These objects are behind typedefs and user code supposed to use the
typedef names. We already have some logic in place for Obj-C interop.
Reuse the same logic for C++ to use the correct names.
rdar://150453489
The generated header did not compile due to a bug that prevented us from
referencing the correct namespaces derived from the nominal type's name
(an extension does not have a name). Moreover, we did not generate
forward declarations for the members of the extensions for classes and
enums (but we did for structs). This change also removes a workaround
that emitted String::Index as _String_Index.
rdar://153221450
To trigger this error one needs to import a nested type from C++, use it
in a generic context in Swift, and export it back to C++. We were
inconsisent in what namespace did we declare the functions to get the
type metadata for types. It was in the swift namespace for foreign types
and in the module namespace for Swift types. This PR standardizes on how
the metadata function is declared and called to fix the issue.
Fixes#80538.
rdar://148597079
The test for nested constructs used library evolution forcing all types
to be opaque. As a result some code paths for non-opaque types were not
updated to support nested types. This patch updates the rest of the code
making sure we use fully qualified names (so they also work in the
context of the nested classes), and generate correct names for the C
compatibility structs that cannot contain "::".
Fixes#80291
rdar://147882976
The Error enum synthesized declarations, e.g. the struct and its static accessors, should generally appear to be identical to the underlying Clang definitions. There are some specific use cases where the synthesized declarations are necessary though.
I've added an option for USR generation to override the Clang node and emit the USR of the synthesized Swift declaration. This is used by SwiftDocSupport so that the USRs of the synthesized declarations are emitted.
Fixes 79912
This patch introduces handling of ObjC protocols similar to how ObjC
classes work. Since this only works in ObjC++, all declarations
containing ObjC protocols will be protected by the __OBJC__ macro.
This patch results in some `_bridgeObjC` methods being exposed, we might
end up hiding those in the future, but there is no harm having them in
the interop header for the interim period.
rdar://136757913
It is really involved to change how methods and classes are emitted into
the header so this patch introduces the impression of nested structs
through using statements and still emits the structs themselves as top
level structs. It emits them in their own namespace to avoid name
collisions. This patch also had to change some names to be fully
qualified to avoid some name lookup errors in case of nested structs.
Moreover, nesting level of 3 and above requires C++17 because it relies
on nested namespaces. Only nested structs are supported, not nested
classes.
Since this patch is already started to grow quite big, I decided to put
it out for reviews and plan to address some of the shortcomings in a
follow-up PR.
rdar://118793469
Although I don't plan to bring over new assertions wholesale
into the current qualification branch, it's entirely possible
that various minor changes in main will use the new assertions;
having this basic support in the release branch will simplify that.
(This is why I'm adding the includes as a separate pass from
rewriting the individual assertions)
Consider the case of a toolchain that includes clang is being used to
compile Swift. With the current ordering, the header will be found
relative to that toolchain, which could be out of date as compared to
tip. This is the case today if eg. a 5.7 toolchain is used to build
main/5.9 as the shim header is missing a definition.
Reformatting everything now that we have `llvm` namespaces. I've
separated this from the main commit to help manage merge-conflicts and
for making it a bit easier to read the mega-patch.
This is phase-1 of switching from llvm::Optional to std::optional in the
next rebranch. llvm::Optional was removed from upstream LLVM, so we need
to migrate off rather soon. On Darwin, std::optional, and llvm::Optional
have the same layout, so we don't need to be as concerned about ABI
beyond the name mangling. `llvm::Optional` is only returned from one
function in
```
getStandardTypeSubst(StringRef TypeName,
bool allowConcurrencyManglings);
```
It's the return value, so it should not impact the mangling of the
function, and the layout is the same as `std::optional`, so it should be
mostly okay. This function doesn't appear to have users, and the ABI was
already broken 2 years ago for concurrency and no one seemed to notice
so this should be "okay".
I'm doing the migration incrementally so that folks working on main can
cherry-pick back to the release/5.9 branch. Once 5.9 is done and locked
away, then we can go through and finish the replacement. Since `None`
and `Optional` show up in contexts where they are not `llvm::None` and
`llvm::Optional`, I'm preparing the work now by going through and
removing the namespace unwrapping and making the `llvm` namespace
explicit. This should make it fairly mechanical to go through and
replace llvm::Optional with std::optional, and llvm::None with
std::nullopt. It's also a change that can be brought onto the
release/5.9 with minimal impact. This should be an NFC change.
A lot of the fixes here are adjustments to compensate in the
fulfillment and metadata-path subsystems for the recent pack
substitutions representation change. I think these adjustments
really make the case for why the change was the right one to make:
the code was clearly not considering the possibility of packs
in these positions, and the need to handle packs makes everything
work out much more cleanly.
There's still some work that needs to happen around type packs;
in particular, we're not caching them or fulfilling them as a
whole, and we do have the setup to do that properly now.
This macro applies always_inline in addition to inline. It also applies artificial, which lets debugger know that this is an artificial function. The used attribute is added in debug builds to ensure that the symbol is emitted in the binary so that LLDB can invoke it.
Each emitted declaration is annotated with the external_source_symbol with its own USR, to allow Clang's indexer to recognize this declaration as a Swift declaration with a specific USR
