Compute and propagate the library level (api/spi/ipi) of each module
dependency through the dependency scanner so that the compiler can
correctly enforce private module import diagnostics in CAS mode, where
path-based SPI detection fails because CAS abstracts file paths to
content IDs.
Swift modules:
- Detect library level from the module interface path using
libraryLevelFromPath() during scanning, for both textual (.swiftinterface)
and binary (.swiftmodule) Swift modules.
Clang modules:
- Expose ModuleMapIsPrivate from clang::Module in ModuleDeps via the
dependency scanning infrastructure.
- Set library level for clang modules in bridgeClangModuleDependency()
using ModuleMapIsPrivate (catches module.private.modulemap in any
SDK location) and libraryLevelFromPath() on the module map file
(catches modules under PrivateFrameworks directories).
The library level is:
- Stored in ModuleDependencyInfo and serialized in the module dependency
cache (format version bumped to v8).
- Exposed through the swiftscan C API via a new
swiftscan_module_info_get_library_level() function (API minor version
bumped to 3).
- Emitted in the dependency scanner JSON output as "libraryLevel" for
all module kinds (Swift textual, Swift binary, Clang, and main module).
- Parsed from the explicit module map JSON by ExplicitModuleMapParser
for both Swift (ExplicitSwiftModuleInputInfo) and Clang
(ExplicitClangModuleInputInfo) modules.
- Looked up in ModuleLibraryLevelRequest via
ASTContext::getExplicitModuleLibraryLevel(name, isClang), which
consults the appropriate map (Swift or Clang) based on module kind.
rdar://172693314
Assisted-By: Claude
For the main source module, provide info on which dependencies are directly imported into the user program, explicitly ('import' statement) or implicitly (e.g. stdlib). Thist list does not include Swift overlay dependencies, cross-import dependencies, bridging header dependencies.
Improve swift dependency scanner by validating and selecting dependency
module into scanner. This provides benefits that:
* Build system does not need to schedule interface compilation task if
the candidate module is picked, it can just use the candidate module
directly.
* There is no need for forwarding module in the explicit module build.
Since the build system is coordinating the build, there is no need for
the forwarding module in the module cache to avoid duplicated work,
* This also correctly supports all the module loading modes in the
dependency scanner.
This is achieved by only adding validate and up-to-date binary module as
the candidate module for swift interface module dependency. This allows
caching build to construct the correct dependency in the CAS. If there
is a candidate module for the interface module, dependency scanner will
return a binary module dependency in the dependency graph.
The legacy behavior is mostly preserved with a hidden frontend flag
`-no-scanner-module-validation`, while the scanner output is mostly
interchangeable with new scanner behavior with `prefer-interface` module
loading mode except the candidate module will not be returned.
rdar://123711823
In case import resolution order somehow sometimes matters, it's prudent to process/resolve/locate implicitly-imported modules first.
Resolves rdar://113917657
The code of `ScanDependencies.cpp` was creating invalid JSON since #66031
because in the case of having `extraPcmArgs` and `swiftOverlayDependencies`,
but not `bridgingHeader`, a comma will not be added at the end of
`extraPcmArgs`, creating an invalid JSON file. Additionally that same PR
added a trailing comma at the end of the `swiftOverlayDependencies`, which
valid JSON does not allow, but that bug was removed in #66366.
Both problems are, however, present in the 5.9 branch, because #66936
included #66031, but not #66366.
Besides fixing the problem in `ScanDependencies.cpp` I modified every test
that uses `--scan-dependencies` to pass the produced JSON through
Python's `json.tool` in order to validate proper JSON is produced. In
most cases I was able to pipe the output of the tool into `FileCheck`,
but in some cases the validation is done by itself because the checks
depend on the exact format generated by `--scan-dependencies`. In
a couple of tests I added a call to `FileCheck` that seemed to be
missing.
Without these changes, two tests seems to be generating invalid JSON in
my machine:
- `ScanDependencies/local_cache_consistency.swift` (which outputs `Expecting ',' delimiter: line 525 column 11 (char 22799)`)
- `ScanDependencies/placholder_overlay_deps.swift`
This flag restricts availability of certain symbols to ensure the code cannot use declarations that are explicitly unavalable to extensions. This restriction should be passed down to dependency modules also.
Steven Wu
Artem Chikin
Daniel Rodríguez Troitiño