std::vector<T>
does indeed call the destructor of T
when it is destroyed. Here T
is int *
. The destructor of int *
does nothing. The storage for the int *
itself is freed, but the int
s they point to are not.
Consider:
int main() {
int *x = new int(23);
return 0;
}
This exhibits the same problem; when x
goes out of scope, its destructor is indeed called, and the storage for the pointer that is x
is freed, but since the destructor of a pointer is a no-op, the pointed-to int
is not freed.
More to the point, vector
doesn't know how the int
s were allocated. They might be allocated by new int
, but they could also point to elements inside an array allocated with new int[200]
, or they might point to malloc
'd data, or they might point into a mmap
'd buffer, or they might point to struct elements, or two vectors might be pointing to the same int
s... etc. vector
isn't smart enough to divine what you want done with these, and so it leaves them alone (additionally, giving vector
logic to delete pointed-to elements would break vectors of non-pointer elements such as std::vector<int>
, as you can't delete
an int
!)
You need to either use a std::vector<int>
, or use a smart pointer in conjunction with it, eg std::vector<boost::shared_ptr<int> >
. Note that using smart pointers may add overhead; with C++0x you should be able to use std::vector<std::unique_ptr<int>>
in conjunction with std::move
to avoid this overhead. Boost also has pointer vectors that free the pointed-to elements as you expected as well.