Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Consider for example a template container class that holds a buffer that is allocated on the heap:

T *_buffer = new T[SIZE]

Just a simple pointer to c array of type T.

This class is templated. However I am having issues with performing a deep copy of an object into my buffer.

In my unit test, i set up a test class:

class test
{
public:
    int* _ptrInt;
    test() {_ptrInt = nullptr;}
    test(const int i)
    {
        _ptrInt = new int;
        *_ptrInt = i;
    }
    test(const test& other)
    {
        _ptrInt = new int;
        *_ptrInt = *other._ptrInt;
    }
    ~test()
    {
        delete _ptrInt;
    }
};

on my container I call set, passing a temporary as the data:

container.set(0, test(5));

// destructor called on copy immediately after statement, invalidating deep copy in buffer
void set (const int& index, const T& data)  
{ 
    int i = realign(index);
    T copy = data;
    _buffer[i==SIZE?i-1:i] = copy;   // ternary statement and index work
}

however, _buffer takes copy as a reference, the moment copy goes out of scope, it deletes the same pointer that is held in the _buffer. I am trying to force the _buffer to assign by value. But I have had no luck.

  • memcpy still copies the pointers to point to the same address
  • test copy constructor is correctly called
  • move semantics would require class to have move constructor
  • std::vector somehow implements this to copy correctly, whether its T/T*, heap/stack, with/without move constructor, so I know it must be possible

Is there a way I can assign by value to the _buffer on the heap?

share|improve this question

1 Answer 1

up vote 3 down vote accepted

You are "assigning by value." However, your test class doesn't implement the assignment operator operator=, so the assignment invokes the compiler-generated default assignment operator which simply copies member-by-member. Hence the problems with shallow assignment.

Also, your copy constructor will explode if other._ptrInt is nullptr.

share|improve this answer
    
you are right. the default assignment operator was shallow copying which was giving incorrect copy to container. However, this same class above worked in std::vector, but im sure how they implemented deep copying there. –  David Jul 23 '13 at 0:08
    
@David std::vector does some tricky stuff to avoid default-initializing its buffer, and actually copy-initializes elements inplace from the values you insert. The test could have been successful if the vector never had to reallocate its buffer and copy live elements. –  Casey Jul 23 '13 at 0:15

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.