`parser::AllocateObject` and `parser::PointerObject` can be represented
as typed expressions once analyzed. This simplifies the work for parse-tree
consumers that work with typed expressions to deal with allocatable and
pointer objects such as lowering.
This change also makes it easier to add typedExpr in the future by
automatically handling nodes that have this member when possible.
Changes:
- Add a `mutable TypedExpr typedExpr` field to `parser::PointerObject` and `parser::AllocateObject`.
- Add a `parser::HasTypedExpr<T>` helper to better share code relating to typedExpr in the parse tree.
- Add hooks in `semantics::ExprChecker` for AllocateObject and PointerObject nodes, and use
ExprOrVariable on it to analyze and set the tyedExpr field during
expression analysis. This required adding overloads for `AssumedTypeDummy`.
- Update check-nullify.cpp and check-deallocate.cpp to not re-analyze the StructureComponent but to
use the typedExpr field instead.
- Update dump/unparse to use HasTypedExpr and use the typedExpr when there is one.
Differential Revision: https://reviews.llvm.org/D98256
When we have a subprogram that has been determined to contain errors, we do not
perform name resolution on its execution part. In this case, if the subprogram
contains a NULLIFY statement, the parser::Name of a pointer object in a NULLIFY
statement will not have had name resolution performed on it. Thus, its symbol
will not have been set. Later, however, we do semantic checking on the NULLIFY
statement. The code that did this assumed that the parser::Name of the
pointer object was non-null.
I fixed this by just removing the null pointer check for the "symbol" member of
the "parser::Name" of the pointer object when doing semantic checking for
NULLIFY statements. I also added a test that will make the compiler crash
without this change.
Differential Revision: https://reviews.llvm.org/D98184
Jean Perier