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I have abstract class Managee and helper class Wrapper. Pointer to Managee used to construct Wrapper, then Wrapper will take ownership over Managee. I want to ensure that user will always allocate new Managee. Are rvalue-references suitable for this goal?

Wrapper definition:

...
Wrapper(Managee * && tmpptr);
Managee & GetManagee();
...

Wrapper usage:

Wrapper a(new ManageeA()); // ok;
Wrapper b(&a.GetManagee()); // error?    <-----
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1 Answer 1

up vote 3 down vote accepted

Rvalue-references don't help, since &a.GetManagee() is an rvalue. Why not take a std::unique_ptr?

Wrapper(std::unique_ptr<Managee> ptr)
  : member_ptr(std::move(ptr)) {}

Managee& GetManagee();

Usage:

Wrapper a(make_unique<Managee>(/*args*/));

For make_unique, see here.

The best solution, however, wouldn't even allow the user to create a Managee's derived types on the stack - this can be done with a factory function (of course with std::unique_ptr) and making constructors private:

class SomeClass : public Managee{
public:
  static std::unique_ptr<SomeClass> create(){
    return make_unique<SomeClass>();
  }
private:
  SomeClass(){}
  // other ctors
};
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3  
I'd suggest making destructor private and passing custom deleter to unique_ptr inside SomeClass like this [](SomeClass* ptr) { delete ptr; }. I prefer this because, for every possible constructor you need to make corresponding 'create' method. –  zahir Nov 4 '12 at 0:56
    
@zahir: Actually, thinking about it, it's not that great. First, you can just make create a variadic function template and perfect-forward all arguments. The bigger problem with your solution, however, is the following: To control who can destroy a SomeClass, you need to make the deleter a private class-type. If it was public, everyone could use it. But then, a user of your class can't just say unique_ptr<SomeClass, SomeClass::deleter>, so you need to provide a typedef, like typedef unique_ptr<SomeClass, deleter> pointer; inside SomeClass. –  Xeo Nov 4 '12 at 1:41
1  
(continued) With this, your users need to say SomeClass::ptr p(new SomeClass());. However, everyone can still access the deleter by simply doing decltype(p.get_deleter()). So, no matter how you try to make only unique_ptr be able to destroy your class, it's not possible as long as you expose the unique_ptr. A solution might be making the deleter simply public and using the passkey pattern, but meh, since you can, as I said, simply make create a variadic template. –  Xeo Nov 4 '12 at 1:47
    
Oh, I wasn't aware of get_deleter (yes, I am usually lousy reading specs). If I can take that deleter and call, how can a smart pointer keeps track of the owned pointer? –  zahir Nov 4 '12 at 12:04
    
@zahir: As is so often with C++, they trust you to not screw up. :) –  Xeo Nov 4 '12 at 13:02

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