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OK..so this confuses the hell out of me. I am dealing with some legacy C++ code parts of which I have a feeling are just not safe, but I am not 100% sure. Here's a snippet, for example of the risky stuff.

struct A {
    A() : a_ptr(0) {}
    A(some_type *ptr) : a_ptr(ptr) {}
    const some_type *a_ptr;

struct B {
    B() : b_ptr(0) {}
    B(some_type *ptr) : b_ptr(ptr) {}
    const some_type *b_ptr;

struct Data {
    Data(...) {//-Stuff that doesn't invole aptr_list or bptr_list;
    ~Data() {
        for(std::vector<A*>::iterator itr = aptr_list.begin(); itr != aptr_list.end() ++itr) {
            delete *itr;
        for(std::vector<B*>::iterator itr = bptr_list.begin(); itr != bptr_list.end() ++itr) {
            delete *itr;
    std::vector<A*> aptr_list;
    std::vector<B*> bptr_list;
    Data(const Data&);
    Data& operator=(const Data&);

Then in the implementation, I find:

void some_func(...) {
    //-Inside some function
    Data& d = get_data(...);
    for(...) {
         some_type *sptr = dynamic_cast<some_type*>(a_source_of_some_type_pointer);
         A* a = new A(sptr);
         B* b = new B(sptr);

I am a little uneasy about the same pointer sptr being used in the implementation above; would this create problems when the destructor of Data is invoked? On the other hand, it looks like we have two new calls for A* and B* and exactly two deletes, so if the destructor in Data is not deep - and maybe that's where I need clarification, then perhaps this is safe after all and my concern is misplaced? I did notice that the structs A and B for instance don't have any destructors defined, so I hope it is not deep. But I am not sure if this means their pointer data will be freed up or not. Appreciate expert insights as always.

Thanks for your time and interest.

share|improve this question
st::vector<std::unique_ptr<A>>. Problem solved. Also, std::shared_ptr<T> if you need different semantics. – Ed S. Jul 23 '13 at 23:23
Also, run valgrind to determine if there are any leaks – Homer6 Jul 23 '13 at 23:25
@Ed S: shared_ptr<const some_type> indeed looks like a good idea. – MSalters Jul 23 '13 at 23:30
B* b = new B(sptr) this line is missing a semicolon. – Snps Jul 23 '13 at 23:49
up vote 2 down vote accepted

A and B do not have a user defined destructor, so nothing INSIDE a or b gets destroyed (other than the actual memory it holds being freed up, but since sptr is just held there, it is not being deleted). [Obviously, if A or B contains some other class, say a std::string or a std::vector, that class would be destroyed].

So, in other words, your code is just fine like it is - a and b only holds a copy of sptr, but it's never deleted [in this bit of code, if it needs deleting later, that's a different matter].

share|improve this answer
Thanks, that is reassuring. :-) – squashed.bugaboo Jul 24 '13 at 13:33

Data::~Data() will not destroy sptr pointer. It will call A::~A() and B::~B() only.

I'm not sure what you want to do, but if you want a deep destruction you need to make sure you don't free a memory address which was already freed by someone before.

It depends on implementation requirements, but ideally the user who allocated the object should free as well. So since this sptr is allocated been by someone else, if you free it you might get a dangling pointer.

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sptr is not owned by either A or B, so this is correct.

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As long as the lifetime of *sptr encompasses the lifetime of the B and B objects using it. – Ben Voigt Jul 23 '13 at 23:23
Indeed, but the question was about the invocation of Data::~Data. – MSalters Jul 23 '13 at 23:29
Thanks @MSalters: But what is correct, again? – squashed.bugaboo Jul 24 '13 at 13:33

If we shall be really finical then the code can leak.

If d.aptr_list.push_back() needs and fails to reserve more capacity, then the memory pointed to by a and b will leak.

for(...) {
     some_type *sptr = dynamic_cast<some_type*>(a_source_of_some_type_pointer);
     A* a = new A(sptr);          // Allocate memory
     B* b = new B(sptr)           // Allocate memory (and missing semicolon!!)
     d.aptr_list.push_back(a);    // If this fails,
     d.bptr_list.push_back(b);    // or this,
}                                 // then exception is thrown and memory is lost
                                  // (unless you catch the exception and
                                  // perform a delete).

You should use a smart pointer like std::unique_ptr to wrap around the pointers for safety.

Your lists should be of type std::vector<std::unique_ptr<A>> and std::vector<std::unique_ptr<B>>.

In some_func the code could read something like this:

some_type *sptr = dynamic_cast<some_type*>(a_source_of_some_type_pointer);
d.aptr_list.push_back(std::unique_ptr<A>(new A(sptr)));
d.bptr_list.push_back(std::unique_ptr<B>(new B(sptr)));
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