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Is the following wrapper class an "OK" way of keeping an intermediate object with std::unique_ptr to access the me member without copying me?

Here is the example

#include <iostream>
#include <memory>

/* myobj from another library */
class myobj {
public:
    std::string me; /* actual member of interest is larger and more 
                       complicated. Don't want to copy of me or myobj */

    /* more members in actual class */

    myobj(std::string i_am) {
        /* more stuff happens in constructor */
        me = i_am;
    }

    ~myobj(){
        std::cout << me << ": Goodbye" << std::endl;
    }
};

/* A function in another library */
void who_is_this(std::string *who){
  std::cout << "This is " << *who << std::endl;
}

/* wrapper which I define */
class myobj_wrapper {
    using obj_ptr = std::unique_ptr<myobj>;
    obj_ptr ptr;

public:
    std::string *who;

    myobj_wrapper(std::string i_am): 
        ptr(new myobj(i_am)), who(&ptr.get()->me) {}

    myobj_wrapper(myobj &the_obj): who(&the_obj.me) { }
};

int main()
{
    {
        myobj bob("Bob");
        who_is_this(myobj_wrapper(bob).who); 
    }

    who_is_this(myobj_wrapper("Alice").who);

    return 0;
}

The resulting program yields

This is Bob
Bob: Goodbye
This is Alice
Alice: Goodbye

I define myobj_wrapper for multiple object to get the who pointer. What I am unsure of whether the object of interest (std::string in the above) will get destroyed before it is evaluated in the who_is_this function. It does not seem to from the above but should I expect this? Are there pitfalls with the above solution?

  • The code looks OK to me. Though I must admit I don't quite grasp the point of the exercise. I don't understand the problem this is supposedly a solution to. – Igor Tandetnik Nov 26 '17 at 0:46
  • What do you mean by rvalue destructor? – Dean Seo Nov 30 '17 at 10:01
  • I mean the dynamically allocated object at who_is_this(myobj_wrapper("Alice").who); – Benjamin Christoffersen Nov 30 '17 at 13:04
1

I am not sure, but here is my point of view:

who_is_this(myobj_wrapper("Alice").who);

This will create a wrapper object, that will take the string literal as its argument. Then, a myobj instance will be dynamically created, and handed over to a unique pointer. Via that instance, we get its data (the string), and make a traditional pointer from the wrapper class point to it. So, now who is pointing to me, i.e. Alice.

We pass who (which is a pointer) to:

void who_is_this(std::string *who)

which means that the function's parameter who is not a copy, but points to the original data.

So now the whole question is when the wrapper object will go out of scope (thus its data member (the unique pointer) will go out of scope too, meaning that the myobj instance which had been dynamically created will be garbage collected, which in turns means that me will go out of scope too, and so will who.

The wrapper object will go out of scope, after who_is_this() gets executed, which means that your code is OK.

  • "The wrapper object will go out of scope, after who_is_this() gets executed, which means that your code is OK" Cool, thanks for the answer! – Benjamin Christoffersen Nov 30 '17 at 13:04
  • 1
    Thx. I figured someone might add a comment about a pitfall. I guess there is not any. The concrete example is here where I use the Armadillo library. See the map_res class and e.g., the lp_map methods. Sometimes a new arma::vec is needed while at other times there is no need to create a new object. (Disregard the comment above the class -- it is wrong). – Benjamin Christoffersen Nov 30 '17 at 19:39

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