On Windows, there are multiple variants of the C runtime that must be
explicitly specified and consistently used from the runtime to the
application. The new `-libc` option allows us to control the linking
phase by correctly embedding the requested library to be linked. It is
made into a required parameter on Windows and will add in the
appropriate flags for the imported C headers as well. This ensures that
the C library is not incorrectly linked.
Otherwise the overlays won't be force-loaded when you import them.
(This feature could possibly be scoped back at this point, but it's
not something that should be changed just by using module interfaces!)
This allows us to mark this flag as DoesNotAffectIncrementalBuild, so
that switching between a tty and non-tty doesn't cause full rebuilds
with swiftpm.
https://bugs.swift.org/browse/SR-7982
I am going to use this to ensure some end-to-end tests that do not inline from
the stdlib will work after flipping the switch and stripping ownership after
serialization.
Leave the old flag in as an alias to the new flag, for transition
purposes. Also go ahead and remove the long-deprecated and unused
`emit-interface-path`.
Part of rdar://49359734
module imports. This is useful when building redistributable static
archives, since any pointers into the CLang module cache won't be
portable.
When using this option the Clang type fallback path in LLDB will be
less useful since DWARF type information from those modules will not
be available unless another object file compiled without the option
imported the same modules.
rdar://problem/48827784
In LLDB expressions, references to private metadata accessors may be
emitted and need to be bound to symbols available in the attached
program, even if these symbols are only supposed to have private
visibility within the program.
Also rdar://problem/48018240
When compiling SwiftOnoneSupport, issue errors for missing functions which are expected in the module.
This ensures ABI compatibility.
rdar://problem/48924409
I also removed the -verify-sil-ownership flag in favor of a disable flag
-disable-sil-ownership-verifier. I used this on only two tests that still need
work to get them to pass with ownership, but whose problems are well understood,
small corner cases. I am going to fix them in follow on commits. I detail them
below:
1. SILOptimizer/definite_init_inout_super_init.swift. This is a test case where
DI is supposed to error. The only problem is that we crash before we error since
the code emitting by SILGen to trigger this error does not pass ownership
invariants. I have spoken with JoeG about this and he suggested that I fix this
earlier in the compiler. Since we do not run the ownership verifier without
asserts enabled, this should not affect compiler users. Given that it has
triggered DI errors previously I think it is safe to disable ownership here.
2. PrintAsObjC/extensions.swift. In this case, the signature generated by type
lowering for one of the thunks here uses an unsafe +0 return value instead of
doing an autorelease return. The ownership checker rightly flags this leak. This
is going to require either an AST level change or a change to TypeLowering. I
think it is safe to turn this off since it is such a corner case that it was
found by a test that has nothing to do with it.
rdar://43398898
I have been meaning to do this change for a minute, but kept on putting it off.
This describes what is actually happening and is a better name for the option.
...and remove the option. This is ~technically~ CLI-breaking because
Swift 5 shipped this as a hidden driver option, but it wouldn't have
/done/ anything in Swift 5, so I think it's okay to remove.
Note that if a parseable interface (.swiftinterface) and a binary
interface (.swiftmodule) are both present, the binary one will still
be preferred. This just /allows/ parseable interfaces to be used.
rdar://problem/36885834
By default, we compile the standard library with
`-enforce-exclusivity=unchecked`. If we don't preserve this argument,
then the standard library compiled from an interface includes
exclusivity enforcement, which pessimizes inlining those functions,
which decreases performance for clients.
Part of rdar://46431767
Windows doesn't know what a shebang is, so it's unable to run tests that
use -driver-use-frontend-path with a script. This allows the script
interpreter to be run as the executable with the script as its first
argument. e.g. --driver-use-frontend-path "python;my-script.py"
The layouts of resilient value types shipped in the Swift 5 standard library
x and overlays will forever be frozen in time for backward deployment to old
Objective-C runtimes. This PR ensures that even if the layouts of these types
evolve in the future, binaries built to run on the old runtime will continue
to lay out class instances in a manner compatible with Swift 5.
Fixes <rdar://problem/45646886>.
This patch allows `-serialize-diagnostics-path` for the interpret mode.
There is one file compiled in such mode, so it makes sense to support
this flag to specify an explicit output path for diagnostics emission.
Resolves: SR-9670
When -enable-anonymous-context-mangled-names is provided, emit mangled
names as part of the metadata of an anonymous context. This will allow
us to match textual mangled names to the metadata.
This is a backward-compatible ABI extension. Part of rdar://problem/38231646/.
Makes it easier to test the caching behavior, and may also be useful
for "prebuilding" swiftinterfaces in the future, or having the Driver
kick off a bunch of separate builds as proper tasks.
<rdar://problem/46548531> Extend @available to support PackageDescription
This introduces a new private availability kind "_PackageDescription" to
allow availability testing by an arbitary version that can be passed
using a new command-line flag "-swiftpm-manifest-version". The semantics
are exactly same as Swift version specific availability. In longer term,
it maybe possible to remove this enhancement once there is
a language-level availability support for 3rd party libraries.
Motivation:
Swift packages are configured using a Package.swift manifest file. The
manifest file uses a library called PackageDescription, which contains
various settings that can be configured for a package. The new additions
in the PackageDescription APIs are gated behind a "tools version" that
every manifest must declare. This means, packages don't automatically
get access to the new APIs. They need to update their declared tools
version in order to use the new API. This is basically similar to the
minimum deployment target version we have for our OSes.
This gating is important for allowing packages to maintain backwards
compatibility. SwiftPM currently checks for API usages at runtime in
order to implement this gating. This works reasonably well but can lead
to a poor experience with features like code-completion and module
interface generation in IDEs and editors (that use sourcekit-lsp) as
SwiftPM has no control over these features.
We've been running doxygen with the autobrief option for a couple of
years now. This makes the \brief markers into our comments
redundant. Since they are a visual distraction and we don't want to
encourage more \brief markers in new code either, this patch removes
them all.
Patch produced by
for i in $(git grep -l '\\brief'); do perl -pi -e 's/\\brief //g' $i & done
In the Darwin toolchain the linker is invoked directly, and compiler_rt
is used if it is found, but in Unix platforms, clang++ is invoked
instead, and the clang driver will invoke the linker. Howerver there was
no way of modifying this clang++ invocation, so there's no way of
providing `--rtlib=` and change the platform default (which is normally
libgcc). The only workaround is doing the work that the Swift driver is
doing "manually".
The change adds a new option (with help hidden, but we can change that)
to allow providing extra arguments to the clang++ invocation. The change
is done in the two places in the Unix and Windows toolchains that I
found the clang driver was being used.
Includes some simple tests.
