SwiftVerifyEmittedModuleInterface job is configured to be built within
the SubInvocation and it needs to inherit the caching replay prefix map
in order to load macro plugin library correctly.
rdar://158692095
When building a module interface for the -typecheck-module-from-interface or
-compile-module-from-interface actions, inherit and honor compiler debugging
options and emit debugging output at the end of the interface build.
The definitions of how version numbers were extracted from target
triples split between the minimum platform version and for determining
the minimum inlining version.
This resulted in inlinable and transparent functions not being imported
correctly on non-Apple platforms where the version number is retained as
part of the target triple.
Specifically, `_checkExpectedExecutor` was found in the module, but
didn't have the appropriate availability version assigned, resulting in
it failing to import and the compiler silently omitting the check in
SILGen when compiling for FreeBSD.
This patch refactors the implementation of `getMinPlatformVersion` into
a separate function that is used in both places so that they cannot get
out of sync again.
Note: This changes how Windows is handled. getMinPlatformVersion
returned an empty version number for Windows, while the availability
implementation returned the OS version number. This makes both
consistently return the OS version number.
It is expected to rebuild modules from swiftinterface when the C++
interop is enabled in clients. The swiftmodule produced is different.
Make sure the rebuilt module is kept under a distinct cache key to avoid
reusing previously compiled modules in an incompatible mode.
Set an upper bound on the number of chained lookups we attempt to
avoid spinning while trying to recursively apply the same dynamic
member lookup to itself.
rdar://157288911
Given an explicitly-nonisolated type such as
nonisolated struct S { }
all extensions of S were also being treated as nonisolated. This meant
that being implicitly nonisolated (i.e., when you're using nonisolated
default isolation) was different from explicitly-writing nonisolated,
which is unfortunate and confusing. Align the rules, such that an
extension of S will get default isolation:
extension S {
func f() { } // @MainActor if we're in main actor default isolation
}
Controlled from Swift with '-version-independent-apinotes', which, for the underlying Clang invocation enables '-fswift-version-independent-apinotes', results in PCMs which aggregate all versioned APINotes wrapped in a 'SwiftVersionedAttr', with the intent to have the client pick and apply only those that match its current Swift version, discarding the rest.
This change introduces the configuration flags for this mode as well as the corresponding logic at the beginning of `importDeclImpl` to canonicalize versioned attributes, i.e. select the appropriate attributes for the current target and discard the rest.
Add a new option `-gen-reproducer` that when swift caching is used,
create a standalone reproducer that can be used to reproduce the
`swift-frontend` invocation.
Previously this flag was only used to pass explicit dependencies to compilation tasks. This change adds support for the dependency scanner to also consider these inputs when resolving dependencies.
Resolves https://github.com/swiftlang/swift-driver/issues/1951
We sometimes don't have the information in the modulemaps whether a
module requires ObjC or not. This info is useful for reverse interop.
This PR introduces a frontend flag to have a comma separated list of
modules that we should import as if they had "requires ObjC" in their
modulemaps.
Since LayoutPrespecialization has been enabled by default in all compiler
invocations for quite some time, it doesn't make sense for it to be treated as
experimental feature. Make it a baseline feature and remove all the
checks for it from the compiler.
When importing custom availability domains with dynamic predicates from Clang
modules, synthesize predicate functions for `if #available` queries and call
them when generating SIL.
Resolves rdar://138441312.
Temporarily disable replaying optimization remarks when cache hit.
Optimization remarks file are not setup to be cached because:
* the write of such files are not going through output backend
* when optimization remarks files are requested, it produces files that
are not intended to be produced in SupplementoryOutputs, which
confuses compiler when storing and loading compilation results, and
causes cache misses all the time when optimization remark file is
reuqested.
Disable optimization remarks for cache replay so it is currently only
produced when compiler actually did the compile locally.
It is technically possible for different threads trying to write output
files at the same time, e.g. multi-threaded WMO. It can cause a race
condition to update the output status in the CAS output backend. Use a
lock to protect the update and finalization of CAS entries.
Most of the logic for C++ foreign reference types can be applied to C types as well. Swift had a compiler flag `-Xfrontend -experimental-c-foreign-reference-types` for awhile now which enables foreign reference types without having to enable C++ interop. This change makes it the default behavior.
Since we don't expect anyone to pass `experimental-c-foreign-reference-types` currently, this also removes the frontend flag.
rdar://150308819
Move per-query state out of ScanningService. There is still a check to
make sure the CASOptions are matching between queries because of the
requirement on clang scanner. Otherwise, the scanning service should
contain no per-query information anymore.
Resolves: https://github.com/swiftlang/swift/issues/82490
