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I have a resource_manager class which maintains a std::vector<boost::shared_ptr<resource> > internally. resource_manager is a friend class of resource. I want resources to only be created/deleted by resource_manager, so I made its constructors private (which works ok).

However, if I make the destructor private, the code doesn't compile because the destructor is called by boost::shared_ptr, which is not a friend of resource. I am thinking of enforcing the "do not delete by clients" rule by only returning only const resource* from the resource_manager, but somehow I am not satisfied with the security this method provides (what if a client somehow happens across a pointer to non-const?)

Apart from the obvious solution of not using shared_ptr, do you have any workaround / better solution to my problem? Thanks!

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" client somehow happens across a pointer to non-const" the only way they could do that is if they cast using const_cast. From a "security" perspective there is no difference between raw pointers and shared_ptr, the difference lies in life-time management, of which I am unsure how you would handle without shared_ptr. –  ronag Nov 20 '11 at 15:31
4  
A const resource* does not mean that you can't delete it. –  UncleBens Nov 20 '11 at 15:36
    
@UncleBens: It doesn't? I thought the compiler should not allow you to call a non-const function on a const! Am I mistaken? Or doesn't this rule apply to the destructor? –  Dan Nestor Nov 20 '11 at 18:58
1  
The rule doesn't apply to destructors, because otherwise you couldn't destruct objects that are const. –  MSalters Nov 21 '11 at 8:20

2 Answers 2

up vote 7 down vote accepted

You can pass a custom deleter to the shared pointer. So just create a deleter functor or function (up to you) which in turn is a friend of your class:

class Secret
{
  ~Secret() { }
  friend class SecretDeleter;
  friend void SecretDelFunc(Secret *);
};

class SecretDeleter
{
public:
  void operator()(Secret * p) { delete p; }
};

void SecretDelFunc(Secret * p) { delete p; }

std::shared_ptr<Secret> sp1(new Secret, SecretDeleter());
std::shared_ptr<Secret> sp2(new Secret, SecretDelFunc);
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Why are you always faster than me with the same idea? Stop that! :( –  Xeo Nov 20 '11 at 15:50
    
@Xeo: Better pick a different slice of the cake - I have my eyes firmly on shared_ptr! ;-) –  Kerrek SB Nov 20 '11 at 15:52
1  
Btw, you should instantiate the SecretDeleter. –  Xeo Nov 20 '11 at 15:53
    
@Xeo: Done. I guess a free function would even be easier than a functor class. I'll add that too. (Actually, in C++11 there's an arcane third option of making a special allocator that's a friend and using std::allocate_shared.) –  Kerrek SB Nov 20 '11 at 15:55
    
Thanks so much! I had no idea you can do this. –  Dan Nestor Nov 20 '11 at 18:59

Perhaps declare shared_ptr<resource> as a friend? shared_ptr doesn't call the constructor, and should only destruct if your resource manager releases the pointer before all clients have destroyed their shared_ptrs. This won't allow clients to break the protection, but will allow clients to keep a resource alive against the resource_manager's "will."

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