This attribute makes it so that a parameter of the annotated type, as well as
any type structurally containing that type as a field, becomes passed as
if `@_addressable` if the return value of the function has a dependency on
the parameter. This allows nonescapable values to take interior pointers into
such types.
This attribute will allow you to specify an alternate version of the declaration used for mangling. It will allow minor adjustments to be made to declarations so long as they’re still compatible at the calling convention level, such as refining isolation or sendability, renaming without breaking ABI, etc.
The attribute is behind the experimental feature flag `ABIAttribute`.
This was never used to generate a .swiftinterface, so can be safely removed. It
was used to guard compiler fixes that might break older .swiftinterface
files. Now, we guard the same fixes by checking the source file type.
This results in an automatic wrapper function with safe pointer types
when the imported function has bounds attributes. This exercises similar
pathways as the recently added functionality for specifying macros from
swift_attr. The new functionality is guarded by the experimental
language feature SafeInteropWrappers.
rdar://97942270
Many APIs using nonescapable types would like to vend interior pointers to their
parameter bindings, but this isn't normally always possible because of representation
changes the caller may do around the call, such as moving the value in or out of memory,
bridging or reabstracting it, etc. `@_addressable` forces the corresponding parameter
to be passed indirectly in memory, in its maximally-abstracted representation.
[TODO] If return values have a lifetime dependency on this parameter, the caller must
keep this in-memory representation alive for the duration of the dependent value's
lifetime.
The symbol graph output from a module can contain an arbitrary number of
files, depending on what extensions it contains, so cache a list of
symbol graph files with their base name and contents so that they can be
replayed.
rdar://140286819
Use `ExportedSourceFile.sourceLocationConverter.lineTable.virtualFiles`
to populate the information in `swift::SourceManger` and
`swift::SourceFile` when "parsing" with ASTGen
Also introduce two new frontend flags:
The -solver-scope-threshold flag sets the maximum number of scopes, which was
previously hardcoded to 1 million.
The -solver-trail-threshold flag sets the maximum number of trail steps,
which defaults to 64 million.
CAS support in compiler relies on supplementary paths to decide the mapping between input and output files. Therefore, we
have to compute the paths of the module ObjC trace files in this canonical place to have CAS support for
this newly added ObjC message trace files.
Previously, they were being parsed as top-level code, which would cause
errors because there are no definitions. Introduce a new
GeneratedSourceInfo kind to mark the purpose of these buffers so the
parser can handle them appropriately.
While Span is present, we don't yet have an official way to create Span
instances. Until then, put uses of Span and RawSpan behind an
experimental feature flag (`Span`) that must be set to use these.
Addresses rdar://139308307.
* Make ExportedSourceFile hold any Syntax as the root node
* Move `ExportedSourceFileRequest::evaluate()` to `ParseRequests.cpp`
* Pass the decl context and `GeneatedSourceFileInfo::Kind` to
`swift_ASTGen_parseSourceFile()` to customize the parsing
* Make `ExportedSourceFile` to hold an arbitrary Syntax node
* Move round-trip checking into `ExportedSourceFileRequest::evaluate()`
* Split `parseSourceFileViaASTGen` completely from C++ parsing logic
(in `ParseSourceFileRequest::evaluate()`)
* Remove 'ParserDiagnostics' experimental feature: Now that we have
ParserASTGen mode which includes the swift-syntax parser diagnostics.
This is something that I have wanted to add for a while and have never had the
need to. I need it now to fix a bug in the bots where I am forced to use IRGen
output to test ThunkLowering which causes platform level differences to show up
in the FileCheck output. With this, I can just emit the actual lowered SIL
output and just test it at that level. There are other cases like this where we
are unable to test lowered SIL so we use IRGen creating this brittleness.
Hopefully this stops this problem from showing up in the future.
rdar://138845396
