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I have a few projects that use boost::shared_ptr or 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* or 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 throw statement?

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.

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up vote 5 down vote accepted

There's really no "magic" in std::shared_ptr<T> that would be removed if you wrapped it inside a custom class that would throw an exception when dereferencing a NULL shared pointer. So I don't see why that approach wouldn't work, as long as your new wrapper-class follows all the semantics of the std::shared_ptr<T> type.

BTW, you could also take a slightly different approach, and that is create a wrapper-class that simply won't allow others to pass NULL pointers to the wrapped std::shared_ptr<T> data-member in the first-place. Basically it would be a class that would enforce the std::make_shared<T> idiom in its constructor. I'm not sure, based on the workings of your code if this is possible, but it's another way to circumvent the problem using a RAII approach rather than throwing exceptions.

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Accepting this answer because it's a bit easier to explain the design, safety, and usage of the encapsulation in comments (classes have shared_ptr members all the time). @KevinBallard is also correct, though. – rvalue Sep 19 '12 at 6:58

Just subclass std::shared_ptr into throwing_shared_ptr, override those two methods, and have them assert and call through to std::shared_ptr's impl. This should work fine as long as you use throwing_shared_ptr everywhere instead of slicing it to a std::shared_ptr.

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Even slicing won't be a catastrophic problem as long as the derived type doesn't add any data members. – Mark Ransom Sep 17 '12 at 2:57
@MarkRansom: Correct, but it will remove the throwing nature. Of course, if your value is typed as std::shared_ptr then I guess you should expect that anyway. – Kevin Ballard Sep 17 '12 at 3:00
@KevinBallard This may actually be the bigger issue than the question; what to do if something expects a plain shared_ptr - there is at least one case of 3rd-party code which does so. I doubt throwing an exception through said library would be worse than std::terminate() or SIGSEGV - but it does merit serious consideration. – rvalue Sep 17 '12 at 4:30
Disregard above, the library code would of course take parameters or store them in the shared_ptr of its own choosing; as mentioned, potentially slicing at the call site, but not changing the semantics of internal code. – rvalue Sep 17 '12 at 4:36

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