Add function to handle all macro dependencies kinds in the scanner,
including taking care of the macro definitions in the module interface
for its client to use. The change involves:
* Encode the macro definition inside the binary module
* Resolve macro modules in the dependencies scanners, including those
declared inside the dependency modules.
* Propagate the macro defined from the direct dependencies to track
all the potentially available modules inside a module compilation.
OptionBlocks has missing block record for some of the record types. Add
the missing record types into block info block and order the block
record in the same order as the declaration so it is easier to check for
which kind is missing.
ModuleDecl kept track of all of the source files in the module so that it
could find the source file containing a given location, which relied on
a sorted array all of these source files. SourceManager has its own
similar data structure for a similar query mapping the locations to
buffer IDs.
Replace ModuleDecl's dats structure with a use of the SourceManager's version
with the mapping from buffer IDs to source files.
The generality of the `AvailabilityContext` name made it seem like it
encapsulates more than it does. Really it just augments `VersionRange` with
additional set algebra operations that are useful for availability
computations. The `AvailabilityContext` name should be reserved for something
pulls together more than just a single version.
When '.package.swiftinterface' loading ('-experimental-package-interface-load') is disabled and when '-scanner-module-validation' is disabled, the scanner defaults to locating the non-package textual interface and may specify its adjacent binary module as a valid candidate binary module to use. If said candidate is up-to-date and ends up getting used, and belongs to the same package as the loading Swift source, then the source compilation may attempt to load its package-only dependencies. Since the scanner only parsed the non-package textual interface, those dependencies are not located and specified as inputs to compilation. This change causes the scanner, in such cases, to also lookup package-only dependencies in adjacent binary Swift modules of textual Swift module dependencies, if such dependency belongs to the same package as the source target being scanned.
Resolves rdar://135215789
This assert was correctly catching the fact that `-target-variant` is not being
normalized at the same time as `-target` when building arm64e modules from
swiftinterface. That should be fixed, but at the moment it isn't causing any
concrete harm and the assertion fails when building against the SDKs included
with the latest Xcode 16 betas.
Resolves rdar://133020098.
Some requirement machine work
Rename requirement to Value
Rename more things to Value
Fix integer checking for requirement
some docs and parser changes
Minor fixes
For the purposes of availability calculations, direct use of
`llvm::VersionTuple` and `VersionRange` is discouraged, since these fundamental
version representations are divorced from their context. For example, comparing
an iOS platform version to a visionOS platform version is invalid since the
versioning systems of the two platforms differ. Although visionOS inherits
avialability from iOS, an iOS version must be converted to a visionOS version
prior to comparison. In the future, `AvailabilityContext` can be enriched to
carry the information necessary to verify that its algebraic operations are
being performed on compatible values.
NFC.
An `AvailabilityContext` represents an abstract version range in which
something is available. In the future, these version ranges may not necessarily
always correspond to operating system version ranges.
NFC.
In order for availability checks in iOS apps to be evaluated correctly when
running on macOS, the application binary must call a copy of
`_stdlib_isOSVersionAtLeast_AEIC()` that was emitted into the app, instead of
calling the `_stdlib_isOSVersionAtLeast()` function provided by the standard
library. This is because the call to the underlying compiler-rt function
`__isPlatformVersionAtLeast()` must be given the correct platform identifier
argument; if the call is not emitted into the client, then the macOS platform
identifier is used and the iOS version number will be mistakenly interpreted as
a macOS version number at runtime.
The `_stdlib_isOSVersionAtLeast()` function in the standard library is marked
`@_transparent` on iOS so that its call to `_stdlib_isOSVersionAtLeast_AEIC()`
is always inlined into the client. This works for the code generated by normal
`if #available` checks, but for the `@backDeployed` function thunks, the calls
to `_stdlib_isOSVersionAtLeast()` were not being inlined and that was causing
calls to `@backDeployed` functions to crash in iOS apps running on macOS since
their availability checks were being misevaluated.
The SIL optimizer has a heuristic which inhibits mandatory inlining in
functions that are classified as thunks, in order to save code size. This
heuristic needs to be relaxed in `@backDeployed` thunks, so that mandatory
inlining of `_stdlib_isOSVersionAtLeast()` can behave as expected. The change
should be safe since the only `@_transparent` function a `@backDeployed` thunk
is ever expected to call is `_stdlib_isOSVersionAtLeast()`.
Resolves rdar://134793410.
Conflicts:
- `include/swift/Localization/LocalizationFormat.h`
- `lib/ClangImporter/SwiftLookupTable.cpp`
- `lib/ClangImporter/SwiftLookupTable.h`
- `lib/Serialization/ModuleFormat.h`
- `lib/Serialization/Serialization.cpp`
All from the hash changes being added to main. Took main except for the
lookup table minor version, which needs to be bumped still because of
other changes.
