De-duplicate TypeCheckingFlags, TypeChecker's Options, and the TypeChecker-Oriented FrontendOptions into a dedicated TypeCheckerOptions type. This moves a bunch of configuration state out of the type checker and into the ASTContext where it belongs.
- Use `performParseAndResolveImportsOnly()` to invoke the frontend
- Do `bindExtensions()` in `ide::typeCheckContextUntil()`
- Typecheck preceding `TopLevelCodeDecl`s only if the compleiton is in
a `TopLevelCodeDecl`
- Other related tweaks
rdar://problem/56636747
Educational notes are small pieces of documentation which explain a concept
relevant to some diagnostic message. If -enable-descriptive-diagnostics is
passed, they will be printed after a diagnostic message if available.
Educational notes can be found at /usr/share/doc/diagnostics in a
toolchain, and are associated with specific compiler diagnostics in
EducationalNotes.def.
Previously delayed parsing was performed by AST walker
'ParseDelayedFunctionBodies' by finding "delayed" function decl from the AST
of the whole module. This is not necessary. Optimize it by remembering the
"delayed" function decl in 'PersistentParserState'.
NOTE: 'SourceLoader' stopped using this delayed parsing mechanism in
d8b745db77
rdar://problem/56819166
This flag will feature-gate work on producing more descriptive diagnostic messages.
It will remain a hidden frontend option until these improvements are ready to ship.
✔ More informative error messages in case of crashes.
✔ Handling and documenting different cases.
✔ Test cases for different cases.
✔ Make SDKDependencies.swift pass again.
We generate .swiftsourceinfo for stdlib in the build directory because ABI checker
could issue diagnostics to the stdlib source. However, this may also change other
diagnostic tests. Both Brent and Jordan have raised concern about this. After
adding this flag, other diagnostic tests could ignore .swiftsourceinfo files even
though when they are present so our tests will reflect what most users experience
when sources for stdlib are unavailable.
try to invoke a std::unique_ptr<>'s copy constructor, which is deleted.
Either move the unique_ptr or pass along a nullptr. This should repair
the Windows build.
This directory should be excluded during installation since the content is only
used for local development. swiftsourceinfo file is currently emitted to this directory.
After setting up the .swiftsourceinfo file, this patch starts to actually serialize
and de-serialize source locations for declaration. The binary format of .swiftsourceinfo
currently contains these three records:
BasicDeclLocs: a hash table mapping from a USR ID to a list of basic source locations. The USR id
could be retrieved from the following DeclUSRs record using an actual decl USR. The basic source locations
include a file ID and the results from Decl::getLoc(), ValueDecl::getNameLoc(), Decl::getStartLoc() and Decl::getEndLoc().
The file ID could be used to retrieve the actual file name from the following SourceFilePaths record.
Each location is encoded as a line:column pair.
DeclUSRS: a hash table mapping from USR to a USR ID used by location records.
SourceFilePaths: a hash table mapping from a file ID to actual file name.
BasicDeclLocs should be sufficient for most diagnostic cases. If additional source locations
are needed, we could always add new source location records without breaking the backward compatibility.
When de-serializing the source location from a module-imported decl, we calculate its USR, retrieve the USR ID
from the DeclUSRS record, and use the USR ID to look up the basic location list in the BasicDeclLocs record.
For more details about .swiftsourceinfo file: https://forums.swift.org/t/proposal-emitting-source-information-file-during-compilation
- No need to hash input values first
- Pass many values to a single hash_combine to save on intermediates
- Use hash_combine_range instead of a loop of hash_combines
No functionality change.
This flag, currently staged in as `-experimental-skip-non-inlinable-function-bodies`, will cause the typechecker to skip typechecking bodies of functions that will not be serialized in the resulting `.swiftmodule`. This patch also includes a SIL verifier that ensures that we don’t accidentally include a body that we should have skipped.
There is still some work left to make sure the emitted .swiftmodule is exactly the same as what’s emitted without the flag, which is what’s causing the benchmark noise above. I’ll be committing follow-up patches to address those, but for now I’m going to land the implementation behind a flag.
DelayedParsingCallbacks only had one implementation, for code
completion, which is only used to determine which bodies to skip and
which to delay. Inline that logic into the parser's delay logic and
remove DelayedParsingCallbacks entirely.
Use the delayed parsing of function bodies for source imports, and
switch source imports over to lazy type checking. There's no point in
doing a full type check for them.
