar://problem/16702101>
Swift SVN r17638
All serialization should go through serialize(). We don't currently support
serializing docs without serializing a module.
Also, tidy up how Serializer is used within Serialization.cpp.
Swift SVN r17637
This basically just means "it's a CF class" for now,
but you could imagine applying this to all sorts of
class-like types from peer runtimes that we can't
support all possible language features for.
There are quite a few language features that require
fairly deep object-model integration to implement,
like subclassing and adding polymorphic methods.
Some of those features, like final classes, are useful
to generally support as attributes, but most of
them aren't. At least in the short term, it makes
sense to have a big hammer we can hit things with.
Swift SVN r17428
Subscript declarations were still encoding the names of index
variables in the subscript type, which unintentionally made them
keyword arguments. Bring subscript declarations into the modern day,
using compound names to encode the subscript argument names, which
provides consistency for the keyword-argument world
<rdar://problem/14462349>. Note that arguments in subscripts default
to not being keyword arguments, which seems like the right default.
We now get keyword arguments for subscripts, so one can overload
subscripts on the names of the indices, and distinguish at the call
site. Under -strict-keyword-arguments, we require strictness here as well.
The IRGen/IDE/SILGen test updates are because the mangling of common
subscripts changed from accidentally having keyword arguments to not
having keyword arguments.
Swift SVN r17393
This was part of the original weak design that
there was never any particular reason to rush the
implementation for. It's convenient to do this now
so that we can use it to implement Unmanaged<T> for
importing CF types.
Swift SVN r16693
This will represent the return convention of imported __attribute__((objc_returns_inner_pointer)) methods. Leave it unimplemented for now until we can autorelease things sanely.
Swift SVN r16628
Use this node to capture the argument name and its source location in
the AST. We're only building these in one place at the moment; the
rest will be updated soon.
Swift SVN r16581
The use of ASTContext-allocated arrays to store the members of nominal
type declarations and the extensions thereof is an
abomination. Instead, introduce the notion of an "iterable"
declaration context, which keeps track of the declarations within that
context (stored as a singly-linked list) and allows iteration over
them. When a member is added, it will also make sure that the member
goes into the lookup table for its context immediately.
This eliminates a ton of wasted memory when we have to reallocate the
members arrays for types and extensions, and moves us toward a much
more sane model. The only functionality change here is that the Clang
importer no longer puts subscript declarations into the wrong class,
nor does it nested a C struct within another C struct.
Swift SVN r16572
NFC. DeclRange is a range over DeclIterators, and is used rather than
ArrayRef<Decl*> to retrieve the members of a nominal type declaration
or extension thereof. The intent is to change the representation of
DeclRange next.
Swift SVN r16571
The on-disk hashtable is moving from clang to llvm. This updates some
consumers for the new path and namespace. I've also shortened the
make_range(data_begin(), data_end()) calls on the hash table to just
use data().
Swift SVN r16537
Factory initializers express an initializer that produces an object of
the given type, but is not inherited and not designated. Although they
have a syntactic form for presentation purposes (-> ClassName), there
is no way to specify or implement them within Swift. Rather, factory
initializers are created when importing an Objective-C factory method
that returns the class type rather than instancetype.
Swift SVN r16528
Convenience factory initializers are convenience initializers produced
by importing an Objective-C factory method as a convenience
initializer. The distinction is currently only used to eliminate the
awful layering violation I recently introduced in name lookup, which
was consulting Clang AST nodes directly. It will also be useful in
SILGen.
Swift SVN r16527
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
