Provide ASTWalker with a customization point to specify whether to
check macro arguments (which are type checked but never emitted), the
macro expansion (which is the result of applying the macro and is
actually emitted into the source), or both. Provide answers for the
~115 different ASTWalker visitors throughout the code base.
Fixes rdar://104042945, which concerns checking of effects in
macro arguments---which we shouldn't do.
This lets us consolidate code paths that mostly run in parallel over the
existing InOutTypeRepr/SharedTypeRepr/OwnedTypeRepr family of types. This
patch by itself is NFC but makes it easier to introduce new spellings,
particularly the newly-official `borrowing` and `consuming` modifiers
that were approved in SE-0377.
`getValue` -> `value`
`getValueOr` -> `value_or`
`hasValue` -> `has_value`
`map` -> `transform`
The old API will be deprecated in the rebranch.
To avoid merge conflicts, use the new API already in the main branch.
rdar://102362022
Replace the use of bool and pointer returns for
`walkToXXXPre`/`walkToXXXPost`, and instead use
explicit actions such as `Action::Continue(E)`,
`Action::SkipChildren(E)`, and `Action::Stop()`.
There are also conditional variants, e.g
`Action::SkipChildrenIf`, `Action::VisitChildrenIf`,
and `Action::StopIf`.
There is still more work that can be done here, in
particular:
- SourceEntityWalker still needs to be migrated.
- Some uses of `return false` in pre-visitation
methods can likely now be replaced by
`Action::Stop`.
- We still use bool and pointer returns internally
within the ASTWalker traversal, which could likely
be improved.
But I'm leaving those as future work for now as
this patch is already large enough.
Instead of checking that the stdlib can be loaded in a variety of places, check it when setting up the compiler instance. This required a couple more checks to avoid loading the stdlib in cases where it’s not needed.
To be able to differentiate stdlib loading failures from other setup errors, make `CompilerInstance::setup` return an error message on failure via an inout parameter. Consume that error on the call side, replacing a previous, more generic error message, adding error handling where appropriate or ignoring the error message, depending on the context.
A keypath using dynamic member lookup results in various `KeyPathExpr`
that have components with no location. Ignore these and any other
references that have a missing location.
Resolves rdar://85237365
SemaAnnotator was walking into an autoclosure and then manually running
`passReference` on the unwrapped expression without walking it. Since
its synthesized anyway, skip walking the autoclosure entirely and walk
the unwrapped expression instead.
Fix `swift::ide::isBeingCalled` to look through `IdentityExpr`s and
`swift::ide::getBase` also not unwrapping curry thunks.
Resolves rdar://81312849
Otherwise we set it on all targets/languages in a subdirectory (I forgot if it
propagates up). Regardless, this type of viral stuff is something we want to
move away from since it creates a code that is a "forall" piece of code rather
than a piece of code that only effects a single target.
I also conditionalized the actual definitions being added on the compiled file's
language being C,CXX,OBJC,OBJCXX since as we add Swift sources to the host side
of the compiler, we will not want these flags to propagate to Swift sources.
TypeCheckPattern used to splat the interface type into this, and
different parts of the compiler would check one or the other. There is
now one source of truth: The interface type. The type repr is now just
a signal that the user has written an explicit type annotation on
a parameter. For variables, we will eventually be able to just grab
this information from the parent pattern.
Most of AST, Parse, and Sema deal with FileUnits regularly, but SIL
and IRGen certainly don't. Split FileUnit out into its own header to
cut down on recompilation times when something changes.
No functionality change.
Now that we've moved to C++14, we no longer need the llvm::make_unique
implementation from STLExtras.h. This patch is a mechanical replacement
of (hopefully) all the llvm::make_unique instances in the swift repo.
A number of callers to AbstractFunctionDecl::getBody() were only
extracting the source range of the body... which can be retrieved more
efficiently with getBodySourceRange().
CMake supports the notion of installation components. Right now we have some
custom code for supporting swift components. I think that for installation
purposes, it would be nice to use the CMake component system.
This should be a non-functional change. We should still only be generating
install rules for targets and files in components we want to install, and we
still use the install ninja target to install everything.
Ensure the various entity walkers handle the implicit subscript
reference correctly (usually by ignoring it) and fall through to the
underlying declarations.
rdar://49028895
