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These questions are relatively straight forward. When using vectors, should I use the new operator when pushing back a new element? And which release method should I call? Here's what I mean:

// Release method: 1.
void ReleaseMethodOne( vector< int * > &ThisVector )
    // Clear out the vector.
    ThisVector.clear( );

// Release method: 2.
void ReleaseMethodTwo( vector< int * > &ThisVector )
    // Clear out the vector.
    for( unsigned uIndex( 0 ); uIndex < ThisVector.size( ); uIndex++ )
        delete ThisVector.at( uIndex );

int main( )
    vector< int * > Vector;

    // Add a new element.
    Vector.push_back( new int( 2 ) );

    // More code...

    // Free the elements before exiting. Which method should I call here?
    ReleaseMethodOne( Vector ); // This one?
    ReleaseMethodTwo( Vector ); // Or this one?

    return 0;

I've started learning vectors not long ago and the book I was learning from said that the vector's clear( ) method called each of the elements destructor. Do this apply to the new operator?

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6 Answers 6

up vote 5 down vote accepted

STL containers store copies of the objects you give to them, pointers in your example. They never release any memory you explicitly allocated. You have to deallocate that memory yourself, so the second "release" method should be used.

Of course, you don't need to new every int. Just use vector<int> instead - you won't have to deal with manual memory management at all.

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+1 for mentioning the right way to make a vector of ints. –  Kleist Jan 25 '11 at 22:22

The clear method will indeed call destructors. However, your vector is storing pointers, and the destructor for pointers is a trivial no-op. It does not call delete.

Therefore, simply calling clear will not free the memory for all the int objects you allocated with new. You need to delete them.

If you use a smart pointer instead of an ordinary pointer, then the pointed-at objects will get freed at the appropriate time without you having to do anything special.

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OK. So if I replace the vector with this: "vector< auto_ptr< int > > Vector;" I won't have to use any of the methods? –  DeadCapacitor Jan 25 '11 at 22:26
NO! Don't use auto_ptr in containers. They don't meet the copy semantics requirements for containers. You'll need to use something like shared_ptr from Boost, tr1, or C++0x –  Fred Larson Jan 25 '11 at 22:29
A shared_ptr would be better; auto_ptr doesn't meet all the requirements for things that can be stored in STL containers. –  Rob Kennedy Jan 25 '11 at 22:29
@Hyper: As you can see, that's one of the failures of C++03. The best replacement, if it's available to you, is C++0x's unique_ptr. It cannot be copied, but it can be moved. –  GManNickG Jan 25 '11 at 22:37
"Smart pointers" aside, does the vector allocate memory on the heap internally for new elements? –  DeadCapacitor Jan 25 '11 at 22:53

For what you are doing there you would need to use ReleaseMethodTwo. What it means by saying that it calls the element's destructor is that contained classes (not contained pointers) will lose scope and have their destructors called.

No STL container will ever call delete for you, so far as I know. If you allocate and pass in a pointer, you will need to deallocate.

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You should use ReleaseMethodTwo(), because if you've allocated the memory, then it's your responsibility to delete it.

std::vector::clear() only erases the elements from the vector. It doesn't call delete on the elements being erased!

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As answered by others, vector does call the destructor of each element. In your case, the elements are pointers and hence it will not free the memory. For your application, the best choice is to use a reference counting smart pointer like boost:shared_ptr. Once there are no more references pointing to the elements (like the example you had written), the memory will be freed automagically.

PS: Do not use a "non-reference counting" smart pointer like std::auto_ptr with vector.

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if you are using vactor<int *> than you'll have a vector of pointers and you have to allocate memory for each elements and free this memory yourself also. It doesn't make much sense to use vector of pointers unless the size of type you want to store in the vector is quite big.

Actually when you do vector<T>::push_back(val) is it going to store a copy of val using a copy constructor T::T(T &orig) and call destructor for all elements when you do clear()

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Storing large objects is not a very good reason to use pointers. Especially since all good compilers now support rvalue references. –  Benjamin Lindley Jan 25 '11 at 22:31
I didn't say that it is a good reason, but it could be useful in some cases. –  Elalfer Jan 25 '11 at 22:37

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