I have a few projects that use
std::shared_ptr extensively (I can convert to either implementation soon enough, if there is a good answer to this question for one, but not the other). The Boost implementation uses Boost.Assert to avoid returning in the case of encountering an empty (NULL) pointer in
operator-> at runtime; while the libc++ implementation seems to lack any check.
While of course the validity of a
shared_ptr should be checked before use, a large, mixed-paradigm codebase leads me to want to try an exception-throwing variation; as most of the code is relatively exception-aware and will at most fail to a high-level but resumable state, rather than
std::terminate() or segfault.
How should I best customise these accessors while maintaining the robustness of
shared_ptr? It seems that encapsulating
shared_ptr in a
throwing_shared_ptr may be the best option, but I'm wary of breaking the magic. Am I best off copying the Boost source and just changing the
ASSERTs to an appropriate
The actual type name used everywhere for the appropriate
smart_ptr<T> type is a typedef expanded from a macro; i.e.
ForwardDeclarePtr(Class) expands to something like:
class Class; typedef boost::smart_ptr<Class> ClassPtr;
Everything passes, takes, or stores a
ClassPtr - so I can replace the underlying type pretty freely; and I suspect this alleviates the potential slicing/hiding issue.