Both unique_ptr and shared_ptr accept a custom destructor to call on the object they own. But in the case of unique_ptr, the destructor is passed as a template parameter of the class, whereas the type of shared_ptr's custom destructor is to be specified as a template parameter of the constructor.

template <class T, class D = default_delete<T>> 
class unique_ptr
    unique_ptr(T*, D&); //simplified


template<class T>
class shared_ptr
    template<typename D>
    shared_ptr(T*, D); //simplified

I can't see why such difference. What requires that?

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    shared_ptr type-erases the deleter, i.e. users of shared_ptr don't have to know what type the deleter has. This has a run-time cost (allocation, dereference), so it isn't performed for unique_ptr (which is overhead-free). E.g. see stackoverflow.com/q/6324694/420683 – dyp Jan 25 '14 at 19:19
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    @dyp Ok, but why does shared_ptr do that? – qdii Jan 25 '14 at 19:23
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    @Nemo shared_ptr has to store a bookkeeping object anyway, so it already requires an additional allocation (when not using make_shared). Also, it is sometimes useful to be able to use shared_ptr's reference counting mechanism with pointers not under the shared ownership of the bookkeeping object. – dyp Jan 25 '14 at 19:23
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    @qdii shared_ptr implies shared ownership. It doesn't require of all owners to know how to destroy the object, and that's probably already good enough a reason to provide this type erasure. The overhead also isn't much larger because of the bookkeeping object. – dyp Jan 25 '14 at 19:28
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    @qdii IIRC there are implementations of shared_ptr that have virtually no overhead for the type erasure, as they just combine it with the overhead required for a bookkeeping object. -- Although any owner might be required to destroy the thing owned by the shared_ptr, the owner doesn't need to know how to do that, i.e. it doesn't need to see neither the definition nor the declaration of the release function of that owned thing. – dyp Jan 25 '14 at 19:39

If you provide the deleter as template argument (as in unique_ptr) it is part of the type and you don't need to store anything additional in the objects of this type. If deleter is passed as constructor's argument (as in shared_ptr) you need to store it in the object. This is the cost of additional flexibility, since you can use different deleters for the objects of the same type.

I guess this is the reason: unique_ptr is supposed to be very lightweight object with zero overhead. Storing deleters with each unique_ptr could double their size. Because of that people would use good old raw pointers instead, which would be wrong.

On the other hand, shared_ptr is not that lightweight, since it needs to store reference count, so storing a custom deleter too looks like good trade off.

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    "you can use different deleters for objects of the same type": Do you mean that the standard wanted to allow two different shared_ptr pointing to the same object to be destructed different ways? – qdii Jan 25 '14 at 19:26
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    @qdii - no, not the same object, but different shared_ptr of the same type. – Wojtek Surowka Jan 25 '14 at 19:28
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    @WojtekSurowka wait, if they are pointing to different objects of the same type T, passing the destructor as a class parameter is enough to let the user call different destructors for each of them. Just use std::shared_ptr<T, D1> for the first one, and std::shared_ptr<T, D2> for the second one. – qdii Jan 25 '14 at 19:32
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    @qdii: You need to imagine a function that takes a shared_ptr as argument, or an object that stores a shared_ptr as a member variable. Not having to care about the deleter makes them more flexible. – Nemo Jan 25 '14 at 19:34
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    It is all about tradeoffs. unique_ptr is not supposed to have any overhead, so the complication you described is a necessary cost. In the case of shared_ptr some overhead is already there, so it could be designed in more flexible way. – Wojtek Surowka Jan 25 '14 at 20:05

Shared pointers of different types can share the ownership of the same object. See overload (8) of std::shared_ptr::shared_ptr. Unique pointers don't need such a mechanism, as they don't share.

template< class Y > 
shared_ptr( const shared_ptr<Y>& r, element_type* ptr ) noexcept;

If you didn't type-erase the deleter, you wouldn't be able to use such a shared_ptr<T, Y_Deleter> as a shared_ptr<T>, which would make it basically useless.

Why would you want such an overload?


struct Member {};
struct Container { Member member };

If you want to keep the Container alive, while you use the Member, you can do

std::shared_ptr<Container> pContainer = /* something */
std::shared_ptr<Member> pMember(pContainer, &pContainer->member);

and only have to hold onto pMember (perhaps put it into a std::vector<std::shared_ptr<Member>>)

Or alternatively, using overload (9)

template< class Y > 
shared_ptr( const shared_ptr<Y>& r ) noexcept; 
  // Only exists if Y* is implicitly convertible to T*

You can have polymorphic sharing

struct Base {};
struct Derived : Base {};

void operate_on_base(std::shared_ptr<Base>);

std::shared_ptr<Derived> pDerived = /* something*/
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