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I need to make a template function that receives as parameter a std::container of some type - let's say std::vector and deletes all elements from that container. I need a function equivalent to this:

for_each(some_vector.begin(), some_vector.end(), [](some_vector_type* element){delete element;}); 

The call should be something like:


Is this possible?

EDIT: I want to use first code inside delete_all_elements

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You're using C++11 and still write delete ? Are you sure you can't make your problem disappear with std::vector<std::unique_ptr<T>> ? –  Alexandre C. Aug 30 '11 at 19:54
As a bonus answer: If you delete some pointers, at the end: either put those deleted pointers to NULL (or C++11's nullptr), or remove those pointers from the container (unless you're sure the container itself is destroyed soon after). Having dangling pointers is not a good design choice... :-) ... Reading all answers, I'm surprised to read none will do that last bit of cleaning. –  paercebal Aug 30 '11 at 20:12
Another reason for using std::unique_ptr to vanish the problem is that when you want a vector of pointers to the first elements of arrays, instead of to single objects, you can switch to a vector of std::unique_ptr<T[]>. As you are you'd have to write a delete_all_array_elements function identical to delete_all_elements except for using delete[] instead of delete, and then call the right one without help from the type system. –  Steve Jessop Aug 31 '11 at 0:34

4 Answers 4

up vote 13 down vote accepted

Why wouldn't it be?

template <typename C>
void delete_all_elements(C& container) {
        container.begin(), container.end(),
        [](typename C::value_type ptr) { delete ptr; }

You can add e.g. static_assert(std::is_pointer<typename C::value_type>::value, "Elements must be pointers"); at the beginning to ensure you won't try to delete non-pointers.

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Thanks! I didn't know about C::value_type. –  Felics Aug 30 '11 at 19:55
In this case I don' think it makes a difference. But it may be worth using C::reference as your default in this type of situation to prevent accidental copies when the code is changed. –  Loki Astari Aug 30 '11 at 20:15
If you're going to be passed the container reference, add a container.clear() to the end, so they're not left with a container of dangling pointers. –  Dave S Aug 30 '11 at 20:21
I added container.clear() in my code:) Thank again for help –  Felics Aug 30 '11 at 20:30

Why not do something like virtually every STL algorithm:

template<typename Iterator>
void delete_all_elements(Iterator begin, Iterator end) {
    while (begin != end) {
        delete *begin;
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The canonical way is:

template <typename I>
void delete_all_elements(I begin, I end)
    for (; begin != end; ++begin) delete *begin;
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Are you looking for this (C++03 solution):

template<typename Container>
void delete_all(const Container & c)
   typename Container::const_iterator begin = c.begin(), end = c.end();
   while ( begin != end ) { delete *begin; ++begin; }
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And I could be wrong, but accepting const containers for your "delete all" function is bad style: While legal, you are still semantically modifying the values inside the container (destroying the objects inside the container). –  paercebal Aug 30 '11 at 20:09
Hope, its okay now. And const-ness is no problem here. const int *p = new int; delete p; perfectly value! : Yes, I know. This is why I wrote "While legal" in my comment. But semantically this is wrong because, no matter the indirection (here, a "double pointer"), each item of the container contains a value pointing to a valid object. In the end of the function, those values do not point anymore to valid objects (they were destroyed). Thus, in a way, you modified the container, which is what you promised you would not do by declaring it const in the function prototype. –  paercebal Aug 30 '11 at 20:20
Nawaz: It's not that it's illegal, but it's poor form, as the function implies it's not going to change the public contents of the data, but then proceeds to blast all of the pointers. –  Dave S Aug 30 '11 at 20:21
@Nawaz : If you make this non-const, then you cannot call this function on const vector. Of course! This is exactly the point: The point is not giving your function as much power as possible. The point is to make your interfaces (here, your function prototype) as clear as possible when the user looks at them: const is here to tell the user "I promise I won't touch your container's contents". And then, in the body, you destroy the vector's content. This means you lie to the user, which is semantically wrong. –  paercebal Aug 30 '11 at 20:33
@paercebal: The C++03 standard requires end to be a constant time operation in all containers. –  David Rodríguez - dribeas Aug 30 '11 at 21:34

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