- Move the definition of 'structured concurrency' to the beginning of
the section.
- Avoid future tense. Fix some mixed future+present tense errors.
- Write bullet points as individual sentences, not as the clauses of one
long sentence.
- Apple Style: Use 'since' only in the sense of 'after'.
- Apple Style: Use 'you' instead of 'one'.
- Apple Style: Close up 'non-' except when ambiguous.
- DevPubs style: Avoid bare 'this' for clarity. Here, 'this guarantee'
tells the reader what 'this' refers to.
- DevPubs style: Avoid 'may' which can be ambiguous between possibility
and permission.
Task-to-thread model doesn't have `ExecutorJob`, so we can't use it;
however, we probably also don't need `_swift_createJobForTestingOnly`
there so just `#if` it out in that case.
rdar://155054460
When the concurrency library's "is current global actor" hook is not
available, assume that we are already executing on the right global
actor. This mimics the behavior of earlier standard libraries when
faced with an isolated conformance, as well as dealing with odd
configurations where the code might not load the concurrency library
yet
At the moment, WebAssembly ends up in this configuration because we
don't run the initialization for the concurrency library. That makes
this also a workaround for issue #82682 / rdar://154762027.
Adding the concrete versions (https://github.com/swiftlang/swift/pull/81892) introduced an ambiguity for concrete vec .<= .zero comparisons; previously the concrete SIMD .<= SIMD operation would win (because we didn't have a concrete overload for SIMD .<= SIMD.Scalar). We can restore the old behavior by marking these disfavored.
The ELF specification says that if a section's type is set to `SHT_NULL`,
_none_ of the other fields are valid, so we shouldn't even be trying to
read the section name.
(We won't crash, because of how all of this code works, but we might
read an incorrect name.)
rdar://154837649
When targeting a platform that predates the introduction of isolated
deinit, make a narrow exception that allows main-actor-isolated deinit
to work through a special, inlineable entrypoint that is
back-deployed. This implementation
1. Calls into the real implementation when available, otherwise
2. Checks if we're on the main thread, destroying immediately when
we are, otherwise
3. Creates a new task on the main actor to handle destruction.
This implementation is less efficient than the implementation in the
runtime, but allows us to back-deploy this functionality as far back
as concurrency goes.
Fixes rdar://151029118.
Musl's `clone()` wrapper returns `EINVAL` if you try to use `CLONE_THREAD`,
which seems a bit wrong (certainly it is in this particular application,
since we *really* don't care whether the thread is a valid C library
thread at this point).
Also properly support ELF images that are built with a base address other
than zero (this typically isn't an issue for dynamically linked programs,
as they will be relocated at runtime anyway, but for statically linked
binaries it's very common to set the base address to a non-zero value).
rdar://154282813
of the macro in the currently laoded macro module
Stdlib macros are shipped with the SDK, so we need to make sure that the
way we invoke the macro matches the version of the macro in the SDK.
This patch skips the `spanAvailability` parameter if it isn't present.
There's no good way to test this, because we will always pick up the
current macro in our llvm-lit test suite, but I've tested it manually.
rdar://152278292
