Fix the problem that when the only module can be found is an
invalid/out-of-date swift binary module, canImport and import statement
can have different view for if the module can be imported or not.
Now canImport will evaluate to false if the only module can be found for
name is an invalid swiftmodule, with a warning with the path to the
module so users will not be surprised by such behavior.
rdar://128876895
Add support for serialized diagnostics, parseable output, and other
kinds of output from diagnostics engine to the libSwiftScan
replayCompilation API.
rdar://129015959
We cannot always rely on being able to do so only as an overlay query upon loading 'requires cplusplus' modulemap modules. The 'requires' statement only applies to submodules, and we may not be able to query language feature modulemap attributes in dependency scanning context.
Add a fast path to create swift CompilerInstance when it is only used to
replay output when there is a cache hit. The normal `setup` function is
very expensive to call, especially in cache mode to setup inputs, and it
needs to be called once per input file from libSwiftScan API due to the
current caching granularity.
The fast path will only construct the part that is needed for output
replay, including the CAS, the output backend and caching diagnostic
processor.
rdar://127062609
This change introduces a new compilation target platform to the Swift compiler - visionOS.
- Changes to the compiler build infrastrucuture to support building compiler-adjacent artifacts and test suites for the new target.
- Addition of the new platform kind definition.
- Support for the new platform in language constructs such as compile-time availability annotations or runtime OS version queries.
- Utilities to read out Darwin platform SDK info containing platform mapping data.
- Utilities to support re-mapping availability annotations from iOS to visionOS (e.g. 'updateIntroducedPlatformForFallback', 'updateDeprecatedPlatformForFallback', 'updateObsoletedPlatformForFallback').
- Additional tests exercising platform-specific availability handling and availability re-mapping fallback code-path.
- Changes to existing test suite to accomodate the new platform.
Relying on the corresponding field in the '-explicit-swift-module-map-file' provided by the driver.
Only bridging headers require a module map because that's what aids header include resolution. With lazy module loading today, '.modulemap' parsing which happens when instantiating Clang is responsible for associating headers with modules. Then upon encountering a header include inside the bridging header the compiler knows which module corresponds to said header and is then able to load explicitly-provided PCM for that module. For all other module dependencies, they are only ever queried by-name from Swift, so '.modulemap' parsing is not necessary.
When building a module from its interface, do not diagnose whether or not a
feature is available in production compilers. This is important since older
compilers may be expected to build .swiftinterfaces that were produced by newer
compilers where the feature has been enabled by default.
Resolves rdar://125500318
allow a more standard way to pass experimental features
from build systems. Also moved other flags relevant to
diagnostics from Frontend options to Lang options.
Ref: rdar://124648653
Do not encode cache invariant command-line flags in DWARF since those
flag should not affect code generation or diagnostics. This avoids
generating conflicting cache entry when caching is enabled, and will
make normal incremental builds more likely to hit fast skip codegen
path.
rdar://124222904
In certain cases (e.g. using arm64e interface to build arm64 target),
the target needs to be updated when building swiftinterface. Push the
target overwrite as early as possible to swiftinterface parsing by
providing a preferred target to relevant functions. In such cases, the
wrong target is never observed by other functions to avoid errors like
the sub-invocation was partially setup for the wrong target.
we only check if the loaded module is built from a package interface. This is
not enough as a binary module could just contain exportable decls if built with
experimental-skip-non-exportable-decls, essentially resulting in content equivalent
to interface content. This might be made a default behavior so this PR requires
a module to opt in to allow non-resilient access by a participating client in the
same package.
Since it affects module format, SWIFTMODULE_VERSION_MINOR is updated.
rdar://123651270
ClangImporter’s SwiftLookupTables map Swift names to their corresponding Clang declarations. These tables are built into a module’s clang .pcm file and missing or inaccurate entries can cause name lookup to fail to find an imported declaration.
