This reintroduces `Type.h`, having earlier been renamed to `TypeBase.h`,
as a redirection to `TypeBase.h`, and redirects most users to include
the former instead.
This is a preparatory patch for being able to provide inline definitions
for `Type` methods which would otherwise cause a circular dependency
with `Decl{,CXX}.h`.
Doing these operations into their own NFC patch helps the git rename
detection logic work, preserving the history.
This patch makes clang just a little slower to build (~0.17%), just
because it makes more code indirectly include `DeclCXX.h`.
This is a preparatory patch, to be able to provide inline definitions
for `Type` functions which depend on `Decl{,CXX}.h`. As the latter also
depends on `Type.h`, this would not be possible without some
reorganizing.
Splitting this rename into its own patch allows git to track this as a
rename, and preserve all git history, and not force any code
reformatting.
A later NFC patch will reintroduce `Type.h` as redirection to
`TypeBase.h`, rewriting most places back to directly including `Type.h`
instead of `TypeBase.h`, leaving only a handful of places where this is
necessary.
Then yet a later patch will exploit this by making more stuff inline.
We can use *Set::insert_range to collapse:
for (auto Elem : Range)
Set.insert(E);
down to:
Set.insert_range(Range);
In some cases, we can further fold that into the set declaration.
…da call operators.
This doesn't require that they be used in the operator's body, unlike
other ReferencedDecls. This is most obviously different from captured
local variables, which can be captured but will not appear in
ReferencedDecls unless they appear in the operator's body.
This difference simplifies the collection of the captured parameters,
but probably could be eliminated if desirable.
…n/statement.
We don't need these for the same in-tree purposes as the other sets,
i.e. for making sure we model these Decls that are declared outside the
function, but we have an out-of-tree use for these sets that would
benefit from this simple addition and would avoid duplicating so much of
this code.
The patch includes a repro for a case where we were returning a null
`FieldDecl`
when calling `getReferencedDecls()` on the `InitListExpr` for a union.
Also, I noticed while working on this that `RecordInitListHelper` has a
bug
where it doesn't work correctly for empty unions. This patch also
includes a
repro and fix for this bug.
We previously had a hand-rolled recursive traversal here that was
exactly what
`RecursiveASTVistor` does anyway. Using the visitor not only eliminates
the
explicit traversal logic but also allows us to introduce a common
visitor base
class for `getReferencedDecls()` and `ResultObjectVisitor`, ensuring
that the
two are consistent in terms of the nodes they visit. Inconsistency
between these
two has caused crashes in the past when `ResultObjectVisitor` tried to
propagate
result object locations to entities that weren't modeled becasue
`getReferencedDecls()` didn't visit them.
`ConstantExpr` does not appear as a `CFGStmt` in the CFG, so
`StmtToEnvMap::getEnvironment()` was not finding an entry for it in the
map,
causing a crash when we tried to access the iterator resulting from the
map
lookup.
The fix is to make `ignoreCFGOmittedNodes()` ignore `ConstantExpr`, but
in
addition, I'm hardening `StmtToEnvMap::getEnvironment()` to make sure
release
builds don't crash in similar situations in the future.
Moves free functions from DataflowEnvironment.h/cc and
DataflowAnalysisContext.h/cc to RecordOps and a new ASTOps and exposes
them as needed for current use and to expose getReferencedDecls for
out-of-tree use.
Minimal change in functionality, only to modify the return type of
getReferenceDecls to return the collected decls instead of using output
params.
Tested with `ninja check-clang-tooling`.