I have functions that take in std::shared_ptr as an argument so I am forced to use std::shared_ptr, but the object I am passing to the function is not dynamically allocated. How do I wrap the object in std::shared_ptr and have std::shared_ptr not call delete on it.

  • 2
    @KenLi Except that std::shared_ptr and boost::shared_ptr are virtually identical. Nov 21, 2013 at 21:12
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    boost::shared_ptr was basically the prototype for what became std::shared_ptr.
    – Will Dean
    Nov 21, 2013 at 21:13
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    This is a horrible idea. The only reason for a function to accept a shared_ptr is if it intends to store a reference to the pointee (i.e., share ownership). Invalidating the object while that reference is stored somewhere will not go well. If the function in question does not store a reference, it should not accept an owning pointer type.
    – Casey
    Nov 21, 2013 at 21:29
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    A use case for this is where you have something like FILE * where the type can either be managed (e.g. via fopen) or not (e.g. stdin) and you have a class that uses the object beyond the call that created it (e.g. creating a parser or logger). In that case, you would want to pass a "do nothing" deleter with stdin, but an fclose deleter with an fopened file.
    – reece
    Mar 25, 2017 at 17:37
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    @Casey A real life application I have come across where this idea makes sense is with a shared_ptr<ostream>. I may have a function that takes an ostream and stores a reference to it as a shared pointer for later use. Now let's say I want to output to std::cout. I cannot delete std::cout, but I can guarantee that it will exist for at least as long as my function will retain the shared pointer.
    – Cort Ammon
    Mar 9, 2018 at 18:04

6 Answers 6

MyType t;
nasty_function(std::shared_ptr<MyType>(&t, [](MyType*){}));
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    @Angew: No coincidence. Just plain copy and paste. Demonstrates a more C++11ish alternative.
    – ronag
    Nov 21, 2013 at 21:12
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    Note: Any function you pass a shared_ptr to might also grab ownership of the object, so the OP needs to make sure that either (a) that is not happening or (b) the lifetime of the object is longer than the lifetime of everything that has shared ownership of it.
    – Nevin
    Nov 21, 2013 at 23:16

Specify a no-op deleter when creating the shared pointer. E.g. like this:

void null_deleter(MyType *) {}

int main()
  MyType t;
  nasty_function(std::shared_ptr<MyType>(&t, &null_deleter));

The best way to do this is to use the aliasing constructor:

nasty_function(std::shared_ptr<MyType>(std::shared_ptr<MyType>{}, &t));

Compared to the null deleter approach, this doesn't need to allocate a control block, and is noexcept.

As noted by @Casey and @Nevin, this should only be done when you are sure that the function won't attempt to take shared ownership, or if the object would outlive everything that might "own" it.

  • Great hint. As a note on versions: this is a feature of Cx+11 but also available from boost 1.35 as nasty_function(boost::shared_ptr<MyType> (boost::shared_ptr<MyType>(), &t));
    – radke
    Aug 23, 2016 at 16:33
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    I just want to add a note about @T.C's answer using the aliasing constructor. If you use this technique, you will not be able to take a std::weak_ptr on the resulting std::shared_ptr. Dec 15, 2016 at 14:41
  • Does it mean that you have a shared_ptr without a control block?
    – curiousguy
    Jan 27, 2017 at 23:32

Boost.Core provides a null_deleter function object exactly for this purpose.

Citing the documentation:

The header <boost/core/null_deleter.hpp> defines the boost::null_deleter function object, which can be used as a deleter with smart pointers such as unique_ptr or shared_ptr. The deleter doesn't do anything with the pointer provided upon deallocation, which makes it useful when the pointed object is deallocated elsewhere.

Example from the documentation:

std::shared_ptr< std::ostream > make_stream()
    return std::shared_ptr< std::ostream >(&std::cout, boost::null_deleter());

You can do this trick:

A a;
shared_ptr<A> pa(&a);
new (&pa) shared_ptr<A>();  // pa "forgets" about a
  • Placement new to overwrite the pointer without calling its destructor. Clever. Purely academically (because the entire question is pretty horrible): any idea whether this has well-defined behaviour?
    – Thomas
    Apr 18, 2016 at 10:31
  • @Thomas Of course not. The second line is UB already (for breaking a Requires clause on the constructor); you don't even need the placement new.
    – T.C.
    Apr 18, 2016 at 10:40
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    Also, ignoring everything else, at a minimum you leak the control block.
    – T.C.
    Apr 18, 2016 at 10:42

i was just searching for a solution, saw this question. found nothing and made a great one this is my code

class HBitmap : public shared_ptr<HBITMAP__>
    HBitmap(HBITMAP Handle);
    bool autoDelete = true;

Win32::HBitmap::HBitmap(HBITMAP Handle)
: shared_ptr<HBITMAP__>(Handle, [&](HBITMAP hBitmap)  {if(autoDelete)DeleteObject(hBitmap);})

this solution is a combination of lambda expressions and inheritance. very well formed. fast. you can't expect anything more. not only you can set the deleter, but if you do some modifications, you can use a std::function<void(pointer)> as a custom deleter. with lambdas you can run free and do what ever you want.

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