Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have implemented a vector of pointers to objects. When the data types that I specify in the template are not pointers it behaves properly as a vector. I would like to use it in order to support some polymorphic objects, so the data type that I specify in the template has to be a pointer. I got stuck in a method that has to delete an element in the vector, and I don't know how to fix that.
I will try to make my point with this example that represents what I've done:

template<typename _Tp>
class Vector{
    _Tp ** container ; 
    size_t size ;
    size_t capacity ;
    Vector() : container (NULL) { /*...*/ }
    Vector( int capacity ) { 
        container = new _Tp* [capacity] () ;
        for ( int i = 0 ; i < capacity ; i++ )  
             container[i] = NULL ; 
        size = 0 ; 
        this->capacity = capacity ;

    void deleteAt ( int position ) {
     /*... Check bad position ...*/ 
     delete ( container[position] ) ; 
     /*... move data ... */

    void assignAt ( int position, const _Tp & obj ) { 
        /*... Check bad position and capacity ...*/ 
        container[position] = new _Tp ( obj ) ; 
        size++ ;
    /*... more methods ...*/ 
} ;

deleteAt(int) is called and _Tp = SomeClass* the destructor of SomeClass is never called. What should I do to fix this?

This is the way I use the vector:

class Base () {/*... Astract class  ...*/ } ; 
class Derived1 () : public Base {/*... Implementation ...*/} ;
/*... More derived classes from Base ...*/

int main (void) {
    Vector<Base*> * v = new Vector<Base*> (100) ; 
    v->assignAt(50,new Derived1 ()) ; 
    v->deleteAt(50) ; 
share|improve this question
is_pointer this will check if the template param is a pointer, it should help you –  aaronman Jul 31 '13 at 23:55
container should be defined as _Tp** rather than Vector** I think? –  Jonathan Potter Jul 31 '13 at 23:57
Show how you actually use this class. How do you instantiate Vector? If it's Vector<SomeClass>, then ~SomeClass should be called. If it's Vector<SomeBaseClass> where SomeBaseClass is a public base of SomeClass, then make sure that SomeBaseClass destructor is declared virtual. –  Igor Tandetnik Aug 1 '13 at 0:04
It seems you got one indirection too much anyway: From the description you'd want your internal array be of type _Tp*: What you currently delete is a pointer to a pointer to SomeClass. That clearly won't call the destructor of SomeClass (BTW, the identifier _Tp is reserved for use by the standard C++ library or the compiler; also, I assume you mean to write _Tp = SomeClass*). –  Dietmar Kühl Aug 1 '13 at 0:07
You should be using the vector like Vector<Base> not Vector<Base*>. Or preferably use smart pointers as Mats Petersson suggests. –  Jonathan Potter Aug 1 '13 at 0:18

1 Answer 1

up vote 1 down vote accepted

If your code stores a pointer to an object, it is not your task (in the container) to delete the object itself. The whole point with storing a pointed-to object is that you don't want to store the object itself, but the pointer to the object. It's exactly the same thing if you have a vector<MyClass *> v; - you don't want the MyClass* that is in the vector to be destryed [or at least, if you do want it, you'll be disappointed].

Now, if the user of your Vector wishes for this to happen (s)he should store a unique_ptr or shared_ptr in the container, not a basic pointer.

share|improve this answer

Your Answer


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.