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1

I'm not sure if I'm suffering more from a documentation error or a headache, so...

What I want to do is create a shared_ptr that shares ownership with another, but which references a member of the object instead of the whole object. Simple example, starting point...

struct s
{
  int a, b;
};

shared_ptr<s> s1 (new s);  //  pointing to whole object

From en.cppreference.com, constructor (8) of shared_ptr is...

template< class Y >
shared_ptr( const shared_ptr<Y>& r, T *ptr );

The description mentions "Constructs a shared_ptr which shares ownership information with r, but holds an unrelated and unmanaged pointer ptr ... such as in the typical use cases where ptr is a member of the object managed by r".

So... Was T just accidentally missed from the template in that constructor, or am I missing something? In fact, Y looks like it's wrong to me too, so just generally is that constructor described correctly?

What I'm hoping I can do is something like this...

shared_ptr<int> s2 (s1, &(s1.get ()->a));

s2 points to member a (an int), but shares ownership of the whole object with s1.

Is that sane?

share|improve this question
Maybe I'm missing something, but why would you want a shared_ptr to a member var that isn't allocated on the heap? i.e. why not just use a raw pointer for s2? – RC. Nov 13 '12 at 12:13
@RC - to make sure that if the original shared_ptr gets deallocated, the object itself doesn't - ie to make sure that s2 doesn't become a dangling pointer. In a real world example, the scopes of s1 and s2 won't be the same. – Steve314 Nov 13 '12 at 12:16
Yes, it's perfectly sane. Also you don't need a .get(). – atzz Nov 13 '12 at 12:17
Ahhh... I've never used shared_ptr like that. @Steve314, based on your comment, and then checking the documentation that makes sense. Didn't know you could that. Learned my "something new" for today. Thanks! – RC. Nov 13 '12 at 12:21

3 Answers

up vote 9 down vote accepted

The T parameter is a template parameter on the shared_ptr itself, whereas the Y parameter is a template parameter on that particular shared_ptr constructor. Something like this:

template< class T >
class shared_ptr
{
     template< class Y >
     shared_ptr( const shared_ptr<Y>& r, T *ptr );
}

As for the example code you've posted, that looks fine to me.

share|improve this answer
Everyone's right - you win for being a little bit faster. I'm feeling a tad stupid - I obviously haven't been doing much template stuff recently. I completely forgot about member templates. – Steve314 Nov 13 '12 at 12:25
up vote 4 down vote

The documentation is correct. You're forgetting that this is the documentation of a constructor on the class template shared_ptr<T> i.e. the class-qualified declaration of the constructor is:

template<typename T>
template<typename Y>
shared_ptr<T>::shared_ptr(const shared_ptr<Y>& r, T *ptr);

So in your example T is int and Y is s.

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up vote 2 down vote

T is the template parameter of the class, not of the constructor. And this is exactly as it needs to be: A pointer to a member has to have the type of the member and forget/erase (see type-erasure) the type of the containing object (Y, in this case).

The code you posted should work, you can even write it a little simpler as:

shared_ptr<int> s2 (s1, &s1->a);
share|improve this answer
For some reason I'm never sure about the precedence of & - probably because I always add extra parens rather than checking. The get was also deliberate, but I'm not sure the making-things-more-explicit reasoning makes sense. I should really stick with blaming my headache. – Steve314 Nov 13 '12 at 12:22

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