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I've noticed that when I use std::shared_ptr (or any other smart pointer) a custom allocator/deleter is assigned through the ctor, which happens to be a template. My question is: how is the allocator/deleter stored and used?

Are these functors stored as a function pointer, void*, or what? Is it an indirect call, or a direct call?

Just to have more of a clear understanding of what I'm trying to ask, consider the following code:

struct SomethingAwesomeDeleter
    void operator()(SomethingAwesome* ptr) const
        // do something awesome
        delete ptr;
typedef std::shared_ptr<SomethingAwesome> SomethingAwesomePtr;

SomethingAwesomePtr ptr{new SomethingAwesome, SomethingAwesomeDeleter{}};

How is SomethingAwesomeDeleter{} stored and used?

NOTE: I do realise std::shared_ptr is a template class, however std::shared_ptr does not have template arguments for the deleter/allocator in the class template arguments, i.e. there is no such template class as std::shared_ptr<T, Allocator, Deleter>.

share|improve this question
There is no such template class decl as you described, you are correct. But there is such a template-override for the shared_ptr constructor (there are a boatload of constructor overrides for shared_ptr). Regarding the storage, I would imagine it is implementation defined, but most implementations I've seen store them as either instance members of shared_ptr or something similar. I could (and likely am) wrong on this, as I'm not familiar with whether the standard dictates actual storage details of said-objects. – WhozCraig Jan 1 '13 at 10:28
up vote 3 down vote accepted

You can store any function object in a std::function. This takes care of either storing the function pointer directly (if it is a plain function) or wrapping it inside some object. That's one possible way to implement a shared_ptr deleter without having the function type being part of the template type.

Example (untested, just to give you the idea)

// This is the struct which actually holds the shared pointer
// A shared_ptr would reference count this
template <typename T>
class shared_ptr_shared
    std::function<void (T*)> del_;
    T* p_;
    // other members

    template <typename Deleter>
    shared_ptr_shared (T* obj, Deleter deleter)
    : p_ (p)
    , del_ (deleter)

    ~shared_ptr_shared ()
        if (del_) {
            del_ (p_);
        } else {
            delete p_;

You can find out more about std::function does this here: how boost::function and boost::bind work

share|improve this answer
so in other words, an indirect call. Well I suppose I expected that. – miguel.martin Jan 1 '13 at 10:56
Yes, there is no problem that cannot be solved with an indirect call ;) – Anteru Jan 1 '13 at 11:10

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