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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?

    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
new[] --> delete[] and new --> delete. –  hmjd Dec 12 '12 at 17:11
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
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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
      : bar_(new int)
      , bar2_(new int[20])

      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
     : 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
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