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.

I would like to ask a couple of quick questions about the proper destruction of int pointers and vector pointers. First, I have seen people ask in the past about these type of problems, and almost always there are several responses about how using vector pointers , pointers to objects ,etc in C++ is not good standard c++ coding practice, and that you should instantiate a copy of the object. That may be true, but you do not always have control of paradigms that have been layed before your arrival. The paradigm I am required to work in requires initializing pointers to almost everything. A very Java like approach to C++. One of the main reasons we do this is our data sets are so large , stack allocations would be subject to overflows.

My questions:

If I have a pointer to a int32_t array, what is the proper way to destroy it in the destructor?

Note: Our practice is to set any pointer to NULL in the constructor.

I initialize it as a member variable. 
int32_t *myArray_;

When I use it in a method, I would:
this->myArray = new int32_t[50];

To delete it in the method I would call delete on the array:
delete [] this->myArray;

What is the proper call in the destructor?
~MyDestructor(){

    delete this->myArray_;
    or delete [] this->myArray_;

}

I have the same question about vector pointers:

I initialize it as a member variable. 
std::vector<MyObject*> *myVector_;

When I use it in a method, I would:
this->myVector_ = new std::vector<MyObject*>();


//pushback some objects

To delete the vector in the method I would iterate the vector and delete its objects, then    delete the vector;

 for(std::vector<MyObject*>::iterator itr = this->myVector_->begin(); 
 its != this->myVector->end(); ++ itr){

      delete (*itr);

}

delete this->myVector_;


What would be the proper way to clean it up in the destructor?
would I just delete the vector?

delete this->myVector;

or do I need to iterate the entire vector again?

Thanks in advance for any advice.

share|improve this question
3  
new[] --> delete[] and new --> delete. –  hmjd Dec 12 '12 at 17:11
5  
Why would you have a vector<>*? std::vector<> is not going to put large allocations on the stack (internally it allocates objects from the heap), so there is generally no good reason to dynamically allocate std::vectors<>. –  Chad Dec 12 '12 at 17:12
    
@Chad There are valid reasons to use vector pointers; One would be if an API already had factories that hand you a vector, but you are responsible to destroy it. –  Miek Dec 12 '12 at 17:17
    
The code does not have a "pointer to a[n] int32_t array". It has a pointer to an int32_t. –  Pete Becker Dec 12 '12 at 17:17
    
APIs that force memory management onto their users are evil. –  Chad Dec 12 '12 at 17:20
show 1 more comment

1 Answer

up vote 7 down vote accepted

Anything allocated with new should be deallocated with delete.

int* p = new int;
delete p;

Anything allocated with new [] should be deallocated with delete [].

int* p = new int[10];
delete [] p;

Anything dynamically allocated and stored in a vector, needs to be manually deallocated:

std::vector<int*> v;
v.push_back(new int(1));
v.push_back(new int(2));

for(std::vector<int*>::iterator i = v.begin(), e = v.end(); i != e; ++i)
   delete (*i);

If, for some strange reason, you feel it is appropriate to dynamically allocate a vector, the same rules apply.

std::vector<int*>* v = new std::vector<int*>;
v->push_back(new int(1));
v->push_back(new int(2));

for(std::vector<int*>::iterator i = v->begin(), e = v->end(); i != v; ++i)
   delete (*i);

delete v;

But, I would suggest that the reasons to dynamically allocate a std::vector are few and far between.

In C++11, the best way to do this, is with std::unique_ptr:

std::unique_ptr<int> p(new int);
// std::unique_ptr handles clean up for you


std::unique_ptr<int[]> p(new int[10]);
// std::unique_ptr handles clean up for you for arrays too!

If you have a member variable of a class, the same rules apply:

class Foo
{
   Foo()
      : bar_(new int)
      , bar2_(new int[20])
   {
   }

   ~Foo()
   {
      delete [] bar2_;
      delete bar_;
   }

   int* bar_;
   int* bar2_;
};

But even then, it makes more sense to have them as std::unique_ptr, you can even treat them as raw pointers in interfaces when required:

class Foo
{
   Foo()
     : bar_(new int)
     , bar2_(new int[20])
   {
   }

   int* get_bar()
   {
      return bar_.get();
   }

   int* get_bar2()
   {
      return bar2_.get();
   }

   std::unique_ptr<int> bar_;
   std::unique_ptr<int[]> bar2_;
};
share|improve this answer
    
The rule regarding delete/delete[] is not always right. Consider typedef int mytype[42]; int* x = new mytype;. Now you need to delete[] x; even though you used new and not new[]. –  etarion Dec 12 '12 at 17:32
    
Thanks Chad. I really appreciate that. So, in the example on the int32_t*; In my method I initialize it to myArray = new int32_t[50]. In the method, I would delete it using delete[] myArray_, but in the destructor, I would use delete myArray_ because it is no longer defined as new int32_[50] ? –  Miek Dec 12 '12 at 17:41
    
No, if you initialize it at with new[], use delete[], even if its in another (later) method. I've updated my answer with a few more details. –  Chad Dec 12 '12 at 17:51
    
Why the downvote, downvoter? –  Chad Dec 12 '12 at 18:18
    
@Chad: because you still have the wrong rule "Anything allocated with new should be deallocated with delete" at the top. –  etarion Dec 14 '12 at 0:26
show 4 more comments

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.