Swift has always included a helper function that would dump these tables, and swift-ide-test has a command-line switch that would invoke it, but these tools are clumsy to use in many debugging scenarios. Add a frontend flag that dumps the tables at the end of the frontend job, making it a lot easier to get at this information in the context of a specific compilation.
When scanning finds a dependency in the same package, do not load
public/private swiftinterface since they do not have the package level
decl to compile the current module. Always prefer package module (if
enabled), or use binary module, unless it is building a public/private
swiftinterface file in which case the interface file is preferred.
This also does some clean up to sync up the code path between implicit
and explicit module finding path.
rdar://122356964
Swift interfaces currently aren't meant to expose C++ in their API so we should not also bring in this C++-related module dependency which is not found when the ClangImporter is not configured for C++.
We were re-parsing each source file for each top-level diagnostic emitted,
which is... rather inefficient. Cache the parsed source files until
the PrintingDiagnosticConsumer goes away.
The SDK build version is a decent heuristic for expected changes in the
SDK. Any change in SDK, to clang headers in particular, can break
references from cached swiftmodules.
Track the SDK build version as part of the swiftmodule cache hash. This
will ensure we rebuild from swiftinterfaces on SDK updates.
rdar://122655978
A swiftmodule can only be correctly ingested by a compiler
that has a matching state of using or not-using
NoncopyableGenerics.
The reason for this is fundamental: the absence of a Copyable
conformance in the swiftmodule indicates that a type is
noncopyable. Thus, if a compiler with NoncopyableGenerics
reads a swiftmodule that was not compiled with that feature,
it will think every type in that module is noncopyable.
Similarly, if a compiler with NoncopyableGenerics produces a
swiftmodule, there will be Copyable requirements on each
generic parameter that the compiler without the feature will
become confused about.
The solution here is to trigger a module mismatch, so that
the compiler re-generates the swiftmodule file using the
swiftinterface, which has been kept compatible with the compiler
regardless of whether the feature is enabled.
Avoid path encoding difference (for example, real_path vs. path from
symlink) by eliminating the path from cache key. Cache key is now
encoded with the index of the input file from all the input files from
the command-line, reguardless if those inputs will produce output or
not. This is to ensure stable ordering even the batching is different.
Add a new cache computation API that is preferred for using input index
directly. Old API for cache key is deprecated but still updated to
fallback to real_path comparsion if needed.
As a result of swift scan API change, rename the feature in JSON file to
avoid version confusion between swift-driver and libSwiftScan.
rdar://119387650
`-disable-sandbox` to disable sandboxing when invoking subprocess from
from the frontend. Since `sandbox(7)` in macOS doesn't support nested
sandbox, complation used to fail when the parent build process is sandboxed.
Add a new flag to enable package interface loading.
Use the last value of package-name in case of dupes.
Rename PrintInterfaceContentMode as InterfaceMode.
Update diagnostics.
Test package interface loading with various scenarios.
Test duplicate package-name.
It has an extension .package.swiftinterface and contains package decls
as well as SPIs and public/inlinable decls. When a module is loaded
from interface, it now looks up the package-name in the interface
and checks if the importer is in the same package. If so, it uses
that package interface found to load the module. If not, uses the existing
logic to load modules.
Resolves rdar://104617854
Add new APIs libSwiftScan that can be used for cache query and cache
replay. This enables swift-driver or build system to query the cache and
replay the compilation results without invocation swift-frontend for
better scheduling.
Change how cached diagnostics are stored inside the CAS. It used to be
stored as a standalone entry for a frontend invocation in the cache and
now it is switched to be associated with input files, stored together
with other outputs like object files, etc.
This enables cleaner Cache Replay APIs and future cached diagnostics
that can be splitted up by file contribution.
Update swift cache key computation mechanism from one cache key per
output, to one cache key per primary input file (for all outputs that
associated with that input).
The new schema allows fewer cache lookups while still preserving most of
the flexibility for batch mode and incremental mode.
Rename -experimental-serialize-external-decls only to
-experimental-skip-non-exportable-decls in preparation for the flag being used
to influence more than just serialization.
Resolves rdar://116771543
