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It seems to me that the reset method in the boost scoped_ptr and shared_ptr lead to incorrect order of construction and destruction:

boost::scoped_ptr<Component> component(GetDefaultComponent());
component.reset(new BetterComponent); // 1. Creation of the new object
                                      // 2. Destruction of the old object

This is the wrong order IMO.

It is possible to first call the reset method without arguments and then set the new pointer. However that seems like a workaround to me. (And it being a "workaround" implies that there is something wrong.)

I am convinced that the boost people are very smart. So there must have been a rationale for the current approach.

Does anyone know more?

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"This is the wrong order IMO." Why is this your opinion? –  GManNickG Jun 11 '11 at 22:27
    
Because the overlap in existance can cause problems at application level code. Especially if each object performs some form of registration/unregisration on creation/destruction. I have acutally spend time debugging issues like this. The workaround eventually being calling reset() before reset(new X). –  StackedCrooked Jun 11 '11 at 22:50
    
However I can see that from the perspective of the boost people the situation is different. Keeping things consistent at the boost level is their responsibility, not application level code. I think this is analoguous with how kernel developers look at the system differently than their users do: blogs.msdn.com/b/oldnewthing/archive/2011/05/12/10163578.aspx –  StackedCrooked Jun 11 '11 at 22:56
    
I use objects that perform registration/unregistration on creation/destruction and completely don't see how this can cause a problem. It won't cause the objects to register as alive when they're not or unregister themselves when they're alive. –  Puppy Jun 11 '11 at 23:51

2 Answers 2

It's absolutely the right order. What happens if new BetterComponent throws? Whoops. This is the same order in which everything happens, it's known as copy-and-swap, and it's the best way to go.

Especially since you didn't actually give any reason that the current order is wrong.

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1  
+1. Exactly. Constructors can throw exceptions, destructors cannot. (Well, should not.) Ergo this is exactly the right order. –  Nemo Jun 11 '11 at 21:51

You can always refactor this in a free function (and do beware of the exception-safety consequences):

template<typename T, typename Pointer, typename... U>
void
emplace_reset(Pointer& pointer, U&&... u)
{
    pointer.reset();
    pointer.reset(new T(std::forward<U>(u)...));
}
// use as: emplace_reset<BetterComponent>(component);

But this is not a workaround because the reset member does just as advertised. What you're asking for is a new functionality.

A possible rationale for not providing the functionality you want (beyond exception-safety/transactional semantics) is that pointers have never, ever created the objects they point to: the constructors assume ownership but that's it. reset is consistent in that manner.

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+1 Leaving the SmarPtr in charge of the actual creation of the object is a good thing IMO. Because then creation, ownership and destruction all belong to one and the same object. I believe this makes the code less error prone and easier to understand. –  StackedCrooked Jun 12 '11 at 0:20
    
@StackedCrooked I favor the use of 'factories' like make_shared. And still, if you were to write a smart pointer that took care of creation, you would still have to carefully separate the reset-like member from the emplace_reset-like member due to the very, very different exception-safety guarantees. –  Luc Danton Jun 12 '11 at 0:25

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