Calling `getInnermostDeclContext()->getParentSourceFile()` on a macro-produced decl does not seem to be a reliable way to obtain the macro expansion source file, because `PatternBindingDecl` is not a `DeclContext` and `getInnermostDeclContext()` falls back outside the macro expansion file. This patch switches to using `getSourceFileContainingLocation` when possible.
Resolves rdar://109376568.
Peer macro produce declarations that are semantically alongside the
declaration to which the macro is attached. However, the source
location used for constructing the scope tree was based on the
attribute itself, which meant it was inside the scope of the
declaration to which the macro was attached. This lead to incorrect
unqualified name lookup; in the example that's now a test case, this
meant that the `Self` of the protocol to which the macro was attached
was visible from within the peer declaration. Hilarity (in the form of
a type checker crash) ensued.
Fix the location used for constructing the scope tree of peer macros to
be right after the attached declaration. Fixes rdar://107228586.
The macro name resolution in the source lookup cache was only looking at
macros in the current module, meaning that any names introduced by peer
or declaration macros declared in one module but used in another would
not be found by name lookup.
Switch the source lookup cache over to using the same
`forEachPotentialResolvedMacro` API that is used by lookup within
types, so we have consistent name-lookup-level macro resolution in both
places.
... except that would be horribly cyclic, of course, so introduce name
lookup flags to ignore top-level declarations introduced by macro
expansions. This is semantically correct because macro expansions are
not allowed to introduce new macros anyway, because that would have
been a terrible idea.
Fixes rdar://107321469. Peer and declaration macros at module scope
should work a whole lot better now.
