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I am writing a dynamic array that holds pointers of the values in each indexes. I am trying to write the takeAt method but I am not sure if it is causing a memory leak.

The pointer array is "list" T** list = new T* [SIZE];


template <class T>
const T& List<T>::takeAt(const int &index) {
    if (isEmpty()) {
        return T();
    assert(index >= 0 && index < size);
    T* ptr = list[index];
    int numMove = size - index;
    memmove(list + index, list + index + 1, numMove * POINTER_SIZE);
    list[size] = NULL;
    return *ptr;

If this does cause a memory leak, how can I fix it (without returning the pointer instead)? Please make note of anything else here I am doing incorrectly. Thanks in advance.

share|improve this question
What's list and where/how is it stored? – orlp Jun 30 '12 at 7:31
up vote 2 down vote accepted

The memory leak isn't in that function, but rather might be caused by the caller of that function who might fail to delete the returned object. However, there are several problems still, the biggest of which is that the function signature is totally misleading for what it does. Returning a const reference to the object makes it look as though they're just accessing it (ala std::vector::at or similar), not taking ownership. You're also returning a reference to a temporary at the top which is going to cause trouble later (does your compiler not issue a warning about this??).

For a function like this, you should return a pointer, which will make it clearer that the caller is taking ownership of the returned object. Something like:

template <class T> T* List<T>::takeAt(const int index) {
    if (isEmpty()) {
        return NULL;
    return ptr;

This also allows you to return NULL if the object isn't available which is much more sensible than returning a default-constructed object (because the caller can tell the difference between the object not being available and having simply gotten one that was in its default state). Also, why is it okay to call this function on an empty container but not with an index greater than its size? The two cases seem fairly equivalent to me.

Minor point: don't take simple types like int by const reference. I won't go into the details here, but it's more idiomatic to take them by value.

Finally, I'd suggest thinking about whether this model actually makes sense; you might note that none of the standard containers offer functions like this. It'll be easy to misuse and seems like a fertile source of memory leaks and confusion.

share|improve this answer
Returning NULL pointers is C-style (and requires C-style error checking). I would prefer to throw std::out_of_range if there was an range error (note that indexing an empty array is in fact an out of range error). – orlp Jun 30 '12 at 7:47
Fair call; I tend to agree, although my current employer bans exceptions so maybe I'm getting out of the habit. Either way is better than returning a default-constructed instance. – Peter Jun 30 '12 at 8:59

The fact, that you are returning a reference is not a problem. You just need to release that memory outside of your function, in case if that memory is on the heap.

int index = 4;
T &value = list_var.takeAt(index);
// ...
delete &value;

Note that the code above expects that T does not have destructor. Reference is a way how the memory is accessed. It has notihng to do with how is was allocated.

Besides that You put NULL outside of your array on the first call. Plus there is no need to put NULLs into your array of pointers. This is not changing anything.

share|improve this answer

It's not directly a memory leak, you still have a way to refer to all your data once the function exits but seems very likely to become one and seems rather risky.

Once you return from that function you can still do & on the returned reference to get it's address so you can delete the item. But that's not a common way to do things and rather error prone.

This all depends too, on what you are storing in the list. If they are things you've allocated with new then yes, it may be a leak. If they are addresses of existing objects then they may not need deleting or may be deleted elsewhere so nothing is leaked.

As an aside, I wouldn't call my array "list". it's likely to cause a lot of confusion to c++ programmers who will read it as the std::list template.

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