This currently doesn't check for inherited docs, ie. either the
imported declaration has docs or it doesn't. There's also a few odd
cases with mixed doc types and when each line is prefixed with '*', but
it's good enough for an initial implementation.
Moves UTF8 sanitisation out of ASTPrinter.h and into Unicode.h so that
it can be used here as well.
Resolves rdar://91388603.
This cleans up 90 instances of this warning and reduces the build spew
when building on Linux. This helps identify actual issues when
building which can get lost in the stream of warning messages. It also
helps restore the ability to build the compiler with gcc.
The `compare_lower` API was replaced with `compare_insensitive` in llvm
commit 2e4a2b8430aca6f7aef8100a5ff81ca0328d03f9.
git clang-format ran.
(cherry picked from commit aca2de95ee)
Cursor info for a constructor would previously give the cursor info for
the containing type only. It now also adds cursor info for the
constructor itself in a "secondary_symbols" field.
Refactor `passCursorInfoForDecl` to use a single allocator rather than
keeping track of positions in a buffer and assigning everything at the
end of the function.
Refactor the various available refactoring gathering functions to take a
SmallVectorImpl and to not copy strings where they don't need to.
Resolves rdar://75385556
When generating a module interface, emit `#if` around any declarations
that are tied to specific, named language features. This allows module
interfaces to be processed by older Swift compilers that do not
support these newer features, such as async/await or actors.
The amount of effort required to correctly handle a new kind of
feature varies somewhat drastically based on the feature itself. The
"simple" case is where a particular declaration can only exist if a
feature is available. For example, and `async` declaration is fairly
easy to handle; a `@_marker` protocol's conformances are not.
Fixes rdar://73326633.
Implementation-only imports are unnecessary in generated module interfaces, since they aren't exported to the module's dependencies, and the module's public API cannot refer to symbols imported as implementation-only.
Generated Swift interfaces for modules with overlays, like Foundation or Dispatch, currently contain `import Foundation`/`import Dispatch` statements.
These imports are redundant, and this change removes them.
While the decls being printed for header file generated interfaces were mapped
from the top-level clang decls in that file, the Swift decls they correspond to
may not be top-level. E.g. top-level functions in the header file can be mapped
to property accessors on the Swift side, which were being printed simply as
"get" at the top level.
This updates header interface generation to map each decl to its top-level decl
before printing.
Resolves rdar://problem/63409659
Out handling of clang submodules was handled differently between DocInfo and
InterfaceGen. For InterfaceGen submodules were mapped back to their top-level
clang modules (or their Swift overlay if it had one) before being passed
into printSubmoduleInterface, along with the dot separated name of the submodule.
For DocInfo, they were not, and only the rightmost component of their name was
passed. The call to retrieve the decls from a ModuleDecl doesn't work if the
ModuleDecl wraps a clang submodule, so we were missing these decls.
InterfaceGen for submodules also shouldn't have been mapping the module back to
the overlay of top-level clang module, as that meant we ended up printing
import decls from the Swift overlay in the submodule's interface.
Resolves rdar://problem/57338105
We weren't handling this case, so their generated interfaces / doc info
wouldn't include symbols from the cross-import overlays, and we wouldn't
map the underscored cross-import overlay name back to the declaring
framework's name in cusor-info, completion results or when indexing.
Resolves rdar://problem/62138551
When printing the generated interface of a module, also print the decls from
any underscored cross-import overlays it is the direct, or indirect underlying
module of. Declarations are grouped by overlay, with a descriptive `MARK:`
comment introducing each overlay, and a regular comment above each decl listing
the required bystander modules that must be imported for the decl to be
available.
In addition in each overlay:
- import declarations of any underlying modules are filtered out, since they
are either other underscored cross-import overlays, or the target module they
are being presented as being part of.
- import declarations that are also in the target module are filtered out, since
the overlay is being presented as a conditional part of the target module.
Resolves rdar://problem/59445385
Like the last commit, SourceFile is used a lot by Parse and Sema, but
less so by the ClangImporter and (de)Serialization. Split it out to
cut down on recompilation times when something changes.
This commit does /not/ split the implementation of SourceFile out of
Module.cpp, which is where most of it lives. That might also be a
reasonable change, but the reason I was reluctant to is because a
number of SourceFile members correspond to the entry points in
ModuleDecl. Someone else can pick this up later if they decide it's a
good idea.
No functionality change.
If we see `MyModule.Type`, the parser thinks this is a metatype type.
Escape the name `Type` so the parser can recognize it's a type name.
Fixes [SR-11422](https://bugs.swift.org/browse/SR-11422) rdar://55094784
There was only one remaining usage other than in testing tools.
Note that when a declaration mangling was passed in, the old entry
point would (try to) return the type of the declaration.
The new entry point no longer has this behavior. I changed the
bridging-header-first test to run lldb-moduleimport-test with
-decl-from-mangled instead of -type-from-mangled-old to preserve
the behavior of the test.
Also, I removed test/DebugInfo/DumpTypeFromMangledName.swift
completely. This test only covered a handful of cases, and a bunch
of them were declaration manglings rather than type manglings.
The new tests in test/TypeDecoder/ are much more comprehensive.
* [InterfaceGen] Remove #ifs from default args
This patch removes all #if configs form the bodies of default arguments,
which can contain multiline closures, while preserving the bodies of the
clauses that are active.
This code is generalized and should "just work" for inlinable function
bodies, which will come in a later patch.
* Address review comments
* Fix and test CharSourceRange.overlaps
* Fix CharSourceRange::print to respect half-open ranges
Introduce ExtensionDecl::getExtendedNominal() to provide the nominal
type declaration that the extension declaration extends. Move most
of the existing callers of the callers to getExtendedType() over to
getExtendedNominal(), because they don’t need the full type information.
ExtensionDecl::getExtendedNominal() is itself not very interesting yet,
because it depends on getExtendedType().
We previously shied away from this in order to not /accidentally/
depend on it, but it becomes interesting again with textual
interfaces, which can certainly be read by humans. The cross-file
order is the order of input files, which is at least controllable by
users.
Before conditional conformances, the archetypes in conformance
extensions (i.e. extension Foo: SomeProtocol) were equivalent to those
in the type decl, with the same protocol bounds and so on. The code for
printing "synthesized" members relied on this fact. This commit teaches
that code to deal with archetypes in the conditional conformance
extension when required.
Fixes rdar://problem/36553066 and SR-6930.
"Accessibility" has a different meaning for app developers, so we've
already deliberately excised it from our diagnostics in favor of terms
like "access control" and "access level". Do the same in the compiler
now that we aren't constantly pulling things into the release branch.
This commit changes the 'Accessibility' enum to be named 'AccessLevel'.
Ever since we stopped associating the top-level struct of an imported
NS_ERROR_ENUM with the Clang enum declaration, we've been unable to
print imported NS_ERROR_ENUMs. The module-printing infrastructure
would drop them thinking they aren't imported declarations.
This also affected NS_ERROR_ENUMs that were imported as members of
another type, as well as other types imported as members.
Fixes rdar://problem/32497693.
