This adds an `appendInterpolation` overload to
`DefaultStringInterpolation` that includes a parameter for providing a
default string when the value to interpolate is `nil`. This allows this
kind of usage:
```swift
let age: Int? = nil
print("Your age is \(age, default: "timeless")")
// Prints "Your age is timeless"
```
The change includes an additional fixit when optional values are
interpolated, with a suggestion to use this `default:` parameter.
With `ARCMigrate` and `arcmt-test` removed from clang in
https://github.com/llvm/llvm-project/pull/119269 and the new code
migration experience under way (see
https://github.com/swiftlang/swift-evolution/pull/2673), these options
are no longer relevant nor known to be in use. They were introduced
long ago to support fix-it application in Xcode.
For now, turn them into a no-op and emit a obsoletion warning.
In expectation, this should never happen. Such a situation means that within the same scanning action, Clang Dependency Scanner has produced two different variants of the same module. This is not supposed to happen, but we are currently hunting down the rare cases where it does, seemingly due to differences in Clang Scanner direct by-name queries and transitive header lookup queries.
Beside cleaning up the source code, the motivation for the translation into Swift is to make it easier to improve the pass for some InlineArray specific optimizations (though I'm not sure, yet if we really need those).
Also, the new implementation doesn't contain the optimize-store-into-temp optimization anymore, because this is covered by redundant load elimination.
The warnings that ClangImporter emits about issues it encounters while
importing declarations from Clang modules should all belong to a diagnostic
group so that users of `-warnings-as-errors` can control their behavior using
the compiler flags introduce with SE-0443. It's especially important that these
diagnostics be controllable since they are often caused by external
dependencies and therefore the developer may not have any control over whether
they are emitted.
The `#ClangDeclarationImport` diagnostic group is intentionally broad so that
developers have a way to control all of these diagnostics with a single
`-Wwarning` flag. I fully expect that we'll introduce finer-grained diagnostic
groups for some of these diagnostics in the future, but those groups should be
hierarchically nested under `#ClangDeclarationImport`, which is supported by
SE-0443.
Resolves rdar://150524204.
This includes changing the feature name so that compilers with the experimental feature don’t accidentally pick up content that only works in the final version.
Resolves rdar://150065196.
This request was looking through to the root conformance, which could
mess with the caching bits. Sink the "is nonisolated conformance" bit
down into ProtocolConformance, and have the request for a non-root
conformance be defined in terms of the request for the root
conformance.
Since we enabled parallel dependency scanning by-default, each individual scan needs a diagnostic consumer that is safe to use across many threads. Deprecate the 'Locking' sub-class, making its behavior the default in the base class.
In Swift 6.1, we introduced `SWIFT_RETURNS_RETAINED` and
`SWIFT_RETURNS_UNRETAINED` annotations for C++ APIs to explicitly
specify the ownership convention of `SWIFT_SHARED_REFERENCE` type return
values.
Currently the Swift compiler emits warnings for unannotated C++ APIs
returning `SWIFT_SHARED_REFERENCE` types. We've received some feedback
that people are finding these warnings useful to get a reminder to
annotate their APIs. While this improves correctness , it also imposes a
high annotation burden on adopters — especially in large C++ codebases.
This patch addresses that burden by introducing two new type-level
annotations:
- `SWIFT_RETURNED_AS_RETAINED_BY_DEFAULT`
- `SWIFT_RETURNED_AS_UNRETAINED_BY_DEFAULT`
These annotations allow developers to specify a default ownership
convention for all C++ APIs returning a given
`SWIFT_SHARED_REFERENCE`-annotated type, unless explicitly overridden at
the API by using `SWIFT_RETURNS_RETAINED` or `SWIFT_RETURNS_UNRETAINED`.
If a C++ class inherits from a base class annotated with
`SWIFT_RETURNED_AS_RETAINED_BY_DEFAULT` or
`SWIFT_RETURNED_AS_UNRETAINED_BY_DEFAULT`, the derived class
automatically inherits the default ownership convention unless it is
explicitly overridden. This strikes a balance between safety/correctness
and usability:
- It avoids the need to annotate every API individually.
- It retains the ability to opt out of the default at the API level when
needed.
- To verify correctness, the user can just remove the
`SWIFT_RETURNED_AS_(UN)RETAINED_BY_DEFAULT` annotation from that type
and they will start seeing the warnings on all the unannotated C++ APIs
returning that `SWIFT_SHARED_REFERENCE` type. They can add
`SWIFT_RETURNS_(UN)RETAINED` annotation at each API in which they want a
different behaviour than the default. Then they can reintroduce the
`SWIFT_RETURNED_AS_(UN)RETAINED_BY_DEFAULT` at the type level to
suppress the warnings on remaining unannotated APIs.
A global default ownership convention (like always return
`unretained`/`unowned`) was considered but it would weaken the
diagnostic signal and remove valuable guardrails that help detect
use-after-free bugs and memory leaks in absence of
`SWIFT_RETURNS_(UN)RETAINED` annotations. In the absence of these
annotations when Swift emits the unannotated API warning, the current
fallback behavior (e.g. relying on heuristics based on API name such as
`"create"`, `"copy"`, `"get"`) is derived from Objective-C interop but
is ill-suited for C++, which has no consistent naming patterns for
ownership semantics.
Several codebases are expected to have project-specific conventions,
such as defaulting to unretained except for factory methods and
constructors. A type-level default seems like the most precise and
scalable mechanism to support such patterns. It integrates cleanly with
existing `SWIFT_SHARED_REFERENCE` usage and provides a per-type opt-in
mechanism without global silencing of ownership diagnostics.
This addition improves ergonomics while preserving the safety benefits
of explicit annotations and diagnostics.
rdar://145453509
If a module has the same `public-module-name` as the module being
generated and its import is exported, merge it into the same generated
interface.
Fix various always-imported modules from being printed while here and
update all the tests that checked for them.
Resolves rdar://137887712.
Importing C++ class templates in symbolic mode has proven to be problematic in interaction with other compiler features, and it isn't used widely. This change removes the feature.
rdar://150528798
Just like `@preconcurrency` for concurrency, this attribute is going
to allow exhaustiveness error downgrades for enums that were retroactively
marked as `@extensible`.
This hash is also used for the dependency scanning hash. In both cases, PCH contents may differ based on whether a certain module they depend on is found in a system or non-system search path. In dependency scanning, systemness should cause a full change of scanning context requiring a from-scratch scan.
Resolves rdar://150334077
The field is only used to store information to be used in finalize stage, in caching builds. When loading scan results from the cache, the entries are finalized already and have the file info encoded in CASIDs already.
Resolves rdar://150307865
Improve diagnostics message for swift caching build by trying to emit
the diagnostics early when there is more context to differentiate the
different kind of problems.
After the improvement, CAS Error should be more closer to when there is
functional problem with the CAS, rather than mixing in other kinds of
problem (like scanning dependency failures) when operating with a CAS.
rdar://145676736
per SE-0431, function conversions from an @isolated(any) function to a synchronous,
non-@isolated(any) function type should not be allowed. this adds a warning during
type checking to enforce this, which will be an error in a future major
language mode.
