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Is it possible to use a custom deleter after creating a std::shared_ptr without using new?

My problem is that object creation is handled by a factory class and its constructors & destructors are protected, which gives a compile error, and I don't want to use new because of its drawbacks.

To elaborate: I prefer to create shared pointers like this, which doesn't let you set a custom deleter (I think):

auto sp1 = make_shared<Song>(L"The Beatles", L"Im Happy Just to Dance With You");

Or I can create them like this, which does let met set a deleter through an argument:

auto sp2(new Song, MyDeleterFunc);

But the second one uses new, which AFAIK isn't as efficient as the top sort of allocation.

Maybe this is clearer: is it possible to get the benefits of make_shared<> as well as a custom deleter? Would that mean having to write an allocator?

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Could you add some (pseudo-)code to explain what you need or otherwise elaborate? (I suspect an XY-Problem) – Daniel Frey Oct 25 '13 at 21:35
i don't understand your problem, ofc you are free to initialize shared_ptrs with your values, it doesn't have to be something returned by the new operator – Pavel Beliy Oct 25 '13 at 21:37
possible duplicate of Using custom deleter with std::shared_ptr – Zac Howland Oct 25 '13 at 21:41
The deleter is not part of the type, only of the object. So... no. – Kerrek SB Oct 25 '13 at 21:42
Care to elaborate, please? I'm new to smart pointers. – Kristian D'Amato Oct 25 '13 at 21:44
up vote 3 down vote accepted

You have to use new in your case as the design of std::make_shared to avoid an additional allocation can only work if std::make_shared can use it's own (internal) custom deleter to free to combined memory of the object and the shared_count.

You have to accept that with your own custom deleter you can not optimize away an allocation, but you should still use a std::make_shared-like wrapper to encapsulate the new for reasons of safe usage. This helps to avoid memory leaks in cases where the constructors of the object throw an exception and someone uses

template<typename T>
void f(const T&, const T&);

f( std::shared_ptr<X>(new X), std::shared_ptr<X>(new X) ); // possible leak

instead of

std::shared_ptr<X> make_X() { return std::shared_ptr<X>(new X); }
f( make_X(), make_X() ); // no leak
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Thanks. Can you expand on why the second is better than the first? I don't see why there's a potential for leaks only in the first one. – Kristian D'Amato Oct 25 '13 at 22:09
In the second case each call to make_X makes sure that each pointer returned from new is immediately stored in a std::shared_ptr and so even in case of an exception, there is a shared_ptr which will delete the instance returned from new. – Daniel Frey Oct 25 '13 at 22:13
Is there anything reasonable? That will do the same as make_shared and will work with non-public destructors? IMHO, requirement to have public destructor defeats whole purpose of having shared pointers. – zzz777 Jan 17 '15 at 21:37
What is wrong with this approach: make_shared<storage_with_deleter<T, D>>, where storage_with_deleter<T, D> contains a std::aligned_storage_t<sizeof(T),alignof(T)> t; and a D d;, on construction placement-news into the t, and on ~storage_with_deleter invokes d(static_cast<T*>(&t)), then use aliasing constructor to turn it into a shared_ptr<T>. – Yakk Sep 2 '15 at 14:46
@Yakk It might work, but since one point of make_shared is to be more efficient, returning another instance of shared_ptr through the aliasing constructor will prevent elision or other optimization (depending on context) and requiring an additional atomic ref-counter add and delete. In the end you'd have to benchmark it to see if it is really worth the additional complexity. – Daniel Frey Sep 2 '15 at 15:06

No, there is no form of std::make_shared that takes a custom deleter.

If you need to return a shared_ptr with a custom deleter then you'll have to take the performance hit.

Think about it: If you use make_shared then it will allocate a larger memory region that can store the reference count and your object together, and the placement new will be called. The shared_ptr returned from make_shared already has a custom deleter, one that calls your object's destructor explicitly and then frees the larger memory block.

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