Plus tweak `DefaultDefinitionTypeRequest` caching to support querying the
cached type when dumping. This fixes a crash where type computation is
triggered in the dumper before import resolution in `-dump-parse` mode.
...instead of adding them to the iterable context lest they be re-parsed using
the legacy parser and later re-added through `IterableDeclContext::loadAllMembers`.
A thrown error is stored as `any Error` which does not conform to
`CustomStringConvertible`. When we perform the conversion via the
`String(describing:)` initialiser, for some reason the runtime does not
find the conformance and the error is not translated properly.
Explicitly casting to `PluginError` resolves the missing conformance and
fixes a test failure.
We cannot depend on Swift's unsafe pointers using `malloc` under the
hood, so don't use `free` on them. Instead, expose entry points from
Swift to C++ to free any Swift-allocated data structures that need to
be deallocated from C++.
These allow multi-statement `if`/`switch` expression
branches that can produce a value at the end by
saying `then <expr>`. This is gated behind
`-enable-experimental-feature ThenStatements`
pending evolution discussion.
stated in the original source.
If an extension macro can introduce protocol conformances, macro expansion
will check which of those protocols already have a stated conformance in the
original source. The protocols that don't will be passed as arguments to
extension macro expansion, indicating to the macro that it should only add
conformances to those protocols.
* Move collapse(expansions:for:attachedTo:) to SwiftSyntaxMacroExpansion
* SwiftSyntaxMacroExpansion.expandAttachedMacro() now perform collapsing
* SwiftSyntaxMacroExpansion.expandAttachedMacroWithoutCollapsing()
to keep old behavior
* IPC request 'getCapability' now sends the host protocol version
* Unified IPC response 'macroExpansionResult' that returns single string
for both 'expandFreestandingMacro' and 'expandAttachedMacro'
* Compiler accepts old 'expandFreestandingMacroResult' and
'expandAttachedMacroResult' to keep compatibility
* Plugins check the compiler's protcol version to see if it suppports
'macroExpansionResult', and fall back to old behavior if necessary
The compiler knows (from a macro declaration) what freestanding macro
role a macro implementation is expected to implement. Pass that through
to the macro expansion code itself, rather than guessing based on the
protocol conformances of the implementation type. We already use this
approach with attached macros, so this is more of the same.
Eliminates a crash and improves diagnostics when the freestanding macro
role and its implementation are out of sync, fixing rdar://110418969.
