This is a Type subclass that can hold a DeclaratorInfo* when we have type source info coming
out of a declarator that we want to preserve. This is used only at the "border" of Parser/Sema for
passing/getting QualTypes, it does not participate in the type system semantics in any way.
llvm-svn: 79394
we were going to enter into the scope of a class template or class
template partial specialization, rebuild that type so that it can
refer to members of the current instantiation, as in code like
template<typename T>
struct X {
typedef T* pointer;
pointer data();
};
template<typename T>
typename X<T>::pointer X<T>::data() { ... }
Without rebuilding the return type of this out-of-line definition, the
canonical return type of the out-of-line definition (a TypenameType)
will not match the canonical return type of the declaration (the
canonical type of T*).
llvm-svn: 78316
transform, then use the result for template instantiation. The generic
transformation fixes a few issues:
- It copes better with template template parameters and member
templates (when they're implemented).
- The logic used to replace template template parameters with their
arguments is now centralized in TransformDecl, so that it will apply
for other declaration-instantiation steps.
- The error-recovery strategy is normalized now, so that any error
results in a NULL TemplateName.
llvm-svn: 78292
general tree transformation. Also, implement template instantiation
for parameter packs.
In addition, introduce logic to enter the appropriate context for
subexpressions that are not potentially evaluated.
llvm-svn: 78114
transformation template (TreeTransform) that handles the
transformation and reconstruction of AST nodes. Template instantiation
for types is a (relatively small) customization of the generic tree
transformation.
llvm-svn: 78071
Chris Lattner